Difference between revisions of "CF Standard Names - OLD Submitted Atmospheric Chemistry and Aerosol Terms"
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− | + | This page is updated according to the discussions in the [http://www.cgd.ucar.edu/mailman/listinfo/cf-metadata CF mailing list], that can also be found on our [http://wiki.esipfed.org/index.php/Talk:CF_Standard_Names_-_Proposed_names_for_TF_HTAP discussion page]. | |
It is the philosophy of CF only define those standard_names for which a demand has been expressed. The proposed standard_names on this page are needed for a [http://aqm.jrc.it/HTAP/ model intercomparison] within the Task Force on Hemispheric Transport of Air Pollution [http://www.htap.org/ TF HTAP]. | It is the philosophy of CF only define those standard_names for which a demand has been expressed. The proposed standard_names on this page are needed for a [http://aqm.jrc.it/HTAP/ model intercomparison] within the Task Force on Hemispheric Transport of Air Pollution [http://www.htap.org/ TF HTAP]. |
Revision as of 09:49, September 26, 2006
Return to Start page for Atmospheric Chemistry and Aerosol Names PLEASE DO NOT USE THE NAVIGATION BAR ON THE LEFT HAND SIDE!
This page is updated according to the discussions in the CF mailing list, that can also be found on our discussion page.
It is the philosophy of CF only define those standard_names for which a demand has been expressed. The proposed standard_names on this page are needed for a model intercomparison within the Task Force on Hemispheric Transport of Air Pollution TF HTAP.
The proposed standard_names listed below are based on the ideas provided at Construction of Atmospheric Chemistry and Aerosol Terms and Future Standard_Names. They are constructed from name components and species mentioned in tables 1 and 2 of that page.
Comments to ChristianeTextor or directly on the discussion page are highly welcome!
You can directly modify the tables here, all versions are stored under 'history'. However, in order to keep track of the changes, please send an email to ChristianeTextor.
CF Standard_name | Canonical unit | Explanation |
surface dry deposition flux | ||
surface_dry_deposition_mass_flux_of_ozone | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_nitric_acid | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_nitrogen_dioxide | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_all_nitrogen_oxides | kg m-2 s-1 | NOy is the sum of all simulated oxidized nitrogen species, out of NO, NO2, HNO3, HNO4, NO3aerosol, NO3(radical), N2O5, PAN, other organic nitrates. Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition" |
surface_dry_deposition_mass_flux_of_ammonia | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_ammonium_as_ammonium | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_sulfur_dioxide | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_sulfate_as_sulfate_dry_aerosol | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_black_carbon_dry_aerosol | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_organic_carbon_as_particulate_organic_carbon_dry_aerosol | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_seasalt_dry_aerosol | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_dust_dry_aerosol | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_hexachlorbiphenyl | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_alpha_hexachlorocyclohexane | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_mercury_0 | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_mercury_2 | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
surface_dry_deposition_mass_flux_of_mercury_aerosol | kg m-2 s-1 | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition |
stomatal flux | ||
surface_dry_deposition_mass_flux_of_ozone_in_stomata | kg m-2 s-1 | |
wet deposition flux at the surface | ||
surface_wet_deposition_mass_flux_of_all_nitrogen_oxides | kg m-2 s-1 | NOy is the sum of all simulated oxidized nitrogen species, out of NO, NO2, HNO3, HNO4, NO3aerosol, NO3(radical), N2O5, PAN, other organic nitrates |
surface_wet_deposition_mass_flux_of_nitric_acid | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_ammonia | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_ammonium_as_ammonium | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_sulfur_dioxide | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_sulfate_as_sulfate_dry_aerosol | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_black_carbon_dry_aerosol | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_organic_carbon_as_particulate_organic_carbon_dry_aerosol | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_seasalt_dry_aerosol | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_dust_dry_aerosol | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_hexachlorbiphenyl | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_alpha_hexachlorocyclohexane | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_mercury_0 | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_mercury_2 | kg m-2 s-1 | |
surface_wet_deposition_mass_flux_of_mercury_aerosol | kg m-2 s-1 | |
emission flux at the surface | ||
surface_emission_mass_flux_of_nox | kg m-2 s-1 | NOx=NO+NO2 |
surface_emission_mass_flux_of_carbon_monoxide | kg m-2 s-1 | |
surface_emission_mass_flux_of_non_methane_volatile_organic_compounds | kg m-2 s-1 | |
surface_emission_mass_flux_of_anthropogenic_non_methane_volatile_organic_compounds | kg m-2 s-1 | |
surface_emission_mass_flux_of_biogenic_non_methane_volatile_organic_compounds | kg m-2 s-1 | |
surface_emission_mass_flux_ammonia | kg m-2 s-1 | |
surface_emission_mass_flux_of_sulfur_dioxide | kg m-2 s-1 | |
surface_emission_mass_flux_of_sulfate_as_sulfate_dry_aerosol | kg m-2 s-1 | |
surface_emission_mass_flux_of_black_carbon_dry_aerosol | kg m-2 s-1 | |
surface_emission_mass_flux_of_organic_carbon_as_particulate_organic_carbon_dry_aerosol | kg m-2 s-1 | |
atmosphere_emission_mass_flux_of_secondary_organic_carbon_as_particulate_organic_carbon_dry_aerosol | kg m-2 s-1 | |
surface_emission_mass_flux_of_seasalt_dry_aerosol | kg m-2 s-1 | |
surface_emission_mass_flux_of_dust_dry_aerosol | kg m-2 s-1 | |
surface_emission_mass_flux_of_hexachlorbiphenyl | kg m-2 s-1 | |
surface_emission_mass_flux_of_alpha_hexachlorocyclohexane | kg m-2 s-1 | |
surface_re_emission_mass_flux_of_hexachlorbiphenyl | kg m-2 s-1 | |
surface_re_emission_mass_flux_of_alpha_hexachlorocyclohexane | kg m-2 s-1 | |
surface_emission_mass_flux_of_mercury_0 | kg m-2 s-1 | |
surface_emission_mass_flux_of_mercury_2 | kg m-2 s-1 | |
surface_emission_mass_flux_of_mercury_aerosol | kg m-2 s-1 | |
volume mixing ratios | ||
mole_fraction_of_ozone_in_air | 1=mole mole-1 | |
mole_fraction_of_cabon_monoxide_in_air | 1=mole mole-1 | |
mole_fraction_of_nitrogen_monoxide_in_air | 1=mole mole-1 | |
mole_fraction_of_nitrogen_dioxide_in_air | 1=mole mole-1 | |
mole_fraction_of_nitrogen_acid_in_air | 1=mole mole-1 | |
mole_fraction_of_peroxyacetyl_nitrate_in_air | 1=mole mole-1 | |
mole_fraction_of_hydroxyl_radical_in_air | 1=mole mole-1 | |
mole_fraction_of_sulfur_dioxide_in_air | 1=mole mole-1 | |
mole_fraction_of_hexachlorbiphenyl_in_air | 1=mole mole-1 | |
mole_fraction_of_alpha_hexachlorocyclohexane_in_air | 1=mole mole-1 | |
mole_fraction_of_mercury_0_in_air | 1=mole mole-1 | |
mole_fraction_of_mercury_2_in_air | 1=mole mole-1 | |
mole_fraction_of_mercury_aerosol_in_air | 1=mole mole-1 | |
mole_fraction_of_CO_with_lifetime_of_25_days_in_air | 1=mole mole-1 | |
mole_fraction_of_CO_due_to_methane_oxidation_in_air | 1=mole mole-1 | |
mole_fraction_of_CO_due_to_oxidation_of_anthropogenic_NMVOC_in_air | 1=mole mole-1 | |
mole_fraction_of_CO_due_to_oxidation_of_biogenic_NMVOC_in_air | 1=mole mole-1 | |
mole_fraction_of_CO_due_to_emissions_from_East_Asia_in_air | 1=mole mole-1 | |
mole_fraction_of_CO_due_to_emissions_from_Europe_and_North_Africa_in_air | 1=mole mole-1 | |
mole_fraction_of_CO_due_to_emissions_from_North_America_in_air | 1=mole mole-1 | |
mole_fraction_of_CO_due_to_emissions_from_South_Asia_in_air | 1=mole mole-1 | |
mole_fraction_of_anthropogenic_NMVOC_in_air | 1=mole mole-1 | |
mole_fraction_of_biogenic_NMVOC_in_air | 1=mole mole-1 | |
mass mixing ratio | ||
mass_fraction_of_pm10_aerosol_at_50_percent_relative_humidity_in_air | 1=kg/kg | |
mass_fraction_of_pm2p5_aerosol_at_50_percent_relative_humidity_in_air | 1=kg/kg | |
mass_fraction_of_pm1_aerosol_at_50_percent_relative_humidity_in_air | 1=kg/kg | |
mass_fraction_ of_nitrate_as_nitrate_dry_aerosol_in_air | 1=kg/kg | |
mass_fraction_of_sulfate_as_sulfate_dry_aerosol_in_air | 1=kg/kg | |
mass_fraction_of_ammonium_as_ammonium_dry_aerosol_in_air | 1=kg/kg | |
mass_fraction_ of_black_carbon_dry_aerosol_in_air | 1=kg/kg | |
mass_fraction_of_organic_carbon_as_particulate_organic_carbon_dry_aerosol_in_air | 1=kg/kg | |
mass_fraction_of_secondary_organic_carbon_as_particulate_organic_carbon_dry_aerosol_in_air | 1=kg/kg | |
mass_fraction_ of_seasalt_dry_aerosol_in_air | 1=kg/kg | |
mass_fraction_ of_dust_dry_aerosol_in_air | 1=kg/kg | |
mass_fraction_ of_aerosol_water_ambient_aerosol_in_air | 1=kg/kg | |
fluxes due to chemical reactions | ||
chemical_gross_production_rate_of_mole_concentration_of_ozone | mole m-3 s-1 | |
chemical_destruction_rate_of_mole_concentration_of_ozone | mole m-3 s-1 | |
chemical_destruction_rate_of_mole_concentration_of_methane | mole m-3 s-1 | |
chemical_destruction_rate_of_mole_concentration_of_carbon_monoxide | mole m-3 s-1 | |
optical thickness at 550 nm | ||
pm10_aerosol_ambient_optical_depth_at_550_nm | 1 | |
pm2p5_aerosol_ambient_optical_depth_at_550_nm | 1 | |
pm1_aerosol_ambient_optical_depth_at_550_nm | 1 | |
nitrate_aerosol_ambient_optical_depth_at_550_nm | 1 | |
sulfate_aerosol_ambient_optical_depth_at_550_nm | 1 | |
ammonium_aerosol_ambient_optical_depth_at_550_nm | 1 | |
black_carbon_aerosol_ambient_optical_depth_at_550_nm | 1 | |
organic_carbon_aerosol_ambient_optical_depth_at_550_nm | 1 | |
seasalt_aerosol_ambient_optical_depth_at_550_nm | 1 | |
dust_aerosol_ambient_optical_depth_at_550_nm | 1 | |
aerosol_water_aerosol_ambient_optical_depth_at_550_nm | 1 | |
others | ||
grid_cell_area | m2 | model grid cell area |
grid_cell_height | m | model grid cell height |
atmosphere_mass_content_of_air | kg m-2 | vertically integrated mass of air |