From 417f1a9bcc779002f03ada3544d89daf6bfa2193 Mon Sep 17 00:00:00 2001 From: Michael Kavulich Date: Tue, 26 Nov 2024 14:56:28 -0700 Subject: [PATCH 1/9] First rules update in v1 branch, fix misspelled standard names (#85) Co-authored-by: Jesse Nusbaumer --- Metadata-standard-names.md | 26 ++++++------ StandardNamesRules.rst | 82 ++++++++++++++++++++++++-------------- standard_names.xml | 26 ++++++------ 3 files changed, 79 insertions(+), 55 deletions(-) diff --git a/Metadata-standard-names.md b/Metadata-standard-names.md index ff4c230..b8eb704 100644 --- a/Metadata-standard-names.md +++ b/Metadata-standard-names.md @@ -88,7 +88,7 @@ Currently, the only dimension which supports all six dimension types is horizont * `real(kind=kind_phys)`: units = kg m-3 * `ratio_of_water_vapor_to_dry_air_gas_constants_minus_one`: (Rwv / Rdair) - 1.0 * `real(kind=kind_phys)`: units = 1 -* `standard_gravitational_acceleration`: scalar constant representing gravitiational acceleration +* `standard_gravitational_acceleration`: scalar constant representing gravitational acceleration * `real(kind=kind_phys)`: units = m s-2 ## coordinates * `latitude`: Latitude @@ -231,9 +231,9 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = m s-2 * `tendency_of_northward_wind_due_to_model_physics`: Total change in northward wind from a physics suite * `real(kind=kind_phys)`: units = m s-2 -* `air_horizontal_streamfunction`: Scalar function describing the stream lines of the wind +* `air_horizontal_streamfunction`: Scalar function describing the streamlines of the horizontal wind * `real(kind=kind_phys)`: units = m2 s-1 -* `air_horizontal_velocity_potential`: Scalar potential of the wind +* `air_horizontal_velocity_potential`: Scalar potential of the horizontal wind * `real(kind=kind_phys)`: units = m2 s-1 * `air_upward_absolute_vorticity`: The upward (kth) component of the curl of the vector wind field * `real(kind=kind_phys)`: units = s-1 @@ -484,7 +484,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = 1 * `aerosol_aware_multiplicative_rain_conversion_parameter_for_shallow_convection`: Aerosol aware multiplicative rain conversion parameter for shallow convection * `real(kind=kind_phys)`: units = 1 -* `number_of_microphysics_varaibles_in_xy_dimensioned_restart_array`: Number of microphysics varaibles in xy dimensioned restart array +* `number_of_microphysics_variables_in_xy_dimensioned_restart_array`: Number of microphysics variables in xy dimensioned restart array * `integer(kind=)`: units = count * `number_of_microphysics_variables_in_xyz_dimensioned_restart_array`: Number of microphysics variables in xyz dimensioned restart array * `integer(kind=)`: units = count @@ -682,7 +682,7 @@ Variables related to the compute environment * `integer(kind=)`: units = 1 * `control_for_land_surface_scheme_dynamic_vegetation`: Control for land surface scheme dynamic vegetation * `integer(kind=)`: units = 1 -* `indentifier_for_exponential_cloud_overlap_method`: Indentifier for exponential cloud overlap method +* `identifier_for_exponential_cloud_overlap_method`: Identifier for exponential cloud overlap method * `integer(kind=)`: units = 1 * `identifier_for_exponential_random_cloud_overlap_method`: Identifier for exponential random cloud overlap method * `integer(kind=)`: units = 1 @@ -848,7 +848,7 @@ Variables related to the compute environment * `integer(kind=)`: units = 1 * `control_for_land_surface_scheme_runoff_and_groundwater`: Control for land surface scheme runoff and groundwater * `integer(kind=)`: units = 1 -* `identifer_for_scale_aware_mass_flux_deep_convection`: Identifer for scale aware mass flux deep convection +* `identifier_for_scale_aware_mass_flux_deep_convection`: Identifier for scale aware mass flux deep convection * `integer(kind=)`: units = 1 * `identifier_for_scale_aware_mass_flux_shallow_convection`: Identifier for scale aware mass flux shallow convection * `integer(kind=)`: units = 1 @@ -1068,7 +1068,7 @@ Variables related to the compute environment * `integer(kind=)`: units = index * `index_of_upward_virtual_potential_temperature_flux_in_xyz_dimensioned_restart_array`: Index of upward virtual potential temperature flux in xyz dimensioned restart array * `integer(kind=)`: units = index -* `index_of_subgrid_cloud_area_fracation_in_atmosphere_layer_in_xyz_dimensioned_restart_array`: Index of subgrid cloud area fracation in atmosphere layer in xyz dimensioned restart array +* `index_of_subgrid_cloud_area_fraction_in_atmosphere_layer_in_xyz_dimensioned_restart_array`: Index of subgrid cloud area fraction in atmosphere layer in xyz dimensioned restart array * `integer(kind=)`: units = index * `index_of_timestep`: Index of timestep * `integer(kind=)`: units = index @@ -1098,7 +1098,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m * `do_allow_supersaturation_after_sedimentation`: Do allow supersaturation after sedimentation * `logical(kind=)`: units = flag -* `autoconverion_to_snow_size_threshold`: Autoconverion to snow size threshold +* `autoconversion_to_snow_size_threshold`: Autoconversion to snow size threshold * `real(kind=kind_phys)`: units = um * `bergeron_findeisen_process_efficiency_factor`: Bergeron findeisen process efficiency factor * `real(kind=kind_phys)`: units = fraction @@ -1346,7 +1346,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = 1 * `total_amplitude_of_sppt_perturbation`: Total amplitude of sppt perturbation * `real(kind=kind_phys)`: units = 1 -* `do_turbulent_orographic_form_drag_in_unified_gravity_wave_physics_gravitiy_wave_drag_scheme`: Do turbulent orographic form drag in unified gravity wave physics gravitiy wave drag scheme +* `do_turbulent_orographic_form_drag_in_unified_gravity_wave_physics_gravity_wave_drag_scheme`: Do turbulent orographic form drag in unified gravity wave physics gravity wave drag scheme * `logical(kind=)`: units = flag * `updraft_area_fraction_in_scale_aware_tke_moist_edmf_pbl_scheme`: Updraft area fraction in scale aware tke moist edmf pbl scheme * `real(kind=kind_phys)`: units = fraction @@ -1516,7 +1516,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = K2 * `tendency_of_air_temperature_due_to_nonphysics`: Tendency of air temperature due to nonphysics * `real(kind=kind_phys)`: units = K s-1 -* `tendency_of_air_temperature_to_withold_from_sppt`: Tendency of air temperature to withold from sppt +* `tendency_of_air_temperature_to_withhold_from_sppt`: Tendency of air temperature to withhold from sppt * `real(kind=kind_phys)`: units = K s-1 * `tendency_of_activated_cloud_condensation_nuclei_from_climatology`: Tendency of activated cloud condensation nuclei from climatology * `real(kind=kind_phys)`: units = kg-1 s-1 @@ -1536,7 +1536,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg kg-1 * `weight_for_momentum_at_top_of_viscous_sublayer`: Weight for momentum at top of viscous sublayer * `real(kind=kind_phys)`: units = 1 -* `weight_for_potental_temperature_at_top_of_viscous_sublayer`: Weight for potental temperature at top of viscous sublayer +* `weight_for_potential_temperature_at_top_of_viscous_sublayer`: Weight for potential temperature at top of viscous sublayer * `real(kind=kind_phys)`: units = 1 * `weight_for_specific_humidity_at_top_of_viscous_sublayer`: Weight for specific humidity at top of viscous sublayer * `real(kind=kind_phys)`: units = 1 @@ -1862,7 +1862,7 @@ Variables related to the compute environment ## GFS_typedefs_GFS_coupling_type * `cellular_automata_global_pattern_from_coupled_process`: Cellular automata global pattern from coupled process * `real(kind=kind_phys)`: units = 1 -* `convective_cloud_condesate_after_rainout`: Convective cloud condesate after rainout +* `convective_cloud_condensate_after_rainout`: Convective cloud condensate after rainout * `real(kind=kind_phys)`: units = kg kg-1 * `cumulative_surface_downwelling_diffuse_nir_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface downwelling diffuse nir shortwave flux for coupling multiplied by timestep * `real(kind=kind_phys)`: units = J m-2 @@ -1876,7 +1876,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = J m-2 * `cumulative_surface_downwelling_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface downwelling shortwave flux for coupling multiplied by timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_net_downwellling_diffuse_nir_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface net downwellling diffuse nir shortwave flux for coupling multiplied by timestep +* `cumulative_surface_net_downwelling_diffuse_nir_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface net downwelling diffuse nir shortwave flux for coupling multiplied by timestep * `real(kind=kind_phys)`: units = J m-2 * `cumulative_surface_net_downwelling_diffuse_uv_and_vis_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface net downwelling diffuse uv and vis shortwave flux for coupling multiplied by timestep * `real(kind=kind_phys)`: units = J m-2 diff --git a/StandardNamesRules.rst b/StandardNamesRules.rst index 8c3d0e8..769ebb3 100644 --- a/StandardNamesRules.rst +++ b/StandardNamesRules.rst @@ -27,26 +27,31 @@ CCPP Standard Name Rules an appropriate name does not exist in that standard, or the adoption of said names leads to inconsistencies in the naming convention. -#. When no suitable standard name exists in the CF conventions, follow their - guidelines for standard name construction at this URL: - http://cfconventions.org/Data/cf-standard-names/docs/guidelines.html. Standard - names may be qualified by the addition of phrases in certain standard forms and - order. The "Qualifications" section of the CF guidelines should be used to - provide information about a variable's horizontal surface (e.g. at_cloud_base), - component (i.e. direction of variable, e.g. downward), medium (e.g. - in_stratosphere), process (e.g. due_to_deep convection), or condition (e.g., - assuming_clear_sky). The order defined by the CF rules should be observed. These - qualifications do not change the units of the quantity. - - All of the following phrases in brackets are optional. The words in *italic* - appear explicitly as stated, while the words in ``this font`` indicate other - words or phrases to be substituted. The new standard name is constructed by - joining the base standard name to the qualifiers using underscores. - - [``component``] standard_name [*at* ``level``] [*in* ``medium``] - [*due_to* ``process``] [*assuming* ``condition``] - - See the list of currently-used qualifiers below for help. +#. When no suitable standard name exists in the CF conventions, the following guidelines should be followed for constructing a new name. + The phrases in brackets are optional. The words in *italic* appear explicitly as stated, + while the words in ``this font`` indicate other words or phrases to be substituted. + The new standard name is constructed by joining the base standard name to the qualifiers using underscores. + + [``transformation``] [``component``] base_name [*at* ``level``] [*in* ``medium``] [*due_to* ``process``] [*assuming* ``condition``] + + This construction was originally based on rules set forth in the + `CF guidelines `_), + but have since evolved for better consistency and generality across a broader set of fields + than was originally envisioned by the CF conventions. "``medium``" should be specified when + the variable in question is a substance or other quantity contained within some other medium + (e.g. for "mole_fraction_of_ozone_in_air", the base name is "ozone", while the medium is "air"). + "Transformation" refers to descriptors such as "``tendency_of``", "``log10``", or other operations or processes describing some transformation or adjustment of a variable; a detailed list of possible transformations can be found `later in this document <#transformations>`_. + Other parts of the construction provide information about a variable's horizontal surface + (e.g. ``at_cloud_base``), component (i.e. direction of variable, e.g. ``downward``), process (e.g. + ``due_to_deep_convection``), or condition (e.g., ``assuming_clear_sky``). These qualifications do not + change the units of the quantity. This is not an exhaustive list of qualifiers that may be needed for a given standard name; + see subsequent rules below for more information. + + The following table provides a few concrete examples of standard names and how they are constructed + with respect to the guideline template. + +.. image:: https://raw.githubusercontent.com/wiki/ESCOMP/CCPPStandardNames/images/standard_name_construction_examples.png + :alt: image of table providing standard name construction examples #. Variables are current and instantaneous unless specified. Variables that are not current (e.g., previous timestep) or non-instantaneous (e.g., accumulated values) @@ -111,26 +116,29 @@ CCPP Standard Name Rules #. By default, the term *cloud* refers to all cloud phases and cloud types. Otherwise an additional prefix or suffix should be added to the standard name specifying what kind(s) - of clouds the variable repesents (e.g. *ice_cloud* if only including glaciated clouds, or + of clouds the variable represents (e.g. *ice_cloud* if only including glaciated clouds, or *cloud_at_500hPa* if only including clouds that exist at 500 hPa). #. If possible, qualifiers should be limited in order to allow for a wide - applicability of the variable. In other words, don't qualify with _for ``_xyz`` + applicability of the variable. In other words, don't qualify with ``_for_specific_context`` unless a variable could not conceivably be used outside of the more narrowly-defined context or a variable without the scope-narrowing qualifiers already exists and cannot be reused. + **Discouraged:** surface_upward_specific_humidity_flux_for_mellor_yamada_janjic_surface_layer_scheme + + **Preferred:** surface_upward_specific_humidity_flux + #. Spell out acronyms unless they are obvious to a vast majority of scientists/developers who may come across them. A - list of currently-used aliases is below. + list of currently-used acronyms and aliases is below. #. For control-oriented variables, if the variable is a Fortran logical, use flag_for ``_X``. If it is any other data type, use control_for ``_X``. All flags should be Fortran logicals. -#. Standard names that start with ``ccpp_`` represent CCPP framework-provided variables. - All other standard names should avoid the use of ``ccpp`` in their name in order - to avoid any confusion. +#. Reserved names: The prefix ``ccpp_`` represents CCPP framework-provided variables. + All other standard names should avoid the use of ``ccpp`` in their name. #. No punctuation should appear in standard names except for underscores (_). @@ -386,9 +394,25 @@ Prefixes | **sine_of** ``_X`` | **variance_of** ``_X`` +Suffixes +^^^^^^^^ +| ``X_`` mixing_ratio_wrt ``_Y`` + Other common standard name components ===================================== +Reserved phrase +--------------- + +These words/phrases should not be used outside of the described context + ++------------------------+-------------------------------------------------------------------------------------+ +| **Phrase** | **Usage** | ++========================+=====================================================================================+ +| ccpp | Variable names provided by the CCPP framework | ++------------------------+-------------------------------------------------------------------------------------+ + + Special phrases --------------- @@ -494,9 +518,9 @@ standard names. +-------------------------------------------+-----------------+ | heat_transport | W | +-------------------------------------------+-----------------+ -| horizontal_streamfunction | m2 s-1 | +| streamfunction | m2 s-1 | +-------------------------------------------+-----------------+ -| horizontal_velocity_potential | m2 s-1 | +| velocity_potential | m2 s-1 | +-------------------------------------------+-----------------+ | mass | kg | +-------------------------------------------+-----------------+ @@ -559,7 +583,7 @@ Acronyms, Abbreviations, and Aliases +---------------------+---------------------------------------------------------+ | **Short** | **Meaning** | +=====================+=========================================================+ -| ir | infared | +| ir | infrared | +---------------------+---------------------------------------------------------+ | lwe | liquid water equivalent | +---------------------+---------------------------------------------------------+ diff --git a/standard_names.xml b/standard_names.xml index 79f73dc..3c04a60 100644 --- a/standard_names.xml +++ b/standard_names.xml @@ -119,7 +119,7 @@ + long_name="scalar constant representing gravitational acceleration"> real @@ -369,11 +369,11 @@ real + long_name="Scalar function describing the streamlines of the horizontal wind"> real + long_name="Scalar potential of the horizontal wind"> real real - + integer @@ -1146,7 +1146,7 @@ integer - + integer @@ -1395,7 +1395,7 @@ integer - + integer @@ -1725,7 +1725,7 @@ integer - + integer @@ -1770,7 +1770,7 @@ logical - + real @@ -2142,7 +2142,7 @@ real - + logical @@ -2398,7 +2398,7 @@ real - + real @@ -2428,7 +2428,7 @@ real - + real @@ -2921,7 +2921,7 @@ real - + real @@ -2942,7 +2942,7 @@ real - + real From 5a7b80f1bb25f5ae30bad85bc6fb4a3e1245f89d Mon Sep 17 00:00:00 2001 From: Michael Kavulich Date: Tue, 4 Mar 2025 12:16:14 -0700 Subject: [PATCH 2/9] Second rules update in v1 branch, update names, update `write_standard_name_table.py` to allow for subsections (#87) This is the second round of proposed rules changes based on our ongoing discussion to make both rules and names as consistent as possible. Major updates include: ### Standard Names - New "base_names" section, with subsections - Convert instances of "surface_X" to "X_at_surface" - Convert some instances of "air_X" or "X_of_air" - Explicitly state what mass mixing ratios are with respect to in long_name - Convert "mixing_ratio" to "water_vapor_mixing_ratio_wrt_moist_air" - Convert "surface_albedo" to simply "albedo", "surface_roughness_length" to simply "roughness_length" ### Rules - Update construction template to include [non-instant time] and [non-current time], swap [at level] and [in medium] - More detailed description of transformations and how they can work on multiple base names - Add a few more transformations ### `write_standard_name_table.py` - Updated to allow sub-sections in the standard names list --- Metadata-standard-names.md | 515 +++++++++++----- StandardNamesRules.rst | 45 +- standard_names.xml | 914 ++++++++++++++++++++++++----- tools/check_name_rules.py | 22 +- tools/write_standard_name_table.py | 26 +- 5 files changed, 1174 insertions(+), 348 deletions(-) diff --git a/Metadata-standard-names.md b/Metadata-standard-names.md index b8eb704..8499639 100644 --- a/Metadata-standard-names.md +++ b/Metadata-standard-names.md @@ -1,5 +1,6 @@ # CCPP Standard Name Library #### Table of Contents +* [base_names](#base_names) * [dimensions](#dimensions) * [constants](#constants) * [coordinates](#coordinates) @@ -22,6 +23,204 @@ * [GFS_typedefs_GFS_grid_type](#gfs_typedefs_gfs_grid_type) * [GFS_typedefs_GFS_stateout_type](#gfs_typedefs_gfs_stateout_type) +## base_names +Base names are the 'elemental' quantities from which +the more complex standard names are constructed. +Base names can roughly be broken down into three categories: +### generic_names +The following names are too general to be chosen as +standard names, but they can serve as base names for +more specific standard names. +* `amount`: amount + * `real`: units = kg m-2 +* `area`: area + * `real`: units = m2 +* `area_fraction`: area_fraction + * `real`: units = 1 +* `binary_mask`: binary_mask + * `integer`: units = 1 +* `coefficient`: coefficient + * `real`: units = 1 +* `data_mask`: data_mask + * `real`: units = 1 +* `density`: density + * `real`: units = kg m-3 +* `energy`: energy + * `real`: units = J +* `energy_content`: energy_content + * `real`: units = J m-2 +* `energy_density`: energy_density + * `real`: units = J m-3 +* `frequency`: frequency + * `real`: units = s-1 +* `heat_flux`: heat_flux + * `real`: units = W m-2 +* `heat_transport`: heat_transport + * `real`: units = W +* `mass`: mass + * `real`: units = kg +* `mass_flux`: mass_flux + * `real`: units = kg m-2 s-1 +* `mass_fraction`: mass_fraction + * `real`: units = 1 +* `mixing_ratio`: mixing_ratio + * `real`: units = kg kg-1 +* `mass_transport`: mass_transport + * `real`: units = kg s-1 +* `mole_fraction`: mole_fraction + * `real`: units = 1 +* `mole_flux`: mole_flux + * `real`: units = mol m-2 s-1 +* `momentum_flux`: momentum_flux + * `real`: units = Pa +* `partial_pressure`: partial_pressure + * `real`: units = Pa +* `period`: period + * `real`: units = s +* `power`: power + * `real`: units = W +* `pressure`: pressure + * `real`: units = Pa +* `probability`: probability + * `real`: units = 1 +* `radiative_flux`: radiative_flux + * `real`: units = W m-2 +* `radius`: radius + * `real`: units = m +* `specific_eddy_kinetic_energy`: specific_eddy_kinetic_energy + * `real`: units = m2 s-2 +* `speed`: speed + * `real`: units = m s-1 +* `stress`: stress + * `real`: units = Pa +* `streamfunction`: streamfunction + * `real`: units = m2 s-1 +* `temperature`: temperature + * `real`: units = K +* `thickness`: thickness + * `real`: units = m +* `velocity`: velocity + * `real`: units = m s-1 +* `velocity_potential`: velocity_potential + * `real`: units = m2 s-1 +* `volume`: volume + * `real`: units = m3 +* `volume_flux`: volume_flux + * `real`: units = m s-1 +* `volume_fraction`: volume_fraction + * `real`: units = 1 +* `volume_mixing_ratio`: volume_mixing_ratio + * `real`: units = mol mol-1 +* `volume_transport`: volume_transport + * `real`: units = m3 s-1 +* `vorticity`: vorticity + * `real`: units = s-1 +### chemical_species +These are the base names for specific chemical species +* `c5h8`: Isoprene +* `co2`: Carbon dioxide +* `co`: Carbon monoxide +* `ccl4`: Tetrachloromethane +* `cfc11`: Trichlorofluoromethane +* `cfc12`: Dichlorodifluoromethane +* `cfc113`: 1,1,2-Trichloro-1,2,2-trifluoroethane +* `cfc22`: Chlorodifluoromethane +* `dimethyl_sulfide`: Dimethyl sulfide; DMS +* `hcho`: Formaldehyde +* `hydrophilic_black_carbon`: hydrophilic_black_carbon +* `hydrophobic_black_carbon`: hydrophobic_black_carbon +* `hydrophilic_organic_carbon`: hydrophilic_organic_carbon +* `hydrophobic_organic_carbon`: hydrophobic_organic_carbon +* `methane`: ch4 +* `n2o`: Nitrous Oxide, N_2O +* `nitrate`: Chemical species containing the nitrate ion +* `nitrite`: Chemical species containing the nitrite ion +* `no2`: Nitrogen dioxide +* `no`: Nitric oxide NO (Nitrogen oxide, Nitrogen monoxide) +* `oxygen`: Molecular oxygen, O_2 +* `ozone`: Ozone, O_3 +* `phosphate`: Chemical species containing the phosphate ion +* `silicate`: Chemical species containing the silicate ion +* `sulfate`: Chemical species containing the sulfate ion +* `sulfur_dioxide`: so2 +### base_standard_names +These names are used as bases for other names, but may +also be considered standard names on their own. See the +full list of standard names for further details. +* `absolute_vorticity`: absolute_vorticity +* `air_potential_temperature`: air_potential_temperature +* `air_pressure`: air_pressure +* `air_pressure_thickness`: air_pressure_thickness +* `air_temperature`: air_temperature +* `albedo`: albedo +* `atmosphere_heat_diffusivity`: atmosphere_heat_diffusivity +* `cloud_area_fraction`: cloud_area_fraction +* `cloud_condensate`: cloud_condensate +* `cloud_ice`: cloud_ice +* `cloud_liquid_water`: cloud_liquid_water +* `date`: date +* `density`: density +* `diffuse_nir_albedo`: diffuse near-infrared albedo +* `diffuse_nir_shortwave_flux`: diffuse near-infrared shortwave flux +* `diffuse_shortwave_albedo`: diffuse_shortwave_albedo +* `diffuse_uv_and_vis_shortwave_flux`: diffuse ultraviolet and visible shortwave flux +* `diffuse_vis_albedo`: diffuse visible albedo +* `direct_nir_albedo`: direct near-infrared albedo +* `direct_nir_shortwave_flux`: direct near-infrared shortwave flux +* `direct_uv_and_vis_shortwave_flux`: direct ultraviolet and visible shortwave flux +* `direct_vis_albedo`: direct visible albedo +* `divergence`: divergence +* `dry_air_density`: dry_air_density +* `dry_air_enthalpy`: dry_air_enthalpy +* `exner_function`: exner_function +* `filename`: filename +* `forecast_time`: forecast_time +* `geopotential`: geopotential +* `geopotential_height`: geopotential_height +* `graupel`: graupel +* `gravitational_acceleration`: gravitational_acceleration +* `hail`: hail +* `heat_flux`: heat_flux +* `hygroscopic_aerosols`: hygroscopic_aerosols +* `ice`: ice +* `latent_heat_flux`: latent_heat_flux +* `liquid_water`: liquid_water +* `longwave_flux`: longwave_flux +* `momentum_flux`: momentum_flux +* `nonhygroscopic_ice_nucleating_aerosols`: nonhygroscopic_ice_nucleating_aerosols +* `ozone`: ozone +* `pressure`: pressure +* `rain`: rain +* `rain_water`: rain_water +* `random_number`: random_number +* `random_number_seed`: random_number_seed +* `reference_pressure`: reference_pressure +* `relative_humidity`: relative_humidity +* `roughness_length`: roughness_length +* `sensible_heat_flux`: sensible_heat_flux +* `shortwave_flux`: shortwave_flux +* `snow`: snow +* `snow_area_fraction`: snow_area_fraction +* `soil_moisture`: soil_moisture +* `soil_temperature`: soil_temperature +* `solar_declination_angle`: solar_declination_angle +* `solar_zenith_angle`: solar_zenith_angle +* `streamfunction`: streamfunction +* `surface_skin_temperature`: surface_skin_temperature +* `temperature`: temperature +* `temperature_flux`: temperature_flux +* `time`: time +* `total_energy`: total_energy +* `total_water`: All water phases (solid, liquid, gas) +* `tracer`: tracer +* `tracers`: tracers +* `turbulent_kinetic_energy`: turbulent_kinetic_energy +* `velocity_potential`: velocity_potential +* `virtual_potential_temperature`: virtual_potential_temperature +* `virtual_temperature`: virtual_temperature +* `water_vapor`: water_vapor +* `wind`: wind +* `wind_speed`: wind_speed ## dimensions Dimension standard names may come in sets of six related standard names for each dimension: ``` @@ -115,7 +314,7 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = Pa * `surface_pressure_of_dry_air`: Surface pressure of dry air * `real(kind=kind_phys)`: units = Pa -* `surface_geopotential`: Surface geopotential +* `geopotential_at_surface`: Geopotential at surface * `real(kind=kind_phys)`: units = m2 s-2 * `air_temperature`: Air temperature * `real(kind=kind_phys)`: units = K @@ -165,7 +364,7 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = 1 * `ln_air_pressure_of_dry_air`: Ln air pressure of dry air * `real(kind=kind_phys)`: units = 1 -* `reciprocal_of_dimensionless_exner_function_wrt_surface_air_pressure`: inverse exner function w.r.t. surface pressure, (ps/p)^(R/cp) +* `reciprocal_of_exner_function_wrt_air_pressure_at_surface`: inverse exner function w.r.t. surface pressure, (ps/p)^(R/cp) * `real(kind=kind_phys)`: units = 1 * `geopotential_height`: geopotential height w.r.t. sea level * `real(kind=kind_phys)`: units = m @@ -231,15 +430,15 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = m s-2 * `tendency_of_northward_wind_due_to_model_physics`: Total change in northward wind from a physics suite * `real(kind=kind_phys)`: units = m s-2 -* `air_horizontal_streamfunction`: Scalar function describing the streamlines of the horizontal wind +* `horizontal_streamfunction_of_air`: Scalar function describing the streamlines of the horizontal wind * `real(kind=kind_phys)`: units = m2 s-1 -* `air_horizontal_velocity_potential`: Scalar potential of the horizontal wind +* `horizontal_velocity_potential_of_air`: Scalar potential of the horizontal wind * `real(kind=kind_phys)`: units = m2 s-1 -* `air_upward_absolute_vorticity`: The upward (kth) component of the curl of the vector wind field +* `upward_absolute_vorticity_of_air`: The upward (kth) component of the curl of the vector wind field * `real(kind=kind_phys)`: units = s-1 -* `air_horizontal_divergence`: The (horizontal) divergence of the 2-D vector wind field +* `horizontal_divergence_of_air`: The (horizontal) divergence of the 2-D vector wind field * `real(kind=kind_phys)`: units = s-1 -* `surface_upward_heat_flux_in_air`: Surface upward heat flux in air +* `upward_heat_flux_in_air_at_surface`: Upward heat flux in air at surface * `real(kind=kind_phys)`: units = W m-2 * `cumulative_boundary_flux_of_total_energy`: Cumulative boundary flux of total energy * `real(kind=kind_phys)`: units = W m-2 @@ -251,11 +450,11 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = Pa * `reference_pressure_in_atmosphere_layer`: reference pressure in atmosphere layer * `real(kind=kind_phys)`: units = Pa -* `reference_air_pressure_normalized_by_surface_air_pressure`: reference pressure normalized by surface pressure +* `reference_air_pressure_normalized_by_air_pressure_at_surface`: reference pressure normalized by surface pressure * `real(kind=kind_phys)`: units = 1 * `reference_pressure_in_atmosphere_layer_normalized_by_surface_reference_pressure`: Reference pressure in atmosphere layer normalized by surface reference pressure * `real(kind=kind_phys)`: units = 1 -* `dimensionless_exner_function`: exner function +* `exner_function`: exner function, (p/p0)^(Rd/cp), where p0 is 1000 hPa * `real(kind=kind_phys)`: units = 1 * `air_potential_temperature`: air potential temperature * `real(kind=kind_phys)`: units = K @@ -298,7 +497,7 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = frac * `mass_content_of_water_in_top_soil_layer`: content per unit area of water in top layer of soil * `real(kind=kind_phys)`: units = kg m-2 -* `surface_snow_density`: Surface snow density +* `density_of_snow_at_surface`: Density of snow at surface * `real(kind=kind_phys)`: units = kg m-3 * `urban_area_fraction_of_cell_area`: fraction of horizontal area of grid cell that is urban * `real(kind=kind_phys)`: units = frac @@ -364,9 +563,9 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = kg kg-1 * `total_water_mixing_ratio_wrt_dry_air_at_top_interfaces`: ratio of the mass of water to the mass of dry air at all interfaces excluding surface * `real(kind=kind_phys)`: units = kg kg-1 -* `water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_assuming_saturation`: saturated water vapor mixing ratio with respect to moist air and condensed water +* `water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_assuming_saturation`: saturated water vapor mass mixing ratio with respect to moist air and condensed water * `real(kind=kind_phys)`: units = kg kg-1 -* `water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces_assuming_saturation`: saturated water vapor mixing ratio with respect to moist air and condensed water at all interfaces excluding surface +* `water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces_assuming_saturation`: saturated water vapor mass mixing ratio with respect to moist air and condensed water at all interfaces excluding surface * `real(kind=kind_phys)`: units = kg kg-1 * `derivative_of_ln_water_vapor_partial_pressure_assuming_saturation_wrt_air_temperature`: log derivative of the water vapor partial pressure at saturation with respect to air temperature * `real(kind=kind_phys)`: units = K-1 @@ -374,7 +573,7 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = K-1 * `mole_fraction_of_ozone_in_air`: Mole fraction of ozone in air * `real(kind=kind_phys)`: units = mol mol-1 -* `mole_fraction_of_carbon_dioxide_in_air`: Mole fraction of carbon dioxide in air +* `mole_fraction_of_co2_in_air`: Mole fraction of co2 in air * `real(kind=kind_phys)`: units = mol mol-1 * `volume_mixing_ratio_of_ch4`: Methane volume mixing ratio * `real(kind=kind_phys)`: units = mol mol-1 @@ -836,7 +1035,7 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `do_read_surface_albedo_for_diffused_shortwave_from_input`: Do read surface albedo for diffused shortwave from input * `logical(kind=)`: units = flag -* `do_limited_surface_roughness_length_over_ocean`: Do limited surface roughness length over ocean +* `do_limited_roughness_length_over_ocean`: Do limited surface roughness length over ocean * `logical(kind=)`: units = flag * `do_reference_pressure_theta`: Do reference pressure theta * `logical(kind=)`: units = flag @@ -1006,19 +1205,19 @@ Variables related to the compute environment * `integer(kind=)`: units = index * `index_of_convective_cloud_area_fraction_in_xyz_dimensioned_restart_array`: Index of convective cloud area fraction in xyz dimensioned restart array * `integer(kind=)`: units = index -* `index_of_convective_cloud_condensate_mixing_ratio_wrt_moist_air_in_xyz_dimensioned_restart_array`: Index of convective cloud condensate mixing ratio wrt moist air in xyz dimensioned restart array +* `index_of_convective_cloud_condensate_mixing_ratio_wrt_moist_air_in_xyz_dimensioned_restart_array`: Index of convective cloud condensate mass mixing ratio with respect to moist air in the XYZ-dimensioned restart array * `integer(kind=)`: units = index * `index_of_horizontal_gridpoint_for_debug_output`: Index of horizontal gridpoint for debug output * `integer(kind=)`: units = index * `index_of_first_chemical_tracer_in_tracer_concentration_array`: Index of first chemical tracer in tracer concentration array * `integer(kind=)`: units = index -* `index_of_graupel_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of graupel mixing ratio wrt moist air in tracer concentration array +* `index_of_graupel_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of graupel mass mixing ratio with respect to moist air in the tracer concentration array * `integer(kind=)`: units = index * `index_of_graupel_effective_radius_in_xyz_dimensioned_restart_array`: Index of graupel effective radius in xyz dimensioned restart array * `integer(kind=)`: units = index * `index_of_mass_number_concentration_of_graupel_in_tracer_concentration_array`: Index of mass number concentration of graupel in tracer concentration array * `integer(kind=)`: units = index -* `index_of_cloud_ice_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of cloud ice mixing ratio wrt moist air in tracer concentration array +* `index_of_cloud_ice_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of cloud ice mass mixing ratio with respect to moist air in the tracer concentration array * `integer(kind=)`: units = index * `index_of_mass_number_concentration_of_cloud_ice_in_tracer_concentration_array`: Index of mass number concentration of cloud ice in tracer concentration array * `integer(kind=)`: units = index @@ -1026,35 +1225,35 @@ Variables related to the compute environment * `integer(kind=)`: units = index * `index_of_mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols_in_tracer_concentration_array`: Index of mass number concentration of nonhygroscopic ice nucleating aerosols in tracer concentration array * `integer(kind=)`: units = index -* `index_of_cloud_liquid_water_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of cloud liquid water mixing ratio wrt moist air in tracer concentration array +* `index_of_cloud_liquid_water_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of liquid water mass mixing ratio with respect to moist air in the tracer concentration array * `integer(kind=)`: units = index * `index_of_mass_number_concentration_of_cloud_droplets_in_tracer_concentration_array`: Index of mass number concentration of cloud droplets in tracer concentration array * `integer(kind=)`: units = index * `index_of_mass_weighted_rime_factor_in_tracer_concentration_array`: Index of mass weighted rime factor in tracer concentration array * `integer(kind=)`: units = index -* `index_of_ozone_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of ozone mixing ratio wrt moist air in tracer concentration array +* `index_of_ozone_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of ozone mass mixing ratio with respect to moist air in the tracer concentration array * `integer(kind=)`: units = index * `index_of_rain_effective_radius_in_xyz_dimensioned_restart_array`: Index of rain effective radius in xyz dimensioned restart array * `integer(kind=)`: units = index * `index_of_mass_number_concentration_of_rain_in_tracer_concentration_array`: Index of mass number concentration of rain in tracer concentration array * `integer(kind=)`: units = index -* `index_of_rain_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of rain mixing ratio wrt moist air in tracer concentration array +* `index_of_rain_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of rain mass mixing ratio with respect to moist air in the tracer concentration array * `integer(kind=)`: units = index * `index_of_snow_effective_radius_in_xyz_dimensioned_restart_array`: Index of snow effective radius in xyz dimensioned restart array * `integer(kind=)`: units = index * `index_of_mass_number_concentration_of_snow_in_tracer_concentration_array`: Index of mass number concentration of snow in tracer concentration array * `integer(kind=)`: units = index -* `index_of_snow_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of snow mixing ratio wrt moist air in tracer concentration array +* `index_of_snow_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of snow mass mixing ratio with respect to moist air in the tracer concentration array * `integer(kind=)`: units = index -* `index_of_specific_humidity_on_previous_timestep_in_xyz_dimensioned_restart_array`: Index of specific humidity on previous timestep in xyz dimensioned restart array +* `index_of_water_vapor_mixing_ratio_wrt_moist_air_on_previous_timestep_in_xyz_dimensioned_restart_array`: Index of specific humidity (water vapor mass mixing ratio with respect to moist air) on previous timestep in xyz dimensioned restart array * `integer(kind=)`: units = index -* `index_of_specific_humidity_two_timesteps_back_in_xyz_dimensioned_restart_array`: Index of specific humidity two timesteps back in xyz dimensioned restart array +* `index_of_water_vapor_mixing_ratio_wrt_moist_air_two_timesteps_back_in_xyz_dimensioned_restart_array`: Index of specific humidity (water vapor mass mixing ratio with respect to moist air) two timesteps back in xyz dimensioned restart array * `integer(kind=)`: units = index * `control_for_stochastic_land_surface_perturbation`: Control for stochastic land surface perturbation * `integer(kind=)`: units = 1 -* `index_of_surface_air_pressure_on_previous_timestep_in_xyz_dimensioned_restart_array`: Index of surface air pressure on previous timestep in xyz dimensioned restart array +* `index_of_air_pressure_at_surface_on_previous_timestep_in_xyz_dimensioned_restart_array`: Index of air pressure at surface on previous timestep in xyz dimensioned restart array * `integer(kind=)`: units = index -* `index_of_surface_air_pressure_two_timesteps_back_in_xyz_dimensioned_tracer_array`: Index of surface air pressure two timesteps back in xyz dimensioned tracer array +* `index_of_air_pressure_at_surface_two_timesteps_back_in_xyz_dimensioned_tracer_array`: Index of air pressure at surface two timesteps back in xyz dimensioned tracer array * `integer(kind=)`: units = index * `index_of_enhancement_to_wind_speed_at_surface_adjacent_layer_due_to_convectionin_in_xy_dimensioned_restart_array`: Index of enhancement to wind speed at surface adjacent layer due to convectionin in xy dimensioned restart array * `integer(kind=)`: units = index @@ -1062,7 +1261,7 @@ Variables related to the compute environment * `integer(kind=)`: units = index * `index_of_mass_number_concentration_of_hygroscopic_aerosols_in_tracer_concentration_array`: Index of mass number concentration of hygroscopic aerosols in tracer concentration array * `integer(kind=)`: units = index -* `index_of_specific_humidity_in_tracer_concentration_array`: Index of specific humidity in tracer concentration array +* `index_of_water_vapor_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of specific humidity (water vapor mass mixing ratio with respect to moist air) in tracer concentration array * `integer(kind=)`: units = index * `index_of_atmosphere_heat_diffusivity_in_xyz_dimensioned_restart_array`: Index of atmosphere heat diffusivity in xyz dimensioned restart array * `integer(kind=)`: units = index @@ -1132,11 +1331,11 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m-3 * `prescribed_number_concentration_of_cloud_ice`: Prescribed number concentration of cloud ice * `real(kind=kind_phys)`: units = m-3 -* `minimum_cloud_condensate_mixing_ratio_wrt_moist_air_threshold`: Minimum cloud condensate mixing ratio wrt moist air threshold +* `minimum_cloud_condensate_mixing_ratio_wrt_moist_air_threshold`: Minimum threshold cloud condensate mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 -* `minimum_cloud_liquid_water_mixing_ratio_wrt_moist_air_threshold`: Minimum cloud liquid water mixing ratio wrt moist air threshold +* `minimum_cloud_liquid_water_mixing_ratio_wrt_moist_air_threshold`: Minimum threshold cloud liquid water mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 -* `minimum_cloud_ice_mixing_ratio_wrt_moist_air_threshold`: Minimum cloud ice mixing ratio wrt moist air threshold +* `minimum_cloud_ice_mixing_ratio_wrt_moist_air_threshold`: Minimum threshold cloud ice mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 * `relative_humidity_threshold_for_ice_nucleation`: Relative humidity threshold for ice nucleation * `real(kind=kind_phys)`: units = fraction @@ -1375,9 +1574,9 @@ Variables related to the compute environment * `filename_of_micm_configuration`: Filename of micm configuration * `character(kind=len=*)`: units = none ## GFS_typedefs_GFS_interstitial_type -* `cloud_ice_mixing_ratio_wrt_moist_air_interstitial`: Cloud ice mixing ratio wrt moist air interstitial +* `cloud_ice_mixing_ratio_wrt_moist_air_interstitial`: Cloud ice mass mixing ratio with respect to moist air in interstitial scheme * `real(kind=kind_phys)`: units = kg kg-1 -* `cloud_liquid_water_mixing_ratio_wrt_moist_air_interstitial`: Cloud liquid water mixing ratio wrt moist air interstitial +* `cloud_liquid_water_mixing_ratio_wrt_moist_air_interstitial`: Cloud liquid water mass mixing ratio with respect to moist air in interstitial scheme * `real(kind=kind_phys)`: units = kg kg-1 * `radiatively_active_gases`: Radiatively active gases * `character(kind=len=128)`: units = none @@ -1385,21 +1584,21 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = K s-1 * `process_split_cumulative_tendency_of_mass_number_concentration_of_cloud_liquid_water_particles_in_air`: Process split cumulative tendency of mass number concentration of cloud liquid water particles in air * `real(kind=kind_phys)`: units = kg-1 s-1 -* `process_split_cumulative_tendency_of_graupel_mixing_ratio_wrt_moist_air`: Process split cumulative tendency of graupel mixing ratio wrt moist air +* `process_split_cumulative_tendency_of_graupel_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of the graupel mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 s-1 -* `process_split_cumulative_tendency_of_cloud_ice_mixing_ratio_wrt_moist_air`: Process split cumulative tendency of cloud ice mixing ratio wrt moist air +* `process_split_cumulative_tendency_of_cloud_ice_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of the cloud ice mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 s-1 * `process_split_cumulative_tendency_of_mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols`: Process split cumulative tendency of mass number concentration of nonhygroscopic ice nucleating aerosols * `real(kind=kind_phys)`: units = kg-1 s-1 * `process_split_cumulative_tendency_of_mass_number_concentration_of_cloud_ice_water_crystals_in_air`: Process split cumulative tendency of mass number concentration of cloud ice water crystals in air * `real(kind=kind_phys)`: units = kg-1 s-1 -* `process_split_cumulative_tendency_of_cloud_liquid_water_mixing_ratio_wrt_moist_air`: Process split cumulative tendency of cloud liquid water mixing ratio wrt moist air +* `process_split_cumulative_tendency_of_cloud_liquid_water_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of the cloud liquid water mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 s-1 -* `process_split_cumulative_tendency_of_ozone_mixing_ratio_wrt_moist_air`: Process split cumulative tendency of ozone mixing ratio wrt moist air +* `process_split_cumulative_tendency_of_ozone_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of the ozone mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 s-1 -* `process_split_cumulative_tendency_of_rain_mixing_ratio_wrt_moist_air`: Process split cumulative tendency of rain mixing ratio wrt moist air +* `process_split_cumulative_tendency_of_rain_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of the rain mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 s-1 -* `process_split_cumulative_tendency_of_snow_mixing_ratio_wrt_moist_air`: Process split cumulative tendency of snow mixing ratio wrt moist air +* `process_split_cumulative_tendency_of_snow_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of the snow mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 s-1 * `process_split_cumulative_tendency_of_tracers`: Process split cumulative tendency of tracers * `real(kind=kind_phys)`: units = kg kg-1 s-1 @@ -1407,7 +1606,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = J s-1 * `process_split_cumulative_tendency_of_mass_number_concentration_of_hygroscopic_aerosols`: Process split cumulative tendency of mass number concentration of hygroscopic aerosols * `real(kind=kind_phys)`: units = kg-1 s-1 -* `process_split_cumulative_tendency_of_specific_humidity`: Process split cumulative tendency of specific humidity +* `process_split_cumulative_tendency_of_water_vapor_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) * `real(kind=kind_phys)`: units = kg kg-1 s-1 * `process_split_cumulative_tendency_of_x_wind`: Process split cumulative tendency of x wind * `real(kind=kind_phys)`: units = m s-2 @@ -1438,7 +1637,7 @@ Variables related to the compute environment * `integer(kind=)`: units = count * `convective_cloud_area_fraction`: Convective cloud area fraction * `real(kind=kind_phys)`: units = fraction -* `convective_cloud_condensate_mixing_ratio_wrt_moist_air`: Convective cloud condensate mixing ratio wrt moist air +* `convective_cloud_condensate_mixing_ratio_wrt_moist_air`: Convective cloud condensate mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 * `effective_radius_of_stratiform_cloud_graupel_particle`: Effective radius of stratiform cloud graupel particle * `real(kind=kind_phys)`: units = um @@ -1458,7 +1657,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg-1 * `upward_virtual_potential_temperature_flux`: Upward virtual potential temperature flux * `real(kind=kind_phys)`: units = K m s-1 -* `surface_upward_specific_humidity_flux_for_mellor_yamada_janjic_surface_layer_scheme`: Surface upward specific humidity flux for mellor yamada janjic surface layer scheme +* `upward_flux_of_water_vapor_mixing_ratio_wrt_moist_air_at_surface_for_mellor_yamada_janjic_surface_layer_scheme`: Upward flux of specific humidity (water vapor mass mixing ratio with respect to moist air) at surface for MYJ surface layer scheme * `real(kind=kind_phys)`: units = m s-1 kg kg-1 * `cumulative_max_vertical_index_at_cloud_base_between_sw_radiation_calls`: Cumulative max vertical index at cloud base between sw radiation calls * `real(kind=kind_phys)`: units = 1 @@ -1468,9 +1667,9 @@ Variables related to the compute environment * `integer(kind=)`: units = index * `turbulent_mixing_length`: Turbulent mixing length * `real(kind=kind_phys)`: units = m -* `specific_humidity_on_previous_timestep`: Specific humidity on previous timestep +* `water_vapor_mixing_ratio_wrt_moist_air_on_previous_timestep`: Specific humidity (water vapor mass mixing ratio with respect to moist air) on previous timestep * `real(kind=kind_phys)`: units = kg kg-1 -* `tendency_of_specific_humidity_due_to_nonphysics`: Tendency of specific humidity due to nonphysics +* `tendency_of_water_vapor_mixing_ratio_wrt_moist_air_due_to_nonphysics`: Tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) due to nonphysics * `real(kind=kind_phys)`: units = kg kg-1 s-1 * `momentum_exchange_coefficient_for_myj_schemes`: Momentum exchange coefficient for myj schemes * `real(kind=kind_phys)`: units = m s-1 @@ -1478,7 +1677,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = various * `air_potential_temperature_at_top_of_viscous_sublayer`: Air potential temperature at top of viscous sublayer * `real(kind=kind_phys)`: units = K -* `variance_of_specific_humidity`: Variance of specific humidity +* `variance_of_water_vapor_mixing_ratio_wrt_moist_air`: Variance of specific humidity (water vapor mass mixing ratio with respect to moist air) * `real(kind=kind_phys)`: units = kg2 kg-2 * `random_number`: Random number * `real(kind=kind_phys)`: units = 1 @@ -1488,29 +1687,29 @@ Variables related to the compute environment * `integer(kind=)`: units = 1 * `cumulative_min_vertical_index_at_cloud_base_between_sw_radiation_calls`: Cumulative min vertical index at cloud base between sw radiation calls * `real(kind=kind_phys)`: units = 1 -* `specific_humidity_at_top_of_viscous_sublayer`: Specific humidity at top of viscous sublayer +* `water_vapor_mixing_ratio_wrt_moist_air_at_top_of_viscous_sublayer`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at the top of the viscous sublayer * `real(kind=kind_phys)`: units = kg kg-1 * `stability_function_for_heat`: Stability function for heat * `real(kind=kind_phys)`: units = 1 * `subgrid_scale_cloud_area_fraction_in_atmosphere_layer`: Subgrid scale cloud area fraction in atmosphere layer * `real(kind=kind_phys)`: units = fraction -* `subgrid_scale_cloud_ice_mixing_ratio_wrt_moist_air`: Subgrid scale cloud ice mixing ratio wrt moist air +* `subgrid_scale_cloud_ice_mixing_ratio_wrt_moist_air`: Subgrid-scale cloud ice mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 -* `subgrid_scale_cloud_liquid_water_mixing_ratio_wrt_moist_air`: Subgrid scale cloud liquid water mixing ratio wrt moist air +* `subgrid_scale_cloud_liquid_water_mixing_ratio_wrt_moist_air`: Subgrid-scale cloud liquid water mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 * `subgrid_scale_cloud_fraction_from_shoc`: Subgrid scale cloud fraction from shoc * `real(kind=kind_phys)`: units = fraction -* `surface_air_pressure_on_previous_timestep`: Surface air pressure on previous timestep +* `air_pressure_at_surface_on_previous_timestep`: Air pressure at surface on previous timestep * `real(kind=kind_phys)`: units = Pa -* `surface_air_pressure_two_timesteps_back`: Surface air pressure two timesteps back +* `air_pressure_at_surface_two_timesteps_back`: Air pressure at surface two timesteps back * `real(kind=kind_phys)`: units = Pa * `control_for_surface_layer_evaporation`: Control for surface layer evaporation * `real(kind=kind_phys)`: units = 1 -* `surface_specific_humidity_for_myj_schemes`: Surface specific humidity for myj schemes +* `water_vapor_mixing_ratio_wrt_moist_air_at_surface_for_myj_schemes`: Surface specific humidity (water vapor mass mixing ratio with respect to moist air) for MYJ schemes * `real(kind=kind_phys)`: units = kg kg-1 * `enhancement_to_wind_speed_at_surface_adjacent_layer_due_to_convection`: Enhancement to wind speed at surface adjacent layer due to convection * `real(kind=kind_phys)`: units = m s-1 -* `covariance_of_air_temperature_and_specific_humidity`: Covariance of air temperature and specific humidity +* `covariance_of_air_temperature_and_water_vapor_mixing_ratio_wrt_moist_air`: Covariance of air temperature and specific humidity (water vapor mass mixing ratio with respect to moist air) * `real(kind=kind_phys)`: units = K kg kg-1 * `variance_of_air_temperature`: Variance of air temperature * `real(kind=kind_phys)`: units = K2 @@ -1530,22 +1729,22 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m s-1 * `y_wind_at_top_of_viscous_sublayer`: Y wind at top of viscous sublayer * `real(kind=kind_phys)`: units = m s-1 -* `specific_humidity_on_previous_timestep_in_xyz_dimensioned_restart_array`: Specific humidity on previous timestep in xyz dimensioned restart array +* `water_vapor_mixing_ratio_wrt_moist_air_on_previous_timestep_in_xyz_dimensioned_restart_array`: Specific humidity (water vapor mass mixing ratio with respect to moist air) on previous timestep in XYZ-dimensioned restart array * `real(kind=kind_phys)`: units = kg kg-1 -* `specific_humidity_two_timesteps_back`: Specific humidity two timesteps back +* `water_vapor_mixing_ratio_wrt_moist_air_two_timesteps_back`: Specific humidity (water vapor mass mixing ratio with respect to moist air) two timesteps back * `real(kind=kind_phys)`: units = kg kg-1 * `weight_for_momentum_at_top_of_viscous_sublayer`: Weight for momentum at top of viscous sublayer * `real(kind=kind_phys)`: units = 1 * `weight_for_potential_temperature_at_top_of_viscous_sublayer`: Weight for potential temperature at top of viscous sublayer * `real(kind=kind_phys)`: units = 1 -* `weight_for_specific_humidity_at_top_of_viscous_sublayer`: Weight for specific humidity at top of viscous sublayer +* `weight_for_water_vapor_mixing_ratio_wrt_moist_air_at_top_of_viscous_sublayer`: Weight for specific humidity (water vapor mass mixing ratio with respect to moist air) at the top of the viscous sublayer * `real(kind=kind_phys)`: units = 1 ## GFS_typedefs_GFS_sfcprop_type * `wet_canopy_area_fraction`: Wet canopy area fraction * `real(kind=kind_phys)`: units = fraction * `baseline_surface_longwave_emissivity`: Baseline surface longwave emissivity * `real(kind=kind_phys)`: units = fraction -* `baseline_surface_roughness_length`: Baseline surface roughness length +* `baseline_roughness_length`: Baseline surface roughness length * `real(kind=kind_phys)`: units = m * `air_temperature_in_canopy`: Air temperature in canopy * `real(kind=kind_phys)`: units = K @@ -1557,9 +1756,9 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = mm * `canopy_water_amount`: Canopy water amount * `real(kind=kind_phys)`: units = kg m-2 -* `cloud_condensed_water_mixing_ratio_wrt_moist_air_at_surface_over_ice`: Cloud condensed water mixing ratio wrt moist air at surface over ice +* `cloud_condensed_water_mixing_ratio_wrt_moist_air_at_surface_over_ice`: Cloud condensed water mass mixing ratio with respect to moist air at surface over ice * `real(kind=kind_phys)`: units = kg kg-1 -* `cloud_condensed_water_mixing_ratio_wrt_moist_air_at_surface_over_land`: Cloud condensed water mixing ratio wrt moist air at surface over land +* `cloud_condensed_water_mixing_ratio_wrt_moist_air_at_surface_over_land`: Cloud condensed water mass mixing ratio with respect to moist air at surface over land * `real(kind=kind_phys)`: units = kg kg-1 * `coefficient_c_0`: Coefficient c 0 * `real(kind=kind_phys)`: units = 1 @@ -1613,9 +1812,9 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = 1 * `temperature_in_ice_layer`: Temperature in ice layer * `real(kind=kind_phys)`: units = K -* `surface_upward_specific_humidity_flux`: Surface upward specific humidity flux +* `upward_flux_of_water_vapor_mixing_ratio_wrt_moist_air_at_surface`: Upward flux of water vapor mixing ratio wrt moist air at surface * `real(kind=kind_phys)`: units = kg kg-1 m s-1 -* `surface_upward_temperature_flux`: Surface upward temperature flux +* `upward_temperature_flux_at_surface`: Upward temperature flux at surface * `real(kind=kind_phys)`: units = K m s-1 * `lake_area_fraction`: Lake area fraction * `real(kind=kind_phys)`: units = fraction @@ -1643,7 +1842,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m * `max_vegetation_area_fraction`: Max vegetation area fraction * `real(kind=kind_phys)`: units = fraction -* `nir_albedo_strong_cosz`: Nir albedo strong cosz +* `nir_albedo_strong_cosz`: albedo for near-infrared radiation with strong dependence on cosine of the zenith angle * `real(kind=kind_phys)`: units = fraction * `nir_albedo_weak_cosz`: Nir albedo weak cosz * `real(kind=kind_phys)`: units = fraction @@ -1703,7 +1902,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m K-1 * `slow_soil_pool_mass_content_of_carbon`: Slow soil pool mass content of carbon * `real(kind=kind_phys)`: units = g m-2 -* `surface_albedo_assuming_deep_snow_on_previous_timestep`: Surface albedo assuming deep snow on previous timestep +* `albedo_on_previous_timestep_assuming_deep_snow`: Albedo on previous timestep assuming deep snow * `real(kind=kind_phys)`: units = fraction * `lwe_thickness_of_ice_in_surface_snow`: Lwe thickness of ice in surface snow * `real(kind=kind_phys)`: units = mm @@ -1727,13 +1926,13 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = K * `volumetric_soil_moisture_between_soil_bottom_and_water_table`: Volumetric soil moisture between soil bottom and water table * `real(kind=kind_phys)`: units = m3 m-3 -* `water_vapor_mixing_ratio_wrt_moist_air_at_2m`: mixing ratio of the mass of water vapor to the mass of moist air, at two meters above surface +* `water_vapor_mixing_ratio_wrt_moist_air_at_2m`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at two meters above surface * `real(kind=kind_phys)`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_at_2m`: mixing ratio of the mass of water vapor to the mass of moist air and hydrometeors, at two meters above surface * `real(kind=kind_phys)`: units = kg kg-1 -* `specified_surface_upward_specific_humidity_flux`: Specified surface upward specific humidity flux +* `specified_upward_flux_of_water_vapor_mixing_ratio_wrt_moist_air_at_surface`: Specified upward specific humidity (water vapor mass mixing ratio with respect to moist air) flux at surface * `real(kind=kind_phys)`: units = kg kg-1 m s-1 -* `specified_surface_upward_temperature_flux`: Specified surface upward temperature flux +* `specified_upward_temperature_flux_at_surface`: Specified upward temperature flux at surface * `real(kind=kind_phys)`: units = K m s-1 * `standard_deviation_of_subgrid_orography`: Standard deviation of subgrid orography * `real(kind=kind_phys)`: units = m @@ -1747,25 +1946,25 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = K * `molecular_sublayer_thickness_in_sea_water`: Molecular sublayer thickness in sea water * `real(kind=kind_phys)`: units = m -* `surface_albedo_diffuse_nir_over_ice`: Surface albedo diffuse nir over ice +* `diffuse_nir_albedo_of_ice`: ice surface albedo for diffuse near-infrared radiation * `real(kind=kind_phys)`: units = fraction -* `surface_albedo_diffuse_nir_over_land`: Surface albedo diffuse nir over land +* `diffuse_nir_albedo_of_land`: land surface albedo for diffuse near-infrared radiation * `real(kind=kind_phys)`: units = fraction -* `surface_albedo_diffuse_visible_over_ice`: Surface albedo diffuse visible over ice +* `diffuse_vis_albedo_of_ice`: ice surface albedo for diffuse visible radiation * `real(kind=kind_phys)`: units = fraction -* `surface_albedo_diffuse_visible_over_land`: Surface albedo diffuse visible over land +* `diffuse_vis_albedo_of_land`: land surface albedo for diffuse visible radiation * `real(kind=kind_phys)`: units = fraction -* `surface_albedo_direct_nir_over_ice`: Surface albedo direct nir over ice +* `direct_nir_albedo_of_ice`: ice surface albedo for direct near-infrared radiation * `real(kind=kind_phys)`: units = fraction -* `surface_albedo_direct_nir_over_land`: Surface albedo direct nir over land +* `direct_nir_albedo_of_land`: land surface albedo for direct near-infrared radiation * `real(kind=kind_phys)`: units = fraction -* `surface_albedo_direct_visible_over_ice`: Surface albedo direct visible over ice +* `direct_vis_albedo_of_ice`: ice surface albedo for direct visible radiation * `real(kind=kind_phys)`: units = fraction -* `surface_albedo_direct_visible_over_land`: Surface albedo direct visible over land +* `direct_vis_albedo_of_land`: land surface albedo for direct visible radiation * `real(kind=kind_phys)`: units = fraction -* `surface_diffused_shortwave_albedo_over_ice`: Surface diffused shortwave albedo over ice +* `diffuse_shortwave_albedo_of_ice`: ice surface albedo for diffuse shortwave radiation * `real(kind=kind_phys)`: units = fraction -* `surface_diffused_shortwave_albedo_over_land`: Surface diffused shortwave albedo over land +* `diffuse_shortwave_albedo_of_land`: land surface albedo for diffuse shortwave radiation * `real(kind=kind_phys)`: units = fraction * `surface_drag_coefficient_for_heat_and_moisture_for_noahmp`: Surface drag coefficient for heat and moisture for noahmp * `real(kind=kind_phys)`: units = 1 @@ -1783,35 +1982,35 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m s-1 * `surface_friction_velocity_for_momentum`: Surface friction velocity for momentum * `real(kind=kind_phys)`: units = m s-1 -* `surface_upward_latent_heat_flux`: Surface upward latent heat flux +* `upward_latent_heat_flux_at_surface`: Upward latent heat flux at surface * `real(kind=kind_phys)`: units = W m-2 * `surface_longwave_emissivity_over_ice`: Surface longwave emissivity over ice * `real(kind=kind_phys)`: units = fraction * `surface_longwave_emissivity_over_land`: Surface longwave emissivity over land * `real(kind=kind_phys)`: units = fraction -* `surface_roughness_length`: Surface roughness length +* `roughness_length`: surface roughness length * `real(kind=kind_phys)`: units = cm -* `surface_roughness_length_from_wave_model`: Surface roughness length from wave model +* `roughness_length_from_wave_model`: surface roughness length from wave model * `real(kind=kind_phys)`: units = cm -* `surface_roughness_length_over_ice`: Surface roughness length over ice +* `roughness_length_over_ice`: surface roughness length over ice * `real(kind=kind_phys)`: units = cm -* `surface_roughness_length_over_land`: Surface roughness length over land +* `roughness_length_over_land`: surface roughness length over land * `real(kind=kind_phys)`: units = cm -* `surface_roughness_length_over_water`: Surface roughness length over water +* `roughness_length_over_water`: surface roughness length over water * `real(kind=kind_phys)`: units = cm * `surface_skin_temperature`: Surface skin temperature * `real(kind=kind_phys)`: units = K * `surface_skin_temperature_over_land`: Surface skin temperature over land * `real(kind=kind_phys)`: units = K -* `surface_snow_area_fraction_over_ice`: Surface snow area fraction over ice +* `snow_area_fraction_at_surface_over_ice`: Snow area fraction at surface over ice * `real(kind=kind_phys)`: units = fraction -* `surface_snow_area_fraction_over_land`: Surface snow area fraction over land +* `snow_area_fraction_at_surface_over_land`: Snow area fraction at surface over land * `real(kind=kind_phys)`: units = fraction -* `surface_snow_free_albedo_over_land`: Surface snow free albedo over land +* `albedo_of_land_assuming_no_snow_cover`: surface snow-free albedo over land * `real(kind=kind_phys)`: units = fraction * `lwe_surface_snow`: Lwe surface snow * `real(kind=kind_phys)`: units = mm -* `surface_specific_humidity`: Surface specific humidity +* `water_vapor_mixing_ratio_wrt_moist_air_at_surface`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface * `real(kind=kind_phys)`: units = kg kg-1 * `ratio_of_height_to_monin_obukhov_length`: Ratio of height to monin obukhov length * `real(kind=kind_phys)`: units = 1 @@ -1853,9 +2052,9 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m * `water_table_recharge_assuming_shallow`: Water table recharge assuming shallow * `real(kind=kind_phys)`: units = m -* `water_vapor_mixing_ratio_wrt_moist_air_at_surface_over_ice`: Water vapor mixing ratio wrt moist air at surface over ice +* `water_vapor_mixing_ratio_wrt_moist_air_at_surface_over_ice`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface over ice * `real(kind=kind_phys)`: units = kg kg-1 -* `water_vapor_mixing_ratio_wrt_moist_air_at_surface_over_land`: Water vapor mixing ratio wrt moist air at surface over land +* `water_vapor_mixing_ratio_wrt_moist_air_at_surface_over_land`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface over land * `real(kind=kind_phys)`: units = kg kg-1 * `wood_mass_content`: Wood mass content * `real(kind=kind_phys)`: units = g m-2 @@ -1864,85 +2063,85 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = 1 * `convective_cloud_condensate_after_rainout`: Convective cloud condensate after rainout * `real(kind=kind_phys)`: units = kg kg-1 -* `cumulative_surface_downwelling_diffuse_nir_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface downwelling diffuse nir shortwave flux for coupling multiplied by timestep +* `cumulative_downwelling_diffuse_nir_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative downwelling diffuse near-infrared shortwave flux at the surface level for coupling multiplied by the duration of the timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_downwelling_diffuse_uv_and_vis_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface downwelling diffuse uv and vis shortwave flux for coupling multiplied by timestep +* `cumulative_downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative downwelling diffuse ultraviolet and visible shortwave flux at the surface level for coupling multiplied by the duration of the timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_downwelling_direct_nir_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface downwelling direct nir shortwave flux for coupling multiplied by timestep +* `cumulative_downwelling_direct_nir_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative downwelling direct near-infrared shortwave flux at the surface level for coupling multiplied by the duration of the timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_downwelling_direct_uv_and_vis_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface downwelling direct uv and vis shortwave flux for coupling multiplied by timestep +* `cumulative_downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling multiplied by the duration of the timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_downwelling_longwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface downwelling longwave flux for coupling multiplied by timestep +* `cumulative_downwelling_longwave_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative downwelling longwave flux at surface for coupling multiplied by timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_downwelling_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface downwelling shortwave flux for coupling multiplied by timestep +* `cumulative_downwelling_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative downwelling shortwave flux at surface for coupling multiplied by timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_net_downwelling_diffuse_nir_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface net downwelling diffuse nir shortwave flux for coupling multiplied by timestep +* `cumulative_net_downwelling_diffuse_nir_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative net downwelling diffuse near-infrared shortwave flux at the surface level for coupling multiplied by the duration of the timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_net_downwelling_diffuse_uv_and_vis_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface net downwelling diffuse uv and vis shortwave flux for coupling multiplied by timestep +* `cumulative_net_downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative net downwelling diffuse ultraviolet and visible shortwave flux at the surface level for coupling multiplied by the duration of the timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_net_downwelling_direct_nir_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface net downwelling direct nir shortwave flux for coupling multiplied by timestep +* `cumulative_net_downwelling_direct_nir_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative net downwelling direct near-infrared shortwave flux at the surface level for coupling multiplied by the duration of the timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_net_downwelling_direct_uv_and_vis_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface net downwelling direct uv and vis shortwave flux for coupling multiplied by timestep +* `cumulative_net_downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative net downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling multiplied by the duration of the timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_net_downwelling_longwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface net downwelling longwave flux for coupling multiplied by timestep +* `cumulative_net_downwelling_longwave_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative net downwelling longwave flux at surface for coupling multiplied by timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_net_downwelling_shortwave_flux_for_coupling_multiplied_by_timestep`: Cumulative surface net downwelling shortwave flux for coupling multiplied by timestep +* `cumulative_net_downwelling_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative net downwelling shortwave flux at surface for coupling multiplied by timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_upward_latent_heat_flux_for_coupling_multiplied_by_timestep`: Cumulative surface upward latent heat flux for coupling multiplied by timestep +* `cumulative_upward_latent_heat_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative upward latent heat flux at surface for coupling multiplied by timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_upward_sensible_heat_flux_for_coupling_multiplied_by_timestep`: Cumulative surface upward sensible heat flux for coupling multiplied by timestep +* `cumulative_upward_sensible_heat_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative upward sensible heat flux at surface for coupling multiplied by timestep * `real(kind=kind_phys)`: units = J m-2 -* `cumulative_surface_x_momentum_flux_for_coupling_multiplied_by_timestep`: Cumulative surface x momentum flux for coupling multiplied by timestep +* `cumulative_x_momentum_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative x momentum flux at surface for coupling multiplied by timestep * `real(kind=kind_phys)`: units = Pa s -* `cumulative_surface_y_momentum_flux_for_coupling_multiplied_by_timestep`: Cumulative surface y momentum flux for coupling multiplied by timestep +* `cumulative_y_momentum_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative y momentum flux at surface for coupling multiplied by timestep * `real(kind=kind_phys)`: units = Pa s * `cellular_automata_area_fraction_for_deep_convection_from_coupled_process`: Cellular automata area fraction for deep convection from coupled process * `real(kind=kind_phys)`: units = fraction * `atmosphere_heat_diffusivity_for_chemistry_coupling`: Atmosphere heat diffusivity for chemistry coupling * `real(kind=kind_phys)`: units = m2 s-1 -* `specific_humidity_at_2m_for_coupling`: Specific humidity at 2m for coupling +* `water_vapor_mixing_ratio_wrt_moist_air_at_2m_for_coupling`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at 2 meters above surface used for coupling * `real(kind=kind_phys)`: units = kg kg-1 -* `surface_air_pressure_for_coupling`: Surface air pressure for coupling +* `air_pressure_at_surface_for_coupling`: Air pressure at surface for coupling * `real(kind=kind_phys)`: units = Pa -* `surface_downwelling_diffuse_nir_shortwave_flux_for_coupling`: Surface downwelling diffuse nir shortwave flux for coupling +* `downwelling_diffuse_nir_shortwave_flux_at_surface_for_coupling`: downwelling diffuse near-infrared shortwave flux at the surface level for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_downwelling_diffuse_uv_and_vis_shortwave_flux_for_coupling`: Surface downwelling diffuse uv and vis shortwave flux for coupling +* `downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_for_coupling`: downwelling diffuse ultraviolet and visible shortwave flux at the surface level for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_downwelling_direct_nir_shortwave_flux_for_coupling`: Surface downwelling direct nir shortwave flux for coupling +* `downwelling_direct_nir_shortwave_flux_at_surface_for_coupling`: downwelling direct near-infrared shortwave flux at the surface level for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_downwelling_direct_uv_and_vis_shortwave_flux_for_coupling`: Surface downwelling direct uv and vis shortwave flux for coupling +* `downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling`: downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_downwelling_longwave_flux_for_coupling`: Surface downwelling longwave flux for coupling +* `downwelling_longwave_flux_at_surface_for_coupling`: Downwelling longwave flux at surface for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_downwelling_shortwave_flux_for_coupling`: Surface downwelling shortwave flux for coupling +* `downwelling_shortwave_flux_at_surface_for_coupling`: Downwelling shortwave flux at surface for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_net_downwelling_diffuse_nir_shortwave_flux_for_coupling`: Surface net downwelling diffuse nir shortwave flux for coupling +* `net_downwelling_diffuse_nir_shortwave_flux_at_surface_for_coupling`: net downwelling diffuse near-infrared shortwave flux at the surface level for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_net_downwelling_diffuse_uv_and_vis_shortwave_flux_for_coupling`: Surface net downwelling diffuse uv and vis shortwave flux for coupling +* `net_downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_for_coupling`: net downwelling diffuse ultraviolet and visible shortwave flux at the surface level for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_net_downwelling_direct_nir_shortwave_flux_for_coupling`: Surface net downwelling direct nir shortwave flux for coupling +* `net_downwelling_direct_nir_shortwave_flux_at_surface_for_coupling`: net downwelling direct near-infrared shortwave flux at the surface level for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_net_downwelling_direct_uv_and_vis_shortwave_flux_for_coupling`: Surface net downwelling direct uv and vis shortwave flux for coupling +* `net_downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling`: downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_net_downwelling_longwave_flux_for_coupling`: Surface net downwelling longwave flux for coupling +* `net_downwelling_longwave_flux_at_surface_for_coupling`: Net downwelling longwave flux at surface for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_net_downwelling_shortwave_flux_for_coupling`: Surface net downwelling shortwave flux for coupling +* `net_downwelling_shortwave_flux_at_surface_for_coupling`: Net downwelling shortwave flux at surface for coupling * `real(kind=kind_phys)`: units = W m-2 * `surface_skin_temperature_for_coupling`: Surface skin temperature for coupling * `real(kind=kind_phys)`: units = K -* `surface_upward_latent_heat_flux_for_coupling`: Surface upward latent heat flux for coupling +* `upward_latent_heat_flux_at_surface_for_coupling`: Upward latent heat flux at surface for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_upward_sensible_heat_flux_for_chemistry_coupling`: Surface upward sensible heat flux for chemistry coupling +* `upward_sensible_heat_flux_at_surface_for_chemistry_coupling`: Upward sensible heat flux at surface for chemistry coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_upward_sensible_heat_flux_for_coupling`: Surface upward sensible heat flux for coupling +* `upward_sensible_heat_flux_at_surface_for_coupling`: Upward sensible heat flux at surface for coupling * `real(kind=kind_phys)`: units = W m-2 -* `surface_x_momentum_flux_for_coupling`: Surface x momentum flux for coupling +* `x_momentum_flux_at_surface_for_coupling`: X momentum flux at surface for coupling * `real(kind=kind_phys)`: units = Pa -* `surface_y_momentum_flux_for_coupling`: Surface y momentum flux for coupling +* `y_momentum_flux_at_surface_for_coupling`: Y momentum flux at surface for coupling * `real(kind=kind_phys)`: units = Pa * `temperature_at_2m_for_coupling`: Temperature at 2m for coupling * `real(kind=kind_phys)`: units = K -* `tendency_of_specific_humidity_due_to_moist_convection_for_coupling`: Tendency of specific humidity due to moist convection for coupling +* `tendency_of_water_vapor_mixing_ratio_wrt_moist_air_due_to_moist_convection_for_coupling`: Tendency of water vapor mixing ratio wrt moist air due to moist convection for coupling * `real(kind=kind_phys)`: units = kg kg-1 s-1 * `x_wind_at_10m_for_coupling`: X wind at 10m for coupling * `real(kind=kind_phys)`: units = m s-1 @@ -1964,49 +2163,49 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = W m-2 * `area_type_from_coupled_process`: Area type from coupled process * `real(kind=kind_phys)`: units = 1 -* `surface_downwelling_diffuse_nir_shortwave_flux_on_radiation_timestep`: Surface downwelling diffuse nir shortwave flux on radiation timestep +* `downwelling_diffuse_nir_shortwave_flux_at_surface_on_radiation_timestep`: downwelling diffuse near-infrared shortwave flux at the surface level on the radiation timestep * `real(kind=kind_phys)`: units = W m-2 -* `surface_downwelling_diffuse_uv_and_vis_shortwave_flux_on_radiation_timestep`: Surface downwelling diffuse uv and vis shortwave flux on radiation timestep +* `downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_on_radiation_timestep`: downwelling diffuse ultraviolet and visible shortwave flux at the surface level on the radiation timestep * `real(kind=kind_phys)`: units = W m-2 -* `surface_downwelling_direct_nir_shortwave_flux_on_radiation_timestep`: Surface downwelling direct nir shortwave flux on radiation timestep +* `downwelling_direct_nir_shortwave_flux_at_surface_on_radiation_timestep`: downwelling direct near-infrared shortwave flux at the surface level on the radiation timestep * `real(kind=kind_phys)`: units = W m-2 -* `surface_downwelling_direct_uv_and_vis_shortwave_flux_on_radiation_timestep`: Surface downwelling direct uv and vis shortwave flux on radiation timestep +* `downwelling_direct_uv_and_vis_shortwave_flux_at_surface_on_radiation_timestep`: downwelling direct ultraviolet and visible shortwave flux at the surface level on the radiation timestep * `real(kind=kind_phys)`: units = W m-2 -* `surface_downwelling_longwave_flux_on_radiation_timestep`: Surface downwelling longwave flux on radiation timestep +* `downwelling_longwave_flux_at_surface_on_radiation_timestep`: Downwelling longwave flux at surface on radiation timestep * `real(kind=kind_phys)`: units = W m-2 -* `surface_downwelling_shortwave_flux_on_radiation_timestep`: Surface downwelling shortwave flux on radiation timestep +* `downwelling_shortwave_flux_at_surface_on_radiation_timestep`: Downwelling shortwave flux at surface on radiation timestep * `real(kind=kind_phys)`: units = W m-2 -* `surface_net_downwelling_shortwave_flux_on_radiation_timestep`: Surface net downwelling shortwave flux on radiation timestep +* `net_downwelling_shortwave_flux_at_surface_on_radiation_timestep`: Net downwelling shortwave flux at surface on radiation timestep * `real(kind=kind_phys)`: units = W m-2 -* `surface_nir_albedo_diffuse_rad_for_coupling`: Surface nir albedo diffuse rad for coupling +* `diffuse_nir_albedo_for_coupling`: surface albedo for diffuse near-infrared radiation for coupling * `real(kind=kind_phys)`: units = fraction -* `surface_nir_albedo_direct_rad_for_coupling`: Surface nir albedo direct rad for coupling +* `direct_nir_albedo_for_coupling`: surface albedo for direct near-infrared radiation for coupling * `real(kind=kind_phys)`: units = fraction * `lwe_surface_snow_from_coupled_process`: Lwe surface snow from coupled process * `real(kind=kind_phys)`: units = m -* `surface_upward_latent_heat_flux_from_coupled_process`: Surface upward latent heat flux from coupled process +* `upward_latent_heat_flux_at_surface_from_coupled_process`: Upward latent heat flux at surface from coupled process * `real(kind=kind_phys)`: units = W m-2 -* `surface_upward_sensible_heat_flux_from_coupled_process`: Surface upward sensible heat flux from coupled process +* `upward_sensible_heat_flux_at_surface_from_coupled_process`: Upward sensible heat flux at surface from coupled process * `real(kind=kind_phys)`: units = W m-2 -* `surface_upwelling_diffuse_nir_shortwave_flux_on_radiation_timestep`: Surface upwelling diffuse nir shortwave flux on radiation timestep +* `upwelling_diffuse_nir_shortwave_flux_at_surface_on_radiation_timestep`: upwelling diffuse near-infrared shortwave flux at the surface level on the radiation timestep * `real(kind=kind_phys)`: units = W m-2 -* `surface_upwelling_diffuse_uv_and_vis_shortwave_flux_on_radiation_timestep`: Surface upwelling diffuse uv and vis shortwave flux on radiation timestep +* `upwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_on_radiation_timestep`: upwelling diffuse ultraviolet and visible shortwave flux at the surface level on the radiation timestep * `real(kind=kind_phys)`: units = W m-2 -* `surface_upwelling_direct_nir_shortwave_flux_on_radiation_timestep`: Surface upwelling direct nir shortwave flux on radiation timestep +* `upwelling_direct_nir_shortwave_flux_at_surface_on_radiation_timestep`: upwelling direct near-infrared shortwave flux at the surface level on the radiation timestep * `real(kind=kind_phys)`: units = W m-2 -* `surface_upwelling_direct_uv_and_vis_shortwave_flux_on_radiation_timestep`: Surface upwelling direct uv and vis shortwave flux on radiation timestep +* `upwelling_direct_uv_and_vis_shortwave_flux_at_surface_on_radiation_timestep`: upwelling direct ultraviolet and visible shortwave flux at the surface level on the radiation timestep * `real(kind=kind_phys)`: units = W m-2 -* `surface_upwelling_longwave_flux_from_coupled_process`: Surface upwelling longwave flux from coupled process +* `upwelling_longwave_flux_at_surface_from_coupled_process`: Upwelling longwave flux at surface from coupled process * `real(kind=kind_phys)`: units = W m-2 -* `surface_upwelling_longwave_flux_on_radiation_timestep`: Surface upwelling longwave flux on radiation timestep +* `upwelling_longwave_flux_at_surface_on_radiation_timestep`: Upwelling longwave flux at surface on radiation timestep * `real(kind=kind_phys)`: units = W m-2 -* `surface_vis_albedo_diffuse_rad_for_coupling`: Surface vis albedo diffuse rad for coupling +* `diffuse_vis_albedo_for_coupling`: surface albedo for diffuse visible radiation for coupling * `real(kind=kind_phys)`: units = fraction -* `surface_vis_albedo_direct_rad_for_coupling`: Surface vis albedo direct rad for coupling +* `direct_vis_albedo_for_coupling`: surface albedo for direct visible radiation for coupling * `real(kind=kind_phys)`: units = fraction -* `surface_x_momentum_flux_from_coupled_process`: Surface x momentum flux from coupled process +* `x_momentum_flux_at_surface_from_coupled_process`: X momentum flux at surface from coupled process * `real(kind=kind_phys)`: units = Pa -* `surface_y_momentum_flux_from_coupled_process`: Surface y momentum flux from coupled process +* `y_momentum_flux_at_surface_from_coupled_process`: Y momentum flux at surface from coupled process * `real(kind=kind_phys)`: units = Pa * `tendency_of_nonhygroscopic_ice_nucleating_aerosols_at_surface_adjacent_layer`: Tendency of nonhygroscopic ice nucleating aerosols at surface adjacent layer * `real(kind=kind_phys)`: units = kg-1 s-1 @@ -2033,15 +2232,15 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = Pa * `air_temperature_at_surface_adjacent_layer`: Air temperature at surface adjacent layer * `real(kind=kind_phys)`: units = K -* `cloud_liquid_water_mixing_ratio_wrt_moist_air_at_surface_adjacent_layer`: Cloud liquid water mixing ratio wrt moist air at surface adjacent layer +* `cloud_liquid_water_mixing_ratio_wrt_moist_air_at_surface_adjacent_layer`: Cloud liquid water mass mixing ratio with respect to moist air at surface-adjacent layer * `real(kind=kind_phys)`: units = kg kg-1 * `mass_number_concentration_of_cloud_liquid_water_particles_in_air`: Mass number concentration of cloud liquid water particles in air * `real(kind=kind_phys)`: units = kg-1 -* `surface_dimensionless_exner_function`: Surface dimensionless exner function +* `exner_function_wrt_surface_pressure`: exner function w.r.t. surface pressure, (p/ps)^(Rd/cp) * `real(kind=kind_phys)`: units = 1 -* `dimensionless_exner_function_at_surface_adjacent_layer`: Dimensionless exner function at surface adjacent layer +* `exner_function_at_surface_adjacent_layer`: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at the surface adjacent layer * `real(kind=kind_phys)`: units = 1 -* `dimensionless_exner_function_at_interfaces`: Dimensionless exner function at interfaces +* `exner_function_at_interfaces`: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at vertical layer interfaces * `real(kind=kind_phys)`: units = 1 * `dissipation_estimate_of_air_temperature_at_model_layers`: Dissipation estimate of air temperature at model layers * `real(kind=kind_phys)`: units = K @@ -2049,7 +2248,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m2 s-2 * `geopotential_at_interfaces`: Geopotential at interfaces * `real(kind=kind_phys)`: units = m2 s-2 -* `graupel_mixing_ratio_wrt_moist_air`: Graupel mixing ratio wrt moist air +* `graupel_mixing_ratio_wrt_moist_air`: Graupel mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 * `mass_number_concentration_of_graupel_in_air`: Mass number concentration of graupel in air * `real(kind=kind_phys)`: units = kg-1 @@ -2057,13 +2256,13 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg-1 * `mass_number_concentration_of_cloud_ice_water_crystals_in_air`: Mass number concentration of cloud ice water crystals in air * `real(kind=kind_phys)`: units = kg-1 -* `ozone_mixing_ratio_wrt_moist_air`: Ozone mixing ratio wrt moist air +* `ozone_mixing_ratio_wrt_moist_air`: Ozone mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 * `mass_number_concentration_of_rain_water_in_air`: Mass number concentration of rain water in air * `real(kind=kind_phys)`: units = kg-1 * `mass_number_concentration_of_snow_in_air`: Mass number concentration of snow in air * `real(kind=kind_phys)`: units = kg-1 -* `snow_mixing_ratio_wrt_moist_air`: Snow mixing ratio wrt moist air +* `snow_mixing_ratio_wrt_moist_air`: Snow mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 * `tracer_concentration`: Tracer concentration * `real(kind=kind_phys)`: units = kg kg-1 @@ -2071,7 +2270,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = J * `mass_number_concentration_of_hygroscopic_aerosols`: Mass number concentration of hygroscopic aerosols * `real(kind=kind_phys)`: units = kg-1 -* `specific_humidity_at_surface_adjacent_layer`: Specific humidity at surface adjacent layer +* `water_vapor_mixing_ratio_wrt_moist_air_at_surface_adjacent_layer`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface-adjacent layer * `real(kind=kind_phys)`: units = kg kg-1 * `x_wind_at_surface_adjacent_layer`: X wind at surface adjacent layer * `real(kind=kind_phys)`: units = m s-1 @@ -2091,7 +2290,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = 1 * `surface_lw_fluxes_assuming_total_and_clear_sky_on_radiation_timestep`: Surface lw fluxes assuming total and clear sky on radiation timestep * `sfcflw_type(kind=)`: units = W m-2 -* `surface_albedo_for_diffused_shortwave_on_radiation_timestep`: Surface albedo for diffused shortwave on radiation timestep +* `diffuse_shortwave_albedo_on_radiation_timestep`: surface albedo for diffuse shortwave radiation on the timestep for radiation physics * `real(kind=kind_phys)`: units = fraction * `surface_longwave_emissivity`: Surface longwave emissivity * `real(kind=kind_phys)`: units = fraction @@ -2165,13 +2364,13 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = K * `air_temperature_of_new_state`: Air temperature of new state * `real(kind=kind_phys)`: units = K -* `cloud_liquid_water_mixing_ratio_wrt_moist_air_of_new_state`: Cloud liquid water mixing ratio wrt moist air of new state +* `cloud_liquid_water_mixing_ratio_wrt_moist_air_of_new_state`: Cloud liquid water mass mixing ratio with respect to moist air of new state * `real(kind=kind_phys)`: units = kg kg-1 * `mass_number_concentration_of_cloud_liquid_water_particles_in_air_of_new_state`: Mass number concentration of cloud liquid water particles in air of new state * `real(kind=kind_phys)`: units = kg-1 * `nonconvective_cloud_area_fraction_in_atmosphere_layer_of_new_state`: Nonconvective cloud area fraction in atmosphere layer of new state * `real(kind=kind_phys)`: units = fraction -* `graupel_mixing_ratio_wrt_moist_air_of_new_state`: Graupel mixing ratio wrt moist air of new state +* `graupel_mixing_ratio_wrt_moist_air_of_new_state`: Graupel mass mixing ratio with respect to moist air of new state * `real(kind=kind_phys)`: units = kg kg-1 * `mass_number_concentration_of_graupel_of_new_state`: Mass number concentration of graupel of new state * `real(kind=kind_phys)`: units = kg-1 @@ -2179,7 +2378,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg-1 * `mass_number_concentration_of_cloud_ice_water_crystals_in_air_of_new_state`: Mass number concentration of cloud ice water crystals in air of new state * `real(kind=kind_phys)`: units = kg-1 -* `cloud_ice_mixing_ratio_wrt_moist_air_of_new_state`: Cloud ice mixing ratio wrt moist air of new state +* `cloud_ice_mixing_ratio_wrt_moist_air_of_new_state`: Cloud ice mass mixing ratio with respect to moist air of new state * `real(kind=kind_phys)`: units = kg kg-1 * `mass_weighted_rime_factor_of_new_state`: Mass weighted rime factor of new state * `real(kind=kind_phys)`: units = kg kg-1 @@ -2187,19 +2386,19 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg kg-1 * `mass_number_concentration_of_rain_of_new_state`: Mass number concentration of rain of new state * `real(kind=kind_phys)`: units = kg-1 -* `rain_mixing_ratio_wrt_moist_air_of_new_state`: Rain mixing ratio wrt moist air of new state +* `rain_mixing_ratio_wrt_moist_air_of_new_state`: Rain mass mixing ratio with respect to moist air of new state * `real(kind=kind_phys)`: units = kg kg-1 * `mass_number_concentration_of_snow_of_new_state`: Mass number concentration of snow of new state * `real(kind=kind_phys)`: units = kg-1 -* `snow_mixing_ratio_wrt_moist_air_of_new_state`: Snow mixing ratio wrt moist air of new state +* `snow_mixing_ratio_wrt_moist_air_of_new_state`: Snow mass mixing ratio with respect to moist air of new state * `real(kind=kind_phys)`: units = kg kg-1 * `tracer_concentration_of_new_state`: Tracer concentration of new state * `real(kind=kind_phys)`: units = kg kg-1 * `mass_number_concentration_of_hygroscopic_aerosols_of_new_state`: Mass number concentration of hygroscopic aerosols of new state * `real(kind=kind_phys)`: units = kg-1 -* `specific_humidity_of_new_state_at_surface_adjacent_layer`: Specific humidity of new state at surface adjacent layer +* `water_vapor_mixing_ratio_wrt_moist_air_of_new_state_at_surface_adjacent_layer`: Specific humidity (water vapor mass mixing ratio with respect to moist air) of new state at surface-adjacent layer * `real(kind=kind_phys)`: units = kg kg-1 -* `specific_humidity_of_new_state`: Specific humidity of new state +* `water_vapor_mixing_ratio_wrt_moist_air_of_new_state`: Specific humidity (water vapor mass mixing ratio with respect to moist air) of new state * `real(kind=kind_phys)`: units = kg kg-1 * `x_wind_of_new_state_at_surface_adjacent_layer`: X wind of new state at surface adjacent layer * `real(kind=kind_phys)`: units = m s-1 diff --git a/StandardNamesRules.rst b/StandardNamesRules.rst index 769ebb3..b3ac6f2 100644 --- a/StandardNamesRules.rst +++ b/StandardNamesRules.rst @@ -32,14 +32,14 @@ CCPP Standard Name Rules while the words in ``this font`` indicate other words or phrases to be substituted. The new standard name is constructed by joining the base standard name to the qualifiers using underscores. - [``transformation``] [``component``] base_name [*at* ``level``] [*in* ``medium``] [*due_to* ``process``] [*assuming* ``condition``] + [``transformation``] [``component``] [``non-instant time``] base_name [*in* ``medium``] [*at* ``level``] [*due_to* ``process``] [``non-current time``] [*assuming* ``condition``] This construction was originally based on rules set forth in the `CF guidelines `_), but have since evolved for better consistency and generality across a broader set of fields than was originally envisioned by the CF conventions. "``medium``" should be specified when the variable in question is a substance or other quantity contained within some other medium - (e.g. for "mole_fraction_of_ozone_in_air", the base name is "ozone", while the medium is "air"). + (e.g. for ``mole_fraction_of_ozone_in_air``, the base name is "ozone", while the medium is "air"). "Transformation" refers to descriptors such as "``tendency_of``", "``log10``", or other operations or processes describing some transformation or adjustment of a variable; a detailed list of possible transformations can be found `later in this document <#transformations>`_. Other parts of the construction provide information about a variable's horizontal surface (e.g. ``at_cloud_base``), component (i.e. direction of variable, e.g. ``downward``), process (e.g. @@ -53,6 +53,19 @@ CCPP Standard Name Rules .. image:: https://raw.githubusercontent.com/wiki/ESCOMP/CCPPStandardNames/images/standard_name_construction_examples.png :alt: image of table providing standard name construction examples + Note that "transformations" are a special case, where multiple transformations may be applied, + and multiple quantities may be compared, operated on, etc. For transformations involving + multiple quantities (e.g. ``ratio_of_X_to_Y``; see the `section on Transformations <#transformations>`_ + for more information), the above formula may be extended around multiple base names. + +.. image:: https://raw.githubusercontent.com/wiki/ESCOMP/CCPPStandardNames/images/standard_name_transformation_examples.png + :alt: image of table providing standard name construction examples with multiple transformations + + In the latter example, ``ln`` is operating on the quantity ``water_vapor_partial_pressure_assuming_saturation``, + while ``derivative_of`` is a combined transformation of ``water_vapor_partial_pressure_assuming_saturation`` + and ``air_temperature``. When multiple transformations are present, a more detailed description + should be provided in the ``long_name`` field to prevent any possible ambiguity. + #. Variables are current and instantaneous unless specified. Variables that are not current (e.g., previous timestep) or non-instantaneous (e.g., accumulated values) should have qualifiers in the standard name to describe what they represent. @@ -87,14 +100,15 @@ CCPP Standard Name Rules with respect to what quantity they are defined, and options are *wrt_dry_air*, *wrt_moist_air*, or *wrt_moist_air_and_condensed_water*, where *moist_air* refers to dry air plus vapor and *moist_air_and_condensed_water* refers - to dry air plus vapor and hydrometeors. Use of *specific_humidity* should - be avoided as there is no consensus on whether it refers to - *mixing_ratio_of_water_vapor_wrt_moist_air* or - *mixing_ratio_of_water_vapor_wrt_moist_air_and_condensed_water*. + to dry air plus vapor and hydrometeors. + + Use of the term *specific_humidity* should be avoided, as there is no consensus on + whether it refers to *water_vapor_mixing_ratio_wrt_moist_air* or + *water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water*. *total_water* can be used to designate water in every form, i.e. water vapor plus condensed water. -#. Volume mixing ratios should be qualified as *volume_mixing_ratio*. + Volume mixing ratios should be qualified as *volume_mixing_ratio*. #. By default, *mole_fraction_of_X_in_Y* refers to the total amount of *Y*. So, for example, *mole_fraction_of_ozone_in_air* refers to the total amount of (moist) air. (In the case of air, @@ -311,6 +325,7 @@ Suffixes | **on_radiation_timestep** | **on_previous_timestep** | ``N`` **_timesteps_back** +| **since_** ``T`` Computational ------------- @@ -372,6 +387,7 @@ Prefixes | change_over_time_in ``_X`` | convergence_of ``_X`` or horizontal_convergence_of ``_X`` | correlation_of ``_X`` _and ``_Y`` [_over ``_Z``] +| cosine_of ``_X`` | covariance_of ``_X`` _and ``_Y`` [_over ``_Z``] | component_derivative_of ``_X`` | derivative_of ``_X`` _wrt ``_Y`` @@ -381,18 +397,19 @@ Prefixes | integral_of ``_Y`` _wrt ``_X`` | ln ``_X`` | log10 ``_X`` +| lwe_thickness_of ``_X`` | magnitude_of ``_X`` | probability_distribution_of ``_X`` [_over ``_Z``] | probability_density_function_of ``_X`` [_over ``_Z``] | product_of ``_X`` _and ``_Y`` | ratio_of ``_X`` _to ``_Y`` +| reciprocal_of ``_X`` +| sine_of ``_X`` | square_of ``_X`` +| standard_deviation_of ``_X`` | tendency_of ``_X`` -| **standard_deviation_of** ``_X`` -| **reciprocal_of** ``_X`` -| **cosine_of** ``_X`` -| **sine_of** ``_X`` -| **variance_of** ``_X`` +| variance_of ``_X`` +| volume_mixing_ratio_of ``_X`` Suffixes ^^^^^^^^ @@ -429,13 +446,13 @@ Special phrases +------------------------+-------------------------------------------------------------------------------------+ |frozen_water | ice | +------------------------+-------------------------------------------------------------------------------------+ -| longwave | longwave radiation | +| longwave | Longwave radiation. Defined as thermal emission of radiation from the planet. | +------------------------+-------------------------------------------------------------------------------------+ | moisture | water in all phases contained in soil | +------------------------+-------------------------------------------------------------------------------------+ | ocean | used instead of in_sea_water for quantities which are large-scale rather than local | +------------------------+-------------------------------------------------------------------------------------+ -| shortwave | shortwave radiation | +| shortwave | Shortwave radiation. Defined as electromagnetic emissions from the sun | +------------------------+-------------------------------------------------------------------------------------+ | specific | per unit mass unless otherwise stated | +------------------------+-------------------------------------------------------------------------------------+ diff --git a/standard_names.xml b/standard_names.xml index 3c04a60..ee4307d 100644 --- a/standard_names.xml +++ b/standard_names.xml @@ -1,4 +1,490 @@ +
+
+ + real + + + real + + + real + + + integer + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + +
+
+ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
+
+ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +
+
real - + real @@ -252,7 +738,7 @@ real - real @@ -368,23 +854,23 @@ long_name="Total change in northward wind from a physics suite"> real - real - real - real - real - + real @@ -405,7 +891,7 @@ long_name="reference pressure in atmosphere layer"> real - real @@ -413,8 +899,8 @@ long_name="Reference pressure in atmosphere layer normalized by surface reference pressure"> real - + real real - + real real + long_name="saturated water vapor mass mixing ratio with respect to moist air and condensed water"> real + long_name="saturated water vapor mass mixing ratio with respect to moist air and condensed water at all interfaces excluding surface"> real real - + real logical - + logical @@ -1632,7 +2119,8 @@ integer - + integer @@ -1641,7 +2129,8 @@ integer - + integer @@ -1650,7 +2139,8 @@ integer - + integer @@ -1662,7 +2152,8 @@ integer - + integer @@ -1671,7 +2162,8 @@ integer - + integer @@ -1680,7 +2172,8 @@ integer - + integer @@ -1689,22 +2182,25 @@ integer - + integer - + integer - + integer integer - + integer - + integer @@ -1716,7 +2212,8 @@ integer - + integer @@ -1821,13 +2318,16 @@ real - + real - + real - + real @@ -2186,10 +2686,12 @@
- + real - + real @@ -2201,10 +2703,12 @@ real - + real - + real @@ -2213,16 +2717,20 @@ real - + real - + real - + real - + real @@ -2234,7 +2742,8 @@ real - + real @@ -2281,7 +2790,8 @@ real - + real @@ -2311,7 +2821,8 @@ real - + real @@ -2326,10 +2837,12 @@ real - + real - + real @@ -2341,7 +2854,8 @@ real - + real @@ -2356,7 +2870,8 @@ real - + real @@ -2365,31 +2880,35 @@ real - + real - + real real - + real - + real real - + real real - + real @@ -2419,10 +2938,12 @@ real - + real - + real @@ -2431,7 +2952,8 @@ real - + real
@@ -2442,7 +2964,8 @@ real - + real @@ -2460,10 +2983,12 @@ real - + real - + real @@ -2544,10 +3069,11 @@ real - + + long_name="Upward specific humidity (water vapor mass mixing ratio with respect to moist air) flux at surface"> real - + real @@ -2589,16 +3115,20 @@ real - + real + long_name="albedo for near-infrared radiation with weak dependence on cosine of the zenith angle"> real + long_name="albedo for visible radiation with strong dependence on cosine of the zenith angle"> real + long_name="albedo for visible radiation with weak dependence on cosine of the zenith angle"> real @@ -2680,7 +3210,7 @@ real - + real @@ -2717,17 +3247,18 @@ real + long_name="Specific humidity (water vapor mass mixing ratio with respect to moist air) at two meters above surface"> real real - + real - + real @@ -2748,34 +3279,44 @@ real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real @@ -2802,7 +3343,7 @@ real - + real @@ -2811,19 +3352,24 @@ real - + real - + real - + real - + real - + real @@ -2832,19 +3378,21 @@ real - + real - + real - + real real - + real @@ -2907,10 +3455,12 @@ real - + real - + real @@ -2924,52 +3474,60 @@ real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real @@ -2978,70 +3536,80 @@ real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real real - + real - + real - + real - + real - + real real - + + long_name="Tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) due to moist convection used for coupling"> real @@ -3074,70 +3642,82 @@ real - + real - + real - + real - + real - + real - + real - + real - + real - + real real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real - + real @@ -3178,19 +3758,23 @@ real - + real real - + real - + real - + real @@ -3202,7 +3786,8 @@ real - + real @@ -3214,7 +3799,8 @@ real - + real @@ -3223,7 +3809,8 @@ real - + real @@ -3235,7 +3822,8 @@ real - + real @@ -3266,7 +3854,8 @@ sfcflw_type - + real @@ -3378,7 +3967,8 @@ real - + real @@ -3387,7 +3977,8 @@ real - + real @@ -3399,7 +3990,8 @@ real - + real @@ -3411,13 +4003,15 @@ real - + real real - + real @@ -3426,10 +4020,12 @@ real - + real - + real diff --git a/tools/check_name_rules.py b/tools/check_name_rules.py index 2a67336..7ca1623 100755 --- a/tools/check_name_rules.py +++ b/tools/check_name_rules.py @@ -8,6 +8,7 @@ import sys import os.path import re +import xml.etree.ElementTree as ET ################################################ #Add CCPP framework (lib) modules to python path @@ -56,13 +57,13 @@ def main(): #Parse list of standard names and see if any names violate one or more rules violators = {} legal_first_char = re.compile('[a-z]') - valid_chars = re.compile('[a-z0-9_]') + valid_name_chars = re.compile('[a-z0-9_]') for name in root.findall('./section/standard_name'): sname = name.attrib['name'] violations = [] if legal_first_char.sub('', sname[0]): violations.append('First character is not a lowercase letter') - testchars = valid_chars.sub('', sname) + testchars = valid_name_chars.sub('', sname) if testchars: violations.append(f'Invalid characters are present: "{testchars}"') @@ -72,8 +73,21 @@ def main(): if violators: raise Exception(f"Violating standard names found:\n{violators}") - else: - print(f'Success! All standard names in {args.standard_name_file} follow the rules.') + + # Check for non-ascii characters (ord > 127) + for elem in ET.tostringlist(root, encoding='unicode'): + violations = [] + badchars = '' + badchars=''.join([i if ord(i) > 127 else '' for i in elem]) + if badchars: + violations.append(f'Non-ascii characters found in {elem}: {badchars}') + if violations: + violators[elem] = f'Non-ascii characters found: {badchars}' + + if violators: + raise Exception(f"Violating entries found:\n{violators}") + + print(f'Success! All entries in {args.standard_name_file} follow the rules.') if __name__ == "__main__": main() diff --git a/tools/write_standard_name_table.py b/tools/write_standard_name_table.py index c89d794..2f66d04 100755 --- a/tools/write_standard_name_table.py +++ b/tools/write_standard_name_table.py @@ -129,7 +129,7 @@ def parse_command_line(args, description): def convert_xml_to_markdown(root, library_name, snl): ############################################################################### snl.write('# {}\n'.format(library_name)) - # Write a table of contents + # Write a table of contents for top-level sections snl.write('#### Table of Contents\n') for section in root: sec_name = section.get('name') @@ -138,15 +138,19 @@ def convert_xml_to_markdown(root, library_name, snl): # end for snl.write('\n') for section in root: + parse_section(snl, section) + +############################################################################### +def parse_section(snl, sec, level='##'): +############################################################################### # Step through the sections - sec_name = section.get('name') - sec_comment = section.get('comment') - snl.write('## {}\n'.format(sec_name)) + sec_name = sec.get('name') + sec_comment = sec.get('comment') + snl.write(f'{level} {sec_name}\n') if sec_comment is not None: # First, squeeze out the spacing while sec_comment.find(' ') >= 0: sec_comment = sec_comment.replace(' ', ' ') - # end while while sec_comment: sec_comment = sec_comment.lstrip() cind = sec_comment.find('\\n') @@ -156,10 +160,10 @@ def convert_xml_to_markdown(root, library_name, snl): else: snl.write('{}\n'.format(sec_comment)) sec_comment = '' - # end if - # end while - # end if - for std_name in section: + for std_name in sec: + if std_name.tag == 'section': + parse_section(snl, std_name, level + '#') + continue stdn_name = std_name.get('name') stdn_longname = std_name.get('long_name') if stdn_longname is None: @@ -183,10 +187,6 @@ def convert_xml_to_markdown(root, library_name, snl): else: emsg = "Unknown standard name property, '{}'" raise ValueError(emsg.format(item.tag)) - # end if - # end for - # end for - # end for ############################################################################### def main_func(): From faf4b6d38d30083358d1de9af04a4a081729cfba Mon Sep 17 00:00:00 2001 From: Michael Kavulich Date: Tue, 13 May 2025 12:51:37 -0600 Subject: [PATCH 3/9] [release/v1] Third major update in v1 branch: update with changes from main, substitute abbreviations, include base name definitions (#104) Here is the next round of proposed changes, resolving several open issues related to topics of discussion over the past several weeks: ## List of changes - Resolve #91: merge in latest relevant changes from the main branch - Resolve #92: Convert instances of `weight` to `scaling_factor` - Resolve #93: Expand on long_name descriptions for base names: this was done except for a few very obvious (e.g. `area`) and/or undefinable (e.g. `energy`) names, and a few more that I will open an issue for shortly - Resolve some items from #95: This PR was already becoming too large so I decided to save some of these for later There were also a few changes not covered by issues: - Added the start of a "Technical specifications" section of the rules, describing the technical details of the dictionary itself. This includes the restrictions previously discussed on including only ASCII characters (and only alphanumeric + `_` for standard_names themselves) - Removed references to specific deviations from the CF standard name rules, since we are far diverged at this point. - Added units to base_name entries where appropriate - Removed several duplicate name entries - Removed two generic names that do not exist in CF and are not used in any existing standard names (in this dictionary or CCPP) - data_mask - specific_eddy_kinetic_energy - Added an example "comment" entry as an example of how this attribute could be used (see the `mixing_ratio` entry) - Changed `air_potential_temperature` --> `potential_temperature_of_air` per our previous discussions about designating mediums except for variables like `air_temperature` that are in common use. --- Metadata-standard-names.md | 636 +++++++++++++++----------- README.md | 10 +- StandardNamesRules.rst | 232 ++++++---- standard_names.xml | 914 +++++++++++++++++++++++-------------- 4 files changed, 1086 insertions(+), 706 deletions(-) diff --git a/Metadata-standard-names.md b/Metadata-standard-names.md index 8499639..2a3ed88 100644 --- a/Metadata-standard-names.md +++ b/Metadata-standard-names.md @@ -1,4 +1,4 @@ -# CCPP Standard Name Library +# Earth System Modeling Standard Name Library #### Table of Contents * [base_names](#base_names) * [dimensions](#dimensions) @@ -9,8 +9,8 @@ * [diagnostics](#diagnostics) * [atmospheric_composition](#atmospheric_composition) * [atmospheric_composition: GOCART aerosols](#atmospheric_composition-gocart-aerosols) -* [required framework-provided variables](#required-framework-provided-variables) -* [optional framework-provided variables](#optional-framework-provided-variables) +* [emissions](#emissions) +* [Application-specific variables](#application-specific-variables) * [system variables](#system-variables) * [GFS_typedefs_GFS_control_type](#gfs_typedefs_gfs_control_type) * [GFS_typedefs_GFS_interstitial_type](#gfs_typedefs_gfs_interstitial_type) @@ -33,90 +33,89 @@ standard names, but they can serve as base names for more specific standard names. * `amount`: amount * `real`: units = kg m-2 -* `area`: area +* `area`: Area * `real`: units = m2 -* `area_fraction`: area_fraction +* `area_fraction`: The fraction of an area where some condition applies * `real`: units = 1 -* `binary_mask`: binary_mask +* `binary_mask`: A field consisting of either 0 or 1 at every point * `integer`: units = 1 -* `coefficient`: coefficient +* `coefficient`: A real number used in a mathematical equation, typically derived empirically and/or adjusted based on some other physical phenomenon to change the behavior of an equation, scheme, or other modeling unit * `real`: units = 1 -* `data_mask`: data_mask - * `real`: units = 1 -* `density`: density +* `density`: Mass per unit volume * `real`: units = kg m-3 -* `energy`: energy +* `energy`: Energy * `real`: units = J -* `energy_content`: energy_content +* `energy_content`: Total energy within some surface * `real`: units = J m-2 -* `energy_density`: energy_density +* `energy_density`: Total energy within some volume * `real`: units = J m-3 -* `frequency`: frequency +* `frequency`: Number of instances per unit time * `real`: units = s-1 -* `heat_flux`: heat_flux +* `heat`: Heat + * `real`: units = J +* `heat_flux`: The amount of heat traveling through an area per unit time * `real`: units = W m-2 -* `heat_transport`: heat_transport +* `heat_transport`: Movement of heat due to advection * `real`: units = W -* `mass`: mass +* `mass`: Mass * `real`: units = kg -* `mass_flux`: mass_flux +* `mass_flux`: Mass traveling through an area per unit time * `real`: units = kg m-2 s-1 -* `mass_fraction`: mass_fraction +* `mass_fraction`: The fraction of a given mass where some condition applies * `real`: units = 1 -* `mixing_ratio`: mixing_ratio - * `real`: units = kg kg-1 -* `mass_transport`: mass_transport +* `mass_transport`: Movement of some specified mass by advection * `real`: units = kg s-1 -* `mole_fraction`: mole_fraction +* `mixing_ratio`: A ratio of the amount of one substance to another; when unqualified refers to the ratio of the mass of one substance to the total mass in a given volume + * `real`: units = kg kg-1 +* `mole_fraction`: The ratio of the number of molecules or atoms of a substance to the total number of molecules/atoms in a given volume * `real`: units = 1 -* `mole_flux`: mole_flux +* `mole_flux`: The number of molecules or atoms of a substance traveling through an area per unit time * `real`: units = mol m-2 s-1 -* `momentum_flux`: momentum_flux +* `momentum_flux`: The transfer of momentum through an area per unit time * `real`: units = Pa -* `partial_pressure`: partial_pressure +* `partial_pressure`: The pressure of a component gas independent of other components * `real`: units = Pa -* `period`: period +* `period`: The amount of time between regular events * `real`: units = s -* `power`: power +* `power`: Energy per unit time * `real`: units = W -* `pressure`: pressure +* `pressure`: Force per unit area * `real`: units = Pa -* `probability`: probability +* `probability`: A number between 0 and 1 indicating the likelihood of an event occurring * `real`: units = 1 -* `radiative_flux`: radiative_flux +* `radiative_flux`: The amount of radiative energy traveling through an area per unit time * `real`: units = W m-2 -* `radius`: radius +* `radius`: Distance from the center to the perimeter of a circle or sphere * `real`: units = m -* `specific_eddy_kinetic_energy`: specific_eddy_kinetic_energy - * `real`: units = m2 s-2 -* `speed`: speed +* `speed`: Directionless distance per unit time * `real`: units = m s-1 -* `stress`: stress +* `stress`: A deformation force across a unit area * `real`: units = Pa -* `streamfunction`: streamfunction +* `streamfunction`: Streamfunction * `real`: units = m2 s-1 -* `temperature`: temperature +* `temperature`: Temperature * `real`: units = K -* `thickness`: thickness +* `thickness`: The vertical distance between two constant-pressure surfaces * `real`: units = m -* `velocity`: velocity +* `velocity`: Distance per unit time * `real`: units = m s-1 -* `velocity_potential`: velocity_potential +* `velocity_potential`: A scalar function with its gradient equal to the velocity vector of an irrotational flow * `real`: units = m2 s-1 -* `volume`: volume +* `volume`: Volume * `real`: units = m3 -* `volume_flux`: volume_flux +* `volume_flux`: The number of molecules or atoms of a substance traveling through an area per unit time * `real`: units = m s-1 -* `volume_fraction`: volume_fraction +* `volume_fraction`: The fraction of a volume where some condition applies * `real`: units = 1 -* `volume_mixing_ratio`: volume_mixing_ratio +* `volume_mixing_ratio`: A ratio of the number of molecules or atoms of a substance to another in a unit volume * `real`: units = mol mol-1 -* `volume_transport`: volume_transport +* `volume_transport`: Movement of some volume of a specified substance by advection * `real`: units = m3 s-1 -* `vorticity`: vorticity +* `vorticity`: The curl of a velocity vector * `real`: units = s-1 ### chemical_species These are the base names for specific chemical species +They can all be assumed to have units of '1' * `c5h8`: Isoprene * `co2`: Carbon dioxide * `co`: Carbon monoxide @@ -147,80 +146,122 @@ These are the base names for specific chemical species These names are used as bases for other names, but may also be considered standard names on their own. See the full list of standard names for further details. -* `absolute_vorticity`: absolute_vorticity -* `air_potential_temperature`: air_potential_temperature -* `air_pressure`: air_pressure -* `air_pressure_thickness`: air_pressure_thickness -* `air_temperature`: air_temperature -* `albedo`: albedo -* `atmosphere_heat_diffusivity`: atmosphere_heat_diffusivity -* `cloud_area_fraction`: cloud_area_fraction -* `cloud_condensate`: cloud_condensate -* `cloud_ice`: cloud_ice -* `cloud_liquid_water`: cloud_liquid_water -* `date`: date -* `density`: density -* `diffuse_nir_albedo`: diffuse near-infrared albedo -* `diffuse_nir_shortwave_flux`: diffuse near-infrared shortwave flux -* `diffuse_shortwave_albedo`: diffuse_shortwave_albedo -* `diffuse_uv_and_vis_shortwave_flux`: diffuse ultraviolet and visible shortwave flux -* `diffuse_vis_albedo`: diffuse visible albedo -* `direct_nir_albedo`: direct near-infrared albedo -* `direct_nir_shortwave_flux`: direct near-infrared shortwave flux -* `direct_uv_and_vis_shortwave_flux`: direct ultraviolet and visible shortwave flux -* `direct_vis_albedo`: direct visible albedo -* `divergence`: divergence -* `dry_air_density`: dry_air_density -* `dry_air_enthalpy`: dry_air_enthalpy -* `exner_function`: exner_function -* `filename`: filename -* `forecast_time`: forecast_time -* `geopotential`: geopotential -* `geopotential_height`: geopotential_height -* `graupel`: graupel -* `gravitational_acceleration`: gravitational_acceleration -* `hail`: hail -* `heat_flux`: heat_flux -* `hygroscopic_aerosols`: hygroscopic_aerosols -* `ice`: ice -* `latent_heat_flux`: latent_heat_flux -* `liquid_water`: liquid_water -* `longwave_flux`: longwave_flux -* `momentum_flux`: momentum_flux +* `absolute_vorticity`: Vorticity of fluid relative to an inertial frame; the sum of relative and planetary vorticities + * `real`: units = s-1 +* `air_pressure`: The pressure of air + * `real`: units = Pa +* `air_pressure_thickness`: Air pressure thickness + * `real`: units = Pa +* `air_temperature`: The temperature of air + * `real`: units = K +* `albedo`: The fraction of incident radiation reflected by a surface + * `real`: units = 1 +* `atmosphere_heat_diffusivity`: Atmosphere heat diffusivity + * `real`: units = m2 s-1 +* `cloud_area_fraction`: Fraction of an area (usually within a grid cell) containing cloud + * `real`: units = fraction +* `cloud_condensate`: Amount of condensed water in cloud +* `cloud_ice_water`: Cloud particles consisting of solid water (ice) +* `cloud_liquid_water`: Cloud particles consisting of liquid water +* `diffuse_nir_albedo`: Albedo of diffuse incident near-infrared radiation + * `real`: units = 1 +* `diffuse_nir_shortwave_flux`: Flux of diffuse near-infrared and shortwave radiation + * `real`: units = W m-2 +* `diffuse_shortwave_albedo`: Albedo of diffuse incident shortwave radiation + * `real`: units = 1 +* `diffuse_uv_and_vis_shortwave_flux`: Flux of diffuse ultraviolet and visible shortwave radiation + * `real`: units = W m-2 +* `diffuse_vis_albedo`: Albedo of diffuse incident visible radiation + * `real`: units = 1 +* `direct_nir_albedo`: Albedo of diffuse incident near-infrared radiation + * `real`: units = 1 +* `direct_nir_shortwave_flux`: Flux of direct near-infrared shortwave radiation + * `real`: units = W m-2 +* `direct_uv_and_vis_shortwave_flux`: Flux of direct ultraviolet and visible shortwave radiation + * `real`: units = W m-2 +* `direct_vis_albedo`: Albedo of direct incident visible light + * `real`: units = 1 +* `divergence`: Divergence + * `real`: units = s-1 +* `dry_air_density`: Density of air excluding water vapor component + * `real`: units = kg m-3 +* `dry_air_enthalpy_at_constant_pressure`: Specific enthalpy of dry air, h = Cp*T, Cp = Specific heat of dry air at constant pressure, T = temperature + * `real`: units = J kg-1 +* `exner_function`: Exner function, (p/p0)^(Rd/cp), where p0 is some reference pressure (1000 hPa if not specified) + * `real(kind=kind_phys)`: units = 1 +* `friction_velocity`: A measure of shear stress within a fluid layer with units of distance per time + * `real`: units = m s-1 +* `filename`: Filename + * `character`: units = none +* `forecast_time`: Forecast time + * `real`: units = h +* `geopotential`: Gravitational potential energy of a unit mass relative to sea level + * `real(kind=kind_phys)`: units = m2 s-2 +* `geopotential_height`: Geopotential divided by the gravitational constant + * `real`: units = m +* `graupel`: Precipitation consisting of heavily rimed ice crystals +* `gravitational_acceleration`: Gravitational acceleration + * `real`: units = m s-2 +* `hail`: Precipitation formed by accretion of supercooled water droplets into a solid piece of ice +* `hygroscopic_aerosols`: Aerosols with the property of accumulating liquid water +* `ice`: Ice +* `latent_heat_flux`: Latent heat flux across a unit surface + * `real`: units = W m-2 +* `liquid_water`: Liquid water +* `longwave_flux`: Flux of longwave radiation across a unit surface + * `real`: units = W m-2 +* `momentum_flux`: Flux of momentum across a unit surface + * `real`: units = Pa * `nonhygroscopic_ice_nucleating_aerosols`: nonhygroscopic_ice_nucleating_aerosols -* `ozone`: ozone -* `pressure`: pressure -* `rain`: rain -* `rain_water`: rain_water -* `random_number`: random_number -* `random_number_seed`: random_number_seed -* `reference_pressure`: reference_pressure -* `relative_humidity`: relative_humidity -* `roughness_length`: roughness_length -* `sensible_heat_flux`: sensible_heat_flux -* `shortwave_flux`: shortwave_flux -* `snow`: snow -* `snow_area_fraction`: snow_area_fraction -* `soil_moisture`: soil_moisture -* `soil_temperature`: soil_temperature -* `solar_declination_angle`: solar_declination_angle -* `solar_zenith_angle`: solar_zenith_angle -* `streamfunction`: streamfunction -* `surface_skin_temperature`: surface_skin_temperature -* `temperature`: temperature -* `temperature_flux`: temperature_flux -* `time`: time -* `total_energy`: total_energy +* `pressure`: Pressure + * `real`: units = Pa +* `rain`: Precipitation of liquid water from clouds +* `random_number`: Random number + * `real`: units = 1 +* `random_number_seed`: Random number seed + * `integer`: units = 1 +* `reference_pressure`: Some pressure value for comparison to or calculation of other values + * `real`: units = Pa +* `relative_humidity`: Ratio of the vapor pressure to the saturation vapor pressure (for liquid water unless otherwise specified) + * `real`: units = fraction +* `roughness_length`: Also called surface roughness length, the height above a surface where the wind speed would be zero according to an idealized logarithmic wind profile + * `real`: units = m +* `sensible_heat_flux`: Flux of sensible heat across a unit surface + * `real`: units = W m-2 +* `shortwave_flux`: Flux of shortwave radiation across a unit surface + * `real`: units = W m-2 +* `snow`: Precipitation of ice crystals from clouds +* `snow_area_fraction`: Fraction of an area (usually within a grid cell) covered by snow + * `real`: units = fraction +* `soil_moisture`: Liquid water contained within a soil layer +* `soil_temperature`: Temperature of a soil layer + * `real`: units = K +* `solar_declination_angle`: The angle between the equator and Earth's orbital plane with the Sun +* `solar_zenith_angle`: Angle between the direction to the sun and the local zenith (vertical direction) +* `surface_skin_temperature`: The temperature of the topmost layer of the surface + * `real`: units = K +* `temperature`: Temperature + * `real`: units = K +* `temperature_flux`: Flux of temperature across a unit surface + * `real`: units = K m s-1 +* `time`: Time + * `real`: units = s +* `total_energy`: Energy from all sources * `total_water`: All water phases (solid, liquid, gas) -* `tracer`: tracer -* `tracers`: tracers -* `turbulent_kinetic_energy`: turbulent_kinetic_energy -* `velocity_potential`: velocity_potential -* `virtual_potential_temperature`: virtual_potential_temperature -* `virtual_temperature`: virtual_temperature -* `water_vapor`: water_vapor -* `wind`: wind -* `wind_speed`: wind_speed +* `tracer`: A hypothetical zero-mass particle that is advected in fluid flow +* `tracers`: Tracers +* `tke`: Specific turbulent kinetic energy + * `real`: units = m2 s-2 +* `virtual_potential_temperature`: The theoretical potential temperature of dry air that would have the same density as moist air + * `real`: units = K +* `virtual_temperature`: The theoretical temperature of dry air that would have the same density as moist air + * `real`: units = K +* `water_vapor`: Water in the gaseous phase +* `wind`: Movement of air with a net displacement +* `wind_stress`: Shear stress exerted by wind parallel to the surface + * `real`: units = Pa +* `wind_speed`: Speed of moving air + * `real`: units = m s-1 ## dimensions Dimension standard names may come in sets of six related standard names for each dimension: ``` @@ -260,10 +301,8 @@ Currently, the only dimension which supports all six dimension types is horizont * `integer`: units = index * `vertical_index_at_top_interface`: Vertical index at top interface * `integer`: units = index -* `number_of_openmp_threads`: Total number of thread blocks which the host model may use to call CCPP physics run groups during the CCPP run phase. +* `number_of_openmp_threads`: Total number of OpenMP (shared-memory) parallel threads. * `integer`: units = count -* `ccpp_thread_number`: Number of current thread block. This variable may only be used during CCPP run phase - * `integer`: units = index ## constants * `avogadro_number`: Avogadro number * `real(kind=kind_phys)`: units = molecules mol-1 @@ -281,7 +320,7 @@ Currently, the only dimension which supports all six dimension types is horizont * `real(kind=kind_phys)`: units = J kg-1 K-1 * `latent_heat_of_vaporization_of_water_at_0c`: latent heat of vaporization of water at 0c * `real(kind=kind_phys)`: units = J kg-1 -* `dry_air_density_at_stp`: density of dry air at STP +* `dry_air_density_at_stp`: density of dry air at standard temperature and pressure * `real(kind=kind_phys)`: units = kg m-3 * `fresh_liquid_water_density_at_0c`: density of liquid water at 0c * `real(kind=kind_phys)`: units = kg m-3 @@ -296,7 +335,7 @@ Currently, the only dimension which supports all six dimension types is horizont * `real(kind=kind_phys)`: units = degree_east * `cell_area`: Cell area * `real(kind=kind_phys)`: units = m2 -* `cell_weight`: Cell weight +* `cell_scaling_factor`: Cell scaling factor * `real(kind=kind_phys)`: units = 1 ## state_variables Note that appending '_on_previous_timestep' to standard_names in this section yields another valid standard_name @@ -404,31 +443,31 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = kg m-2 * `vertically_integrated_total_water_of_current_state`: Vertically integrated total water of current state * `real(kind=kind_phys)`: units = kg m-2 -* `tendency_of_dry_air_enthalpy_at_constant_pressure`: Tendency of dry air enthalpy at constant pressure +* `tendency_of_dry_air_enthalpy_at_constant_pressure`: Change of dry air enthalpy per unit time at constant pressure; d/dt(Cp*T) * `real(kind=kind_phys)`: units = J kg-1 s-1 -* `tendency_of_air_temperature`: Change in temperature from a parameterization +* `tendency_of_air_temperature`: Change in temperature per unit time * `real(kind=kind_phys)`: units = K s-1 -* `tendency_of_air_temperature_due_to_model_physics`: Total change in air temperature from a physics suite +* `tendency_of_air_temperature_due_to_model_physics`: Change in air temperature due to model physics per unit time * `real(kind=kind_phys)`: units = K s-1 -* `tendency_of_air_potential_temperature`: Change in potential temperature from a parameterization +* `tendency_of_potential_temperature_of_air`: Change in potential temperature per unit time * `real(kind=kind_phys)`: units = K s-1 -* `tendency_of_air_potential_temperature_due_to_model_physics`: Tendency of air potential temperature due to model physics +* `tendency_of_potential_temperature_of_air_due_to_model_physics`: Change of potential temperature of air due to model physics per unit time * `real(kind=kind_phys)`: units = K s-1 -* `tendency_of_x_wind`: Change in x wind from a parameterization +* `tendency_of_x_wind`: Change in x wind per unit time * `real(kind=kind_phys)`: units = m s-2 -* `tendency_of_x_wind_due_to_model_physics`: Tendency of x wind due to model physics +* `tendency_of_x_wind_due_to_model_physics`: Change in x wind due to model physics per unit time * `real(kind=kind_phys)`: units = m s-2 -* `tendency_of_y_wind`: Change in y wind from a parameterization +* `tendency_of_y_wind`: Change in y wind per unit time * `real(kind=kind_phys)`: units = m s-2 -* `tendency_of_y_wind_due_to_model_physics`: Tendency of y wind due to model physics +* `tendency_of_y_wind_due_to_model_physics`: Change in y wind due to model physics per unit time * `real(kind=kind_phys)`: units = m s-2 -* `tendency_of_eastward_wind`: Change in eastward wind from a parameterization +* `tendency_of_eastward_wind`: Change in eastward wind per unit time * `real(kind=kind_phys)`: units = m s-2 -* `tendency_of_eastward_wind_due_to_model_physics`: Total change in eastward wind from a physics suite +* `tendency_of_eastward_wind_due_to_model_physics`: Change in eastward wind due to model physics per unit time * `real(kind=kind_phys)`: units = m s-2 -* `tendency_of_northward_wind`: Change in northward wind from a parameterization +* `tendency_of_northward_wind`: Change in northward wind per unit time * `real(kind=kind_phys)`: units = m s-2 -* `tendency_of_northward_wind_due_to_model_physics`: Total change in northward wind from a physics suite +* `tendency_of_northward_wind_due_to_model_physics`: Change in northward wind due to model physics per unit time * `real(kind=kind_phys)`: units = m s-2 * `horizontal_streamfunction_of_air`: Scalar function describing the streamlines of the horizontal wind * `real(kind=kind_phys)`: units = m2 s-1 @@ -456,9 +495,9 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = 1 * `exner_function`: exner function, (p/p0)^(Rd/cp), where p0 is 1000 hPa * `real(kind=kind_phys)`: units = 1 -* `air_potential_temperature`: air potential temperature +* `potential_temperature_of_air`: air potential temperature * `real(kind=kind_phys)`: units = K -* `air_potential_temperature_on_previous_timestep`: air potential temperature on previous timestep +* `potential_temperature_of_air_on_previous_timestep`: air potential temperature on previous timestep * `real(kind=kind_phys)`: units = K * `virtual_temperature`: virtual temperature * `real(kind=kind_phys)`: units = K @@ -650,24 +689,87 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = m-1 * `volume_extinction_in_air_due_to_aerosol_particles_lambda3`: Aerosol extinction at wavelength3 * `real(kind=kind_phys)`: units = m-1 -## required framework-provided variables +## emissions +Emissions variables, contributed for the Community Emissions Data System (CEDS) +* `emissions_of_co_due_to_anthropogenic`: Carbon monoxide emissions from anthropogenic sources, total + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_no_due_to_anthropogenic_sources`: Nitric oxide emissions from anthropogenic sources, total + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_hcho_due_to_anthropogenic_sources`: Formaldehyde emissions from anthropogenic sources, total + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_co_due_to_anthropogenic_agriculture`: Carbon monoxide emissions from anthropogenic non-combustion agricultural sector + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_no_due_to_anthropogenic_agriculture`: Nitric oxide emissions from anthropogenic non-combustion agricultural sector + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_hcho_due_to_anthropogenic_agriculture`: Formaldehyde emissions from anthropogenic non-combustion agricultural sector + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_co_due_to_anthropogenic_energy`: Carbon monoxide emissions from anthropogenic non-combustion energy transformation and extraction + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_no_due_to_anthropogenic_energy`: Nitric oxide emissions from anthropogenic non-combustion energy transformation and extraction + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_hcho_due_to_anthropogenic_energy`: Formaldehyde emissions from anthropogenic non-combustion energy transformation and extraction + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_co_due_to_anthropogenic_industry`: Carbon monoxide emissions from anthropogenic industrial combustion and processes + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_no_due_to_anthropogenic_industry`: Nitric oxide emissions from anthropogenic industrial combustion and processes + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_hcho_due_to_anthropogenic_industry`: Formaldehyde emissions from anthropogenic industrial combustion and processes + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_co_due_to_anthropogenic_rco`: Carbon monoxide emissions from anthropogenic residential, commercial, and others + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_no_due_to_anthropogenic_rco`: Nitric oxide emissions from anthropogenic residential, commercial, and others + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_hcho_due_to_anthropogenic_rco`: Formaldehyde emissions from anthropogenic residential, commercial, and others + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_co_due_to_anthropogenic_shipping`: Carbon monoxide emissions from anthropogenic international shipping + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_no_due_to_anthropogenic_shipping`: Nitric oxide emissions from anthropogenic international shipping + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_hcho_due_to_anthropogenic_shipping`: Formaldehyde emissions from anthropogenic international shipping + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_co_due_to_anthropogenic_solvents`: Carbon monoxide emissions from anthropogenic solvents + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_no_due_to_anthropogenic_solvents`: Nitric oxide emissions from anthropogenic solvents + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_hcho_due_to_anthropogenic_solvents`: Formaldehyde emissions from anthropogenic solvents + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_co_due_to_anthropogenic_transportation`: Carbon monoxide emissions from anthropogenic surface Transportation (Road, Rail, Other) + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_no_due_to_anthropogenic_transportation`: Nitric oxide emissions from anthropogenic surface Transportation (Road, Rail, Other) + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_hcho_due_to_anthropogenic_transportation`: Formaldehyde emissions from anthropogenic surface Transportation (Road, Rail, Other) + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_co_due_to_anthropogenic_waste`: Carbon monoxide emissions from anthropogenic waste disposal and handling + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_no_due_to_anthropogenic_waste`: Nitric oxide emissions from anthropogenic waste disposal and handling + * `real(kind=kind_phys)`: units = kg m-2 s-1 +* `emissions_of_hcho_due_to_anthropogenic_waste`: Formaldehyde emissions from anthropogenic waste disposal and handling + * `real(kind=kind_phys)`: units = kg m-2 s-1 +## Application-specific variables +### required framework-provided variables Required CCPP framework-provided variables * `ccpp_error_message`: Error message for error handling in CCPP * `character(kind=len=512)`: units = none * `ccpp_error_code`: Error code for error handling in CCPP * `integer(kind=)`: units = 1 -## optional framework-provided variables +### optional framework-provided variables Optional CCPP framework-provided variables -* `scheme_name`: CCPP physics scheme name +* `ccpp_scheme_name`: CCPP physics scheme name * `character(kind=len=64)`: units = none * `ccpp_constituent_properties`: CCPP Constituent Properties * `ccpp_constituent_prop_ptr_t(kind=)`: units = none * `ccpp_constituents`: Array of constituents managed by CCPP Framework * `real(kind=kind_phys)`: units = none -* `ccpp_constituent_minimum_values`: CCPP constituent minimum values +* `ccpp_constituent_min_values`: CCPP constituent minimum values * `real(kind=kind_phys)`: units = none * `number_of_ccpp_constituents`: Number of constituents managed by CCPP Framework * `integer(kind=)`: units = count +* `ccpp_block_count`: CCPP block count + * `integer(kind=)`: units = count +* `ccpp_block_sizes`: CCPP block sizes + * `integer(kind=)`: units = count +* `ccpp_thread_number`: Number of current OpenMP thread. This variable may only be used during CCPP run phase + * `integer`: units = index ## system variables Variables related to the compute environment * `flag_for_mpi_root`: Flag for MPI root @@ -693,16 +795,12 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = 1 * `atmosphere_heat_diffusivity_due_to_background`: Atmosphere heat diffusivity due to background * `real(kind=kind_phys)`: units = m2 s-1 -* `max_atmosphere_heat_diffusivity_due_to_background`: Max atmosphere heat diffusivity due to background +* `max_atmosphere_heat_diffusivity_due_to_background`: Maximum atmosphere heat diffusivity due to background * `real(kind=kind_phys)`: units = m2 s-1 * `atmosphere_momentum_diffusivity_due_to_background`: Atmosphere momentum diffusivity due to background * `real(kind=kind_phys)`: units = m2 s-1 * `sigma_pressure_hybrid_coordinate_b_coefficient`: Sigma pressure hybrid coordinate b coefficient * `real(kind=kind_phys)`: units = 1 -* `ccpp_block_count`: Ccpp block count - * `integer(kind=)`: units = count -* `ccpp_block_sizes`: Ccpp block sizes - * `integer(kind=)`: units = count * `cellular_automata_finer_grid`: Cellular automata finer grid * `integer(kind=)`: units = count * `cellular_automata_lifetime`: Cellular automata lifetime @@ -711,11 +809,11 @@ Variables related to the compute environment * `integer(kind=)`: units = count * `cellular_automata_seed_probability`: Cellular automata seed probability * `real(kind=kind_phys)`: units = fraction -* `identifier_for_2018_scale_aware_tke_moist_edmf_pbl`: Identifier for 2018 scale aware tke moist edmf pbl +* `identifier_for_2018_scale_aware_tke_moist_edmf_pbl`: Identifier for 2018 scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme * `integer(kind=)`: units = 1 -* `control_for_scale_aware_tke_moist_edmf_pbl_scheme`: Control for scale aware tke moist edmf pbl scheme +* `control_for_scale_aware_tke_moist_edmf_pbl_scheme`: Control for scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme * `integer(kind=)`: units = 1 -* `identifier_for_2019_scale_aware_tke_moist_edmf_pbl`: Identifier for 2019 scale aware tke moist edmf pbl +* `identifier_for_2019_scale_aware_tke_moist_edmf_pbl`: Identifier for 2019 scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme * `integer(kind=)`: units = 1 * `cloud_condensate_autoconversion_threshold_coefficient`: Cloud condensate autoconversion threshold coefficient * `real(kind=kind_phys)`: units = 1 @@ -727,9 +825,9 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = K-1 * `cloud_phase_transition_threshold_temperature`: Cloud phase transition threshold temperature * `real(kind=kind_phys)`: units = K -* `control_for_cloud_species_mixing_in_mellor_yamada_nakanishi_niino_pbl_scheme`: Control for cloud species mixing in mellor yamada nakanishi niino pbl scheme +* `control_for_cloud_species_mixing_in_mynn_pbl_scheme`: Control for cloud species mixing in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme * `integer(kind=)`: units = 1 -* `control_for_cloud_pdf_in_mellor_yamada_nakanishi_niino_pbl_scheme`: Control for cloud pdf in mellor yamada nakanishi niino pbl scheme +* `control_for_cloud_pdf_in_mynn_pbl_scheme`: Control for cloud probability density function in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme * `integer(kind=)`: units = 1 * `precipitation_evaporation_coefficient`: Precipitation evaporation coefficient * `real(kind=kind_phys)`: units = 1 @@ -753,7 +851,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = 1 * `cosine_of_solar_declination_angle`: Cosine of solar declination angle * `real(kind=kind_phys)`: units = 1 -* `control_for_sgs_cloud_radiation_coupling_in_mellor_yamamda_nakanishi_niino_pbl_scheme`: Control for sgs cloud radiation coupling in mellor yamamda nakanishi niino pbl scheme +* `control_for_sgs_cloud_radiation_coupling_in_mynn_pbl_scheme`: Control for subgrid-scale cloud radiation coupling in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme * `integer(kind=)`: units = 1 * `tunable_parameter_for_critical_cloud_top_entrainment_instability_criteria`: Tunable parameter for critical cloud top entrainment instability criteria * `real(kind=kind_phys)`: units = 1 @@ -761,7 +859,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = fraction * `critical_relative_humidity_at_surface`: Critical relative humidity at surface * `real(kind=kind_phys)`: units = fraction -* `critical_relative_humidity_at_toa`: Critical relative humidity at toa +* `critical_relative_humidity_at_toa`: Critical relative humidity at the top of the atmosphere * `real(kind=kind_phys)`: units = fraction * `date_and_time_at_model_initialization_in_iso_order`: Date and time at model initialization in iso order * `integer(kind=)`: units = 1 @@ -789,29 +887,29 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = 1 * `directory_for_rte_rrtmgp_source_code`: Directory for rte rrtmgp source code * `character(kind=len=128)`: units = none -* `do_mellor_yamada_janjic_pbl_scheme`: Do mellor yamada janjic pbl scheme +* `do_myj_pbl_scheme`: Do Mellor-Yamada-Janjic planetary boundary layer scheme * `logical(kind=)`: units = flag -* `do_mellor_yamada_janjic_surface_layer_scheme`: Do mellor yamada janjic surface layer scheme +* `do_myj_surface_layer_scheme`: Do Mellor-Yamada-Janjic surface layer scheme * `logical(kind=)`: units = flag -* `do_mellor_yamada_nakanishi_niino_pbl_scheme`: Do mellor yamada nakanishi niino pbl scheme +* `do_mynn_pbl_scheme`: Do Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme * `logical(kind=)`: units = flag -* `do_mellor_yamada_nakanishi_niino_surface_layer_scheme`: Do mellor yamada nakanishi niino surface layer scheme +* `do_mynn_surface_layer_scheme`: Do Mellor-Yamada-Nakanishi-Niino surface layer scheme * `logical(kind=)`: units = flag -* `do_unified_gravity_wave_physics_gravity_wave_drag_scheme`: Do unified gravity wave physics gravity wave drag scheme +* `do_unified_gravity_wave_physics_gwd_scheme`: Do Unifed Gravity Wave Physics gravity wave drag scheme * `logical(kind=)`: units = flag -* `downdraft_area_fraction_in_scale_aware_tke_moist_edmf_pbl_scheme`: Downdraft area fraction in scale aware tke moist edmf pbl scheme +* `downdraft_area_fraction_in_scale_aware_tke_moist_edmf_pbl_scheme`: Downdraft area fraction in scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme * `real(kind=kind_phys)`: units = fraction * `downdraft_fraction_reaching_surface_over_land_for_deep_convection`: Downdraft fraction reaching surface over land for deep convection * `real(kind=kind_phys)`: units = fraction * `downdraft_fraction_reaching_surface_over_water_for_deep_convection`: Downdraft fraction reaching surface over water for deep convection * `real(kind=kind_phys)`: units = fraction -* `control_for_edmf_in_mellor_yamada_nakanishi_niino_pbl_scheme`: Control for edmf in mellor yamada nakanishi niino pbl scheme +* `control_for_edmf_in_mynn_pbl_scheme`: Control for eddy-diffusivity mass flux in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme * `integer(kind=)`: units = 1 -* `control_for_edmf_momentum_transport_in_mellor_yamada_nakanishi_niino_pbl_scheme`: Control for edmf momentum transport in mellor yamada nakanishi niino pbl scheme +* `control_for_edmf_momentum_transport_in_mynn_pbl_scheme`: Control for eddy-diffusivity mass flux momentum transport in Mellor-Yamada-Nakanishi-Niino surface layer scheme * `integer(kind=)`: units = 1 -* `control_for_edmf_partitioning_in_mellor_yamada_nakanishi_niino_pbl_scheme`: Control for edmf partitioning in mellor yamada nakanishi niino pbl scheme +* `control_for_edmf_partitioning_in_mynn_pbl_scheme`: Control for eddy-diffusivity mass flux partitioning in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme * `integer(kind=)`: units = 1 -* `control_for_edmf_tke_transport_in_mellor_yamada_nakanishi_niino_pbl_scheme`: Control for edmf tke transport in mellor yamada nakanishi niino pbl scheme +* `control_for_edmf_tke_transport_in_mynn_pbl_scheme`: Control for eddy-diffusivity mass flux turbulent kinetic energy transport in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme * `integer(kind=)`: units = 1 * `surface_layer_scheme_enthalpy_flux_factor`: Surface layer scheme enthalpy flux factor * `real(kind=kind_phys)`: units = 1 @@ -865,7 +963,7 @@ Variables related to the compute environment * `integer(kind=)`: units = 1 * `identifier_for_constant_decorrelation_length_method`: Identifier for constant decorrelation length method * `integer(kind=)`: units = 1 -* `do_convective_gravity_wave_drag`: Do convective gravity wave drag +* `do_convective_gwd`: Do convective gravity wave drag * `logical(kind=)`: units = flag * `do_convective_transport_of_tracers`: Do convective transport of tracers * `logical(kind=)`: units = flag @@ -901,9 +999,9 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `do_generic_tendency_due_to_deep_convection`: Do generic tendency due to deep convection * `logical(kind=)`: units = flag -* `do_generic_tendency_due_to_gravity_wave_drag`: Do generic tendency due to gravity wave drag +* `do_generic_tendency_due_to_gwd`: Do generic tendency due to gravity wave drag * `logical(kind=)`: units = flag -* `do_generic_tendency_due_to_planetary_boundary_layer`: Do generic tendency due to planetary boundary layer +* `do_generic_tendency_due_to_pbl`: Do generic tendency due to planetary boundary layer * `logical(kind=)`: units = flag * `do_generic_tendency_due_to_shallow_convection`: Do generic tendency due to shallow convection * `logical(kind=)`: units = flag @@ -923,7 +1021,7 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `do_global_cellular_automata_trigger`: Do global cellular automata trigger * `logical(kind=)`: units = flag -* `do_gravity_wave_drag`: Do gravity wave drag +* `do_gwd`: Do gravity wave drag * `logical(kind=)`: units = flag * `control_for_land_surface_scheme_surface_snow_albedo`: Control for land surface scheme surface snow albedo * `integer(kind=)`: units = 1 @@ -933,7 +1031,7 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `do_gsl_drag_suite_turbulent_orographic_form_drag`: Do gsl drag suite turbulent orographic form drag * `logical(kind=)`: units = flag -* `do_hybrid_edmf_pbl_scheme`: Do hybrid edmf pbl scheme +* `do_hybrid_edmf_pbl_scheme`: Do hybrid eddy-diffusivity/mass-flux planetary boundary layer scheme * `logical(kind=)`: units = flag * `identifier_for_hogan_decorrelation_length_method`: Identifier for hogan decorrelation length method * `integer(kind=)`: units = 1 @@ -963,9 +1061,9 @@ Variables related to the compute environment * `integer(kind=)`: units = 1 * `control_for_shallow_convection_scheme`: Control for shallow convection scheme * `integer(kind=)`: units = 1 -* `control_for_maximum_cloud_overlap_method`: Control for maximum cloud overlap method +* `control_for_max_cloud_overlap_method`: Control for maximum cloud overlap method * `integer(kind=)`: units = 1 -* `identifier_for_maximum_random_cloud_overlap_method`: Identifier for maximum random cloud overlap method +* `identifier_for_max_random_cloud_overlap_method`: Identifier for maximum random cloud overlap method * `integer(kind=)`: units = 1 * `control_for_microphysics_scheme`: Control for microphysics scheme * `integer(kind=)`: units = 1 @@ -973,7 +1071,7 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `identifier_for_morrison_gettelman_microphysics_scheme`: Identifier for morrison gettelman microphysics scheme * `integer(kind=)`: units = 1 -* `do_mountain_blocking_for_sppt`: Do mountain blocking for sppt +* `do_mountain_blocking_for_sppt`: Do mountain blocking for stochastically perturbed physics tendencies * `logical(kind=)`: units = flag * `identifier_for_noah_land_surface_scheme`: Identifier for noah land surface scheme * `integer(kind=)`: units = 1 @@ -1011,7 +1109,7 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `do_nrl_2006_ozone_scheme`: Do nrl 2006 ozone scheme * `logical(kind=)`: units = flag -* `control_for_pdf_shape_for_microphysics`: Control for pdf shape for microphysics +* `control_for_pdf_shape_for_microphysics`: Control for probability density function shape for microphysics * `integer(kind=)`: units = 1 * `do_surface_layer_scheme_surface_drag_coefficient_for_momentum_in_air_perturbations`: Do surface layer scheme surface drag coefficient for momentum in air perturbations * `logical(kind=)`: units = flag @@ -1059,15 +1157,15 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `do_scale_aware_shin_hong_pbl_scheme`: Do scale aware shin hong pbl scheme * `logical(kind=)`: units = flag -* `do_scale_aware_tke_moist_edmf_pbl`: Do scale aware tke moist edmf pbl +* `do_scale_aware_tke_moist_edmf_pbl`: Do scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme * `logical(kind=)`: units = flag * `do_sgs_cellular_automata`: Do sgs cellular automata * `logical(kind=)`: units = flag * `do_simplified_arakawa_schubert_shallow_convection`: Do simplified arakawa schubert shallow convection * `logical(kind=)`: units = flag -* `do_shoc`: Do shoc +* `do_shoc`: Do Simplified Higher-Order Closure stochastic physics scheme * `logical(kind=)`: units = flag -* `do_shoc_after_convection`: Do shoc after convection +* `do_shoc_after_convection`: Do Simplified Higher-Order Closure stochastic physics scheme after convection parameterization * `logical(kind=)`: units = flag * `control_for_land_surface_scheme_soil_and_snow_temperature_time_integration`: Control for land surface scheme soil and snow temperature time integration * `integer(kind=)`: units = 1 @@ -1083,9 +1181,9 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `do_stochastic_radiative_heating_perturbations`: Do stochastic radiative heating perturbations * `logical(kind=)`: units = flag -* `do_stochastic_shum_option`: Do stochastic shum option +* `do_stochastic_shum_option`: Do Stochastic HUMidity stochastic physics option * `logical(kind=)`: units = flag -* `do_stochastic_skeb_option`: Do stochastic skeb option +* `do_stochastic_skeb_option`: Do Stochastic Kinetic Energy Backscatter option * `logical(kind=)`: units = flag * `do_stratospheric_water_vapor_physics`: Do stratospheric water vapor physics * `logical(kind=)`: units = flag @@ -1115,7 +1213,7 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `do_ugwp_version_1_orographic_gwd`: Do ugwp version 1 orographic gwd * `logical(kind=)`: units = flag -* `do_shoc_cloud_area_fraction_for_radiation`: Do shoc cloud area fraction for radiation +* `do_shoc_cloud_area_fraction_for_radiation`: Do Simplified Higher-Order Closure stochastic physics scheme cloud area fraction for radiation * `logical(kind=)`: units = flag * `control_for_surface_layer_scheme_skin_temperature_update`: Control for surface layer scheme skin temperature update * `integer(kind=)`: units = 1 @@ -1131,13 +1229,13 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `identifier_for_wsm6_microphysics_scheme`: Identifier for wsm6 microphysics scheme * `integer(kind=)`: units = 1 -* `do_ysu_pbl_scheme`: Do ysu pbl scheme +* `do_ysu_pbl_scheme`: Do Yonsei University (YSU) planetary boundary layer scheme * `logical(kind=)`: units = flag * `identifier_for_zhao_carr_microphysics_scheme`: Identifier for zhao carr microphysics scheme * `integer(kind=)`: units = 1 -* `identifier_for_zhao_carr_pdf_microphysics_scheme`: Identifier for zhao carr pdf microphysics scheme +* `identifier_for_zhao_carr_pdf_microphysics_scheme`: Identifier for Zhao-Carr probability density function microphysics scheme * `integer(kind=)`: units = 1 -* `do_hurricane_specific_code_in_hybrid_edmf_pbl_scheme`: Do hurricane specific code in hybrid edmf pbl scheme +* `do_hurricane_specific_code_in_hybrid_edmf_pbl_scheme`: Do hurricane-specific code in hybrid eddy-diffusivity/mass-flux planetary boundary layer scheme * `logical(kind=)`: units = flag * `do_integrated_dynamics_through_earths_atmosphere`: Do integrated dynamics through earths atmosphere * `logical(kind=)`: units = flag @@ -1181,7 +1279,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = K * `control_for_gravitational_settling_of_cloud_droplets`: Control for gravitational settling of cloud droplets * `integer(kind=)`: units = 1 -* `control_for_drag_suite_gravity_wave_drag`: Control for drag suite gravity wave drag +* `control_for_drag_suite_gwd`: Control for drag option in gravity wave drag scheme * `integer(kind=)`: units = 1 * `horizontal_loop_extent`: Horizontal loop extent * `integer(kind=)`: units = count @@ -1257,7 +1355,7 @@ Variables related to the compute environment * `integer(kind=)`: units = index * `index_of_enhancement_to_wind_speed_at_surface_adjacent_layer_due_to_convectionin_in_xy_dimensioned_restart_array`: Index of enhancement to wind speed at surface adjacent layer due to convectionin in xy dimensioned restart array * `integer(kind=)`: units = index -* `index_of_turbulent_kinetic_energy_in_tracer_concentration_array`: Index of turbulent kinetic energy in tracer concentration array +* `index_of_tke_in_tracer_concentration_array`: Index of turbulent kinetic energy in tracer concentration array * `integer(kind=)`: units = index * `index_of_mass_number_concentration_of_hygroscopic_aerosols_in_tracer_concentration_array`: Index of mass number concentration of hygroscopic aerosols in tracer concentration array * `integer(kind=)`: units = index @@ -1283,17 +1381,17 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = fraction * `multiplicative_tuning_parameter_for_reduced_latent_heat_flux_due_to_canopy_heat_storage`: Multiplicative tuning parameter for reduced latent heat flux due to canopy heat storage * `real(kind=kind_phys)`: units = 1 -* `max_tendency_of_air_potential_temperature_due_to_large_scale_precipitation`: Max tendency of air potential temperature due to large scale precipitation +* `max_tendency_of_potential_temperature_of_air_due_to_large_scale_precipitation`: Maximum tendency of air potential temperature due to large-scale precipitation * `real(kind=kind_phys)`: units = K s-1 * `lower_bound_of_vertical_dimension_of_surface_snow`: Lower bound of vertical dimension of surface snow * `integer(kind=)`: units = count * `land_surface_perturbation_magnitudes`: Land surface perturbation magnitudes * `real(kind=kind_phys)`: units = variable -* `max_critical_relative_humidity`: Max critical relative humidity +* `max_critical_relative_humidity`: Maximum critical relative humidity * `real(kind=kind_phys)`: units = fraction -* `max_grid_scale`: Max grid scale +* `max_grid_scale`: Maximum grid scale * `real(kind=kind_phys)`: units = m2 rad-2 -* `maximum_soil_moisture_content_for_land_surface_model`: Maximum soil moisture content for land surface model +* `max_soil_moisture_content_for_land_surface_model`: Maximum soil moisture content for land surface model * `real(kind=kind_phys)`: units = m * `do_allow_supersaturation_after_sedimentation`: Do allow supersaturation after sedimentation * `logical(kind=)`: units = flag @@ -1331,11 +1429,11 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m-3 * `prescribed_number_concentration_of_cloud_ice`: Prescribed number concentration of cloud ice * `real(kind=kind_phys)`: units = m-3 -* `minimum_cloud_condensate_mixing_ratio_wrt_moist_air_threshold`: Minimum threshold cloud condensate mass mixing ratio with respect to moist air +* `min_cloud_condensate_mixing_ratio_wrt_moist_air_threshold`: Minimum threshold cloud condensate mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 -* `minimum_cloud_liquid_water_mixing_ratio_wrt_moist_air_threshold`: Minimum threshold cloud liquid water mass mixing ratio with respect to moist air +* `min_cloud_liquid_water_mixing_ratio_wrt_moist_air_threshold`: Minimum threshold cloud liquid water mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 -* `minimum_cloud_ice_mixing_ratio_wrt_moist_air_threshold`: Minimum threshold cloud ice mass mixing ratio with respect to moist air +* `min_cloud_ice_mixing_ratio_wrt_moist_air_threshold`: Minimum threshold cloud ice mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 * `relative_humidity_threshold_for_ice_nucleation`: Relative humidity threshold for ice nucleation * `real(kind=kind_phys)`: units = fraction @@ -1345,19 +1443,19 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = 1 * `control_for_precipitation_area_fraction_method`: Control for precipitation area fraction method * `character(kind=len=16)`: units = none -* `minimum_large_ice_fraction`: Minimum large ice fraction +* `min_large_ice_fraction`: Minimum large ice fraction * `real(kind=kind_phys)`: units = fraction -* `minimum_pressure_in_rrtmgp`: Minimum pressure in rrtmgp +* `min_pressure_in_rrtmgp`: Minimum pressure in RRTMGP * `real(kind=kind_phys)`: units = Pa * `min_grid_scale`: Min grid scale * `real(kind=kind_phys)`: units = m2 rad-2 -* `minimum_soil_moisture_content_for_land_surface_model`: Minimum soil moisture content for land surface model +* `min_soil_moisture_content_for_land_surface_model`: Minimum soil moisture content for land surface model * `real(kind=kind_phys)`: units = m -* `minimum_temperature_in_rrtmgp`: Minimum temperature in rrtmgp +* `min_temperature_in_rrtmgp`: Minimum temperature in RRTMGP * `real(kind=kind_phys)`: units = K -* `control_for_total_water_mixing_in_mellor_yamada_nakanishi_niino_pbl_scheme`: Control for total water mixing in mellor yamada nakanishi niino pbl scheme +* `control_for_total_water_mixing_in_mynn_pbl_scheme`: Control for total water mixing in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme * `integer(kind=)`: units = 1 -* `control_for_mixing_length_in_mellor_yamada_nakanishi_niino_pbl_scheme`: Control for mixing length in mellor yamada nakanishi niino pbl scheme +* `control_for_mixing_length_in_mynn_pbl_scheme`: Control for mixing length in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme * `integer(kind=)`: units = 1 * `momentum_transport_reduction_factor_due_to_pressure_gradient_force_for_deep_convection`: Momentum transport reduction factor due to pressure gradient force for deep convection * `real(kind=kind_phys)`: units = fraction @@ -1373,11 +1471,11 @@ Variables related to the compute environment * `integer(kind=)`: units = count * `tunable_parameter_for_critical_cloud_workfunction_in_relaxed_arakawa_schubert_deep_convection`: Tunable parameter for critical cloud workfunction in relaxed arakawa schubert deep convection * `real(kind=kind_phys)`: units = 1 -* `tunable_parameters_for_convective_gravity_wave_drag`: Tunable parameters for convective gravity wave drag +* `tunable_parameters_for_convective_gwd`: Tunable parameters for convective gravity wave drag * `real(kind=kind_phys)`: units = 1 -* `multiplicative_tunable_parameters_for_mountain_blocking_and_orographic_gravity_wave_drag`: Multiplicative tunable parameters for mountain blocking and orographic gravity wave drag +* `multiplicative_tunable_parameters_for_mountain_blocking_and_orographic_gwd`: Multiplicative tunable parameters for mountain blocking and orographic gravity wave drag * `real(kind=kind_phys)`: units = 1 -* `control_for_additional_diagnostics_in_mellor_yamada_nakanishi_niino_pbl_scheme`: Control for additional diagnostics in mellor yamada nakanishi niino pbl scheme +* `control_for_additional_diagnostics_in_mynn_pbl_scheme`: Control for additional diagnostics in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme * `integer(kind=)`: units = 1 * `filename_of_namelist`: Filename of namelist * `character(kind=len=64)`: units = none @@ -1385,7 +1483,7 @@ Variables related to the compute environment * `character(kind=len=256)`: units = none * `number_of_xy_dimensioned_auxiliary_arrays`: Number of xy dimensioned auxiliary arrays * `integer(kind=)`: units = count -* `number_of_pdf_based_variables_in_xyz_dimensioned_restart_array`: Number of pdf based variables in xyz dimensioned restart array +* `number_of_pdf_based_variables_in_xyz_dimensioned_restart_array`: Number of probability density function-based variables in XYZ-dimensioned restart array * `integer(kind=)`: units = count * `number_of_xyz_dimensioned_auxiliary_arrays`: Number of xyz dimensioned auxiliary arrays * `integer(kind=)`: units = count @@ -1529,7 +1627,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m * `cellular_automata_vertical_velocity_perturbation_threshold_for_deep_convection`: Cellular automata vertical velocity perturbation threshold for deep convection * `real(kind=kind_phys)`: units = m s-1 -* `period_of_maximum_diagnostics_reset`: Period of maximum diagnostics reset +* `period_of_max_diagnostics_reset`: Period of maximum diagnostics reset * `real(kind=kind_phys)`: units = s * `timescale_for_rayleigh_damping`: Timescale for rayleigh damping * `real(kind=kind_phys)`: units = d @@ -1543,15 +1641,15 @@ Variables related to the compute environment * `integer(kind=)`: units = 1 * `multiplicative_tuning_parameter_for_tke_dissipative_heating`: Multiplicative tuning parameter for tke dissipative heating * `real(kind=kind_phys)`: units = 1 -* `total_amplitude_of_sppt_perturbation`: Total amplitude of sppt perturbation +* `total_amplitude_of_sppt_perturbation`: Total amplitude of stochastically perturbed physics tendencies perturbation * `real(kind=kind_phys)`: units = 1 -* `do_turbulent_orographic_form_drag_in_unified_gravity_wave_physics_gravity_wave_drag_scheme`: Do turbulent orographic form drag in unified gravity wave physics gravity wave drag scheme +* `do_turbulent_orographic_form_drag_in_unified_gravity_wave_physics_gwd_scheme`: Do turbulent orographic form drag in Unified Gravity Wave Physics gravity wave drag scheme * `logical(kind=)`: units = flag -* `updraft_area_fraction_in_scale_aware_tke_moist_edmf_pbl_scheme`: Updraft area fraction in scale aware tke moist edmf pbl scheme +* `updraft_area_fraction_in_scale_aware_tke_moist_edmf_pbl_scheme`: Updraft area fraction in scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme * `real(kind=kind_phys)`: units = fraction -* `tunable_parameter_1_for_maximum_cloud_base_updraft_velocity_in_chikira_sugiyama_deep_convection`: Tunable parameter 1 for maximum cloud base updraft velocity in chikira sugiyama deep convection +* `tunable_parameter_1_for_max_cloud_base_updraft_velocity_in_chikira_sugiyama_deep_convection`: Tunable parameter 1 for max cloud base updraft velocity in chikira sugiyama deep convection * `real(kind=kind_phys)`: units = m s-1 -* `tunable_parameter_2_for_maximum_cloud_base_updraft_velocity_in_chikira_sugiyama_deep_convection`: Tunable parameter 2 for maximum cloud base updraft velocity in chikira sugiyama deep convection +* `tunable_parameter_2_for_max_cloud_base_updraft_velocity_in_chikira_sugiyama_deep_convection`: Tunable parameter 2 for max cloud base updraft velocity in chikira sugiyama deep convection * `real(kind=kind_phys)`: units = m s-1 * `upper_bound_of_vertical_dimension_of_surface_snow`: Upper bound of vertical dimension of surface snow * `integer(kind=)`: units = count @@ -1602,7 +1700,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg kg-1 s-1 * `process_split_cumulative_tendency_of_tracers`: Process split cumulative tendency of tracers * `real(kind=kind_phys)`: units = kg kg-1 s-1 -* `process_split_cumulative_tendency_of_turbulent_kinetic_energy`: Process split cumulative tendency of turbulent kinetic energy +* `process_split_cumulative_tendency_of_tke`: Process-split cumulative change in turbulent kinetic energy per unit time * `real(kind=kind_phys)`: units = J s-1 * `process_split_cumulative_tendency_of_mass_number_concentration_of_hygroscopic_aerosols`: Process split cumulative tendency of mass number concentration of hygroscopic aerosols * `real(kind=kind_phys)`: units = kg-1 s-1 @@ -1615,9 +1713,9 @@ Variables related to the compute environment * `vertical_interface_dimension_interstitial`: Vertical interface dimension interstitial * `integer(kind=)`: units = count ## GFS_typedefs_GFS_tbd_type -* `absolute_momentum_flux_due_to_nonorographic_gravity_wave_drag`: Absolute momentum flux due to nonorographic gravity wave drag +* `absolute_momentum_flux_due_to_nonorographic_gwd`: Absolute momentum flux due to nonorographic gravity wave drag * `real(kind=kind_phys)`: units = various -* `cumulative_lwe_thickness_of_convective_precipitation_amount_between_sw_radiation_calls`: Cumulative lwe thickness of convective precipitation amount between sw radiation calls +* `cumulative_lwe_thickness_of_convective_precipitation_amount_between_sw_radiation_calls`: Cumulative liquid water equivalent thickness of convective precipitation amount between shortwave radiation calls * `real(kind=kind_phys)`: units = m * `mass_number_concentration_of_aerosol_from_gocart_climatology`: Mass number concentration of aerosol from gocart climatology * `real(kind=kind_phys)`: units = kg-1 @@ -1627,7 +1725,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = K * `atmosphere_boundary_layer_thickness`: Atmosphere boundary layer thickness * `real(kind=kind_phys)`: units = m -* `atmosphere_heat_diffusivity_from_shoc`: Atmosphere heat diffusivity from shoc +* `atmosphere_heat_diffusivity_from_shoc`: Atmospheric heat diffusivity from Simplified Higher-Order Closure stochastic physics scheme * `real(kind=kind_phys)`: units = m2 s-1 * `atmosphere_updraft_convective_mass_flux_at_cloud_base_by_cloud_type`: Atmosphere updraft convective mass flux at cloud base by cloud type * `real(kind=kind_phys)`: units = kg m-2 s-1 @@ -1651,15 +1749,15 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = um * `stratospheric_water_vapor_forcing`: Stratospheric water vapor forcing * `real(kind=kind_phys)`: units = various -* `heat_exchange_coefficient_for_myj_schemes`: Heat exchange coefficient for myj schemes +* `heat_exchange_coefficient_for_myj_schemes`: Heat exchange coefficient for Mellor-Yamada-Janjic physics schemes * `real(kind=kind_phys)`: units = m s-1 * `ice_nucleation_number_from_climatology`: Ice nucleation number from climatology * `real(kind=kind_phys)`: units = kg-1 * `upward_virtual_potential_temperature_flux`: Upward virtual potential temperature flux * `real(kind=kind_phys)`: units = K m s-1 -* `upward_flux_of_water_vapor_mixing_ratio_wrt_moist_air_at_surface_for_mellor_yamada_janjic_surface_layer_scheme`: Upward flux of specific humidity (water vapor mass mixing ratio with respect to moist air) at surface for MYJ surface layer scheme +* `upward_flux_of_water_vapor_mixing_ratio_wrt_moist_air_at_surface_for_myj_surface_layer_scheme`: Upward flux of specific humidity (water vapor mass mixing ratio with respect to moist air) at surface for MYJ surface layer scheme * `real(kind=kind_phys)`: units = m s-1 kg kg-1 -* `cumulative_max_vertical_index_at_cloud_base_between_sw_radiation_calls`: Cumulative max vertical index at cloud base between sw radiation calls +* `cumulative_max_vertical_index_at_cloud_base_between_sw_radiation_calls`: Cumulative maximum vertical index at cloud base between shortwave radiation calls * `real(kind=kind_phys)`: units = 1 * `map_of_block_column_number_to_global_i_index`: Map of block column number to global i index * `integer(kind=)`: units = index @@ -1671,11 +1769,11 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg kg-1 * `tendency_of_water_vapor_mixing_ratio_wrt_moist_air_due_to_nonphysics`: Tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) due to nonphysics * `real(kind=kind_phys)`: units = kg kg-1 s-1 -* `momentum_exchange_coefficient_for_myj_schemes`: Momentum exchange coefficient for myj schemes +* `momentum_exchange_coefficient_for_myj_schemes`: Momentum exchange coefficient for Mellor-Yamada-Janjic physics schemes * `real(kind=kind_phys)`: units = m s-1 * `ozone_forcing`: Ozone forcing * `real(kind=kind_phys)`: units = various -* `air_potential_temperature_at_top_of_viscous_sublayer`: Air potential temperature at top of viscous sublayer +* `potential_temperature_of_air_at_top_of_viscous_sublayer`: Potential temperature of air at top of viscous sublayer * `real(kind=kind_phys)`: units = K * `variance_of_water_vapor_mixing_ratio_wrt_moist_air`: Variance of specific humidity (water vapor mass mixing ratio with respect to moist air) * `real(kind=kind_phys)`: units = kg2 kg-2 @@ -1697,7 +1795,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg kg-1 * `subgrid_scale_cloud_liquid_water_mixing_ratio_wrt_moist_air`: Subgrid-scale cloud liquid water mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 -* `subgrid_scale_cloud_fraction_from_shoc`: Subgrid scale cloud fraction from shoc +* `subgrid_scale_cloud_fraction_from_shoc`: Subgrid-scale cloud fraction from Simplified Higher-Order Closure stochastic physics scheme * `real(kind=kind_phys)`: units = fraction * `air_pressure_at_surface_on_previous_timestep`: Air pressure at surface on previous timestep * `real(kind=kind_phys)`: units = Pa @@ -1705,7 +1803,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = Pa * `control_for_surface_layer_evaporation`: Control for surface layer evaporation * `real(kind=kind_phys)`: units = 1 -* `water_vapor_mixing_ratio_wrt_moist_air_at_surface_for_myj_schemes`: Surface specific humidity (water vapor mass mixing ratio with respect to moist air) for MYJ schemes +* `water_vapor_mixing_ratio_wrt_moist_air_at_surface_for_myj_schemes`: Surface specific humidity (water vapor mass mixing ratio with respect to moist air) for Mellor-Yamada-Janjic physics schemes * `real(kind=kind_phys)`: units = kg kg-1 * `enhancement_to_wind_speed_at_surface_adjacent_layer_due_to_convection`: Enhancement to wind speed at surface adjacent layer due to convection * `real(kind=kind_phys)`: units = m s-1 @@ -1715,15 +1813,15 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = K2 * `tendency_of_air_temperature_due_to_nonphysics`: Tendency of air temperature due to nonphysics * `real(kind=kind_phys)`: units = K s-1 -* `tendency_of_air_temperature_to_withhold_from_sppt`: Tendency of air temperature to withhold from sppt +* `tendency_of_air_temperature_to_withhold_from_sppt`: Change of air temperature to withhold from stochastically perturbed physics tendencies per unit time * `real(kind=kind_phys)`: units = K s-1 -* `tendency_of_activated_cloud_condensation_nuclei_from_climatology`: Tendency of activated cloud condensation nuclei from climatology +* `tendency_of_activated_cloud_condensation_nuclei_from_climatology`: Change of activated cloud condensation nuclei from climatology per unit time * `real(kind=kind_phys)`: units = kg-1 s-1 -* `lwe_thickness_of_rain_amount_on_dynamics_timestep_for_coupling`: Lwe thickness of rain amount on dynamics timestep for coupling +* `lwe_thickness_of_rain_amount_on_dynamics_timestep_for_coupling`: Liquid water equivalent thickness of rain amount on dynamics timestep for coupling * `real(kind=kind_phys)`: units = m -* `lwe_thickness_of_snowfall_amount_on_dynamics_timestep_for_coupling`: Lwe thickness of snowfall amount on dynamics timestep for coupling +* `lwe_thickness_of_snowfall_amount_on_dynamics_timestep_for_coupling`: Liquid water equivalent thickness of snowfall amount on dynamics timestep for coupling * `real(kind=kind_phys)`: units = m -* `nonadvected_turbulent_kinetic_energy_multiplied_by_2`: Nonadvected turbulent kinetic energy multiplied by 2 +* `nonadvected_tke_multiplied_by_2`: Non-advected turbulent kinetic energy multiplied by 2 * `real(kind=kind_phys)`: units = m2 s-2 * `x_wind_at_top_of_viscous_sublayer`: X wind at top of viscous sublayer * `real(kind=kind_phys)`: units = m s-1 @@ -1733,11 +1831,11 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_two_timesteps_back`: Specific humidity (water vapor mass mixing ratio with respect to moist air) two timesteps back * `real(kind=kind_phys)`: units = kg kg-1 -* `weight_for_momentum_at_top_of_viscous_sublayer`: Weight for momentum at top of viscous sublayer +* `scaling_factor_for_momentum_at_top_of_viscous_sublayer`: Scaling factor for momentum at top of viscous sublayer * `real(kind=kind_phys)`: units = 1 -* `weight_for_potential_temperature_at_top_of_viscous_sublayer`: Weight for potential temperature at top of viscous sublayer +* `scaling_factor_for_potential_temperature_at_top_of_viscous_sublayer`: Scaling factor for potential temperature at top of viscous sublayer * `real(kind=kind_phys)`: units = 1 -* `weight_for_water_vapor_mixing_ratio_wrt_moist_air_at_top_of_viscous_sublayer`: Weight for specific humidity (water vapor mass mixing ratio with respect to moist air) at the top of the viscous sublayer +* `scaling_factor_for_water_vapor_mixing_ratio_wrt_moist_air_at_top_of_viscous_sublayer`: Scaling factor for specific humidity (water vapor mass mixing ratio with respect to moist air) at the top of the viscous sublayer * `real(kind=kind_phys)`: units = 1 ## GFS_typedefs_GFS_sfcprop_type * `wet_canopy_area_fraction`: Wet canopy area fraction @@ -1830,17 +1928,17 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = 1 * `leaf_mass_content`: Leaf mass content * `real(kind=kind_phys)`: units = g m-2 -* `lwe_thickness_of_convective_precipitation_amount_on_previous_timestep`: Lwe thickness of convective precipitation amount on previous timestep +* `lwe_thickness_of_convective_precipitation_amount_on_previous_timestep`: Liquid water equivalent thickness of convective precipitation amount on previous timestep * `real(kind=kind_phys)`: units = m -* `lwe_thickness_of_explicit_precipitation_amount_on_previous_timestep`: Lwe thickness of explicit precipitation amount on previous timestep +* `lwe_thickness_of_explicit_precipitation_amount_on_previous_timestep`: Liquid water equivalent thickness of explicit precipitation amount on previous timestep * `real(kind=kind_phys)`: units = m -* `lwe_thickness_of_graupel_amount_on_previous_timestep`: Lwe thickness of graupel amount on previous timestep +* `lwe_thickness_of_graupel_amount_on_previous_timestep`: Liquid water equivalent thickness of graupel amount on previous timestep * `real(kind=kind_phys)`: units = m -* `lwe_thickness_of_ice_precipitation_amount_on_previous_timestep`: Lwe thickness of ice precipitation amount on previous timestep +* `lwe_thickness_of_ice_precipitation_amount_on_previous_timestep`: Liquid water equivalent thickness of ice precipitation amount on previous timestep * `real(kind=kind_phys)`: units = m * `snow_mass_on_previous_timestep`: Snow mass on previous timestep * `real(kind=kind_phys)`: units = m -* `max_vegetation_area_fraction`: Max vegetation area fraction +* `max_vegetation_area_fraction`: Maximum vegetation area fraction * `real(kind=kind_phys)`: units = fraction * `nir_albedo_strong_cosz`: albedo for near-infrared radiation with strong dependence on cosine of the zenith angle * `real(kind=kind_phys)`: units = fraction @@ -1858,7 +1956,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = 1 * `dimensionless_age_of_surface_snow`: Dimensionless age of surface snow * `real(kind=kind_phys)`: units = 1 -* `nonnegative_lwe_thickness_of_precipitation_amount_on_dynamics_timestep`: Nonnegative lwe thickness of precipitation amount on dynamics timestep +* `nonnegative_lwe_thickness_of_precipitation_amount_on_dynamics_timestep`: Non-negative liquid water equivalent thickness of precipitation amount on dynamics timestep * `real(kind=kind_phys)`: units = m * `normalized_soil_wetness_for_land_surface_model`: Normalized soil wetness for land surface model * `real(kind=kind_phys)`: units = fraction @@ -1872,7 +1970,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m * `unfiltered_height_above_mean_sea_level`: Unfiltered height above mean sea level * `real(kind=kind_phys)`: units = m -* `air_potential_temperature_at_2m`: Air potential temperature at 2m +* `potential_temperature_of_air_at_2m`: Potential temperature of air at 2m * `real(kind=kind_phys)`: units = K * `ratio_of_wind_at_surface_adjacent_layer_to_wind_at_10m`: Ratio of wind at surface adjacent layer to wind at 10m * `real(kind=kind_phys)`: units = ratio @@ -1904,13 +2002,13 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = g m-2 * `albedo_on_previous_timestep_assuming_deep_snow`: Albedo on previous timestep assuming deep snow * `real(kind=kind_phys)`: units = fraction -* `lwe_thickness_of_ice_in_surface_snow`: Lwe thickness of ice in surface snow +* `lwe_thickness_of_ice_in_surface_snow`: Liquid water equivalent thickness of ice in surface snow * `real(kind=kind_phys)`: units = mm -* `lwe_thickness_of_liquid_water_in_surface_snow`: Lwe thickness of liquid water in surface snow +* `lwe_thickness_of_liquid_water_in_surface_snow`: Liquid water equivalent thickness of liquid water in surface snow * `real(kind=kind_phys)`: units = mm -* `lwe_thickness_of_snowfall_amount_on_previous_timestep`: Lwe thickness of snowfall amount on previous timestep +* `lwe_thickness_of_snowfall_amount_on_previous_timestep`: Liquid water equivalent thickness of snowfall amount on previous timestep * `real(kind=kind_phys)`: units = mm -* `lwe_snowfall_rate`: Lwe snowfall rate +* `lwe_snowfall_rate`: Liquid water equivalent snowfall rate * `real(kind=kind_phys)`: units = mm s-1 * `snowfall_rate_on_previous_timestep`: Snowfall rate on previous timestep * `real(kind=kind_phys)`: units = mm s-1 @@ -1998,9 +2096,15 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = cm * `roughness_length_over_water`: surface roughness length over water * `real(kind=kind_phys)`: units = cm -* `surface_skin_temperature`: Surface skin temperature +* `skin_temperature_at_surface`: Skin temperature at surface + * `real(kind=kind_phys)`: units = K +* `skin_temperature_at_surface_over_ice`: Skin temperature at surface over (or where) ice + * `real(kind=kind_phys)`: units = K +* `skin_temperature_at_surface_over_land`: Skin temperature at surface over (or where) land + * `real(kind=kind_phys)`: units = K +* `skin_temperature_at_surface_over_ocean`: Skin temperature at surface over (or where) ocean * `real(kind=kind_phys)`: units = K -* `surface_skin_temperature_over_land`: Surface skin temperature over land +* `skin_temperature_at_surface_over_snow`: Skin temperature at surface over (or where) snow * `real(kind=kind_phys)`: units = K * `snow_area_fraction_at_surface_over_ice`: Snow area fraction at surface over ice * `real(kind=kind_phys)`: units = fraction @@ -2008,7 +2112,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = fraction * `albedo_of_land_assuming_no_snow_cover`: surface snow-free albedo over land * `real(kind=kind_phys)`: units = fraction -* `lwe_surface_snow`: Lwe surface snow +* `lwe_surface_snow`: Liquid water equivalent surface snow * `real(kind=kind_phys)`: units = mm * `water_vapor_mixing_ratio_wrt_moist_air_at_surface`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface * `real(kind=kind_phys)`: units = kg kg-1 @@ -2024,7 +2128,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg m-2 * `surface_snow_amount_over_land`: Surface snow amount over land * `real(kind=kind_phys)`: units = kg m-2 -* `upper_bound_of_max_albedo_assuming_deep_snow`: Upper bound of max albedo assuming deep snow +* `upper_bound_of_max_albedo_assuming_deep_snow`: Upper bound of maximum albedo assuming deep snow * `real(kind=kind_phys)`: units = fraction * `vegetation_area_fraction`: Vegetation area fraction * `real(kind=kind_phys)`: units = fraction @@ -2040,7 +2144,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = fraction * `volume_fraction_of_unfrozen_soil_moisture_for_land_surface_model`: Volume fraction of unfrozen soil moisture for land surface model * `real(kind=kind_phys)`: units = fraction -* `lwe_thickness_of_surface_snow_amount`: Lwe thickness of surface snow amount +* `lwe_thickness_of_surface_snow_amount`: Liquid water equivalent thickness of surface snow amount * `real(kind=kind_phys)`: units = mm * `water_storage_in_aquifer`: Water storage in aquifer * `real(kind=kind_phys)`: units = mm @@ -2147,11 +2251,11 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m s-1 * `y_wind_at_10m_for_coupling`: Y wind at 10m for coupling * `real(kind=kind_phys)`: units = m s-1 -* `cumulative_lwe_thickness_of_convective_precipitation_amount_for_coupling`: Cumulative lwe thickness of convective precipitation amount for coupling +* `cumulative_lwe_thickness_of_convective_precipitation_amount_for_coupling`: Cumulative liquid water equivalent thickness of convective precipitation amount for coupling * `real(kind=kind_phys)`: units = m -* `cumulative_lwe_thickness_of_precipitation_amount_for_coupling`: Cumulative lwe thickness of precipitation amount for coupling +* `cumulative_lwe_thickness_of_precipitation_amount_for_coupling`: Cumulative liquid water equivalent thickness of precipitation amount for coupling * `real(kind=kind_phys)`: units = m -* `cumulative_lwe_thickness_of_snow_amount_for_coupling`: Cumulative lwe thickness of snow amount for coupling +* `cumulative_lwe_thickness_of_snow_amount_for_coupling`: Cumulative liquid water equivalent thickness of snow amount for coupling * `real(kind=kind_phys)`: units = m * `physics_field_for_coupling`: Physics field for coupling * `real(kind=kind_phys)`: units = m2 s-2 @@ -2181,7 +2285,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = fraction * `direct_nir_albedo_for_coupling`: surface albedo for direct near-infrared radiation for coupling * `real(kind=kind_phys)`: units = fraction -* `lwe_surface_snow_from_coupled_process`: Lwe surface snow from coupled process +* `lwe_surface_snow_from_coupled_process`: Liquid water equivalent surface snow from coupled process * `real(kind=kind_phys)`: units = m * `upward_latent_heat_flux_at_surface_from_coupled_process`: Upward latent heat flux at surface from coupled process * `real(kind=kind_phys)`: units = W m-2 @@ -2213,17 +2317,17 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg-1 s-1 * `updated_tendency_of_air_temperature_due_to_longwave_heating_on_physics_timestep`: Updated tendency of air temperature due to longwave heating on physics timestep * `real(kind=kind_phys)`: units = K s-1 -* `cellular_automata_vertical_weight`: Cellular automata vertical weight +* `cellular_automata_vertical_scaling_factor`: Cellular automata vertical scaling factor * `real(kind=kind_phys)`: units = fraction -* `shum_weights_from_coupled_process`: Shum weights from coupled process +* `shum_scaling_factors_from_coupled_process`: Stochastic HUMidity stochastic physics option scaling factors from coupled process * `real(kind=kind_phys)`: units = 1 -* `skeb_x_wind_weights_from_coupled_process`: Skeb x wind weights from coupled process +* `skeb_x_wind_scaling_factors_from_coupled_process`: Stochastic Kinetic Energy Backscatter x-wind scaling factors from coupled process * `real(kind=kind_phys)`: units = 1 -* `skeb_y_wind_weights_from_coupled_process`: Skeb y wind weights from coupled process +* `skeb_y_wind_scaling_factors_from_coupled_process`: Stochastic Kinetic Energy Backscatter y-wind scaling factors from coupled process * `real(kind=kind_phys)`: units = 1 -* `sppt_weights_from_coupled_process`: Sppt weights from coupled process +* `sppt_scaling_factors_from_coupled_process`: Stochastically perturbed physics tendencies scaling factors from coupled process * `real(kind=kind_phys)`: units = 1 -* `surface_stochastic_weights_from_coupled_process`: Surface stochastic weights from coupled process +* `surface_stochastic_scaling_factors_from_coupled_process`: Surface stochastic scaling factors from coupled process * `real(kind=kind_phys)`: units = 1 ## GFS_typedefs_GFS_statein_type * `air_pressure_at_lowest_model_interface`: Air pressure at lowest model interface @@ -2236,7 +2340,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg kg-1 * `mass_number_concentration_of_cloud_liquid_water_particles_in_air`: Mass number concentration of cloud liquid water particles in air * `real(kind=kind_phys)`: units = kg-1 -* `exner_function_wrt_surface_pressure`: exner function w.r.t. surface pressure, (p/ps)^(Rd/cp) +* `exner_function_wrt_surface_pressure`: Exner function with respect to surface pressure, (p/ps)^(Rd/cp) * `real(kind=kind_phys)`: units = 1 * `exner_function_at_surface_adjacent_layer`: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at the surface adjacent layer * `real(kind=kind_phys)`: units = 1 @@ -2258,7 +2362,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg-1 * `ozone_mixing_ratio_wrt_moist_air`: Ozone mass mixing ratio with respect to moist air * `real(kind=kind_phys)`: units = kg kg-1 -* `mass_number_concentration_of_rain_water_in_air`: Mass number concentration of rain water in air +* `mass_number_concentration_of_rain_in_air`: Mass number concentration of rain in air * `real(kind=kind_phys)`: units = kg-1 * `mass_number_concentration_of_snow_in_air`: Mass number concentration of snow in air * `real(kind=kind_phys)`: units = kg-1 @@ -2266,8 +2370,6 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg kg-1 * `tracer_concentration`: Tracer concentration * `real(kind=kind_phys)`: units = kg kg-1 -* `turbulent_kinetic_energy`: Turbulent kinetic energy - * `real(kind=kind_phys)`: units = J * `mass_number_concentration_of_hygroscopic_aerosols`: Mass number concentration of hygroscopic aerosols * `real(kind=kind_phys)`: units = kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_at_surface_adjacent_layer`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface-adjacent layer @@ -2309,21 +2411,21 @@ Variables related to the compute environment * `tendency_of_air_temperature_due_to_shortwave_heating_on_radiation_timestep`: Tendency of air temperature due to shortwave heating on radiation timestep * `real(kind=kind_phys)`: units = K s-1 ## GFS_typedefs_GFS_grid_type -* `longitude_interpolation_weight_for_aerosol_forcing`: Longitude interpolation weight for aerosol forcing +* `longitude_interpolation_scaling_factor_for_aerosol_forcing`: Longitude interpolation scaling factor for aerosol forcing * `real(kind=kind_phys)`: units = 1 -* `latitude_interpolation_weight_for_aerosol_forcing`: Latitude interpolation weight for aerosol forcing +* `latitude_interpolation_scaling_factor_for_aerosol_forcing`: Latitude interpolation scaling factor for aerosol forcing * `real(kind=kind_phys)`: units = 1 * `characteristic_grid_lengthscale`: Characteristic grid lengthscale * `real(kind=kind_phys)`: units = m -* `longitude_interpolation_weight_for_cloud_nuclei_forcing`: Longitude interpolation weight for cloud nuclei forcing +* `longitude_interpolation_scaling_factor_for_cloud_nuclei_forcing`: Longitude interpolation scaling factor for cloud nuclei forcing * `real(kind=kind_phys)`: units = 1 -* `latitude_interpolation_weight_for_cloud_nuclei_forcing`: Latitude interpolation weight for cloud nuclei forcing +* `latitude_interpolation_scaling_factor_for_cloud_nuclei_forcing`: Latitude interpolation scaling factor for cloud nuclei forcing * `real(kind=kind_phys)`: units = 1 * `cosine_of_latitude`: Cosine of latitude * `real(kind=kind_phys)`: units = 1 -* `latitude_interpolation_weight_complement_for_absolute_momentum_flux_due_to_nonorographic_gravity_wave_drag`: Latitude interpolation weight complement for absolute momentum flux due to nonorographic gravity wave drag +* `latitude_interpolation_scaling_factor_complement_for_absolute_momentum_flux_due_to_nonorographic_gwd`: Latitude interpolation scaling factor complement for absolute momentum flux due to non-orographic gravity wave drag * `real(kind=kind_phys)`: units = 1 -* `latitude_interpolation_weight_for_absolute_momentum_flux_due_to_nonorographic_gravity_wave_drag`: Latitude interpolation weight for absolute momentum flux due to nonorographic gravity wave drag +* `latitude_interpolation_scaling_factor_for_absolute_momentum_flux_due_to_nonorographic_gwd`: Latitude interpolation scaling factor for absolute momentum flux due to non-orographic gravity wave drag * `real(kind=kind_phys)`: units = 1 * `lower_longitude_index_of_aerosol_forcing_for_interpolation`: Lower longitude index of aerosol forcing for interpolation * `integer(kind=)`: units = index @@ -2333,13 +2435,13 @@ Variables related to the compute environment * `integer(kind=)`: units = index * `lower_latitude_index_of_cloud_nuclei_forcing_for_interpolation`: Lower latitude index of cloud nuclei forcing for interpolation * `integer(kind=)`: units = index -* `lower_latitude_index_of_absolute_momentum_flux_due_to_nonorographic_gravity_wave_drag_for_interpolation`: Lower latitude index of absolute momentum flux due to nonorographic gravity wave drag for interpolation +* `lower_latitude_index_of_absolute_momentum_flux_due_to_nonorographic_gwd_for_interpolation`: Lower latitude index of absolute momentum flux due to non-orographic gravity wave drag for interpolation * `integer(kind=)`: units = index * `lower_latitude_index_of_ozone_forcing_for_interpolation`: Lower latitude index of ozone forcing for interpolation * `integer(kind=)`: units = index * `lower_latitude_index_of_stratospheric_water_vapor_forcing_for_interpolation`: Lower latitude index of stratospheric water vapor forcing for interpolation * `integer(kind=)`: units = index -* `latitude_interpolation_weight_for_ozone_forcing`: Latitude interpolation weight for ozone forcing +* `latitude_interpolation_scaling_factor_for_ozone_forcing`: Latitude interpolation scaling factor for ozone forcing * `real(kind=kind_phys)`: units = 1 * `sine_of_latitude`: Sine of latitude * `real(kind=kind_phys)`: units = 1 @@ -2351,13 +2453,13 @@ Variables related to the compute environment * `integer(kind=)`: units = index * `upper_latitude_index_of_cloud_nuclei_forcing_for_interpolation`: Upper latitude index of cloud nuclei forcing for interpolation * `integer(kind=)`: units = index -* `upper_latitude_index_of_absolute_momentum_flux_due_to_nonorographic_gravity_wave_drag_for_interpolation`: Upper latitude index of absolute momentum flux due to nonorographic gravity wave drag for interpolation +* `upper_latitude_index_of_absolute_momentum_flux_due_to_nonorographic_gwd_for_interpolation`: Upper latitude index of absolute momentum flux due to non-orographic gravity wave drag for interpolation * `integer(kind=)`: units = index * `upper_latitude_index_of_ozone_forcing_for_interpolation`: Upper latitude index of ozone forcing for interpolation * `integer(kind=)`: units = index * `upper_latitude_index_of_stratospheric_water_vapor_forcing_for_interpolation`: Upper latitude index of stratospheric water vapor forcing for interpolation * `integer(kind=)`: units = index -* `latitude_interpolation_weight_for_stratospheric_water_vapor_forcing`: Latitude interpolation weight for stratospheric water vapor forcing +* `latitude_interpolation_scaling_factor_for_stratospheric_water_vapor_forcing`: Latitude interpolation scaling factor for stratospheric water vapor forcing * `real(kind=kind_phys)`: units = 1 ## GFS_typedefs_GFS_stateout_type * `air_temperature_of_new_state_at_surface_adjacent_layer`: Air temperature of new state at surface adjacent layer diff --git a/README.md b/README.md index 1cc2fdb..eebb898 100644 --- a/README.md +++ b/README.md @@ -1,12 +1,14 @@ -# CCPPStandardNames +# ESMStandardNames -The CCPPStandardNames Repository contains community-accepted CCPP +The Earth System Modeling Standard Names Repository contains community-accepted Standard Names, publishing tools, and search tools. A Markdown file describing the standard names -[is included](https://github.com/ESCOMP/CCPPStandardNames/blob/master/Metadata-standard-names.md). +[is included](https://github.com/ESCOMP/ESMStandardNames/blob/main/Metadata-standard-names.md). +Rules governing the designation and format of standard names can be found in [StandardNamesRules.rst](https://github.com/ESCOMP/ESMStandardNames/blob/main/StandardNamesRules.rst). -To regenerate the standard name Markdown file, run: +Edits to standard names should be made in the xml file, using the included python tools to generate +the human-readable standard name Markdown file: ``` tools/write_standard_name_table.py standard_names.xml ``` diff --git a/StandardNamesRules.rst b/StandardNamesRules.rst index b3ac6f2..3aa572f 100644 --- a/StandardNamesRules.rst +++ b/StandardNamesRules.rst @@ -4,13 +4,13 @@
******************* -CCPP Standard Names +Earth System Modeling (ESM) Standard Names ******************* This document contains information about the rules used to create Standard Names -for use with the Common Community Physics Package (CCPP). It describes the +for use with Earth System Models. It describes the -* CCPP Standard Name rules +* ESM Standard Name rules * Standard Name qualifiers * Other common standard name components * Acronyms, abbreviations, and aliases @@ -18,7 +18,7 @@ for use with the Common Community Physics Package (CCPP). It describes the .. _Rules -CCPP Standard Name Rules +ESM Standard Name Rules ======================== #. Standard names should be identical to those from the latest version @@ -144,8 +144,9 @@ CCPP Standard Name Rules **Preferred:** surface_upward_specific_humidity_flux #. Spell out acronyms unless they are obvious to a vast majority of - scientists/developers who may come across them. A - list of currently-used acronyms and aliases is below. + scientists/developers who may come across them. A list of currently-used + aliases is below. Whenever such an alias exist, use the alias in the + standard name and the full term in the long name. #. For control-oriented variables, if the variable is a Fortran logical, use flag_for ``_X``. If it is any other data type, use control_for ``_X``. All flags @@ -158,14 +159,39 @@ CCPP Standard Name Rules #. Standard names are case insensitive, i.e. example = EXAMPLE. -.. _qualifiers: +.. _tech_specs: -Qualifiers +Technical specifications ======================== -black = existing CF qualifier +#. The standard name dictionary consists of a number of individual XML elements: + one "standard_name" element for each entry. A standard name entry consist of a "name" attribute + that represents the variable name, and (optionally) a "long_name" attribute that gives + a detailed description of what that name represents. The standard_name XML entry also contains a nested + "type" entry, indicating the data type that a standard_name should represent, and as attributes the + physical units of that variable quantity (see the `section on Units <#units>`_) and the FORTRAN "kind" + of the variable quantity. For example, the element + for the variable name ``exner_function`` may look similar to this: + + + real + + + This XML element indicates that the variable ``exner_function`` represents the quantity described by the ``long_name`` + attribute. It is a real variable of "kind_phys" kind, and units of "1", meaning it is non-dimensional and + does not correspond to a more descriptive non-dimensional type such as "fraction"; see the `section on Units <#units>`_ + for more details + + These standard_name elements can optionally be separated by "section" elements. These are parsed out into human-readable sections in the generated markdown file (``Metadata-standard-names.md``). -**bold** = **proposed new qualifier** +#. Only alphanumeric, punctuation, and whitespace characters from the ASCII character set may be used in the standard_names dictionary. + The "name" attributes of ``standard_name`` entries (i.e. the standard names themselves) are further restricted to the character set of capital/lowercase letters, numerals, and ``_`` (underscore). + +.. _qualifiers: + +Qualifiers +======================== ``this font`` = words or phrases to be substituted @@ -196,18 +222,18 @@ Suffixes | at_top_of_atmosphere_boundary_layer | at_top_of_atmosphere_model | at_top_of_dry_convection -| **at_interfaces** -| **at_toa** -| **at_tropopause** -| **at_surface** -| **at_surface_adjacent_layer** -| **at_2m** -| **at_10m** -| **at_bottom_interface** -| **at_pressure_levels** -| **at_top_of_viscous_sublayer** -| **at_various_atmosphere_layers** -| **extended_up_by_1** +| at_interfaces +| at_toa +| at_tropopause +| at_surface +| at_surface_adjacent_layer +| at_2m +| at_10m +| at_bottom_interface +| at_pressure_levels +| at_top_of_viscous_sublayer +| at_various_atmosphere_layers +| extended_up_by_1 Component @@ -255,13 +281,13 @@ Suffixes | in_troposphere | in_atmosphere | in_surface_snow -| **in_diurnal_thermocline** -| **in_canopy** -| **in_lake** -| **in_aquifer** -| **in_aquifer_and_saturated_soil** -| **in_convective_tower** -| **between_soil_bottom_and_water_table** +| in_diurnal_thermocline +| in_canopy +| in_lake +| in_aquifer +| in_aquifer_and_saturated_soil +| in_convective_tower +| between_soil_bottom_and_water_table Process ------- @@ -275,7 +301,9 @@ Suffixes | due_to_diabatic_processes | due_to_diffusion | due_to_dry_convection -| due_to_gravity_wave_drag +| due_to_gwd +| due_to_convective_gwd +| due_to_orographic_gwd | due_to_gyre | due_to_isostatic_adjustment | due_to_large_scale_precipitation @@ -283,15 +311,15 @@ Suffixes | due_to_moist_convection | due_to_overturning | due_to_shallow_convection +| due_to_pbl_processes | due_to_shortwave_heating | due_to_thermodynamics | due_to_background -| **due_to_subgrid_scale_vertical_mixing** -| **due_to_convective_microphysics** -| **due_to_model_physics** -| **due_to_convective_gravity_wave_drag** -| **due_to_shoc** -| **due_to_dynamics** +| due_to_subgrid_scale_vertical_mixing +| due_to_convective_microphysics +| due_to_model_physics +| due_to_shoc +| due_to_dynamics Condition --------- @@ -302,15 +330,15 @@ Suffixes | assuming_clear_sky | assuming_deep_snow | assuming_no_snow -| **over_land** -| **over_ocean** -| **over_ice** -| **for_momentum** -| **for_heat** -| **for_moisture** -| **for_heat_and_moisture** -| **assuming_shallow** -| **assuming_deep** +| over_land +| over_ocean +| over_ice +| for_momentum +| for_heat +| for_moisture +| for_heat_and_moisture +| assuming_shallow +| assuming_deep Time ---- @@ -318,14 +346,14 @@ Time Suffixes ^^^^^^^^ -| **of_new_state** -| **on_physics_timestep** -| **on_dynamics_timestep** +| of_new_state +| on_physics_timestep +| on_dynamics_timestep -| **on_radiation_timestep** -| **on_previous_timestep** -| ``N`` **_timesteps_back** -| **since_** ``T`` +| on_radiation_timestep +| on_previous_timestep +| ``N`` _timesteps_back +| since_ ``T`` Computational ------------- @@ -333,51 +361,51 @@ Computational Prefixes ^^^^^^^^ -| **lower_bound_of** -| **upper_bound_of** -| **unfiltered** -| **nonnegative** -| **flag_for** -| **control_for** -| **number_of** -| **index_of** -| **vertical_index_at** -| **vertical_dimension_of** -| **cumulative** -| **iounit_of** -| **filename_of** -| **frequency_of** -| **period_of** -| **XYZ_dimensioned** -| **tendency_of** ``X`` -| **generic_tendency** -| **one_way_coupling_of** ``_X`` **_to** ``_Y`` -| **tunable_parameter[s]_for** ``_X`` -| **map_of** +| lower_bound_of +| upper_bound_of +| unfiltered +| nonnegative +| flag_for +| control_for +| number_of +| index_of +| vertical_index_at +| vertical_dimension_of +| cumulative +| iounit_of +| filename_of +| frequency_of +| period_of +| XYZ_dimensioned +| tendency_of ``X`` +| generic_tendency +| one_way_coupling_of ``_X`` _to ``_Y`` +| tunable_parameter[s]_for ``_X`` +| map_of Infixes ^^^^^^^ -| **directory_for** ``_X`` **_source_code** -| **flag_for_reading** ``_X`` **_from_input** +| directory_for ``_X`` _source_code +| flag_for_reading ``_X`` _from_input Suffixes ^^^^^^^^ -| **for_coupling** -| **for_chemistry_coupling** -| **from_coupled_process** -| **from_wave_model** -| **collection_array** -| **multiplied_by_timestep** -| **for_current_mpi_rank** -| **for_current_cubed_sphere_tile** -| **plus_one** -| **minus_one** -| **for_radiation** -| **for_deep_convection** -| **for_microphysics** +| for_coupling +| for_chemistry_coupling +| from_coupled_process +| from_wave_model +| collection_array +| multiplied_by_timestep +| for_current_mpi_rank +| for_current_cubed_sphere_tile +| plus_one +| minus_one +| for_radiation +| for_deep_convection +| for_microphysics Transformations --------------- @@ -460,13 +488,13 @@ Special phrases +------------------------+-------------------------------------------------------------------------------------+ | water | water in all phases if not otherwise qualified | +------------------------+-------------------------------------------------------------------------------------+ -| **dimensionless** | **lacking units** | +| dimensionless | lacking units | +------------------------+-------------------------------------------------------------------------------------+ -| **kinematic** | **refers to surface fluxes in "native" units (K m s-1 and kg kg-1 m s-1)** | +| kinematic | refers to surface fluxes in "native" units (K m s-1 and kg kg-1 m s-1) | +------------------------+-------------------------------------------------------------------------------------+ -| **direct** | **used in radiation (as opposed to diffuse)** | +| direct | used in radiation (as opposed to diffuse) | +------------------------+-------------------------------------------------------------------------------------+ -| **diffuse** | **used in radiation (as opposed to direct)** | +| diffuse | used in radiation (as opposed to direct) | +------------------------+-------------------------------------------------------------------------------------+ Chemical Species @@ -600,6 +628,10 @@ Acronyms, Abbreviations, and Aliases +---------------------+---------------------------------------------------------+ | **Short** | **Meaning** | +=====================+=========================================================+ +| edmf | eddy-diffusivity/mass-flux | ++---------------------+---------------------------------------------------------+ +| gwd | gravity wave drag | ++---------------------+---------------------------------------------------------+ | ir | infrared | +---------------------+---------------------------------------------------------+ | lwe | liquid water equivalent | @@ -608,8 +640,24 @@ Acronyms, Abbreviations, and Aliases +---------------------+---------------------------------------------------------+ | min | minimum | +---------------------+---------------------------------------------------------+ +| myj | Mellor-Yamada-Janjic scheme | ++---------------------+---------------------------------------------------------+ +| mynn | Mellor-Yamada-Nakanishi-Niino scheme | ++---------------------+---------------------------------------------------------+ | nir | near-infrared part of the EM spectrum (radiation) | +---------------------+---------------------------------------------------------+ +| pbl | planetary boundary layer | ++---------------------+---------------------------------------------------------+ +| pdf | probability density function | ++---------------------+---------------------------------------------------------+ +| skeb | stochastic kinetic energy backscatter | ++---------------------+---------------------------------------------------------+ +| shoc | simplified higher-order closure stochastic scheme | ++---------------------+---------------------------------------------------------+ +| shum | stochastically perturbed boundary-layer humidity scheme | ++---------------------+---------------------------------------------------------+ +| sppt | stochastically perturbed physics tendencies | ++---------------------+---------------------------------------------------------+ | stp | standard temperature (0 degC) and pressure (101325 Pa) | +---------------------+---------------------------------------------------------+ | tke | turbulent kinetic energy | diff --git a/standard_names.xml b/standard_names.xml index ee4307d..b228759 100644 --- a/standard_names.xml +++ b/standard_names.xml @@ -1,4 +1,4 @@ - +
real - + real + long_name="The fraction of an area where some condition applies"> real + long_name="A field consisting of either 0 or 1 at every point"> integer - real - - + long_name="A real number used in a mathematical equation, typically derived empirically and/or adjusted based on some other physical phenomenon to change the behavior of an equation, scheme, or other modeling unit"> real + long_name="Mass per unit volume"> real - + real + long_name="Total energy within some surface"> real + long_name="Total energy within some volume"> real + long_name="Number of instances per unit time"> real + + real + + long_name="The amount of heat traveling through an area per unit time"> real + long_name="Movement of heat due to advection"> real - + real + long_name="Mass traveling through an area per unit time"> real + long_name="The fraction of a given mass where some condition applies"> real - - real - + long_name="Movement of some specified mass by advection"> real + + real + + long_name="The ratio of the number of molecules or atoms of a substance to the total number of molecules/atoms in a given volume"> real + long_name="The number of molecules or atoms of a substance traveling through an area per unit time"> real + long_name="The transfer of momentum through an area per unit time"> real + long_name="The pressure of a component gas independent of other components"> real + long_name="The amount of time between regular events"> real + long_name="Energy per unit time"> real + long_name="Force per unit area"> real + long_name="A number between 0 and 1 indicating the likelihood of an event occurring"> real + long_name="The amount of radiative energy traveling through an area per unit time"> real + long_name="Distance from the center to the perimeter of a circle or sphere"> real - - real - + long_name="Directionless distance per unit time"> real + long_name="A deformation force across a unit area"> real - + real - + real + long_name="The vertical distance between two constant-pressure surfaces"> real + long_name="Distance per unit time"> real + long_name="A scalar function with its gradient equal to the velocity vector of an irrotational flow"> real - + real + long_name="The number of molecules or atoms of a substance traveling through an area per unit time"> real + long_name="The fraction of a volume where some condition applies"> real + long_name="A ratio of the number of molecules or atoms of a substance to another in a unit volume"> real + long_name="Movement of some volume of a specified substance by advection"> real + long_name="The curl of a velocity vector"> real
+ comment="These are the base names for specific chemical species\nThey can all be assumed to have units of '1'"> @@ -262,226 +252,242 @@ also be considered standard names on their own. See the\n full list of standard names for further details.\n"> - - + long_name="Vorticity of fluid relative to an inertial frame; the sum of relative and planetary vorticities"> + real + long_name="The pressure of air"> + real - + + real + long_name="The temperature of air"> + real + long_name="The fraction of incident radiation reflected by a surface"> + real - + + real + long_name="Fraction of an area (usually within a grid cell) containing cloud"> + real + long_name="Amount of condensed water in cloud"> - + - - - - + long_name="Cloud particles consisting of liquid water"> + long_name="Albedo of diffuse incident near-infrared radiation"> + real + long_name="Flux of diffuse near-infrared and shortwave radiation"> + real + long_name="Albedo of diffuse incident shortwave radiation"> + real + long_name="Flux of diffuse ultraviolet and visible shortwave radiation"> + real + long_name="Albedo of diffuse incident visible radiation"> + real + long_name="Albedo of diffuse incident near-infrared radiation"> + real + long_name="Flux of direct near-infrared shortwave radiation"> + real + long_name="Flux of direct ultraviolet and visible shortwave radiation"> + real + long_name="Albedo of direct incident visible light"> + real - + + real + long_name="Density of air excluding water vapor component"> + real - + + real + long_name="Exner function, (p/p0)^(Rd/cp), where p0 is some reference pressure (1000 hPa if not specified)"> + real + + + real - + + character - + + real + long_name="Gravitational potential energy of a unit mass relative to sea level"> + real + long_name="Geopotential divided by the gravitational constant"> + real + long_name="Precipitation consisting of heavily rimed ice crystals"> - + + real - - + long_name="Precipitation formed by accretion of supercooled water droplets into a solid piece of ice"> + long_name="Aerosols with the property of accumulating liquid water"> - + + long_name="Latent heat flux across a unit surface"> + real - + + long_name="Flux of longwave radiation across a unit surface"> + real + long_name="Flux of momentum across a unit surface"> + real - - - + + real + long_name="Precipitation of liquid water from clouds"> - - - + + real - + + integer + long_name="Some pressure value for comparison to or calculation of other values"> + real + long_name="Ratio of the vapor pressure to the saturation vapor pressure (for liquid water unless otherwise specified)"> + real + long_name="Also called surface roughness length, the height above a surface where the wind speed would be zero according to an idealized logarithmic wind profile"> + real + long_name="Flux of sensible heat across a unit surface"> + real + long_name="Flux of shortwave radiation across a unit surface"> + real + long_name="Precipitation of ice crystals from clouds"> + long_name="Fraction of an area (usually within a grid cell) covered by snow"> + real + long_name="Liquid water contained within a soil layer"> + long_name="Temperature of a soil layer"> + real + long_name="The angle between the equator and Earth's orbital plane with the Sun"> - - + long_name="Angle between the direction to the sun and the local zenith (vertical direction)"> + long_name="The temperature of the topmost layer of the surface"> + real - + + real + long_name="Flux of temperature across a unit surface"> + real - + + real + long_name="Energy from all sources"> - - + long_name="A hypothetical zero-mass particle that is advected in fluid flow"> - + - + + real + long_name="The theoretical potential temperature of dry air that would have the same density as moist air"> + real + long_name="The theoretical temperature of dry air that would have the same density as moist air"> + real + long_name="Water in the gaseous phase"> + long_name="Movement of air with a net displacement"> + + + real + long_name="Speed of moving air"> + real
@@ -555,13 +561,9 @@ integer + long_name="Total number of OpenMP (shared-memory) parallel threads."> integer - - integer -
@@ -591,7 +593,7 @@ real + long_name="density of dry air at standard temperature and pressure"> real real - + real
@@ -806,52 +808,55 @@ real + long_name="Change of dry air enthalpy per unit time at constant pressure; d/dt(Cp*T)"> real + long_name="Change in temperature per unit time"> real + long_name="Change in air temperature due to model physics per unit time"> real - + real - + real + long_name="Change in x wind per unit time"> real - + real + long_name="Change in y wind per unit time"> real - + real + long_name="Change in eastward wind per unit time"> real + long_name="Change in eastward wind due to model physics per unit time"> real + long_name="Change in northward wind per unit time"> real + long_name="Change in northward wind due to model physics per unit time"> real real - real - real @@ -930,8 +935,7 @@ long_name="composition dependent ratio of dry air gas constant to specific heat of dry air at constant pressure"> real - real @@ -1277,39 +1281,164 @@ real -
- - character - - - integer +
+ + real -
-
- - character + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real - - ccpp_constituent_prop_ptr_t + + real - - real + + real - - real + + real - - integer + + real + + real + + + real + + + real + + + real + + + real + + + real + + + real + + + real + +
+
+
+ + character + + + integer + +
+
+ + character + + + ccpp_constituent_prop_ptr_t + + + real + + + real + + + integer + + + integer + + + integer + + + integer + +
@@ -1350,7 +1479,8 @@ real - + real @@ -1359,12 +1489,6 @@ real - - integer - - - integer - integer @@ -1377,13 +1501,16 @@ real - + integer - + integer - + integer @@ -1401,10 +1528,12 @@ real - + integer - + integer @@ -1440,7 +1569,8 @@ real - + integer @@ -1452,7 +1582,8 @@ real - + real @@ -1494,22 +1625,28 @@ character - + logical - + logical - + logical - + logical - + logical - + real @@ -1518,16 +1655,20 @@ real - + integer - + integer - + integer - + integer @@ -1608,7 +1749,8 @@ integer - + logical @@ -1662,10 +1804,12 @@ logical - + logical - + logical @@ -1695,7 +1839,8 @@ logical - + logical @@ -1710,7 +1855,8 @@ logical - + logical @@ -1755,10 +1901,12 @@ integer - + integer - + integer @@ -1770,7 +1918,8 @@ integer - + logical @@ -1827,7 +1976,8 @@ logical - + integer @@ -1900,7 +2050,8 @@ logical - + logical @@ -1909,10 +2060,12 @@ logical - + logical - + logical @@ -1936,10 +2089,12 @@ logical - + logical - + logical @@ -1984,7 +2139,8 @@ logical - + logical @@ -2008,16 +2164,19 @@ integer - + logical integer - + integer - + logical @@ -2083,7 +2242,8 @@ integer - + integer @@ -2206,7 +2366,8 @@ integer - + integer @@ -2246,7 +2407,8 @@ real - + real @@ -2255,13 +2417,16 @@ real - + real - + real - + real @@ -2318,15 +2483,15 @@ real - real - real - real @@ -2342,25 +2507,31 @@ character - + real - + real real - + real - + real - + integer - + integer @@ -2384,13 +2555,16 @@ real - + real - + real - + integer @@ -2402,7 +2576,8 @@ integer - + integer @@ -2618,7 +2793,8 @@ real - + real @@ -2639,19 +2815,22 @@ real - + real - + logical - + real - + real - + real @@ -2736,7 +2915,8 @@ real - + real @@ -2757,10 +2937,12 @@
- + real - + real @@ -2775,7 +2957,8 @@ real - + real @@ -2812,7 +2995,8 @@ real - + real @@ -2821,11 +3005,12 @@ real - real - + real @@ -2845,13 +3030,14 @@ long_name="Tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) due to nonphysics"> real - + real real - + real real - + real @@ -2901,7 +3088,7 @@ real + long_name="Surface specific humidity (water vapor mass mixing ratio with respect to moist air) for Mellor-Yamada-Janjic physics schemes"> real @@ -2917,19 +3104,24 @@ real - + real - + real - + real - + real - + real @@ -2946,14 +3138,14 @@ long_name="Specific humidity (water vapor mass mixing ratio with respect to moist air) two timesteps back"> real - + real - + real - + real
@@ -3097,22 +3289,27 @@ real - + real - + real - + real - + real real - + real real - + real @@ -3165,7 +3363,7 @@ real - + real @@ -3213,16 +3411,20 @@ real - + real - + real - + real - + real @@ -3372,10 +3574,24 @@ long_name="surface roughness length over water"> real - + real - + + real + + + real + + + real + + real @@ -3388,7 +3604,8 @@ long_name="surface snow-free albedo over land"> real - + real real - + real @@ -3437,7 +3655,8 @@ real - + real @@ -3618,13 +3837,16 @@ real - + real - + real - + real @@ -3675,7 +3897,8 @@ long_name="surface albedo for direct near-infrared radiation for coupling"> real - + real @@ -3729,22 +3952,26 @@ real - + real - + real - + real - + real - + real - + real
@@ -3766,7 +3993,7 @@ real + long_name="Exner function with respect to surface pressure, (p/ps)^(Rd/cp)"> real real - + real @@ -3816,9 +4043,6 @@ real - - real - real @@ -3884,28 +4108,30 @@
- + real - + real real - + real - + real real - + real - + real @@ -3920,7 +4146,8 @@ integer - + integer @@ -3929,7 +4156,7 @@ integer - + real @@ -3947,7 +4174,8 @@ integer - + integer @@ -3956,7 +4184,7 @@ integer - + real
From b7f2498979f761cf644bda6e30860fb6e08fcae7 Mon Sep 17 00:00:00 2001 From: Michael Kavulich Date: Wed, 6 Aug 2025 10:40:23 -0600 Subject: [PATCH 4/9] [release/v1] Fourth major update in v1 branch: Rename `long_name` --> `description`, expand list of abbreviations, update descriptions (#116) ## Description This PR attempts to address the following issues: - #95: Standardize and define more abbreviations used in standard_names - #103: renaming `long_name` --> `description` to avoid confusion with the `long_name` attribute in CCPP/CF conventions. In addition, this PR clarifies that the description field should be unique, and adds a check for this (using a re-written tools/check_xml_unique.py script with expanded functionality) ## Issues Resolves #93, #95, #103 --------- Co-authored-by: Jesse Nusbaumer Co-authored-by: Dom Heinzeller --- .github/workflows/pull_request_ci.yml | 6 +- Metadata-standard-names.md | 252 +++--- StandardNamesRules.rst | 41 +- standard_names.xml | 1177 +++++++++++++------------ standard_names_v1_0.xsd | 4 +- tools/check_xml_unique.py | 38 +- tools/write_standard_name_table.py | 50 +- 7 files changed, 812 insertions(+), 756 deletions(-) diff --git a/.github/workflows/pull_request_ci.yml b/.github/workflows/pull_request_ci.yml index 949494c..2a620e0 100644 --- a/.github/workflows/pull_request_ci.yml +++ b/.github/workflows/pull_request_ci.yml @@ -19,8 +19,10 @@ jobs: sudo apt-get update sudo apt-get -y install libxml2-utils - - name: Check for duplicate standard names - run: tools/check_xml_unique.py standard_names.xml + - name: Check for duplicate standard names, descriptions + run: | + tools/check_xml_unique.py standard_names.xml + tools/check_xml_unique.py standard_names.xml --field="description" check-name-rules: name: Check standard names against rules diff --git a/Metadata-standard-names.md b/Metadata-standard-names.md index 2a3ed88..9474945 100644 --- a/Metadata-standard-names.md +++ b/Metadata-standard-names.md @@ -31,7 +31,7 @@ Base names can roughly be broken down into three categories: The following names are too general to be chosen as standard names, but they can serve as base names for more specific standard names. -* `amount`: amount +* `amount`: Amount * `real`: units = kg m-2 * `area`: Area * `real`: units = m2 @@ -81,7 +81,7 @@ more specific standard names. * `real`: units = W * `pressure`: Force per unit area * `real`: units = Pa -* `probability`: A number between 0 and 1 indicating the likelihood of an event occurring +* `probability`: A real number between 0 and 1 indicating the likelihood of an event occurring * `real`: units = 1 * `radiative_flux`: The amount of radiative energy traveling through an area per unit time * `real`: units = W m-2 @@ -103,7 +103,7 @@ more specific standard names. * `real`: units = m2 s-1 * `volume`: Volume * `real`: units = m3 -* `volume_flux`: The number of molecules or atoms of a substance traveling through an area per unit time +* `volume_flux`: The movement of a volume of a substance across a unit area per unit time * `real`: units = m s-1 * `volume_fraction`: The fraction of a volume where some condition applies * `real`: units = 1 @@ -126,18 +126,18 @@ They can all be assumed to have units of '1' * `cfc22`: Chlorodifluoromethane * `dimethyl_sulfide`: Dimethyl sulfide; DMS * `hcho`: Formaldehyde -* `hydrophilic_black_carbon`: hydrophilic_black_carbon -* `hydrophobic_black_carbon`: hydrophobic_black_carbon -* `hydrophilic_organic_carbon`: hydrophilic_organic_carbon -* `hydrophobic_organic_carbon`: hydrophobic_organic_carbon +* `hydrophilic_black_carbon`: Hydrophilic black carbon +* `hydrophobic_black_carbon`: Hydrophobic black carbon +* `hydrophilic_organic_carbon`: Hydrophilic organic carbon +* `hydrophobic_organic_carbon`: Hydrophobic organic carbon * `methane`: ch4 -* `n2o`: Nitrous Oxide, N_2O +* `n2o`: Nitrous Oxide; N_2O * `nitrate`: Chemical species containing the nitrate ion * `nitrite`: Chemical species containing the nitrite ion * `no2`: Nitrogen dioxide -* `no`: Nitric oxide NO (Nitrogen oxide, Nitrogen monoxide) -* `oxygen`: Molecular oxygen, O_2 -* `ozone`: Ozone, O_3 +* `no`: Nitric oxide; NO (Nitrogen oxide, Nitrogen monoxide) +* `oxygen`: Molecular oxygen; O_2 +* `ozone`: Ozone; O_3 * `phosphate`: Chemical species containing the phosphate ion * `silicate`: Chemical species containing the silicate ion * `sulfate`: Chemical species containing the sulfate ion @@ -173,7 +173,7 @@ full list of standard names for further details. * `real`: units = W m-2 * `diffuse_vis_albedo`: Albedo of diffuse incident visible radiation * `real`: units = 1 -* `direct_nir_albedo`: Albedo of diffuse incident near-infrared radiation +* `direct_nir_albedo`: Albedo of direct incident near-infrared radiation * `real`: units = 1 * `direct_nir_shortwave_flux`: Flux of direct near-infrared shortwave radiation * `real`: units = W m-2 @@ -185,7 +185,7 @@ full list of standard names for further details. * `real`: units = s-1 * `dry_air_density`: Density of air excluding water vapor component * `real`: units = kg m-3 -* `dry_air_enthalpy_at_constant_pressure`: Specific enthalpy of dry air, h = Cp*T, Cp = Specific heat of dry air at constant pressure, T = temperature +* `dry_air_enthalpy_at_constant_pressure`: Specific enthalpy of dry air, h = Cp*T; Cp = Specific heat of dry air at constant pressure, T = temperature * `real`: units = J kg-1 * `exner_function`: Exner function, (p/p0)^(Rd/cp), where p0 is some reference pressure (1000 hPa if not specified) * `real(kind=kind_phys)`: units = 1 @@ -212,7 +212,7 @@ full list of standard names for further details. * `real`: units = W m-2 * `momentum_flux`: Flux of momentum across a unit surface * `real`: units = Pa -* `nonhygroscopic_ice_nucleating_aerosols`: nonhygroscopic_ice_nucleating_aerosols +* `nonhygroscopic_ice_nucleating_aerosols`: Ice-nucleating aerosols with the property of not accumulating liquid water * `pressure`: Pressure * `real`: units = Pa * `rain`: Precipitation of liquid water from clouds @@ -224,7 +224,7 @@ full list of standard names for further details. * `real`: units = Pa * `relative_humidity`: Ratio of the vapor pressure to the saturation vapor pressure (for liquid water unless otherwise specified) * `real`: units = fraction -* `roughness_length`: Also called surface roughness length, the height above a surface where the wind speed would be zero according to an idealized logarithmic wind profile +* `roughness_length`: Also called surface roughness length; the height above a surface where the wind speed would be zero according to an idealized logarithmic wind profile * `real`: units = m * `sensible_heat_flux`: Flux of sensible heat across a unit surface * `real`: units = W m-2 @@ -233,11 +233,11 @@ full list of standard names for further details. * `snow`: Precipitation of ice crystals from clouds * `snow_area_fraction`: Fraction of an area (usually within a grid cell) covered by snow * `real`: units = fraction -* `soil_moisture`: Liquid water contained within a soil layer +* `soil_moisture`: Water contained within a soil layer * `soil_temperature`: Temperature of a soil layer * `real`: units = K * `solar_declination_angle`: The angle between the equator and Earth's orbital plane with the Sun -* `solar_zenith_angle`: Angle between the direction to the sun and the local zenith (vertical direction) +* `solar_zenith_angle`: The angle between the direction to the sun and the local zenith (vertical direction) * `surface_skin_temperature`: The temperature of the topmost layer of the surface * `real`: units = K * `temperature`: Temperature @@ -246,7 +246,7 @@ full list of standard names for further details. * `real`: units = K m s-1 * `time`: Time * `real`: units = s -* `total_energy`: Energy from all sources +* `total_energy`: Total energy * `total_water`: All water phases (solid, liquid, gas) * `tracer`: A hypothetical zero-mass particle that is advected in fluid flow * `tracers`: Tracers @@ -316,15 +316,15 @@ Currently, the only dimension which supports all six dimension types is horizont * `integer(kind=kind_phys)`: units = s * `specific_heat_of_dry_air_at_constant_pressure`: Specific heat of dry air at constant pressure * `real(kind=kind_phys)`: units = J kg-1 K-1 -* `specific_heat_of_liquid_water_at_20c`: specific heat of liquid water at 20c +* `specific_heat_of_liquid_water_at_20c`: Specific heat of liquid water at 20 degrees Celsius * `real(kind=kind_phys)`: units = J kg-1 K-1 -* `latent_heat_of_vaporization_of_water_at_0c`: latent heat of vaporization of water at 0c +* `latent_heat_of_vaporization_of_water_at_0c`: Latent heat of vaporization of water at 0 degrees Celsius * `real(kind=kind_phys)`: units = J kg-1 -* `dry_air_density_at_stp`: density of dry air at standard temperature and pressure +* `dry_air_density_at_stp`: Density of dry air at standard temperature and pressure * `real(kind=kind_phys)`: units = kg m-3 -* `fresh_liquid_water_density_at_0c`: density of liquid water at 0c +* `fresh_liquid_water_density_at_0c`: Density of liquid water at 0 degrees Celsius * `real(kind=kind_phys)`: units = kg m-3 -* `ratio_of_water_vapor_to_dry_air_gas_constants_minus_one`: (Rwv / Rdair) - 1.0 +* `ratio_of_water_vapor_to_dry_air_gas_constants_minus_one`: Ratio of gas constants of water vapor and dry air minus one; (Rwv / Rdair) - 1.0 * `real(kind=kind_phys)`: units = 1 * `standard_gravitational_acceleration`: scalar constant representing gravitational acceleration * `real(kind=kind_phys)`: units = m s-2 @@ -367,9 +367,9 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = m s-1 * `northward_wind`: Wind vector component, positive when directed northward * `real(kind=kind_phys)`: units = m s-1 -* `eastward_wind_at_10m`: Wind vector component at 10m, positive when directed eastward +* `eastward_wind_at_10m`: Wind vector component at 10 meters above surface, positive when directed eastward * `real(kind=kind_phys)`: units = m s-1 -* `northward_wind_at_10m`: Wind vector component at 10m, positive when directed northward +* `northward_wind_at_10m`: Wind vector component at 10 meters above surface, positive when directed northward * `real(kind=kind_phys)`: units = m s-1 * `eastward_wind_at_surface`: Wind vector component closest to surface, positive when directed eastward * `real(kind=kind_phys)`: units = m s-1 @@ -379,9 +379,9 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = m s-1 * `wind_from_direction_at_surface`: Direction, from north, of wind speed closest to surface * `real(kind=kind_phys)`: units = degrees -* `dry_static_energy`: Dry static energy Content of Atmosphere Layer +* `dry_static_energy`: Dry static energy content of atmosphere layer * `real(kind=kind_phys)`: units = J kg-1 -* `do_lagrangian_vertical_coordinate`: flag indicating if vertical coordinate is lagrangian +* `do_lagrangian_vertical_coordinate`: Flag indicating if vertical coordinate is lagrangian * `logical(kind=)`: units = flag * `lagrangian_tendency_of_air_pressure`: Vertical pressure velocity * `real(kind=kind_phys)`: units = Pa s-1 @@ -403,15 +403,15 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = 1 * `ln_air_pressure_of_dry_air`: Ln air pressure of dry air * `real(kind=kind_phys)`: units = 1 -* `reciprocal_of_exner_function_wrt_air_pressure_at_surface`: inverse exner function w.r.t. surface pressure, (ps/p)^(R/cp) +* `reciprocal_of_exner_function_wrt_air_pressure_at_surface`: inverse exner function with respect to surface pressure; (ps/p)^(R/cp) * `real(kind=kind_phys)`: units = 1 -* `geopotential_height`: geopotential height w.r.t. sea level +* `geopotential_height`: geopotential height with respect to sea level * `real(kind=kind_phys)`: units = m -* `geopotential_height_at_surface`: Geopotential height at local surface w.r.t. sea level +* `geopotential_height_at_surface`: Geopotential height at local surface with respect to sea level * `real(kind=kind_phys)`: units = m -* `geopotential_height_wrt_surface`: geopotential height w.r.t. local surface +* `geopotential_height_wrt_surface`: geopotential height with respect to local surface * `real(kind=kind_phys)`: units = m -* `geopotential_height_wrt_surface_at_interfaces`: geopotential height w.r.t. local surface at interfaces +* `geopotential_height_wrt_surface_at_interfaces`: geopotential height with respect to local surface at interfaces * `real(kind=kind_phys)`: units = m * `potentially_advected_quantities`: Potentially advected quantities * `real(kind=kind_phys)`: units = various @@ -475,7 +475,7 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = m2 s-1 * `upward_absolute_vorticity_of_air`: The upward (kth) component of the curl of the vector wind field * `real(kind=kind_phys)`: units = s-1 -* `horizontal_divergence_of_air`: The (horizontal) divergence of the 2-D vector wind field +* `horizontal_divergence_of_air`: The horizontal divergence of the 2-D vector wind field * `real(kind=kind_phys)`: units = s-1 * `upward_heat_flux_in_air_at_surface`: Upward heat flux in air at surface * `real(kind=kind_phys)`: units = W m-2 @@ -485,9 +485,9 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = W m-2 * `us_standard_air_pressure_at_sea_level`: US Standard Atmospheric pressure at sea level * `real(kind=kind_phys)`: units = Pa -* `surface_reference_pressure`: Reference pressure used in definition of potential temperature, Exner function, etc. +* `surface_reference_pressure`: Reference pressure used in definition of some other quantity (e.g. potential temperature, Exner function, etc.) * `real(kind=kind_phys)`: units = Pa -* `reference_pressure_in_atmosphere_layer`: reference pressure in atmosphere layer +* `reference_pressure_in_atmosphere_layer`: Reference pressure in atmosphere layer * `real(kind=kind_phys)`: units = Pa * `reference_air_pressure_normalized_by_air_pressure_at_surface`: reference pressure normalized by surface pressure * `real(kind=kind_phys)`: units = 1 @@ -499,17 +499,13 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = K * `potential_temperature_of_air_on_previous_timestep`: air potential temperature on previous timestep * `real(kind=kind_phys)`: units = K -* `virtual_temperature`: virtual temperature - * `real(kind=kind_phys)`: units = K -* `virtual_potential_temperature`: virtual potential temperature - * `real(kind=kind_phys)`: units = K * `composition_dependent_gas_constant_of_dry_air`: Composition dependent gas constant of dry air * `real(kind=kind_phys)`: units = J kg-1 K-1 -* `composition_dependent_specific_heat_of_dry_air_at_constant_pressure`: composition dependent specific heat of dry air at constant pressure +* `composition_dependent_specific_heat_of_dry_air_at_constant_pressure`: composition-dependent specific heat of dry air at constant pressure * `real(kind=kind_phys)`: units = J kg-1 K-1 -* `composition_dependent_ratio_of_dry_air_gas_constant_to_specific_heat_of_dry_air_at_constant_pressure`: composition dependent ratio of dry air gas constant to specific heat of dry air at constant pressure +* `composition_dependent_ratio_of_dry_air_gas_constant_to_specific_heat_of_dry_air_at_constant_pressure`: composition-dependent ratio of dry air gas constant to specific heat of dry air at constant pressure * `real(kind=kind_phys)`: units = 1 -* `ratio_of_water_vapor_gas_constant_to_composition_dependent_dry_air_gas_constant_minus_one`: (Rwv / Rdair) - 1.0 +* `ratio_of_water_vapor_gas_constant_to_composition_dependent_dry_air_gas_constant_minus_one`: Ratio of gas constants of water vapor to composition-dependent dry air minus one; (Rwv / Rdair) - 1.0 * `real(kind=kind_phys)`: units = 1 * `mass_content_of_cloud_ice_in_atmosphere_layer`: Mass content of cloud ice in atmosphere layer * `real(kind=kind_phys)`: units = kg m-2 @@ -532,9 +528,9 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `gravitational_acceleration`: Gravitational acceleration * `real(kind=kind_phys)`: units = m s-2 ## land_surface -* `land_ice_area_fraction_of_cell_area`: fraction of horizontal area of grid cell that is land ice +* `land_ice_area_fraction_of_cell_area`: fraction of horizontal area of grid cell that is ice over land * `real(kind=kind_phys)`: units = frac -* `mass_content_of_water_in_top_soil_layer`: content per unit area of water in top layer of soil +* `mass_content_of_water_in_top_soil_layer`: mass per unit area of water in top layer of soil * `real(kind=kind_phys)`: units = kg m-2 * `density_of_snow_at_surface`: Density of snow at surface * `real(kind=kind_phys)`: units = kg m-3 @@ -566,23 +562,23 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_dry_air_at_top_interfaces`: Ratio of the mass of water vapor to the mass of dry air at all interfaces excluding surface * `real(kind=kind_phys)`: units = kg kg-1 -* `cloud_liquid_water_mixing_ratio_wrt_moist_air_and_condensed_water`: Ratio of the mass of liquid water to the mass of moist air and condensed water +* `cloud_liquid_water_mixing_ratio_wrt_moist_air_and_condensed_water`: Ratio of the mass of cloud liquid water to the mass of moist air and condensed water * `real(kind=kind_phys)`: units = kg kg-1 -* `cloud_liquid_water_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces`: Ratio of the mass of liquid water to the mass of moist air and condensed water at all interfaces excluding surface +* `cloud_liquid_water_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces`: Ratio of the mass of cloud liquid water to the mass of moist air and condensed water at all interfaces excluding surface * `real(kind=kind_phys)`: units = kg kg-1 -* `cloud_liquid_water_mixing_ratio_wrt_moist_air`: Ratio of the mass of liquid water to the mass of moist air +* `cloud_liquid_water_mixing_ratio_wrt_moist_air`: Ratio of the mass of cloud liquid water to the mass of moist air * `real(kind=kind_phys)`: units = kg kg-1 -* `cloud_liquid_water_mixing_ratio_wrt_dry_air`: Ratio of the mass of liquid water to the mass of dry air +* `cloud_liquid_water_mixing_ratio_wrt_dry_air`: Ratio of the mass of cloud liquid water to the mass of dry air * `real(kind=kind_phys)`: units = kg kg-1 -* `cloud_liquid_water_mixing_ratio_wrt_dry_air_at_top_interfaces`: Ratio of the mass of liquid water to the mass of dry air at all interfaces excluding surface +* `cloud_liquid_water_mixing_ratio_wrt_dry_air_at_top_interfaces`: Ratio of the mass of cloud liquid water to the mass of dry air at all interfaces excluding surface * `real(kind=kind_phys)`: units = kg kg-1 -* `cloud_ice_mixing_ratio_wrt_moist_air_and_condensed_water`: Ratio of the mass of ice to the mass of moist air and condensed water +* `cloud_ice_mixing_ratio_wrt_moist_air_and_condensed_water`: Ratio of the mass of cloud ice to the mass of moist air and condensed water * `real(kind=kind_phys)`: units = kg kg-1 -* `cloud_ice_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces`: Ratio of the mass of ice to the mass of moist air and condensed water at all interfaces excluding surface +* `cloud_ice_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces`: Ratio of the mass of cloud ice to the mass of moist air and condensed water at all interfaces excluding surface * `real(kind=kind_phys)`: units = kg kg-1 -* `cloud_ice_mixing_ratio_wrt_dry_air`: Ratio of the mass of ice to the mass of dry air +* `cloud_ice_mixing_ratio_wrt_dry_air`: Ratio of the mass of cloud ice to the mass of dry air * `real(kind=kind_phys)`: units = kg kg-1 -* `cloud_ice_mixing_ratio_wrt_dry_air_at_top_interfaces`: Ratio of the mass of ice to the mass of dry air at all interfaces excluding surface +* `cloud_ice_mixing_ratio_wrt_dry_air_at_top_interfaces`: Ratio of the mass of cloud ice to the mass of dry air at all interfaces excluding surface * `real(kind=kind_phys)`: units = kg kg-1 * `rain_mixing_ratio_wrt_moist_air_and_condensed_water`: ratio of the mass of rain to the mass of moist air and condensed water * `real(kind=kind_phys)`: units = kg kg-1 @@ -594,21 +590,21 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = kg kg-1 * `rain_mixing_ratio_wrt_dry_air_at_top_interfaces`: ratio of the mass of rain to the mass of dry air at all interfaces excluding surface * `real(kind=kind_phys)`: units = kg kg-1 -* `total_water_mixing_ratio_wrt_moist_air_and_condensed_water`: ratio of the mass of water to the mass of moist air and condensed water +* `total_water_mixing_ratio_wrt_moist_air_and_condensed_water`: ratio of the mass of all water phases to the mass of moist air and condensed water * `real(kind=kind_phys)`: units = kg kg-1 -* `total_water_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces`: ratio of the mass of water to the mass of moist air and condensed water at all interfaces excluding surface +* `total_water_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces`: ratio of the mass of all water phases to the mass of moist air and condensed water at all interfaces excluding surface * `real(kind=kind_phys)`: units = kg kg-1 -* `total_water_mixing_ratio_wrt_dry_air`: ratio of the mass of water to the mass of dry air +* `total_water_mixing_ratio_wrt_dry_air`: ratio of the mass of all water phases to the mass of dry air * `real(kind=kind_phys)`: units = kg kg-1 -* `total_water_mixing_ratio_wrt_dry_air_at_top_interfaces`: ratio of the mass of water to the mass of dry air at all interfaces excluding surface +* `total_water_mixing_ratio_wrt_dry_air_at_top_interfaces`: ratio of the mass of all water phases to the mass of dry air at all interfaces excluding surface * `real(kind=kind_phys)`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_assuming_saturation`: saturated water vapor mass mixing ratio with respect to moist air and condensed water * `real(kind=kind_phys)`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces_assuming_saturation`: saturated water vapor mass mixing ratio with respect to moist air and condensed water at all interfaces excluding surface * `real(kind=kind_phys)`: units = kg kg-1 -* `derivative_of_ln_water_vapor_partial_pressure_assuming_saturation_wrt_air_temperature`: log derivative of the water vapor partial pressure at saturation with respect to air temperature +* `derivative_of_ln_water_vapor_partial_pressure_assuming_saturation_wrt_air_temperature`: derivative of the natural logarithm of water vapor partial pressure at saturation with respect to air temperature * `real(kind=kind_phys)`: units = K-1 -* `derivative_of_ln_water_vapor_partial_pressure_assuming_saturation_wrt_air_temperature_at_top_interfaces`: log derivative of the water vapor partial pressure at saturation with respect to air temperature at all interfaces excluding surface +* `derivative_of_ln_water_vapor_partial_pressure_assuming_saturation_wrt_air_temperature_at_top_interfaces`: derivative of the natural logarithm of water vapor partial pressure at saturation with respect to air temperature at all interfaces excluding surface * `real(kind=kind_phys)`: units = K-1 * `mole_fraction_of_ozone_in_air`: Mole fraction of ozone in air * `real(kind=kind_phys)`: units = mol mol-1 @@ -636,7 +632,7 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = mol mol-1 * `volume_mixing_ratio_of_no2`: Nitrogen dioxide volume mixing ratio * `real(kind=kind_phys)`: units = mol mol-1 -* `volume_mixing_ratio_of_no`: Nitrogen oxide volume mixing ratio +* `volume_mixing_ratio_of_no`: Nitric oxide volume mixing ratio * `real(kind=kind_phys)`: units = mol mol-1 * `volume_mixing_ratio_of_o3`: Ozone volume mixing ratio * `real(kind=kind_phys)`: units = mol mol-1 @@ -657,7 +653,7 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = kg kg-1 * `mass_fraction_of_dust005_in_air`: Dust bin5 mass fraction * `real(kind=kind_phys)`: units = kg kg-1 -* `mass_fraction_of_sea_salt001_in_air`: Sea salt bin5 mass fraction +* `mass_fraction_of_sea_salt001_in_air`: Sea salt bin1 mass fraction * `real(kind=kind_phys)`: units = kg kg-1 * `mass_fraction_of_sea_salt002_in_air`: Sea salt bin2 mass fraction * `real(kind=kind_phys)`: units = kg kg-1 @@ -691,7 +687,7 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real(kind=kind_phys)`: units = m-1 ## emissions Emissions variables, contributed for the Community Emissions Data System (CEDS) -* `emissions_of_co_due_to_anthropogenic`: Carbon monoxide emissions from anthropogenic sources, total +* `emissions_of_co_due_to_anthropogenic_sources`: Carbon monoxide emissions from anthropogenic sources, total * `real(kind=kind_phys)`: units = kg m-2 s-1 * `emissions_of_no_due_to_anthropogenic_sources`: Nitric oxide emissions from anthropogenic sources, total * `real(kind=kind_phys)`: units = kg m-2 s-1 @@ -733,11 +729,11 @@ Emissions variables, contributed for the Community Emissions Data System (CEDS) * `real(kind=kind_phys)`: units = kg m-2 s-1 * `emissions_of_hcho_due_to_anthropogenic_solvents`: Formaldehyde emissions from anthropogenic solvents * `real(kind=kind_phys)`: units = kg m-2 s-1 -* `emissions_of_co_due_to_anthropogenic_transportation`: Carbon monoxide emissions from anthropogenic surface Transportation (Road, Rail, Other) +* `emissions_of_co_due_to_anthropogenic_transportation`: Carbon monoxide emissions from anthropogenic surface transportation (road, rail, other) * `real(kind=kind_phys)`: units = kg m-2 s-1 -* `emissions_of_no_due_to_anthropogenic_transportation`: Nitric oxide emissions from anthropogenic surface Transportation (Road, Rail, Other) +* `emissions_of_no_due_to_anthropogenic_transportation`: Nitric oxide emissions from anthropogenic surface transportation (road, rail, other) * `real(kind=kind_phys)`: units = kg m-2 s-1 -* `emissions_of_hcho_due_to_anthropogenic_transportation`: Formaldehyde emissions from anthropogenic surface Transportation (Road, Rail, Other) +* `emissions_of_hcho_due_to_anthropogenic_transportation`: Formaldehyde emissions from anthropogenic surface transportation (road, rail, other) * `real(kind=kind_phys)`: units = kg m-2 s-1 * `emissions_of_co_due_to_anthropogenic_waste`: Carbon monoxide emissions from anthropogenic waste disposal and handling * `real(kind=kind_phys)`: units = kg m-2 s-1 @@ -772,9 +768,9 @@ Optional CCPP framework-provided variables * `integer`: units = index ## system variables Variables related to the compute environment -* `flag_for_mpi_root`: Flag for MPI root +* `flag_for_mpi_root`: Flag for MPI root process * `logical(kind=)`: units = flag -* `log_output_unit`: Log output unit +* `log_output_unit`: Fortran logical unit for output log file * `integer(kind=)`: units = 1 ## GFS_typedefs_GFS_control_type * `sigma_pressure_hybrid_coordinate_a_coefficient`: Sigma pressure hybrid coordinate a coefficient @@ -885,7 +881,7 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `sigma_pressure_threshold_at_upper_extent_of_background_diffusion`: Sigma pressure threshold at upper extent of background diffusion * `real(kind=kind_phys)`: units = 1 -* `directory_for_rte_rrtmgp_source_code`: Directory for rte rrtmgp source code +* `directory_for_rte_rrtmgp_source_code`: Directory for Radiative Transfer for Energetics/Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) source code * `character(kind=len=128)`: units = none * `do_myj_pbl_scheme`: Do Mellor-Yamada-Janjic planetary boundary layer scheme * `logical(kind=)`: units = flag @@ -937,7 +933,7 @@ Variables related to the compute environment * `integer(kind=)`: units = 1 * `do_flux_form_in_chikira_sugiyama_deep_convection_scheme`: Do flux form in chikira sugiyama deep convection scheme * `logical(kind=)`: units = flag -* `do_nrl_2015_ozone_scheme`: Do nrl 2015 ozone scheme +* `do_nrl_2015_ozone_scheme`: Do Naval Research Laboratory 2015 ozone scheme * `logical(kind=)`: units = flag * `do_prescribed_aerosols`: Do prescribed aerosols * `logical(kind=)`: units = flag @@ -1009,9 +1005,9 @@ Variables related to the compute environment * `integer(kind=)`: units = 1 * `identifier_for_grell_freitas_shallow_convection`: Identifier for grell freitas shallow convection * `integer(kind=)`: units = 1 -* `do_gfdl_microphysics_radiation_interaction`: Do gfdl microphysics radiation interaction +* `do_gfdl_microphysics_radiation_interaction`: Do Geophysical Fluid Dynamics Laboratory microphysics radiation interaction * `logical(kind=)`: units = flag -* `identifier_for_gfdl_microphysics_scheme`: Identifier for gfdl microphysics scheme +* `identifier_for_gfdl_microphysics_scheme`: Identifier for Geophysical Fluid Dynamics Laboratory microphysics scheme * `integer(kind=)`: units = 1 * `do_global_cellular_automata`: Do global cellular automata * `logical(kind=)`: units = flag @@ -1025,11 +1021,11 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `control_for_land_surface_scheme_surface_snow_albedo`: Control for land surface scheme surface snow albedo * `integer(kind=)`: units = 1 -* `do_gsl_drag_suite_large_scale_orographic_and_blocking_drag`: Do gsl drag suite large scale orographic and blocking drag +* `do_gsl_drag_suite_large_scale_orographic_and_blocking_drag`: Do Global Systems Lab drag suite large-scale orographic and blocking drag * `logical(kind=)`: units = flag -* `do_gsl_drag_suite_small_scale_orographic_drag`: Do gsl drag suite small scale orographic drag +* `do_gsl_drag_suite_small_scale_orographic_drag`: Do Global Systems Lab drag suite small-scale orographic drag * `logical(kind=)`: units = flag -* `do_gsl_drag_suite_turbulent_orographic_form_drag`: Do gsl drag suite turbulent orographic form drag +* `do_gsl_drag_suite_turbulent_orographic_form_drag`: Do Global Systems Lab drag suite turbulent orographic form drag * `logical(kind=)`: units = flag * `do_hybrid_edmf_pbl_scheme`: Do hybrid eddy-diffusivity/mass-flux planetary boundary layer scheme * `logical(kind=)`: units = flag @@ -1075,15 +1071,15 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `identifier_for_noah_land_surface_scheme`: Identifier for noah land surface scheme * `integer(kind=)`: units = 1 -* `do_noah_lsm_ua_extension`: Do noah lsm ua extension +* `do_noah_lsm_ua_extension`: Do Noah land surface model University of Arizona extension * `logical(kind=)`: units = flag * `identifier_for_noah_wrfv4_land_surface_scheme`: Identifier for noah wrfv4 land surface scheme * `integer(kind=)`: units = 1 -* `identifier_for_noahmp_land_surface_scheme`: Identifier for noahmp land surface scheme +* `identifier_for_noahmp`: Identifier for Noah land surface model with multiparameterization options * `integer(kind=)`: units = 1 -* `do_nsstm_analysis_in_gcycle`: Do nsstm analysis in gcycle +* `do_nsstm_analysis_in_gcycle`: Do GFS near-surface sea temperature scheme analysis in gcycle * `logical(kind=)`: units = flag -* `control_for_nsstm`: Control for nsstm +* `control_for_nsstm`: Control for GFS near-surface sea temperature scheme * `integer(kind=)`: units = 1 * `identifier_for_new_tiedtke_deep_convection`: Identifier for new tiedtke deep convection * `integer(kind=)`: units = 1 @@ -1107,7 +1103,7 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `do_output_of_tendency_of_air_temperature_due_to_shortwave_heating_on_radiation_timestep_assuming_clear_sky`: Do output of tendency of air temperature due to shortwave heating on radiation timestep assuming clear sky * `logical(kind=)`: units = flag -* `do_nrl_2006_ozone_scheme`: Do nrl 2006 ozone scheme +* `do_nrl_2006_ozone_scheme`: Do Naval Research Laboratory 2006 ozone scheme * `logical(kind=)`: units = flag * `control_for_pdf_shape_for_microphysics`: Control for probability density function shape for microphysics * `integer(kind=)`: units = 1 @@ -1139,9 +1135,9 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `is_restart`: Is restart * `logical(kind=)`: units = flag -* `do_rrtmgp_radiation_scheme`: Do rrtmgp radiation scheme +* `do_rrtmgp_radiation_scheme`: Flag for Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) radiation scheme * `logical(kind=)`: units = flag -* `identifier_for_ruc_land_surface_scheme`: Identifier for ruc land surface scheme +* `identifier_for_ruc_land_surface_scheme`: Identifier for Rapid Update Cycle land surface scheme * `integer(kind=)`: units = 1 * `control_for_land_surface_scheme_runoff_and_groundwater`: Control for land surface scheme runoff and groundwater * `integer(kind=)`: units = 1 @@ -1149,9 +1145,9 @@ Variables related to the compute environment * `integer(kind=)`: units = 1 * `identifier_for_scale_aware_mass_flux_shallow_convection`: Identifier for scale aware mass flux shallow convection * `integer(kind=)`: units = 1 -* `identifier_for_simplified_arakawa_schubert_deep_convection`: Identifier for simplified arakawa schubert deep convection +* `identifier_for_sas_deep_convection`: Identifier for Simplified Arakawa-Schubert deep convection scheme * `integer(kind=)`: units = 1 -* `identifier_for_simplified_arakawa_schubert_shallow_convection`: Identifier for simplified arakawa schubert shallow convection +* `identifier_for_sas_shallow_convection`: Identifier for Simplified Arakawa-Schubert shallow convection scheme * `integer(kind=)`: units = 1 * `do_scale_aware_mass_flux_deep_convection`: Do scale aware mass flux deep convection * `logical(kind=)`: units = flag @@ -1161,7 +1157,7 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `do_sgs_cellular_automata`: Do sgs cellular automata * `logical(kind=)`: units = flag -* `do_simplified_arakawa_schubert_shallow_convection`: Do simplified arakawa schubert shallow convection +* `do_sas_shallow_convection`: Do Simplified Arakawa-Schubert shallow convection scheme * `logical(kind=)`: units = flag * `do_shoc`: Do Simplified Higher-Order Closure stochastic physics scheme * `logical(kind=)`: units = flag @@ -1201,17 +1197,17 @@ Variables related to the compute environment * `integer(kind=)`: units = 1 * `identifier_for_thompson_microphysics_scheme`: Identifier for thompson microphysics scheme * `integer(kind=)`: units = 1 -* `do_ugwp_version_0`: Do ugwp version 0 +* `do_ugwp_version_0`: Do Unified Gravity Wave Physics version 0 * `logical(kind=)`: units = flag -* `do_ugwp_version_0_nonorographic_gwd`: Do ugwp version 0 nonorographic gwd +* `do_ugwp_version_0_nonorographic_gwd`: Do Unified Gravity Wave Physics version 0 non-orographic gravity wave drag * `logical(kind=)`: units = flag -* `do_ugwp_version_0_orographic_gwd`: Do ugwp version 0 orographic gwd +* `do_ugwp_version_0_orographic_gwd`: Do Unified Gravity Wave Physics version 0 orographic gravity wave drag * `logical(kind=)`: units = flag -* `do_ugwp_version_1`: Do ugwp version 1 +* `do_ugwp_version_1`: Do Unified Gravity Wave Physics version 1 * `logical(kind=)`: units = flag -* `do_ugwp_version_1_nonorographic_gwd`: Do ugwp version 1 nonorographic gwd +* `do_ugwp_version_1_nonorographic_gwd`: Do Unified Gravity Wave Physics version 1 non-orographic gravity wave drag * `logical(kind=)`: units = flag -* `do_ugwp_version_1_orographic_gwd`: Do ugwp version 1 orographic gwd +* `do_ugwp_version_1_orographic_gwd`: Do Unified Gravity Wave Physics version 1 orographic gravity wave drag * `logical(kind=)`: units = flag * `do_shoc_cloud_area_fraction_for_radiation`: Do Simplified Higher-Order Closure stochastic physics scheme cloud area fraction for radiation * `logical(kind=)`: units = flag @@ -1247,13 +1243,13 @@ Variables related to the compute environment * `logical(kind=)`: units = flag * `do_call_longwave_radiation`: Do call longwave radiation * `logical(kind=)`: units = flag -* `do_rrtmg_cloud_optics`: Do rrtmg cloud optics +* `do_rrtmg_cloud_optics`: Flag for Rapid Radiative Transfer Model for General circulation model applications (RRTMG) cloud optics * `logical(kind=)`: units = flag -* `do_rrtmgp_cloud_optics_look_up_table`: Do rrtmgp cloud optics look up table +* `do_rrtmgp_cloud_optics_lookup_table`: Flag for Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) cloud optics lookup table * `logical(kind=)`: units = flag -* `do_rrtmgp_cloud_optics_with_pade_approximation`: Do rrtmgp cloud optics with pade approximation +* `do_rrtmgp_cloud_optics_with_pade_approximation`: Flag for Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) with Pade approximation * `logical(kind=)`: units = flag -* `do_rrtmgp_longwave_jacobian`: Do rrtmgp longwave jacobian +* `do_rrtmgp_longwave_jacobian`: Flag for Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) longwave jacobian * `logical(kind=)`: units = flag * `do_call_shortwave_radiation`: Do call shortwave radiation * `logical(kind=)`: units = flag @@ -1323,7 +1319,7 @@ Variables related to the compute environment * `integer(kind=)`: units = index * `index_of_mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols_in_tracer_concentration_array`: Index of mass number concentration of nonhygroscopic ice nucleating aerosols in tracer concentration array * `integer(kind=)`: units = index -* `index_of_cloud_liquid_water_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of liquid water mass mixing ratio with respect to moist air in the tracer concentration array +* `index_of_cloud_liquid_water_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of cloud liquid water mass mixing ratio with respect to moist air in the tracer concentration array * `integer(kind=)`: units = index * `index_of_mass_number_concentration_of_cloud_droplets_in_tracer_concentration_array`: Index of mass number concentration of cloud droplets in tracer concentration array * `integer(kind=)`: units = index @@ -1391,7 +1387,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = fraction * `max_grid_scale`: Maximum grid scale * `real(kind=kind_phys)`: units = m2 rad-2 -* `max_soil_moisture_content_for_land_surface_model`: Maximum soil moisture content for land surface model +* `max_soil_moisture_content_for_lsm`: Maximum soil moisture content for land surface model * `real(kind=kind_phys)`: units = m * `do_allow_supersaturation_after_sedimentation`: Do allow supersaturation after sedimentation * `logical(kind=)`: units = flag @@ -1445,13 +1441,13 @@ Variables related to the compute environment * `character(kind=len=16)`: units = none * `min_large_ice_fraction`: Minimum large ice fraction * `real(kind=kind_phys)`: units = fraction -* `min_pressure_in_rrtmgp`: Minimum pressure in RRTMGP +* `min_pressure_in_rrtmgp`: Minimum pressure in Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) * `real(kind=kind_phys)`: units = Pa * `min_grid_scale`: Min grid scale * `real(kind=kind_phys)`: units = m2 rad-2 -* `min_soil_moisture_content_for_land_surface_model`: Minimum soil moisture content for land surface model +* `min_soil_moisture_content_for_lsm`: Minimum soil moisture content for land surface model * `real(kind=kind_phys)`: units = m -* `min_temperature_in_rrtmgp`: Minimum temperature in RRTMGP +* `min_temperature_in_rrtmgp`: Minimum temperature in Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) * `real(kind=kind_phys)`: units = K * `control_for_total_water_mixing_in_mynn_pbl_scheme`: Control for total water mixing in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme * `integer(kind=)`: units = 1 @@ -1539,7 +1535,7 @@ Variables related to the compute environment * `integer(kind=)`: units = count * `number_of_ice_roughness_categories`: Number of ice roughness categories * `integer(kind=)`: units = count -* `number_of_spectral_wave_truncation_for_simplified_arakawa_schubert_convection`: Number of spectral wave truncation for simplified arakawa schubert convection +* `number_of_spectral_wave_truncation_for_sas_convection`: Number of spectral wave truncation for Simplified Arakawa-Schubert deep convection scheme * `integer(kind=)`: units = count * `number_of_statistical_measures_of_subgrid_orography`: Number of statistical measures of subgrid orography * `integer(kind=)`: units = count @@ -1577,15 +1573,15 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = fraction * `rain_evaporation_coefficient_over_land_for_deep_convection`: Rain evaporation coefficient over land for deep convection * `real(kind=kind_phys)`: units = fraction -* `filename_of_rrtmgp_longwave_cloud_optics_coefficients`: Filename of rrtmgp longwave cloud optics coefficients +* `filename_of_rrtmgp_longwave_cloud_optics_coefficients`: File name of Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) longwave cloud optics coefficients * `character(kind=len=128)`: units = none -* `filename_of_rrtmgp_shortwave_cloud_optics_coefficients`: Filename of rrtmgp shortwave cloud optics coefficients +* `filename_of_rrtmgp_shortwave_cloud_optics_coefficients`: File name of Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) shortwave cloud optics coefficients * `character(kind=len=128)`: units = none -* `filename_of_rrtmgp_longwave_k_distribution`: Filename of rrtmgp longwave k distribution +* `filename_of_rrtmgp_longwave_k_distribution`: File name of Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) longwave k-distribution * `character(kind=len=128)`: units = none -* `filename_of_rrtmgp_shortwave_k_distribution`: Filename of rrtmgp shortwave k distribution +* `filename_of_rrtmgp_shortwave_k_distribution`: File name of Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) shortwave k-distribution * `character(kind=len=128)`: units = none -* `do_rrtmgp_shortwave_and_rrtmg_longwave_radiation`: Do rrtmgp shortwave and rrtmg longwave radiation +* `do_rrtmgp_shortwave_and_rrtmg_longwave_radiation`: Flag for Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) shortwave and Rapid Radiative Transfer Model for global climate model (GCM) applications (RRTMG) longwave radiation schemes * `logical(kind=)`: units = flag * `min_sea_ice_area_fraction`: Min sea ice area fraction * `real(kind=kind_phys)`: units = fraction @@ -1623,7 +1619,7 @@ Variables related to the compute environment * `integer(kind=)`: units = index * `multiplicative_tuning_parameter_for_reduced_surface_heat_fluxes_due_to_canopy_heat_storage`: Multiplicative tuning parameter for reduced surface heat fluxes due to canopy heat storage * `real(kind=kind_phys)`: units = 1 -* `thickness_of_soil_layers_for_land_surface_model`: Thickness of soil layers for land surface model +* `thickness_of_soil_layers_for_lsm`: Thickness of soil layers for land surface model * `real(kind=kind_phys)`: units = m * `cellular_automata_vertical_velocity_perturbation_threshold_for_deep_convection`: Cellular automata vertical velocity perturbation threshold for deep convection * `real(kind=kind_phys)`: units = m s-1 @@ -1663,9 +1659,9 @@ Variables related to the compute environment * `integer(kind=)`: units = count * `sigma_pressure_hybrid_vertical_coordinate`: Sigma pressure hybrid vertical coordinate * `real(kind=kind_phys)`: units = 1 -* `lower_bound_for_depth_of_sea_temperature_for_nsstm`: Lower bound for depth of sea temperature for nsstm +* `lower_bound_for_depth_of_sea_temperature_for_nsstm`: Lower bound for depth of sea temperature for GFS near-surface sea temperature scheme * `integer(kind=)`: units = mm -* `upper_bound_for_depth_of_sea_temperature_for_nsstm`: Upper bound for depth of sea temperature for nsstm +* `upper_bound_for_depth_of_sea_temperature_for_nsstm`: Upper bound for depth of sea temperature for GFS near-surface sea temperature scheme * `integer(kind=)`: units = mm * `index_of_water_vegetation_category`: Index of water vegetation category * `integer(kind=)`: units = index @@ -1713,7 +1709,7 @@ Variables related to the compute environment * `vertical_interface_dimension_interstitial`: Vertical interface dimension interstitial * `integer(kind=)`: units = count ## GFS_typedefs_GFS_tbd_type -* `absolute_momentum_flux_due_to_nonorographic_gwd`: Absolute momentum flux due to nonorographic gravity wave drag +* `absolute_momentum_flux_due_to_nonorographic_gwd`: Absolute momentum flux due to non-orographic gravity wave drag * `real(kind=kind_phys)`: units = various * `cumulative_lwe_thickness_of_convective_precipitation_amount_between_sw_radiation_calls`: Cumulative liquid water equivalent thickness of convective precipitation amount between shortwave radiation calls * `real(kind=kind_phys)`: units = m @@ -1767,7 +1763,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m * `water_vapor_mixing_ratio_wrt_moist_air_on_previous_timestep`: Specific humidity (water vapor mass mixing ratio with respect to moist air) on previous timestep * `real(kind=kind_phys)`: units = kg kg-1 -* `tendency_of_water_vapor_mixing_ratio_wrt_moist_air_due_to_nonphysics`: Tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) due to nonphysics +* `tendency_of_water_vapor_mixing_ratio_wrt_moist_air_due_to_nonphysics`: Tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) due to non-physics processes * `real(kind=kind_phys)`: units = kg kg-1 s-1 * `momentum_exchange_coefficient_for_myj_schemes`: Momentum exchange coefficient for Mellor-Yamada-Janjic physics schemes * `real(kind=kind_phys)`: units = m s-1 @@ -1779,9 +1775,9 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg2 kg-2 * `random_number`: Random number * `real(kind=kind_phys)`: units = 1 -* `random_number_seed_for_mcica_longwave`: Random number seed for mcica longwave +* `random_number_seed_for_mcica_longwave`: Random number seed for Monte-Carlo Independent Column Approximation longwave scheme * `integer(kind=)`: units = 1 -* `random_number_seed_for_mcica_shortwave`: Random number seed for mcica shortwave +* `random_number_seed_for_mcica_shortwave`: Random number seed for Monte-Carlo Independent Column Approximation shortwave scheme * `integer(kind=)`: units = 1 * `cumulative_min_vertical_index_at_cloud_base_between_sw_radiation_calls`: Cumulative min vertical index at cloud base between sw radiation calls * `real(kind=kind_phys)`: units = 1 @@ -1958,7 +1954,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = 1 * `nonnegative_lwe_thickness_of_precipitation_amount_on_dynamics_timestep`: Non-negative liquid water equivalent thickness of precipitation amount on dynamics timestep * `real(kind=kind_phys)`: units = m -* `normalized_soil_wetness_for_land_surface_model`: Normalized soil wetness for land surface model +* `normalized_soil_wetness_for_lsm`: Normalized soil wetness for land surface model * `real(kind=kind_phys)`: units = fraction * `number_of_snow_layers`: Number of snow layers * `real(kind=kind_phys)`: units = 1 @@ -2020,7 +2016,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = K * `soil_temperature`: Soil temperature * `real(kind=kind_phys)`: units = K -* `soil_temperature_for_land_surface_model`: Soil temperature for land surface model +* `soil_temperature_for_lsm`: Soil temperature for land surface model * `real(kind=kind_phys)`: units = K * `volumetric_soil_moisture_between_soil_bottom_and_water_table`: Volumetric soil moisture between soil bottom and water table * `real(kind=kind_phys)`: units = m3 m-3 @@ -2064,9 +2060,9 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = fraction * `diffuse_shortwave_albedo_of_land`: land surface albedo for diffuse shortwave radiation * `real(kind=kind_phys)`: units = fraction -* `surface_drag_coefficient_for_heat_and_moisture_for_noahmp`: Surface drag coefficient for heat and moisture for noahmp +* `surface_drag_coefficient_for_heat_and_moisture_for_noahmp`: Surface drag coefficient for heat and moisture for Noah land surface model with multiparameterization options * `real(kind=kind_phys)`: units = 1 -* `surface_drag_coefficient_for_momentum_for_noahmp`: Surface drag coefficient for momentum for noahmp +* `surface_drag_coefficient_for_momentum_for_noahmp`: Surface drag coefficient for momentum for Noah land surface model with multiparameterization options * `real(kind=kind_phys)`: units = 1 * `surface_exchange_coefficient_for_heat`: Surface exchange coefficient for heat * `real(kind=kind_phys)`: units = W m-2 K-1 @@ -2134,15 +2130,15 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = fraction * `canopy_temperature`: Canopy temperature * `real(kind=kind_phys)`: units = K -* `volume_fraction_of_frozen_soil_moisture_for_land_surface_model`: Volume fraction of frozen soil moisture for land surface model +* `volume_fraction_of_frozen_soil_moisture_for_lsm`: Volume fraction of frozen soil moisture for land surface model * `real(kind=kind_phys)`: units = fraction * `volume_fraction_of_condensed_water_in_soil`: Volume fraction of condensed water in soil * `real(kind=kind_phys)`: units = fraction -* `volume_fraction_of_soil_moisture_for_land_surface_model`: Volume fraction of soil moisture for land surface model +* `volume_fraction_of_soil_moisture_for_lsm`: Volume fraction of soil moisture for land surface model * `real(kind=kind_phys)`: units = fraction * `volume_fraction_of_unfrozen_water_in_soil`: Volume fraction of unfrozen water in soil * `real(kind=kind_phys)`: units = fraction -* `volume_fraction_of_unfrozen_soil_moisture_for_land_surface_model`: Volume fraction of unfrozen soil moisture for land surface model +* `volume_fraction_of_unfrozen_soil_moisture_for_lsm`: Volume fraction of unfrozen soil moisture for land surface model * `real(kind=kind_phys)`: units = fraction * `lwe_thickness_of_surface_snow_amount`: Liquid water equivalent thickness of surface snow amount * `real(kind=kind_phys)`: units = mm @@ -2225,7 +2221,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = W m-2 * `net_downwelling_direct_nir_shortwave_flux_at_surface_for_coupling`: net downwelling direct near-infrared shortwave flux at the surface level for coupling * `real(kind=kind_phys)`: units = W m-2 -* `net_downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling`: downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling +* `net_downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling`: net_downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling * `real(kind=kind_phys)`: units = W m-2 * `net_downwelling_longwave_flux_at_surface_for_coupling`: Net downwelling longwave flux at surface for coupling * `real(kind=kind_phys)`: units = W m-2 @@ -2259,11 +2255,11 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = m * `physics_field_for_coupling`: Physics field for coupling * `real(kind=kind_phys)`: units = m2 s-2 -* `rrtmgp_jacobian_of_lw_flux_upward`: Rrtmgp jacobian of lw flux upward +* `rrtmgp_jacobian_of_upward_lw_flux`: Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) jacobian of upward longwave flux * `real(kind=kind_phys)`: units = W m-2 K-1 -* `rrtmgp_lw_flux_profile_downward_allsky`: Rrtmgp lw flux profile downward allsky +* `rrtmgp_lw_downward_allsky_flux_profile`: Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) longwave downward all-sky flux profile * `real(kind=kind_phys)`: units = W m-2 -* `rrtmgp_lw_flux_profile_upward_allsky`: Rrtmgp lw flux profile upward allsky +* `rrtmgp_lw_upward_allsky_flux_profile`: Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) longwave upward all-sky flux profile * `real(kind=kind_phys)`: units = W m-2 * `area_type_from_coupled_process`: Area type from coupled process * `real(kind=kind_phys)`: units = 1 @@ -2319,7 +2315,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = K s-1 * `cellular_automata_vertical_scaling_factor`: Cellular automata vertical scaling factor * `real(kind=kind_phys)`: units = fraction -* `shum_scaling_factors_from_coupled_process`: Stochastic HUMidity stochastic physics option scaling factors from coupled process +* `shum_scaling_factors_from_coupled_process`: Stochastic Humidity stochastic physics option scaling factors from coupled process * `real(kind=kind_phys)`: units = 1 * `skeb_x_wind_scaling_factors_from_coupled_process`: Stochastic Kinetic Energy Backscatter x-wind scaling factors from coupled process * `real(kind=kind_phys)`: units = 1 @@ -2342,7 +2338,7 @@ Variables related to the compute environment * `real(kind=kind_phys)`: units = kg-1 * `exner_function_wrt_surface_pressure`: Exner function with respect to surface pressure, (p/ps)^(Rd/cp) * `real(kind=kind_phys)`: units = 1 -* `exner_function_at_surface_adjacent_layer`: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at the surface adjacent layer +* `exner_function_at_surface_adjacent_layer`: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at the surface-adjacent layer * `real(kind=kind_phys)`: units = 1 * `exner_function_at_interfaces`: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at vertical layer interfaces * `real(kind=kind_phys)`: units = 1 @@ -2379,11 +2375,11 @@ Variables related to the compute environment * `y_wind_at_surface_adjacent_layer`: Y wind at surface adjacent layer * `real(kind=kind_phys)`: units = m s-1 ## GFS_typedefs_GFS_cldprop_type -* `convective_cloud_area_fraction_between_sw_radiation_calls_from_cnvc90`: Convective cloud area fraction between sw radiation calls from cnvc90 +* `convective_cloud_area_fraction_between_sw_radiation_calls_from_cnvc90`: Convective cloud area fraction between shortwave radiation calls from GFS Convective Cloud Diagnostics * `real(kind=kind_phys)`: units = fraction -* `pressure_at_convective_cloud_base_between_sw_radiation_calls_from_cnvc90`: Pressure at convective cloud base between sw radiation calls from cnvc90 +* `pressure_at_convective_cloud_base_between_sw_radiation_calls_from_cnvc90`: Pressure at convective cloud base between shortwave radiation calls from GFS Convective Cloud Diagnostics * `real(kind=kind_phys)`: units = Pa -* `pressure_at_convective_cloud_top_between_sw_radiation_calls_from_cnvc90`: Pressure at convective cloud top between sw radiation calls from cnvc90 +* `pressure_at_convective_cloud_top_between_sw_radiation_calls_from_cnvc90`: Pressure at convective cloud top between shortwave radiation calls from GFS Convective Cloud Diagnostics * `real(kind=kind_phys)`: units = Pa ## GFS_typedefs_GFS_radtend_type * `cosine_of_solar_zenith_angle_for_daytime_points_on_radiation_timestep`: Cosine of solar zenith angle for daytime points on radiation timestep diff --git a/StandardNamesRules.rst b/StandardNamesRules.rst index 3aa572f..2aac17a 100644 --- a/StandardNamesRules.rst +++ b/StandardNamesRules.rst @@ -64,7 +64,7 @@ ESM Standard Name Rules In the latter example, ``ln`` is operating on the quantity ``water_vapor_partial_pressure_assuming_saturation``, while ``derivative_of`` is a combined transformation of ``water_vapor_partial_pressure_assuming_saturation`` and ``air_temperature``. When multiple transformations are present, a more detailed description - should be provided in the ``long_name`` field to prevent any possible ambiguity. + should be provided in the ``description`` field to prevent any possible ambiguity. #. Variables are current and instantaneous unless specified. Variables that are not current (e.g., previous timestep) or non-instantaneous (e.g., accumulated values) @@ -94,7 +94,7 @@ ESM Standard Name Rules ``[variable]_at_top_interfaces`` is defined on `n` points, and ``[variable]_at_bottom_interfaces`` is defined on `n` points. -#. By default, *mixing_ratio* refers to mass mixing ratios. The long name should +#. By default, *mixing_ratio* refers to mass mixing ratios. The description should explicitly specify that it refers to the *mass* mixing ratio. Mass mixing ratios should contain information regarding with respect to what quantity they are defined, and options are *wrt_dry_air*, @@ -146,7 +146,7 @@ ESM Standard Name Rules #. Spell out acronyms unless they are obvious to a vast majority of scientists/developers who may come across them. A list of currently-used aliases is below. Whenever such an alias exist, use the alias in the - standard name and the full term in the long name. + standard name and the full term in the description. #. For control-oriented variables, if the variable is a Fortran logical, use flag_for ``_X``. If it is any other data type, use control_for ``_X``. All flags @@ -165,23 +165,27 @@ Technical specifications ======================== #. The standard name dictionary consists of a number of individual XML elements: - one "standard_name" element for each entry. A standard name entry consist of a "name" attribute - that represents the variable name, and (optionally) a "long_name" attribute that gives - a detailed description of what that name represents. The standard_name XML entry also contains a nested - "type" entry, indicating the data type that a standard_name should represent, and as attributes the + one ``standard_name`` element for each entry. A standard name entry consist of a ``name`` attribute + that represents the variable name, and (optionally) a ``description`` attribute that gives + a detailed description of what that name represents. Note that the ``description`` field is only + provided for information and disambiguation only (though it should be unique), and does not need to be included for + individual implementations of the standard names. This is not necessarily the same as the ``long_name`` entry as described + in the `CCPP Technical Documentation `_, + but it can be used to inform the contents of that field. The ``standard_name`` XML entry also contains a nested + ``type`` entry, indicating the data type that a ``standard_name`` should represent, and as attributes the physical units of that variable quantity (see the `section on Units <#units>`_) and the FORTRAN "kind" of the variable quantity. For example, the element for the variable name ``exner_function`` may look similar to this: + description="exner function, (p/p0)^(Rd/cp), where p0 is 1000 hPa"> real - This XML element indicates that the variable ``exner_function`` represents the quantity described by the ``long_name`` + This XML element indicates that the variable ``exner_function`` represents the quantity described by the ``description`` attribute. It is a real variable of "kind_phys" kind, and units of "1", meaning it is non-dimensional and does not correspond to a more descriptive non-dimensional type such as "fraction"; see the `section on Units <#units>`_ - for more details + for more details. These standard_name elements can optionally be separated by "section" elements. These are parsed out into human-readable sections in the generated markdown file (``Metadata-standard-names.md``). @@ -628,10 +632,16 @@ Acronyms, Abbreviations, and Aliases +---------------------+---------------------------------------------------------+ | **Short** | **Meaning** | +=====================+=========================================================+ +| cnvc90 | GFS Convective Cloud Diagnostics | ++---------------------+---------------------------------------------------------+ | edmf | eddy-diffusivity/mass-flux | +---------------------+---------------------------------------------------------+ | gwd | gravity wave drag | +---------------------+---------------------------------------------------------+ +| gfdl | Geophysical Fluid Dynamics Laboratory | ++---------------------+---------------------------------------------------------+ +| gfs | Global Forecast System | ++---------------------+---------------------------------------------------------+ | ir | infrared | +---------------------+---------------------------------------------------------+ | lwe | liquid water equivalent | @@ -646,10 +656,19 @@ Acronyms, Abbreviations, and Aliases +---------------------+---------------------------------------------------------+ | nir | near-infrared part of the EM spectrum (radiation) | +---------------------+---------------------------------------------------------+ +| nrl | Naval Research Lab | ++---------------------+---------------------------------------------------------+ +| nsstm | GFS near-surface sea temperature scheme | ++---------------------+---------------------------------------------------------+ | pbl | planetary boundary layer | +---------------------+---------------------------------------------------------+ | pdf | probability density function | +---------------------+---------------------------------------------------------+ +| rrtmgp | Rapid Radiative Transfer Model for General circulation | +| | model applications - Parallel | ++---------------------+---------------------------------------------------------+ +| sas | simplified Arakawa-Schubert scheme | ++---------------------+---------------------------------------------------------+ | skeb | stochastic kinetic energy backscatter | +---------------------+---------------------------------------------------------+ | shoc | simplified higher-order closure stochastic scheme | @@ -664,6 +683,8 @@ Acronyms, Abbreviations, and Aliases +---------------------+---------------------------------------------------------+ | toa | top of atmosphere | +---------------------+---------------------------------------------------------+ +| ugwp | Unified Gravity Wave Physics | ++---------------------+---------------------------------------------------------+ | uv | ultraviolet part of the EM spectrum (radiation) | +---------------------+---------------------------------------------------------+ | vis | visible part of the EM spectrum (radiation) | diff --git a/standard_names.xml b/standard_names.xml index b228759..6992d9f 100644 --- a/standard_names.xml +++ b/standard_names.xml @@ -7,121 +7,120 @@ comment="The following names are too general to be chosen as\n standard names, but they can serve as base names for\n more specific standard names.\n"> - + real real + description="The fraction of an area where some condition applies"> real + description="A field consisting of either 0 or 1 at every point"> integer + description="A real number used in a mathematical equation, typically derived empirically and/or adjusted based on some other physical phenomenon to change the behavior of an equation, scheme, or other modeling unit"> real + description="Mass per unit volume"> real real + description="Total energy within some surface"> real + description="Total energy within some volume"> real + description="Number of instances per unit time"> real real + description="The amount of heat traveling through an area per unit time"> real + description="Movement of heat due to advection"> real real + description="Mass traveling through an area per unit time"> real + description="The fraction of a given mass where some condition applies"> real + description="Movement of some specified mass by advection"> real real + description="The ratio of the number of molecules or atoms of a substance to the total number of molecules/atoms in a given volume"> real + description="The number of molecules or atoms of a substance traveling through an area per unit time"> real + description="The transfer of momentum through an area per unit time"> real + description="The pressure of a component gas independent of other components"> real + description="The amount of time between regular events"> real + description="Energy per unit time"> real + description="Force per unit area"> real + description="A real number between 0 and 1 indicating the likelihood of an event occurring"> real + description="The amount of radiative energy traveling through an area per unit time"> real + description="Distance from the center to the perimeter of a circle or sphere"> real + description="Directionless distance per unit time"> real + description="A deformation force across a unit area"> real @@ -131,120 +130,116 @@ real + description="The vertical distance between two constant-pressure surfaces"> real + description="Distance per unit time"> real + description="A scalar function with its gradient equal to the velocity vector of an irrotational flow"> real real + description="The movement of a volume of a substance across a unit area per unit time"> real + description="The fraction of a volume where some condition applies"> real + description="A ratio of the number of molecules or atoms of a substance to another in a unit volume"> real + description="Movement of some volume of a specified substance by advection"> real + description="The curl of a velocity vector"> real
+ description="Isoprene"> + description="Carbon dioxide"> + description="Carbon monoxide"> + description="Tetrachloromethane"> + description="Trichlorofluoromethane"> + description="Dichlorodifluoromethane"> + description="1,1,2-Trichloro-1,2,2-trifluoroethane"> + description="Chlorodifluoromethane"> + description="Dimethyl sulfide; DMS"> + description="Formaldehyde"> - + - + - + - + + description="ch4"> + description="Nitrous Oxide; N_2O"> + description="Chemical species containing the nitrate ion"> + description="Chemical species containing the nitrite ion"> + description="Nitrogen dioxide"> + description="Nitric oxide; NO (Nitrogen oxide, Nitrogen monoxide)"> + description="Molecular oxygen; O_2"> + description="Ozone; O_3"> + description="Chemical species containing the phosphate ion"> + description="Chemical species containing the silicate ion"> + description="Chemical species containing the sulfate ion"> + description="so2">
+ description="Vorticity of fluid relative to an inertial frame; the sum of relative and planetary vorticities"> real + description="The pressure of air"> real real + description="The temperature of air"> real + description="The fraction of incident radiation reflected by a surface"> real real + description="Fraction of an area (usually within a grid cell) containing cloud"> real + description="Amount of condensed water in cloud"> + description="Cloud particles consisting of solid water (ice)"> + description="Cloud particles consisting of liquid water"> + description="Albedo of diffuse incident near-infrared radiation"> real + description="Flux of diffuse near-infrared and shortwave radiation"> real + description="Albedo of diffuse incident shortwave radiation"> real + description="Flux of diffuse ultraviolet and visible shortwave radiation"> real + description="Albedo of diffuse incident visible radiation"> real + description="Albedo of direct incident near-infrared radiation"> real + description="Flux of direct near-infrared shortwave radiation"> real + description="Flux of direct ultraviolet and visible shortwave radiation"> real + description="Albedo of direct incident visible light"> real real + description="Density of air excluding water vapor component"> real + description="Specific enthalpy of dry air, h = Cp*T; Cp = Specific heat of dry air at constant pressure, T = temperature"> real + description="Exner function, (p/p0)^(Rd/cp), where p0 is some reference pressure (1000 hPa if not specified)"> real + description="A measure of shear stress within a fluid layer with units of distance per time"> real @@ -348,49 +343,49 @@ real + description="Gravitational potential energy of a unit mass relative to sea level"> real + description="Geopotential divided by the gravitational constant"> real + description="Precipitation consisting of heavily rimed ice crystals"> real + description="Precipitation formed by accretion of supercooled water droplets into a solid piece of ice"> + description="Aerosols with the property of accumulating liquid water"> + description="Latent heat flux across a unit surface"> real + description="Flux of longwave radiation across a unit surface"> real + description="Flux of momentum across a unit surface"> real + description="Ice-nucleating aerosols with the property of not accumulating liquid water"> real + description="Precipitation of liquid water from clouds"> real @@ -399,94 +394,93 @@ integer + description="Some pressure value for comparison to or calculation of other values"> real + description="Ratio of the vapor pressure to the saturation vapor pressure (for liquid water unless otherwise specified)"> real + description="Also called surface roughness length; the height above a surface where the wind speed would be zero according to an idealized logarithmic wind profile"> real + description="Flux of sensible heat across a unit surface"> real + description="Flux of shortwave radiation across a unit surface"> real + description="Precipitation of ice crystals from clouds"> + description="Fraction of an area (usually within a grid cell) covered by snow"> real + description="Water contained within a soil layer"> + description="Temperature of a soil layer"> real + description="The angle between the equator and Earth's orbital plane with the Sun"> + description="The angle between the direction to the sun and the local zenith (vertical direction)"> + description="The temperature of the topmost layer of the surface"> real real + description="Flux of temperature across a unit surface"> real real - + + description="All water phases (solid, liquid, gas)"> + description="A hypothetical zero-mass particle that is advected in fluid flow"> + description="Specific turbulent kinetic energy"> real + description="The theoretical potential temperature of dry air that would have the same density as moist air"> real + description="The theoretical temperature of dry air that would have the same density as moist air"> real + description="Water in the gaseous phase"> + description="Movement of air with a net displacement"> + description="Shear stress exerted by wind parallel to the surface"> real + description="Speed of moving air"> real
@@ -525,27 +519,27 @@ other supported dimension standard names are listed below.\n"> + description="Size horizontal dimension"> integer + description="number of vertical layers"> integer + description="number of vertical layers extended up by 1"> integer + description="number of vertical interfaces"> integer + description="index of a particular vertical layer"> integer + description="index of a particular vertical interface"> integer @@ -561,7 +555,7 @@ integer + description="Total number of OpenMP (shared-memory) parallel threads."> integer @@ -585,29 +579,29 @@ real + description="Specific heat of liquid water at 20 degrees Celsius"> real + description="Latent heat of vaporization of water at 0 degrees Celsius"> real + description="Density of dry air at standard temperature and pressure"> real + description="Density of liquid water at 0 degrees Celsius"> real + description="Ratio of gas constants of water vapor and dry air minus one; (Rwv / Rdair) - 1.0"> real + description="scalar constant representing gravitational acceleration"> real @@ -643,7 +637,7 @@ real + description="Air pressure at local surface"> real @@ -659,67 +653,67 @@ real + description="Horizontal wind in a direction perpendicular to y_wind"> real + description="Horizontal wind in a direction perpendicular to x_wind"> real + description="Wind vector component, positive when directed eastward"> real + description="Wind vector component, positive when directed northward"> real + description="Wind vector component at 10 meters above surface, positive when directed eastward"> real + description="Wind vector component at 10 meters above surface, positive when directed northward"> real + description="Wind vector component closest to surface, positive when directed eastward"> real + description="Wind vector component closest to surface, positive when directed northward"> real + description="Scalar wind speed closest to surface"> real + description="Direction, from north, of wind speed closest to surface"> real + description="Dry static energy content of atmosphere layer"> real + description="Flag indicating if vertical coordinate is lagrangian"> logical + description="Vertical pressure velocity"> real + description="Density of dry air"> real + description="Midpoint air pressure"> real + description="Dry midpoint pressure"> real @@ -741,23 +735,23 @@ real + description="inverse exner function with respect to surface pressure; (ps/p)^(R/cp)"> real + description="geopotential height with respect to sea level"> real + description="Geopotential height at local surface with respect to sea level"> real + description="geopotential height with respect to local surface"> real + description="geopotential height with respect to local surface at interfaces"> real @@ -785,11 +779,11 @@ logical + description="Flag to indicate if physics grid is initialized"> logical + description="Logging setting for negative constituent mass fixer"> character @@ -808,71 +802,71 @@ real + description="Change of dry air enthalpy per unit time at constant pressure; d/dt(Cp*T)"> real + description="Change in temperature per unit time"> real + description="Change in air temperature due to model physics per unit time"> real + description="Change in potential temperature per unit time"> real + description="Change of potential temperature of air due to model physics per unit time"> real + description="Change in x wind per unit time"> real + description="Change in x wind due to model physics per unit time"> real + description="Change in y wind per unit time"> real + description="Change in y wind due to model physics per unit time"> real + description="Change in eastward wind per unit time"> real + description="Change in eastward wind due to model physics per unit time"> real + description="Change in northward wind per unit time"> real + description="Change in northward wind due to model physics per unit time"> real + description="Scalar function describing the streamlines of the horizontal wind"> real + description="Scalar potential of the horizontal wind"> real + description="The upward (kth) component of the curl of the vector wind field"> real + description="The horizontal divergence of the 2-D vector wind field"> real @@ -885,58 +879,49 @@ real + description="US Standard Atmospheric pressure at sea level"> real + description="Reference pressure used in definition of some other quantity (e.g. potential temperature, Exner function, etc.)"> real - + real + description="reference pressure normalized by surface pressure"> real + description="Reference pressure in atmosphere layer normalized by surface reference pressure"> real + description="exner function, (p/p0)^(Rd/cp), where p0 is 1000 hPa"> real + description="air potential temperature"> real - real - - - real - - + description="air potential temperature on previous timestep"> real real + description="composition-dependent specific heat of dry air at constant pressure"> real + description="composition-dependent ratio of dry air gas constant to specific heat of dry air at constant pressure"> real + description="Ratio of gas constants of water vapor to composition-dependent dry air minus one; (Rwv / Rdair) - 1.0"> real @@ -959,7 +944,7 @@ + description="cloud area fraction in atmosphere layer excluding clouds produced by the convective schemes"> real @@ -974,30 +959,30 @@
+ description="fraction of horizontal area of grid cell that is ice over land"> real + description="mass per unit area of water in top layer of soil"> real real + description="fraction of horizontal area of grid cell that is urban"> real + description="volume fraction of water in liquid phase in soil at critical point"> real + description="volume fraction of water in liquid phase in soil at saturation"> real + description="volume fraction of water in liquid phase in soil at wilting point"> real
@@ -1014,114 +999,114 @@ integer + description="Ratio of the mass of water vapor to the mass of moist air"> real + description="Ratio of the mass of water vapor to the mass of moist air and hydrometeors"> real + description="Ratio of the mass of water vapor to the mass of moist air and hydrometeors at all interfaces excluding surface"> real real + description="Ratio of the mass of water vapor to the mass of dry air"> real + description="Ratio of the mass of water vapor to the mass of dry air at all interfaces excluding surface"> real + description="Ratio of the mass of cloud liquid water to the mass of moist air and condensed water"> real + description="Ratio of the mass of cloud liquid water to the mass of moist air and condensed water at all interfaces excluding surface"> real + description="Ratio of the mass of cloud liquid water to the mass of moist air"> real + description="Ratio of the mass of cloud liquid water to the mass of dry air"> real + description="Ratio of the mass of cloud liquid water to the mass of dry air at all interfaces excluding surface"> real + description="Ratio of the mass of cloud ice to the mass of moist air and condensed water"> real + description="Ratio of the mass of cloud ice to the mass of moist air and condensed water at all interfaces excluding surface"> real + description="Ratio of the mass of cloud ice to the mass of dry air"> real + description="Ratio of the mass of cloud ice to the mass of dry air at all interfaces excluding surface"> real + description="ratio of the mass of rain to the mass of moist air and condensed water"> real + description="ratio of the mass of rain to the mass of moist air and condensed water at all interfaces excluding surface"> real + description="ratio of the mass of rain to the mass of moist air"> real + description="ratio of the mass of rain to the mass of dry air"> real + description="ratio of the mass of rain to the mass of dry air at all interfaces excluding surface"> real + description="ratio of the mass of all water phases to the mass of moist air and condensed water"> real + description="ratio of the mass of all water phases to the mass of moist air and condensed water at all interfaces excluding surface"> real + description="ratio of the mass of all water phases to the mass of dry air"> real + description="ratio of the mass of all water phases to the mass of dry air at all interfaces excluding surface"> real + description="saturated water vapor mass mixing ratio with respect to moist air and condensed water"> real + description="saturated water vapor mass mixing ratio with respect to moist air and condensed water at all interfaces excluding surface"> real + description="derivative of the natural logarithm of water vapor partial pressure at saturation with respect to air temperature"> real + description="derivative of the natural logarithm of water vapor partial pressure at saturation with respect to air temperature at all interfaces excluding surface"> real @@ -1131,264 +1116,264 @@ real + description="Methane volume mixing ratio"> real + description="Carbon monoxide volume mixing ratio"> real + description="Carbon dioxide volume mixing ratio"> real + description="Tetrachloromethane volume mixing ratio"> real + description="Trichlorofluoromethane volume mixing ratio"> real + description="Dichlorodifluoromethane volume mixing ratio"> real + description="1,1,2-Trichloro-1,2,2-trifluoroethane volume mixing ratio"> real + description="Chlorodifluoromethane volume mixing ratio"> real + description="Dioxygen volume mixing ratio"> real + description="Nitrous oxide volume mixing ratio"> real + description="Nitrogen dioxide volume mixing ratio"> real + description="Nitric oxide volume mixing ratio"> real + description="Ozone volume mixing ratio"> real + description="Formaldehyde volume mixing ratio"> real + description="Isoprene volume mixing ratio"> real + description="Sulfur dioxide volume mixing ratio"> real
+ description="Dust bin1 mass fraction"> real + description="Dust bin2 mass fraction"> real + description="Dust bin3 mass fraction"> real + description="Dust bin4 mass fraction"> real + description="Dust bin5 mass fraction"> real + description="Sea salt bin1 mass fraction"> real + description="Sea salt bin2 mass fraction"> real + description="Sea salt bin3 mass fraction"> real + description="Sea salt bin4 mass fraction"> real + description="Sea salt bin5 mass fraction"> real + description="Hydrophobic black carbon mass fraction"> real + description="Hydrophilic black carbon mass fraction"> real + description="Hydrophobic organic carbon mass fraction"> real + description="Hydrophilic organic carbon mass fraction"> real + description="Sulfate mass fraction"> real + description="Nitrate bin1 mass fraction"> real + description="Nitrate bin2 mass fraction"> real + description="Nitrate bin3 mass fraction"> real + description="Aerosol extinction at wavelength1"> real + description="Aerosol extinction at wavelength2"> real + description="Aerosol extinction at wavelength3"> real
- + real + description="Nitric oxide emissions from anthropogenic sources, total"> real + description="Formaldehyde emissions from anthropogenic sources, total"> real + description="Carbon monoxide emissions from anthropogenic non-combustion agricultural sector"> real + description="Nitric oxide emissions from anthropogenic non-combustion agricultural sector"> real + description="Formaldehyde emissions from anthropogenic non-combustion agricultural sector"> real + description="Carbon monoxide emissions from anthropogenic non-combustion energy transformation and extraction"> real + description="Nitric oxide emissions from anthropogenic non-combustion energy transformation and extraction"> real + description="Formaldehyde emissions from anthropogenic non-combustion energy transformation and extraction"> real + description="Carbon monoxide emissions from anthropogenic industrial combustion and processes"> real + description="Nitric oxide emissions from anthropogenic industrial combustion and processes"> real + description="Formaldehyde emissions from anthropogenic industrial combustion and processes"> real + description="Carbon monoxide emissions from anthropogenic residential, commercial, and others"> real + description="Nitric oxide emissions from anthropogenic residential, commercial, and others"> real + description="Formaldehyde emissions from anthropogenic residential, commercial, and others"> real + description="Carbon monoxide emissions from anthropogenic international shipping"> real + description="Nitric oxide emissions from anthropogenic international shipping"> real + description="Formaldehyde emissions from anthropogenic international shipping"> real + description="Carbon monoxide emissions from anthropogenic solvents"> real + description="Nitric oxide emissions from anthropogenic solvents"> real + description="Formaldehyde emissions from anthropogenic solvents"> real + description="Carbon monoxide emissions from anthropogenic surface transportation (road, rail, other)"> real + description="Nitric oxide emissions from anthropogenic surface transportation (road, rail, other)"> real + description="Formaldehyde emissions from anthropogenic surface transportation (road, rail, other)"> real + description="Carbon monoxide emissions from anthropogenic waste disposal and handling"> real + description="Nitric oxide emissions from anthropogenic waste disposal and handling"> real + description="Formaldehyde emissions from anthropogenic waste disposal and handling"> real
@@ -1396,46 +1381,46 @@
+ description="Error message for error handling in CCPP"> character + description="Error code for error handling in CCPP"> integer
+ description="CCPP physics scheme name"> character + description="CCPP Constituent Properties"> ccpp_constituent_prop_ptr_t + description="Array of constituents managed by CCPP Framework"> real + description="CCPP constituent minimum values"> real + description="Number of constituents managed by CCPP Framework"> integer + description="CCPP block count"> integer + description="CCPP block sizes"> integer + description="Number of current OpenMP thread. This variable may only be used during CCPP run phase"> integer
@@ -1443,11 +1428,11 @@
+ description="Flag for MPI root process"> logical + description="Fortran logical unit for output log file"> integer
@@ -1480,7 +1465,7 @@ real + description="Maximum atmosphere heat diffusivity due to background"> real @@ -1502,15 +1487,15 @@ real + description="Identifier for 2018 scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme"> integer + description="Control for scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme"> integer + description="Identifier for 2019 scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme"> integer @@ -1529,11 +1514,11 @@ real + description="Control for cloud species mixing in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme"> integer + description="Control for cloud probability density function in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme"> integer @@ -1570,7 +1555,7 @@ real + description="Control for subgrid-scale cloud radiation coupling in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme"> integer @@ -1583,7 +1568,7 @@ real + description="Critical relative humidity at the top of the atmosphere"> real @@ -1622,31 +1607,32 @@ real - + character + description="Do Mellor-Yamada-Janjic planetary boundary layer scheme"> logical + description="Do Mellor-Yamada-Janjic surface layer scheme"> logical + description="Do Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme"> logical + description="Do Mellor-Yamada-Nakanishi-Niino surface layer scheme"> logical + description="Do Unifed Gravity Wave Physics gravity wave drag scheme"> logical + description="Downdraft area fraction in scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme"> real @@ -1656,19 +1642,19 @@ real + description="Control for eddy-diffusivity mass flux in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme"> integer + description="Control for eddy-diffusivity mass flux momentum transport in Mellor-Yamada-Nakanishi-Niino surface layer scheme"> integer + description="Control for eddy-diffusivity mass flux partitioning in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme"> integer + description="Control for eddy-diffusivity mass flux turbulent kinetic energy transport in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme"> integer @@ -1710,7 +1696,8 @@ logical - + logical @@ -1750,7 +1737,7 @@ integer + description="Do convective gravity wave drag"> logical @@ -1805,11 +1792,11 @@ logical + description="Do generic tendency due to gravity wave drag"> logical + description="Do generic tendency due to planetary boundary layer"> logical @@ -1821,10 +1808,12 @@ integer - + logical - + integer @@ -1840,23 +1829,26 @@ logical + description="Do gravity wave drag"> logical integer - + logical - + logical - + logical + description="Do hybrid eddy-diffusivity/mass-flux planetary boundary layer scheme"> logical @@ -1902,11 +1894,11 @@ integer + description="Control for maximum cloud overlap method"> integer + description="Identifier for maximum random cloud overlap method"> integer @@ -1919,25 +1911,30 @@ integer + description="Do mountain blocking for stochastically perturbed physics tendencies"> logical integer - + logical integer - + integer - + +GFS near-surface sea temperature scheme logical - + integer @@ -1973,11 +1970,12 @@ logical - + logical + description="Control for probability density function shape for microphysics"> integer @@ -2014,7 +2012,7 @@ logical + description="Do limited surface roughness length over ocean"> logical @@ -2023,10 +2021,12 @@ logical - + logical - + integer @@ -2038,10 +2038,12 @@ integer - + integer - + integer @@ -2051,21 +2053,22 @@ logical + description="Do scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme"> logical logical - + logical + description="Do Simplified Higher-Order Closure stochastic physics scheme"> logical + description="Do Simplified Higher-Order Closure stochastic physics scheme after convection parameterization"> logical @@ -2090,11 +2093,11 @@ logical + description="Do Stochastic HUMidity stochastic physics option"> logical + description="Do Stochastic Kinetic Energy Backscatter option"> logical @@ -2121,26 +2124,32 @@ integer - + logical - + logical - + logical - + logical - + logical - + logical + description="Do Simplified Higher-Order Closure stochastic physics scheme cloud area fraction for radiation"> logical @@ -2165,18 +2174,18 @@ integer + description="Do Yonsei University (YSU) planetary boundary layer scheme"> logical integer + description="Identifier for Zhao-Carr probability density function microphysics scheme"> integer + description="Do hurricane-specific code in hybrid eddy-diffusivity/mass-flux planetary boundary layer scheme"> logical @@ -2194,16 +2203,20 @@ logical - + logical - + logical - + logical - + logical @@ -2243,7 +2256,7 @@ integer + description="Control for drag option in gravity wave drag scheme"> integer @@ -2280,7 +2293,7 @@ integer + description="Index of convective cloud condensate mass mixing ratio with respect to moist air in the XYZ-dimensioned restart array"> integer @@ -2290,7 +2303,7 @@ integer + description="Index of graupel mass mixing ratio with respect to moist air in the tracer concentration array"> integer @@ -2300,7 +2313,7 @@ integer + description="Index of cloud ice mass mixing ratio with respect to moist air in the tracer concentration array"> integer @@ -2313,7 +2326,7 @@ integer + description="Index of cloud liquid water mass mixing ratio with respect to moist air in the tracer concentration array"> integer @@ -2323,7 +2336,7 @@ integer + description="Index of ozone mass mixing ratio with respect to moist air in the tracer concentration array"> integer @@ -2333,7 +2346,7 @@ integer + description="Index of rain mass mixing ratio with respect to moist air in the tracer concentration array"> integer @@ -2343,15 +2356,15 @@ integer + description="Index of snow mass mixing ratio with respect to moist air in the tracer concentration array"> integer + description="Index of specific humidity (water vapor mass mixing ratio with respect to moist air) on previous timestep in xyz dimensioned restart array"> integer + description="Index of specific humidity (water vapor mass mixing ratio with respect to moist air) two timesteps back in xyz dimensioned restart array"> integer @@ -2367,14 +2380,14 @@ integer + description="Index of turbulent kinetic energy in tracer concentration array"> integer integer + description="Index of specific humidity (water vapor mass mixing ratio with respect to moist air) in tracer concentration array"> integer @@ -2408,7 +2421,7 @@ real + description="Maximum tendency of air potential temperature due to large-scale precipitation"> real @@ -2418,15 +2431,15 @@ real + description="Maximum critical relative humidity"> real + description="Maximum grid scale"> real - + real @@ -2484,15 +2497,15 @@ real + description="Minimum threshold cloud condensate mass mixing ratio with respect to moist air"> real + description="Minimum threshold cloud liquid water mass mixing ratio with respect to moist air"> real + description="Minimum threshold cloud ice mass mixing ratio with respect to moist air"> real @@ -2508,30 +2521,30 @@ character + description="Minimum large ice fraction"> real + description="Minimum pressure in Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP)"> real real - + real + description="Minimum temperature in Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP)"> real + description="Control for total water mixing in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme"> integer + description="Control for mixing length in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme"> integer @@ -2556,15 +2569,15 @@ real + description="Tunable parameters for convective gravity wave drag"> real + description="Multiplicative tunable parameters for mountain blocking and orographic gravity wave drag"> real + description="Control for additional diagnostics in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme"> integer @@ -2577,7 +2590,7 @@ integer + description="Number of probability density function-based variables in XYZ-dimensioned restart array"> integer @@ -2661,7 +2674,8 @@ integer - + integer @@ -2718,19 +2732,24 @@ real - + character - + character - + character - + character - + logical @@ -2787,14 +2806,15 @@ real - + real real + description="Period of maximum diagnostics reset"> real @@ -2816,15 +2836,15 @@ real + description="Total amplitude of stochastically perturbed physics tendencies perturbation"> real + description="Do turbulent orographic form drag in Unified Gravity Wave Physics gravity wave drag scheme"> logical + description="Updraft area fraction in scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme"> real @@ -2851,10 +2871,12 @@ real - + integer - + integer @@ -2866,11 +2888,11 @@
+ description="Cloud ice mass mixing ratio with respect to moist air in interstitial scheme"> real + description="Cloud liquid water mass mixing ratio with respect to moist air in interstitial scheme"> real @@ -2883,11 +2905,11 @@ real + description="Process-split cumulative tendency of the graupel mass mixing ratio with respect to moist air"> real + description="Process-split cumulative tendency of the cloud ice mass mixing ratio with respect to moist air"> real @@ -2897,33 +2919,33 @@ real + description="Process-split cumulative tendency of the cloud liquid water mass mixing ratio with respect to moist air"> real + description="Process-split cumulative tendency of the ozone mass mixing ratio with respect to moist air"> real + description="Process-split cumulative tendency of the rain mass mixing ratio with respect to moist air"> real + description="Process-split cumulative tendency of the snow mass mixing ratio with respect to moist air"> real real + description="Process-split cumulative change in turbulent kinetic energy per unit time"> real real + description="Process-split cumulative tendency of specific humidity (water vapor mass mixing ratio with respect to moist air)"> real @@ -2938,11 +2960,11 @@
+ description="Absolute momentum flux due to non-orographic gravity wave drag"> real + description="Cumulative liquid water equivalent thickness of convective precipitation amount between shortwave radiation calls"> real @@ -2958,7 +2980,7 @@ real + description="Atmospheric heat diffusivity from Simplified Higher-Order Closure stochastic physics scheme"> real @@ -2974,7 +2996,7 @@ real + description="Convective cloud condensate mass mixing ratio with respect to moist air"> real @@ -2996,7 +3018,7 @@ real + description="Heat exchange coefficient for Mellor-Yamada-Janjic physics schemes"> real @@ -3006,11 +3028,11 @@ real + description="Upward flux of specific humidity (water vapor mass mixing ratio with respect to moist air) at surface for MYJ surface layer scheme"> real + description="Cumulative maximum vertical index at cloud base between shortwave radiation calls"> real @@ -3023,15 +3045,15 @@ real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) on previous timestep"> real + description="Tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) due to non-physics processes"> real + description="Momentum exchange coefficient for Mellor-Yamada-Janjic physics schemes"> real @@ -3041,23 +3063,25 @@ real + description="Variance of specific humidity (water vapor mass mixing ratio with respect to moist air)"> real real - + integer - + integer real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) at the top of the viscous sublayer"> real @@ -3067,15 +3091,15 @@ real + description="Subgrid-scale cloud ice mass mixing ratio with respect to moist air"> real + description="Subgrid-scale cloud liquid water mass mixing ratio with respect to moist air"> real + description="Subgrid-scale cloud fraction from Simplified Higher-Order Closure stochastic physics scheme"> real @@ -3088,14 +3112,14 @@ real + description="Surface specific humidity (water vapor mass mixing ratio with respect to moist air) for Mellor-Yamada-Janjic physics schemes"> real real + description="Covariance of air temperature and specific humidity (water vapor mass mixing ratio with respect to moist air)"> real @@ -3105,23 +3129,23 @@ real + description="Change of air temperature to withhold from stochastically perturbed physics tendencies per unit time"> real + description="Change of activated cloud condensation nuclei from climatology per unit time"> real + description="Liquid water equivalent thickness of rain amount on dynamics timestep for coupling"> real + description="Liquid water equivalent thickness of snowfall amount on dynamics timestep for coupling"> real + description="Non-advected turbulent kinetic energy multiplied by 2"> real @@ -3131,11 +3155,11 @@ real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) on previous timestep in XYZ-dimensioned restart array"> real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) two timesteps back"> real @@ -3145,7 +3169,7 @@ real + description="Scaling factor for specific humidity (water vapor mass mixing ratio with respect to moist air) at the top of the viscous sublayer"> real
@@ -3157,7 +3181,7 @@ real + description="Baseline surface roughness length"> real @@ -3176,11 +3200,11 @@ real + description="Cloud condensed water mass mixing ratio with respect to moist air at surface over ice"> real + description="Cloud condensed water mass mixing ratio with respect to moist air at surface over land"> real @@ -3262,7 +3286,7 @@ real - long_name="Upward specific humidity (water vapor mass mixing ratio with respect to moist air) flux at surface"> + description="Upward specific humidity (water vapor mass mixing ratio with respect to moist air) flux at surface"> real @@ -3290,42 +3314,42 @@ real + description="Liquid water equivalent thickness of convective precipitation amount on previous timestep"> real + description="Liquid water equivalent thickness of explicit precipitation amount on previous timestep"> real + description="Liquid water equivalent thickness of graupel amount on previous timestep"> real + description="Liquid water equivalent thickness of ice precipitation amount on previous timestep"> real real + description="Maximum vegetation area fraction"> real + description="albedo for near-infrared radiation with strong dependence on cosine of the zenith angle"> real - long_name="albedo for near-infrared radiation with weak dependence on cosine of the zenith angle"> + description="albedo for near-infrared radiation with weak dependence on cosine of the zenith angle"> real - long_name="albedo for visible radiation with strong dependence on cosine of the zenith angle"> + description="albedo for visible radiation with strong dependence on cosine of the zenith angle"> real - long_name="albedo for visible radiation with weak dependence on cosine of the zenith angle"> + description="albedo for visible radiation with weak dependence on cosine of the zenith angle"> real @@ -3341,10 +3365,11 @@ real + description="Non-negative liquid water equivalent thickness of precipitation amount on dynamics timestep"> real - + real @@ -3357,7 +3382,7 @@ real + description="Height above mean sea level at local surface"> real @@ -3412,19 +3437,19 @@ real + description="Liquid water equivalent thickness of ice in surface snow"> real + description="Liquid water equivalent thickness of liquid water in surface snow"> real + description="Liquid water equivalent thickness of snowfall amount on previous timestep"> real + description="Liquid water equivalent snowfall rate"> real @@ -3442,22 +3467,23 @@ real - + real real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) at two meters above surface"> real + description="mixing ratio of the mass of water vapor to the mass of moist air and hydrometeors, at two meters above surface"> real + description="Specified upward specific humidity (water vapor mass mixing ratio with respect to moist air) flux at surface"> real @@ -3482,49 +3508,51 @@ real + description="ice surface albedo for diffuse near-infrared radiation"> real + description="land surface albedo for diffuse near-infrared radiation"> real + description="ice surface albedo for diffuse visible radiation"> real + description="land surface albedo for diffuse visible radiation"> real + description="ice surface albedo for direct near-infrared radiation"> real + description="land surface albedo for direct near-infrared radiation"> real + description="ice surface albedo for direct visible radiation"> real + description="land surface albedo for direct visible radiation"> real + description="ice surface albedo for diffuse shortwave radiation"> real + description="land surface albedo for diffuse shortwave radiation"> real - + real - + real @@ -3555,43 +3583,43 @@ real + description="surface roughness length"> real + description="surface roughness length from wave model"> real + description="surface roughness length over ice"> real + description="surface roughness length over land"> real + description="surface roughness length over water"> real + description="Skin temperature at surface"> real + description="Skin temperature at surface over (or where) ice"> real + description="Skin temperature at surface over (or where) land"> real + description="Skin temperature at surface over (or where) ocean"> real + description="Skin temperature at surface over (or where) snow"> real @@ -3601,15 +3629,15 @@ real + description="surface snow-free albedo over land"> real + description="Liquid water equivalent surface snow"> real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface"> real @@ -3631,7 +3659,7 @@ real + description="Upper bound of maximum albedo assuming deep snow"> real @@ -3640,23 +3668,26 @@ real - + real real - + real real - + real + description="Liquid water equivalent thickness of surface snow amount"> real @@ -3675,11 +3706,11 @@ real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface over ice"> real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface over land"> real @@ -3694,19 +3725,19 @@ real + description="cumulative downwelling diffuse near-infrared shortwave flux at the surface level for coupling multiplied by the duration of the timestep"> real + description="cumulative downwelling diffuse ultraviolet and visible shortwave flux at the surface level for coupling multiplied by the duration of the timestep"> real + description="cumulative downwelling direct near-infrared shortwave flux at the surface level for coupling multiplied by the duration of the timestep"> real + description="cumulative downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling multiplied by the duration of the timestep"> real @@ -3716,19 +3747,19 @@ real + description="cumulative net downwelling diffuse near-infrared shortwave flux at the surface level for coupling multiplied by the duration of the timestep"> real + description="cumulative net downwelling diffuse ultraviolet and visible shortwave flux at the surface level for coupling multiplied by the duration of the timestep"> real + description="cumulative net downwelling direct near-infrared shortwave flux at the surface level for coupling multiplied by the duration of the timestep"> real + description="cumulative net downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling multiplied by the duration of the timestep"> real @@ -3756,26 +3787,26 @@ real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) at 2 meters above surface used for coupling"> real real + description="downwelling diffuse near-infrared shortwave flux at the surface level for coupling"> real + description="downwelling diffuse ultraviolet and visible shortwave flux at the surface level for coupling"> real + description="downwelling direct near-infrared shortwave flux at the surface level for coupling"> real + description="downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling"> real @@ -3785,19 +3816,19 @@ real + description="net downwelling diffuse near-infrared shortwave flux at the surface level for coupling"> real + description="net downwelling diffuse ultraviolet and visible shortwave flux at the surface level for coupling"> real + description="net downwelling direct near-infrared shortwave flux at the surface level for coupling"> real + description="net_downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling"> real @@ -3828,7 +3859,7 @@ real - long_name="Tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) due to moist convection used for coupling"> + description="Tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) due to moist convection used for coupling"> real @@ -3838,46 +3869,49 @@ real + description="Cumulative liquid water equivalent thickness of convective precipitation amount for coupling"> real + description="Cumulative liquid water equivalent thickness of precipitation amount for coupling"> real + description="Cumulative liquid water equivalent thickness of snow amount for coupling"> real real - + real - + real - + real real + description="downwelling diffuse near-infrared shortwave flux at the surface level on the radiation timestep"> real + description="downwelling diffuse ultraviolet and visible shortwave flux at the surface level on the radiation timestep"> real + description="downwelling direct near-infrared shortwave flux at the surface level on the radiation timestep"> real + description="downwelling direct ultraviolet and visible shortwave flux at the surface level on the radiation timestep"> real @@ -3890,15 +3924,15 @@ real + description="surface albedo for diffuse near-infrared radiation for coupling"> real + description="surface albedo for direct near-infrared radiation for coupling"> real + description="Liquid water equivalent surface snow from coupled process"> real @@ -3908,19 +3942,19 @@ real + description="upwelling diffuse near-infrared shortwave flux at the surface level on the radiation timestep"> real + description="upwelling diffuse ultraviolet and visible shortwave flux at the surface level on the radiation timestep"> real + description="upwelling direct near-infrared shortwave flux at the surface level on the radiation timestep"> real + description="upwelling direct ultraviolet and visible shortwave flux at the surface level on the radiation timestep"> real @@ -3930,11 +3964,11 @@ real + description="surface albedo for diffuse visible radiation for coupling"> real + description="surface albedo for direct visible radiation for coupling"> real @@ -3956,19 +3990,19 @@ real + description="Stochastic Humidity stochastic physics option scaling factors from coupled process"> real + description="Stochastic Kinetic Energy Backscatter x-wind scaling factors from coupled process"> real + description="Stochastic Kinetic Energy Backscatter y-wind scaling factors from coupled process"> real + description="Stochastically perturbed physics tendencies scaling factors from coupled process"> real @@ -3986,22 +4020,22 @@ real + description="Cloud liquid water mass mixing ratio with respect to moist air at surface-adjacent layer"> real real + description="Exner function with respect to surface pressure, (p/ps)^(Rd/cp)"> real + description="exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at the surface-adjacent layer"> real + description="exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at vertical layer interfaces"> real @@ -4014,7 +4048,7 @@ real + description="Graupel mass mixing ratio with respect to moist air"> real @@ -4027,7 +4061,7 @@ real + description="Ozone mass mixing ratio with respect to moist air"> real @@ -4037,7 +4071,7 @@ real + description="Snow mass mixing ratio with respect to moist air"> real @@ -4047,7 +4081,7 @@ real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface-adjacent layer"> real @@ -4058,13 +4092,16 @@
- + real - + real - + real
@@ -4079,7 +4116,7 @@ sfcflw_type + description="surface albedo for diffuse shortwave radiation on the timestep for radiation physics"> real @@ -4127,11 +4164,11 @@ real + description="Latitude interpolation scaling factor complement for absolute momentum flux due to non-orographic gravity wave drag"> real + description="Latitude interpolation scaling factor for absolute momentum flux due to non-orographic gravity wave drag"> real @@ -4147,7 +4184,7 @@ integer + description="Lower latitude index of absolute momentum flux due to non-orographic gravity wave drag for interpolation"> integer @@ -4175,7 +4212,7 @@ integer + description="Upper latitude index of absolute momentum flux due to non-orographic gravity wave drag for interpolation"> integer @@ -4196,7 +4233,7 @@ real + description="Cloud liquid water mass mixing ratio with respect to moist air of new state"> real @@ -4206,7 +4243,7 @@ real + description="Graupel mass mixing ratio with respect to moist air of new state"> real @@ -4219,7 +4256,7 @@ real + description="Cloud ice mass mixing ratio with respect to moist air of new state"> real @@ -4232,14 +4269,14 @@ real + description="Rain mass mixing ratio with respect to moist air of new state"> real real + description="Snow mass mixing ratio with respect to moist air of new state"> real @@ -4249,11 +4286,11 @@ real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) of new state at surface-adjacent layer"> real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) of new state"> real diff --git a/standard_names_v1_0.xsd b/standard_names_v1_0.xsd index 5ecc4f0..b163919 100644 --- a/standard_names_v1_0.xsd +++ b/standard_names_v1_0.xsd @@ -31,7 +31,7 @@ - + @@ -53,7 +53,7 @@ - + diff --git a/tools/check_xml_unique.py b/tools/check_xml_unique.py index 20d7ce9..41488d5 100755 --- a/tools/check_xml_unique.py +++ b/tools/check_xml_unique.py @@ -34,6 +34,10 @@ def parse_command_line(args, description): type=str, help="XML file with standard name library") parser.add_argument("--overwrite", action='store_true', help="flag to remove duplicates and overwrite the file") + parser.add_argument("--field", type=str, default="name", + help="Field to check for uniqueness; default is 'name'") + parser.add_argument("--debug", action='store_true', + help="flag for additional debug print statements") pargs = parser.parse_args(args) return pargs @@ -66,8 +70,11 @@ def main_func(): #get list of all standard names all_std_names = [] for name in root.findall('./section/standard_name'): - all_std_names.append(name.attrib['name']) - + try: + all_std_names.append(name.attrib[args.field]) + except KeyError: + if (args.debug): + print(f"WARNING: no field '{args.field}' for standard name '{name.attrib['name']}' ") #get list of all unique and duplicate standard names, in source order seen = set() uniq_std_names = [] @@ -79,13 +86,12 @@ def main_func(): else: dup_std_names.append(x) - if args.overwrite: - #delete all duplicate elements after the first - if len(dup_std_names)>0: - print('The following duplicate standard names were found:') - for dup in dup_std_names: - rm_elements = root.findall('./section/standard_name[@name="%s"]'%dup)[1:] - print(f"{dup}, ({len(rm_elements)} duplicate(s))") + if len(dup_std_names)>0: + print(f'The following duplicate {args.field} entries were found:') + for dup in dup_std_names: + rm_elements = root.findall(f'./section/standard_name[@{args.field}="{dup}"]')[1:] + print(f"{dup}, ({len(rm_elements)} duplicate(s))") + if args.overwrite: print(f'Removing duplicates and overwriting {stdname_file}') for dup in dup_std_names: first_use = True #Logical that indicates the first use of the duplicated name @@ -101,17 +107,11 @@ def main_func(): #Overwrite the xml file with the new, duplicate-free element tree: tree.write(stdname_file, "utf-8") else: - print('No duplicate standard names were found.') - else: - #write out duplicate standard names - if len(dup_std_names)>0: - print('The following duplicate standard names were found:') - for dup in dup_std_names: - rm_elements = root.findall('./section/standard_name[@name="%s"]'%dup)[1:] - print(f"{dup}, ({len(rm_elements)} duplicate(s))") + # If not overwriting, exit with status 1 to indicate failure sys.exit(1) - else: - print('No duplicate standard names were found.') + else: + print(f'No duplicate {args.field}s were found.') + ############################################################################### if __name__ == "__main__": diff --git a/tools/write_standard_name_table.py b/tools/write_standard_name_table.py index 2f66d04..90754fd 100755 --- a/tools/write_standard_name_table.py +++ b/tools/write_standard_name_table.py @@ -60,58 +60,58 @@ def convert_text_to_link(text_str): return link_str ######################################################################## -def standard_name_to_long_name(prop_dict, context=None): +def standard_name_to_description(prop_dict, context=None): ######################################################################## - """Translate a standard_name to its default long_name + """Translate a standard_name to its default description Note: This code is copied from the CCPP Framework. - >>> standard_name_to_long_name({'standard_name':'cloud_optical_depth_layers_from_0p55mu_to_0p99mu'}) + >>> standard_name_to_description({'standard_name':'cloud_optical_depth_layers_from_0p55mu_to_0p99mu'}) 'Cloud optical depth layers from 0.55mu to 0.99mu' - >>> standard_name_to_long_name({'local_name':'foo'}) #doctest: +IGNORE_EXCEPTION_DETAIL + >>> standard_name_to_description({'local_name':'foo'}) #doctest: +IGNORE_EXCEPTION_DETAIL Traceback (most recent call last): - CCPPError: No standard name to convert foo to long name - >>> standard_name_to_long_name({}) #doctest: +IGNORE_EXCEPTION_DETAIL + CCPPError: No standard name to convert foo to description + >>> standard_name_to_description({}) #doctest: +IGNORE_EXCEPTION_DETAIL Traceback (most recent call last): - CCPPError: No standard name to convert to long name - >>> standard_name_to_long_name({'local_name':'foo'}, context=ParseContext(linenum=3, filename='foo.F90')) #doctest: +IGNORE_EXCEPTION_DETAIL + CCPPError: No standard name to convert to description + >>> standard_name_to_description({'local_name':'foo'}, context=ParseContext(linenum=3, filename='foo.F90')) #doctest: +IGNORE_EXCEPTION_DETAIL Traceback (most recent call last): - CCPPError: No standard name to convert foo to long name at foo.F90:3 - >>> standard_name_to_long_name({}, context=ParseContext(linenum=3, filename='foo.F90')) #doctest: +IGNORE_EXCEPTION_DETAIL + CCPPError: No standard name to convert foo to description at foo.F90:3 + >>> standard_name_to_description({}, context=ParseContext(linenum=3, filename='foo.F90')) #doctest: +IGNORE_EXCEPTION_DETAIL Traceback (most recent call last): - CCPPError: No standard name to convert to long name at foo.F90:3 + CCPPError: No standard name to convert to description at foo.F90:3 """ # We assume that standar_name has been checked for validity # Make the first char uppercase and replace each underscore with a space if 'standard_name' in prop_dict: standard_name = prop_dict['standard_name'] if standard_name: - long_name = standard_name[0].upper() + re.sub("_", " ", + description = standard_name[0].upper() + re.sub("_", " ", standard_name[1:]) else: - long_name = '' + description = '' # end if # Next, substitute a decimal point for the p in [:digit]p[:digit] - match = _REAL_SUBST_RE.match(long_name) + match = _REAL_SUBST_RE.match(description) while match is not None: - long_name = match.group(1) + '.' + match.group(2) - match = _REAL_SUBST_RE.match(long_name) + description = match.group(1) + '.' + match.group(2) + match = _REAL_SUBST_RE.match(description) # end while else: - long_name = '' + description = '' if 'local_name' in prop_dict: lname = ' {}'.format(prop_dict['local_name']) else: lname = '' # end if ctxt = context_string(context) - emsg = 'No standard name to convert{} to long name{}' + emsg = 'No standard name to convert{} to description{}' raise CCPPError(emsg.format(lname, ctxt)) # end if - return long_name + return description ############################################################################### -def parse_command_line(args, description): +def parse_command_line(args, program_description): ############################################################################### - parser = argparse.ArgumentParser(description=description, + parser = argparse.ArgumentParser(description=program_description, formatter_class=argparse.RawTextHelpFormatter) parser.add_argument("standard_name_file", @@ -165,12 +165,12 @@ def parse_section(snl, sec, level='##'): parse_section(snl, std_name, level + '#') continue stdn_name = std_name.get('name') - stdn_longname = std_name.get('long_name') - if stdn_longname is None: + stdn_description = std_name.get('description') + if stdn_description is None: sdict = {'standard_name':stdn_name} - stdn_longname = standard_name_to_long_name(sdict) + stdn_description = standard_name_to_description(sdict) # end if - snl.write("* `{}`: {}\n".format(stdn_name, stdn_longname)) + snl.write("* `{}`: {}\n".format(stdn_name, stdn_description)) # Should only be a type in the standard_name text for item in std_name: if item.tag == 'type': From 777e89e2185e6d3352e7881d074b7869a9478d5c Mon Sep 17 00:00:00 2001 From: Michael Kavulich Date: Wed, 24 Sep 2025 13:53:36 -0600 Subject: [PATCH 5/9] [release/v1] Fifth major update in v1 branch: Better information on units, remove `kind`, clarify disallowed terms (#124) ## Description This PR addresses the following issues: - #94 Include more information on the role of "units" - #102 Remove "kind" from standard name entries - Partially addresses #105: this PR removes the ambiguous term `amount` replacing it with more specific terms where needed, and includes a new section on "disallowed terms" that includes `specific_humidity` and `amount`. In addition, this PR organizes the "constants" section alphabetically, and replaces the too-specific `dry_air_density` base name with `dry_air`, and change `dry_air_density` to `density_of_dry_air` to better fit with naming conventions in the updated rules. ## Issues - Resolves #94 - Resolves #102 --- Metadata-standard-names.md | 2231 +++++++++++++++++------------------ StandardNamesRules.rst | 38 +- standard_names.xml | 2259 ++++++++++++++++++------------------ standard_names_v1_0.xsd | 2 - 4 files changed, 2267 insertions(+), 2263 deletions(-) diff --git a/Metadata-standard-names.md b/Metadata-standard-names.md index 9474945..b560235 100644 --- a/Metadata-standard-names.md +++ b/Metadata-standard-names.md @@ -31,8 +31,6 @@ Base names can roughly be broken down into three categories: The following names are too general to be chosen as standard names, but they can serve as base names for more specific standard names. -* `amount`: Amount - * `real`: units = kg m-2 * `area`: Area * `real`: units = m2 * `area_fraction`: The fraction of an area where some condition applies @@ -59,6 +57,8 @@ more specific standard names. * `real`: units = W * `mass`: Mass * `real`: units = kg +* `mass_content`: Vertically-integrated mass over a given area and vertical extent + * `real`: units = kg m-2 * `mass_flux`: Mass traveling through an area per unit time * `real`: units = kg m-2 s-1 * `mass_fraction`: The fraction of a given mass where some condition applies @@ -150,7 +150,7 @@ full list of standard names for further details. * `real`: units = s-1 * `air_pressure`: The pressure of air * `real`: units = Pa -* `air_pressure_thickness`: Air pressure thickness +* `air_pressure_thickness`: The difference in air pressure between two vertical layers * `real`: units = Pa * `air_temperature`: The temperature of air * `real`: units = K @@ -183,12 +183,12 @@ full list of standard names for further details. * `real`: units = 1 * `divergence`: Divergence * `real`: units = s-1 -* `dry_air_density`: Density of air excluding water vapor component +* `dry_air`: Air excluding all water components * `real`: units = kg m-3 * `dry_air_enthalpy_at_constant_pressure`: Specific enthalpy of dry air, h = Cp*T; Cp = Specific heat of dry air at constant pressure, T = temperature * `real`: units = J kg-1 * `exner_function`: Exner function, (p/p0)^(Rd/cp), where p0 is some reference pressure (1000 hPa if not specified) - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `friction_velocity`: A measure of shear stress within a fluid layer with units of distance per time * `real`: units = m s-1 * `filename`: Filename @@ -196,7 +196,7 @@ full list of standard names for further details. * `forecast_time`: Forecast time * `real`: units = h * `geopotential`: Gravitational potential energy of a unit mass relative to sea level - * `real(kind=kind_phys)`: units = m2 s-2 + * `real`: units = m2 s-2 * `geopotential_height`: Geopotential divided by the gravitational constant * `real`: units = m * `graupel`: Precipitation consisting of heavily rimed ice crystals @@ -304,2205 +304,2206 @@ Currently, the only dimension which supports all six dimension types is horizont * `number_of_openmp_threads`: Total number of OpenMP (shared-memory) parallel threads. * `integer`: units = count ## constants +Constant parameters that should be identical across a full modeling system * `avogadro_number`: Avogadro number - * `real(kind=kind_phys)`: units = molecules mol-1 + * `real`: units = molecules mol-1 * `base_state_surface_pressure_for_hybrid_vertical_coordinate`: Base state surface pressure for hybrid vertical coordinate - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `boltzmann_constant`: Boltzmann constant - * `real(kind=kind_phys)`: units = J K-1 + * `real`: units = J K-1 +* `density_of_dry_air_at_stp`: Density of dry air at standard temperature and pressure + * `real`: units = kg m-3 +* `density_of_fresh_liquid_water_at_0c`: Density of liquid water at 0 degrees Celsius + * `real`: units = kg m-3 * `gas_constant_of_dry_air`: Gas constant of dry air - * `real(kind=kind_phys)`: units = J kg-1 K-1 -* `seconds_in_calendar_day`: Seconds in calendar day - * `integer(kind=kind_phys)`: units = s -* `specific_heat_of_dry_air_at_constant_pressure`: Specific heat of dry air at constant pressure - * `real(kind=kind_phys)`: units = J kg-1 K-1 -* `specific_heat_of_liquid_water_at_20c`: Specific heat of liquid water at 20 degrees Celsius - * `real(kind=kind_phys)`: units = J kg-1 K-1 + * `real`: units = J kg-1 K-1 * `latent_heat_of_vaporization_of_water_at_0c`: Latent heat of vaporization of water at 0 degrees Celsius - * `real(kind=kind_phys)`: units = J kg-1 -* `dry_air_density_at_stp`: Density of dry air at standard temperature and pressure - * `real(kind=kind_phys)`: units = kg m-3 -* `fresh_liquid_water_density_at_0c`: Density of liquid water at 0 degrees Celsius - * `real(kind=kind_phys)`: units = kg m-3 + * `real`: units = J kg-1 * `ratio_of_water_vapor_to_dry_air_gas_constants_minus_one`: Ratio of gas constants of water vapor and dry air minus one; (Rwv / Rdair) - 1.0 - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 +* `seconds_in_calendar_day`: Seconds in calendar day + * `integer`: units = s +* `specific_heat_of_liquid_water_at_20c`: Specific heat of liquid water at 20 degrees Celsius + * `real`: units = J kg-1 K-1 * `standard_gravitational_acceleration`: scalar constant representing gravitational acceleration - * `real(kind=kind_phys)`: units = m s-2 + * `real`: units = m s-2 ## coordinates * `latitude`: Latitude - * `real(kind=kind_phys)`: units = degree_north + * `real`: units = degree_north * `longitude`: Longitude - * `real(kind=kind_phys)`: units = degree_east + * `real`: units = degree_east * `cell_area`: Cell area - * `real(kind=kind_phys)`: units = m2 + * `real`: units = m2 * `cell_scaling_factor`: Cell scaling factor - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 ## state_variables Note that appending '_on_previous_timestep' to standard_names in this section yields another valid standard_name +* `specific_heat_of_dry_air_at_constant_pressure`: Specific heat of dry air at constant pressure + * `real`: units = J kg-1 K-1 * `physics_state_due_to_dynamics`: Physics state due to dynamics - * `physics_state(kind=kind_phys)`: units = none + * `physics_state`: units = none * `timestep_for_physics`: Timestep for physics - * `integer(kind=kind_phys)`: units = s + * `integer`: units = s * `total_tendency_of_physics`: Total tendency of physics - * `physics_tend(kind=kind_phys)`: units = none + * `physics_tend`: units = none * `air_pressure_at_top_of_atmosphere_model`: Air pressure at top of atmosphere model - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `air_pressure_at_sea_level`: Air pressure at sea level - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `air_pressure_at_surface`: Air pressure at local surface - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `surface_pressure_of_dry_air`: Surface pressure of dry air - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `geopotential_at_surface`: Geopotential at surface - * `real(kind=kind_phys)`: units = m2 s-2 + * `real`: units = m2 s-2 * `air_temperature`: Air temperature - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `air_temperature_on_previous_timestep`: Air temperature on previous timestep - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `x_wind`: Horizontal wind in a direction perpendicular to y_wind - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `y_wind`: Horizontal wind in a direction perpendicular to x_wind - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `eastward_wind`: Wind vector component, positive when directed eastward - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `northward_wind`: Wind vector component, positive when directed northward - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `eastward_wind_at_10m`: Wind vector component at 10 meters above surface, positive when directed eastward - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `northward_wind_at_10m`: Wind vector component at 10 meters above surface, positive when directed northward - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `eastward_wind_at_surface`: Wind vector component closest to surface, positive when directed eastward - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `northward_wind_at_surface`: Wind vector component closest to surface, positive when directed northward - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `wind_speed_at_surface`: Scalar wind speed closest to surface - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `wind_from_direction_at_surface`: Direction, from north, of wind speed closest to surface - * `real(kind=kind_phys)`: units = degrees + * `real`: units = degrees * `dry_static_energy`: Dry static energy content of atmosphere layer - * `real(kind=kind_phys)`: units = J kg-1 + * `real`: units = J kg-1 * `do_lagrangian_vertical_coordinate`: Flag indicating if vertical coordinate is lagrangian - * `logical(kind=)`: units = flag + * `logical`: units = flag * `lagrangian_tendency_of_air_pressure`: Vertical pressure velocity - * `real(kind=kind_phys)`: units = Pa s-1 -* `dry_air_density`: Density of dry air - * `real(kind=kind_phys)`: units = kg m-3 + * `real`: units = Pa s-1 +* `density_of_dry_air`: Density of dry air + * `real`: units = kg m-3 * `air_pressure`: Midpoint air pressure - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `air_pressure_of_dry_air`: Dry midpoint pressure - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `air_pressure_thickness`: Air pressure thickness - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `air_pressure_thickness_of_dry_air`: Air pressure thickness of dry air - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `reciprocal_of_air_pressure_thickness`: Reciprocal of air pressure thickness - * `real(kind=kind_phys)`: units = Pa-1 + * `real`: units = Pa-1 * `reciprocal_of_air_pressure_thickness_of_dry_air`: Reciprocal of air pressure thickness of dry air - * `real(kind=kind_phys)`: units = Pa-1 + * `real`: units = Pa-1 * `ln_air_pressure`: Ln air pressure - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `ln_air_pressure_of_dry_air`: Ln air pressure of dry air - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `reciprocal_of_exner_function_wrt_air_pressure_at_surface`: inverse exner function with respect to surface pressure; (ps/p)^(R/cp) - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `geopotential_height`: geopotential height with respect to sea level - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `geopotential_height_at_surface`: Geopotential height at local surface with respect to sea level - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `geopotential_height_wrt_surface`: geopotential height with respect to local surface - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `geopotential_height_wrt_surface_at_interfaces`: geopotential height with respect to local surface at interfaces - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `potentially_advected_quantities`: Potentially advected quantities - * `real(kind=kind_phys)`: units = various + * `real`: units = various * `air_pressure_at_interfaces`: Air pressure at interfaces - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `air_pressure_of_dry_air_at_interfaces`: Air pressure of dry air at interfaces - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `ln_air_pressure_at_interfaces`: Ln air pressure at interfaces - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `ln_air_pressure_of_dry_air_at_interfaces`: Ln air pressure of dry air at interfaces - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `air_pressure_extended_up_by_1`: Air pressure extended up by 1 - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `largest_model_top_pressure_that_allows_molecular_diffusion`: Largest model top pressure that allows molecular diffusion - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `do_molecular_diffusion`: Do molecular diffusion - * `logical(kind=kind_phys)`: units = flag + * `logical`: units = flag * `is_initialized_physics_grid`: Flag to indicate if physics grid is initialized - * `logical(kind=kind_phys)`: units = flag + * `logical`: units = flag * `control_for_negative_constituent_warning`: Logging setting for negative constituent mass fixer - * `character(kind=len=*)`: units = 1 + * `character`: units = 1 * `geopotential_height_at_interfaces`: Geopotential height at interfaces - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `vertically_integrated_total_energy_of_initial_state`: Vertically integrated total energy of initial state - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `vertically_integrated_total_energy_of_current_state`: Vertically integrated total energy of current state - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `vertically_integrated_total_water_of_initial_state`: Vertically integrated total water of initial state - * `real(kind=kind_phys)`: units = kg m-2 + * `real`: units = kg m-2 * `vertically_integrated_total_water_of_current_state`: Vertically integrated total water of current state - * `real(kind=kind_phys)`: units = kg m-2 + * `real`: units = kg m-2 * `tendency_of_dry_air_enthalpy_at_constant_pressure`: Change of dry air enthalpy per unit time at constant pressure; d/dt(Cp*T) - * `real(kind=kind_phys)`: units = J kg-1 s-1 + * `real`: units = J kg-1 s-1 * `tendency_of_air_temperature`: Change in temperature per unit time - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `tendency_of_air_temperature_due_to_model_physics`: Change in air temperature due to model physics per unit time - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `tendency_of_potential_temperature_of_air`: Change in potential temperature per unit time - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `tendency_of_potential_temperature_of_air_due_to_model_physics`: Change of potential temperature of air due to model physics per unit time - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `tendency_of_x_wind`: Change in x wind per unit time - * `real(kind=kind_phys)`: units = m s-2 + * `real`: units = m s-2 * `tendency_of_x_wind_due_to_model_physics`: Change in x wind due to model physics per unit time - * `real(kind=kind_phys)`: units = m s-2 + * `real`: units = m s-2 * `tendency_of_y_wind`: Change in y wind per unit time - * `real(kind=kind_phys)`: units = m s-2 + * `real`: units = m s-2 * `tendency_of_y_wind_due_to_model_physics`: Change in y wind due to model physics per unit time - * `real(kind=kind_phys)`: units = m s-2 + * `real`: units = m s-2 * `tendency_of_eastward_wind`: Change in eastward wind per unit time - * `real(kind=kind_phys)`: units = m s-2 + * `real`: units = m s-2 * `tendency_of_eastward_wind_due_to_model_physics`: Change in eastward wind due to model physics per unit time - * `real(kind=kind_phys)`: units = m s-2 + * `real`: units = m s-2 * `tendency_of_northward_wind`: Change in northward wind per unit time - * `real(kind=kind_phys)`: units = m s-2 + * `real`: units = m s-2 * `tendency_of_northward_wind_due_to_model_physics`: Change in northward wind due to model physics per unit time - * `real(kind=kind_phys)`: units = m s-2 + * `real`: units = m s-2 * `horizontal_streamfunction_of_air`: Scalar function describing the streamlines of the horizontal wind - * `real(kind=kind_phys)`: units = m2 s-1 + * `real`: units = m2 s-1 * `horizontal_velocity_potential_of_air`: Scalar potential of the horizontal wind - * `real(kind=kind_phys)`: units = m2 s-1 + * `real`: units = m2 s-1 * `upward_absolute_vorticity_of_air`: The upward (kth) component of the curl of the vector wind field - * `real(kind=kind_phys)`: units = s-1 + * `real`: units = s-1 * `horizontal_divergence_of_air`: The horizontal divergence of the 2-D vector wind field - * `real(kind=kind_phys)`: units = s-1 + * `real`: units = s-1 * `upward_heat_flux_in_air_at_surface`: Upward heat flux in air at surface - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `cumulative_boundary_flux_of_total_energy`: Cumulative boundary flux of total energy - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `cumulative_boundary_flux_of_total_water`: Cumulative boundary flux of total water - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `us_standard_air_pressure_at_sea_level`: US Standard Atmospheric pressure at sea level - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `surface_reference_pressure`: Reference pressure used in definition of some other quantity (e.g. potential temperature, Exner function, etc.) - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `reference_pressure_in_atmosphere_layer`: Reference pressure in atmosphere layer - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `reference_air_pressure_normalized_by_air_pressure_at_surface`: reference pressure normalized by surface pressure - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `reference_pressure_in_atmosphere_layer_normalized_by_surface_reference_pressure`: Reference pressure in atmosphere layer normalized by surface reference pressure - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `exner_function`: exner function, (p/p0)^(Rd/cp), where p0 is 1000 hPa - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `potential_temperature_of_air`: air potential temperature - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `potential_temperature_of_air_on_previous_timestep`: air potential temperature on previous timestep - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `composition_dependent_gas_constant_of_dry_air`: Composition dependent gas constant of dry air - * `real(kind=kind_phys)`: units = J kg-1 K-1 + * `real`: units = J kg-1 K-1 * `composition_dependent_specific_heat_of_dry_air_at_constant_pressure`: composition-dependent specific heat of dry air at constant pressure - * `real(kind=kind_phys)`: units = J kg-1 K-1 + * `real`: units = J kg-1 K-1 * `composition_dependent_ratio_of_dry_air_gas_constant_to_specific_heat_of_dry_air_at_constant_pressure`: composition-dependent ratio of dry air gas constant to specific heat of dry air at constant pressure - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `ratio_of_water_vapor_gas_constant_to_composition_dependent_dry_air_gas_constant_minus_one`: Ratio of gas constants of water vapor to composition-dependent dry air minus one; (Rwv / Rdair) - 1.0 - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `mass_content_of_cloud_ice_in_atmosphere_layer`: Mass content of cloud ice in atmosphere layer - * `real(kind=kind_phys)`: units = kg m-2 + * `real`: units = kg m-2 * `mass_content_of_cloud_liquid_water_in_atmosphere_layer`: Mass content of cloud liquid water in atmosphere layer - * `real(kind=kind_phys)`: units = kg m-2 + * `real`: units = kg m-2 * `mass_content_of_rain_in_atmosphere_layer`: Mass content of rain in atmosphere layer - * `real(kind=kind_phys)`: units = kg m-2 + * `real`: units = kg m-2 * `mass_content_of_snow_in_atmosphere_layer`: Mass content of snow in atmosphere layer - * `real(kind=kind_phys)`: units = kg m-2 + * `real`: units = kg m-2 * `mass_content_of_graupel_in_atmosphere_layer`: Mass content of graupel in atmosphere layer - * `real(kind=kind_phys)`: units = kg m-2 + * `real`: units = kg m-2 * `mass_content_of_hail_in_atmosphere_layer`: Mass content of hail in atmosphere layer - * `real(kind=kind_phys)`: units = kg m-2 + * `real`: units = kg m-2 * `nonconvective_cloud_area_fraction_in_atmosphere_layer`: cloud area fraction in atmosphere layer excluding clouds produced by the convective schemes - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `relative_humidity`: Relative humidity - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `relative_humidity_at_2m`: Relative humidity at 2m - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `gravitational_acceleration`: Gravitational acceleration - * `real(kind=kind_phys)`: units = m s-2 + * `real`: units = m s-2 ## land_surface * `land_ice_area_fraction_of_cell_area`: fraction of horizontal area of grid cell that is ice over land - * `real(kind=kind_phys)`: units = frac + * `real`: units = frac * `mass_content_of_water_in_top_soil_layer`: mass per unit area of water in top layer of soil - * `real(kind=kind_phys)`: units = kg m-2 + * `real`: units = kg m-2 * `density_of_snow_at_surface`: Density of snow at surface - * `real(kind=kind_phys)`: units = kg m-3 + * `real`: units = kg m-3 * `urban_area_fraction_of_cell_area`: fraction of horizontal area of grid cell that is urban - * `real(kind=kind_phys)`: units = frac + * `real`: units = frac * `volume_fraction_of_liquid_water_in_soil_at_critical_point`: volume fraction of water in liquid phase in soil at critical point - * `real(kind=kind_phys)`: units = m3 m-3 + * `real`: units = m3 m-3 * `volume_fraction_of_liquid_water_in_soil_at_saturation`: volume fraction of water in liquid phase in soil at saturation - * `real(kind=kind_phys)`: units = m3 m-3 + * `real`: units = m3 m-3 * `volume_fraction_of_liquid_water_in_soil_at_wilting_point`: volume fraction of water in liquid phase in soil at wilting point - * `real(kind=kind_phys)`: units = m3 m-3 + * `real`: units = m3 m-3 ## diagnostics * `total_precipitation_rate_at_surface`: Total precipitation rate at surface - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 ## atmospheric_composition * `number_of_chemical_species`: Number of chemical species - * `integer(kind=kind_phys)`: units = count + * `integer`: units = count * `number_of_tracers`: Number of tracers - * `integer(kind=kind_phys)`: units = count + * `integer`: units = count * `water_vapor_mixing_ratio_wrt_moist_air`: Ratio of the mass of water vapor to the mass of moist air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water`: Ratio of the mass of water vapor to the mass of moist air and hydrometeors - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces`: Ratio of the mass of water vapor to the mass of moist air and hydrometeors at all interfaces excluding surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mole_fraction_of_water_vapor`: Mole fraction of water vapor - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `water_vapor_mixing_ratio_wrt_dry_air`: Ratio of the mass of water vapor to the mass of dry air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_dry_air_at_top_interfaces`: Ratio of the mass of water vapor to the mass of dry air at all interfaces excluding surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `cloud_liquid_water_mixing_ratio_wrt_moist_air_and_condensed_water`: Ratio of the mass of cloud liquid water to the mass of moist air and condensed water - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `cloud_liquid_water_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces`: Ratio of the mass of cloud liquid water to the mass of moist air and condensed water at all interfaces excluding surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `cloud_liquid_water_mixing_ratio_wrt_moist_air`: Ratio of the mass of cloud liquid water to the mass of moist air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `cloud_liquid_water_mixing_ratio_wrt_dry_air`: Ratio of the mass of cloud liquid water to the mass of dry air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `cloud_liquid_water_mixing_ratio_wrt_dry_air_at_top_interfaces`: Ratio of the mass of cloud liquid water to the mass of dry air at all interfaces excluding surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `cloud_ice_mixing_ratio_wrt_moist_air_and_condensed_water`: Ratio of the mass of cloud ice to the mass of moist air and condensed water - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `cloud_ice_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces`: Ratio of the mass of cloud ice to the mass of moist air and condensed water at all interfaces excluding surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `cloud_ice_mixing_ratio_wrt_dry_air`: Ratio of the mass of cloud ice to the mass of dry air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `cloud_ice_mixing_ratio_wrt_dry_air_at_top_interfaces`: Ratio of the mass of cloud ice to the mass of dry air at all interfaces excluding surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `rain_mixing_ratio_wrt_moist_air_and_condensed_water`: ratio of the mass of rain to the mass of moist air and condensed water - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `rain_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces`: ratio of the mass of rain to the mass of moist air and condensed water at all interfaces excluding surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `rain_mixing_ratio_wrt_moist_air`: ratio of the mass of rain to the mass of moist air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `rain_mixing_ratio_wrt_dry_air`: ratio of the mass of rain to the mass of dry air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `rain_mixing_ratio_wrt_dry_air_at_top_interfaces`: ratio of the mass of rain to the mass of dry air at all interfaces excluding surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `total_water_mixing_ratio_wrt_moist_air_and_condensed_water`: ratio of the mass of all water phases to the mass of moist air and condensed water - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `total_water_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces`: ratio of the mass of all water phases to the mass of moist air and condensed water at all interfaces excluding surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `total_water_mixing_ratio_wrt_dry_air`: ratio of the mass of all water phases to the mass of dry air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `total_water_mixing_ratio_wrt_dry_air_at_top_interfaces`: ratio of the mass of all water phases to the mass of dry air at all interfaces excluding surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_assuming_saturation`: saturated water vapor mass mixing ratio with respect to moist air and condensed water - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces_assuming_saturation`: saturated water vapor mass mixing ratio with respect to moist air and condensed water at all interfaces excluding surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `derivative_of_ln_water_vapor_partial_pressure_assuming_saturation_wrt_air_temperature`: derivative of the natural logarithm of water vapor partial pressure at saturation with respect to air temperature - * `real(kind=kind_phys)`: units = K-1 + * `real`: units = K-1 * `derivative_of_ln_water_vapor_partial_pressure_assuming_saturation_wrt_air_temperature_at_top_interfaces`: derivative of the natural logarithm of water vapor partial pressure at saturation with respect to air temperature at all interfaces excluding surface - * `real(kind=kind_phys)`: units = K-1 + * `real`: units = K-1 * `mole_fraction_of_ozone_in_air`: Mole fraction of ozone in air - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `mole_fraction_of_co2_in_air`: Mole fraction of co2 in air - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_ch4`: Methane volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_co`: Carbon monoxide volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_co2`: Carbon dioxide volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_ccl4`: Tetrachloromethane volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_cfc11`: Trichlorofluoromethane volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_cfc12`: Dichlorodifluoromethane volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_cfc113`: 1,1,2-Trichloro-1,2,2-trifluoroethane volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_cfc22`: Chlorodifluoromethane volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_o2`: Dioxygen volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_n2o`: Nitrous oxide volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_no2`: Nitrogen dioxide volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_no`: Nitric oxide volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_o3`: Ozone volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_hcho`: Formaldehyde volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_c5h8`: Isoprene volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 * `volume_mixing_ratio_of_so2`: Sulfur dioxide volume mixing ratio - * `real(kind=kind_phys)`: units = mol mol-1 + * `real`: units = mol mol-1 ## atmospheric_composition: GOCART aerosols * `mass_fraction_of_dust001_in_air`: Dust bin1 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_dust002_in_air`: Dust bin2 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_dust003_in_air`: Dust bin3 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_dust004_in_air`: Dust bin4 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_dust005_in_air`: Dust bin5 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_sea_salt001_in_air`: Sea salt bin1 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_sea_salt002_in_air`: Sea salt bin2 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_sea_salt003_in_air`: Sea salt bin3 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_sea_salt004_in_air`: Sea salt bin4 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_sea_salt005_in_air`: Sea salt bin5 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_hydrophobic_black_carbon_in_air`: Hydrophobic black carbon mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_hydrophilic_black_carbon_in_air`: Hydrophilic black carbon mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_hydrophobic_organic_carbon_in_air`: Hydrophobic organic carbon mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_hydrophilic_organic_carbon_in_air`: Hydrophilic organic carbon mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_sulfate_in_air`: Sulfate mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_sea_nitrate001_in_air`: Nitrate bin1 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_sea_nitrate002_in_air`: Nitrate bin2 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_fraction_of_sea_nitrate003_in_air`: Nitrate bin3 mass fraction - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `volume_extinction_in_air_due_to_aerosol_particles_lambda1`: Aerosol extinction at wavelength1 - * `real(kind=kind_phys)`: units = m-1 + * `real`: units = m-1 * `volume_extinction_in_air_due_to_aerosol_particles_lambda2`: Aerosol extinction at wavelength2 - * `real(kind=kind_phys)`: units = m-1 + * `real`: units = m-1 * `volume_extinction_in_air_due_to_aerosol_particles_lambda3`: Aerosol extinction at wavelength3 - * `real(kind=kind_phys)`: units = m-1 + * `real`: units = m-1 ## emissions Emissions variables, contributed for the Community Emissions Data System (CEDS) * `emissions_of_co_due_to_anthropogenic_sources`: Carbon monoxide emissions from anthropogenic sources, total - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_no_due_to_anthropogenic_sources`: Nitric oxide emissions from anthropogenic sources, total - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_hcho_due_to_anthropogenic_sources`: Formaldehyde emissions from anthropogenic sources, total - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_co_due_to_anthropogenic_agriculture`: Carbon monoxide emissions from anthropogenic non-combustion agricultural sector - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_no_due_to_anthropogenic_agriculture`: Nitric oxide emissions from anthropogenic non-combustion agricultural sector - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_hcho_due_to_anthropogenic_agriculture`: Formaldehyde emissions from anthropogenic non-combustion agricultural sector - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_co_due_to_anthropogenic_energy`: Carbon monoxide emissions from anthropogenic non-combustion energy transformation and extraction - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_no_due_to_anthropogenic_energy`: Nitric oxide emissions from anthropogenic non-combustion energy transformation and extraction - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_hcho_due_to_anthropogenic_energy`: Formaldehyde emissions from anthropogenic non-combustion energy transformation and extraction - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_co_due_to_anthropogenic_industry`: Carbon monoxide emissions from anthropogenic industrial combustion and processes - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_no_due_to_anthropogenic_industry`: Nitric oxide emissions from anthropogenic industrial combustion and processes - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_hcho_due_to_anthropogenic_industry`: Formaldehyde emissions from anthropogenic industrial combustion and processes - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_co_due_to_anthropogenic_rco`: Carbon monoxide emissions from anthropogenic residential, commercial, and others - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_no_due_to_anthropogenic_rco`: Nitric oxide emissions from anthropogenic residential, commercial, and others - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_hcho_due_to_anthropogenic_rco`: Formaldehyde emissions from anthropogenic residential, commercial, and others - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_co_due_to_anthropogenic_shipping`: Carbon monoxide emissions from anthropogenic international shipping - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_no_due_to_anthropogenic_shipping`: Nitric oxide emissions from anthropogenic international shipping - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_hcho_due_to_anthropogenic_shipping`: Formaldehyde emissions from anthropogenic international shipping - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_co_due_to_anthropogenic_solvents`: Carbon monoxide emissions from anthropogenic solvents - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_no_due_to_anthropogenic_solvents`: Nitric oxide emissions from anthropogenic solvents - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_hcho_due_to_anthropogenic_solvents`: Formaldehyde emissions from anthropogenic solvents - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_co_due_to_anthropogenic_transportation`: Carbon monoxide emissions from anthropogenic surface transportation (road, rail, other) - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_no_due_to_anthropogenic_transportation`: Nitric oxide emissions from anthropogenic surface transportation (road, rail, other) - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_hcho_due_to_anthropogenic_transportation`: Formaldehyde emissions from anthropogenic surface transportation (road, rail, other) - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_co_due_to_anthropogenic_waste`: Carbon monoxide emissions from anthropogenic waste disposal and handling - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_no_due_to_anthropogenic_waste`: Nitric oxide emissions from anthropogenic waste disposal and handling - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `emissions_of_hcho_due_to_anthropogenic_waste`: Formaldehyde emissions from anthropogenic waste disposal and handling - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 ## Application-specific variables ### required framework-provided variables Required CCPP framework-provided variables * `ccpp_error_message`: Error message for error handling in CCPP - * `character(kind=len=512)`: units = none + * `character`: units = none * `ccpp_error_code`: Error code for error handling in CCPP - * `integer(kind=)`: units = 1 + * `integer`: units = 1 ### optional framework-provided variables Optional CCPP framework-provided variables * `ccpp_scheme_name`: CCPP physics scheme name - * `character(kind=len=64)`: units = none + * `character`: units = none * `ccpp_constituent_properties`: CCPP Constituent Properties - * `ccpp_constituent_prop_ptr_t(kind=)`: units = none + * `ccpp_constituent_prop_ptr_t`: units = none * `ccpp_constituents`: Array of constituents managed by CCPP Framework - * `real(kind=kind_phys)`: units = none + * `real`: units = none * `ccpp_constituent_min_values`: CCPP constituent minimum values - * `real(kind=kind_phys)`: units = none + * `real`: units = none * `number_of_ccpp_constituents`: Number of constituents managed by CCPP Framework - * `integer(kind=)`: units = count + * `integer`: units = count * `ccpp_block_count`: CCPP block count - * `integer(kind=)`: units = count + * `integer`: units = count * `ccpp_block_sizes`: CCPP block sizes - * `integer(kind=)`: units = count + * `integer`: units = count * `ccpp_thread_number`: Number of current OpenMP thread. This variable may only be used during CCPP run phase * `integer`: units = index ## system variables Variables related to the compute environment * `flag_for_mpi_root`: Flag for MPI root process - * `logical(kind=)`: units = flag + * `logical`: units = flag * `log_output_unit`: Fortran logical unit for output log file - * `integer(kind=)`: units = 1 + * `integer`: units = 1 ## GFS_typedefs_GFS_control_type * `sigma_pressure_hybrid_coordinate_a_coefficient`: Sigma pressure hybrid coordinate a coefficient - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `radiatively_active_gases_as_string`: Radiatively active gases as string - * `character(kind=len=128)`: units = none + * `character`: units = none * `aerosol_aware_multiplicative_rain_conversion_parameter_for_deep_convection`: Aerosol aware multiplicative rain conversion parameter for deep convection - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `aerosol_aware_multiplicative_rain_conversion_parameter_for_shallow_convection`: Aerosol aware multiplicative rain conversion parameter for shallow convection - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `number_of_microphysics_variables_in_xy_dimensioned_restart_array`: Number of microphysics variables in xy dimensioned restart array - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_microphysics_variables_in_xyz_dimensioned_restart_array`: Number of microphysics variables in xyz dimensioned restart array - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_random_numbers`: Number of random numbers - * `integer(kind=)`: units = count + * `integer`: units = count * `multiplicative_tuning_parameter_for_atmosphere_diffusivity`: Multiplicative tuning parameter for atmosphere diffusivity - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `atmosphere_heat_diffusivity_due_to_background`: Atmosphere heat diffusivity due to background - * `real(kind=kind_phys)`: units = m2 s-1 + * `real`: units = m2 s-1 * `max_atmosphere_heat_diffusivity_due_to_background`: Maximum atmosphere heat diffusivity due to background - * `real(kind=kind_phys)`: units = m2 s-1 + * `real`: units = m2 s-1 * `atmosphere_momentum_diffusivity_due_to_background`: Atmosphere momentum diffusivity due to background - * `real(kind=kind_phys)`: units = m2 s-1 + * `real`: units = m2 s-1 * `sigma_pressure_hybrid_coordinate_b_coefficient`: Sigma pressure hybrid coordinate b coefficient - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `cellular_automata_finer_grid`: Cellular automata finer grid - * `integer(kind=)`: units = count + * `integer`: units = count * `cellular_automata_lifetime`: Cellular automata lifetime - * `integer(kind=)`: units = count + * `integer`: units = count * `cellular_automata_seed_frequency`: Cellular automata seed frequency - * `integer(kind=)`: units = count + * `integer`: units = count * `cellular_automata_seed_probability`: Cellular automata seed probability - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `identifier_for_2018_scale_aware_tke_moist_edmf_pbl`: Identifier for 2018 scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_scale_aware_tke_moist_edmf_pbl_scheme`: Control for scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_2019_scale_aware_tke_moist_edmf_pbl`: Identifier for 2019 scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `cloud_condensate_autoconversion_threshold_coefficient`: Cloud condensate autoconversion threshold coefficient - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `cloud_condensate_autoconversion_threshold_coefficient_for_deep_convection`: Cloud condensate autoconversion threshold coefficient for deep convection - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `control_for_cloud_area_fraction_option`: Control for cloud area fraction option - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `reciprocal_of_cloud_phase_transition_temperature_range`: Reciprocal of cloud phase transition temperature range - * `real(kind=kind_phys)`: units = K-1 + * `real`: units = K-1 * `cloud_phase_transition_threshold_temperature`: Cloud phase transition threshold temperature - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `control_for_cloud_species_mixing_in_mynn_pbl_scheme`: Control for cloud species mixing in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_cloud_pdf_in_mynn_pbl_scheme`: Control for cloud probability density function in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `precipitation_evaporation_coefficient`: Precipitation evaporation coefficient - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `coefficient_for_variable_bulk_richardson_number_over_land`: Coefficient for variable bulk richardson number over land - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `coefficient_for_variable_bulk_richardson_number_over_water`: Coefficient for variable bulk richardson number over water - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `autoconversion_to_snow_coefficient`: Autoconversion to snow coefficient - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `autoconversion_to_snow_coefficient_for_deep_convection`: Autoconversion to snow coefficient for deep convection - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `autoconversion_to_rain_coefficient`: Autoconversion to rain coefficient - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `autoconversion_to_rain_coefficient_for_deep_convection`: Autoconversion to rain coefficient for deep convection - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `chemical_tracer_scavenging_fractions`: Chemical tracer scavenging fractions - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `cloud_condensate_detrainment_coefficient`: Cloud condensate detrainment coefficient - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `control_for_convective_cloud_diagnostics`: Control for convective cloud diagnostics - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `cosine_of_solar_declination_angle`: Cosine of solar declination angle - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `control_for_sgs_cloud_radiation_coupling_in_mynn_pbl_scheme`: Control for subgrid-scale cloud radiation coupling in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `tunable_parameter_for_critical_cloud_top_entrainment_instability_criteria`: Tunable parameter for critical cloud top entrainment instability criteria - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `critical_relative_humidity_at_top_of_atmosphere_boundary_layer`: Critical relative humidity at top of atmosphere boundary layer - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `critical_relative_humidity_at_surface`: Critical relative humidity at surface - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `critical_relative_humidity_at_toa`: Critical relative humidity at the top of the atmosphere - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `date_and_time_at_model_initialization_in_iso_order`: Date and time at model initialization in iso order - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `date_and_time_at_model_initialization_in_united_states_order`: Date and time at model initialization in united states order - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `decorrelation_length_used_by_overlap_method`: Decorrelation length used by overlap method - * `real(kind=kind_phys)`: units = km + * `real`: units = km * `density_of_fresh_water`: Density of fresh water - * `real(kind=kind_phys)`: units = kg m-3 + * `real`: units = kg m-3 * `depth_of_soil_layers`: Depth of soil layers - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `tunable_parameter_1_for_detrainment_and_precipitation_partitioning_in_chikira_sugiyama_deep_convection`: Tunable parameter 1 for detrainment and precipitation partitioning in chikira sugiyama deep convection - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `tunable_parameter_2_for_detrainment_and_precipitation_partitioning_in_chikira_sugiyama_deep_convection`: Tunable parameter 2 for detrainment and precipitation partitioning in chikira sugiyama deep convection - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `detrainment_conversion_parameter_for_deep_convection`: Detrainment conversion parameter for deep convection - * `real(kind=kind_phys)`: units = m-1 + * `real`: units = m-1 * `detrainment_conversion_parameter_for_shallow_convection`: Detrainment conversion parameter for shallow convection - * `real(kind=kind_phys)`: units = m-1 + * `real`: units = m-1 * `do_unified_gravity_wave_physics_diagnostics`: Do unified gravity wave physics diagnostics - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_chemical_tracer_diagnostics`: Do chemical tracer diagnostics - * `logical(kind=)`: units = flag + * `logical`: units = flag * `sigma_pressure_threshold_at_upper_extent_of_background_diffusion`: Sigma pressure threshold at upper extent of background diffusion - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `directory_for_rte_rrtmgp_source_code`: Directory for Radiative Transfer for Energetics/Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) source code - * `character(kind=len=128)`: units = none + * `character`: units = none * `do_myj_pbl_scheme`: Do Mellor-Yamada-Janjic planetary boundary layer scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_myj_surface_layer_scheme`: Do Mellor-Yamada-Janjic surface layer scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_mynn_pbl_scheme`: Do Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_mynn_surface_layer_scheme`: Do Mellor-Yamada-Nakanishi-Niino surface layer scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_unified_gravity_wave_physics_gwd_scheme`: Do Unifed Gravity Wave Physics gravity wave drag scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `downdraft_area_fraction_in_scale_aware_tke_moist_edmf_pbl_scheme`: Downdraft area fraction in scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `downdraft_fraction_reaching_surface_over_land_for_deep_convection`: Downdraft fraction reaching surface over land for deep convection - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `downdraft_fraction_reaching_surface_over_water_for_deep_convection`: Downdraft fraction reaching surface over water for deep convection - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `control_for_edmf_in_mynn_pbl_scheme`: Control for eddy-diffusivity mass flux in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_edmf_momentum_transport_in_mynn_pbl_scheme`: Control for eddy-diffusivity mass flux momentum transport in Mellor-Yamada-Nakanishi-Niino surface layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_edmf_partitioning_in_mynn_pbl_scheme`: Control for eddy-diffusivity mass flux partitioning in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_edmf_tke_transport_in_mynn_pbl_scheme`: Control for eddy-diffusivity mass flux turbulent kinetic energy transport in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `surface_layer_scheme_enthalpy_flux_factor`: Surface layer scheme enthalpy flux factor - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `tunable_parameter_for_entrainment_efficiency_in_chikira_sugiyama_deep_convection`: Tunable parameter for entrainment efficiency in chikira sugiyama deep convection - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `entrainment_rate_coefficient_for_deep_convection`: Entrainment rate coefficient for deep convection - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `entrainment_rate_coefficient_for_shallow_convection`: Entrainment rate coefficient for shallow convection - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `equation_of_time`: Equation of time - * `real(kind=kind_phys)`: units = radian + * `real`: units = radian * `relative_humidity_threshold_for_condensation`: Relative humidity threshold for condensation - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `do_arakawa_wu_downdrafts_for_deep_convection`: Do arakawa wu downdrafts for deep convection - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_debug_output`: Do debug output - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_diagnostics`: Do diagnostics - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_xyz_dimensioned_diagnostics`: Do xyz dimensioned diagnostics - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_flip`: Do flip - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_flux_adjusting_surface_data_assimilation_system`: Control for flux adjusting surface data assimilation system - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_flux_form_in_chikira_sugiyama_deep_convection_scheme`: Do flux form in chikira sugiyama deep convection scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_nrl_2015_ozone_scheme`: Do Naval Research Laboratory 2015 ozone scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_prescribed_aerosols`: Do prescribed aerosols - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_aerosol_physics`: Do aerosol physics - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_arakawa_wu_adjustment`: Do arakawa wu adjustment - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_canopy_heat_storage_in_land_surface_scheme`: Do canopy heat storage in land surface scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_land_surface_scheme_canopy_stomatal_resistance`: Control for land surface scheme canopy stomatal resistance - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_cellular_automata`: Do cellular automata - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_chemistry_coupling`: Do chemistry coupling - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_chikira_sugiyama_deep_convection_scheme`: Do chikira sugiyama deep convection scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_in_cloud_condensate`: Do in cloud condensate - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_cloud_effective_radii`: Do cloud effective radii - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_cloud_overlap_method_for_radiation`: Control for cloud overlap method for radiation - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_constant_decorrelation_length_method`: Identifier for constant decorrelation length method - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_convective_gwd`: Do convective gravity wave drag - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_convective_transport_of_tracers`: Do convective transport of tracers - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_converting_hydrometeors_from_moist_to_dry_air`: Do converting hydrometeors from moist to dry air - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_crick_elimination`: Do crick elimination - * `logical(kind=)`: units = flag + * `logical`: units = flag * `identifier_for_decorrelation_length_cloud_overlap_method`: Identifier for decorrelation length cloud overlap method - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_decorrelation_length_method`: Control for decorrelation length method - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_shortwave_radiation_aerosols`: Control for shortwave radiation aerosols - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_land_surface_scheme_dynamic_vegetation`: Control for land surface scheme dynamic vegetation - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_exponential_cloud_overlap_method`: Identifier for exponential cloud overlap method - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_exponential_random_cloud_overlap_method`: Identifier for exponential random cloud overlap method - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_fer_hires_microphysics_scheme`: Identifier for fer hires microphysics scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `is_first_timestep`: Is first timestep - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_surface_flux_coupling`: Do surface flux coupling - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_fractional_landmask`: Do fractional landmask - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_land_surface_scheme_frozen_soil_permeability`: Control for land surface scheme frozen soil permeability - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_cellular_automata_gaussian_spatial_filter`: Do cellular automata gaussian spatial filter - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_gcycle_surface_option`: Do gcycle surface option - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_generic_tendency_due_to_deep_convection`: Do generic tendency due to deep convection - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_generic_tendency_due_to_gwd`: Do generic tendency due to gravity wave drag - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_generic_tendency_due_to_pbl`: Do generic tendency due to planetary boundary layer - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_generic_tendency_due_to_shallow_convection`: Do generic tendency due to shallow convection - * `logical(kind=)`: units = flag + * `logical`: units = flag * `identifier_for_grell_freitas_deep_convection`: Identifier for grell freitas deep convection - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_grell_freitas_shallow_convection`: Identifier for grell freitas shallow convection - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_gfdl_microphysics_radiation_interaction`: Do Geophysical Fluid Dynamics Laboratory microphysics radiation interaction - * `logical(kind=)`: units = flag + * `logical`: units = flag * `identifier_for_gfdl_microphysics_scheme`: Identifier for Geophysical Fluid Dynamics Laboratory microphysics scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_global_cellular_automata`: Do global cellular automata - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_global_cellular_automata_closure`: Do global cellular automata closure - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_global_cellular_automata_deep_convective_entrainment`: Do global cellular automata deep convective entrainment - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_global_cellular_automata_trigger`: Do global cellular automata trigger - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_gwd`: Do gravity wave drag - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_land_surface_scheme_surface_snow_albedo`: Control for land surface scheme surface snow albedo - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_gsl_drag_suite_large_scale_orographic_and_blocking_drag`: Do Global Systems Lab drag suite large-scale orographic and blocking drag - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_gsl_drag_suite_small_scale_orographic_drag`: Do Global Systems Lab drag suite small-scale orographic drag - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_gsl_drag_suite_turbulent_orographic_form_drag`: Do Global Systems Lab drag suite turbulent orographic form drag - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_hybrid_edmf_pbl_scheme`: Do hybrid eddy-diffusivity/mass-flux planetary boundary layer scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `identifier_for_hogan_decorrelation_length_method`: Identifier for hogan decorrelation length method - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_hurricane_specific_code_in_scale_aware_mass_flux_deep_convection`: Do hurricane specific code in scale aware mass flux deep convection - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_hurricane_specific_code_in_scale_aware_mass_flux_shallow_convection`: Do hurricane specific code in scale aware mass flux shallow convection - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_hydrostatic_solver`: Do hydrostatic solver - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_ice_cloud_condensation_nuclei_forcing`: Control for ice cloud condensation nuclei forcing - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_separate_advection_of_condensate_species`: Do separate advection of condensate species - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_initial_time_date`: Control for initial time date - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_lake_surface_scheme`: Control for lake surface scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_land_surface_scheme`: Control for land surface scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_cloud_area_fraction_option_for_radiation`: Do cloud area fraction option for radiation - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_land_surface_scheme_lower_boundary_soil_temperature`: Control for land surface scheme lower boundary soil temperature - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_lw_clouds_subgrid_approximation`: Control for lw clouds subgrid approximation - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_deep_convection_scheme`: Control for deep convection scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_shallow_convection_scheme`: Control for shallow convection scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_max_cloud_overlap_method`: Control for maximum cloud overlap method - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_max_random_cloud_overlap_method`: Identifier for maximum random cloud overlap method - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_microphysics_scheme`: Control for microphysics scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_moorthi_stratus`: Do moorthi stratus - * `logical(kind=)`: units = flag + * `logical`: units = flag * `identifier_for_morrison_gettelman_microphysics_scheme`: Identifier for morrison gettelman microphysics scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_mountain_blocking_for_sppt`: Do mountain blocking for stochastically perturbed physics tendencies - * `logical(kind=)`: units = flag + * `logical`: units = flag * `identifier_for_noah_land_surface_scheme`: Identifier for noah land surface scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_noah_lsm_ua_extension`: Do Noah land surface model University of Arizona extension - * `logical(kind=)`: units = flag + * `logical`: units = flag * `identifier_for_noah_wrfv4_land_surface_scheme`: Identifier for noah wrfv4 land surface scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_noahmp`: Identifier for Noah land surface model with multiparameterization options - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_nsstm_analysis_in_gcycle`: Do GFS near-surface sea temperature scheme analysis in gcycle - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_nsstm`: Control for GFS near-surface sea temperature scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_new_tiedtke_deep_convection`: Identifier for new tiedtke deep convection - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_new_tiedtke_shallow_convection`: Identifier for new tiedtke shallow convection - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_surface_layer_scheme_ocean_currents`: Do surface layer scheme ocean currents - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_old_pbl_scheme`: Do old pbl scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_optical_property_for_ice_clouds_for_longwave_radiation`: Control for optical property for ice clouds for longwave radiation - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_optical_property_for_ice_clouds_for_shortwave_radiation`: Control for optical property for ice clouds for shortwave radiation - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_optical_property_for_liquid_clouds_for_longwave_radiation`: Control for optical property for liquid clouds for longwave radiation - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_optical_property_for_liquid_clouds_for_shortwave_radiation`: Control for optical property for liquid clouds for shortwave radiation - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_oreopoulos_decorrelation_length_method`: Identifier for oreopoulos decorrelation length method - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_output_of_tendency_of_air_temperature_due_to_longwave_heating_on_radiation_timestep_assuming_clear_sky`: Do output of tendency of air temperature due to longwave heating on radiation timestep assuming clear sky - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_output_of_tendency_of_air_temperature_due_to_shortwave_heating_on_radiation_timestep_assuming_clear_sky`: Do output of tendency of air temperature due to shortwave heating on radiation timestep assuming clear sky - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_nrl_2006_ozone_scheme`: Do Naval Research Laboratory 2006 ozone scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_pdf_shape_for_microphysics`: Control for probability density function shape for microphysics - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_surface_layer_scheme_surface_drag_coefficient_for_momentum_in_air_perturbations`: Do surface layer scheme surface drag coefficient for momentum in air perturbations - * `logical(kind=)`: units = flag + * `logical`: units = flag * `disable_precipitation_radiative_effect`: Disable precipitation radiative effect - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_land_surface_scheme_precipitation_type_partition`: Control for land surface scheme precipitation type partition - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_dominant_precipitation_type_partition`: Do dominant precipitation type partition - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_radar_reflectivity`: Do radar reflectivity - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_land_surface_scheme_radiative_transfer`: Control for land surface scheme radiative transfer - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_random_cloud_overlap_method`: Identifier for random cloud overlap method - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_random_clouds_in_relaxed_arakawa_schubert_deep_convection`: Do random clouds in relaxed arakawa schubert deep convection - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_relaxed_arakawa_schubert_deep_convection`: Do relaxed arakawa schubert deep convection - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_read_leaf_area_index_from_input`: Do read leaf area index from input - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_read_surface_albedo_for_diffused_shortwave_from_input`: Do read surface albedo for diffused shortwave from input - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_limited_roughness_length_over_ocean`: Do limited surface roughness length over ocean - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_reference_pressure_theta`: Do reference pressure theta - * `logical(kind=)`: units = flag + * `logical`: units = flag * `is_restart`: Is restart - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_rrtmgp_radiation_scheme`: Flag for Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) radiation scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `identifier_for_ruc_land_surface_scheme`: Identifier for Rapid Update Cycle land surface scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_land_surface_scheme_runoff_and_groundwater`: Control for land surface scheme runoff and groundwater - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_scale_aware_mass_flux_deep_convection`: Identifier for scale aware mass flux deep convection - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_scale_aware_mass_flux_shallow_convection`: Identifier for scale aware mass flux shallow convection - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_sas_deep_convection`: Identifier for Simplified Arakawa-Schubert deep convection scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_sas_shallow_convection`: Identifier for Simplified Arakawa-Schubert shallow convection scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_scale_aware_mass_flux_deep_convection`: Do scale aware mass flux deep convection - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_scale_aware_shin_hong_pbl_scheme`: Do scale aware shin hong pbl scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_scale_aware_tke_moist_edmf_pbl`: Do scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_sgs_cellular_automata`: Do sgs cellular automata - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_sas_shallow_convection`: Do Simplified Arakawa-Schubert shallow convection scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_shoc`: Do Simplified Higher-Order Closure stochastic physics scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_shoc_after_convection`: Do Simplified Higher-Order Closure stochastic physics scheme after convection parameterization - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_land_surface_scheme_soil_and_snow_temperature_time_integration`: Control for land surface scheme soil and snow temperature time integration - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_land_surface_scheme_soil_moisture_factor_stomatal_resistance`: Control for land surface scheme soil moisture factor stomatal resistance - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_solar_constant`: Control for solar constant - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_stochastic_cloud_fraction_perturbations`: Do stochastic cloud fraction perturbations - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_stochastic_microphysics_perturbations`: Do stochastic microphysics perturbations - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_stochastic_physics_perturbations`: Do stochastic physics perturbations - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_stochastic_radiative_heating_perturbations`: Do stochastic radiative heating perturbations - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_stochastic_shum_option`: Do Stochastic HUMidity stochastic physics option - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_stochastic_skeb_option`: Do Stochastic Kinetic Energy Backscatter option - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_stratospheric_water_vapor_physics`: Do stratospheric water vapor physics - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_land_surface_scheme_supercooled_liquid_water`: Control for land surface scheme supercooled liquid water - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_surface_emissivity`: Control for surface emissivity - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_land_surface_scheme_surface_layer_drag_coefficient`: Control for land surface scheme surface layer drag coefficient - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_surface_roughness_option_over_water`: Control for surface roughness option over water - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_sw_clouds_subgrid_approximation`: Control for sw clouds subgrid approximation - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_land_surface_scheme_thermal_conductivity_option`: Control for land surface scheme thermal conductivity option - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_thompson_microphysics_scheme`: Identifier for thompson microphysics scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_ugwp_version_0`: Do Unified Gravity Wave Physics version 0 - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_ugwp_version_0_nonorographic_gwd`: Do Unified Gravity Wave Physics version 0 non-orographic gravity wave drag - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_ugwp_version_0_orographic_gwd`: Do Unified Gravity Wave Physics version 0 orographic gravity wave drag - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_ugwp_version_1`: Do Unified Gravity Wave Physics version 1 - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_ugwp_version_1_nonorographic_gwd`: Do Unified Gravity Wave Physics version 1 non-orographic gravity wave drag - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_ugwp_version_1_orographic_gwd`: Do Unified Gravity Wave Physics version 1 orographic gravity wave drag - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_shoc_cloud_area_fraction_for_radiation`: Do Simplified Higher-Order Closure stochastic physics scheme cloud area fraction for radiation - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_surface_layer_scheme_skin_temperature_update`: Control for surface layer scheme skin temperature update - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_surface_albedo`: Control for surface albedo - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_prescribed_co2`: Control for prescribed co2 - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_vertical_index_direction`: Control for vertical index direction - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_ocean_wave_coupling`: Do ocean wave coupling - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_one_way_ocean_wave_coupling_to_atmosphere`: Do one way ocean wave coupling to atmosphere - * `logical(kind=)`: units = flag + * `logical`: units = flag * `identifier_for_wsm6_microphysics_scheme`: Identifier for wsm6 microphysics scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_ysu_pbl_scheme`: Do Yonsei University (YSU) planetary boundary layer scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `identifier_for_zhao_carr_microphysics_scheme`: Identifier for zhao carr microphysics scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `identifier_for_zhao_carr_pdf_microphysics_scheme`: Identifier for Zhao-Carr probability density function microphysics scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `do_hurricane_specific_code_in_hybrid_edmf_pbl_scheme`: Do hurricane-specific code in hybrid eddy-diffusivity/mass-flux planetary boundary layer scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_integrated_dynamics_through_earths_atmosphere`: Do integrated dynamics through earths atmosphere - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_print`: Do print - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_save_shallow_convective_cloud_area_fraction`: Do save shallow convective cloud area fraction - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_tke_dissipation_heating`: Do tke dissipation heating - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_call_longwave_radiation`: Do call longwave radiation - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_rrtmg_cloud_optics`: Flag for Rapid Radiative Transfer Model for General circulation model applications (RRTMG) cloud optics - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_rrtmgp_cloud_optics_lookup_table`: Flag for Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) cloud optics lookup table - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_rrtmgp_cloud_optics_with_pade_approximation`: Flag for Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) with Pade approximation - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_rrtmgp_longwave_jacobian`: Flag for Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) longwave jacobian - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_call_shortwave_radiation`: Do call shortwave radiation - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_longwave_scattering_in_cloud_optics`: Do longwave scattering in cloud optics - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_tracer_xyz_dimensioned_diagnostics`: Do tracer xyz dimensioned diagnostics - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_variable_bulk_richardson_number`: Control for variable bulk richardson number - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `date_and_time_of_forecast_in_united_states_order`: Date and time of forecast in united states order - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `forecast_utc_hour`: Forecast utc hour - * `real(kind=kind_phys)`: units = h + * `real`: units = h * `forecast_time`: Forecast time - * `real(kind=kind_phys)`: units = h + * `real`: units = h * `forecast_time_on_previous_timestep`: Forecast time on previous timestep - * `real(kind=kind_phys)`: units = h + * `real`: units = h * `period_of_longwave_radiation_calls`: Period of longwave radiation calls - * `real(kind=kind_phys)`: units = s + * `real`: units = s * `period_of_shortwave_radiation_calls`: Period of shortwave radiation calls - * `real(kind=kind_phys)`: units = s + * `real`: units = s * `all_ice_cloud_threshold_temperature`: All ice cloud threshold temperature - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `control_for_gravitational_settling_of_cloud_droplets`: Control for gravitational settling of cloud droplets - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_drag_suite_gwd`: Control for drag option in gravity wave drag scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `horizontal_loop_extent`: Horizontal loop extent - * `integer(kind=)`: units = count + * `integer`: units = count * `period_of_diagnostics_reset`: Period of diagnostics reset - * `real(kind=kind_phys)`: units = h + * `real`: units = h * `tunable_parameter_for_ice_supersaturation`: Tunable parameter for ice supersaturation - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `index_of_ice_vegetation_category`: Index of ice vegetation category - * `integer(kind=)`: units = index + * `integer`: units = index * `vertical_dimension_of_sea_ice`: Vertical dimension of sea ice - * `integer(kind=)`: units = count + * `integer`: units = count * `index_of_air_temperature_on_previous_timestep_in_xyz_dimensioned_restart_array`: Index of air temperature on previous timestep in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_air_temperature_two_timesteps_back_in_xyz_dimensioned_restart_array`: Index of air temperature two timesteps back in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_nonconvective_cloud_area_fraction_in_atmosphere_layer_in_tracer_concentration_array`: Index of nonconvective cloud area fraction in atmosphere layer in tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_nonconvective_cloud_area_fraction_in_atmosphere_layer_in_xyz_dimensioned_restart_array`: Index of nonconvective cloud area fraction in atmosphere layer in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_cloud_liquid_water_effective_radius_in_xyz_dimensioned_restart_array`: Index of cloud liquid water effective radius in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_convective_cloud_area_fraction_in_xyz_dimensioned_restart_array`: Index of convective cloud area fraction in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_convective_cloud_condensate_mixing_ratio_wrt_moist_air_in_xyz_dimensioned_restart_array`: Index of convective cloud condensate mass mixing ratio with respect to moist air in the XYZ-dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_horizontal_gridpoint_for_debug_output`: Index of horizontal gridpoint for debug output - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_first_chemical_tracer_in_tracer_concentration_array`: Index of first chemical tracer in tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_graupel_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of graupel mass mixing ratio with respect to moist air in the tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_graupel_effective_radius_in_xyz_dimensioned_restart_array`: Index of graupel effective radius in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_mass_number_concentration_of_graupel_in_tracer_concentration_array`: Index of mass number concentration of graupel in tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_cloud_ice_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of cloud ice mass mixing ratio with respect to moist air in the tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_mass_number_concentration_of_cloud_ice_in_tracer_concentration_array`: Index of mass number concentration of cloud ice in tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_cloud_ice_effective_radius_in_xyz_dimensioned_restart_array`: Index of cloud ice effective radius in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols_in_tracer_concentration_array`: Index of mass number concentration of nonhygroscopic ice nucleating aerosols in tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_cloud_liquid_water_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of cloud liquid water mass mixing ratio with respect to moist air in the tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_mass_number_concentration_of_cloud_droplets_in_tracer_concentration_array`: Index of mass number concentration of cloud droplets in tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_mass_weighted_rime_factor_in_tracer_concentration_array`: Index of mass weighted rime factor in tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_ozone_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of ozone mass mixing ratio with respect to moist air in the tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_rain_effective_radius_in_xyz_dimensioned_restart_array`: Index of rain effective radius in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_mass_number_concentration_of_rain_in_tracer_concentration_array`: Index of mass number concentration of rain in tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_rain_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of rain mass mixing ratio with respect to moist air in the tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_snow_effective_radius_in_xyz_dimensioned_restart_array`: Index of snow effective radius in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_mass_number_concentration_of_snow_in_tracer_concentration_array`: Index of mass number concentration of snow in tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_snow_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of snow mass mixing ratio with respect to moist air in the tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_water_vapor_mixing_ratio_wrt_moist_air_on_previous_timestep_in_xyz_dimensioned_restart_array`: Index of specific humidity (water vapor mass mixing ratio with respect to moist air) on previous timestep in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_water_vapor_mixing_ratio_wrt_moist_air_two_timesteps_back_in_xyz_dimensioned_restart_array`: Index of specific humidity (water vapor mass mixing ratio with respect to moist air) two timesteps back in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `control_for_stochastic_land_surface_perturbation`: Control for stochastic land surface perturbation - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `index_of_air_pressure_at_surface_on_previous_timestep_in_xyz_dimensioned_restart_array`: Index of air pressure at surface on previous timestep in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_air_pressure_at_surface_two_timesteps_back_in_xyz_dimensioned_tracer_array`: Index of air pressure at surface two timesteps back in xyz dimensioned tracer array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_enhancement_to_wind_speed_at_surface_adjacent_layer_due_to_convectionin_in_xy_dimensioned_restart_array`: Index of enhancement to wind speed at surface adjacent layer due to convectionin in xy dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_tke_in_tracer_concentration_array`: Index of turbulent kinetic energy in tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_mass_number_concentration_of_hygroscopic_aerosols_in_tracer_concentration_array`: Index of mass number concentration of hygroscopic aerosols in tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_water_vapor_mixing_ratio_wrt_moist_air_in_tracer_concentration_array`: Index of specific humidity (water vapor mass mixing ratio with respect to moist air) in tracer concentration array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_atmosphere_heat_diffusivity_in_xyz_dimensioned_restart_array`: Index of atmosphere heat diffusivity in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_upward_virtual_potential_temperature_flux_in_xyz_dimensioned_restart_array`: Index of upward virtual potential temperature flux in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_subgrid_cloud_area_fraction_in_atmosphere_layer_in_xyz_dimensioned_restart_array`: Index of subgrid cloud area fraction in atmosphere layer in xyz dimensioned restart array - * `integer(kind=)`: units = index + * `integer`: units = index * `index_of_timestep`: Index of timestep - * `integer(kind=)`: units = index + * `integer`: units = index * `reciprocal_of_grid_scale_range`: Reciprocal of grid scale range - * `real(kind=kind_phys)`: units = rad2 m-2 + * `real`: units = rad2 m-2 * `iounit_of_log`: Iounit of log - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `iounit_of_namelist`: Iounit of namelist - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `forecast_julian_day`: Forecast julian day - * `real(kind=kind_phys)`: units = days + * `real`: units = days * `min_lake_ice_area_fraction`: Min lake ice area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `multiplicative_tuning_parameter_for_reduced_latent_heat_flux_due_to_canopy_heat_storage`: Multiplicative tuning parameter for reduced latent heat flux due to canopy heat storage - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `max_tendency_of_potential_temperature_of_air_due_to_large_scale_precipitation`: Maximum tendency of air potential temperature due to large-scale precipitation - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `lower_bound_of_vertical_dimension_of_surface_snow`: Lower bound of vertical dimension of surface snow - * `integer(kind=)`: units = count + * `integer`: units = count * `land_surface_perturbation_magnitudes`: Land surface perturbation magnitudes - * `real(kind=kind_phys)`: units = variable + * `real`: units = variable * `max_critical_relative_humidity`: Maximum critical relative humidity - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `max_grid_scale`: Maximum grid scale - * `real(kind=kind_phys)`: units = m2 rad-2 + * `real`: units = m2 rad-2 * `max_soil_moisture_content_for_lsm`: Maximum soil moisture content for land surface model - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `do_allow_supersaturation_after_sedimentation`: Do allow supersaturation after sedimentation - * `logical(kind=)`: units = flag + * `logical`: units = flag * `autoconversion_to_snow_size_threshold`: Autoconversion to snow size threshold - * `real(kind=kind_phys)`: units = um + * `real`: units = um * `bergeron_findeisen_process_efficiency_factor`: Bergeron findeisen process efficiency factor - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `relative_variance_of_subgrid_cloud_condensate_distribution`: Relative variance of subgrid cloud condensate distribution - * `real(kind=kind_phys)`: units = kg2 kg-2 + * `real`: units = kg2 kg-2 * `prescribed_number_concentration_of_cloud_droplets`: Prescribed number concentration of cloud droplets - * `real(kind=kind_phys)`: units = m-3 + * `real`: units = m-3 * `do_prescribed_number_concentration_of_cloud_droplets`: Do prescribed number concentration of cloud droplets - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_cloud_ice_processes`: Do cloud ice processes - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_gmao_autoconversion_to_snow`: Do gmao autoconversion to snow - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_graupel_instead_of_hail`: Do graupel instead of hail - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_hail_instead_of_graupel`: Do hail instead of graupel - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_heterogeneous_nucleation`: Do heterogeneous nucleation - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_liu_autoconversion_to_rain`: Do liu autoconversion to rain - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_seifert_and_beheng_2001_autoconversion`: Do seifert and beheng 2001 autoconversion - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_uniform_subcolumns`: Do uniform subcolumns - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_prescribed_number_concentration_of_graupel`: Do prescribed number concentration of graupel - * `logical(kind=)`: units = flag + * `logical`: units = flag * `do_prescribed_number_concentration_of_cloud_ice`: Do prescribed number concentration of cloud ice - * `logical(kind=)`: units = flag + * `logical`: units = flag * `prescribed_number_concentration_of_graupel`: Prescribed number concentration of graupel - * `real(kind=kind_phys)`: units = m-3 + * `real`: units = m-3 * `prescribed_number_concentration_of_cloud_ice`: Prescribed number concentration of cloud ice - * `real(kind=kind_phys)`: units = m-3 + * `real`: units = m-3 * `min_cloud_condensate_mixing_ratio_wrt_moist_air_threshold`: Minimum threshold cloud condensate mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `min_cloud_liquid_water_mixing_ratio_wrt_moist_air_threshold`: Minimum threshold cloud liquid water mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `min_cloud_ice_mixing_ratio_wrt_moist_air_threshold`: Minimum threshold cloud ice mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `relative_humidity_threshold_for_ice_nucleation`: Relative humidity threshold for ice nucleation - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `timescale_for_autoconversion_to_snow`: Timescale for autoconversion to snow - * `real(kind=kind_phys)`: units = s + * `real`: units = s * `alpha_tuning_coefficient_for_morrison_gettelman_microphysics_scheme`: Alpha tuning coefficient for morrison gettelman microphysics scheme - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `control_for_precipitation_area_fraction_method`: Control for precipitation area fraction method - * `character(kind=len=16)`: units = none + * `character`: units = none * `min_large_ice_fraction`: Minimum large ice fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `min_pressure_in_rrtmgp`: Minimum pressure in Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `min_grid_scale`: Min grid scale - * `real(kind=kind_phys)`: units = m2 rad-2 + * `real`: units = m2 rad-2 * `min_soil_moisture_content_for_lsm`: Minimum soil moisture content for land surface model - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `min_temperature_in_rrtmgp`: Minimum temperature in Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `control_for_total_water_mixing_in_mynn_pbl_scheme`: Control for total water mixing in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_mixing_length_in_mynn_pbl_scheme`: Control for mixing length in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `momentum_transport_reduction_factor_due_to_pressure_gradient_force_for_deep_convection`: Momentum transport reduction factor due to pressure gradient force for deep convection - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `momentum_transport_reduction_factor_due_to_pressure_gradient_force_for_shallow_convection`: Momentum transport reduction factor due to pressure gradient force for shallow convection - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `mpi_communicator`: Mpi communicator - * `integer(kind=)`: units = index + * `integer`: units = index * `mpi_rank`: Mpi rank - * `integer(kind=)`: units = index + * `integer`: units = index * `mpi_root`: Mpi root - * `integer(kind=)`: units = index + * `integer`: units = index * `number_of_mpi_tasks`: Number of mpi tasks - * `integer(kind=)`: units = count + * `integer`: units = count * `tunable_parameter_for_critical_cloud_workfunction_in_relaxed_arakawa_schubert_deep_convection`: Tunable parameter for critical cloud workfunction in relaxed arakawa schubert deep convection - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `tunable_parameters_for_convective_gwd`: Tunable parameters for convective gravity wave drag - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `multiplicative_tunable_parameters_for_mountain_blocking_and_orographic_gwd`: Multiplicative tunable parameters for mountain blocking and orographic gravity wave drag - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `control_for_additional_diagnostics_in_mynn_pbl_scheme`: Control for additional diagnostics in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `filename_of_namelist`: Filename of namelist - * `character(kind=len=64)`: units = none + * `character`: units = none * `filename_of_internal_namelist`: Filename of internal namelist - * `character(kind=len=256)`: units = none + * `character`: units = none * `number_of_xy_dimensioned_auxiliary_arrays`: Number of xy dimensioned auxiliary arrays - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_pdf_based_variables_in_xyz_dimensioned_restart_array`: Number of probability density function-based variables in XYZ-dimensioned restart array - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_xyz_dimensioned_auxiliary_arrays`: Number of xyz dimensioned auxiliary arrays - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_radiatively_active_gases`: Number of radiatively active gases - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_aerosol_tracers`: Number of aerosol tracers - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_gaussian_quadrature_angles_for_radiation`: Number of gaussian quadrature angles for radiation - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_chemical_tracers`: Number of chemical tracers - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_condensate_species`: Number of condensate species - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_cloud_types_in_chikira_sugiyama_deep_convection`: Number of cloud types in chikira sugiyama deep convection - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_convective_cloud_variables_in_xyz_dimensioned_restart_array`: Number of convective cloud variables in xyz dimensioned restart array - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_days_in_current_year`: Number of days in current year - * `integer(kind=)`: units = days + * `integer`: units = days * `number_of_equatorial_longitude_points`: Number of equatorial longitude points - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_variables_in_xy_dimensioned_restart_array`: Number of variables in xy dimensioned restart array - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_variables_in_xyz_dimensioned_restart_array`: Number of variables in xyz dimensioned restart array - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_frozen_precipitation_species`: Number of frozen precipitation species - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_hydrometeors`: Number of hydrometeors - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_independent_cellular_automata`: Number of independent cellular automata - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_iterations_to_spin_up_cellular_automata`: Number of iterations to spin up cellular automata - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_perturbed_land_surface_variables`: Number of perturbed land surface variables - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_latitude_points`: Number of latitude points - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_lines_in_internal_namelist`: Number of lines in internal namelist - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_longwave_bands`: Number of longwave bands - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_longwave_spectral_points`: Number of longwave spectral points - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_x_points_for_current_cubed_sphere_tile`: Number of x points for current cubed sphere tile - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_x_points_for_current_mpi_rank`: Number of x points for current mpi rank - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_y_points_for_current_cubed_sphere_tile`: Number of y points for current cubed sphere tile - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_y_points_for_current_mpi_rank`: Number of y points for current mpi rank - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_diagnostics_variables_for_radiation`: Number of diagnostics variables for radiation - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_ice_roughness_categories`: Number of ice roughness categories - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_spectral_wave_truncation_for_sas_convection`: Number of spectral wave truncation for Simplified Arakawa-Schubert deep convection scheme - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_statistical_measures_of_subgrid_orography`: Number of statistical measures of subgrid orography - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_shortwave_bands`: Number of shortwave bands - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_shortwave_spectral_points`: Number of shortwave spectral points - * `integer(kind=)`: units = count + * `integer`: units = count * `index_of_cubed_sphere_tile`: Index of cubed sphere tile - * `integer(kind=)`: units = index + * `integer`: units = index * `number_of_timesteps_between_diagnostics_resetting`: Number of timesteps between diagnostics resetting - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_timesteps_between_longwave_radiation_calls`: Number of timesteps between longwave radiation calls - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_timesteps_between_shortwave_radiation_calls`: Number of timesteps between shortwave radiation calls - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_timesteps_between_surface_cycling_calls`: Number of timesteps between surface cycling calls - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_timesteps_for_concurrent_radiation_and_remainder_physics_calls_after_model_initialization`: Number of timesteps for concurrent radiation and remainder physics calls after model initialization - * `integer(kind=)`: units = count + * `integer`: units = count * `number_of_tracers_plus_one`: Number of tracers plus one - * `integer(kind=)`: units = count + * `integer`: units = count * `vertical_dimension_for_radiation`: Vertical dimension for radiation - * `integer(kind=)`: units = count + * `integer`: units = count * `vertical_interface_dimension_for_radiation`: Vertical interface dimension for radiation - * `integer(kind=)`: units = count + * `integer`: units = count * `multiplicative_tuning_parameter_for_potential_evaporation`: Multiplicative tuning parameter for potential evaporation - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `air_pressure_at_bottom_extent_of_rayleigh_damping`: Air pressure at bottom extent of rayleigh damping - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `rain_conversion_parameter_for_deep_convection`: Rain conversion parameter for deep convection - * `real(kind=kind_phys)`: units = m-1 + * `real`: units = m-1 * `rain_conversion_parameter_for_shallow_convection`: Rain conversion parameter for shallow convection - * `real(kind=kind_phys)`: units = m-1 + * `real`: units = m-1 * `rain_evaporation_coefficient_over_ocean_for_deep_convection`: Rain evaporation coefficient over ocean for deep convection - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `rain_evaporation_coefficient_over_land_for_deep_convection`: Rain evaporation coefficient over land for deep convection - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `filename_of_rrtmgp_longwave_cloud_optics_coefficients`: File name of Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) longwave cloud optics coefficients - * `character(kind=len=128)`: units = none + * `character`: units = none * `filename_of_rrtmgp_shortwave_cloud_optics_coefficients`: File name of Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) shortwave cloud optics coefficients - * `character(kind=len=128)`: units = none + * `character`: units = none * `filename_of_rrtmgp_longwave_k_distribution`: File name of Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) longwave k-distribution - * `character(kind=len=128)`: units = none + * `character`: units = none * `filename_of_rrtmgp_shortwave_k_distribution`: File name of Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) shortwave k-distribution - * `character(kind=len=128)`: units = none + * `character`: units = none * `do_rrtmgp_shortwave_and_rrtmg_longwave_radiation`: Flag for Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) shortwave and Rapid Radiative Transfer Model for global climate model (GCM) applications (RRTMG) longwave radiation schemes - * `logical(kind=)`: units = flag + * `logical`: units = flag * `min_sea_ice_area_fraction`: Min sea ice area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `forecast_time_in_seconds`: Forecast time in seconds - * `real(kind=kind_phys)`: units = s + * `real`: units = s * `random_number_seed_for_cellular_automata`: Random number seed for cellular automata - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `random_number_seed_for_deep_convection`: Random number seed for deep convection - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `control_for_tke_dissipation_method`: Control for tke dissipation method - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `uncentering_coefficient_for_implicit_tke_integration`: Uncentering coefficient for implicit tke integration - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `pressure_threshold_for_increased_tke_dissipation`: Pressure threshold for increased tke dissipation - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `multiplicative_tunable_parameter_for_tke_dissipation`: Multiplicative tunable parameter for tke dissipation - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `multiplicative_tunable_parameter_for_tke_dissipation_at_surface_adjacent_layer`: Multiplicative tunable parameter for tke dissipation at surface adjacent layer - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `sine_of_solar_declination_angle`: Sine of solar declination angle - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `vertical_dimension_of_surface_snow`: Vertical dimension of surface snow - * `integer(kind=)`: units = count + * `integer`: units = count * `control_for_soil_type_dataset`: Control for soil type dataset - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `vertical_dimension_of_soil`: Vertical dimension of soil - * `integer(kind=)`: units = count + * `integer`: units = count * `vertical_dimension_of_soil_internal_to_land_surface_scheme`: Vertical dimension of soil internal to land surface scheme - * `integer(kind=)`: units = count + * `integer`: units = count * `solar_constant`: Solar constant - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `starting_x_index_for_current_mpi_rank`: Starting x index for current mpi rank - * `integer(kind=)`: units = index + * `integer`: units = index * `starting_y_index_for_current_mpi_rank`: Starting y index for current mpi rank - * `integer(kind=)`: units = index + * `integer`: units = index * `multiplicative_tuning_parameter_for_reduced_surface_heat_fluxes_due_to_canopy_heat_storage`: Multiplicative tuning parameter for reduced surface heat fluxes due to canopy heat storage - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `thickness_of_soil_layers_for_lsm`: Thickness of soil layers for land surface model - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `cellular_automata_vertical_velocity_perturbation_threshold_for_deep_convection`: Cellular automata vertical velocity perturbation threshold for deep convection - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `period_of_max_diagnostics_reset`: Period of maximum diagnostics reset - * `real(kind=kind_phys)`: units = s + * `real`: units = s * `timescale_for_rayleigh_damping`: Timescale for rayleigh damping - * `real(kind=kind_phys)`: units = d + * `real`: units = d * `time_elapsed_since_diagnostics_reset`: Time elapsed since diagnostics reset - * `real(kind=kind_phys)`: units = h + * `real`: units = h * `timestep_for_dynamics`: Timestep for dynamics - * `real(kind=kind_phys)`: units = s + * `real`: units = s * `do_tke_advection`: Do tke advection - * `logical(kind=)`: units = flag + * `logical`: units = flag * `control_for_tke_budget_output`: Control for tke budget output - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `multiplicative_tuning_parameter_for_tke_dissipative_heating`: Multiplicative tuning parameter for tke dissipative heating - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `total_amplitude_of_sppt_perturbation`: Total amplitude of stochastically perturbed physics tendencies perturbation - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `do_turbulent_orographic_form_drag_in_unified_gravity_wave_physics_gwd_scheme`: Do turbulent orographic form drag in Unified Gravity Wave Physics gravity wave drag scheme - * `logical(kind=)`: units = flag + * `logical`: units = flag * `updraft_area_fraction_in_scale_aware_tke_moist_edmf_pbl_scheme`: Updraft area fraction in scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux planetary boundary layer scheme - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `tunable_parameter_1_for_max_cloud_base_updraft_velocity_in_chikira_sugiyama_deep_convection`: Tunable parameter 1 for max cloud base updraft velocity in chikira sugiyama deep convection - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `tunable_parameter_2_for_max_cloud_base_updraft_velocity_in_chikira_sugiyama_deep_convection`: Tunable parameter 2 for max cloud base updraft velocity in chikira sugiyama deep convection - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `upper_bound_of_vertical_dimension_of_surface_snow`: Upper bound of vertical dimension of surface snow - * `integer(kind=)`: units = count + * `integer`: units = count * `index_of_urban_vegetation_category`: Index of urban vegetation category - * `integer(kind=)`: units = index + * `integer`: units = index * `land_surface_perturbation_variables`: Land surface perturbation variables - * `character(kind=len=3)`: units = none + * `character`: units = none * `control_for_vegetation_dataset`: Control for vegetation dataset - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `vertical_layer_dimension_minus_one`: Vertical layer dimension minus one - * `integer(kind=)`: units = count + * `integer`: units = count * `sigma_pressure_hybrid_vertical_coordinate`: Sigma pressure hybrid vertical coordinate - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `lower_bound_for_depth_of_sea_temperature_for_nsstm`: Lower bound for depth of sea temperature for GFS near-surface sea temperature scheme - * `integer(kind=)`: units = mm + * `integer`: units = mm * `upper_bound_for_depth_of_sea_temperature_for_nsstm`: Upper bound for depth of sea temperature for GFS near-surface sea temperature scheme - * `integer(kind=)`: units = mm + * `integer`: units = mm * `index_of_water_vegetation_category`: Index of water vegetation category - * `integer(kind=)`: units = index + * `integer`: units = index * `filename_of_micm_configuration`: Filename of micm configuration - * `character(kind=len=*)`: units = none + * `character`: units = none ## GFS_typedefs_GFS_interstitial_type * `cloud_ice_mixing_ratio_wrt_moist_air_interstitial`: Cloud ice mass mixing ratio with respect to moist air in interstitial scheme - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `cloud_liquid_water_mixing_ratio_wrt_moist_air_interstitial`: Cloud liquid water mass mixing ratio with respect to moist air in interstitial scheme - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `radiatively_active_gases`: Radiatively active gases - * `character(kind=len=128)`: units = none + * `character`: units = none * `process_split_cumulative_tendency_of_air_temperature`: Process split cumulative tendency of air temperature - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `process_split_cumulative_tendency_of_mass_number_concentration_of_cloud_liquid_water_particles_in_air`: Process split cumulative tendency of mass number concentration of cloud liquid water particles in air - * `real(kind=kind_phys)`: units = kg-1 s-1 + * `real`: units = kg-1 s-1 * `process_split_cumulative_tendency_of_graupel_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of the graupel mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 s-1 + * `real`: units = kg kg-1 s-1 * `process_split_cumulative_tendency_of_cloud_ice_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of the cloud ice mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 s-1 + * `real`: units = kg kg-1 s-1 * `process_split_cumulative_tendency_of_mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols`: Process split cumulative tendency of mass number concentration of nonhygroscopic ice nucleating aerosols - * `real(kind=kind_phys)`: units = kg-1 s-1 + * `real`: units = kg-1 s-1 * `process_split_cumulative_tendency_of_mass_number_concentration_of_cloud_ice_water_crystals_in_air`: Process split cumulative tendency of mass number concentration of cloud ice water crystals in air - * `real(kind=kind_phys)`: units = kg-1 s-1 + * `real`: units = kg-1 s-1 * `process_split_cumulative_tendency_of_cloud_liquid_water_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of the cloud liquid water mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 s-1 + * `real`: units = kg kg-1 s-1 * `process_split_cumulative_tendency_of_ozone_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of the ozone mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 s-1 + * `real`: units = kg kg-1 s-1 * `process_split_cumulative_tendency_of_rain_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of the rain mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 s-1 + * `real`: units = kg kg-1 s-1 * `process_split_cumulative_tendency_of_snow_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of the snow mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 s-1 + * `real`: units = kg kg-1 s-1 * `process_split_cumulative_tendency_of_tracers`: Process split cumulative tendency of tracers - * `real(kind=kind_phys)`: units = kg kg-1 s-1 + * `real`: units = kg kg-1 s-1 * `process_split_cumulative_tendency_of_tke`: Process-split cumulative change in turbulent kinetic energy per unit time - * `real(kind=kind_phys)`: units = J s-1 + * `real`: units = J s-1 * `process_split_cumulative_tendency_of_mass_number_concentration_of_hygroscopic_aerosols`: Process split cumulative tendency of mass number concentration of hygroscopic aerosols - * `real(kind=kind_phys)`: units = kg-1 s-1 + * `real`: units = kg-1 s-1 * `process_split_cumulative_tendency_of_water_vapor_mixing_ratio_wrt_moist_air`: Process-split cumulative tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) - * `real(kind=kind_phys)`: units = kg kg-1 s-1 + * `real`: units = kg kg-1 s-1 * `process_split_cumulative_tendency_of_x_wind`: Process split cumulative tendency of x wind - * `real(kind=kind_phys)`: units = m s-2 + * `real`: units = m s-2 * `process_split_cumulative_tendency_of_y_wind`: Process split cumulative tendency of y wind - * `real(kind=kind_phys)`: units = m s-2 + * `real`: units = m s-2 * `vertical_interface_dimension_interstitial`: Vertical interface dimension interstitial - * `integer(kind=)`: units = count + * `integer`: units = count ## GFS_typedefs_GFS_tbd_type * `absolute_momentum_flux_due_to_nonorographic_gwd`: Absolute momentum flux due to non-orographic gravity wave drag - * `real(kind=kind_phys)`: units = various -* `cumulative_lwe_thickness_of_convective_precipitation_amount_between_sw_radiation_calls`: Cumulative liquid water equivalent thickness of convective precipitation amount between shortwave radiation calls - * `real(kind=kind_phys)`: units = m + * `real`: units = various +* `cumulative_lwe_thickness_of_convective_precipitation_between_sw_radiation_calls`: Cumulative liquid water equivalent thickness of convective precipitation amount between shortwave radiation calls + * `real`: units = m * `mass_number_concentration_of_aerosol_from_gocart_climatology`: Mass number concentration of aerosol from gocart climatology - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `air_temperature_on_previous_timestep_in_xyz_dimensioned_restart_array`: Air temperature on previous timestep in xyz dimensioned restart array - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `air_temperature_two_timesteps_back`: Air temperature two timesteps back - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `atmosphere_boundary_layer_thickness`: Atmosphere boundary layer thickness - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `atmosphere_heat_diffusivity_from_shoc`: Atmospheric heat diffusivity from Simplified Higher-Order Closure stochastic physics scheme - * `real(kind=kind_phys)`: units = m2 s-1 + * `real`: units = m2 s-1 * `atmosphere_updraft_convective_mass_flux_at_cloud_base_by_cloud_type`: Atmosphere updraft convective mass flux at cloud base by cloud type - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `cloud_fraction_for_mg`: Cloud fraction for mg - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `counter_for_grell_freitas_convection`: Counter for grell freitas convection - * `integer(kind=)`: units = count + * `integer`: units = count * `convective_cloud_area_fraction`: Convective cloud area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `convective_cloud_condensate_mixing_ratio_wrt_moist_air`: Convective cloud condensate mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `effective_radius_of_stratiform_cloud_graupel_particle`: Effective radius of stratiform cloud graupel particle - * `real(kind=kind_phys)`: units = um + * `real`: units = um * `effective_radius_of_stratiform_cloud_ice_particle`: Effective radius of stratiform cloud ice particle - * `real(kind=kind_phys)`: units = um + * `real`: units = um * `effective_radius_of_stratiform_cloud_liquid_water_particle`: Effective radius of stratiform cloud liquid water particle - * `real(kind=kind_phys)`: units = um + * `real`: units = um * `effective_radius_of_stratiform_cloud_rain_particle`: Effective radius of stratiform cloud rain particle - * `real(kind=kind_phys)`: units = um + * `real`: units = um * `effective_radius_of_stratiform_cloud_snow_particle`: Effective radius of stratiform cloud snow particle - * `real(kind=kind_phys)`: units = um + * `real`: units = um * `stratospheric_water_vapor_forcing`: Stratospheric water vapor forcing - * `real(kind=kind_phys)`: units = various + * `real`: units = various * `heat_exchange_coefficient_for_myj_schemes`: Heat exchange coefficient for Mellor-Yamada-Janjic physics schemes - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `ice_nucleation_number_from_climatology`: Ice nucleation number from climatology - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `upward_virtual_potential_temperature_flux`: Upward virtual potential temperature flux - * `real(kind=kind_phys)`: units = K m s-1 + * `real`: units = K m s-1 * `upward_flux_of_water_vapor_mixing_ratio_wrt_moist_air_at_surface_for_myj_surface_layer_scheme`: Upward flux of specific humidity (water vapor mass mixing ratio with respect to moist air) at surface for MYJ surface layer scheme - * `real(kind=kind_phys)`: units = m s-1 kg kg-1 + * `real`: units = m s-1 kg kg-1 * `cumulative_max_vertical_index_at_cloud_base_between_sw_radiation_calls`: Cumulative maximum vertical index at cloud base between shortwave radiation calls - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `map_of_block_column_number_to_global_i_index`: Map of block column number to global i index - * `integer(kind=)`: units = index + * `integer`: units = index * `map_of_block_column_number_to_global_j_index`: Map of block column number to global j index - * `integer(kind=)`: units = index + * `integer`: units = index * `turbulent_mixing_length`: Turbulent mixing length - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `water_vapor_mixing_ratio_wrt_moist_air_on_previous_timestep`: Specific humidity (water vapor mass mixing ratio with respect to moist air) on previous timestep - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `tendency_of_water_vapor_mixing_ratio_wrt_moist_air_due_to_nonphysics`: Tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) due to non-physics processes - * `real(kind=kind_phys)`: units = kg kg-1 s-1 + * `real`: units = kg kg-1 s-1 * `momentum_exchange_coefficient_for_myj_schemes`: Momentum exchange coefficient for Mellor-Yamada-Janjic physics schemes - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `ozone_forcing`: Ozone forcing - * `real(kind=kind_phys)`: units = various + * `real`: units = various * `potential_temperature_of_air_at_top_of_viscous_sublayer`: Potential temperature of air at top of viscous sublayer - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `variance_of_water_vapor_mixing_ratio_wrt_moist_air`: Variance of specific humidity (water vapor mass mixing ratio with respect to moist air) - * `real(kind=kind_phys)`: units = kg2 kg-2 + * `real`: units = kg2 kg-2 * `random_number`: Random number - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `random_number_seed_for_mcica_longwave`: Random number seed for Monte-Carlo Independent Column Approximation longwave scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `random_number_seed_for_mcica_shortwave`: Random number seed for Monte-Carlo Independent Column Approximation shortwave scheme - * `integer(kind=)`: units = 1 + * `integer`: units = 1 * `cumulative_min_vertical_index_at_cloud_base_between_sw_radiation_calls`: Cumulative min vertical index at cloud base between sw radiation calls - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `water_vapor_mixing_ratio_wrt_moist_air_at_top_of_viscous_sublayer`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at the top of the viscous sublayer - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `stability_function_for_heat`: Stability function for heat - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `subgrid_scale_cloud_area_fraction_in_atmosphere_layer`: Subgrid scale cloud area fraction in atmosphere layer - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `subgrid_scale_cloud_ice_mixing_ratio_wrt_moist_air`: Subgrid-scale cloud ice mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `subgrid_scale_cloud_liquid_water_mixing_ratio_wrt_moist_air`: Subgrid-scale cloud liquid water mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `subgrid_scale_cloud_fraction_from_shoc`: Subgrid-scale cloud fraction from Simplified Higher-Order Closure stochastic physics scheme - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `air_pressure_at_surface_on_previous_timestep`: Air pressure at surface on previous timestep - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `air_pressure_at_surface_two_timesteps_back`: Air pressure at surface two timesteps back - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `control_for_surface_layer_evaporation`: Control for surface layer evaporation - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `water_vapor_mixing_ratio_wrt_moist_air_at_surface_for_myj_schemes`: Surface specific humidity (water vapor mass mixing ratio with respect to moist air) for Mellor-Yamada-Janjic physics schemes - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `enhancement_to_wind_speed_at_surface_adjacent_layer_due_to_convection`: Enhancement to wind speed at surface adjacent layer due to convection - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `covariance_of_air_temperature_and_water_vapor_mixing_ratio_wrt_moist_air`: Covariance of air temperature and specific humidity (water vapor mass mixing ratio with respect to moist air) - * `real(kind=kind_phys)`: units = K kg kg-1 + * `real`: units = K kg kg-1 * `variance_of_air_temperature`: Variance of air temperature - * `real(kind=kind_phys)`: units = K2 + * `real`: units = K2 * `tendency_of_air_temperature_due_to_nonphysics`: Tendency of air temperature due to nonphysics - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `tendency_of_air_temperature_to_withhold_from_sppt`: Change of air temperature to withhold from stochastically perturbed physics tendencies per unit time - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `tendency_of_activated_cloud_condensation_nuclei_from_climatology`: Change of activated cloud condensation nuclei from climatology per unit time - * `real(kind=kind_phys)`: units = kg-1 s-1 -* `lwe_thickness_of_rain_amount_on_dynamics_timestep_for_coupling`: Liquid water equivalent thickness of rain amount on dynamics timestep for coupling - * `real(kind=kind_phys)`: units = m -* `lwe_thickness_of_snowfall_amount_on_dynamics_timestep_for_coupling`: Liquid water equivalent thickness of snowfall amount on dynamics timestep for coupling - * `real(kind=kind_phys)`: units = m + * `real`: units = kg-1 s-1 +* `lwe_thickness_of_rain_on_dynamics_timestep_for_coupling`: Liquid water equivalent thickness of rain amount on dynamics timestep for coupling + * `real`: units = m +* `lwe_thickness_of_snowfall_on_dynamics_timestep_for_coupling`: Liquid water equivalent thickness of snowfall amount on dynamics timestep for coupling + * `real`: units = m * `nonadvected_tke_multiplied_by_2`: Non-advected turbulent kinetic energy multiplied by 2 - * `real(kind=kind_phys)`: units = m2 s-2 + * `real`: units = m2 s-2 * `x_wind_at_top_of_viscous_sublayer`: X wind at top of viscous sublayer - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `y_wind_at_top_of_viscous_sublayer`: Y wind at top of viscous sublayer - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `water_vapor_mixing_ratio_wrt_moist_air_on_previous_timestep_in_xyz_dimensioned_restart_array`: Specific humidity (water vapor mass mixing ratio with respect to moist air) on previous timestep in XYZ-dimensioned restart array - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_two_timesteps_back`: Specific humidity (water vapor mass mixing ratio with respect to moist air) two timesteps back - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `scaling_factor_for_momentum_at_top_of_viscous_sublayer`: Scaling factor for momentum at top of viscous sublayer - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `scaling_factor_for_potential_temperature_at_top_of_viscous_sublayer`: Scaling factor for potential temperature at top of viscous sublayer - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `scaling_factor_for_water_vapor_mixing_ratio_wrt_moist_air_at_top_of_viscous_sublayer`: Scaling factor for specific humidity (water vapor mass mixing ratio with respect to moist air) at the top of the viscous sublayer - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 ## GFS_typedefs_GFS_sfcprop_type * `wet_canopy_area_fraction`: Wet canopy area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `baseline_surface_longwave_emissivity`: Baseline surface longwave emissivity - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `baseline_roughness_length`: Baseline surface roughness length - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `air_temperature_in_canopy`: Air temperature in canopy - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `air_vapor_pressure_in_canopy`: Air vapor pressure in canopy - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `canopy_intercepted_ice_mass`: Canopy intercepted ice mass - * `real(kind=kind_phys)`: units = mm + * `real`: units = mm * `canopy_intercepted_liquid_water`: Canopy intercepted liquid water - * `real(kind=kind_phys)`: units = mm -* `canopy_water_amount`: Canopy water amount - * `real(kind=kind_phys)`: units = kg m-2 + * `real`: units = mm +* `canopy_water_mass_content`: Canopy water mass content + * `real`: units = kg m-2 * `cloud_condensed_water_mixing_ratio_wrt_moist_air_at_surface_over_ice`: Cloud condensed water mass mixing ratio with respect to moist air at surface over ice - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `cloud_condensed_water_mixing_ratio_wrt_moist_air_at_surface_over_land`: Cloud condensed water mass mixing ratio with respect to moist air at surface over land - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `coefficient_c_0`: Coefficient c 0 - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `coefficient_c_d`: Coefficient c d - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `coefficient_w_0`: Coefficient w 0 - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `coefficient_w_d`: Coefficient w d - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `convective_precipitation_rate_on_previous_timestep`: Convective precipitation rate on previous timestep - * `real(kind=kind_phys)`: units = mm s-1 + * `real`: units = mm s-1 * `deep_soil_temperature`: Deep soil temperature - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `frozen_precipitation_density`: Frozen precipitation density - * `real(kind=kind_phys)`: units = kg m-3 + * `real`: units = kg m-3 * `heat_content_in_diurnal_thermocline`: Heat content in diurnal thermocline - * `real(kind=kind_phys)`: units = K m + * `real`: units = K m * `diurnal_thermocline_layer_thickness`: Diurnal thermocline layer thickness - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `x_current_in_diurnal_thermocline`: X current in diurnal thermocline - * `real(kind=kind_phys)`: units = m2 s-1 + * `real`: units = m2 s-1 * `y_current_in_diurnal_thermocline`: Y current in diurnal thermocline - * `real(kind=kind_phys)`: units = m2 s-1 + * `real`: units = m2 s-1 * `volumetric_equilibrium_soil_moisture`: Volumetric equilibrium soil moisture - * `real(kind=kind_phys)`: units = m3 m-3 + * `real`: units = m3 m-3 * `explicit_precipitation_rate_on_previous_timestep`: Explicit precipitation rate on previous timestep - * `real(kind=kind_phys)`: units = mm s-1 + * `real`: units = mm s-1 * `fast_soil_pool_mass_content_of_carbon`: Fast soil pool mass content of carbon - * `real(kind=kind_phys)`: units = g m-2 + * `real`: units = g m-2 * `fine_root_mass_content`: Fine root mass content - * `real(kind=kind_phys)`: units = g m-2 + * `real`: units = g m-2 * `control_for_frozen_soil_physics`: Control for frozen soil physics - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `precipitation_type`: Precipitation type - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `strong_cosz_area_fraction`: Strong cosz area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `weak_cosz_area_fraction`: Weak cosz area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `free_convection_layer_thickness_in_sea_water`: Free convection layer thickness in sea water - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `consecutive_calls_for_grell_freitas_convection`: Consecutive calls for grell freitas convection - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `graupel_precipitation_rate_on_previous_timestep`: Graupel precipitation rate on previous timestep - * `real(kind=kind_phys)`: units = mm s-1 + * `real`: units = mm s-1 * `ground_temperature`: Ground temperature - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `ice_precipitation_rate_on_previous_timestep`: Ice precipitation rate on previous timestep - * `real(kind=kind_phys)`: units = mm s-1 + * `real`: units = mm s-1 * `control_for_diurnal_thermocline_calculation`: Control for diurnal thermocline calculation - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `temperature_in_ice_layer`: Temperature in ice layer - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `upward_flux_of_water_vapor_mixing_ratio_wrt_moist_air_at_surface`: Upward flux of water vapor mixing ratio wrt moist air at surface - * `real(kind=kind_phys)`: units = kg kg-1 m s-1 + * `real`: units = kg kg-1 m s-1 * `upward_temperature_flux_at_surface`: Upward temperature flux at surface - * `real(kind=kind_phys)`: units = K m s-1 + * `real`: units = K m s-1 * `lake_area_fraction`: Lake area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `lake_depth`: Lake depth - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `water_storage_in_lake`: Water storage in lake - * `real(kind=kind_phys)`: units = mm + * `real`: units = mm * `land_area_fraction`: Land area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `depth_from_snow_surface_at_bottom_interface`: Depth from snow surface at bottom interface - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `leaf_area_index`: Leaf area index - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `leaf_mass_content`: Leaf mass content - * `real(kind=kind_phys)`: units = g m-2 -* `lwe_thickness_of_convective_precipitation_amount_on_previous_timestep`: Liquid water equivalent thickness of convective precipitation amount on previous timestep - * `real(kind=kind_phys)`: units = m -* `lwe_thickness_of_explicit_precipitation_amount_on_previous_timestep`: Liquid water equivalent thickness of explicit precipitation amount on previous timestep - * `real(kind=kind_phys)`: units = m -* `lwe_thickness_of_graupel_amount_on_previous_timestep`: Liquid water equivalent thickness of graupel amount on previous timestep - * `real(kind=kind_phys)`: units = m -* `lwe_thickness_of_ice_precipitation_amount_on_previous_timestep`: Liquid water equivalent thickness of ice precipitation amount on previous timestep - * `real(kind=kind_phys)`: units = m + * `real`: units = g m-2 +* `lwe_thickness_of_convective_precipitation_on_previous_timestep`: Liquid water equivalent thickness of convective precipitation amount on previous timestep + * `real`: units = m +* `lwe_thickness_of_explicit_precipitation_on_previous_timestep`: Liquid water equivalent thickness of explicit precipitation amount on previous timestep + * `real`: units = m +* `lwe_thickness_of_graupel_on_previous_timestep`: Liquid water equivalent thickness of graupel amount on previous timestep + * `real`: units = m +* `lwe_thickness_of_ice_precipitation_on_previous_timestep`: Liquid water equivalent thickness of ice precipitation amount on previous timestep + * `real`: units = m * `snow_mass_on_previous_timestep`: Snow mass on previous timestep - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `max_vegetation_area_fraction`: Maximum vegetation area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `nir_albedo_strong_cosz`: albedo for near-infrared radiation with strong dependence on cosine of the zenith angle - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `nir_albedo_weak_cosz`: Nir albedo weak cosz - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `vis_albedo_strong_cosz`: Vis albedo strong cosz - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `vis_albedo_weak_cosz`: Vis albedo weak cosz - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `min_vegetation_area_fraction`: Min vegetation area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `monin_obukhov_similarity_function_for_heat`: Monin obukhov similarity function for heat - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `monin_obukhov_similarity_function_for_momentum`: Monin obukhov similarity function for momentum - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `dimensionless_age_of_surface_snow`: Dimensionless age of surface snow - * `real(kind=kind_phys)`: units = 1 -* `nonnegative_lwe_thickness_of_precipitation_amount_on_dynamics_timestep`: Non-negative liquid water equivalent thickness of precipitation amount on dynamics timestep - * `real(kind=kind_phys)`: units = m + * `real`: units = 1 +* `nonnegative_lwe_thickness_of_precipitation_on_dynamics_timestep`: Non-negative liquid water equivalent thickness of precipitation amount on dynamics timestep + * `real`: units = m * `normalized_soil_wetness_for_lsm`: Normalized soil wetness for land surface model - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `number_of_snow_layers`: Number of snow layers - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `ocean_mixed_layer_thickness`: Ocean mixed layer thickness - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `height_above_mean_sea_level`: Height above mean sea level - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `height_above_mean_sea_level_at_surface`: Height above mean sea level at local surface - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `unfiltered_height_above_mean_sea_level`: Unfiltered height above mean sea level - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `potential_temperature_of_air_at_2m`: Potential temperature of air at 2m - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `ratio_of_wind_at_surface_adjacent_layer_to_wind_at_10m`: Ratio of wind at surface adjacent layer to wind at 10m - * `real(kind=kind_phys)`: units = ratio + * `real`: units = ratio * `reciprocal_of_obukhov_length`: Reciprocal of obukhov length - * `real(kind=kind_phys)`: units = m-1 + * `real`: units = m-1 * `sea_area_fraction`: Sea area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `sea_ice_area_fraction_of_sea_area_fraction`: Sea ice area fraction of sea area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `sea_ice_temperature`: Sea ice temperature - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `sea_ice_thickness`: Sea ice thickness - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `area_type`: Area type - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `reference_sea_surface_temperature`: Reference sea surface temperature - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `sea_surface_temperature`: Sea surface temperature - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `sea_water_salinity_in_diurnal_thermocline`: Sea water salinity in diurnal thermocline - * `real(kind=kind_phys)`: units = ppt m + * `real`: units = ppt m * `surface_sensible_heat_due_to_rainfall`: Surface sensible heat due to rainfall - * `real(kind=kind_phys)`: units = W + * `real`: units = W * `derivative_of_heat_content_in_diurnal_thermocline_wrt_surface_skin_temperature`: Derivative of heat content in diurnal thermocline wrt surface skin temperature - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `derivative_of_diurnal_thermocline_layer_thickness_wrt_surface_skin_temperature`: Derivative of diurnal thermocline layer thickness wrt surface skin temperature - * `real(kind=kind_phys)`: units = m K-1 + * `real`: units = m K-1 * `slow_soil_pool_mass_content_of_carbon`: Slow soil pool mass content of carbon - * `real(kind=kind_phys)`: units = g m-2 + * `real`: units = g m-2 * `albedo_on_previous_timestep_assuming_deep_snow`: Albedo on previous timestep assuming deep snow - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `lwe_thickness_of_ice_in_surface_snow`: Liquid water equivalent thickness of ice in surface snow - * `real(kind=kind_phys)`: units = mm + * `real`: units = mm * `lwe_thickness_of_liquid_water_in_surface_snow`: Liquid water equivalent thickness of liquid water in surface snow - * `real(kind=kind_phys)`: units = mm -* `lwe_thickness_of_snowfall_amount_on_previous_timestep`: Liquid water equivalent thickness of snowfall amount on previous timestep - * `real(kind=kind_phys)`: units = mm + * `real`: units = mm +* `lwe_thickness_of_snowfall_on_previous_timestep`: Liquid water equivalent thickness of snowfall amount on previous timestep + * `real`: units = mm * `lwe_snowfall_rate`: Liquid water equivalent snowfall rate - * `real(kind=kind_phys)`: units = mm s-1 + * `real`: units = mm s-1 * `snowfall_rate_on_previous_timestep`: Snowfall rate on previous timestep - * `real(kind=kind_phys)`: units = mm s-1 + * `real`: units = mm s-1 * `temperature_in_surface_snow`: Temperature in surface snow - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `temperature_in_surface_snow_at_surface_adjacent_layer_over_ice`: Temperature in surface snow at surface adjacent layer over ice - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `temperature_in_surface_snow_at_surface_adjacent_layer_over_land`: Temperature in surface snow at surface adjacent layer over land - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `soil_temperature`: Soil temperature - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `soil_temperature_for_lsm`: Soil temperature for land surface model - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `volumetric_soil_moisture_between_soil_bottom_and_water_table`: Volumetric soil moisture between soil bottom and water table - * `real(kind=kind_phys)`: units = m3 m-3 + * `real`: units = m3 m-3 * `water_vapor_mixing_ratio_wrt_moist_air_at_2m`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at two meters above surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_at_2m`: mixing ratio of the mass of water vapor to the mass of moist air and hydrometeors, at two meters above surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `specified_upward_flux_of_water_vapor_mixing_ratio_wrt_moist_air_at_surface`: Specified upward specific humidity (water vapor mass mixing ratio with respect to moist air) flux at surface - * `real(kind=kind_phys)`: units = kg kg-1 m s-1 + * `real`: units = kg kg-1 m s-1 * `specified_upward_temperature_flux_at_surface`: Specified upward temperature flux at surface - * `real(kind=kind_phys)`: units = K m s-1 + * `real`: units = K m s-1 * `standard_deviation_of_subgrid_orography`: Standard deviation of subgrid orography - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `statistical_measures_of_subgrid_orography_collection_array`: Statistical measures of subgrid orography collection array - * `real(kind=kind_phys)`: units = various + * `real`: units = various * `stem_area_index`: Stem area index - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `stem_mass_content`: Stem mass content - * `real(kind=kind_phys)`: units = g m-2 + * `real`: units = g m-2 * `molecular_sublayer_temperature_correction_in_sea_water`: Molecular sublayer temperature correction in sea water - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `molecular_sublayer_thickness_in_sea_water`: Molecular sublayer thickness in sea water - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `diffuse_nir_albedo_of_ice`: ice surface albedo for diffuse near-infrared radiation - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `diffuse_nir_albedo_of_land`: land surface albedo for diffuse near-infrared radiation - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `diffuse_vis_albedo_of_ice`: ice surface albedo for diffuse visible radiation - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `diffuse_vis_albedo_of_land`: land surface albedo for diffuse visible radiation - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `direct_nir_albedo_of_ice`: ice surface albedo for direct near-infrared radiation - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `direct_nir_albedo_of_land`: land surface albedo for direct near-infrared radiation - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `direct_vis_albedo_of_ice`: ice surface albedo for direct visible radiation - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `direct_vis_albedo_of_land`: land surface albedo for direct visible radiation - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `diffuse_shortwave_albedo_of_ice`: ice surface albedo for diffuse shortwave radiation - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `diffuse_shortwave_albedo_of_land`: land surface albedo for diffuse shortwave radiation - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `surface_drag_coefficient_for_heat_and_moisture_for_noahmp`: Surface drag coefficient for heat and moisture for Noah land surface model with multiparameterization options - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `surface_drag_coefficient_for_momentum_for_noahmp`: Surface drag coefficient for momentum for Noah land surface model with multiparameterization options - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `surface_exchange_coefficient_for_heat`: Surface exchange coefficient for heat - * `real(kind=kind_phys)`: units = W m-2 K-1 + * `real`: units = W m-2 K-1 * `surface_exchange_coefficient_for_heat_at_2m`: Surface exchange coefficient for heat at 2m - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `surface_exchange_coefficient_for_moisture`: Surface exchange coefficient for moisture - * `real(kind=kind_phys)`: units = kg m-2 s-1 + * `real`: units = kg m-2 s-1 * `surface_exchange_coefficient_for_moisture_at_2m`: Surface exchange coefficient for moisture at 2m - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `surface_friction_velocity`: Surface friction velocity - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `surface_friction_velocity_for_momentum`: Surface friction velocity for momentum - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `upward_latent_heat_flux_at_surface`: Upward latent heat flux at surface - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `surface_longwave_emissivity_over_ice`: Surface longwave emissivity over ice - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `surface_longwave_emissivity_over_land`: Surface longwave emissivity over land - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `roughness_length`: surface roughness length - * `real(kind=kind_phys)`: units = cm + * `real`: units = cm * `roughness_length_from_wave_model`: surface roughness length from wave model - * `real(kind=kind_phys)`: units = cm + * `real`: units = cm * `roughness_length_over_ice`: surface roughness length over ice - * `real(kind=kind_phys)`: units = cm + * `real`: units = cm * `roughness_length_over_land`: surface roughness length over land - * `real(kind=kind_phys)`: units = cm + * `real`: units = cm * `roughness_length_over_water`: surface roughness length over water - * `real(kind=kind_phys)`: units = cm + * `real`: units = cm * `skin_temperature_at_surface`: Skin temperature at surface - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `skin_temperature_at_surface_over_ice`: Skin temperature at surface over (or where) ice - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `skin_temperature_at_surface_over_land`: Skin temperature at surface over (or where) land - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `skin_temperature_at_surface_over_ocean`: Skin temperature at surface over (or where) ocean - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `skin_temperature_at_surface_over_snow`: Skin temperature at surface over (or where) snow - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `snow_area_fraction_at_surface_over_ice`: Snow area fraction at surface over ice - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `snow_area_fraction_at_surface_over_land`: Snow area fraction at surface over land - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `albedo_of_land_assuming_no_snow_cover`: surface snow-free albedo over land - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `lwe_surface_snow`: Liquid water equivalent surface snow - * `real(kind=kind_phys)`: units = mm + * `real`: units = mm * `water_vapor_mixing_ratio_wrt_moist_air_at_surface`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `ratio_of_height_to_monin_obukhov_length`: Ratio of height to monin obukhov length - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `air_temperature_at_2m`: Air temperature at 2m - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `surface_temperature_scale`: Surface temperature scale - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `time_since_last_snowfall`: Time since last snowfall - * `real(kind=kind_phys)`: units = s -* `surface_snow_amount_over_ice`: Surface snow amount over ice - * `real(kind=kind_phys)`: units = kg m-2 -* `surface_snow_amount_over_land`: Surface snow amount over land - * `real(kind=kind_phys)`: units = kg m-2 + * `real`: units = s +* `surface_snow_mass_content_over_ice`: Surface snow mass content over ice + * `real`: units = kg m-2 +* `surface_snow_mass_content_over_land`: Surface snow mass content over land + * `real`: units = kg m-2 * `upper_bound_of_max_albedo_assuming_deep_snow`: Upper bound of maximum albedo assuming deep snow - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `vegetation_area_fraction`: Vegetation area fraction - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `canopy_temperature`: Canopy temperature - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `volume_fraction_of_frozen_soil_moisture_for_lsm`: Volume fraction of frozen soil moisture for land surface model - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `volume_fraction_of_condensed_water_in_soil`: Volume fraction of condensed water in soil - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `volume_fraction_of_soil_moisture_for_lsm`: Volume fraction of soil moisture for land surface model - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `volume_fraction_of_unfrozen_water_in_soil`: Volume fraction of unfrozen water in soil - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `volume_fraction_of_unfrozen_soil_moisture_for_lsm`: Volume fraction of unfrozen soil moisture for land surface model - * `real(kind=kind_phys)`: units = fraction -* `lwe_thickness_of_surface_snow_amount`: Liquid water equivalent thickness of surface snow amount - * `real(kind=kind_phys)`: units = mm + * `real`: units = fraction +* `lwe_thickness_of_surface_snow`: Liquid water equivalent thickness of surface snow amount + * `real`: units = mm * `water_storage_in_aquifer`: Water storage in aquifer - * `real(kind=kind_phys)`: units = mm + * `real`: units = mm * `water_storage_in_aquifer_and_saturated_soil`: Water storage in aquifer and saturated soil - * `real(kind=kind_phys)`: units = mm + * `real`: units = mm * `water_table_depth`: Water table depth - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `water_table_recharge_assuming_deep`: Water table recharge assuming deep - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `water_table_recharge_assuming_shallow`: Water table recharge assuming shallow - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `water_vapor_mixing_ratio_wrt_moist_air_at_surface_over_ice`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface over ice - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_at_surface_over_land`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface over land - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `wood_mass_content`: Wood mass content - * `real(kind=kind_phys)`: units = g m-2 + * `real`: units = g m-2 ## GFS_typedefs_GFS_coupling_type * `cellular_automata_global_pattern_from_coupled_process`: Cellular automata global pattern from coupled process - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `convective_cloud_condensate_after_rainout`: Convective cloud condensate after rainout - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `cumulative_downwelling_diffuse_nir_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative downwelling diffuse near-infrared shortwave flux at the surface level for coupling multiplied by the duration of the timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative downwelling diffuse ultraviolet and visible shortwave flux at the surface level for coupling multiplied by the duration of the timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_downwelling_direct_nir_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative downwelling direct near-infrared shortwave flux at the surface level for coupling multiplied by the duration of the timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling multiplied by the duration of the timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_downwelling_longwave_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative downwelling longwave flux at surface for coupling multiplied by timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_downwelling_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative downwelling shortwave flux at surface for coupling multiplied by timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_net_downwelling_diffuse_nir_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative net downwelling diffuse near-infrared shortwave flux at the surface level for coupling multiplied by the duration of the timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_net_downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative net downwelling diffuse ultraviolet and visible shortwave flux at the surface level for coupling multiplied by the duration of the timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_net_downwelling_direct_nir_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative net downwelling direct near-infrared shortwave flux at the surface level for coupling multiplied by the duration of the timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_net_downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: cumulative net downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling multiplied by the duration of the timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_net_downwelling_longwave_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative net downwelling longwave flux at surface for coupling multiplied by timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_net_downwelling_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative net downwelling shortwave flux at surface for coupling multiplied by timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_upward_latent_heat_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative upward latent heat flux at surface for coupling multiplied by timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_upward_sensible_heat_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative upward sensible heat flux at surface for coupling multiplied by timestep - * `real(kind=kind_phys)`: units = J m-2 + * `real`: units = J m-2 * `cumulative_x_momentum_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative x momentum flux at surface for coupling multiplied by timestep - * `real(kind=kind_phys)`: units = Pa s + * `real`: units = Pa s * `cumulative_y_momentum_flux_at_surface_for_coupling_multiplied_by_timestep`: Cumulative y momentum flux at surface for coupling multiplied by timestep - * `real(kind=kind_phys)`: units = Pa s + * `real`: units = Pa s * `cellular_automata_area_fraction_for_deep_convection_from_coupled_process`: Cellular automata area fraction for deep convection from coupled process - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `atmosphere_heat_diffusivity_for_chemistry_coupling`: Atmosphere heat diffusivity for chemistry coupling - * `real(kind=kind_phys)`: units = m2 s-1 + * `real`: units = m2 s-1 * `water_vapor_mixing_ratio_wrt_moist_air_at_2m_for_coupling`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at 2 meters above surface used for coupling - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `air_pressure_at_surface_for_coupling`: Air pressure at surface for coupling - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `downwelling_diffuse_nir_shortwave_flux_at_surface_for_coupling`: downwelling diffuse near-infrared shortwave flux at the surface level for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_for_coupling`: downwelling diffuse ultraviolet and visible shortwave flux at the surface level for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `downwelling_direct_nir_shortwave_flux_at_surface_for_coupling`: downwelling direct near-infrared shortwave flux at the surface level for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling`: downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `downwelling_longwave_flux_at_surface_for_coupling`: Downwelling longwave flux at surface for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `downwelling_shortwave_flux_at_surface_for_coupling`: Downwelling shortwave flux at surface for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `net_downwelling_diffuse_nir_shortwave_flux_at_surface_for_coupling`: net downwelling diffuse near-infrared shortwave flux at the surface level for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `net_downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_for_coupling`: net downwelling diffuse ultraviolet and visible shortwave flux at the surface level for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `net_downwelling_direct_nir_shortwave_flux_at_surface_for_coupling`: net downwelling direct near-infrared shortwave flux at the surface level for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `net_downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling`: net_downwelling direct ultraviolet and visible shortwave flux at the surface level for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `net_downwelling_longwave_flux_at_surface_for_coupling`: Net downwelling longwave flux at surface for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `net_downwelling_shortwave_flux_at_surface_for_coupling`: Net downwelling shortwave flux at surface for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `surface_skin_temperature_for_coupling`: Surface skin temperature for coupling - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `upward_latent_heat_flux_at_surface_for_coupling`: Upward latent heat flux at surface for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `upward_sensible_heat_flux_at_surface_for_chemistry_coupling`: Upward sensible heat flux at surface for chemistry coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `upward_sensible_heat_flux_at_surface_for_coupling`: Upward sensible heat flux at surface for coupling - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `x_momentum_flux_at_surface_for_coupling`: X momentum flux at surface for coupling - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `y_momentum_flux_at_surface_for_coupling`: Y momentum flux at surface for coupling - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `temperature_at_2m_for_coupling`: Temperature at 2m for coupling - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `tendency_of_water_vapor_mixing_ratio_wrt_moist_air_due_to_moist_convection_for_coupling`: Tendency of water vapor mixing ratio wrt moist air due to moist convection for coupling - * `real(kind=kind_phys)`: units = kg kg-1 s-1 + * `real`: units = kg kg-1 s-1 * `x_wind_at_10m_for_coupling`: X wind at 10m for coupling - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `y_wind_at_10m_for_coupling`: Y wind at 10m for coupling - * `real(kind=kind_phys)`: units = m s-1 -* `cumulative_lwe_thickness_of_convective_precipitation_amount_for_coupling`: Cumulative liquid water equivalent thickness of convective precipitation amount for coupling - * `real(kind=kind_phys)`: units = m -* `cumulative_lwe_thickness_of_precipitation_amount_for_coupling`: Cumulative liquid water equivalent thickness of precipitation amount for coupling - * `real(kind=kind_phys)`: units = m -* `cumulative_lwe_thickness_of_snow_amount_for_coupling`: Cumulative liquid water equivalent thickness of snow amount for coupling - * `real(kind=kind_phys)`: units = m + * `real`: units = m s-1 +* `cumulative_lwe_thickness_of_convective_precipitation_for_coupling`: Cumulative liquid water equivalent thickness of convective precipitation amount for coupling + * `real`: units = m +* `cumulative_lwe_thickness_of_precipitation_for_coupling`: Cumulative liquid water equivalent thickness of precipitation amount for coupling + * `real`: units = m +* `cumulative_lwe_thickness_of_snow_for_coupling`: Cumulative liquid water equivalent thickness of snow amount for coupling + * `real`: units = m * `physics_field_for_coupling`: Physics field for coupling - * `real(kind=kind_phys)`: units = m2 s-2 + * `real`: units = m2 s-2 * `rrtmgp_jacobian_of_upward_lw_flux`: Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) jacobian of upward longwave flux - * `real(kind=kind_phys)`: units = W m-2 K-1 + * `real`: units = W m-2 K-1 * `rrtmgp_lw_downward_allsky_flux_profile`: Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) longwave downward all-sky flux profile - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `rrtmgp_lw_upward_allsky_flux_profile`: Rapid Radiative Transfer Model for General circulation model applications - Parallel (RRTMGP) longwave upward all-sky flux profile - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `area_type_from_coupled_process`: Area type from coupled process - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `downwelling_diffuse_nir_shortwave_flux_at_surface_on_radiation_timestep`: downwelling diffuse near-infrared shortwave flux at the surface level on the radiation timestep - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_on_radiation_timestep`: downwelling diffuse ultraviolet and visible shortwave flux at the surface level on the radiation timestep - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `downwelling_direct_nir_shortwave_flux_at_surface_on_radiation_timestep`: downwelling direct near-infrared shortwave flux at the surface level on the radiation timestep - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `downwelling_direct_uv_and_vis_shortwave_flux_at_surface_on_radiation_timestep`: downwelling direct ultraviolet and visible shortwave flux at the surface level on the radiation timestep - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `downwelling_longwave_flux_at_surface_on_radiation_timestep`: Downwelling longwave flux at surface on radiation timestep - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `downwelling_shortwave_flux_at_surface_on_radiation_timestep`: Downwelling shortwave flux at surface on radiation timestep - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `net_downwelling_shortwave_flux_at_surface_on_radiation_timestep`: Net downwelling shortwave flux at surface on radiation timestep - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `diffuse_nir_albedo_for_coupling`: surface albedo for diffuse near-infrared radiation for coupling - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `direct_nir_albedo_for_coupling`: surface albedo for direct near-infrared radiation for coupling - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `lwe_surface_snow_from_coupled_process`: Liquid water equivalent surface snow from coupled process - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `upward_latent_heat_flux_at_surface_from_coupled_process`: Upward latent heat flux at surface from coupled process - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `upward_sensible_heat_flux_at_surface_from_coupled_process`: Upward sensible heat flux at surface from coupled process - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `upwelling_diffuse_nir_shortwave_flux_at_surface_on_radiation_timestep`: upwelling diffuse near-infrared shortwave flux at the surface level on the radiation timestep - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `upwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_on_radiation_timestep`: upwelling diffuse ultraviolet and visible shortwave flux at the surface level on the radiation timestep - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `upwelling_direct_nir_shortwave_flux_at_surface_on_radiation_timestep`: upwelling direct near-infrared shortwave flux at the surface level on the radiation timestep - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `upwelling_direct_uv_and_vis_shortwave_flux_at_surface_on_radiation_timestep`: upwelling direct ultraviolet and visible shortwave flux at the surface level on the radiation timestep - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `upwelling_longwave_flux_at_surface_from_coupled_process`: Upwelling longwave flux at surface from coupled process - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `upwelling_longwave_flux_at_surface_on_radiation_timestep`: Upwelling longwave flux at surface on radiation timestep - * `real(kind=kind_phys)`: units = W m-2 + * `real`: units = W m-2 * `diffuse_vis_albedo_for_coupling`: surface albedo for diffuse visible radiation for coupling - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `direct_vis_albedo_for_coupling`: surface albedo for direct visible radiation for coupling - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `x_momentum_flux_at_surface_from_coupled_process`: X momentum flux at surface from coupled process - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `y_momentum_flux_at_surface_from_coupled_process`: Y momentum flux at surface from coupled process - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `tendency_of_nonhygroscopic_ice_nucleating_aerosols_at_surface_adjacent_layer`: Tendency of nonhygroscopic ice nucleating aerosols at surface adjacent layer - * `real(kind=kind_phys)`: units = kg-1 s-1 + * `real`: units = kg-1 s-1 * `tendency_of_hygroscopic_aerosols_at_surface_adjacent_layer`: Tendency of hygroscopic aerosols at surface adjacent layer - * `real(kind=kind_phys)`: units = kg-1 s-1 + * `real`: units = kg-1 s-1 * `updated_tendency_of_air_temperature_due_to_longwave_heating_on_physics_timestep`: Updated tendency of air temperature due to longwave heating on physics timestep - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `cellular_automata_vertical_scaling_factor`: Cellular automata vertical scaling factor - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `shum_scaling_factors_from_coupled_process`: Stochastic Humidity stochastic physics option scaling factors from coupled process - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `skeb_x_wind_scaling_factors_from_coupled_process`: Stochastic Kinetic Energy Backscatter x-wind scaling factors from coupled process - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `skeb_y_wind_scaling_factors_from_coupled_process`: Stochastic Kinetic Energy Backscatter y-wind scaling factors from coupled process - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `sppt_scaling_factors_from_coupled_process`: Stochastically perturbed physics tendencies scaling factors from coupled process - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `surface_stochastic_scaling_factors_from_coupled_process`: Surface stochastic scaling factors from coupled process - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 ## GFS_typedefs_GFS_statein_type * `air_pressure_at_lowest_model_interface`: Air pressure at lowest model interface - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `air_pressure_at_surface_adjacent_layer`: Air pressure at surface adjacent layer - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `air_temperature_at_surface_adjacent_layer`: Air temperature at surface adjacent layer - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `cloud_liquid_water_mixing_ratio_wrt_moist_air_at_surface_adjacent_layer`: Cloud liquid water mass mixing ratio with respect to moist air at surface-adjacent layer - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_number_concentration_of_cloud_liquid_water_particles_in_air`: Mass number concentration of cloud liquid water particles in air - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `exner_function_wrt_surface_pressure`: Exner function with respect to surface pressure, (p/ps)^(Rd/cp) - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `exner_function_at_surface_adjacent_layer`: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at the surface-adjacent layer - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `exner_function_at_interfaces`: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at vertical layer interfaces - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `dissipation_estimate_of_air_temperature_at_model_layers`: Dissipation estimate of air temperature at model layers - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `geopotential`: Geopotential - * `real(kind=kind_phys)`: units = m2 s-2 + * `real`: units = m2 s-2 * `geopotential_at_interfaces`: Geopotential at interfaces - * `real(kind=kind_phys)`: units = m2 s-2 + * `real`: units = m2 s-2 * `graupel_mixing_ratio_wrt_moist_air`: Graupel mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_number_concentration_of_graupel_in_air`: Mass number concentration of graupel in air - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols`: Mass number concentration of nonhygroscopic ice nucleating aerosols - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `mass_number_concentration_of_cloud_ice_water_crystals_in_air`: Mass number concentration of cloud ice water crystals in air - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `ozone_mixing_ratio_wrt_moist_air`: Ozone mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_number_concentration_of_rain_in_air`: Mass number concentration of rain in air - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `mass_number_concentration_of_snow_in_air`: Mass number concentration of snow in air - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `snow_mixing_ratio_wrt_moist_air`: Snow mass mixing ratio with respect to moist air - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `tracer_concentration`: Tracer concentration - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_number_concentration_of_hygroscopic_aerosols`: Mass number concentration of hygroscopic aerosols - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_at_surface_adjacent_layer`: Specific humidity (water vapor mass mixing ratio with respect to moist air) at surface-adjacent layer - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `x_wind_at_surface_adjacent_layer`: X wind at surface adjacent layer - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `y_wind_at_surface_adjacent_layer`: Y wind at surface adjacent layer - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 ## GFS_typedefs_GFS_cldprop_type * `convective_cloud_area_fraction_between_sw_radiation_calls_from_cnvc90`: Convective cloud area fraction between shortwave radiation calls from GFS Convective Cloud Diagnostics - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `pressure_at_convective_cloud_base_between_sw_radiation_calls_from_cnvc90`: Pressure at convective cloud base between shortwave radiation calls from GFS Convective Cloud Diagnostics - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa * `pressure_at_convective_cloud_top_between_sw_radiation_calls_from_cnvc90`: Pressure at convective cloud top between shortwave radiation calls from GFS Convective Cloud Diagnostics - * `real(kind=kind_phys)`: units = Pa + * `real`: units = Pa ## GFS_typedefs_GFS_radtend_type * `cosine_of_solar_zenith_angle_for_daytime_points_on_radiation_timestep`: Cosine of solar zenith angle for daytime points on radiation timestep - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `cosine_of_solar_zenith_angle_on_radiation_timestep`: Cosine of solar zenith angle on radiation timestep - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `surface_lw_fluxes_assuming_total_and_clear_sky_on_radiation_timestep`: Surface lw fluxes assuming total and clear sky on radiation timestep - * `sfcflw_type(kind=)`: units = W m-2 + * `sfcflw_type`: units = W m-2 * `diffuse_shortwave_albedo_on_radiation_timestep`: surface albedo for diffuse shortwave radiation on the timestep for radiation physics - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `surface_longwave_emissivity`: Surface longwave emissivity - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `air_temperature_at_surface_adjacent_layer_on_radiation_timestep`: Air temperature at surface adjacent layer on radiation timestep - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `surface_sw_fluxes_assuming_total_and_clear_sky_on_radiation_timestep`: Surface sw fluxes assuming total and clear sky on radiation timestep - * `sfcfsw_type(kind=)`: units = W m-2 + * `sfcfsw_type`: units = W m-2 * `tendency_of_air_temperature_due_to_longwave_heating_assuming_clear_sky_on_radiation_timestep`: Tendency of air temperature due to longwave heating assuming clear sky on radiation timestep - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `tendency_of_air_temperature_due_to_integrated_dynamics_through_earths_atmosphere`: Tendency of air temperature due to integrated dynamics through earths atmosphere - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `tendency_of_air_temperature_due_to_longwave_heating_on_radiation_timestep`: Tendency of air temperature due to longwave heating on radiation timestep - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `tendency_of_air_temperature_due_to_shortwave_heating_assuming_clear_sky_on_radiation_timestep`: Tendency of air temperature due to shortwave heating assuming clear sky on radiation timestep - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 * `tendency_of_air_temperature_due_to_shortwave_heating_on_radiation_timestep`: Tendency of air temperature due to shortwave heating on radiation timestep - * `real(kind=kind_phys)`: units = K s-1 + * `real`: units = K s-1 ## GFS_typedefs_GFS_grid_type * `longitude_interpolation_scaling_factor_for_aerosol_forcing`: Longitude interpolation scaling factor for aerosol forcing - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `latitude_interpolation_scaling_factor_for_aerosol_forcing`: Latitude interpolation scaling factor for aerosol forcing - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `characteristic_grid_lengthscale`: Characteristic grid lengthscale - * `real(kind=kind_phys)`: units = m + * `real`: units = m * `longitude_interpolation_scaling_factor_for_cloud_nuclei_forcing`: Longitude interpolation scaling factor for cloud nuclei forcing - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `latitude_interpolation_scaling_factor_for_cloud_nuclei_forcing`: Latitude interpolation scaling factor for cloud nuclei forcing - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `cosine_of_latitude`: Cosine of latitude - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `latitude_interpolation_scaling_factor_complement_for_absolute_momentum_flux_due_to_nonorographic_gwd`: Latitude interpolation scaling factor complement for absolute momentum flux due to non-orographic gravity wave drag - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `latitude_interpolation_scaling_factor_for_absolute_momentum_flux_due_to_nonorographic_gwd`: Latitude interpolation scaling factor for absolute momentum flux due to non-orographic gravity wave drag - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `lower_longitude_index_of_aerosol_forcing_for_interpolation`: Lower longitude index of aerosol forcing for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `lower_latitude_index_of_aerosol_forcing_for_interpolation`: Lower latitude index of aerosol forcing for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `lower_longitude_index_of_cloud_nuclei_forcing_for_interpolation`: Lower longitude index of cloud nuclei forcing for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `lower_latitude_index_of_cloud_nuclei_forcing_for_interpolation`: Lower latitude index of cloud nuclei forcing for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `lower_latitude_index_of_absolute_momentum_flux_due_to_nonorographic_gwd_for_interpolation`: Lower latitude index of absolute momentum flux due to non-orographic gravity wave drag for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `lower_latitude_index_of_ozone_forcing_for_interpolation`: Lower latitude index of ozone forcing for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `lower_latitude_index_of_stratospheric_water_vapor_forcing_for_interpolation`: Lower latitude index of stratospheric water vapor forcing for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `latitude_interpolation_scaling_factor_for_ozone_forcing`: Latitude interpolation scaling factor for ozone forcing - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `sine_of_latitude`: Sine of latitude - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 * `upper_longitude_index_of_aerosol_forcing_for_interpolation`: Upper longitude index of aerosol forcing for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `upper_latitude_index_of_aerosol_forcing_for_interpolation`: Upper latitude index of aerosol forcing for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `upper_longitude_index_of_cloud_nuclei_forcing_for_interpolation`: Upper longitude index of cloud nuclei forcing for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `upper_latitude_index_of_cloud_nuclei_forcing_for_interpolation`: Upper latitude index of cloud nuclei forcing for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `upper_latitude_index_of_absolute_momentum_flux_due_to_nonorographic_gwd_for_interpolation`: Upper latitude index of absolute momentum flux due to non-orographic gravity wave drag for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `upper_latitude_index_of_ozone_forcing_for_interpolation`: Upper latitude index of ozone forcing for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `upper_latitude_index_of_stratospheric_water_vapor_forcing_for_interpolation`: Upper latitude index of stratospheric water vapor forcing for interpolation - * `integer(kind=)`: units = index + * `integer`: units = index * `latitude_interpolation_scaling_factor_for_stratospheric_water_vapor_forcing`: Latitude interpolation scaling factor for stratospheric water vapor forcing - * `real(kind=kind_phys)`: units = 1 + * `real`: units = 1 ## GFS_typedefs_GFS_stateout_type * `air_temperature_of_new_state_at_surface_adjacent_layer`: Air temperature of new state at surface adjacent layer - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `air_temperature_of_new_state`: Air temperature of new state - * `real(kind=kind_phys)`: units = K + * `real`: units = K * `cloud_liquid_water_mixing_ratio_wrt_moist_air_of_new_state`: Cloud liquid water mass mixing ratio with respect to moist air of new state - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_number_concentration_of_cloud_liquid_water_particles_in_air_of_new_state`: Mass number concentration of cloud liquid water particles in air of new state - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `nonconvective_cloud_area_fraction_in_atmosphere_layer_of_new_state`: Nonconvective cloud area fraction in atmosphere layer of new state - * `real(kind=kind_phys)`: units = fraction + * `real`: units = fraction * `graupel_mixing_ratio_wrt_moist_air_of_new_state`: Graupel mass mixing ratio with respect to moist air of new state - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_number_concentration_of_graupel_of_new_state`: Mass number concentration of graupel of new state - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols_of_new_state`: Mass number concentration of nonhygroscopic ice nucleating aerosols of new state - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `mass_number_concentration_of_cloud_ice_water_crystals_in_air_of_new_state`: Mass number concentration of cloud ice water crystals in air of new state - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `cloud_ice_mixing_ratio_wrt_moist_air_of_new_state`: Cloud ice mass mixing ratio with respect to moist air of new state - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_weighted_rime_factor_of_new_state`: Mass weighted rime factor of new state - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `ozone_concentration_of_new_state`: Ozone concentration of new state - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_number_concentration_of_rain_of_new_state`: Mass number concentration of rain of new state - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `rain_mixing_ratio_wrt_moist_air_of_new_state`: Rain mass mixing ratio with respect to moist air of new state - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_number_concentration_of_snow_of_new_state`: Mass number concentration of snow of new state - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `snow_mixing_ratio_wrt_moist_air_of_new_state`: Snow mass mixing ratio with respect to moist air of new state - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `tracer_concentration_of_new_state`: Tracer concentration of new state - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `mass_number_concentration_of_hygroscopic_aerosols_of_new_state`: Mass number concentration of hygroscopic aerosols of new state - * `real(kind=kind_phys)`: units = kg-1 + * `real`: units = kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_of_new_state_at_surface_adjacent_layer`: Specific humidity (water vapor mass mixing ratio with respect to moist air) of new state at surface-adjacent layer - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `water_vapor_mixing_ratio_wrt_moist_air_of_new_state`: Specific humidity (water vapor mass mixing ratio with respect to moist air) of new state - * `real(kind=kind_phys)`: units = kg kg-1 + * `real`: units = kg kg-1 * `x_wind_of_new_state_at_surface_adjacent_layer`: X wind of new state at surface adjacent layer - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `x_wind_of_new_state`: X wind of new state - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `y_wind_of_new_state_at_surface_adjacent_layer`: Y wind of new state at surface adjacent layer - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 * `y_wind_of_new_state`: Y wind of new state - * `real(kind=kind_phys)`: units = m s-1 + * `real`: units = m s-1 diff --git a/StandardNamesRules.rst b/StandardNamesRules.rst index 2aac17a..25e4fd7 100644 --- a/StandardNamesRules.rst +++ b/StandardNamesRules.rst @@ -39,7 +39,7 @@ ESM Standard Name Rules but have since evolved for better consistency and generality across a broader set of fields than was originally envisioned by the CF conventions. "``medium``" should be specified when the variable in question is a substance or other quantity contained within some other medium - (e.g. for ``mole_fraction_of_ozone_in_air``, the base name is "ozone", while the medium is "air"). + (e.g. for ``mole_fraction_of_ozone_in_air``, the base name is "ozone", while the medium is "air"). "Transformation" refers to descriptors such as "``tendency_of``", "``log10``", or other operations or processes describing some transformation or adjustment of a variable; a detailed list of possible transformations can be found `later in this document <#transformations>`_. Other parts of the construction provide information about a variable's horizontal surface (e.g. ``at_cloud_base``), component (i.e. direction of variable, e.g. ``downward``), process (e.g. @@ -139,9 +139,9 @@ ESM Standard Name Rules narrowly-defined context or a variable without the scope-narrowing qualifiers already exists and cannot be reused. - **Discouraged:** surface_upward_specific_humidity_flux_for_mellor_yamada_janjic_surface_layer_scheme + **Discouraged:** upward_virtual_potential_temperature_flux_for_mellor_yamada_janjic_surface_layer_scheme - **Preferred:** surface_upward_specific_humidity_flux + **Preferred:** upward_virtual_potential_temperature_flux #. Spell out acronyms unless they are obvious to a vast majority of scientists/developers who may come across them. A list of currently-used @@ -152,12 +152,14 @@ ESM Standard Name Rules use flag_for ``_X``. If it is any other data type, use control_for ``_X``. All flags should be Fortran logicals. -#. Reserved names: The prefix ``ccpp_`` represents CCPP framework-provided variables. - All other standard names should avoid the use of ``ccpp`` in their name. +# **Disallowed terms:** A few terms are disallowed as standard name components for various reasons; mostly due to + ambiguity. -#. No punctuation should appear in standard names except for underscores (_). + - `specific_humidity` Disallowed due to ambiguity and different definitions between different fields. See above section describing `mixing_ratio` for more information. + - `amount` In most contexts this word is superfluous, and in all contexts it is non-descriptive. Consider a more specific term such as `mass_content` -#. Standard names are case insensitive, i.e. example = EXAMPLE. +#. **Reserved names:** The prefix ``ccpp_`` is reserved for CCPP framework-provided variables. + All other standard names should avoid the use of ``ccpp`` in their name. .. _tech_specs: @@ -172,18 +174,17 @@ Technical specifications individual implementations of the standard names. This is not necessarily the same as the ``long_name`` entry as described in the `CCPP Technical Documentation `_, but it can be used to inform the contents of that field. The ``standard_name`` XML entry also contains a nested - ``type`` entry, indicating the data type that a ``standard_name`` should represent, and as attributes the - physical units of that variable quantity (see the `section on Units <#units>`_) and the FORTRAN "kind" - of the variable quantity. For example, the element + ``type`` entry, indicating the data type that a ``standard_name`` should represent, and as an attribute the + physical units of that variable quantity (see the `section on Units <#units>`_). For example, the element for the variable name ``exner_function`` may look similar to this: - real + real This XML element indicates that the variable ``exner_function`` represents the quantity described by the ``description`` - attribute. It is a real variable of "kind_phys" kind, and units of "1", meaning it is non-dimensional and + attribute. It is a real variable with units of "1", meaning it is non-dimensional and does not correspond to a more descriptive non-dimensional type such as "fraction"; see the `section on Units <#units>`_ for more details. @@ -695,14 +696,15 @@ Acronyms, Abbreviations, and Aliases Units ===== -#. For variables with an existing match in the `Climate and Forecast (CF) metadata - conventions `_, the units should - be identical to the canonical units listed there +Entries in the Standard Names dictionary contain a "units" property that serves to indicate the +typical/recommended units for a given variable. It is not mandatory to use the indicated units exactly, +but any use of a given standard name variable should have units of the same dimensionality. -#. For variables without an existing match in the CF conventions, the units should - follow the `International System of Units (SI/metric system) `_ +When adding a new standard name, units should follow the `International System of Units (SI/metric system) `_. +If the new standard name has an existing match in the `Climate and Forecast (CF) metadata +conventions `_, the units should be identical to the canonical units listed there -#. For dimensionless variables, the following units can be used: +For dimensionless variables, the following units can be used: +------------------------+-----------------------------------------------------------------------------------------------+ | **Unit** | **Use case** | diff --git a/standard_names.xml b/standard_names.xml index 6992d9f..bb9e014 100644 --- a/standard_names.xml +++ b/standard_names.xml @@ -7,9 +7,6 @@ comment="The following names are too general to be chosen as\n standard names, but they can serve as base names for\n more specific standard names.\n"> - - real - real @@ -58,6 +55,10 @@ real + + real + real @@ -254,7 +255,8 @@ description="The pressure of air"> real - + real real - + real - real + real @@ -344,7 +346,7 @@ - real + real @@ -559,822 +561,823 @@ integer -
+
- real + real - real + real - real - - - real + real - - integer + + real - - real + + real - - real + + real - real - - - real - - - real + real - real + real + + + integer + + + real - real + real
- real + real - real + real - real + real - real + real
+ + real + - physics_state + physics_state - integer + integer - physics_tend + physics_tend - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - logical + logical - real + real - - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - logical + logical - logical + logical - character + character - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real
- real + real - real + real - real + real - real + real - real + real - real + real - real + real
- real + real
- integer + integer - integer + integer - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real
- real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real
- real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real
@@ -1382,2928 +1385,2928 @@ comment="Required CCPP framework-provided variables"> - character + character - integer + integer
- character + character - ccpp_constituent_prop_ptr_t + ccpp_constituent_prop_ptr_t - real + real - real + real - integer + integer - integer + integer - integer + integer integer - +
- logical + logical - integer + integer
- real + real - character + character - real + real - real + real - integer + integer - integer + integer - integer + integer - real + real - real + real - real + real - real + real - real + real - integer + integer - integer + integer - integer + integer - real + real - integer + integer - integer + integer - integer + integer - real + real - real + real - integer + integer - real + real - real + real - integer + integer - integer + integer - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - integer + integer - real + real - real + real - real + real - real + real - integer + integer - integer + integer - real + real - real + real - real + real - real + real - real + real - real + real - real + real - logical + logical - logical + logical - real + real - character + character - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - real + real - real + real - real + real - integer + integer - integer + integer - integer + integer - integer + integer - real + real - real + real - real + real - real + real - real + real - real + real - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - integer + integer - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - integer + integer - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - integer + integer - integer + integer - logical + logical - logical + logical - logical + logical - logical + logical - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - logical + logical - logical + logical - logical + logical - integer + integer - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - integer + integer - integer + integer - logical + logical - integer + integer - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - integer + integer - logical + logical - logical + logical - logical + logical - logical + logical - integer + integer - logical + logical - logical + logical - logical + logical - integer + integer - logical + logical - integer + integer - integer + integer - integer + integer - logical + logical - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - logical + logical - integer + integer - logical + logical - integer + integer - logical + logical - integer + integer - integer + integer GFS near-surface sea temperature scheme - logical + logical - integer + integer - integer + integer - integer + integer - logical + logical - logical + logical - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - logical + logical - logical + logical - logical + logical - integer + integer - logical + logical - logical + logical - integer + integer - logical + logical - logical + logical - integer + integer - integer + integer - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - integer + integer - integer + integer - integer + integer - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - integer + integer - integer + integer - integer + integer - integer + integer - logical + logical - logical + logical - integer + integer - logical + logical - integer + integer - integer + integer - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - real + real - integer + integer - real + real - real + real - real + real - real + real - real + real - real + real - integer + integer - integer + integer - integer + integer - real + real - real + real - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - real + real - integer + integer - integer + integer - real + real - real + real - real + real - real + real - integer + integer - real + real - real + real - real + real - real + real - logical + logical - real + real - real + real - real + real - real + real - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - logical + logical - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - character + character - real + real - real + real - real + real - real + real - real + real - integer + integer - integer + integer - real + real - real + real - integer + integer - integer + integer - integer + integer - integer + integer - real + real - real + real - real + real - integer + integer - character + character - character + character - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - real + real - real + real - real + real - real + real - real + real - real + real - character + character - character + character - character + character - character + character - logical + logical - real + real - real + real - integer + integer - integer + integer - real + real - real + real - real + real - real + real - real + real - real + real - integer + integer - integer + integer - integer + integer - integer + integer - real + real - integer + integer - integer + integer - real + real - real + real - real + real - real + real - real + real - real + real - real + real - logical + logical - integer + integer - real + real - real + real - logical + logical - real + real - real + real - real + real - integer + integer - integer + integer - character + character - integer + integer - integer + integer - real + real - integer + integer - integer + integer - integer + integer - character + character
- real + real - real + real - character + character - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - integer + integer
- real + real - - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - integer + integer - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - integer + integer - integer + integer - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - integer + integer - integer + integer - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - - real + real - - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real
- real + real - real + real - real + real - real + real - real + real - real + real - real + real - - real + + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real description="Upward specific humidity (water vapor mass mixing ratio with respect to moist air) flux at surface"> - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - - real + real - - real + real - - real + real - - real + real - real + real - real + real - real + real description="albedo for near-infrared radiation with weak dependence on cosine of the zenith angle"> - real + real description="albedo for visible radiation with strong dependence on cosine of the zenith angle"> - real + real description="albedo for visible radiation with weak dependence on cosine of the zenith angle"> - real + real - real + real - real + real - real + real - real + real - - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + description="Specific humidity (water vapor mass mixing ratio with respect to moist air) at two meters above surface"> + real - real + real - real + description="Specified upward specific humidity (water vapor mass mixing ratio with respect to moist air) flux at surface"> + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - - real + + real - - real + + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real
- real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real description="Tendency of specific humidity (water vapor mass mixing ratio with respect to moist air) due to moist convection used for coupling"> - real + real - real + real - real + real - - real + real - - real + real - - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real
- real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real
- real + real - real + real - real + real
- real + real - real + real - sfcflw_type + sfcflw_type - real + real - real + real - real + real - sfcfsw_type + sfcfsw_type - real + real - real + real - real + real - real + real - real + real
- real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - real + real - real + real - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - integer + integer - real + real
- real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real - real + real
diff --git a/standard_names_v1_0.xsd b/standard_names_v1_0.xsd index b163919..08d98dd 100644 --- a/standard_names_v1_0.xsd +++ b/standard_names_v1_0.xsd @@ -32,7 +32,6 @@ - @@ -42,7 +41,6 @@ - From bf13a3dcc2643b78565f11fe5e4928e8988fcc78 Mon Sep 17 00:00:00 2001 From: Michael Kavulich Date: Thu, 23 Oct 2025 13:22:55 -0600 Subject: [PATCH 6/9] [release/v1] Updating from main in preparation for PR to main. (#127) This PR merges the latest commits from main, reconciling with recent rules/standards changes in this branch. After this is merged we can start the process of making this major merge back to main. --- .github/PULL_REQUEST_TEMPLATE | 50 + .github/workflows/pull_request_ci.yml | 76 +- CODEOWNERS | 2 +- Metadata-standard-names.md | 12 +- Metadata-standard-names.yaml | 5821 +++++++++++++++++ README.md | 15 +- standard_names.xml | 20 +- ...me_check.py => ccpp_meta_stdname_check.py} | 2 +- tools/check_name_rules.py | 2 +- tools/check_xml_unique.py | 2 +- tools/environment.yml | 5 + tools/write_standard_name_table.py | 202 +- 12 files changed, 6101 insertions(+), 108 deletions(-) create mode 100644 .github/PULL_REQUEST_TEMPLATE create mode 100644 Metadata-standard-names.yaml rename tools/{meta_stdname_check.py => ccpp_meta_stdname_check.py} (99%) create mode 100644 tools/environment.yml diff --git a/.github/PULL_REQUEST_TEMPLATE b/.github/PULL_REQUEST_TEMPLATE new file mode 100644 index 0000000..3f80572 --- /dev/null +++ b/.github/PULL_REQUEST_TEMPLATE @@ -0,0 +1,50 @@ + + + + + + +## Description + + +## Issues + + + diff --git a/.github/workflows/pull_request_ci.yml b/.github/workflows/pull_request_ci.yml index 2a620e0..521cff4 100644 --- a/.github/workflows/pull_request_ci.yml +++ b/.github/workflows/pull_request_ci.yml @@ -1,23 +1,29 @@ name: Pull request checks on: - pull_request: workflow_dispatch: + pull_request: + branches: + - main + - release/* jobs: check-unique-standard-names: + name: Check for duplicates in standard names runs-on: ubuntu-latest steps: - - uses: actions/checkout@v4 + - name: Checkout repository + uses: actions/checkout@v4 - - uses: actions/setup-python@v4 + - name: Setup Python + uses: actions/setup-python@v4 with: python-version: "3.x" - - name: Install xmllint + - name: Install dependencies run: | - sudo apt-get update - sudo apt-get -y install libxml2-utils + sudo apt-get update + sudo apt-get -y install libxml2-utils - name: Check for duplicate standard names, descriptions run: | @@ -32,42 +38,66 @@ jobs: - name: Checkout repository uses: actions/checkout@v4 - - uses: actions/setup-python@v4 + - name: Setup Python + uses: actions/setup-python@v4 with: python-version: "3.x" - # Install dependencies - name: Install dependencies run: | sudo apt-get update sudo apt-get -y install libxml2-utils - - name: Checks standard names against character rules run: | python3 tools/check_name_rules.py -s standard_names.xml - check-rerendered-markdown: + test-rendering: + name: Test rendering xml file to markdown and yaml runs-on: ubuntu-latest steps: - - uses: actions/checkout@v4 + - name: Checkout repository + uses: actions/checkout@v4 - - uses: actions/setup-python@v4 + - name: Setup Python + uses: actions/setup-python@v4 with: python-version: "3.x" - - name: Install xmllint + - name: Install dependencies run: | - sudo apt-get update - sudo apt-get -y install libxml2-utils + sudo apt-get update + sudo apt-get -y install libxml2-utils + python -m pip install --upgrade pip + python -m pip install PyYaml - - name: Check markdown has been rerendered + - name: Test rendering xml file to markdown run: | - # Checks if the saved markdown matches freshly rendered markdown. - # If this fails you have likely forgotten to rerun the write script - # after adding a new name, or updating its description. - checksum=$(sha256sum Metadata-standard-names.md) - tools/write_standard_name_table.py standard_names.xml - test "$checksum" = "$(sha256sum Metadata-standard-names.md)" - + # Checks if the saved markdown matches freshly rendered markdown. + # If this fails, prompt user to update + tools/write_standard_name_table.py --output-format md standard_names.xml + if ! git diff --exit-code --quiet; then + echo "❌ Detected that Metadata-standard-names.md is not consistent with standard_names.xml" + echo "✅ To fix: Run the following command locally and commit the result:" + echo " tools/write_standard_name_table.py --output-format md standard_names.xml" + echo "📘 This script requires the pyyaml Python package; to install with pip use command:" + echo " python -m pip install PyYaml" + echo "📘 For conda users, environment file tools/environment.yml is provided." + echo + exit 1 + fi + + - name: Test rendering xml file to yaml + run: | + tools/write_standard_name_table.py --output-format yaml standard_names.xml + if ! git diff --exit-code --quiet; then + echo "❌ Detected that Metadata-standard-names.yaml is not consistent with standard_names.xml" + echo "✅ To fix: Run the following command locally and commit the result:" + echo " tools/write_standard_name_table.py --output-format yaml standard_names.xml" + echo "📘 This script requires the pyyaml Python package; to install with pip use command:" + echo " python -m pip install PyYaml" + echo "📘 For conda users, environment file tools/environment.yml is provided." + echo + exit 1 + fi diff --git a/CODEOWNERS b/CODEOWNERS index c3be267..98cfb65 100644 --- a/CODEOWNERS +++ b/CODEOWNERS @@ -3,7 +3,7 @@ # These owners will be the default owners for everything in the repo. -* @cacraigucar @climbfuji @dustinswales @gold2718 @grantfirl @mattldawson @mkavulich @mwaxmonsky @nusbaume @peverwhee @svahl991 @MayeulDestouches @ss421 +* @cacraigucar @climbfuji @dustinswales @gold2718 @grantfirl @mattldawson @mkavulich @mwaxmonsky @nusbaume @peverwhee @MarekWlasak @svahl991 @ss421 # Order is important. The last matching pattern has the most precedence. # So if a pull request only touches javascript files, only these owners diff --git a/Metadata-standard-names.md b/Metadata-standard-names.md index b560235..fab614a 100644 --- a/Metadata-standard-names.md +++ b/Metadata-standard-names.md @@ -9,6 +9,7 @@ * [diagnostics](#diagnostics) * [atmospheric_composition](#atmospheric_composition) * [atmospheric_composition: GOCART aerosols](#atmospheric_composition-gocart-aerosols) +* [atmospheric_composition: GLOMAP/UKCA aerosols](#atmospheric_composition-glomapukca-aerosols) * [emissions](#emissions) * [Application-specific variables](#application-specific-variables) * [system variables](#system-variables) @@ -301,7 +302,7 @@ Currently, the only dimension which supports all six dimension types is horizont * `integer`: units = index * `vertical_index_at_top_interface`: Vertical index at top interface * `integer`: units = index -* `number_of_openmp_threads`: Total number of OpenMP (shared-memory) parallel threads. +* `number_of_openmp_threads`: Total number of thread blocks OpenMP (shared-memory) parallel threads. * `integer`: units = count ## constants Constant parameters that should be identical across a full modeling system @@ -686,6 +687,15 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real`: units = m-1 * `volume_extinction_in_air_due_to_aerosol_particles_lambda3`: Aerosol extinction at wavelength3 * `real`: units = m-1 +## atmospheric_composition: GLOMAP/UKCA aerosols +* `mass_fraction_of_dust_coarse_aerosol_particles_in_air`: Mass fraction of dust coarse aerosol particles in air + * `real(kind=kind_phys)`: units = kg kg-1 +* `mass_fraction_of_dust_accumulation_aerosol_particles_in_air`: Mass fraction of dust accumulation aerosol particles in air + * `real(kind=kind_phys)`: units = kg kg-1 +* `number_fraction_of_coarse_aerosol_particles_in_air`: Number fraction of coarse aerosol particles in air + * `real(kind=kind_phys)`: units = 1 +* `number_fraction_of_accumulation_aerosol_particles_in_air`: Number fraction of accumulation aerosol particles in air + * `real(kind=kind_phys)`: units = 1 ## emissions Emissions variables, contributed for the Community Emissions Data System (CEDS) * `emissions_of_co_due_to_anthropogenic_sources`: Carbon monoxide emissions from anthropogenic sources, total diff --git a/Metadata-standard-names.yaml b/Metadata-standard-names.yaml new file mode 100644 index 0000000..ac61de3 --- /dev/null +++ b/Metadata-standard-names.yaml @@ -0,0 +1,5821 @@ +library_name: Earth System Modeling Standard Name Library +sections: +- name: base_names + comment: 'Base names are the ''elemental'' quantities from which the more complex + standard names are constructed. Base names can roughly be broken down into three + categories:' + standard_names: [] +- name: dimensions + comment: 'Dimension standard names may come in sets of six related standard names + for each dimension: [dim_name]_dimension -- The full dimension size [dim_name]_loop_extent + -- Size of dim for current call [dim_name]_begin - Start index for dimension [dim_name]_end + - End index for dimension [dim_name]_index - Single index for dimension [dim_name]_selection + - Array of selected indices for dimension Note that the cap generator may substitute + among standard names in this category in order to properly call suite parts and + individual schemes. In the substitutions below, the name on the left is the standard_name + in the dimensions field of the caller while the name(s) on the right is (are) + the standard name(s) of the callee (in the form used in the subroutine call). + [dim_name]_dimension ==> 1:[dim_name]_loop_extent [dim_name]_loop_extent ==> 1:[dim_name]_loop_extent + [dim_name]_begin:[dim_name]_end ==> 1:[dim_name]_loop_extent [dim_name]_begin:[dim_name]_end + ==> 1:[dim_name]_dimension Also note that horizontal_dimension should be used + in xxx_[timestep_]init and xxx_[timestep_]final routines but not in xxx_run routines. + Currently, the only dimension which supports all six dimension types is horizontal_dimension. + This and other supported dimension standard names are listed below.' + standard_names: + - name: horizontal_dimension + description: Size horizontal dimension + type: integer + kind: null + units: count + - name: vertical_layer_dimension + description: number of vertical layers + type: integer + kind: null + units: count + - name: vertical_layer_dimension_extended_up_by_1 + description: number of vertical layers extended up by 1 + type: integer + kind: null + units: count + - name: vertical_interface_dimension + description: number of vertical interfaces + type: integer + kind: null + units: count + - name: vertical_layer_index + description: index of a particular vertical layer + type: integer + kind: null + units: index + - name: vertical_interface_index + description: index of a particular vertical interface + type: integer + kind: null + units: index + - name: vertical_index_at_surface_adjacent_layer + description: Vertical index at surface adjacent layer + type: integer + kind: null + units: index + - name: vertical_index_at_top_adjacent_layer + description: Vertical index at top adjacent layer + type: integer + kind: null + units: index + - name: vertical_index_at_surface_interface + description: Vertical index at surface interface + type: integer + kind: null + units: index + - name: vertical_index_at_top_interface + description: Vertical index at top interface + type: integer + kind: null + units: index + - name: number_of_openmp_threads + description: Total number of thread blocks OpenMP (shared-memory) parallel threads. + type: integer + kind: null + units: count +- name: constants + comment: Constant parameters that should be identical across a full modeling system + standard_names: + - name: avogadro_number + description: Avogadro number + type: real + kind: null + units: molecules mol-1 + - name: base_state_surface_pressure_for_hybrid_vertical_coordinate + description: Base state surface pressure for hybrid vertical coordinate + type: real + kind: null + units: Pa + - name: boltzmann_constant + description: Boltzmann constant + type: real + kind: null + units: J K-1 + - name: density_of_dry_air_at_stp + description: Density of dry air at standard temperature and pressure + type: real + kind: null + units: kg m-3 + - name: density_of_fresh_liquid_water_at_0c + description: Density of liquid water at 0 degrees Celsius + type: real + kind: null + units: kg m-3 + - name: gas_constant_of_dry_air + description: Gas constant of dry air + type: real + kind: null + units: J kg-1 K-1 + - name: latent_heat_of_vaporization_of_water_at_0c + description: Latent heat of vaporization of water at 0 degrees Celsius + type: real + kind: null + units: J kg-1 + - name: ratio_of_water_vapor_to_dry_air_gas_constants_minus_one + description: Ratio of gas constants of water vapor and dry air minus one; (Rwv + / Rdair) - 1.0 + type: real + kind: null + units: 1 + - name: seconds_in_calendar_day + description: Seconds in calendar day + type: integer + kind: null + units: s + - name: specific_heat_of_liquid_water_at_20c + description: Specific heat of liquid water at 20 degrees Celsius + type: real + kind: null + units: J kg-1 K-1 + - name: standard_gravitational_acceleration + description: scalar constant representing gravitational acceleration + type: real + kind: null + units: m s-2 +- name: coordinates + comment: null + standard_names: + - name: latitude + description: Latitude + type: real + kind: null + units: degree_north + - name: longitude + description: Longitude + type: real + kind: null + units: degree_east + - name: cell_area + description: Cell area + type: real + kind: null + units: m2 + - name: cell_scaling_factor + description: Cell scaling factor + type: real + kind: null + units: 1 +- name: state_variables + comment: Note that appending '_on_previous_timestep' to standard_names in this section + yields another valid standard_name + standard_names: + - name: specific_heat_of_dry_air_at_constant_pressure + description: Specific heat of dry air at constant pressure + type: real + kind: null + units: J kg-1 K-1 + - name: physics_state_due_to_dynamics + description: Physics state due to dynamics + type: physics_state + kind: null + units: none + - name: timestep_for_physics + description: Timestep for physics + type: integer + kind: null + units: s + - name: total_tendency_of_physics + description: Total tendency of physics + type: physics_tend + kind: null + units: none + - name: air_pressure_at_top_of_atmosphere_model + description: Air pressure at top of atmosphere model + type: real + kind: null + units: Pa + - name: air_pressure_at_sea_level + description: Air pressure at sea level + type: real + kind: null + units: Pa + - name: air_pressure_at_surface + description: Air pressure at local surface + type: real + kind: null + units: Pa + - name: surface_pressure_of_dry_air + description: Surface pressure of dry air + type: real + kind: null + units: Pa + - name: geopotential_at_surface + description: Geopotential at surface + type: real + kind: null + units: m2 s-2 + - name: air_temperature + description: Air temperature + type: real + kind: null + units: K + - name: air_temperature_on_previous_timestep + description: Air temperature on previous timestep + type: real + kind: null + units: K + - name: x_wind + description: Horizontal wind in a direction perpendicular to y_wind + type: real + kind: null + units: m s-1 + - name: y_wind + description: Horizontal wind in a direction perpendicular to x_wind + type: real + kind: null + units: m s-1 + - name: eastward_wind + description: Wind vector component, positive when directed eastward + type: real + kind: null + units: m s-1 + - name: northward_wind + description: Wind vector component, positive when directed northward + type: real + kind: null + units: m s-1 + - name: eastward_wind_at_10m + description: Wind vector component at 10 meters above surface, positive when directed + eastward + type: real + kind: null + units: m s-1 + - name: northward_wind_at_10m + description: Wind vector component at 10 meters above surface, positive when directed + northward + type: real + kind: null + units: m s-1 + - name: eastward_wind_at_surface + description: Wind vector component closest to surface, positive when directed + eastward + type: real + kind: null + units: m s-1 + - name: northward_wind_at_surface + description: Wind vector component closest to surface, positive when directed + northward + type: real + kind: null + units: m s-1 + - name: wind_speed_at_surface + description: Scalar wind speed closest to surface + type: real + kind: null + units: m s-1 + - name: wind_from_direction_at_surface + description: Direction, from north, of wind speed closest to surface + type: real + kind: null + units: degrees + - name: dry_static_energy + description: Dry static energy content of atmosphere layer + type: real + kind: null + units: J kg-1 + - name: do_lagrangian_vertical_coordinate + description: Flag indicating if vertical coordinate is lagrangian + type: logical + kind: null + units: flag + - name: lagrangian_tendency_of_air_pressure + description: Vertical pressure velocity + type: real + kind: null + units: Pa s-1 + - name: density_of_dry_air + description: Density of dry air + type: real + kind: null + units: kg m-3 + - name: air_pressure + description: Midpoint air pressure + type: real + kind: null + units: Pa + - name: air_pressure_of_dry_air + description: Dry midpoint pressure + type: real + kind: null + units: Pa + - name: air_pressure_thickness + description: Air pressure thickness + type: real + kind: null + units: Pa + - name: air_pressure_thickness_of_dry_air + description: Air pressure thickness of dry air + type: real + kind: null + units: Pa + - name: reciprocal_of_air_pressure_thickness + description: Reciprocal of air pressure thickness + type: real + kind: null + units: Pa-1 + - name: reciprocal_of_air_pressure_thickness_of_dry_air + description: Reciprocal of air pressure thickness of dry air + type: real + kind: null + units: Pa-1 + - name: ln_air_pressure + description: Ln air pressure + type: real + kind: null + units: 1 + - name: ln_air_pressure_of_dry_air + description: Ln air pressure of dry air + type: real + kind: null + units: 1 + - name: reciprocal_of_exner_function_wrt_air_pressure_at_surface + description: inverse exner function with respect to surface pressure; (ps/p)^(R/cp) + type: real + kind: null + units: 1 + - name: geopotential_height + description: geopotential height with respect to sea level + type: real + kind: null + units: m + - name: geopotential_height_at_surface + description: Geopotential height at local surface with respect to sea level + type: real + kind: null + units: m + - name: geopotential_height_wrt_surface + description: geopotential height with respect to local surface + type: real + kind: null + units: m + - name: geopotential_height_wrt_surface_at_interfaces + description: geopotential height with respect to local surface at interfaces + type: real + kind: null + units: m + - name: potentially_advected_quantities + description: Potentially advected quantities + type: real + kind: null + units: various + - name: air_pressure_at_interfaces + description: Air pressure at interfaces + type: real + kind: null + units: Pa + - name: air_pressure_of_dry_air_at_interfaces + description: Air pressure of dry air at interfaces + type: real + kind: null + units: Pa + - name: ln_air_pressure_at_interfaces + description: Ln air pressure at interfaces + type: real + kind: null + units: 1 + - name: ln_air_pressure_of_dry_air_at_interfaces + description: Ln air pressure of dry air at interfaces + type: real + kind: null + units: 1 + - name: air_pressure_extended_up_by_1 + description: Air pressure extended up by 1 + type: real + kind: null + units: Pa + - name: largest_model_top_pressure_that_allows_molecular_diffusion + description: Largest model top pressure that allows molecular diffusion + type: real + kind: null + units: Pa + - name: do_molecular_diffusion + description: Do molecular diffusion + type: logical + kind: null + units: flag + - name: is_initialized_physics_grid + description: Flag to indicate if physics grid is initialized + type: logical + kind: null + units: flag + - name: control_for_negative_constituent_warning + description: Logging setting for negative constituent mass fixer + type: character + kind: null + units: 1 + - name: geopotential_height_at_interfaces + description: Geopotential height at interfaces + type: real + kind: null + units: m + - name: vertically_integrated_total_energy_of_initial_state + description: Vertically integrated total energy of initial state + type: real + kind: null + units: J m-2 + - name: vertically_integrated_total_energy_of_current_state + description: Vertically integrated total energy of current state + type: real + kind: null + units: J m-2 + - name: vertically_integrated_total_water_of_initial_state + description: Vertically integrated total water of initial state + type: real + kind: null + units: kg m-2 + - name: vertically_integrated_total_water_of_current_state + description: Vertically integrated total water of current state + type: real + kind: null + units: kg m-2 + - name: tendency_of_dry_air_enthalpy_at_constant_pressure + description: Change of dry air enthalpy per unit time at constant pressure; d/dt(Cp*T) + type: real + kind: null + units: J kg-1 s-1 + - name: tendency_of_air_temperature + description: Change in temperature per unit time + type: real + kind: null + units: K s-1 + - name: tendency_of_air_temperature_due_to_model_physics + description: Change in air temperature due to model physics per unit time + type: real + kind: null + units: K s-1 + - name: tendency_of_potential_temperature_of_air + description: Change in potential temperature per unit time + type: real + kind: null + units: K s-1 + - name: tendency_of_potential_temperature_of_air_due_to_model_physics + description: Change of potential temperature of air due to model physics per unit + time + type: real + kind: null + units: K s-1 + - name: tendency_of_x_wind + description: Change in x wind per unit time + type: real + kind: null + units: m s-2 + - name: tendency_of_x_wind_due_to_model_physics + description: Change in x wind due to model physics per unit time + type: real + kind: null + units: m s-2 + - name: tendency_of_y_wind + description: Change in y wind per unit time + type: real + kind: null + units: m s-2 + - name: tendency_of_y_wind_due_to_model_physics + description: Change in y wind due to model physics per unit time + type: real + kind: null + units: m s-2 + - name: tendency_of_eastward_wind + description: Change in eastward wind per unit time + type: real + kind: null + units: m s-2 + - name: tendency_of_eastward_wind_due_to_model_physics + description: Change in eastward wind due to model physics per unit time + type: real + kind: null + units: m s-2 + - name: tendency_of_northward_wind + description: Change in northward wind per unit time + type: real + kind: null + units: m s-2 + - name: tendency_of_northward_wind_due_to_model_physics + description: Change in northward wind due to model physics per unit time + type: real + kind: null + units: m s-2 + - name: horizontal_streamfunction_of_air + description: Scalar function describing the streamlines of the horizontal wind + type: real + kind: null + units: m2 s-1 + - name: horizontal_velocity_potential_of_air + description: Scalar potential of the horizontal wind + type: real + kind: null + units: m2 s-1 + - name: upward_absolute_vorticity_of_air + description: The upward (kth) component of the curl of the vector wind field + type: real + kind: null + units: s-1 + - name: horizontal_divergence_of_air + description: The horizontal divergence of the 2-D vector wind field + type: real + kind: null + units: s-1 + - name: upward_heat_flux_in_air_at_surface + description: Upward heat flux in air at surface + type: real + kind: null + units: W m-2 + - name: cumulative_boundary_flux_of_total_energy + description: Cumulative boundary flux of total energy + type: real + kind: null + units: W m-2 + - name: cumulative_boundary_flux_of_total_water + description: Cumulative boundary flux of total water + type: real + kind: null + units: W m-2 + - name: us_standard_air_pressure_at_sea_level + description: US Standard Atmospheric pressure at sea level + type: real + kind: null + units: Pa + - name: surface_reference_pressure + description: Reference pressure used in definition of some other quantity (e.g. + potential temperature, Exner function, etc.) + type: real + kind: null + units: Pa + - name: reference_pressure_in_atmosphere_layer + description: Reference pressure in atmosphere layer + type: real + kind: null + units: Pa + - name: reference_air_pressure_normalized_by_air_pressure_at_surface + description: reference pressure normalized by surface pressure + type: real + kind: null + units: 1 + - name: reference_pressure_in_atmosphere_layer_normalized_by_surface_reference_pressure + description: Reference pressure in atmosphere layer normalized by surface reference + pressure + type: real + kind: null + units: 1 + - name: exner_function + description: exner function, (p/p0)^(Rd/cp), where p0 is 1000 hPa + type: real + kind: null + units: 1 + - name: potential_temperature_of_air + description: air potential temperature + type: real + kind: null + units: K + - name: potential_temperature_of_air_on_previous_timestep + description: air potential temperature on previous timestep + type: real + kind: null + units: K + - name: composition_dependent_gas_constant_of_dry_air + description: Composition dependent gas constant of dry air + type: real + kind: null + units: J kg-1 K-1 + - name: composition_dependent_specific_heat_of_dry_air_at_constant_pressure + description: composition-dependent specific heat of dry air at constant pressure + type: real + kind: null + units: J kg-1 K-1 + - name: composition_dependent_ratio_of_dry_air_gas_constant_to_specific_heat_of_dry_air_at_constant_pressure + description: composition-dependent ratio of dry air gas constant to specific heat + of dry air at constant pressure + type: real + kind: null + units: 1 + - name: ratio_of_water_vapor_gas_constant_to_composition_dependent_dry_air_gas_constant_minus_one + description: Ratio of gas constants of water vapor to composition-dependent dry + air minus one; (Rwv / Rdair) - 1.0 + type: real + kind: null + units: 1 + - name: mass_content_of_cloud_ice_in_atmosphere_layer + description: Mass content of cloud ice in atmosphere layer + type: real + kind: null + units: kg m-2 + - name: mass_content_of_cloud_liquid_water_in_atmosphere_layer + description: Mass content of cloud liquid water in atmosphere layer + type: real + kind: null + units: kg m-2 + - name: mass_content_of_rain_in_atmosphere_layer + description: Mass content of rain in atmosphere layer + type: real + kind: null + units: kg m-2 + - name: mass_content_of_snow_in_atmosphere_layer + description: Mass content of snow in atmosphere layer + type: real + kind: null + units: kg m-2 + - name: mass_content_of_graupel_in_atmosphere_layer + description: Mass content of graupel in atmosphere layer + type: real + kind: null + units: kg m-2 + - name: mass_content_of_hail_in_atmosphere_layer + description: Mass content of hail in atmosphere layer + type: real + kind: null + units: kg m-2 + - name: nonconvective_cloud_area_fraction_in_atmosphere_layer + description: cloud area fraction in atmosphere layer excluding clouds produced + by the convective schemes + type: real + kind: null + units: fraction + - name: relative_humidity + description: Relative humidity + type: real + kind: null + units: fraction + - name: relative_humidity_at_2m + description: Relative humidity at 2m + type: real + kind: null + units: fraction + - name: gravitational_acceleration + description: Gravitational acceleration + type: real + kind: null + units: m s-2 +- name: land_surface + comment: null + standard_names: + - name: land_ice_area_fraction_of_cell_area + description: fraction of horizontal area of grid cell that is ice over land + type: real + kind: null + units: frac + - name: mass_content_of_water_in_top_soil_layer + description: mass per unit area of water in top layer of soil + type: real + kind: null + units: kg m-2 + - name: density_of_snow_at_surface + description: Density of snow at surface + type: real + kind: null + units: kg m-3 + - name: urban_area_fraction_of_cell_area + description: fraction of horizontal area of grid cell that is urban + type: real + kind: null + units: frac + - name: volume_fraction_of_liquid_water_in_soil_at_critical_point + description: volume fraction of water in liquid phase in soil at critical point + type: real + kind: null + units: m3 m-3 + - name: volume_fraction_of_liquid_water_in_soil_at_saturation + description: volume fraction of water in liquid phase in soil at saturation + type: real + kind: null + units: m3 m-3 + - name: volume_fraction_of_liquid_water_in_soil_at_wilting_point + description: volume fraction of water in liquid phase in soil at wilting point + type: real + kind: null + units: m3 m-3 +- name: diagnostics + comment: null + standard_names: + - name: total_precipitation_rate_at_surface + description: Total precipitation rate at surface + type: real + kind: null + units: m s-1 +- name: atmospheric_composition + comment: null + standard_names: + - name: number_of_chemical_species + description: Number of chemical species + type: integer + kind: null + units: count + - name: number_of_tracers + description: Number of tracers + type: integer + kind: null + units: count + - name: water_vapor_mixing_ratio_wrt_moist_air + description: Ratio of the mass of water vapor to the mass of moist air + type: real + kind: null + units: kg kg-1 + - name: water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water + description: Ratio of the mass of water vapor to the mass of moist air and hydrometeors + type: real + kind: null + units: kg kg-1 + - name: water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces + description: Ratio of the mass of water vapor to the mass of moist air and hydrometeors + at all interfaces excluding surface + type: real + kind: null + units: kg kg-1 + - name: mole_fraction_of_water_vapor + description: Mole fraction of water vapor + type: real + kind: null + units: mol mol-1 + - name: water_vapor_mixing_ratio_wrt_dry_air + description: Ratio of the mass of water vapor to the mass of dry air + type: real + kind: null + units: kg kg-1 + - name: water_vapor_mixing_ratio_wrt_dry_air_at_top_interfaces + description: Ratio of the mass of water vapor to the mass of dry air at all interfaces + excluding surface + type: real + kind: null + units: kg kg-1 + - name: cloud_liquid_water_mixing_ratio_wrt_moist_air_and_condensed_water + description: Ratio of the mass of cloud liquid water to the mass of moist air + and condensed water + type: real + kind: null + units: kg kg-1 + - name: cloud_liquid_water_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces + description: Ratio of the mass of cloud liquid water to the mass of moist air + and condensed water at all interfaces excluding surface + type: real + kind: null + units: kg kg-1 + - name: cloud_liquid_water_mixing_ratio_wrt_moist_air + description: Ratio of the mass of cloud liquid water to the mass of moist air + type: real + kind: null + units: kg kg-1 + - name: cloud_liquid_water_mixing_ratio_wrt_dry_air + description: Ratio of the mass of cloud liquid water to the mass of dry air + type: real + kind: null + units: kg kg-1 + - name: cloud_liquid_water_mixing_ratio_wrt_dry_air_at_top_interfaces + description: Ratio of the mass of cloud liquid water to the mass of dry air at + all interfaces excluding surface + type: real + kind: null + units: kg kg-1 + - name: cloud_ice_mixing_ratio_wrt_moist_air_and_condensed_water + description: Ratio of the mass of cloud ice to the mass of moist air and condensed + water + type: real + kind: null + units: kg kg-1 + - name: cloud_ice_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces + description: Ratio of the mass of cloud ice to the mass of moist air and condensed + water at all interfaces excluding surface + type: real + kind: null + units: kg kg-1 + - name: cloud_ice_mixing_ratio_wrt_dry_air + description: Ratio of the mass of cloud ice to the mass of dry air + type: real + kind: null + units: kg kg-1 + - name: cloud_ice_mixing_ratio_wrt_dry_air_at_top_interfaces + description: Ratio of the mass of cloud ice to the mass of dry air at all interfaces + excluding surface + type: real + kind: null + units: kg kg-1 + - name: rain_mixing_ratio_wrt_moist_air_and_condensed_water + description: ratio of the mass of rain to the mass of moist air and condensed + water + type: real + kind: null + units: kg kg-1 + - name: rain_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces + description: ratio of the mass of rain to the mass of moist air and condensed + water at all interfaces excluding surface + type: real + kind: null + units: kg kg-1 + - name: rain_mixing_ratio_wrt_moist_air + description: ratio of the mass of rain to the mass of moist air + type: real + kind: null + units: kg kg-1 + - name: rain_mixing_ratio_wrt_dry_air + description: ratio of the mass of rain to the mass of dry air + type: real + kind: null + units: kg kg-1 + - name: rain_mixing_ratio_wrt_dry_air_at_top_interfaces + description: ratio of the mass of rain to the mass of dry air at all interfaces + excluding surface + type: real + kind: null + units: kg kg-1 + - name: total_water_mixing_ratio_wrt_moist_air_and_condensed_water + description: ratio of the mass of all water phases to the mass of moist air and + condensed water + type: real + kind: null + units: kg kg-1 + - name: total_water_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces + description: ratio of the mass of all water phases to the mass of moist air and + condensed water at all interfaces excluding surface + type: real + kind: null + units: kg kg-1 + - name: total_water_mixing_ratio_wrt_dry_air + description: ratio of the mass of all water phases to the mass of dry air + type: real + kind: null + units: kg kg-1 + - name: total_water_mixing_ratio_wrt_dry_air_at_top_interfaces + description: ratio of the mass of all water phases to the mass of dry air at all + interfaces excluding surface + type: real + kind: null + units: kg kg-1 + - name: water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_assuming_saturation + description: saturated water vapor mass mixing ratio with respect to moist air + and condensed water + type: real + kind: null + units: kg kg-1 + - name: water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_at_top_interfaces_assuming_saturation + description: saturated water vapor mass mixing ratio with respect to moist air + and condensed water at all interfaces excluding surface + type: real + kind: null + units: kg kg-1 + - name: derivative_of_ln_water_vapor_partial_pressure_assuming_saturation_wrt_air_temperature + description: derivative of the natural logarithm of water vapor partial pressure + at saturation with respect to air temperature + type: real + kind: null + units: K-1 + - name: derivative_of_ln_water_vapor_partial_pressure_assuming_saturation_wrt_air_temperature_at_top_interfaces + description: derivative of the natural logarithm of water vapor partial pressure + at saturation with respect to air temperature at all interfaces excluding surface + type: real + kind: null + units: K-1 + - name: mole_fraction_of_ozone_in_air + description: Mole fraction of ozone in air + type: real + kind: null + units: mol mol-1 + - name: mole_fraction_of_co2_in_air + description: Mole fraction of co2 in air + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_ch4 + description: Methane volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_co + description: Carbon monoxide volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_co2 + description: Carbon dioxide volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_ccl4 + description: Tetrachloromethane volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_cfc11 + description: Trichlorofluoromethane volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_cfc12 + description: Dichlorodifluoromethane volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_cfc113 + description: 1,1,2-Trichloro-1,2,2-trifluoroethane volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_cfc22 + description: Chlorodifluoromethane volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_o2 + description: Dioxygen volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_n2o + description: Nitrous oxide volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_no2 + description: Nitrogen dioxide volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_no + description: Nitric oxide volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_o3 + description: Ozone volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_hcho + description: Formaldehyde volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_c5h8 + description: Isoprene volume mixing ratio + type: real + kind: null + units: mol mol-1 + - name: volume_mixing_ratio_of_so2 + description: Sulfur dioxide volume mixing ratio + type: real + kind: null + units: mol mol-1 +- name: 'atmospheric_composition: GOCART aerosols' + comment: null + standard_names: + - name: mass_fraction_of_dust001_in_air + description: Dust bin1 mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_dust002_in_air + description: Dust bin2 mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_dust003_in_air + description: Dust bin3 mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_dust004_in_air + description: Dust bin4 mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_dust005_in_air + description: Dust bin5 mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_sea_salt001_in_air + description: Sea salt bin1 mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_sea_salt002_in_air + description: Sea salt bin2 mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_sea_salt003_in_air + description: Sea salt bin3 mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_sea_salt004_in_air + description: Sea salt bin4 mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_sea_salt005_in_air + description: Sea salt bin5 mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_hydrophobic_black_carbon_in_air + description: Hydrophobic black carbon mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_hydrophilic_black_carbon_in_air + description: Hydrophilic black carbon mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_hydrophobic_organic_carbon_in_air + description: Hydrophobic organic carbon mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_hydrophilic_organic_carbon_in_air + description: Hydrophilic organic carbon mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_sulfate_in_air + description: Sulfate mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_sea_nitrate001_in_air + description: Nitrate bin1 mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_sea_nitrate002_in_air + description: Nitrate bin2 mass fraction + type: real + kind: null + units: kg kg-1 + - name: mass_fraction_of_sea_nitrate003_in_air + description: Nitrate bin3 mass fraction + type: real + kind: null + units: kg kg-1 + - name: volume_extinction_in_air_due_to_aerosol_particles_lambda1 + description: Aerosol extinction at wavelength1 + type: real + kind: null + units: m-1 + - name: volume_extinction_in_air_due_to_aerosol_particles_lambda2 + description: Aerosol extinction at wavelength2 + type: real + kind: null + units: m-1 + - name: volume_extinction_in_air_due_to_aerosol_particles_lambda3 + description: Aerosol extinction at wavelength3 + type: real + kind: null + units: m-1 +- name: 'atmospheric_composition: GLOMAP/UKCA aerosols' + comment: null + standard_names: + - name: mass_fraction_of_dust_coarse_aerosol_particles_in_air + description: Mass fraction of dust coarse aerosol particles in air + type: real + kind: kind_phys + units: kg kg-1 + - name: mass_fraction_of_dust_accumulation_aerosol_particles_in_air + description: Mass fraction of dust accumulation aerosol particles in air + type: real + kind: kind_phys + units: kg kg-1 + - name: number_fraction_of_coarse_aerosol_particles_in_air + description: Number fraction of coarse aerosol particles in air + type: real + kind: kind_phys + units: 1 + - name: number_fraction_of_accumulation_aerosol_particles_in_air + description: Number fraction of accumulation aerosol particles in air + type: real + kind: kind_phys + units: 1 +- name: emissions + comment: Emissions variables, contributed for the Community Emissions Data System + (CEDS) + standard_names: + - name: emissions_of_co_due_to_anthropogenic_sources + description: Carbon monoxide emissions from anthropogenic sources, total + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_no_due_to_anthropogenic_sources + description: Nitric oxide emissions from anthropogenic sources, total + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_hcho_due_to_anthropogenic_sources + description: Formaldehyde emissions from anthropogenic sources, total + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_co_due_to_anthropogenic_agriculture + description: Carbon monoxide emissions from anthropogenic non-combustion agricultural + sector + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_no_due_to_anthropogenic_agriculture + description: Nitric oxide emissions from anthropogenic non-combustion agricultural + sector + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_hcho_due_to_anthropogenic_agriculture + description: Formaldehyde emissions from anthropogenic non-combustion agricultural + sector + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_co_due_to_anthropogenic_energy + description: Carbon monoxide emissions from anthropogenic non-combustion energy + transformation and extraction + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_no_due_to_anthropogenic_energy + description: Nitric oxide emissions from anthropogenic non-combustion energy transformation + and extraction + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_hcho_due_to_anthropogenic_energy + description: Formaldehyde emissions from anthropogenic non-combustion energy transformation + and extraction + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_co_due_to_anthropogenic_industry + description: Carbon monoxide emissions from anthropogenic industrial combustion + and processes + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_no_due_to_anthropogenic_industry + description: Nitric oxide emissions from anthropogenic industrial combustion and + processes + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_hcho_due_to_anthropogenic_industry + description: Formaldehyde emissions from anthropogenic industrial combustion and + processes + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_co_due_to_anthropogenic_rco + description: Carbon monoxide emissions from anthropogenic residential, commercial, + and others + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_no_due_to_anthropogenic_rco + description: Nitric oxide emissions from anthropogenic residential, commercial, + and others + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_hcho_due_to_anthropogenic_rco + description: Formaldehyde emissions from anthropogenic residential, commercial, + and others + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_co_due_to_anthropogenic_shipping + description: Carbon monoxide emissions from anthropogenic international shipping + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_no_due_to_anthropogenic_shipping + description: Nitric oxide emissions from anthropogenic international shipping + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_hcho_due_to_anthropogenic_shipping + description: Formaldehyde emissions from anthropogenic international shipping + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_co_due_to_anthropogenic_solvents + description: Carbon monoxide emissions from anthropogenic solvents + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_no_due_to_anthropogenic_solvents + description: Nitric oxide emissions from anthropogenic solvents + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_hcho_due_to_anthropogenic_solvents + description: Formaldehyde emissions from anthropogenic solvents + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_co_due_to_anthropogenic_transportation + description: Carbon monoxide emissions from anthropogenic surface transportation + (road, rail, other) + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_no_due_to_anthropogenic_transportation + description: Nitric oxide emissions from anthropogenic surface transportation + (road, rail, other) + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_hcho_due_to_anthropogenic_transportation + description: Formaldehyde emissions from anthropogenic surface transportation + (road, rail, other) + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_co_due_to_anthropogenic_waste + description: Carbon monoxide emissions from anthropogenic waste disposal and handling + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_no_due_to_anthropogenic_waste + description: Nitric oxide emissions from anthropogenic waste disposal and handling + type: real + kind: null + units: kg m-2 s-1 + - name: emissions_of_hcho_due_to_anthropogenic_waste + description: Formaldehyde emissions from anthropogenic waste disposal and handling + type: real + kind: null + units: kg m-2 s-1 +- name: Application-specific variables + comment: null + standard_names: [] +- name: system variables + comment: Variables related to the compute environment + standard_names: + - name: flag_for_mpi_root + description: Flag for MPI root process + type: logical + kind: null + units: flag + - name: log_output_unit + description: Fortran logical unit for output log file + type: integer + kind: null + units: 1 +- name: GFS_typedefs_GFS_control_type + comment: null + standard_names: + - name: sigma_pressure_hybrid_coordinate_a_coefficient + description: Sigma pressure hybrid coordinate a coefficient + type: real + kind: null + units: Pa + - name: radiatively_active_gases_as_string + description: Radiatively active gases as string + type: character + kind: null + units: none + - name: aerosol_aware_multiplicative_rain_conversion_parameter_for_deep_convection + description: Aerosol aware multiplicative rain conversion parameter for deep convection + type: real + kind: null + units: 1 + - name: aerosol_aware_multiplicative_rain_conversion_parameter_for_shallow_convection + description: Aerosol aware multiplicative rain conversion parameter for shallow + convection + type: real + kind: null + units: 1 + - name: number_of_microphysics_variables_in_xy_dimensioned_restart_array + description: Number of microphysics variables in xy dimensioned restart array + type: integer + kind: null + units: count + - name: number_of_microphysics_variables_in_xyz_dimensioned_restart_array + description: Number of microphysics variables in xyz dimensioned restart array + type: integer + kind: null + units: count + - name: number_of_random_numbers + description: Number of random numbers + type: integer + kind: null + units: count + - name: multiplicative_tuning_parameter_for_atmosphere_diffusivity + description: Multiplicative tuning parameter for atmosphere diffusivity + type: real + kind: null + units: 1 + - name: atmosphere_heat_diffusivity_due_to_background + description: Atmosphere heat diffusivity due to background + type: real + kind: null + units: m2 s-1 + - name: max_atmosphere_heat_diffusivity_due_to_background + description: Maximum atmosphere heat diffusivity due to background + type: real + kind: null + units: m2 s-1 + - name: atmosphere_momentum_diffusivity_due_to_background + description: Atmosphere momentum diffusivity due to background + type: real + kind: null + units: m2 s-1 + - name: sigma_pressure_hybrid_coordinate_b_coefficient + description: Sigma pressure hybrid coordinate b coefficient + type: real + kind: null + units: 1 + - name: cellular_automata_finer_grid + description: Cellular automata finer grid + type: integer + kind: null + units: count + - name: cellular_automata_lifetime + description: Cellular automata lifetime + type: integer + kind: null + units: count + - name: cellular_automata_seed_frequency + description: Cellular automata seed frequency + type: integer + kind: null + units: count + - name: cellular_automata_seed_probability + description: Cellular automata seed probability + type: real + kind: null + units: fraction + - name: identifier_for_2018_scale_aware_tke_moist_edmf_pbl + description: Identifier for 2018 scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux + planetary boundary layer scheme + type: integer + kind: null + units: 1 + - name: control_for_scale_aware_tke_moist_edmf_pbl_scheme + description: Control for scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux + planetary boundary layer scheme + type: integer + kind: null + units: 1 + - name: identifier_for_2019_scale_aware_tke_moist_edmf_pbl + description: Identifier for 2019 scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux + planetary boundary layer scheme + type: integer + kind: null + units: 1 + - name: cloud_condensate_autoconversion_threshold_coefficient + description: Cloud condensate autoconversion threshold coefficient + type: real + kind: null + units: 1 + - name: cloud_condensate_autoconversion_threshold_coefficient_for_deep_convection + description: Cloud condensate autoconversion threshold coefficient for deep convection + type: real + kind: null + units: 1 + - name: control_for_cloud_area_fraction_option + description: Control for cloud area fraction option + type: integer + kind: null + units: 1 + - name: reciprocal_of_cloud_phase_transition_temperature_range + description: Reciprocal of cloud phase transition temperature range + type: real + kind: null + units: K-1 + - name: cloud_phase_transition_threshold_temperature + description: Cloud phase transition threshold temperature + type: real + kind: null + units: K + - name: control_for_cloud_species_mixing_in_mynn_pbl_scheme + description: Control for cloud species mixing in Mellor-Yamada-Nakanishi-Niino + planetary boundary layer scheme + type: integer + kind: null + units: 1 + - name: control_for_cloud_pdf_in_mynn_pbl_scheme + description: Control for cloud probability density function in Mellor-Yamada-Nakanishi-Niino + planetary boundary layer scheme + type: integer + kind: null + units: 1 + - name: precipitation_evaporation_coefficient + description: Precipitation evaporation coefficient + type: real + kind: null + units: 1 + - name: coefficient_for_variable_bulk_richardson_number_over_land + description: Coefficient for variable bulk richardson number over land + type: real + kind: null + units: 1 + - name: coefficient_for_variable_bulk_richardson_number_over_water + description: Coefficient for variable bulk richardson number over water + type: real + kind: null + units: 1 + - name: autoconversion_to_snow_coefficient + description: Autoconversion to snow coefficient + type: real + kind: null + units: 1 + - name: autoconversion_to_snow_coefficient_for_deep_convection + description: Autoconversion to snow coefficient for deep convection + type: real + kind: null + units: 1 + - name: autoconversion_to_rain_coefficient + description: Autoconversion to rain coefficient + type: real + kind: null + units: 1 + - name: autoconversion_to_rain_coefficient_for_deep_convection + description: Autoconversion to rain coefficient for deep convection + type: real + kind: null + units: 1 + - name: chemical_tracer_scavenging_fractions + description: Chemical tracer scavenging fractions + type: real + kind: null + units: fraction + - name: cloud_condensate_detrainment_coefficient + description: Cloud condensate detrainment coefficient + type: real + kind: null + units: 1 + - name: control_for_convective_cloud_diagnostics + description: Control for convective cloud diagnostics + type: real + kind: null + units: 1 + - name: cosine_of_solar_declination_angle + description: Cosine of solar declination angle + type: real + kind: null + units: 1 + - name: control_for_sgs_cloud_radiation_coupling_in_mynn_pbl_scheme + description: Control for subgrid-scale cloud radiation coupling in Mellor-Yamada-Nakanishi-Niino + planetary boundary layer scheme + type: integer + kind: null + units: 1 + - name: tunable_parameter_for_critical_cloud_top_entrainment_instability_criteria + description: Tunable parameter for critical cloud top entrainment instability + criteria + type: real + kind: null + units: 1 + - name: critical_relative_humidity_at_top_of_atmosphere_boundary_layer + description: Critical relative humidity at top of atmosphere boundary layer + type: real + kind: null + units: fraction + - name: critical_relative_humidity_at_surface + description: Critical relative humidity at surface + type: real + kind: null + units: fraction + - name: critical_relative_humidity_at_toa + description: Critical relative humidity at the top of the atmosphere + type: real + kind: null + units: fraction + - name: date_and_time_at_model_initialization_in_iso_order + description: Date and time at model initialization in iso order + type: integer + kind: null + units: 1 + - name: date_and_time_at_model_initialization_in_united_states_order + description: Date and time at model initialization in united states order + type: integer + kind: null + units: 1 + - name: decorrelation_length_used_by_overlap_method + description: Decorrelation length used by overlap method + type: real + kind: null + units: km + - name: density_of_fresh_water + description: Density of fresh water + type: real + kind: null + units: kg m-3 + - name: depth_of_soil_layers + description: Depth of soil layers + type: real + kind: null + units: m + - name: tunable_parameter_1_for_detrainment_and_precipitation_partitioning_in_chikira_sugiyama_deep_convection + description: Tunable parameter 1 for detrainment and precipitation partitioning + in chikira sugiyama deep convection + type: real + kind: null + units: m + - name: tunable_parameter_2_for_detrainment_and_precipitation_partitioning_in_chikira_sugiyama_deep_convection + description: Tunable parameter 2 for detrainment and precipitation partitioning + in chikira sugiyama deep convection + type: real + kind: null + units: m + - name: detrainment_conversion_parameter_for_deep_convection + description: Detrainment conversion parameter for deep convection + type: real + kind: null + units: m-1 + - name: detrainment_conversion_parameter_for_shallow_convection + description: Detrainment conversion parameter for shallow convection + type: real + kind: null + units: m-1 + - name: do_unified_gravity_wave_physics_diagnostics + description: Do unified gravity wave physics diagnostics + type: logical + kind: null + units: flag + - name: do_chemical_tracer_diagnostics + description: Do chemical tracer diagnostics + type: logical + kind: null + units: flag + - name: sigma_pressure_threshold_at_upper_extent_of_background_diffusion + description: Sigma pressure threshold at upper extent of background diffusion + type: real + kind: null + units: 1 + - name: directory_for_rte_rrtmgp_source_code + description: Directory for Radiative Transfer for Energetics/Rapid Radiative Transfer + Model for General circulation model applications - Parallel (RRTMGP) source + code + type: character + kind: null + units: none + - name: do_myj_pbl_scheme + description: Do Mellor-Yamada-Janjic planetary boundary layer scheme + type: logical + kind: null + units: flag + - name: do_myj_surface_layer_scheme + description: Do Mellor-Yamada-Janjic surface layer scheme + type: logical + kind: null + units: flag + - name: do_mynn_pbl_scheme + description: Do Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme + type: logical + kind: null + units: flag + - name: do_mynn_surface_layer_scheme + description: Do Mellor-Yamada-Nakanishi-Niino surface layer scheme + type: logical + kind: null + units: flag + - name: do_unified_gravity_wave_physics_gwd_scheme + description: Do Unifed Gravity Wave Physics gravity wave drag scheme + type: logical + kind: null + units: flag + - name: downdraft_area_fraction_in_scale_aware_tke_moist_edmf_pbl_scheme + description: Downdraft area fraction in scale-aware turbulent kinetic energy moist + eddy-diffusivity/mass-flux planetary boundary layer scheme + type: real + kind: null + units: fraction + - name: downdraft_fraction_reaching_surface_over_land_for_deep_convection + description: Downdraft fraction reaching surface over land for deep convection + type: real + kind: null + units: fraction + - name: downdraft_fraction_reaching_surface_over_water_for_deep_convection + description: Downdraft fraction reaching surface over water for deep convection + type: real + kind: null + units: fraction + - name: control_for_edmf_in_mynn_pbl_scheme + description: Control for eddy-diffusivity mass flux in Mellor-Yamada-Nakanishi-Niino + planetary boundary layer scheme + type: integer + kind: null + units: 1 + - name: control_for_edmf_momentum_transport_in_mynn_pbl_scheme + description: Control for eddy-diffusivity mass flux momentum transport in Mellor-Yamada-Nakanishi-Niino + surface layer scheme + type: integer + kind: null + units: 1 + - name: control_for_edmf_partitioning_in_mynn_pbl_scheme + description: Control for eddy-diffusivity mass flux partitioning in Mellor-Yamada-Nakanishi-Niino + planetary boundary layer scheme + type: integer + kind: null + units: 1 + - name: control_for_edmf_tke_transport_in_mynn_pbl_scheme + description: Control for eddy-diffusivity mass flux turbulent kinetic energy transport + in Mellor-Yamada-Nakanishi-Niino planetary boundary layer scheme + type: integer + kind: null + units: 1 + - name: surface_layer_scheme_enthalpy_flux_factor + description: Surface layer scheme enthalpy flux factor + type: real + kind: null + units: 1 + - name: tunable_parameter_for_entrainment_efficiency_in_chikira_sugiyama_deep_convection + description: Tunable parameter for entrainment efficiency in chikira sugiyama + deep convection + type: real + kind: null + units: 1 + - name: entrainment_rate_coefficient_for_deep_convection + description: Entrainment rate coefficient for deep convection + type: real + kind: null + units: 1 + - name: entrainment_rate_coefficient_for_shallow_convection + description: Entrainment rate coefficient for shallow convection + type: real + kind: null + units: 1 + - name: equation_of_time + description: Equation of time + type: real + kind: null + units: radian + - name: relative_humidity_threshold_for_condensation + description: Relative humidity threshold for condensation + type: real + kind: null + units: fraction + - name: do_arakawa_wu_downdrafts_for_deep_convection + description: Do arakawa wu downdrafts for deep convection + type: logical + kind: null + units: flag + - name: do_debug_output + description: Do debug output + type: logical + kind: null + units: flag + - name: do_diagnostics + description: Do diagnostics + type: logical + kind: null + units: flag + - name: do_xyz_dimensioned_diagnostics + description: Do xyz dimensioned diagnostics + type: logical + kind: null + units: flag + - name: do_flip + description: Do flip + type: logical + kind: null + units: flag + - name: control_for_flux_adjusting_surface_data_assimilation_system + description: Control for flux adjusting surface data assimilation system + type: integer + kind: null + units: 1 + - name: do_flux_form_in_chikira_sugiyama_deep_convection_scheme + description: Do flux form in chikira sugiyama deep convection scheme + type: logical + kind: null + units: flag + - name: do_nrl_2015_ozone_scheme + description: Do Naval Research Laboratory 2015 ozone scheme + type: logical + kind: null + units: flag + - name: do_prescribed_aerosols + description: Do prescribed aerosols + type: logical + kind: null + units: flag + - name: do_aerosol_physics + description: Do aerosol physics + type: logical + kind: null + units: flag + - name: do_arakawa_wu_adjustment + description: Do arakawa wu adjustment + type: logical + kind: null + units: flag + - name: do_canopy_heat_storage_in_land_surface_scheme + description: Do canopy heat storage in land surface scheme + type: logical + kind: null + units: flag + - name: control_for_land_surface_scheme_canopy_stomatal_resistance + description: Control for land surface scheme canopy stomatal resistance + type: integer + kind: null + units: 1 + - name: do_cellular_automata + description: Do cellular automata + type: logical + kind: null + units: flag + - name: do_chemistry_coupling + description: Do chemistry coupling + type: logical + kind: null + units: flag + - name: do_chikira_sugiyama_deep_convection_scheme + description: Do chikira sugiyama deep convection scheme + type: logical + kind: null + units: flag + - name: do_in_cloud_condensate + description: Do in cloud condensate + type: logical + kind: null + units: flag + - name: do_cloud_effective_radii + description: Do cloud effective radii + type: logical + kind: null + units: flag + - name: control_for_cloud_overlap_method_for_radiation + description: Control for cloud overlap method for radiation + type: integer + kind: null + units: 1 + - name: identifier_for_constant_decorrelation_length_method + description: Identifier for constant decorrelation length method + type: integer + kind: null + units: 1 + - name: do_convective_gwd + description: Do convective gravity wave drag + type: logical + kind: null + units: flag + - name: do_convective_transport_of_tracers + description: Do convective transport of tracers + type: logical + kind: null + units: flag + - name: do_converting_hydrometeors_from_moist_to_dry_air + description: Do converting hydrometeors from moist to dry air + type: logical + kind: null + units: flag + - name: do_crick_elimination + description: Do crick elimination + type: logical + kind: null + units: flag + - name: identifier_for_decorrelation_length_cloud_overlap_method + description: Identifier for decorrelation length cloud overlap method + type: integer + kind: null + units: 1 + - name: control_for_decorrelation_length_method + description: Control for decorrelation length method + type: integer + kind: null + units: 1 + - name: control_for_shortwave_radiation_aerosols + description: Control for shortwave radiation aerosols + type: integer + kind: null + units: 1 + - name: control_for_land_surface_scheme_dynamic_vegetation + description: Control for land surface scheme dynamic vegetation + type: integer + kind: null + units: 1 + - name: identifier_for_exponential_cloud_overlap_method + description: Identifier for exponential cloud overlap method + type: integer + kind: null + units: 1 + - name: identifier_for_exponential_random_cloud_overlap_method + description: Identifier for exponential random cloud overlap method + type: integer + kind: null + units: 1 + - name: identifier_for_fer_hires_microphysics_scheme + description: Identifier for fer hires microphysics scheme + type: integer + kind: null + units: 1 + - name: is_first_timestep + description: Is first timestep + type: logical + kind: null + units: flag + - name: do_surface_flux_coupling + description: Do surface flux coupling + type: logical + kind: null + units: flag + - name: do_fractional_landmask + description: Do fractional landmask + type: logical + kind: null + units: flag + - name: control_for_land_surface_scheme_frozen_soil_permeability + description: Control for land surface scheme frozen soil permeability + type: integer + kind: null + units: 1 + - name: do_cellular_automata_gaussian_spatial_filter + description: Do cellular automata gaussian spatial filter + type: logical + kind: null + units: flag + - name: do_gcycle_surface_option + description: Do gcycle surface option + type: logical + kind: null + units: flag + - name: do_generic_tendency_due_to_deep_convection + description: Do generic tendency due to deep convection + type: logical + kind: null + units: flag + - name: do_generic_tendency_due_to_gwd + description: Do generic tendency due to gravity wave drag + type: logical + kind: null + units: flag + - name: do_generic_tendency_due_to_pbl + description: Do generic tendency due to planetary boundary layer + type: logical + kind: null + units: flag + - name: do_generic_tendency_due_to_shallow_convection + description: Do generic tendency due to shallow convection + type: logical + kind: null + units: flag + - name: identifier_for_grell_freitas_deep_convection + description: Identifier for grell freitas deep convection + type: integer + kind: null + units: 1 + - name: identifier_for_grell_freitas_shallow_convection + description: Identifier for grell freitas shallow convection + type: integer + kind: null + units: 1 + - name: do_gfdl_microphysics_radiation_interaction + description: Do Geophysical Fluid Dynamics Laboratory microphysics radiation interaction + type: logical + kind: null + units: flag + - name: identifier_for_gfdl_microphysics_scheme + description: Identifier for Geophysical Fluid Dynamics Laboratory microphysics + scheme + type: integer + kind: null + units: 1 + - name: do_global_cellular_automata + description: Do global cellular automata + type: logical + kind: null + units: flag + - name: do_global_cellular_automata_closure + description: Do global cellular automata closure + type: logical + kind: null + units: flag + - name: do_global_cellular_automata_deep_convective_entrainment + description: Do global cellular automata deep convective entrainment + type: logical + kind: null + units: flag + - name: do_global_cellular_automata_trigger + description: Do global cellular automata trigger + type: logical + kind: null + units: flag + - name: do_gwd + description: Do gravity wave drag + type: logical + kind: null + units: flag + - name: control_for_land_surface_scheme_surface_snow_albedo + description: Control for land surface scheme surface snow albedo + type: integer + kind: null + units: 1 + - name: do_gsl_drag_suite_large_scale_orographic_and_blocking_drag + description: Do Global Systems Lab drag suite large-scale orographic and blocking + drag + type: logical + kind: null + units: flag + - name: do_gsl_drag_suite_small_scale_orographic_drag + description: Do Global Systems Lab drag suite small-scale orographic drag + type: logical + kind: null + units: flag + - name: do_gsl_drag_suite_turbulent_orographic_form_drag + description: Do Global Systems Lab drag suite turbulent orographic form drag + type: logical + kind: null + units: flag + - name: do_hybrid_edmf_pbl_scheme + description: Do hybrid eddy-diffusivity/mass-flux planetary boundary layer scheme + type: logical + kind: null + units: flag + - name: identifier_for_hogan_decorrelation_length_method + description: Identifier for hogan decorrelation length method + type: integer + kind: null + units: 1 + - name: do_hurricane_specific_code_in_scale_aware_mass_flux_deep_convection + description: Do hurricane specific code in scale aware mass flux deep convection + type: logical + kind: null + units: flag + - name: do_hurricane_specific_code_in_scale_aware_mass_flux_shallow_convection + description: Do hurricane specific code in scale aware mass flux shallow convection + type: logical + kind: null + units: flag + - name: do_hydrostatic_solver + description: Do hydrostatic solver + type: logical + kind: null + units: flag + - name: control_for_ice_cloud_condensation_nuclei_forcing + description: Control for ice cloud condensation nuclei forcing + type: integer + kind: null + units: 1 + - name: do_separate_advection_of_condensate_species + description: Do separate advection of condensate species + type: logical + kind: null + units: flag + - name: control_for_initial_time_date + description: Control for initial time date + type: integer + kind: null + units: 1 + - name: control_for_lake_surface_scheme + description: Control for lake surface scheme + type: integer + kind: null + units: 1 + - name: control_for_land_surface_scheme + description: Control for land surface scheme + type: integer + kind: null + units: 1 + - name: do_cloud_area_fraction_option_for_radiation + description: Do cloud area fraction option for radiation + type: logical + kind: null + units: flag + - name: control_for_land_surface_scheme_lower_boundary_soil_temperature + description: Control for land surface scheme lower boundary soil temperature + type: integer + kind: null + units: 1 + - name: control_for_lw_clouds_subgrid_approximation + description: Control for lw clouds subgrid approximation + type: integer + kind: null + units: 1 + - name: control_for_deep_convection_scheme + description: Control for deep convection scheme + type: integer + kind: null + units: 1 + - name: control_for_shallow_convection_scheme + description: Control for shallow convection scheme + type: integer + kind: null + units: 1 + - name: control_for_max_cloud_overlap_method + description: Control for maximum cloud overlap method + type: integer + kind: null + units: 1 + - name: identifier_for_max_random_cloud_overlap_method + description: Identifier for maximum random cloud overlap method + type: integer + kind: null + units: 1 + - name: control_for_microphysics_scheme + description: Control for microphysics scheme + type: integer + kind: null + units: 1 + - name: do_moorthi_stratus + description: Do moorthi stratus + type: logical + kind: null + units: flag + - name: identifier_for_morrison_gettelman_microphysics_scheme + description: Identifier for morrison gettelman microphysics scheme + type: integer + kind: null + units: 1 + - name: do_mountain_blocking_for_sppt + description: Do mountain blocking for stochastically perturbed physics tendencies + type: logical + kind: null + units: flag + - name: identifier_for_noah_land_surface_scheme + description: Identifier for noah land surface scheme + type: integer + kind: null + units: 1 + - name: do_noah_lsm_ua_extension + description: Do Noah land surface model University of Arizona extension + type: logical + kind: null + units: flag + - name: identifier_for_noah_wrfv4_land_surface_scheme + description: Identifier for noah wrfv4 land surface scheme + type: integer + kind: null + units: 1 + - name: identifier_for_noahmp + description: Identifier for Noah land surface model with multiparameterization + options + type: integer + kind: null + units: 1 + - name: do_nsstm_analysis_in_gcycle + description: Do GFS near-surface sea temperature scheme analysis in gcycle + type: logical + kind: null + units: flag + - name: control_for_nsstm + description: Control for GFS near-surface sea temperature scheme + type: integer + kind: null + units: 1 + - name: identifier_for_new_tiedtke_deep_convection + description: Identifier for new tiedtke deep convection + type: integer + kind: null + units: 1 + - name: identifier_for_new_tiedtke_shallow_convection + description: Identifier for new tiedtke shallow convection + type: integer + kind: null + units: 1 + - name: do_surface_layer_scheme_ocean_currents + description: Do surface layer scheme ocean currents + type: logical + kind: null + units: flag + - name: do_old_pbl_scheme + description: Do old pbl scheme + type: logical + kind: null + units: flag + - name: control_for_optical_property_for_ice_clouds_for_longwave_radiation + description: Control for optical property for ice clouds for longwave radiation + type: integer + kind: null + units: 1 + - name: control_for_optical_property_for_ice_clouds_for_shortwave_radiation + description: Control for optical property for ice clouds for shortwave radiation + type: integer + kind: null + units: 1 + - name: control_for_optical_property_for_liquid_clouds_for_longwave_radiation + description: Control for optical property for liquid clouds for longwave radiation + type: integer + kind: null + units: 1 + - name: control_for_optical_property_for_liquid_clouds_for_shortwave_radiation + description: Control for optical property for liquid clouds for shortwave radiation + type: integer + kind: null + units: 1 + - name: identifier_for_oreopoulos_decorrelation_length_method + description: Identifier for oreopoulos decorrelation length method + type: integer + kind: null + units: 1 + - name: do_output_of_tendency_of_air_temperature_due_to_longwave_heating_on_radiation_timestep_assuming_clear_sky + description: Do output of tendency of air temperature due to longwave heating + on radiation timestep assuming clear sky + type: logical + kind: null + units: flag + - name: do_output_of_tendency_of_air_temperature_due_to_shortwave_heating_on_radiation_timestep_assuming_clear_sky + description: Do output of tendency of air temperature due to shortwave heating + on radiation timestep assuming clear sky + type: logical + kind: null + units: flag + - name: do_nrl_2006_ozone_scheme + description: Do Naval Research Laboratory 2006 ozone scheme + type: logical + kind: null + units: flag + - name: control_for_pdf_shape_for_microphysics + description: Control for probability density function shape for microphysics + type: integer + kind: null + units: 1 + - name: do_surface_layer_scheme_surface_drag_coefficient_for_momentum_in_air_perturbations + description: Do surface layer scheme surface drag coefficient for momentum in + air perturbations + type: logical + kind: null + units: flag + - name: disable_precipitation_radiative_effect + description: Disable precipitation radiative effect + type: logical + kind: null + units: flag + - name: control_for_land_surface_scheme_precipitation_type_partition + description: Control for land surface scheme precipitation type partition + type: integer + kind: null + units: 1 + - name: do_dominant_precipitation_type_partition + description: Do dominant precipitation type partition + type: logical + kind: null + units: flag + - name: do_radar_reflectivity + description: Do radar reflectivity + type: logical + kind: null + units: flag + - name: control_for_land_surface_scheme_radiative_transfer + description: Control for land surface scheme radiative transfer + type: integer + kind: null + units: 1 + - name: identifier_for_random_cloud_overlap_method + description: Identifier for random cloud overlap method + type: integer + kind: null + units: 1 + - name: do_random_clouds_in_relaxed_arakawa_schubert_deep_convection + description: Do random clouds in relaxed arakawa schubert deep convection + type: logical + kind: null + units: flag + - name: do_relaxed_arakawa_schubert_deep_convection + description: Do relaxed arakawa schubert deep convection + type: logical + kind: null + units: flag + - name: do_read_leaf_area_index_from_input + description: Do read leaf area index from input + type: logical + kind: null + units: flag + - name: do_read_surface_albedo_for_diffused_shortwave_from_input + description: Do read surface albedo for diffused shortwave from input + type: logical + kind: null + units: flag + - name: do_limited_roughness_length_over_ocean + description: Do limited surface roughness length over ocean + type: logical + kind: null + units: flag + - name: do_reference_pressure_theta + description: Do reference pressure theta + type: logical + kind: null + units: flag + - name: is_restart + description: Is restart + type: logical + kind: null + units: flag + - name: do_rrtmgp_radiation_scheme + description: Flag for Rapid Radiative Transfer Model for General circulation model + applications - Parallel (RRTMGP) radiation scheme + type: logical + kind: null + units: flag + - name: identifier_for_ruc_land_surface_scheme + description: Identifier for Rapid Update Cycle land surface scheme + type: integer + kind: null + units: 1 + - name: control_for_land_surface_scheme_runoff_and_groundwater + description: Control for land surface scheme runoff and groundwater + type: integer + kind: null + units: 1 + - name: identifier_for_scale_aware_mass_flux_deep_convection + description: Identifier for scale aware mass flux deep convection + type: integer + kind: null + units: 1 + - name: identifier_for_scale_aware_mass_flux_shallow_convection + description: Identifier for scale aware mass flux shallow convection + type: integer + kind: null + units: 1 + - name: identifier_for_sas_deep_convection + description: Identifier for Simplified Arakawa-Schubert deep convection scheme + type: integer + kind: null + units: 1 + - name: identifier_for_sas_shallow_convection + description: Identifier for Simplified Arakawa-Schubert shallow convection scheme + type: integer + kind: null + units: 1 + - name: do_scale_aware_mass_flux_deep_convection + description: Do scale aware mass flux deep convection + type: logical + kind: null + units: flag + - name: do_scale_aware_shin_hong_pbl_scheme + description: Do scale aware shin hong pbl scheme + type: logical + kind: null + units: flag + - name: do_scale_aware_tke_moist_edmf_pbl + description: Do scale-aware turbulent kinetic energy moist eddy-diffusivity/mass-flux + planetary boundary layer scheme + type: logical + kind: null + units: flag + - name: do_sgs_cellular_automata + description: Do sgs cellular automata + type: logical + kind: null + units: flag + - name: do_sas_shallow_convection + description: Do Simplified Arakawa-Schubert shallow convection scheme + type: logical + kind: null + units: flag + - name: do_shoc + description: Do Simplified Higher-Order Closure stochastic physics scheme + type: logical + kind: null + units: flag + - name: do_shoc_after_convection + description: Do Simplified Higher-Order Closure stochastic physics scheme after + convection parameterization + type: logical + kind: null + units: flag + - name: control_for_land_surface_scheme_soil_and_snow_temperature_time_integration + description: Control for land surface scheme soil and snow temperature time integration + type: integer + kind: null + units: 1 + - name: control_for_land_surface_scheme_soil_moisture_factor_stomatal_resistance + description: Control for land surface scheme soil moisture factor stomatal resistance + type: integer + kind: null + units: 1 + - name: control_for_solar_constant + description: Control for solar constant + type: integer + kind: null + units: 1 + - name: do_stochastic_cloud_fraction_perturbations + description: Do stochastic cloud fraction perturbations + type: logical + kind: null + units: flag + - name: do_stochastic_microphysics_perturbations + description: Do stochastic microphysics perturbations + type: logical + kind: null + units: flag + - name: do_stochastic_physics_perturbations + description: Do stochastic physics perturbations + type: logical + kind: null + units: flag + - name: do_stochastic_radiative_heating_perturbations + description: Do stochastic radiative heating perturbations + type: logical + kind: null + units: flag + - name: do_stochastic_shum_option + description: Do Stochastic HUMidity stochastic physics option + type: logical + kind: null + units: flag + - name: do_stochastic_skeb_option + description: Do Stochastic Kinetic Energy Backscatter option + type: logical + kind: null + units: flag + - name: do_stratospheric_water_vapor_physics + description: Do stratospheric water vapor physics + type: logical + kind: null + units: flag + - name: control_for_land_surface_scheme_supercooled_liquid_water + description: Control for land surface scheme supercooled liquid water + type: integer + kind: null + units: 1 + - name: control_for_surface_emissivity + description: Control for surface emissivity + type: integer + kind: null + units: 1 + - name: control_for_land_surface_scheme_surface_layer_drag_coefficient + description: Control for land surface scheme surface layer drag coefficient + type: integer + kind: null + units: 1 + - name: control_for_surface_roughness_option_over_water + description: Control for surface roughness option over water + type: integer + kind: null + units: 1 + - name: control_for_sw_clouds_subgrid_approximation + description: Control for sw clouds subgrid approximation + type: integer + kind: null + units: 1 + - name: control_for_land_surface_scheme_thermal_conductivity_option + description: Control for land surface scheme thermal conductivity option + type: integer + kind: null + units: 1 + - name: identifier_for_thompson_microphysics_scheme + description: Identifier for thompson microphysics scheme + type: integer + kind: null + units: 1 + - name: do_ugwp_version_0 + description: Do Unified Gravity Wave Physics version 0 + type: logical + kind: null + units: flag + - name: do_ugwp_version_0_nonorographic_gwd + description: Do Unified Gravity Wave Physics version 0 non-orographic gravity + wave drag + type: logical + kind: null + units: flag + - name: do_ugwp_version_0_orographic_gwd + description: Do Unified Gravity Wave Physics version 0 orographic gravity wave + drag + type: logical + kind: null + units: flag + - name: do_ugwp_version_1 + description: Do Unified Gravity Wave Physics version 1 + type: logical + kind: null + units: flag + - name: do_ugwp_version_1_nonorographic_gwd + description: Do Unified Gravity Wave Physics version 1 non-orographic gravity + wave drag + type: logical + kind: null + units: flag + - name: do_ugwp_version_1_orographic_gwd + description: Do Unified Gravity Wave Physics version 1 orographic gravity wave + drag + type: logical + kind: null + units: flag + - name: do_shoc_cloud_area_fraction_for_radiation + description: Do Simplified Higher-Order Closure stochastic physics scheme cloud + area fraction for radiation + type: logical + kind: null + units: flag + - name: control_for_surface_layer_scheme_skin_temperature_update + description: Control for surface layer scheme skin temperature update + type: integer + kind: null + units: 1 + - name: control_for_surface_albedo + description: Control for surface albedo + type: integer + kind: null + units: 1 + - name: control_for_prescribed_co2 + description: Control for prescribed co2 + type: integer + kind: null + units: 1 + - name: control_for_vertical_index_direction + description: Control for vertical index direction + type: integer + kind: null + units: 1 + - name: do_ocean_wave_coupling + description: Do ocean wave coupling + type: logical + kind: null + units: flag + - name: do_one_way_ocean_wave_coupling_to_atmosphere + description: Do one way ocean wave coupling to atmosphere + type: logical + kind: null + units: flag + - name: identifier_for_wsm6_microphysics_scheme + description: Identifier for wsm6 microphysics scheme + type: integer + kind: null + units: 1 + - name: do_ysu_pbl_scheme + description: Do Yonsei University (YSU) planetary boundary layer scheme + type: logical + kind: null + units: flag + - name: identifier_for_zhao_carr_microphysics_scheme + description: Identifier for zhao carr microphysics scheme + type: integer + kind: null + units: 1 + - name: identifier_for_zhao_carr_pdf_microphysics_scheme + description: Identifier for Zhao-Carr probability density function microphysics + scheme + type: integer + kind: null + units: 1 + - name: do_hurricane_specific_code_in_hybrid_edmf_pbl_scheme + description: Do hurricane-specific code in hybrid eddy-diffusivity/mass-flux planetary + boundary layer scheme + type: logical + kind: null + units: flag + - name: do_integrated_dynamics_through_earths_atmosphere + description: Do integrated dynamics through earths atmosphere + type: logical + kind: null + units: flag + - name: do_print + description: Do print + type: logical + kind: null + units: flag + - name: do_save_shallow_convective_cloud_area_fraction + description: Do save shallow convective cloud area fraction + type: logical + kind: null + units: flag + - name: do_tke_dissipation_heating + description: Do tke dissipation heating + type: logical + kind: null + units: flag + - name: do_call_longwave_radiation + description: Do call longwave radiation + type: logical + kind: null + units: flag + - name: do_rrtmg_cloud_optics + description: Flag for Rapid Radiative Transfer Model for General circulation model + applications (RRTMG) cloud optics + type: logical + kind: null + units: flag + - name: do_rrtmgp_cloud_optics_lookup_table + description: Flag for Rapid Radiative Transfer Model for General circulation model + applications - Parallel (RRTMGP) cloud optics lookup table + type: logical + kind: null + units: flag + - name: do_rrtmgp_cloud_optics_with_pade_approximation + description: Flag for Rapid Radiative Transfer Model for General circulation model + applications - Parallel (RRTMGP) with Pade approximation + type: logical + kind: null + units: flag + - name: do_rrtmgp_longwave_jacobian + description: Flag for Rapid Radiative Transfer Model for General circulation model + applications - Parallel (RRTMGP) longwave jacobian + type: logical + kind: null + units: flag + - name: do_call_shortwave_radiation + description: Do call shortwave radiation + type: logical + kind: null + units: flag + - name: do_longwave_scattering_in_cloud_optics + description: Do longwave scattering in cloud optics + type: logical + kind: null + units: flag + - name: do_tracer_xyz_dimensioned_diagnostics + description: Do tracer xyz dimensioned diagnostics + type: logical + kind: null + units: flag + - name: control_for_variable_bulk_richardson_number + description: Control for variable bulk richardson number + type: real + kind: null + units: 1 + - name: date_and_time_of_forecast_in_united_states_order + description: Date and time of forecast in united states order + type: integer + kind: null + units: 1 + - name: forecast_utc_hour + description: Forecast utc hour + type: real + kind: null + units: h + - name: forecast_time + description: Forecast time + type: real + kind: null + units: h + - name: forecast_time_on_previous_timestep + description: Forecast time on previous timestep + type: real + kind: null + units: h + - name: period_of_longwave_radiation_calls + description: Period of longwave radiation calls + type: real + kind: null + units: s + - name: period_of_shortwave_radiation_calls + description: Period of shortwave radiation calls + type: real + kind: null + units: s + - name: all_ice_cloud_threshold_temperature + description: All ice cloud threshold temperature + type: real + kind: null + units: K + - name: control_for_gravitational_settling_of_cloud_droplets + description: Control for gravitational settling of cloud droplets + type: integer + kind: null + units: 1 + - name: control_for_drag_suite_gwd + description: Control for drag option in gravity wave drag scheme + type: integer + kind: null + units: 1 + - name: horizontal_loop_extent + description: Horizontal loop extent + type: integer + kind: null + units: count + - name: period_of_diagnostics_reset + description: Period of diagnostics reset + type: real + kind: null + units: h + - name: tunable_parameter_for_ice_supersaturation + description: Tunable parameter for ice supersaturation + type: real + kind: null + units: 1 + - name: index_of_ice_vegetation_category + description: Index of ice vegetation category + type: integer + kind: null + units: index + - name: vertical_dimension_of_sea_ice + description: Vertical dimension of sea ice + type: integer + kind: null + units: count + - name: index_of_air_temperature_on_previous_timestep_in_xyz_dimensioned_restart_array + description: Index of air temperature on previous timestep in xyz dimensioned + restart array + type: integer + kind: null + units: index + - name: index_of_air_temperature_two_timesteps_back_in_xyz_dimensioned_restart_array + description: Index of air temperature two timesteps back in xyz dimensioned restart + array + type: integer + kind: null + units: index + - name: index_of_nonconvective_cloud_area_fraction_in_atmosphere_layer_in_tracer_concentration_array + description: Index of nonconvective cloud area fraction in atmosphere layer in + tracer concentration array + type: integer + kind: null + units: index + - name: index_of_nonconvective_cloud_area_fraction_in_atmosphere_layer_in_xyz_dimensioned_restart_array + description: Index of nonconvective cloud area fraction in atmosphere layer in + xyz dimensioned restart array + type: integer + kind: null + units: index + - name: index_of_cloud_liquid_water_effective_radius_in_xyz_dimensioned_restart_array + description: Index of cloud liquid water effective radius in xyz dimensioned restart + array + type: integer + kind: null + units: index + - name: index_of_convective_cloud_area_fraction_in_xyz_dimensioned_restart_array + description: Index of convective cloud area fraction in xyz dimensioned restart + array + type: integer + kind: null + units: index + - name: index_of_convective_cloud_condensate_mixing_ratio_wrt_moist_air_in_xyz_dimensioned_restart_array + description: Index of convective cloud condensate mass mixing ratio with respect + to moist air in the XYZ-dimensioned restart array + type: integer + kind: null + units: index + - name: index_of_horizontal_gridpoint_for_debug_output + description: Index of horizontal gridpoint for debug output + type: integer + kind: null + units: index + - name: index_of_first_chemical_tracer_in_tracer_concentration_array + description: Index of first chemical tracer in tracer concentration array + type: integer + kind: null + units: index + - name: index_of_graupel_mixing_ratio_wrt_moist_air_in_tracer_concentration_array + description: Index of graupel mass mixing ratio with respect to moist air in the + tracer concentration array + type: integer + kind: null + units: index + - name: index_of_graupel_effective_radius_in_xyz_dimensioned_restart_array + description: Index of graupel effective radius in xyz dimensioned restart array + type: integer + kind: null + units: index + - name: index_of_mass_number_concentration_of_graupel_in_tracer_concentration_array + description: Index of mass number concentration of graupel in tracer concentration + array + type: integer + kind: null + units: index + - name: index_of_cloud_ice_mixing_ratio_wrt_moist_air_in_tracer_concentration_array + description: Index of cloud ice mass mixing ratio with respect to moist air in + the tracer concentration array + type: integer + kind: null + units: index + - name: index_of_mass_number_concentration_of_cloud_ice_in_tracer_concentration_array + description: Index of mass number concentration of cloud ice in tracer concentration + array + type: integer + kind: null + units: index + - name: index_of_cloud_ice_effective_radius_in_xyz_dimensioned_restart_array + description: Index of cloud ice effective radius in xyz dimensioned restart array + type: integer + kind: null + units: index + - name: index_of_mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols_in_tracer_concentration_array + description: Index of mass number concentration of nonhygroscopic ice nucleating + aerosols in tracer concentration array + type: integer + kind: null + units: index + - name: index_of_cloud_liquid_water_mixing_ratio_wrt_moist_air_in_tracer_concentration_array + description: Index of cloud liquid water mass mixing ratio with respect to moist + air in the tracer concentration array + type: integer + kind: null + units: index + - name: index_of_mass_number_concentration_of_cloud_droplets_in_tracer_concentration_array + description: Index of mass number concentration of cloud droplets in tracer concentration + array + type: integer + kind: null + units: index + - name: index_of_mass_weighted_rime_factor_in_tracer_concentration_array + description: Index of mass weighted rime factor in tracer concentration array + type: integer + kind: null + units: index + - name: index_of_ozone_mixing_ratio_wrt_moist_air_in_tracer_concentration_array + description: Index of ozone mass mixing ratio with respect to moist air in the + tracer concentration array + type: integer + kind: null + units: index + - name: index_of_rain_effective_radius_in_xyz_dimensioned_restart_array + description: Index of rain effective radius in xyz dimensioned restart array + type: integer + kind: null + units: index + - name: index_of_mass_number_concentration_of_rain_in_tracer_concentration_array + description: Index of mass number concentration of rain in tracer concentration + array + type: integer + kind: null + units: index + - name: index_of_rain_mixing_ratio_wrt_moist_air_in_tracer_concentration_array + description: Index of rain mass mixing ratio with respect to moist air in the + tracer concentration array + type: integer + kind: null + units: index + - name: index_of_snow_effective_radius_in_xyz_dimensioned_restart_array + description: Index of snow effective radius in xyz dimensioned restart array + type: integer + kind: null + units: index + - name: index_of_mass_number_concentration_of_snow_in_tracer_concentration_array + description: Index of mass number concentration of snow in tracer concentration + array + type: integer + kind: null + units: index + - name: index_of_snow_mixing_ratio_wrt_moist_air_in_tracer_concentration_array + description: Index of snow mass mixing ratio with respect to moist air in the + tracer concentration array + type: integer + kind: null + units: index + - name: index_of_water_vapor_mixing_ratio_wrt_moist_air_on_previous_timestep_in_xyz_dimensioned_restart_array + description: Index of specific humidity (water vapor mass mixing ratio with respect + to moist air) on previous timestep in xyz dimensioned restart array + type: integer + kind: null + units: index + - name: index_of_water_vapor_mixing_ratio_wrt_moist_air_two_timesteps_back_in_xyz_dimensioned_restart_array + description: Index of specific humidity (water vapor mass mixing ratio with respect + to moist air) two timesteps back in xyz dimensioned restart array + type: integer + kind: null + units: index + - name: control_for_stochastic_land_surface_perturbation + description: Control for stochastic land surface perturbation + type: integer + kind: null + units: 1 + - name: index_of_air_pressure_at_surface_on_previous_timestep_in_xyz_dimensioned_restart_array + description: Index of air pressure at surface on previous timestep in xyz dimensioned + restart array + type: integer + kind: null + units: index + - name: index_of_air_pressure_at_surface_two_timesteps_back_in_xyz_dimensioned_tracer_array + description: Index of air pressure at surface two timesteps back in xyz dimensioned + tracer array + type: integer + kind: null + units: index + - name: index_of_enhancement_to_wind_speed_at_surface_adjacent_layer_due_to_convectionin_in_xy_dimensioned_restart_array + description: Index of enhancement to wind speed at surface adjacent layer due + to convectionin in xy dimensioned restart array + type: integer + kind: null + units: index + - name: index_of_tke_in_tracer_concentration_array + description: Index of turbulent kinetic energy in tracer concentration array + type: integer + kind: null + units: index + - name: index_of_mass_number_concentration_of_hygroscopic_aerosols_in_tracer_concentration_array + description: Index of mass number concentration of hygroscopic aerosols in tracer + concentration array + type: integer + kind: null + units: index + - name: index_of_water_vapor_mixing_ratio_wrt_moist_air_in_tracer_concentration_array + description: Index of specific humidity (water vapor mass mixing ratio with respect + to moist air) in tracer concentration array + type: integer + kind: null + units: index + - name: index_of_atmosphere_heat_diffusivity_in_xyz_dimensioned_restart_array + description: Index of atmosphere heat diffusivity in xyz dimensioned restart array + type: integer + kind: null + units: index + - name: index_of_upward_virtual_potential_temperature_flux_in_xyz_dimensioned_restart_array + description: Index of upward virtual potential temperature flux in xyz dimensioned + restart array + type: integer + kind: null + units: index + - name: index_of_subgrid_cloud_area_fraction_in_atmosphere_layer_in_xyz_dimensioned_restart_array + description: Index of subgrid cloud area fraction in atmosphere layer in xyz dimensioned + restart array + type: integer + kind: null + units: index + - name: index_of_timestep + description: Index of timestep + type: integer + kind: null + units: index + - name: reciprocal_of_grid_scale_range + description: Reciprocal of grid scale range + type: real + kind: null + units: rad2 m-2 + - name: iounit_of_log + description: Iounit of log + type: integer + kind: null + units: 1 + - name: iounit_of_namelist + description: Iounit of namelist + type: integer + kind: null + units: 1 + - name: forecast_julian_day + description: Forecast julian day + type: real + kind: null + units: days + - name: min_lake_ice_area_fraction + description: Min lake ice area fraction + type: real + kind: null + units: fraction + - name: multiplicative_tuning_parameter_for_reduced_latent_heat_flux_due_to_canopy_heat_storage + description: Multiplicative tuning parameter for reduced latent heat flux due + to canopy heat storage + type: real + kind: null + units: 1 + - name: max_tendency_of_potential_temperature_of_air_due_to_large_scale_precipitation + description: Maximum tendency of air potential temperature due to large-scale + precipitation + type: real + kind: null + units: K s-1 + - name: lower_bound_of_vertical_dimension_of_surface_snow + description: Lower bound of vertical dimension of surface snow + type: integer + kind: null + units: count + - name: land_surface_perturbation_magnitudes + description: Land surface perturbation magnitudes + type: real + kind: null + units: variable + - name: max_critical_relative_humidity + description: Maximum critical relative humidity + type: real + kind: null + units: fraction + - name: max_grid_scale + description: Maximum grid scale + type: real + kind: null + units: m2 rad-2 + - name: max_soil_moisture_content_for_lsm + description: Maximum soil moisture content for land surface model + type: real + kind: null + units: m + - name: do_allow_supersaturation_after_sedimentation + description: Do allow supersaturation after sedimentation + type: logical + kind: null + units: flag + - name: autoconversion_to_snow_size_threshold + description: Autoconversion to snow size threshold + type: real + kind: null + units: um + - name: bergeron_findeisen_process_efficiency_factor + description: Bergeron findeisen process efficiency factor + type: real + kind: null + units: fraction + - name: relative_variance_of_subgrid_cloud_condensate_distribution + description: Relative variance of subgrid cloud condensate distribution + type: real + kind: null + units: kg2 kg-2 + - name: prescribed_number_concentration_of_cloud_droplets + description: Prescribed number concentration of cloud droplets + type: real + kind: null + units: m-3 + - name: do_prescribed_number_concentration_of_cloud_droplets + description: Do prescribed number concentration of cloud droplets + type: logical + kind: null + units: flag + - name: do_cloud_ice_processes + description: Do cloud ice processes + type: logical + kind: null + units: flag + - name: do_gmao_autoconversion_to_snow + description: Do gmao autoconversion to snow + type: logical + kind: null + units: flag + - name: do_graupel_instead_of_hail + description: Do graupel instead of hail + type: logical + kind: null + units: flag + - name: do_hail_instead_of_graupel + description: Do hail instead of graupel + type: logical + kind: null + units: flag + - name: do_heterogeneous_nucleation + description: Do heterogeneous nucleation + type: logical + kind: null + units: flag + - name: do_liu_autoconversion_to_rain + description: Do liu autoconversion to rain + type: logical + kind: null + units: flag + - name: do_seifert_and_beheng_2001_autoconversion + description: Do seifert and beheng 2001 autoconversion + type: logical + kind: null + units: flag + - name: do_uniform_subcolumns + description: Do uniform subcolumns + type: logical + kind: null + units: flag + - name: do_prescribed_number_concentration_of_graupel + description: Do prescribed number concentration of graupel + type: logical + kind: null + units: flag + - name: do_prescribed_number_concentration_of_cloud_ice + description: Do prescribed number concentration of cloud ice + type: logical + kind: null + units: flag + - name: prescribed_number_concentration_of_graupel + description: Prescribed number concentration of graupel + type: real + kind: null + units: m-3 + - name: prescribed_number_concentration_of_cloud_ice + description: Prescribed number concentration of cloud ice + type: real + kind: null + units: m-3 + - name: min_cloud_condensate_mixing_ratio_wrt_moist_air_threshold + description: Minimum threshold cloud condensate mass mixing ratio with respect + to moist air + type: real + kind: null + units: kg kg-1 + - name: min_cloud_liquid_water_mixing_ratio_wrt_moist_air_threshold + description: Minimum threshold cloud liquid water mass mixing ratio with respect + to moist air + type: real + kind: null + units: kg kg-1 + - name: min_cloud_ice_mixing_ratio_wrt_moist_air_threshold + description: Minimum threshold cloud ice mass mixing ratio with respect to moist + air + type: real + kind: null + units: kg kg-1 + - name: relative_humidity_threshold_for_ice_nucleation + description: Relative humidity threshold for ice nucleation + type: real + kind: null + units: fraction + - name: timescale_for_autoconversion_to_snow + description: Timescale for autoconversion to snow + type: real + kind: null + units: s + - name: alpha_tuning_coefficient_for_morrison_gettelman_microphysics_scheme + description: Alpha tuning coefficient for morrison gettelman microphysics scheme + type: real + kind: null + units: 1 + - name: control_for_precipitation_area_fraction_method + description: Control for precipitation area fraction method + type: character + kind: null + units: none + - name: min_large_ice_fraction + description: Minimum large ice fraction + type: real + kind: null + units: fraction + - name: min_pressure_in_rrtmgp + description: Minimum pressure in Rapid Radiative Transfer Model for General circulation + model applications - Parallel (RRTMGP) + type: real + kind: null + units: Pa + - name: min_grid_scale + description: Min grid scale + type: real + kind: null + units: m2 rad-2 + - name: min_soil_moisture_content_for_lsm + description: Minimum soil moisture content for land surface model + type: real + kind: null + units: m + - name: min_temperature_in_rrtmgp + description: Minimum temperature in Rapid Radiative Transfer Model for General + circulation model applications - Parallel (RRTMGP) + type: real + kind: null + units: K + - name: control_for_total_water_mixing_in_mynn_pbl_scheme + description: Control for total water mixing in Mellor-Yamada-Nakanishi-Niino planetary + boundary layer scheme + type: integer + kind: null + units: 1 + - name: control_for_mixing_length_in_mynn_pbl_scheme + description: Control for mixing length in Mellor-Yamada-Nakanishi-Niino planetary + boundary layer scheme + type: integer + kind: null + units: 1 + - name: momentum_transport_reduction_factor_due_to_pressure_gradient_force_for_deep_convection + description: Momentum transport reduction factor due to pressure gradient force + for deep convection + type: real + kind: null + units: fraction + - name: momentum_transport_reduction_factor_due_to_pressure_gradient_force_for_shallow_convection + description: Momentum transport reduction factor due to pressure gradient force + for shallow convection + type: real + kind: null + units: fraction + - name: mpi_communicator + description: Mpi communicator + type: integer + kind: null + units: index + - name: mpi_rank + description: Mpi rank + type: integer + kind: null + units: index + - name: mpi_root + description: Mpi root + type: integer + kind: null + units: index + - name: number_of_mpi_tasks + description: Number of mpi tasks + type: integer + kind: null + units: count + - name: tunable_parameter_for_critical_cloud_workfunction_in_relaxed_arakawa_schubert_deep_convection + description: Tunable parameter for critical cloud workfunction in relaxed arakawa + schubert deep convection + type: real + kind: null + units: 1 + - name: tunable_parameters_for_convective_gwd + description: Tunable parameters for convective gravity wave drag + type: real + kind: null + units: 1 + - name: multiplicative_tunable_parameters_for_mountain_blocking_and_orographic_gwd + description: Multiplicative tunable parameters for mountain blocking and orographic + gravity wave drag + type: real + kind: null + units: 1 + - name: control_for_additional_diagnostics_in_mynn_pbl_scheme + description: Control for additional diagnostics in Mellor-Yamada-Nakanishi-Niino + planetary boundary layer scheme + type: integer + kind: null + units: 1 + - name: filename_of_namelist + description: Filename of namelist + type: character + kind: null + units: none + - name: filename_of_internal_namelist + description: Filename of internal namelist + type: character + kind: null + units: none + - name: number_of_xy_dimensioned_auxiliary_arrays + description: Number of xy dimensioned auxiliary arrays + type: integer + kind: null + units: count + - name: number_of_pdf_based_variables_in_xyz_dimensioned_restart_array + description: Number of probability density function-based variables in XYZ-dimensioned + restart array + type: integer + kind: null + units: count + - name: number_of_xyz_dimensioned_auxiliary_arrays + description: Number of xyz dimensioned auxiliary arrays + type: integer + kind: null + units: count + - name: number_of_radiatively_active_gases + description: Number of radiatively active gases + type: integer + kind: null + units: count + - name: number_of_aerosol_tracers + description: Number of aerosol tracers + type: integer + kind: null + units: count + - name: number_of_gaussian_quadrature_angles_for_radiation + description: Number of gaussian quadrature angles for radiation + type: integer + kind: null + units: count + - name: number_of_chemical_tracers + description: Number of chemical tracers + type: integer + kind: null + units: count + - name: number_of_condensate_species + description: Number of condensate species + type: integer + kind: null + units: count + - name: number_of_cloud_types_in_chikira_sugiyama_deep_convection + description: Number of cloud types in chikira sugiyama deep convection + type: integer + kind: null + units: count + - name: number_of_convective_cloud_variables_in_xyz_dimensioned_restart_array + description: Number of convective cloud variables in xyz dimensioned restart array + type: integer + kind: null + units: count + - name: number_of_days_in_current_year + description: Number of days in current year + type: integer + kind: null + units: days + - name: number_of_equatorial_longitude_points + description: Number of equatorial longitude points + type: integer + kind: null + units: count + - name: number_of_variables_in_xy_dimensioned_restart_array + description: Number of variables in xy dimensioned restart array + type: integer + kind: null + units: count + - name: number_of_variables_in_xyz_dimensioned_restart_array + description: Number of variables in xyz dimensioned restart array + type: integer + kind: null + units: count + - name: number_of_frozen_precipitation_species + description: Number of frozen precipitation species + type: integer + kind: null + units: count + - name: number_of_hydrometeors + description: Number of hydrometeors + type: integer + kind: null + units: count + - name: number_of_independent_cellular_automata + description: Number of independent cellular automata + type: integer + kind: null + units: count + - name: number_of_iterations_to_spin_up_cellular_automata + description: Number of iterations to spin up cellular automata + type: integer + kind: null + units: count + - name: number_of_perturbed_land_surface_variables + description: Number of perturbed land surface variables + type: integer + kind: null + units: count + - name: number_of_latitude_points + description: Number of latitude points + type: integer + kind: null + units: count + - name: number_of_lines_in_internal_namelist + description: Number of lines in internal namelist + type: integer + kind: null + units: count + - name: number_of_longwave_bands + description: Number of longwave bands + type: integer + kind: null + units: count + - name: number_of_longwave_spectral_points + description: Number of longwave spectral points + type: integer + kind: null + units: count + - name: number_of_x_points_for_current_cubed_sphere_tile + description: Number of x points for current cubed sphere tile + type: integer + kind: null + units: count + - name: number_of_x_points_for_current_mpi_rank + description: Number of x points for current mpi rank + type: integer + kind: null + units: count + - name: number_of_y_points_for_current_cubed_sphere_tile + description: Number of y points for current cubed sphere tile + type: integer + kind: null + units: count + - name: number_of_y_points_for_current_mpi_rank + description: Number of y points for current mpi rank + type: integer + kind: null + units: count + - name: number_of_diagnostics_variables_for_radiation + description: Number of diagnostics variables for radiation + type: integer + kind: null + units: count + - name: number_of_ice_roughness_categories + description: Number of ice roughness categories + type: integer + kind: null + units: count + - name: number_of_spectral_wave_truncation_for_sas_convection + description: Number of spectral wave truncation for Simplified Arakawa-Schubert + deep convection scheme + type: integer + kind: null + units: count + - name: number_of_statistical_measures_of_subgrid_orography + description: Number of statistical measures of subgrid orography + type: integer + kind: null + units: count + - name: number_of_shortwave_bands + description: Number of shortwave bands + type: integer + kind: null + units: count + - name: number_of_shortwave_spectral_points + description: Number of shortwave spectral points + type: integer + kind: null + units: count + - name: index_of_cubed_sphere_tile + description: Index of cubed sphere tile + type: integer + kind: null + units: index + - name: number_of_timesteps_between_diagnostics_resetting + description: Number of timesteps between diagnostics resetting + type: integer + kind: null + units: count + - name: number_of_timesteps_between_longwave_radiation_calls + description: Number of timesteps between longwave radiation calls + type: integer + kind: null + units: count + - name: number_of_timesteps_between_shortwave_radiation_calls + description: Number of timesteps between shortwave radiation calls + type: integer + kind: null + units: count + - name: number_of_timesteps_between_surface_cycling_calls + description: Number of timesteps between surface cycling calls + type: integer + kind: null + units: count + - name: number_of_timesteps_for_concurrent_radiation_and_remainder_physics_calls_after_model_initialization + description: Number of timesteps for concurrent radiation and remainder physics + calls after model initialization + type: integer + kind: null + units: count + - name: number_of_tracers_plus_one + description: Number of tracers plus one + type: integer + kind: null + units: count + - name: vertical_dimension_for_radiation + description: Vertical dimension for radiation + type: integer + kind: null + units: count + - name: vertical_interface_dimension_for_radiation + description: Vertical interface dimension for radiation + type: integer + kind: null + units: count + - name: multiplicative_tuning_parameter_for_potential_evaporation + description: Multiplicative tuning parameter for potential evaporation + type: real + kind: null + units: 1 + - name: air_pressure_at_bottom_extent_of_rayleigh_damping + description: Air pressure at bottom extent of rayleigh damping + type: real + kind: null + units: Pa + - name: rain_conversion_parameter_for_deep_convection + description: Rain conversion parameter for deep convection + type: real + kind: null + units: m-1 + - name: rain_conversion_parameter_for_shallow_convection + description: Rain conversion parameter for shallow convection + type: real + kind: null + units: m-1 + - name: rain_evaporation_coefficient_over_ocean_for_deep_convection + description: Rain evaporation coefficient over ocean for deep convection + type: real + kind: null + units: fraction + - name: rain_evaporation_coefficient_over_land_for_deep_convection + description: Rain evaporation coefficient over land for deep convection + type: real + kind: null + units: fraction + - name: filename_of_rrtmgp_longwave_cloud_optics_coefficients + description: File name of Rapid Radiative Transfer Model for General circulation + model applications - Parallel (RRTMGP) longwave cloud optics coefficients + type: character + kind: null + units: none + - name: filename_of_rrtmgp_shortwave_cloud_optics_coefficients + description: File name of Rapid Radiative Transfer Model for General circulation + model applications - Parallel (RRTMGP) shortwave cloud optics coefficients + type: character + kind: null + units: none + - name: filename_of_rrtmgp_longwave_k_distribution + description: File name of Rapid Radiative Transfer Model for General circulation + model applications - Parallel (RRTMGP) longwave k-distribution + type: character + kind: null + units: none + - name: filename_of_rrtmgp_shortwave_k_distribution + description: File name of Rapid Radiative Transfer Model for General circulation + model applications - Parallel (RRTMGP) shortwave k-distribution + type: character + kind: null + units: none + - name: do_rrtmgp_shortwave_and_rrtmg_longwave_radiation + description: Flag for Rapid Radiative Transfer Model for General circulation model + applications - Parallel (RRTMGP) shortwave and Rapid Radiative Transfer Model + for global climate model (GCM) applications (RRTMG) longwave radiation schemes + type: logical + kind: null + units: flag + - name: min_sea_ice_area_fraction + description: Min sea ice area fraction + type: real + kind: null + units: fraction + - name: forecast_time_in_seconds + description: Forecast time in seconds + type: real + kind: null + units: s + - name: random_number_seed_for_cellular_automata + description: Random number seed for cellular automata + type: integer + kind: null + units: 1 + - name: random_number_seed_for_deep_convection + description: Random number seed for deep convection + type: integer + kind: null + units: 1 + - name: control_for_tke_dissipation_method + description: Control for tke dissipation method + type: real + kind: null + units: 1 + - name: uncentering_coefficient_for_implicit_tke_integration + description: Uncentering coefficient for implicit tke integration + type: real + kind: null + units: 1 + - name: pressure_threshold_for_increased_tke_dissipation + description: Pressure threshold for increased tke dissipation + type: real + kind: null + units: Pa + - name: multiplicative_tunable_parameter_for_tke_dissipation + description: Multiplicative tunable parameter for tke dissipation + type: real + kind: null + units: 1 + - name: multiplicative_tunable_parameter_for_tke_dissipation_at_surface_adjacent_layer + description: Multiplicative tunable parameter for tke dissipation at surface adjacent + layer + type: real + kind: null + units: 1 + - name: sine_of_solar_declination_angle + description: Sine of solar declination angle + type: real + kind: null + units: 1 + - name: vertical_dimension_of_surface_snow + description: Vertical dimension of surface snow + type: integer + kind: null + units: count + - name: control_for_soil_type_dataset + description: Control for soil type dataset + type: integer + kind: null + units: 1 + - name: vertical_dimension_of_soil + description: Vertical dimension of soil + type: integer + kind: null + units: count + - name: vertical_dimension_of_soil_internal_to_land_surface_scheme + description: Vertical dimension of soil internal to land surface scheme + type: integer + kind: null + units: count + - name: solar_constant + description: Solar constant + type: real + kind: null + units: W m-2 + - name: starting_x_index_for_current_mpi_rank + description: Starting x index for current mpi rank + type: integer + kind: null + units: index + - name: starting_y_index_for_current_mpi_rank + description: Starting y index for current mpi rank + type: integer + kind: null + units: index + - name: multiplicative_tuning_parameter_for_reduced_surface_heat_fluxes_due_to_canopy_heat_storage + description: Multiplicative tuning parameter for reduced surface heat fluxes due + to canopy heat storage + type: real + kind: null + units: 1 + - name: thickness_of_soil_layers_for_lsm + description: Thickness of soil layers for land surface model + type: real + kind: null + units: m + - name: cellular_automata_vertical_velocity_perturbation_threshold_for_deep_convection + description: Cellular automata vertical velocity perturbation threshold for deep + convection + type: real + kind: null + units: m s-1 + - name: period_of_max_diagnostics_reset + description: Period of maximum diagnostics reset + type: real + kind: null + units: s + - name: timescale_for_rayleigh_damping + description: Timescale for rayleigh damping + type: real + kind: null + units: d + - name: time_elapsed_since_diagnostics_reset + description: Time elapsed since diagnostics reset + type: real + kind: null + units: h + - name: timestep_for_dynamics + description: Timestep for dynamics + type: real + kind: null + units: s + - name: do_tke_advection + description: Do tke advection + type: logical + kind: null + units: flag + - name: control_for_tke_budget_output + description: Control for tke budget output + type: integer + kind: null + units: 1 + - name: multiplicative_tuning_parameter_for_tke_dissipative_heating + description: Multiplicative tuning parameter for tke dissipative heating + type: real + kind: null + units: 1 + - name: total_amplitude_of_sppt_perturbation + description: Total amplitude of stochastically perturbed physics tendencies perturbation + type: real + kind: null + units: 1 + - name: do_turbulent_orographic_form_drag_in_unified_gravity_wave_physics_gwd_scheme + description: Do turbulent orographic form drag in Unified Gravity Wave Physics + gravity wave drag scheme + type: logical + kind: null + units: flag + - name: updraft_area_fraction_in_scale_aware_tke_moist_edmf_pbl_scheme + description: Updraft area fraction in scale-aware turbulent kinetic energy moist + eddy-diffusivity/mass-flux planetary boundary layer scheme + type: real + kind: null + units: fraction + - name: tunable_parameter_1_for_max_cloud_base_updraft_velocity_in_chikira_sugiyama_deep_convection + description: Tunable parameter 1 for max cloud base updraft velocity in chikira + sugiyama deep convection + type: real + kind: null + units: m s-1 + - name: tunable_parameter_2_for_max_cloud_base_updraft_velocity_in_chikira_sugiyama_deep_convection + description: Tunable parameter 2 for max cloud base updraft velocity in chikira + sugiyama deep convection + type: real + kind: null + units: m s-1 + - name: upper_bound_of_vertical_dimension_of_surface_snow + description: Upper bound of vertical dimension of surface snow + type: integer + kind: null + units: count + - name: index_of_urban_vegetation_category + description: Index of urban vegetation category + type: integer + kind: null + units: index + - name: land_surface_perturbation_variables + description: Land surface perturbation variables + type: character + kind: null + units: none + - name: control_for_vegetation_dataset + description: Control for vegetation dataset + type: integer + kind: null + units: 1 + - name: vertical_layer_dimension_minus_one + description: Vertical layer dimension minus one + type: integer + kind: null + units: count + - name: sigma_pressure_hybrid_vertical_coordinate + description: Sigma pressure hybrid vertical coordinate + type: real + kind: null + units: 1 + - name: lower_bound_for_depth_of_sea_temperature_for_nsstm + description: Lower bound for depth of sea temperature for GFS near-surface sea + temperature scheme + type: integer + kind: null + units: mm + - name: upper_bound_for_depth_of_sea_temperature_for_nsstm + description: Upper bound for depth of sea temperature for GFS near-surface sea + temperature scheme + type: integer + kind: null + units: mm + - name: index_of_water_vegetation_category + description: Index of water vegetation category + type: integer + kind: null + units: index + - name: filename_of_micm_configuration + description: Filename of micm configuration + type: character + kind: null + units: none +- name: GFS_typedefs_GFS_interstitial_type + comment: null + standard_names: + - name: cloud_ice_mixing_ratio_wrt_moist_air_interstitial + description: Cloud ice mass mixing ratio with respect to moist air in interstitial + scheme + type: real + kind: null + units: kg kg-1 + - name: cloud_liquid_water_mixing_ratio_wrt_moist_air_interstitial + description: Cloud liquid water mass mixing ratio with respect to moist air in + interstitial scheme + type: real + kind: null + units: kg kg-1 + - name: radiatively_active_gases + description: Radiatively active gases + type: character + kind: null + units: none + - name: process_split_cumulative_tendency_of_air_temperature + description: Process split cumulative tendency of air temperature + type: real + kind: null + units: K s-1 + - name: process_split_cumulative_tendency_of_mass_number_concentration_of_cloud_liquid_water_particles_in_air + description: Process split cumulative tendency of mass number concentration of + cloud liquid water particles in air + type: real + kind: null + units: kg-1 s-1 + - name: process_split_cumulative_tendency_of_graupel_mixing_ratio_wrt_moist_air + description: Process-split cumulative tendency of the graupel mass mixing ratio + with respect to moist air + type: real + kind: null + units: kg kg-1 s-1 + - name: process_split_cumulative_tendency_of_cloud_ice_mixing_ratio_wrt_moist_air + description: Process-split cumulative tendency of the cloud ice mass mixing ratio + with respect to moist air + type: real + kind: null + units: kg kg-1 s-1 + - name: process_split_cumulative_tendency_of_mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols + description: Process split cumulative tendency of mass number concentration of + nonhygroscopic ice nucleating aerosols + type: real + kind: null + units: kg-1 s-1 + - name: process_split_cumulative_tendency_of_mass_number_concentration_of_cloud_ice_water_crystals_in_air + description: Process split cumulative tendency of mass number concentration of + cloud ice water crystals in air + type: real + kind: null + units: kg-1 s-1 + - name: process_split_cumulative_tendency_of_cloud_liquid_water_mixing_ratio_wrt_moist_air + description: Process-split cumulative tendency of the cloud liquid water mass + mixing ratio with respect to moist air + type: real + kind: null + units: kg kg-1 s-1 + - name: process_split_cumulative_tendency_of_ozone_mixing_ratio_wrt_moist_air + description: Process-split cumulative tendency of the ozone mass mixing ratio + with respect to moist air + type: real + kind: null + units: kg kg-1 s-1 + - name: process_split_cumulative_tendency_of_rain_mixing_ratio_wrt_moist_air + description: Process-split cumulative tendency of the rain mass mixing ratio with + respect to moist air + type: real + kind: null + units: kg kg-1 s-1 + - name: process_split_cumulative_tendency_of_snow_mixing_ratio_wrt_moist_air + description: Process-split cumulative tendency of the snow mass mixing ratio with + respect to moist air + type: real + kind: null + units: kg kg-1 s-1 + - name: process_split_cumulative_tendency_of_tracers + description: Process split cumulative tendency of tracers + type: real + kind: null + units: kg kg-1 s-1 + - name: process_split_cumulative_tendency_of_tke + description: Process-split cumulative change in turbulent kinetic energy per unit + time + type: real + kind: null + units: J s-1 + - name: process_split_cumulative_tendency_of_mass_number_concentration_of_hygroscopic_aerosols + description: Process split cumulative tendency of mass number concentration of + hygroscopic aerosols + type: real + kind: null + units: kg-1 s-1 + - name: process_split_cumulative_tendency_of_water_vapor_mixing_ratio_wrt_moist_air + description: Process-split cumulative tendency of specific humidity (water vapor + mass mixing ratio with respect to moist air) + type: real + kind: null + units: kg kg-1 s-1 + - name: process_split_cumulative_tendency_of_x_wind + description: Process split cumulative tendency of x wind + type: real + kind: null + units: m s-2 + - name: process_split_cumulative_tendency_of_y_wind + description: Process split cumulative tendency of y wind + type: real + kind: null + units: m s-2 + - name: vertical_interface_dimension_interstitial + description: Vertical interface dimension interstitial + type: integer + kind: null + units: count +- name: GFS_typedefs_GFS_tbd_type + comment: null + standard_names: + - name: absolute_momentum_flux_due_to_nonorographic_gwd + description: Absolute momentum flux due to non-orographic gravity wave drag + type: real + kind: null + units: various + - name: cumulative_lwe_thickness_of_convective_precipitation_between_sw_radiation_calls + description: Cumulative liquid water equivalent thickness of convective precipitation + amount between shortwave radiation calls + type: real + kind: null + units: m + - name: mass_number_concentration_of_aerosol_from_gocart_climatology + description: Mass number concentration of aerosol from gocart climatology + type: real + kind: null + units: kg-1 + - name: air_temperature_on_previous_timestep_in_xyz_dimensioned_restart_array + description: Air temperature on previous timestep in xyz dimensioned restart array + type: real + kind: null + units: K + - name: air_temperature_two_timesteps_back + description: Air temperature two timesteps back + type: real + kind: null + units: K + - name: atmosphere_boundary_layer_thickness + description: Atmosphere boundary layer thickness + type: real + kind: null + units: m + - name: atmosphere_heat_diffusivity_from_shoc + description: Atmospheric heat diffusivity from Simplified Higher-Order Closure + stochastic physics scheme + type: real + kind: null + units: m2 s-1 + - name: atmosphere_updraft_convective_mass_flux_at_cloud_base_by_cloud_type + description: Atmosphere updraft convective mass flux at cloud base by cloud type + type: real + kind: null + units: kg m-2 s-1 + - name: cloud_fraction_for_mg + description: Cloud fraction for mg + type: real + kind: null + units: fraction + - name: counter_for_grell_freitas_convection + description: Counter for grell freitas convection + type: integer + kind: null + units: count + - name: convective_cloud_area_fraction + description: Convective cloud area fraction + type: real + kind: null + units: fraction + - name: convective_cloud_condensate_mixing_ratio_wrt_moist_air + description: Convective cloud condensate mass mixing ratio with respect to moist + air + type: real + kind: null + units: kg kg-1 + - name: effective_radius_of_stratiform_cloud_graupel_particle + description: Effective radius of stratiform cloud graupel particle + type: real + kind: null + units: um + - name: effective_radius_of_stratiform_cloud_ice_particle + description: Effective radius of stratiform cloud ice particle + type: real + kind: null + units: um + - name: effective_radius_of_stratiform_cloud_liquid_water_particle + description: Effective radius of stratiform cloud liquid water particle + type: real + kind: null + units: um + - name: effective_radius_of_stratiform_cloud_rain_particle + description: Effective radius of stratiform cloud rain particle + type: real + kind: null + units: um + - name: effective_radius_of_stratiform_cloud_snow_particle + description: Effective radius of stratiform cloud snow particle + type: real + kind: null + units: um + - name: stratospheric_water_vapor_forcing + description: Stratospheric water vapor forcing + type: real + kind: null + units: various + - name: heat_exchange_coefficient_for_myj_schemes + description: Heat exchange coefficient for Mellor-Yamada-Janjic physics schemes + type: real + kind: null + units: m s-1 + - name: ice_nucleation_number_from_climatology + description: Ice nucleation number from climatology + type: real + kind: null + units: kg-1 + - name: upward_virtual_potential_temperature_flux + description: Upward virtual potential temperature flux + type: real + kind: null + units: K m s-1 + - name: upward_flux_of_water_vapor_mixing_ratio_wrt_moist_air_at_surface_for_myj_surface_layer_scheme + description: Upward flux of specific humidity (water vapor mass mixing ratio with + respect to moist air) at surface for MYJ surface layer scheme + type: real + kind: null + units: m s-1 kg kg-1 + - name: cumulative_max_vertical_index_at_cloud_base_between_sw_radiation_calls + description: Cumulative maximum vertical index at cloud base between shortwave + radiation calls + type: real + kind: null + units: 1 + - name: map_of_block_column_number_to_global_i_index + description: Map of block column number to global i index + type: integer + kind: null + units: index + - name: map_of_block_column_number_to_global_j_index + description: Map of block column number to global j index + type: integer + kind: null + units: index + - name: turbulent_mixing_length + description: Turbulent mixing length + type: real + kind: null + units: m + - name: water_vapor_mixing_ratio_wrt_moist_air_on_previous_timestep + description: Specific humidity (water vapor mass mixing ratio with respect to + moist air) on previous timestep + type: real + kind: null + units: kg kg-1 + - name: tendency_of_water_vapor_mixing_ratio_wrt_moist_air_due_to_nonphysics + description: Tendency of specific humidity (water vapor mass mixing ratio with + respect to moist air) due to non-physics processes + type: real + kind: null + units: kg kg-1 s-1 + - name: momentum_exchange_coefficient_for_myj_schemes + description: Momentum exchange coefficient for Mellor-Yamada-Janjic physics schemes + type: real + kind: null + units: m s-1 + - name: ozone_forcing + description: Ozone forcing + type: real + kind: null + units: various + - name: potential_temperature_of_air_at_top_of_viscous_sublayer + description: Potential temperature of air at top of viscous sublayer + type: real + kind: null + units: K + - name: variance_of_water_vapor_mixing_ratio_wrt_moist_air + description: Variance of specific humidity (water vapor mass mixing ratio with + respect to moist air) + type: real + kind: null + units: kg2 kg-2 + - name: random_number + description: Random number + type: real + kind: null + units: 1 + - name: random_number_seed_for_mcica_longwave + description: Random number seed for Monte-Carlo Independent Column Approximation + longwave scheme + type: integer + kind: null + units: 1 + - name: random_number_seed_for_mcica_shortwave + description: Random number seed for Monte-Carlo Independent Column Approximation + shortwave scheme + type: integer + kind: null + units: 1 + - name: cumulative_min_vertical_index_at_cloud_base_between_sw_radiation_calls + description: Cumulative min vertical index at cloud base between sw radiation + calls + type: real + kind: null + units: 1 + - name: water_vapor_mixing_ratio_wrt_moist_air_at_top_of_viscous_sublayer + description: Specific humidity (water vapor mass mixing ratio with respect to + moist air) at the top of the viscous sublayer + type: real + kind: null + units: kg kg-1 + - name: stability_function_for_heat + description: Stability function for heat + type: real + kind: null + units: 1 + - name: subgrid_scale_cloud_area_fraction_in_atmosphere_layer + description: Subgrid scale cloud area fraction in atmosphere layer + type: real + kind: null + units: fraction + - name: subgrid_scale_cloud_ice_mixing_ratio_wrt_moist_air + description: Subgrid-scale cloud ice mass mixing ratio with respect to moist air + type: real + kind: null + units: kg kg-1 + - name: subgrid_scale_cloud_liquid_water_mixing_ratio_wrt_moist_air + description: Subgrid-scale cloud liquid water mass mixing ratio with respect to + moist air + type: real + kind: null + units: kg kg-1 + - name: subgrid_scale_cloud_fraction_from_shoc + description: Subgrid-scale cloud fraction from Simplified Higher-Order Closure + stochastic physics scheme + type: real + kind: null + units: fraction + - name: air_pressure_at_surface_on_previous_timestep + description: Air pressure at surface on previous timestep + type: real + kind: null + units: Pa + - name: air_pressure_at_surface_two_timesteps_back + description: Air pressure at surface two timesteps back + type: real + kind: null + units: Pa + - name: control_for_surface_layer_evaporation + description: Control for surface layer evaporation + type: real + kind: null + units: 1 + - name: water_vapor_mixing_ratio_wrt_moist_air_at_surface_for_myj_schemes + description: Surface specific humidity (water vapor mass mixing ratio with respect + to moist air) for Mellor-Yamada-Janjic physics schemes + type: real + kind: null + units: kg kg-1 + - name: enhancement_to_wind_speed_at_surface_adjacent_layer_due_to_convection + description: Enhancement to wind speed at surface adjacent layer due to convection + type: real + kind: null + units: m s-1 + - name: covariance_of_air_temperature_and_water_vapor_mixing_ratio_wrt_moist_air + description: Covariance of air temperature and specific humidity (water vapor + mass mixing ratio with respect to moist air) + type: real + kind: null + units: K kg kg-1 + - name: variance_of_air_temperature + description: Variance of air temperature + type: real + kind: null + units: K2 + - name: tendency_of_air_temperature_due_to_nonphysics + description: Tendency of air temperature due to nonphysics + type: real + kind: null + units: K s-1 + - name: tendency_of_air_temperature_to_withhold_from_sppt + description: Change of air temperature to withhold from stochastically perturbed + physics tendencies per unit time + type: real + kind: null + units: K s-1 + - name: tendency_of_activated_cloud_condensation_nuclei_from_climatology + description: Change of activated cloud condensation nuclei from climatology per + unit time + type: real + kind: null + units: kg-1 s-1 + - name: lwe_thickness_of_rain_on_dynamics_timestep_for_coupling + description: Liquid water equivalent thickness of rain amount on dynamics timestep + for coupling + type: real + kind: null + units: m + - name: lwe_thickness_of_snowfall_on_dynamics_timestep_for_coupling + description: Liquid water equivalent thickness of snowfall amount on dynamics + timestep for coupling + type: real + kind: null + units: m + - name: nonadvected_tke_multiplied_by_2 + description: Non-advected turbulent kinetic energy multiplied by 2 + type: real + kind: null + units: m2 s-2 + - name: x_wind_at_top_of_viscous_sublayer + description: X wind at top of viscous sublayer + type: real + kind: null + units: m s-1 + - name: y_wind_at_top_of_viscous_sublayer + description: Y wind at top of viscous sublayer + type: real + kind: null + units: m s-1 + - name: water_vapor_mixing_ratio_wrt_moist_air_on_previous_timestep_in_xyz_dimensioned_restart_array + description: Specific humidity (water vapor mass mixing ratio with respect to + moist air) on previous timestep in XYZ-dimensioned restart array + type: real + kind: null + units: kg kg-1 + - name: water_vapor_mixing_ratio_wrt_moist_air_two_timesteps_back + description: Specific humidity (water vapor mass mixing ratio with respect to + moist air) two timesteps back + type: real + kind: null + units: kg kg-1 + - name: scaling_factor_for_momentum_at_top_of_viscous_sublayer + description: Scaling factor for momentum at top of viscous sublayer + type: real + kind: null + units: 1 + - name: scaling_factor_for_potential_temperature_at_top_of_viscous_sublayer + description: Scaling factor for potential temperature at top of viscous sublayer + type: real + kind: null + units: 1 + - name: scaling_factor_for_water_vapor_mixing_ratio_wrt_moist_air_at_top_of_viscous_sublayer + description: Scaling factor for specific humidity (water vapor mass mixing ratio + with respect to moist air) at the top of the viscous sublayer + type: real + kind: null + units: 1 +- name: GFS_typedefs_GFS_sfcprop_type + comment: null + standard_names: + - name: wet_canopy_area_fraction + description: Wet canopy area fraction + type: real + kind: null + units: fraction + - name: baseline_surface_longwave_emissivity + description: Baseline surface longwave emissivity + type: real + kind: null + units: fraction + - name: baseline_roughness_length + description: Baseline surface roughness length + type: real + kind: null + units: m + - name: air_temperature_in_canopy + description: Air temperature in canopy + type: real + kind: null + units: K + - name: air_vapor_pressure_in_canopy + description: Air vapor pressure in canopy + type: real + kind: null + units: Pa + - name: canopy_intercepted_ice_mass + description: Canopy intercepted ice mass + type: real + kind: null + units: mm + - name: canopy_intercepted_liquid_water + description: Canopy intercepted liquid water + type: real + kind: null + units: mm + - name: canopy_water_mass_content + description: Canopy water mass content + type: real + kind: null + units: kg m-2 + - name: cloud_condensed_water_mixing_ratio_wrt_moist_air_at_surface_over_ice + description: Cloud condensed water mass mixing ratio with respect to moist air + at surface over ice + type: real + kind: null + units: kg kg-1 + - name: cloud_condensed_water_mixing_ratio_wrt_moist_air_at_surface_over_land + description: Cloud condensed water mass mixing ratio with respect to moist air + at surface over land + type: real + kind: null + units: kg kg-1 + - name: coefficient_c_0 + description: Coefficient c 0 + type: real + kind: null + units: 1 + - name: coefficient_c_d + description: Coefficient c d + type: real + kind: null + units: 1 + - name: coefficient_w_0 + description: Coefficient w 0 + type: real + kind: null + units: 1 + - name: coefficient_w_d + description: Coefficient w d + type: real + kind: null + units: 1 + - name: convective_precipitation_rate_on_previous_timestep + description: Convective precipitation rate on previous timestep + type: real + kind: null + units: mm s-1 + - name: deep_soil_temperature + description: Deep soil temperature + type: real + kind: null + units: K + - name: frozen_precipitation_density + description: Frozen precipitation density + type: real + kind: null + units: kg m-3 + - name: heat_content_in_diurnal_thermocline + description: Heat content in diurnal thermocline + type: real + kind: null + units: K m + - name: diurnal_thermocline_layer_thickness + description: Diurnal thermocline layer thickness + type: real + kind: null + units: m + - name: x_current_in_diurnal_thermocline + description: X current in diurnal thermocline + type: real + kind: null + units: m2 s-1 + - name: y_current_in_diurnal_thermocline + description: Y current in diurnal thermocline + type: real + kind: null + units: m2 s-1 + - name: volumetric_equilibrium_soil_moisture + description: Volumetric equilibrium soil moisture + type: real + kind: null + units: m3 m-3 + - name: explicit_precipitation_rate_on_previous_timestep + description: Explicit precipitation rate on previous timestep + type: real + kind: null + units: mm s-1 + - name: fast_soil_pool_mass_content_of_carbon + description: Fast soil pool mass content of carbon + type: real + kind: null + units: g m-2 + - name: fine_root_mass_content + description: Fine root mass content + type: real + kind: null + units: g m-2 + - name: control_for_frozen_soil_physics + description: Control for frozen soil physics + type: real + kind: null + units: 1 + - name: precipitation_type + description: Precipitation type + type: real + kind: null + units: 1 + - name: strong_cosz_area_fraction + description: Strong cosz area fraction + type: real + kind: null + units: fraction + - name: weak_cosz_area_fraction + description: Weak cosz area fraction + type: real + kind: null + units: fraction + - name: free_convection_layer_thickness_in_sea_water + description: Free convection layer thickness in sea water + type: real + kind: null + units: m + - name: consecutive_calls_for_grell_freitas_convection + description: Consecutive calls for grell freitas convection + type: real + kind: null + units: 1 + - name: graupel_precipitation_rate_on_previous_timestep + description: Graupel precipitation rate on previous timestep + type: real + kind: null + units: mm s-1 + - name: ground_temperature + description: Ground temperature + type: real + kind: null + units: K + - name: ice_precipitation_rate_on_previous_timestep + description: Ice precipitation rate on previous timestep + type: real + kind: null + units: mm s-1 + - name: control_for_diurnal_thermocline_calculation + description: Control for diurnal thermocline calculation + type: real + kind: null + units: 1 + - name: temperature_in_ice_layer + description: Temperature in ice layer + type: real + kind: null + units: K + - name: upward_flux_of_water_vapor_mixing_ratio_wrt_moist_air_at_surface + description: Upward flux of water vapor mixing ratio wrt moist air at surface + type: real + kind: null + units: kg kg-1 m s-1 + - name: upward_temperature_flux_at_surface + description: Upward temperature flux at surface + type: real + kind: null + units: K m s-1 + - name: lake_area_fraction + description: Lake area fraction + type: real + kind: null + units: fraction + - name: lake_depth + description: Lake depth + type: real + kind: null + units: m + - name: water_storage_in_lake + description: Water storage in lake + type: real + kind: null + units: mm + - name: land_area_fraction + description: Land area fraction + type: real + kind: null + units: fraction + - name: depth_from_snow_surface_at_bottom_interface + description: Depth from snow surface at bottom interface + type: real + kind: null + units: m + - name: leaf_area_index + description: Leaf area index + type: real + kind: null + units: 1 + - name: leaf_mass_content + description: Leaf mass content + type: real + kind: null + units: g m-2 + - name: lwe_thickness_of_convective_precipitation_on_previous_timestep + description: Liquid water equivalent thickness of convective precipitation amount + on previous timestep + type: real + kind: null + units: m + - name: lwe_thickness_of_explicit_precipitation_on_previous_timestep + description: Liquid water equivalent thickness of explicit precipitation amount + on previous timestep + type: real + kind: null + units: m + - name: lwe_thickness_of_graupel_on_previous_timestep + description: Liquid water equivalent thickness of graupel amount on previous timestep + type: real + kind: null + units: m + - name: lwe_thickness_of_ice_precipitation_on_previous_timestep + description: Liquid water equivalent thickness of ice precipitation amount on + previous timestep + type: real + kind: null + units: m + - name: snow_mass_on_previous_timestep + description: Snow mass on previous timestep + type: real + kind: null + units: m + - name: max_vegetation_area_fraction + description: Maximum vegetation area fraction + type: real + kind: null + units: fraction + - name: nir_albedo_strong_cosz + description: albedo for near-infrared radiation with strong dependence on cosine + of the zenith angle + type: real + kind: null + units: fraction + - name: nir_albedo_weak_cosz + description: Nir albedo weak cosz + type: real + kind: null + units: fraction + - name: vis_albedo_strong_cosz + description: Vis albedo strong cosz + type: real + kind: null + units: fraction + - name: vis_albedo_weak_cosz + description: Vis albedo weak cosz + type: real + kind: null + units: fraction + - name: min_vegetation_area_fraction + description: Min vegetation area fraction + type: real + kind: null + units: fraction + - name: monin_obukhov_similarity_function_for_heat + description: Monin obukhov similarity function for heat + type: real + kind: null + units: 1 + - name: monin_obukhov_similarity_function_for_momentum + description: Monin obukhov similarity function for momentum + type: real + kind: null + units: 1 + - name: dimensionless_age_of_surface_snow + description: Dimensionless age of surface snow + type: real + kind: null + units: 1 + - name: nonnegative_lwe_thickness_of_precipitation_on_dynamics_timestep + description: Non-negative liquid water equivalent thickness of precipitation amount + on dynamics timestep + type: real + kind: null + units: m + - name: normalized_soil_wetness_for_lsm + description: Normalized soil wetness for land surface model + type: real + kind: null + units: fraction + - name: number_of_snow_layers + description: Number of snow layers + type: real + kind: null + units: 1 + - name: ocean_mixed_layer_thickness + description: Ocean mixed layer thickness + type: real + kind: null + units: m + - name: height_above_mean_sea_level + description: Height above mean sea level + type: real + kind: null + units: m + - name: height_above_mean_sea_level_at_surface + description: Height above mean sea level at local surface + type: real + kind: null + units: m + - name: unfiltered_height_above_mean_sea_level + description: Unfiltered height above mean sea level + type: real + kind: null + units: m + - name: potential_temperature_of_air_at_2m + description: Potential temperature of air at 2m + type: real + kind: null + units: K + - name: ratio_of_wind_at_surface_adjacent_layer_to_wind_at_10m + description: Ratio of wind at surface adjacent layer to wind at 10m + type: real + kind: null + units: ratio + - name: reciprocal_of_obukhov_length + description: Reciprocal of obukhov length + type: real + kind: null + units: m-1 + - name: sea_area_fraction + description: Sea area fraction + type: real + kind: null + units: fraction + - name: sea_ice_area_fraction_of_sea_area_fraction + description: Sea ice area fraction of sea area fraction + type: real + kind: null + units: fraction + - name: sea_ice_temperature + description: Sea ice temperature + type: real + kind: null + units: K + - name: sea_ice_thickness + description: Sea ice thickness + type: real + kind: null + units: m + - name: area_type + description: Area type + type: real + kind: null + units: 1 + - name: reference_sea_surface_temperature + description: Reference sea surface temperature + type: real + kind: null + units: K + - name: sea_surface_temperature + description: Sea surface temperature + type: real + kind: null + units: K + - name: sea_water_salinity_in_diurnal_thermocline + description: Sea water salinity in diurnal thermocline + type: real + kind: null + units: ppt m + - name: surface_sensible_heat_due_to_rainfall + description: Surface sensible heat due to rainfall + type: real + kind: null + units: W + - name: derivative_of_heat_content_in_diurnal_thermocline_wrt_surface_skin_temperature + description: Derivative of heat content in diurnal thermocline wrt surface skin + temperature + type: real + kind: null + units: m + - name: derivative_of_diurnal_thermocline_layer_thickness_wrt_surface_skin_temperature + description: Derivative of diurnal thermocline layer thickness wrt surface skin + temperature + type: real + kind: null + units: m K-1 + - name: slow_soil_pool_mass_content_of_carbon + description: Slow soil pool mass content of carbon + type: real + kind: null + units: g m-2 + - name: albedo_on_previous_timestep_assuming_deep_snow + description: Albedo on previous timestep assuming deep snow + type: real + kind: null + units: fraction + - name: lwe_thickness_of_ice_in_surface_snow + description: Liquid water equivalent thickness of ice in surface snow + type: real + kind: null + units: mm + - name: lwe_thickness_of_liquid_water_in_surface_snow + description: Liquid water equivalent thickness of liquid water in surface snow + type: real + kind: null + units: mm + - name: lwe_thickness_of_snowfall_on_previous_timestep + description: Liquid water equivalent thickness of snowfall amount on previous + timestep + type: real + kind: null + units: mm + - name: lwe_snowfall_rate + description: Liquid water equivalent snowfall rate + type: real + kind: null + units: mm s-1 + - name: snowfall_rate_on_previous_timestep + description: Snowfall rate on previous timestep + type: real + kind: null + units: mm s-1 + - name: temperature_in_surface_snow + description: Temperature in surface snow + type: real + kind: null + units: K + - name: temperature_in_surface_snow_at_surface_adjacent_layer_over_ice + description: Temperature in surface snow at surface adjacent layer over ice + type: real + kind: null + units: K + - name: temperature_in_surface_snow_at_surface_adjacent_layer_over_land + description: Temperature in surface snow at surface adjacent layer over land + type: real + kind: null + units: K + - name: soil_temperature + description: Soil temperature + type: real + kind: null + units: K + - name: soil_temperature_for_lsm + description: Soil temperature for land surface model + type: real + kind: null + units: K + - name: volumetric_soil_moisture_between_soil_bottom_and_water_table + description: Volumetric soil moisture between soil bottom and water table + type: real + kind: null + units: m3 m-3 + - name: water_vapor_mixing_ratio_wrt_moist_air_at_2m + description: Specific humidity (water vapor mass mixing ratio with respect to + moist air) at two meters above surface + type: real + kind: null + units: kg kg-1 + - name: water_vapor_mixing_ratio_wrt_moist_air_and_condensed_water_at_2m + description: mixing ratio of the mass of water vapor to the mass of moist air + and hydrometeors, at two meters above surface + type: real + kind: null + units: kg kg-1 + - name: specified_upward_flux_of_water_vapor_mixing_ratio_wrt_moist_air_at_surface + description: Specified upward specific humidity (water vapor mass mixing ratio + with respect to moist air) flux at surface + type: real + kind: null + units: kg kg-1 m s-1 + - name: specified_upward_temperature_flux_at_surface + description: Specified upward temperature flux at surface + type: real + kind: null + units: K m s-1 + - name: standard_deviation_of_subgrid_orography + description: Standard deviation of subgrid orography + type: real + kind: null + units: m + - name: statistical_measures_of_subgrid_orography_collection_array + description: Statistical measures of subgrid orography collection array + type: real + kind: null + units: various + - name: stem_area_index + description: Stem area index + type: real + kind: null + units: 1 + - name: stem_mass_content + description: Stem mass content + type: real + kind: null + units: g m-2 + - name: molecular_sublayer_temperature_correction_in_sea_water + description: Molecular sublayer temperature correction in sea water + type: real + kind: null + units: K + - name: molecular_sublayer_thickness_in_sea_water + description: Molecular sublayer thickness in sea water + type: real + kind: null + units: m + - name: diffuse_nir_albedo_of_ice + description: ice surface albedo for diffuse near-infrared radiation + type: real + kind: null + units: fraction + - name: diffuse_nir_albedo_of_land + description: land surface albedo for diffuse near-infrared radiation + type: real + kind: null + units: fraction + - name: diffuse_vis_albedo_of_ice + description: ice surface albedo for diffuse visible radiation + type: real + kind: null + units: fraction + - name: diffuse_vis_albedo_of_land + description: land surface albedo for diffuse visible radiation + type: real + kind: null + units: fraction + - name: direct_nir_albedo_of_ice + description: ice surface albedo for direct near-infrared radiation + type: real + kind: null + units: fraction + - name: direct_nir_albedo_of_land + description: land surface albedo for direct near-infrared radiation + type: real + kind: null + units: fraction + - name: direct_vis_albedo_of_ice + description: ice surface albedo for direct visible radiation + type: real + kind: null + units: fraction + - name: direct_vis_albedo_of_land + description: land surface albedo for direct visible radiation + type: real + kind: null + units: fraction + - name: diffuse_shortwave_albedo_of_ice + description: ice surface albedo for diffuse shortwave radiation + type: real + kind: null + units: fraction + - name: diffuse_shortwave_albedo_of_land + description: land surface albedo for diffuse shortwave radiation + type: real + kind: null + units: fraction + - name: surface_drag_coefficient_for_heat_and_moisture_for_noahmp + description: Surface drag coefficient for heat and moisture for Noah land surface + model with multiparameterization options + type: real + kind: null + units: 1 + - name: surface_drag_coefficient_for_momentum_for_noahmp + description: Surface drag coefficient for momentum for Noah land surface model + with multiparameterization options + type: real + kind: null + units: 1 + - name: surface_exchange_coefficient_for_heat + description: Surface exchange coefficient for heat + type: real + kind: null + units: W m-2 K-1 + - name: surface_exchange_coefficient_for_heat_at_2m + description: Surface exchange coefficient for heat at 2m + type: real + kind: null + units: m s-1 + - name: surface_exchange_coefficient_for_moisture + description: Surface exchange coefficient for moisture + type: real + kind: null + units: kg m-2 s-1 + - name: surface_exchange_coefficient_for_moisture_at_2m + description: Surface exchange coefficient for moisture at 2m + type: real + kind: null + units: m s-1 + - name: surface_friction_velocity + description: Surface friction velocity + type: real + kind: null + units: m s-1 + - name: surface_friction_velocity_for_momentum + description: Surface friction velocity for momentum + type: real + kind: null + units: m s-1 + - name: upward_latent_heat_flux_at_surface + description: Upward latent heat flux at surface + type: real + kind: null + units: W m-2 + - name: surface_longwave_emissivity_over_ice + description: Surface longwave emissivity over ice + type: real + kind: null + units: fraction + - name: surface_longwave_emissivity_over_land + description: Surface longwave emissivity over land + type: real + kind: null + units: fraction + - name: roughness_length + description: surface roughness length + type: real + kind: null + units: cm + - name: roughness_length_from_wave_model + description: surface roughness length from wave model + type: real + kind: null + units: cm + - name: roughness_length_over_ice + description: surface roughness length over ice + type: real + kind: null + units: cm + - name: roughness_length_over_land + description: surface roughness length over land + type: real + kind: null + units: cm + - name: roughness_length_over_water + description: surface roughness length over water + type: real + kind: null + units: cm + - name: skin_temperature_at_surface + description: Skin temperature at surface + type: real + kind: null + units: K + - name: skin_temperature_at_surface_over_ice + description: Skin temperature at surface over (or where) ice + type: real + kind: null + units: K + - name: skin_temperature_at_surface_over_land + description: Skin temperature at surface over (or where) land + type: real + kind: null + units: K + - name: skin_temperature_at_surface_over_ocean + description: Skin temperature at surface over (or where) ocean + type: real + kind: null + units: K + - name: skin_temperature_at_surface_over_snow + description: Skin temperature at surface over (or where) snow + type: real + kind: null + units: K + - name: snow_area_fraction_at_surface_over_ice + description: Snow area fraction at surface over ice + type: real + kind: null + units: fraction + - name: snow_area_fraction_at_surface_over_land + description: Snow area fraction at surface over land + type: real + kind: null + units: fraction + - name: albedo_of_land_assuming_no_snow_cover + description: surface snow-free albedo over land + type: real + kind: null + units: fraction + - name: lwe_surface_snow + description: Liquid water equivalent surface snow + type: real + kind: null + units: mm + - name: water_vapor_mixing_ratio_wrt_moist_air_at_surface + description: Specific humidity (water vapor mass mixing ratio with respect to + moist air) at surface + type: real + kind: null + units: kg kg-1 + - name: ratio_of_height_to_monin_obukhov_length + description: Ratio of height to monin obukhov length + type: real + kind: null + units: 1 + - name: air_temperature_at_2m + description: Air temperature at 2m + type: real + kind: null + units: K + - name: surface_temperature_scale + description: Surface temperature scale + type: real + kind: null + units: K + - name: time_since_last_snowfall + description: Time since last snowfall + type: real + kind: null + units: s + - name: surface_snow_mass_content_over_ice + description: Surface snow mass content over ice + type: real + kind: null + units: kg m-2 + - name: surface_snow_mass_content_over_land + description: Surface snow mass content over land + type: real + kind: null + units: kg m-2 + - name: upper_bound_of_max_albedo_assuming_deep_snow + description: Upper bound of maximum albedo assuming deep snow + type: real + kind: null + units: fraction + - name: vegetation_area_fraction + description: Vegetation area fraction + type: real + kind: null + units: fraction + - name: canopy_temperature + description: Canopy temperature + type: real + kind: null + units: K + - name: volume_fraction_of_frozen_soil_moisture_for_lsm + description: Volume fraction of frozen soil moisture for land surface model + type: real + kind: null + units: fraction + - name: volume_fraction_of_condensed_water_in_soil + description: Volume fraction of condensed water in soil + type: real + kind: null + units: fraction + - name: volume_fraction_of_soil_moisture_for_lsm + description: Volume fraction of soil moisture for land surface model + type: real + kind: null + units: fraction + - name: volume_fraction_of_unfrozen_water_in_soil + description: Volume fraction of unfrozen water in soil + type: real + kind: null + units: fraction + - name: volume_fraction_of_unfrozen_soil_moisture_for_lsm + description: Volume fraction of unfrozen soil moisture for land surface model + type: real + kind: null + units: fraction + - name: lwe_thickness_of_surface_snow + description: Liquid water equivalent thickness of surface snow amount + type: real + kind: null + units: mm + - name: water_storage_in_aquifer + description: Water storage in aquifer + type: real + kind: null + units: mm + - name: water_storage_in_aquifer_and_saturated_soil + description: Water storage in aquifer and saturated soil + type: real + kind: null + units: mm + - name: water_table_depth + description: Water table depth + type: real + kind: null + units: m + - name: water_table_recharge_assuming_deep + description: Water table recharge assuming deep + type: real + kind: null + units: m + - name: water_table_recharge_assuming_shallow + description: Water table recharge assuming shallow + type: real + kind: null + units: m + - name: water_vapor_mixing_ratio_wrt_moist_air_at_surface_over_ice + description: Specific humidity (water vapor mass mixing ratio with respect to + moist air) at surface over ice + type: real + kind: null + units: kg kg-1 + - name: water_vapor_mixing_ratio_wrt_moist_air_at_surface_over_land + description: Specific humidity (water vapor mass mixing ratio with respect to + moist air) at surface over land + type: real + kind: null + units: kg kg-1 + - name: wood_mass_content + description: Wood mass content + type: real + kind: null + units: g m-2 +- name: GFS_typedefs_GFS_coupling_type + comment: null + standard_names: + - name: cellular_automata_global_pattern_from_coupled_process + description: Cellular automata global pattern from coupled process + type: real + kind: null + units: 1 + - name: convective_cloud_condensate_after_rainout + description: Convective cloud condensate after rainout + type: real + kind: null + units: kg kg-1 + - name: cumulative_downwelling_diffuse_nir_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep + description: cumulative downwelling diffuse near-infrared shortwave flux at the + surface level for coupling multiplied by the duration of the timestep + type: real + kind: null + units: J m-2 + - name: cumulative_downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep + description: cumulative downwelling diffuse ultraviolet and visible shortwave + flux at the surface level for coupling multiplied by the duration of the timestep + type: real + kind: null + units: J m-2 + - name: cumulative_downwelling_direct_nir_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep + description: cumulative downwelling direct near-infrared shortwave flux at the + surface level for coupling multiplied by the duration of the timestep + type: real + kind: null + units: J m-2 + - name: cumulative_downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep + description: cumulative downwelling direct ultraviolet and visible shortwave flux + at the surface level for coupling multiplied by the duration of the timestep + type: real + kind: null + units: J m-2 + - name: cumulative_downwelling_longwave_flux_at_surface_for_coupling_multiplied_by_timestep + description: Cumulative downwelling longwave flux at surface for coupling multiplied + by timestep + type: real + kind: null + units: J m-2 + - name: cumulative_downwelling_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep + description: Cumulative downwelling shortwave flux at surface for coupling multiplied + by timestep + type: real + kind: null + units: J m-2 + - name: cumulative_net_downwelling_diffuse_nir_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep + description: cumulative net downwelling diffuse near-infrared shortwave flux at + the surface level for coupling multiplied by the duration of the timestep + type: real + kind: null + units: J m-2 + - name: cumulative_net_downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep + description: cumulative net downwelling diffuse ultraviolet and visible shortwave + flux at the surface level for coupling multiplied by the duration of the timestep + type: real + kind: null + units: J m-2 + - name: cumulative_net_downwelling_direct_nir_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep + description: cumulative net downwelling direct near-infrared shortwave flux at + the surface level for coupling multiplied by the duration of the timestep + type: real + kind: null + units: J m-2 + - name: cumulative_net_downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep + description: cumulative net downwelling direct ultraviolet and visible shortwave + flux at the surface level for coupling multiplied by the duration of the timestep + type: real + kind: null + units: J m-2 + - name: cumulative_net_downwelling_longwave_flux_at_surface_for_coupling_multiplied_by_timestep + description: Cumulative net downwelling longwave flux at surface for coupling + multiplied by timestep + type: real + kind: null + units: J m-2 + - name: cumulative_net_downwelling_shortwave_flux_at_surface_for_coupling_multiplied_by_timestep + description: Cumulative net downwelling shortwave flux at surface for coupling + multiplied by timestep + type: real + kind: null + units: J m-2 + - name: cumulative_upward_latent_heat_flux_at_surface_for_coupling_multiplied_by_timestep + description: Cumulative upward latent heat flux at surface for coupling multiplied + by timestep + type: real + kind: null + units: J m-2 + - name: cumulative_upward_sensible_heat_flux_at_surface_for_coupling_multiplied_by_timestep + description: Cumulative upward sensible heat flux at surface for coupling multiplied + by timestep + type: real + kind: null + units: J m-2 + - name: cumulative_x_momentum_flux_at_surface_for_coupling_multiplied_by_timestep + description: Cumulative x momentum flux at surface for coupling multiplied by + timestep + type: real + kind: null + units: Pa s + - name: cumulative_y_momentum_flux_at_surface_for_coupling_multiplied_by_timestep + description: Cumulative y momentum flux at surface for coupling multiplied by + timestep + type: real + kind: null + units: Pa s + - name: cellular_automata_area_fraction_for_deep_convection_from_coupled_process + description: Cellular automata area fraction for deep convection from coupled + process + type: real + kind: null + units: fraction + - name: atmosphere_heat_diffusivity_for_chemistry_coupling + description: Atmosphere heat diffusivity for chemistry coupling + type: real + kind: null + units: m2 s-1 + - name: water_vapor_mixing_ratio_wrt_moist_air_at_2m_for_coupling + description: Specific humidity (water vapor mass mixing ratio with respect to + moist air) at 2 meters above surface used for coupling + type: real + kind: null + units: kg kg-1 + - name: air_pressure_at_surface_for_coupling + description: Air pressure at surface for coupling + type: real + kind: null + units: Pa + - name: downwelling_diffuse_nir_shortwave_flux_at_surface_for_coupling + description: downwelling diffuse near-infrared shortwave flux at the surface level + for coupling + type: real + kind: null + units: W m-2 + - name: downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_for_coupling + description: downwelling diffuse ultraviolet and visible shortwave flux at the + surface level for coupling + type: real + kind: null + units: W m-2 + - name: downwelling_direct_nir_shortwave_flux_at_surface_for_coupling + description: downwelling direct near-infrared shortwave flux at the surface level + for coupling + type: real + kind: null + units: W m-2 + - name: downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling + description: downwelling direct ultraviolet and visible shortwave flux at the + surface level for coupling + type: real + kind: null + units: W m-2 + - name: downwelling_longwave_flux_at_surface_for_coupling + description: Downwelling longwave flux at surface for coupling + type: real + kind: null + units: W m-2 + - name: downwelling_shortwave_flux_at_surface_for_coupling + description: Downwelling shortwave flux at surface for coupling + type: real + kind: null + units: W m-2 + - name: net_downwelling_diffuse_nir_shortwave_flux_at_surface_for_coupling + description: net downwelling diffuse near-infrared shortwave flux at the surface + level for coupling + type: real + kind: null + units: W m-2 + - name: net_downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_for_coupling + description: net downwelling diffuse ultraviolet and visible shortwave flux at + the surface level for coupling + type: real + kind: null + units: W m-2 + - name: net_downwelling_direct_nir_shortwave_flux_at_surface_for_coupling + description: net downwelling direct near-infrared shortwave flux at the surface + level for coupling + type: real + kind: null + units: W m-2 + - name: net_downwelling_direct_uv_and_vis_shortwave_flux_at_surface_for_coupling + description: net_downwelling direct ultraviolet and visible shortwave flux at + the surface level for coupling + type: real + kind: null + units: W m-2 + - name: net_downwelling_longwave_flux_at_surface_for_coupling + description: Net downwelling longwave flux at surface for coupling + type: real + kind: null + units: W m-2 + - name: net_downwelling_shortwave_flux_at_surface_for_coupling + description: Net downwelling shortwave flux at surface for coupling + type: real + kind: null + units: W m-2 + - name: surface_skin_temperature_for_coupling + description: Surface skin temperature for coupling + type: real + kind: null + units: K + - name: upward_latent_heat_flux_at_surface_for_coupling + description: Upward latent heat flux at surface for coupling + type: real + kind: null + units: W m-2 + - name: upward_sensible_heat_flux_at_surface_for_chemistry_coupling + description: Upward sensible heat flux at surface for chemistry coupling + type: real + kind: null + units: W m-2 + - name: upward_sensible_heat_flux_at_surface_for_coupling + description: Upward sensible heat flux at surface for coupling + type: real + kind: null + units: W m-2 + - name: x_momentum_flux_at_surface_for_coupling + description: X momentum flux at surface for coupling + type: real + kind: null + units: Pa + - name: y_momentum_flux_at_surface_for_coupling + description: Y momentum flux at surface for coupling + type: real + kind: null + units: Pa + - name: temperature_at_2m_for_coupling + description: Temperature at 2m for coupling + type: real + kind: null + units: K + - name: tendency_of_water_vapor_mixing_ratio_wrt_moist_air_due_to_moist_convection_for_coupling + description: Tendency of water vapor mixing ratio wrt moist air due to moist convection + for coupling + type: real + kind: null + units: kg kg-1 s-1 + - name: x_wind_at_10m_for_coupling + description: X wind at 10m for coupling + type: real + kind: null + units: m s-1 + - name: y_wind_at_10m_for_coupling + description: Y wind at 10m for coupling + type: real + kind: null + units: m s-1 + - name: cumulative_lwe_thickness_of_convective_precipitation_for_coupling + description: Cumulative liquid water equivalent thickness of convective precipitation + amount for coupling + type: real + kind: null + units: m + - name: cumulative_lwe_thickness_of_precipitation_for_coupling + description: Cumulative liquid water equivalent thickness of precipitation amount + for coupling + type: real + kind: null + units: m + - name: cumulative_lwe_thickness_of_snow_for_coupling + description: Cumulative liquid water equivalent thickness of snow amount for coupling + type: real + kind: null + units: m + - name: physics_field_for_coupling + description: Physics field for coupling + type: real + kind: null + units: m2 s-2 + - name: rrtmgp_jacobian_of_upward_lw_flux + description: Rapid Radiative Transfer Model for General circulation model applications + - Parallel (RRTMGP) jacobian of upward longwave flux + type: real + kind: null + units: W m-2 K-1 + - name: rrtmgp_lw_downward_allsky_flux_profile + description: Rapid Radiative Transfer Model for General circulation model applications + - Parallel (RRTMGP) longwave downward all-sky flux profile + type: real + kind: null + units: W m-2 + - name: rrtmgp_lw_upward_allsky_flux_profile + description: Rapid Radiative Transfer Model for General circulation model applications + - Parallel (RRTMGP) longwave upward all-sky flux profile + type: real + kind: null + units: W m-2 + - name: area_type_from_coupled_process + description: Area type from coupled process + type: real + kind: null + units: 1 + - name: downwelling_diffuse_nir_shortwave_flux_at_surface_on_radiation_timestep + description: downwelling diffuse near-infrared shortwave flux at the surface level + on the radiation timestep + type: real + kind: null + units: W m-2 + - name: downwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_on_radiation_timestep + description: downwelling diffuse ultraviolet and visible shortwave flux at the + surface level on the radiation timestep + type: real + kind: null + units: W m-2 + - name: downwelling_direct_nir_shortwave_flux_at_surface_on_radiation_timestep + description: downwelling direct near-infrared shortwave flux at the surface level + on the radiation timestep + type: real + kind: null + units: W m-2 + - name: downwelling_direct_uv_and_vis_shortwave_flux_at_surface_on_radiation_timestep + description: downwelling direct ultraviolet and visible shortwave flux at the + surface level on the radiation timestep + type: real + kind: null + units: W m-2 + - name: downwelling_longwave_flux_at_surface_on_radiation_timestep + description: Downwelling longwave flux at surface on radiation timestep + type: real + kind: null + units: W m-2 + - name: downwelling_shortwave_flux_at_surface_on_radiation_timestep + description: Downwelling shortwave flux at surface on radiation timestep + type: real + kind: null + units: W m-2 + - name: net_downwelling_shortwave_flux_at_surface_on_radiation_timestep + description: Net downwelling shortwave flux at surface on radiation timestep + type: real + kind: null + units: W m-2 + - name: diffuse_nir_albedo_for_coupling + description: surface albedo for diffuse near-infrared radiation for coupling + type: real + kind: null + units: fraction + - name: direct_nir_albedo_for_coupling + description: surface albedo for direct near-infrared radiation for coupling + type: real + kind: null + units: fraction + - name: lwe_surface_snow_from_coupled_process + description: Liquid water equivalent surface snow from coupled process + type: real + kind: null + units: m + - name: upward_latent_heat_flux_at_surface_from_coupled_process + description: Upward latent heat flux at surface from coupled process + type: real + kind: null + units: W m-2 + - name: upward_sensible_heat_flux_at_surface_from_coupled_process + description: Upward sensible heat flux at surface from coupled process + type: real + kind: null + units: W m-2 + - name: upwelling_diffuse_nir_shortwave_flux_at_surface_on_radiation_timestep + description: upwelling diffuse near-infrared shortwave flux at the surface level + on the radiation timestep + type: real + kind: null + units: W m-2 + - name: upwelling_diffuse_uv_and_vis_shortwave_flux_at_surface_on_radiation_timestep + description: upwelling diffuse ultraviolet and visible shortwave flux at the surface + level on the radiation timestep + type: real + kind: null + units: W m-2 + - name: upwelling_direct_nir_shortwave_flux_at_surface_on_radiation_timestep + description: upwelling direct near-infrared shortwave flux at the surface level + on the radiation timestep + type: real + kind: null + units: W m-2 + - name: upwelling_direct_uv_and_vis_shortwave_flux_at_surface_on_radiation_timestep + description: upwelling direct ultraviolet and visible shortwave flux at the surface + level on the radiation timestep + type: real + kind: null + units: W m-2 + - name: upwelling_longwave_flux_at_surface_from_coupled_process + description: Upwelling longwave flux at surface from coupled process + type: real + kind: null + units: W m-2 + - name: upwelling_longwave_flux_at_surface_on_radiation_timestep + description: Upwelling longwave flux at surface on radiation timestep + type: real + kind: null + units: W m-2 + - name: diffuse_vis_albedo_for_coupling + description: surface albedo for diffuse visible radiation for coupling + type: real + kind: null + units: fraction + - name: direct_vis_albedo_for_coupling + description: surface albedo for direct visible radiation for coupling + type: real + kind: null + units: fraction + - name: x_momentum_flux_at_surface_from_coupled_process + description: X momentum flux at surface from coupled process + type: real + kind: null + units: Pa + - name: y_momentum_flux_at_surface_from_coupled_process + description: Y momentum flux at surface from coupled process + type: real + kind: null + units: Pa + - name: tendency_of_nonhygroscopic_ice_nucleating_aerosols_at_surface_adjacent_layer + description: Tendency of nonhygroscopic ice nucleating aerosols at surface adjacent + layer + type: real + kind: null + units: kg-1 s-1 + - name: tendency_of_hygroscopic_aerosols_at_surface_adjacent_layer + description: Tendency of hygroscopic aerosols at surface adjacent layer + type: real + kind: null + units: kg-1 s-1 + - name: updated_tendency_of_air_temperature_due_to_longwave_heating_on_physics_timestep + description: Updated tendency of air temperature due to longwave heating on physics + timestep + type: real + kind: null + units: K s-1 + - name: cellular_automata_vertical_scaling_factor + description: Cellular automata vertical scaling factor + type: real + kind: null + units: fraction + - name: shum_scaling_factors_from_coupled_process + description: Stochastic Humidity stochastic physics option scaling factors from + coupled process + type: real + kind: null + units: 1 + - name: skeb_x_wind_scaling_factors_from_coupled_process + description: Stochastic Kinetic Energy Backscatter x-wind scaling factors from + coupled process + type: real + kind: null + units: 1 + - name: skeb_y_wind_scaling_factors_from_coupled_process + description: Stochastic Kinetic Energy Backscatter y-wind scaling factors from + coupled process + type: real + kind: null + units: 1 + - name: sppt_scaling_factors_from_coupled_process + description: Stochastically perturbed physics tendencies scaling factors from + coupled process + type: real + kind: null + units: 1 + - name: surface_stochastic_scaling_factors_from_coupled_process + description: Surface stochastic scaling factors from coupled process + type: real + kind: null + units: 1 +- name: GFS_typedefs_GFS_statein_type + comment: null + standard_names: + - name: air_pressure_at_lowest_model_interface + description: Air pressure at lowest model interface + type: real + kind: null + units: Pa + - name: air_pressure_at_surface_adjacent_layer + description: Air pressure at surface adjacent layer + type: real + kind: null + units: Pa + - name: air_temperature_at_surface_adjacent_layer + description: Air temperature at surface adjacent layer + type: real + kind: null + units: K + - name: cloud_liquid_water_mixing_ratio_wrt_moist_air_at_surface_adjacent_layer + description: Cloud liquid water mass mixing ratio with respect to moist air at + surface-adjacent layer + type: real + kind: null + units: kg kg-1 + - name: mass_number_concentration_of_cloud_liquid_water_particles_in_air + description: Mass number concentration of cloud liquid water particles in air + type: real + kind: null + units: kg-1 + - name: exner_function_wrt_surface_pressure + description: Exner function with respect to surface pressure, (p/ps)^(Rd/cp) + type: real + kind: null + units: 1 + - name: exner_function_at_surface_adjacent_layer + description: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the + pressure at the surface-adjacent layer + type: real + kind: null + units: 1 + - name: exner_function_at_interfaces + description: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the + pressure at vertical layer interfaces + type: real + kind: null + units: 1 + - name: dissipation_estimate_of_air_temperature_at_model_layers + description: Dissipation estimate of air temperature at model layers + type: real + kind: null + units: K + - name: geopotential + description: Geopotential + type: real + kind: null + units: m2 s-2 + - name: geopotential_at_interfaces + description: Geopotential at interfaces + type: real + kind: null + units: m2 s-2 + - name: graupel_mixing_ratio_wrt_moist_air + description: Graupel mass mixing ratio with respect to moist air + type: real + kind: null + units: kg kg-1 + - name: mass_number_concentration_of_graupel_in_air + description: Mass number concentration of graupel in air + type: real + kind: null + units: kg-1 + - name: mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols + description: Mass number concentration of nonhygroscopic ice nucleating aerosols + type: real + kind: null + units: kg-1 + - name: mass_number_concentration_of_cloud_ice_water_crystals_in_air + description: Mass number concentration of cloud ice water crystals in air + type: real + kind: null + units: kg-1 + - name: ozone_mixing_ratio_wrt_moist_air + description: Ozone mass mixing ratio with respect to moist air + type: real + kind: null + units: kg kg-1 + - name: mass_number_concentration_of_rain_in_air + description: Mass number concentration of rain in air + type: real + kind: null + units: kg-1 + - name: mass_number_concentration_of_snow_in_air + description: Mass number concentration of snow in air + type: real + kind: null + units: kg-1 + - name: snow_mixing_ratio_wrt_moist_air + description: Snow mass mixing ratio with respect to moist air + type: real + kind: null + units: kg kg-1 + - name: tracer_concentration + description: Tracer concentration + type: real + kind: null + units: kg kg-1 + - name: mass_number_concentration_of_hygroscopic_aerosols + description: Mass number concentration of hygroscopic aerosols + type: real + kind: null + units: kg-1 + - name: water_vapor_mixing_ratio_wrt_moist_air_at_surface_adjacent_layer + description: Specific humidity (water vapor mass mixing ratio with respect to + moist air) at surface-adjacent layer + type: real + kind: null + units: kg kg-1 + - name: x_wind_at_surface_adjacent_layer + description: X wind at surface adjacent layer + type: real + kind: null + units: m s-1 + - name: y_wind_at_surface_adjacent_layer + description: Y wind at surface adjacent layer + type: real + kind: null + units: m s-1 +- name: GFS_typedefs_GFS_cldprop_type + comment: null + standard_names: + - name: convective_cloud_area_fraction_between_sw_radiation_calls_from_cnvc90 + description: Convective cloud area fraction between shortwave radiation calls + from GFS Convective Cloud Diagnostics + type: real + kind: null + units: fraction + - name: pressure_at_convective_cloud_base_between_sw_radiation_calls_from_cnvc90 + description: Pressure at convective cloud base between shortwave radiation calls + from GFS Convective Cloud Diagnostics + type: real + kind: null + units: Pa + - name: pressure_at_convective_cloud_top_between_sw_radiation_calls_from_cnvc90 + description: Pressure at convective cloud top between shortwave radiation calls + from GFS Convective Cloud Diagnostics + type: real + kind: null + units: Pa +- name: GFS_typedefs_GFS_radtend_type + comment: null + standard_names: + - name: cosine_of_solar_zenith_angle_for_daytime_points_on_radiation_timestep + description: Cosine of solar zenith angle for daytime points on radiation timestep + type: real + kind: null + units: 1 + - name: cosine_of_solar_zenith_angle_on_radiation_timestep + description: Cosine of solar zenith angle on radiation timestep + type: real + kind: null + units: 1 + - name: surface_lw_fluxes_assuming_total_and_clear_sky_on_radiation_timestep + description: Surface lw fluxes assuming total and clear sky on radiation timestep + type: sfcflw_type + kind: null + units: W m-2 + - name: diffuse_shortwave_albedo_on_radiation_timestep + description: surface albedo for diffuse shortwave radiation on the timestep for + radiation physics + type: real + kind: null + units: fraction + - name: surface_longwave_emissivity + description: Surface longwave emissivity + type: real + kind: null + units: fraction + - name: air_temperature_at_surface_adjacent_layer_on_radiation_timestep + description: Air temperature at surface adjacent layer on radiation timestep + type: real + kind: null + units: K + - name: surface_sw_fluxes_assuming_total_and_clear_sky_on_radiation_timestep + description: Surface sw fluxes assuming total and clear sky on radiation timestep + type: sfcfsw_type + kind: null + units: W m-2 + - name: tendency_of_air_temperature_due_to_longwave_heating_assuming_clear_sky_on_radiation_timestep + description: Tendency of air temperature due to longwave heating assuming clear + sky on radiation timestep + type: real + kind: null + units: K s-1 + - name: tendency_of_air_temperature_due_to_integrated_dynamics_through_earths_atmosphere + description: Tendency of air temperature due to integrated dynamics through earths + atmosphere + type: real + kind: null + units: K s-1 + - name: tendency_of_air_temperature_due_to_longwave_heating_on_radiation_timestep + description: Tendency of air temperature due to longwave heating on radiation + timestep + type: real + kind: null + units: K s-1 + - name: tendency_of_air_temperature_due_to_shortwave_heating_assuming_clear_sky_on_radiation_timestep + description: Tendency of air temperature due to shortwave heating assuming clear + sky on radiation timestep + type: real + kind: null + units: K s-1 + - name: tendency_of_air_temperature_due_to_shortwave_heating_on_radiation_timestep + description: Tendency of air temperature due to shortwave heating on radiation + timestep + type: real + kind: null + units: K s-1 +- name: GFS_typedefs_GFS_grid_type + comment: null + standard_names: + - name: longitude_interpolation_scaling_factor_for_aerosol_forcing + description: Longitude interpolation scaling factor for aerosol forcing + type: real + kind: null + units: 1 + - name: latitude_interpolation_scaling_factor_for_aerosol_forcing + description: Latitude interpolation scaling factor for aerosol forcing + type: real + kind: null + units: 1 + - name: characteristic_grid_lengthscale + description: Characteristic grid lengthscale + type: real + kind: null + units: m + - name: longitude_interpolation_scaling_factor_for_cloud_nuclei_forcing + description: Longitude interpolation scaling factor for cloud nuclei forcing + type: real + kind: null + units: 1 + - name: latitude_interpolation_scaling_factor_for_cloud_nuclei_forcing + description: Latitude interpolation scaling factor for cloud nuclei forcing + type: real + kind: null + units: 1 + - name: cosine_of_latitude + description: Cosine of latitude + type: real + kind: null + units: 1 + - name: latitude_interpolation_scaling_factor_complement_for_absolute_momentum_flux_due_to_nonorographic_gwd + description: Latitude interpolation scaling factor complement for absolute momentum + flux due to non-orographic gravity wave drag + type: real + kind: null + units: 1 + - name: latitude_interpolation_scaling_factor_for_absolute_momentum_flux_due_to_nonorographic_gwd + description: Latitude interpolation scaling factor for absolute momentum flux + due to non-orographic gravity wave drag + type: real + kind: null + units: 1 + - name: lower_longitude_index_of_aerosol_forcing_for_interpolation + description: Lower longitude index of aerosol forcing for interpolation + type: integer + kind: null + units: index + - name: lower_latitude_index_of_aerosol_forcing_for_interpolation + description: Lower latitude index of aerosol forcing for interpolation + type: integer + kind: null + units: index + - name: lower_longitude_index_of_cloud_nuclei_forcing_for_interpolation + description: Lower longitude index of cloud nuclei forcing for interpolation + type: integer + kind: null + units: index + - name: lower_latitude_index_of_cloud_nuclei_forcing_for_interpolation + description: Lower latitude index of cloud nuclei forcing for interpolation + type: integer + kind: null + units: index + - name: lower_latitude_index_of_absolute_momentum_flux_due_to_nonorographic_gwd_for_interpolation + description: Lower latitude index of absolute momentum flux due to non-orographic + gravity wave drag for interpolation + type: integer + kind: null + units: index + - name: lower_latitude_index_of_ozone_forcing_for_interpolation + description: Lower latitude index of ozone forcing for interpolation + type: integer + kind: null + units: index + - name: lower_latitude_index_of_stratospheric_water_vapor_forcing_for_interpolation + description: Lower latitude index of stratospheric water vapor forcing for interpolation + type: integer + kind: null + units: index + - name: latitude_interpolation_scaling_factor_for_ozone_forcing + description: Latitude interpolation scaling factor for ozone forcing + type: real + kind: null + units: 1 + - name: sine_of_latitude + description: Sine of latitude + type: real + kind: null + units: 1 + - name: upper_longitude_index_of_aerosol_forcing_for_interpolation + description: Upper longitude index of aerosol forcing for interpolation + type: integer + kind: null + units: index + - name: upper_latitude_index_of_aerosol_forcing_for_interpolation + description: Upper latitude index of aerosol forcing for interpolation + type: integer + kind: null + units: index + - name: upper_longitude_index_of_cloud_nuclei_forcing_for_interpolation + description: Upper longitude index of cloud nuclei forcing for interpolation + type: integer + kind: null + units: index + - name: upper_latitude_index_of_cloud_nuclei_forcing_for_interpolation + description: Upper latitude index of cloud nuclei forcing for interpolation + type: integer + kind: null + units: index + - name: upper_latitude_index_of_absolute_momentum_flux_due_to_nonorographic_gwd_for_interpolation + description: Upper latitude index of absolute momentum flux due to non-orographic + gravity wave drag for interpolation + type: integer + kind: null + units: index + - name: upper_latitude_index_of_ozone_forcing_for_interpolation + description: Upper latitude index of ozone forcing for interpolation + type: integer + kind: null + units: index + - name: upper_latitude_index_of_stratospheric_water_vapor_forcing_for_interpolation + description: Upper latitude index of stratospheric water vapor forcing for interpolation + type: integer + kind: null + units: index + - name: latitude_interpolation_scaling_factor_for_stratospheric_water_vapor_forcing + description: Latitude interpolation scaling factor for stratospheric water vapor + forcing + type: real + kind: null + units: 1 +- name: GFS_typedefs_GFS_stateout_type + comment: null + standard_names: + - name: air_temperature_of_new_state_at_surface_adjacent_layer + description: Air temperature of new state at surface adjacent layer + type: real + kind: null + units: K + - name: air_temperature_of_new_state + description: Air temperature of new state + type: real + kind: null + units: K + - name: cloud_liquid_water_mixing_ratio_wrt_moist_air_of_new_state + description: Cloud liquid water mass mixing ratio with respect to moist air of + new state + type: real + kind: null + units: kg kg-1 + - name: mass_number_concentration_of_cloud_liquid_water_particles_in_air_of_new_state + description: Mass number concentration of cloud liquid water particles in air + of new state + type: real + kind: null + units: kg-1 + - name: nonconvective_cloud_area_fraction_in_atmosphere_layer_of_new_state + description: Nonconvective cloud area fraction in atmosphere layer of new state + type: real + kind: null + units: fraction + - name: graupel_mixing_ratio_wrt_moist_air_of_new_state + description: Graupel mass mixing ratio with respect to moist air of new state + type: real + kind: null + units: kg kg-1 + - name: mass_number_concentration_of_graupel_of_new_state + description: Mass number concentration of graupel of new state + type: real + kind: null + units: kg-1 + - name: mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols_of_new_state + description: Mass number concentration of nonhygroscopic ice nucleating aerosols + of new state + type: real + kind: null + units: kg-1 + - name: mass_number_concentration_of_cloud_ice_water_crystals_in_air_of_new_state + description: Mass number concentration of cloud ice water crystals in air of new + state + type: real + kind: null + units: kg-1 + - name: cloud_ice_mixing_ratio_wrt_moist_air_of_new_state + description: Cloud ice mass mixing ratio with respect to moist air of new state + type: real + kind: null + units: kg kg-1 + - name: mass_weighted_rime_factor_of_new_state + description: Mass weighted rime factor of new state + type: real + kind: null + units: kg kg-1 + - name: ozone_concentration_of_new_state + description: Ozone concentration of new state + type: real + kind: null + units: kg kg-1 + - name: mass_number_concentration_of_rain_of_new_state + description: Mass number concentration of rain of new state + type: real + kind: null + units: kg-1 + - name: rain_mixing_ratio_wrt_moist_air_of_new_state + description: Rain mass mixing ratio with respect to moist air of new state + type: real + kind: null + units: kg kg-1 + - name: mass_number_concentration_of_snow_of_new_state + description: Mass number concentration of snow of new state + type: real + kind: null + units: kg-1 + - name: snow_mixing_ratio_wrt_moist_air_of_new_state + description: Snow mass mixing ratio with respect to moist air of new state + type: real + kind: null + units: kg kg-1 + - name: tracer_concentration_of_new_state + description: Tracer concentration of new state + type: real + kind: null + units: kg kg-1 + - name: mass_number_concentration_of_hygroscopic_aerosols_of_new_state + description: Mass number concentration of hygroscopic aerosols of new state + type: real + kind: null + units: kg-1 + - name: water_vapor_mixing_ratio_wrt_moist_air_of_new_state_at_surface_adjacent_layer + description: Specific humidity (water vapor mass mixing ratio with respect to + moist air) of new state at surface-adjacent layer + type: real + kind: null + units: kg kg-1 + - name: water_vapor_mixing_ratio_wrt_moist_air_of_new_state + description: Specific humidity (water vapor mass mixing ratio with respect to + moist air) of new state + type: real + kind: null + units: kg kg-1 + - name: x_wind_of_new_state_at_surface_adjacent_layer + description: X wind of new state at surface adjacent layer + type: real + kind: null + units: m s-1 + - name: x_wind_of_new_state + description: X wind of new state + type: real + kind: null + units: m s-1 + - name: y_wind_of_new_state_at_surface_adjacent_layer + description: Y wind of new state at surface adjacent layer + type: real + kind: null + units: m s-1 + - name: y_wind_of_new_state + description: Y wind of new state + type: real + kind: null + units: m s-1 diff --git a/README.md b/README.md index eebb898..f7bf2e1 100644 --- a/README.md +++ b/README.md @@ -1,16 +1,9 @@ # ESMStandardNames -The Earth System Modeling Standard Names Repository contains community-accepted -Standard Names, publishing tools, and search tools. +The Earth System Modeling Standard Names Repository contains community-accepted Standard Names, publishing tools, and search tools. -A Markdown file describing the standard names -[is included](https://github.com/ESCOMP/ESMStandardNames/blob/main/Metadata-standard-names.md). -Rules governing the designation and format of standard names can be found in [StandardNamesRules.rst](https://github.com/ESCOMP/ESMStandardNames/blob/main/StandardNamesRules.rst). +Rules governing the designation and format of standard names can be found in [StandardNamesRules.rst](https://github.com/ESCOMP/ESMStandardNames/blob/main/StandardNamesRules.rst). -Edits to standard names should be made in the xml file, using the included python tools to generate -the human-readable standard name Markdown file: -``` -tools/write_standard_name_table.py standard_names.xml -``` +A [Markdown file describing the standard names is included](https://github.com/ESCOMP/ESMStandardNames/blob/main/Metadata-standard-names.md), as well as a [YAML version of the XML file](https://github.com/ESCOMP/ESMStandardNames/blob/main/Metadata-standard-names.yaml). -Then, commit the new Metadata-standard-names.md file and push to GitHub. +Edits to standard names must be made in the xml file `standard_names.xml` only. When a pull request is opened into the main branch, the YAML and Markdown files should be updated using the `tools/write_standard_name_table.py` script. This can be done manually by the pull request author, or by activating the GitHub action available on an open pull request. diff --git a/standard_names.xml b/standard_names.xml index bb9e014..8c1315f 100644 --- a/standard_names.xml +++ b/standard_names.xml @@ -557,7 +557,7 @@ integer + description="Total number of thread blocks OpenMP (shared-memory) parallel threads."> integer @@ -1269,6 +1269,24 @@ real +
+ + real + + + real + + + real + + + real + +
= 0: - sec_comment = sec_comment.replace(' ', ' ') - while sec_comment: - sec_comment = sec_comment.lstrip() - cind = sec_comment.find('\\n') - if cind > 0: - snl.write('{}\n'.format(sec_comment[0:cind])) - sec_comment = sec_comment[cind+2:] - else: - snl.write('{}\n'.format(sec_comment)) - sec_comment = '' - for std_name in sec: - if std_name.tag == 'section': - parse_section(snl, std_name, level + '#') - continue - stdn_name = std_name.get('name') - stdn_description = std_name.get('description') - if stdn_description is None: - sdict = {'standard_name':stdn_name} - stdn_description = standard_name_to_description(sdict) + # Step through the sections + sec_name = sec.get('name') + sec_comment = sec.get('comment') + snl.write(f'{level} {sec_name}\n') + if sec_comment is not None: + # First, squeeze out the spacing + while sec_comment.find(' ') >= 0: + sec_comment = sec_comment.replace(' ', ' ') + while sec_comment: + sec_comment = sec_comment.lstrip() + cind = sec_comment.find('\\n') + if cind > 0: + snl.write('{}\n'.format(sec_comment[0:cind])) + sec_comment = sec_comment[cind + 2:] + else: + snl.write('{}\n'.format(sec_comment)) + sec_comment = '' # end if - snl.write("* `{}`: {}\n".format(stdn_name, stdn_description)) - # Should only be a type in the standard_name text - for item in std_name: - if item.tag == 'type': - txt = item.text - kind = item.get('kind') - if kind is None: - kstr = '' - else: - kstr = "(kind={})".format(kind) - # end if - units = item.get('units') - snl.write(' * `{}{}`: units = {}\n'.format(txt, kstr, - units)) + # end while + # end if + for std_name in sec: + if std_name.tag == 'section': + parse_section(snl, std_name, level + '#') + continue + stdn_name = std_name.get('name') + stdn_description = std_name.get('description') + if stdn_description is None: + sdict = {'standard_name': stdn_name} + stdn_description = standard_name_to_description(sdict) + # end if + snl.write("* `{}`: {}\n".format(stdn_name, stdn_description)) + # Should only be a type in the standard_name text + for item in std_name: + if item.tag == 'type': + txt = item.text + kind = item.get('kind') + if kind is None: + kstr = '' else: - emsg = "Unknown standard name property, '{}'" - raise ValueError(emsg.format(item.tag)) + kstr = "(kind={})".format(kind) + # end if + units = item.get('units') + snl.write(' * `{}{}`: units = {}\n'.format(txt, kstr, + units)) + else: + emsg = "Unknown standard name property, '{}'" + raise ValueError(emsg.format(item.tag)) + # end if + # end for + # end for +# end for + +############################################################################### +def convert_xml_to_yaml(root, library_name, yaml_file): +############################################################################### + yaml_data = OrderedDict() + yaml_data['library_name'] = library_name + yaml_data['sections'] = [] + for section in root: + sec_data = OrderedDict() + sec_data['name'] = section.get('name') + # Format comment and add to dicionary + sec_comment = section.get('comment') + if sec_comment: + # Remove code block markdown + sec_comment = sec_comment.replace('```', '') + # Split multiline into array + sec_comment = sec_comment.split('\\n') + # Remove multiple whitespaces + sec_comment = [' '.join(x.split()) for x in sec_comment if ' '.join(x.split())] + # Join together into one long string + sec_comment = ' '.join(sec_comment) + sec_data['comment'] = sec_comment + # Parse standard names for this section + sec_data['standard_names'] = [] + for std_name in section: + if std_name.tag == 'standard_name': + stdn_name = std_name.get('name') + stdn_description = std_name.get('description', None) + if stdn_description is None: + sdict = {'standard_name': stdn_name} + stdn_description = standard_name_to_description(sdict) + std_type = std_name.find('type') + stdn_type = std_type.text + if std_type is not None: + std_name_data = OrderedDict() + std_name_data['name'] = stdn_name + std_name_data['description'] = stdn_description + std_name_data['type'] = std_type.text + std_name_data['kind'] = std_type.get('kind', None) + try: + std_name_data['units'] = int(std_type.get('units', None)) + except ValueError: + std_name_data['units'] = std_type.get('units', None) + sec_data['standard_names'].append(std_name_data) + yaml_data['sections'].append(sec_data) + + yaml.dump(yaml_data, yaml_file, default_flow_style=False) ############################################################################### def main_func(): ############################################################################### """Validate and parse the standard names database file and generate - a document containing the data. - Currently, only the Markdown format is supported for output. - """ + a document containing the data.""" # Parse command line arguments args = parse_command_line(sys.argv[1:], __doc__) stdname_file = os.path.abspath(args.standard_name_file) @@ -210,11 +272,12 @@ def main_func(): emsg = 'Cannot find schema file, {}, for version {}' raise ValueError(emsg.format(schema_name, version)) # end if + try: emsg = "Invalid standard names file, {}".format(stdname_file) file_ok = validate_xml_file(stdname_file, schema_name, version, - None, schema_path=schema_root, - error_on_noxmllint=True) + None, schema_path=schema_root, + error_on_noxmllint=True) except ValueError as valerr: cemsg = "{}".format(valerr).split('\n')[0] if cemsg[0:12] == 'Execution of': @@ -228,15 +291,18 @@ def main_func(): # end if raise ValueError(emsg) # end try - if args.output_format != 'md': + + outfile_name = args.output_filename + if args.output_format == 'md': + with open(f"{outfile_name}.md", "w") as md_file: + convert_xml_to_markdown(root, library_name, md_file) + elif args.output_format == 'yaml': + with open(f"{outfile_name}.yaml", "w") as yaml_file: + convert_xml_to_yaml(root, library_name, yaml_file) + else: emsg = "Unsupported output format, '{}'" raise ValueError(emsg.format(args.output_format)) # end if - outfile_name = args.output_filename - with open("{}.{}".format(outfile_name, args.output_format), "w") as snl: - convert_xml_to_markdown(root, library_name, snl) - # end with - ############################################################################### if __name__ == "__main__": From 3744d7786236c3f1ac5aba79d234bd9de6f1909b Mon Sep 17 00:00:00 2001 From: "Michael Kavulich, Jr" Date: Mon, 10 Nov 2025 11:25:40 -0700 Subject: [PATCH 7/9] Modify images in Rules document so they can be clicked; currently they don't show at all --- StandardNamesRules.rst | 6 ++---- 1 file changed, 2 insertions(+), 4 deletions(-) diff --git a/StandardNamesRules.rst b/StandardNamesRules.rst index 75b140a..65ccd76 100644 --- a/StandardNamesRules.rst +++ b/StandardNamesRules.rst @@ -50,16 +50,14 @@ ESM Standard Name Rules The following table provides a few concrete examples of standard names and how they are constructed with respect to the guideline template. -.. image:: https://raw.githubusercontent.com/wiki/ESCOMP/CCPPStandardNames/images/standard_name_construction_examples.png - :alt: image of table providing standard name construction examples + `image of table providing standard name construction examples `_) Note that "transformations" are a special case, where multiple transformations may be applied, and multiple quantities may be compared, operated on, etc. For transformations involving multiple quantities (e.g. ``ratio_of_X_to_Y``; see the `section on Transformations <#transformations>`_ for more information), the above formula may be extended around multiple base names. -.. image:: https://raw.githubusercontent.com/wiki/ESCOMP/CCPPStandardNames/images/standard_name_transformation_examples.png - :alt: image of table providing standard name construction examples with multiple transformations + `image of table providing standard name construction examples with multiple transformations `_) In the latter example, ``ln`` is operating on the quantity ``water_vapor_partial_pressure_assuming_saturation``, while ``derivative_of`` is a combined transformation of ``water_vapor_partial_pressure_assuming_saturation`` From ab654aa6e22dcf2c9d4e651d6ceb7c308e7b983c Mon Sep 17 00:00:00 2001 From: "Michael Kavulich, Jr" Date: Thu, 13 Nov 2025 20:40:43 -0700 Subject: [PATCH 8/9] Fix a few badly merged lines --- standard_names.xml | 12 ++++++------ 1 file changed, 6 insertions(+), 6 deletions(-) diff --git a/standard_names.xml b/standard_names.xml index 7adc584..10da85b 100644 --- a/standard_names.xml +++ b/standard_names.xml @@ -1271,20 +1271,20 @@
- real + description="Mass fraction of coarse mode dust aerosol particles"> + real - real + description="Mass fraction of accumulation mode dust aerosol particles"> + real - real + real - real + real
Date: Tue, 18 Nov 2025 18:08:19 -0700 Subject: [PATCH 9/9] Reverting changes dropping "dimensionless" from Exner function names: there are actually two formulations of the Exner function and we need to be explicit about which is being used. --- Metadata-standard-names.md | 14 +++++++------- Metadata-standard-names.yaml | 26 +++++++++++-------------- standard_names.xml | 37 +++++++++++++++++++++++------------- 3 files changed, 42 insertions(+), 35 deletions(-) diff --git a/Metadata-standard-names.md b/Metadata-standard-names.md index d103f58..346defa 100644 --- a/Metadata-standard-names.md +++ b/Metadata-standard-names.md @@ -174,6 +174,8 @@ full list of standard names for further details. * `real`: units = W m-2 * `diffuse_vis_albedo`: Albedo of diffuse incident visible radiation * `real`: units = 1 +* `dimensionless_exner_function`: Dimensionless formulation of the Exner function with respect to 1000 hPa + * `real`: units = 1 * `direct_nir_albedo`: Albedo of direct incident near-infrared radiation * `real`: units = 1 * `direct_nir_shortwave_flux`: Flux of direct near-infrared shortwave radiation @@ -188,7 +190,7 @@ full list of standard names for further details. * `real`: units = kg m-3 * `dry_air_enthalpy_at_constant_pressure`: Specific enthalpy of dry air, h = Cp*T; Cp = Specific heat of dry air at constant pressure, T = temperature * `real`: units = J kg-1 -* `exner_function`: Exner function, (p/p0)^(Rd/cp), where p0 is some reference pressure (1000 hPa if not specified) +* `exner_function`: Exner function, cp * (p/p0)^(Rd/cp), where p0 is some reference pressure (1000 hPa if not specified), Rd is the dry air specific gas constant, and cp is the dry air specific heat capacity. * `real`: units = 1 * `friction_velocity`: A measure of shear stress within a fluid layer with units of distance per time * `real`: units = m s-1 @@ -405,7 +407,7 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real`: units = 1 * `ln_air_pressure_of_dry_air`: Ln air pressure of dry air * `real`: units = 1 -* `reciprocal_of_exner_function_wrt_air_pressure_at_surface`: inverse exner function with respect to surface pressure; (ps/p)^(R/cp) +* `reciprocal_of_dimensionless_exner_function_wrt_air_pressure_at_surface`: inverse dimensionless exner function with respect to surface pressure; (ps/p)^(R/cp) * `real`: units = 1 * `geopotential_height`: geopotential height with respect to sea level * `real`: units = m @@ -495,8 +497,6 @@ Note that appending '_on_previous_timestep' to standard_names in this section yi * `real`: units = 1 * `reference_pressure_in_atmosphere_layer_normalized_by_surface_reference_pressure`: Reference pressure in atmosphere layer normalized by surface reference pressure * `real`: units = 1 -* `exner_function`: exner function, (p/p0)^(Rd/cp), where p0 is 1000 hPa - * `real`: units = 1 * `potential_temperature_of_air`: air potential temperature * `real`: units = K * `potential_temperature_of_air_on_previous_timestep`: air potential temperature on previous timestep @@ -2387,11 +2387,11 @@ Variables related to the compute environment * `real`: units = kg kg-1 * `mass_number_concentration_of_cloud_liquid_water_particles_in_air`: Mass number concentration of cloud liquid water particles in air * `real`: units = kg-1 -* `exner_function_wrt_surface_pressure`: Exner function with respect to surface pressure, (p/ps)^(Rd/cp) +* `dimensionless_exner_function_wrt_surface_pressure`: Dimensionless exner function with respect to surface pressure, (p/ps)^(Rd/cp) * `real`: units = 1 -* `exner_function_at_surface_adjacent_layer`: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at the surface-adjacent layer +* `dimensionless_exner_function_at_surface_adjacent_layer`: Dimensionless exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at the surface-adjacent layer * `real`: units = 1 -* `exner_function_at_interfaces`: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at vertical layer interfaces +* `dimensionless_exner_function_at_interfaces`: Dimensionless exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the pressure at vertical layer interfaces * `real`: units = 1 * `dissipation_estimate_of_air_temperature_at_model_layers`: Dissipation estimate of air temperature at model layers * `real`: units = K diff --git a/Metadata-standard-names.yaml b/Metadata-standard-names.yaml index d3ff351..14287b0 100644 --- a/Metadata-standard-names.yaml +++ b/Metadata-standard-names.yaml @@ -332,8 +332,9 @@ sections: type: real kind: null units: 1 - - name: reciprocal_of_exner_function_wrt_air_pressure_at_surface - description: inverse exner function with respect to surface pressure; (ps/p)^(R/cp) + - name: reciprocal_of_dimensionless_exner_function_wrt_air_pressure_at_surface + description: inverse dimensionless exner function with respect to surface pressure; + (ps/p)^(R/cp) type: real kind: null units: 1 @@ -560,11 +561,6 @@ sections: type: real kind: null units: 1 - - name: exner_function - description: exner function, (p/p0)^(Rd/cp), where p0 is 1000 hPa - type: real - kind: null - units: 1 - name: potential_temperature_of_air description: air potential temperature type: real @@ -5476,20 +5472,20 @@ sections: type: real kind: null units: kg-1 - - name: exner_function_wrt_surface_pressure - description: Exner function with respect to surface pressure, (p/ps)^(Rd/cp) + - name: dimensionless_exner_function_wrt_surface_pressure + description: Dimensionless exner function with respect to surface pressure, (p/ps)^(Rd/cp) type: real kind: null units: 1 - - name: exner_function_at_surface_adjacent_layer - description: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the - pressure at the surface-adjacent layer + - name: dimensionless_exner_function_at_surface_adjacent_layer + description: Dimensionless exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa + and p is the pressure at the surface-adjacent layer type: real kind: null units: 1 - - name: exner_function_at_interfaces - description: exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa and p is the - pressure at vertical layer interfaces + - name: dimensionless_exner_function_at_interfaces + description: Dimensionless exner function (p/p0)^(Rd/cp), where p0 is 1000 hPa + and p is the pressure at vertical layer interfaces type: real kind: null units: 1 diff --git a/standard_names.xml b/standard_names.xml index 0e76ede..6390bea 100644 --- a/standard_names.xml +++ b/standard_names.xml @@ -303,6 +303,17 @@ description="Albedo of diffuse incident visible radiation"> real + + real + real @@ -331,7 +342,11 @@ real + description="Exner function, cp * (p/p0)^(Rd/cp), where p0 is some reference pressure (1000 hPa if not specified), Rd is the dry air specific gas constant, and cp is the dry air specific heat capacity." + comment="The formulation for the exner function comes in two forms: a dimensional form cp * (p/p0)^(Rd/cp) = cp * (T/theta), \n + and a dimensionless form (p/p0)^(Rd/cp) = (T/theta). In the standard names, we use the unqualified exner_function \n + to refer to the dimensional form, and dimensionless_exner_function to refer to the dimensionless form. See the \n + base name entry for dimensionless_exner_function for further comments." > real real - + real real - - real - real @@ -4127,16 +4138,16 @@ GFS near-surface sea temperature scheme real - + real - + real - + real