Difference between revisions of "CF Standard Names - OLD Submitted Atmospheric Chemistry and Aerosol Terms"

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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 [[User:ChristianeTextor|ChristianeTextor]].
 
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 [[User:ChristianeTextor|ChristianeTextor]].
  
=Gas phase species: concentrations and columns=
+
 
 
{|{{prettytable}}
 
{|{{prettytable}}
|- style="font-weight:bold"
+
|- style="background-color:#FF00FF;font-size:12pt;font-weight:bold"
| Height="12,75" | CF Standard_name
+
| width="378" Height="31,5" | CF Standard_name
| Explanation
+
| width="84" | Canonical unit
| Canonical unit
+
| width="200,25" |  Explanation
  
|- style="background-color:#FF99CC"
+
|- style="font-size:12pt"
|style="font-weight:bold" Height="12,75" | gas phase species: concentrations and columns
+
| Height="15" |  
|  
+
|  
|  
+
|  
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mole_fraction_of_ozone_in_air
+
| Height="15" |  
  | volume mixing ratio of ozone, O3
+
  |  
  | 1=mole mole-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mole_fraction_of_hydrogen_peroxide_in_air
+
| Height="15" |  
  | volume mixing ratio of hydrogen peroxide, H2O2
+
  |  
  | 1=mole mole-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | mole_fraction_of_hydroxyl_radical_in_air
+
| Height="15" |  
  | volume mixing ratio of the hydroxy radical, hydroxyl, OH
+
  |  
  | 1=mole mole-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | mole_fraction_of_hydroperoxy_radical_in_air
+
| Height="15" |  
| volume mixing ratio of the hydroperoxy radical, HO2
+
  |  
| 1=mole mole-1
+
  |  
 
 
|-
 
| Height="12,75" | mole_fraction_of_nitrogen_monoxide_in_air
 
| volume mixing ratio of nitrogen monoxide, NO
 
| 1=mole mole-1
 
 
 
|-
 
| Height="12,75" | mole_fraction_of_nitrogen_dioxide_in_air
 
  | volume mixing ratio of nitrogen dioxide, NO2
 
  | 1=mole mole-1
 
  
|-  
+
|- style="background-color:#CCFFCC;font-size:12pt;font-weight:bold"
| Height="12,75" | atmosphere_mole_fraction_of_all_nitrogen_oxides
+
| Height="15,75" | surface dry deposition flux
| volume mixing ratio of all simulated nitrogen oxides NOy, i.e., sum of moles_fractions of all simulated oxidized nitrogen species, out of NO, NO2, HNO3, NO3aerosol, N2O5, NO3(radical), HNO4, PAN, other organic nitrates (N2O5 is only counted once!)
 
| 1=mole mole-1
 
 
 
|-
 
| Height="12,75" | mole_fraction_of_nitric_acid_in_air
 
| volume mixing ratio of nitric acid, HNO3
 
| 1=mole mole-1
 
 
 
|-
 
| Height="12,75" | mole_fraction_of_ammonia_in_air
 
| volume mixing ratio of ammonia, NH3
 
| 1=mole mole-1
 
 
 
|-
 
| Height="12,75" | mole_fraction_of_ammonium_in_air
 
| volume mixing ratio of ammonium, NH4
 
| 1=mole mole-1
 
 
 
|-
 
| Height="12,75" | mole_fraction_of_methane_in_air
 
| volume mixing ratio of methane, CH4
 
| 1=mole mole-1
 
 
 
|-
 
| Height="25,5" | mole_fraction_of_peroxyacetyl_nitrate_in_air
 
| volume mixing ratio of peroxyacetyl nitrate, PAN, CH3COO2NO2
 
| 1=mole mole-1
 
 
 
|-
 
| Height="12,75" | mole_fraction_of_carbon_monoxide_in_air
 
| volume mixing ratio of carbon monoxide, CO
 
| 1=mole mole-1
 
 
 
|-
 
| Height="12,75" | mole_fraction_of_formaldehyde_in_air
 
| volume mixing ratio of formaldehyde, CH2O
 
| 1=mole mole-1
 
 
 
|-  
 
| Height="12,75" | mole_fraction_of_sulfur_dioxide_in_air
 
| volume mixing ratio of sulfur dioxide, SO2
 
| 1=mole mole-1
 
 
 
|-  
 
| Height="12,75" | mole_fraction_of_radon_in_air
 
| volume mixing ratio of radon, Rn
 
| 1=mole mole-1
 
 
 
|-
 
| Height="12,75" | mole_fraction_of_lead_in_air
 
| volume mixing ratio of lead, Pb
 
| 1=mole mole-1
 
 
 
|-
 
| Height="12,75" | mole_fraction_of_mercury(0)_in_air
 
| volume mixing ratio of Hg
 
| 1=mole mole-1
 
 
 
|-
 
| Height="12,75" | mole_fraction_of_mercury(II)_in_air
 
| volume mixing ratio of Hg(2+)
 
| 1=mole mole-1
 
 
 
|-
 
| Height="12,75" |  
 
 
  |  
 
  |  
 
  |  
 
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_ozone_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_ozone
  | mass fraction of ozone, O3
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_hydrogen_peroxide_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_nitric_acid
  | mass fraction of hydrogen peroxide, H2O2
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | mass_fraction_of_hydroxyl_radical_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_nitrogen_dioxide
  | mass fraction of the hydroxy radical, hydroxyl, OH
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | mass_fraction_of_hydroperoxy_radical_in_air
+
| Height="120" | surface_dry_deposition_mass_flux_of_all_nitrogen_oxides
  | mass fraction ratio of the hydroperoxy radical, HO2
+
| kg m-2 s-1
| 1=kg kg-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"
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_nitrogen_monoxide_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_ammonia
  | mass fraction of nitrogen monoxide, NO
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_nitrogen_dioxide_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_ammonium_as_ammonium
  | mass fraction of nitrogen dioxide, NO2
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_all_nitrogen_oxides_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_sulfur_dioxide
  | mass fraction of total_nitrogen_oxides NOy, includes all nitrogen oxides included in the model, to be specified in by the modeller in the long_name attribute if possible ???
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_nitric_acid_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_sulfate_as_sulfate_dry_aerosol
  | mass fraction of nitric acid, HNO3
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_ammonia_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_black_carbon_dry_aerosol
  | mass fraction of ammonia, NH3
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_ammonium_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_organic_carbon_as_particulate_organic_carbon_dry_aerosol
  | mass fraction of ammonium, NH4
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_methane_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_seasalt_dry_aerosol
  | mass fraction of methane, CH4
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | mass_fraction_of_peroxyacetyl_nitrate_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_dust_dry_aerosol
  | mass fraction of peroxyacetyl nitrate, PAN, CH3COO2NO2
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_carbon_monoxide_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_hexachlorbiphenyl
  | mass fraction of carbon monoxide, CO
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_formaldehyde_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_alpha_hexachlorocyclohexane
  | mass fraction of formaldehyde, CH2O
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_sulfur_dioxide_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_mercury_0
  | mass fraction of sulfur dioxide, SO2
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_radon_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_mercury_2
  | mass fraction of radon, Rn
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mass_fraction_of_lead_in_air
+
| Height="45" | surface_dry_deposition_mass_flux_of_mercury_aerosol
  | mass fraction of lead, Pb
+
  | kg m-2 s-1
  | 1=kg kg-1
+
  | Dry deposition includes gravitational settling, impact scavenging, and turbulent deposition
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" |  
+
| Height="15" |  
 
  |  
 
  |  
 
  |  
 
  |  
  
|-  
+
|- style="background-color:#CCFFCC;font-size:12pt;font-weight:bold"
| Height="25,5" | mole_fraction_of_ozone_from_stratosphere_in troposphere
+
| Height="15,75" | stomatal flux
| volume mixing ratio of ozone from the stratosphere
 
| 1=mole mole-1
 
 
 
|-  
 
| Height="12,75" |  
 
 
  |  
 
  |  
 
  |  
 
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | atmosphere_mole_content_of_ozone_in_air
+
| Height="15" | surface_dry_deposition_mass_flux_of_ozone_in_stomata
  | vertically integrated moles of O3 in the gas phase
+
  | kg m-2 s-1
| mole m-2.
 
 
 
 
 
|-  
 
| Height="12,75" |
 
|
 
 
  |  
 
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | mole_content_of_ozone_in_air_below_tropopause_defined_by_ozone_mole_fraction
+
| Height="15" |  
| vertically integrated moles of O3 in the gas phase in the troposphere
 
| mole m-2
 
 
 
|-
 
| Height="12,75" | mole_content_of_nitrogen_monooxide_in_air_below_tropopause_defined_by_ozone_mole_fraction
 
| vertically integrated moles of NO in the gas phase in the troposphere
 
| mole m-2
 
 
 
|-
 
| Height="12,75" | mole_content_of_nitrogen_dioxide_in_air_below_tropopause_defined_by_ozone_mole_fraction
 
  | vertically integrated moles of NO2in the gas phase in the troposphere
 
| mole m-2
 
 
 
|-
 
| Height="12,75" | mole_content_of_carbon_monoxide_in_air_below_tropopause_defined_by_ozone_mole_fraction
 
| vertically integrated moles of CO in the gas phase in the troposphere
 
| mole m-2
 
 
 
|-
 
| Height="12,75" | mole_content_of_formaldehyde_in_air_below_tropopause_defined_by_ozone_mole_fraction
 
| vertically integrated moles of H2CO in the gas phase in the troposphere
 
| mole m-2
 
 
 
|-  
 
| Height="12,75" | mole_content_of_sulfur_dioxide_in_air_below_tropopause_defined_by_ozone_mole_fraction
 
  | vertically integrated moles of SO2 in the gas phase in the troposphere
 
| mole m-2
 
 
 
|-
 
| Height="12,75" |  
 
 
  |  
 
  |  
 
  |  
 
  |  
|}
 
 
=Gas phase species: emissions=
 
{|{{prettytable}}
 
|- style="font-weight:bold"
 
| Height="12,75" | CF Standard_name
 
| Explanation
 
| Canonical unit
 
  
|- style="background-color:#FF99CC;font-weight:bold"
+
|- style="background-color:#CCFFCC;font-size:12pt;font-weight:bold"
| Height="12,75" | gases phase species: emissions
+
| Height="15,75" | wet deposition flux at the surface
 
  |  
 
  |  
 
  |  
 
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mole_flux_of_ozone
+
| Height="75" | surface_wet_deposition_mass_flux_of_all_nitrogen_oxides
| surface emission of O3
+
  | kg m-2 s-1
  | mole 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
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mole_flux_of_nitrogen_monoxide
+
| Height="15" | surface_wet_deposition_mass_flux_of_nitric_acid
| surface emission of NO
+
  | kg m-2 s-1
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_emission_mole_flux_of_nitrogen_dioxide
 
| surface emission of NO2
 
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_emission_mole_flux_of_nox
 
| surface emission of NOx=NO+NO2
 
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_emission_mole_flux_of_carbon_monoxide
 
| surface emission of CO
 
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_emission_mole_flux_of_sulfur_dioxide
 
| surface emission of SO2
 
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_emission_mole_flux_of_formaldehyde
 
| surface emission of CHCO
 
  | mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_emission_mole_flux_of_methane
 
| surface emission of CH4
 
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_emission_mole_flux_of_ammonia
 
| surface emission of NH3
 
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_emission_mole_flux_of_dinitrogen_oxide
 
| surface emission of N2O
 
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_emission_mole_flux_of_ethane
 
| surface emission of C2H6
 
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_emission_mole_flux_of_radon
 
| surface emission of radon
 
| mole m-2 s-1
 
 
 
 
 
 
 
|-
 
| Height="12,75" |
 
 
  |  
 
  |  
|
 
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mass_flux_of_ozone
+
| Height="15" | surface_wet_deposition_mass_flux_of_ammonia
| surface emission of O3
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mass_flux_of_nitrogen_monoxide
+
| Height="15" | surface_wet_deposition_mass_flux_of_ammonium_as_ammonium
| surface emission of NO
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mass_flux_of_nitrogen_dioxide
+
| Height="15" | surface_wet_deposition_mass_flux_of_sulfur_dioxide
| surface emission of NO2
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mass_flux_of_nox
+
| Height="30" | surface_wet_deposition_mass_flux_of_sulfate_as_sulfate_dry_aerosol
| surface emission of NOx=NO+NO2
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mass_flux_of_carbon_monoxide
+
| Height="15" | surface_wet_deposition_mass_flux_of_black_carbon_dry_aerosol
| surface emission of CO
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mass_flux_of_sulfur_dioxide
+
| Height="30" | surface_wet_deposition_mass_flux_of_organic_carbon_as_particulate_organic_carbon_dry_aerosol
| surface emission of SO2
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mass_flux_of_formaldehyde
+
| Height="15" | surface_wet_deposition_mass_flux_of_seasalt_dry_aerosol
| surface emission of CHCO
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mass_flux_of_methane
+
| Height="15" | surface_wet_deposition_mass_flux_of_dust_dry_aerosol
| surface emission of CH4
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mass_flux_of_ammonia
+
| Height="15" | surface_wet_deposition_mass_flux_of_hexachlorbiphenyl
| surface emission of NH3
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mass_flux_of_dinitrogen_oxide
+
| Height="15" | surface_wet_deposition_mass_flux_of_alpha_hexachlorocyclohexane
| surface emission of N2O
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_emission_mass_flux_of_ethane
+
| Height="15" | surface_wet_deposition_mass_flux_of_mercury_0
| surface emission of C2H6
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 
|-
 
| Height="12,75" |
 
 
  |  
 
  |  
|
 
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | atmosphere_emission_mole_flux_of_ozone
+
| Height="15" | surface_wet_deposition_mass_flux_of_mercury_2
| athmosphere emission of O3
+
  | kg m-2 s-1
| mole m-3 s-1
 
 
 
|-
 
| Height="25,5" | atmosphere_emission_mole_flux_of_nitrogen_monoxide
 
| atmosphere emission of NO
 
| mole m-3 s-1
 
 
 
|-
 
| Height="25,5" | atmosphere_emission_mole_flux_of_nitrogen_dioxide
 
| atmosphere emission of NO2
 
| mole m-3 s-1
 
 
 
|-
 
| Height="25,5" | atmosphere_emission_mole_flux_of_nox
 
| atmosphere emission of NOx=NO+NO2
 
| mole m-3 s-1
 
 
 
|-
 
| Height="25,5" | atmosphere_emission_mole_flux_of_carbon_monoxide
 
| atmosphere emission of CO
 
| mole m-3 s-1
 
 
 
|-
 
| Height="25,5" | atmosphere_emission_mole_flux_of_sulfur_dioxide
 
| atmosphere emission of SO2
 
  | mole m-3 s-1
 
 
 
|-
 
| Height="25,5" | atmosphere_emission_mole_flux_of_formaldehyde
 
| atmosphere emission of CHCO
 
| mole m-3 s-1
 
 
 
|-
 
| Height="25,5" | atmosphere_emission_mole_flux_of_methane
 
| atmosphere emission of CH4
 
| mole m-3 s-1
 
 
 
|-
 
| Height="25,5" | atmosphere_emission_mole_flux_of_ammonia
 
| atmosphere emission of NH3
 
| mole m-3 s-1
 
 
 
|-
 
| Height="25,5" | atmosphere_emission_mole_flux_of_dinitrogen_oxide
 
| atmosphere emission of N2O
 
| mole m-3 s-1
 
 
 
|-
 
| Height="25,5" | atmosphere_emission_mole_flux_of_ethane
 
| atmosphere emission of C2H6
 
| mole m-3 s-1
 
 
 
|-
 
| Height="12,75" |
 
 
  |  
 
  |  
|
 
 
|-
 
| Height="25,5" | atmosphere_emission_mass_flux_of_ozone
 
| athmosphere emission of O3
 
| kg m-3 s-1
 
 
|-
 
| Height="25,5" | atmosphere_emission_mass_flux_of_nitrogen_monoxide
 
| atmosphere emission of NO
 
| kg m-3 s-1
 
 
|-
 
| Height="25,5" | atmosphere_emission_mass_flux_of_nitrogen_dioxide
 
| atmosphere emission of NO2
 
| kg m-3 s-1
 
 
|-
 
| Height="25,5" | atmosphere_emission_mass_flux_of_nox
 
| atmosphere emission of NOx=NO+NO2
 
| kg m-3 s-1
 
 
|-
 
| Height="25,5" | atmosphere_emission_mass_flux_of_carbon_monoxide
 
| atmosphere emission of CO
 
| kg m-3 s-1
 
 
|-
 
| Height="25,5" | atmosphere_emission_mass_flux_of_sulfur_dioxide
 
| atmosphere emission of SO2
 
| kg m-3 s-1
 
 
|-
 
| Height="25,5" | atmosphere_emission_mass_flux_of_formaldehyde
 
| atmosphere emission of CHCO
 
| kg m-3 s-1
 
 
|-
 
| Height="25,5" | atmosphere_emission_mass_flux_of_methane
 
| atmosphere emission of CH4
 
| kg m-3 s-1
 
 
|-
 
| Height="25,5" | atmosphere_emission_mass_flux_of_ammonia
 
| atmosphere emission of NH3
 
| kg m-3 s-1
 
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | atmosphere_emission_mass_flux_of_dinitrogen_oxide
+
| Height="15" | surface_wet_deposition_mass_flux_of_mercury_aerosol
| atmosphere emission of N2O
 
| kg m-3 s-1
 
 
 
|-
 
| Height="25,5" | atmosphere_emission_mass_flux_of_ethane
 
| atmosphere emission of C2H6
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" |  
+
| Height="15" |
 +
|  
 
  |  
 
  |  
|
 
  
|}
+
|- style="background-color:#CCFFCC;font-size:12pt;font-weight:bold"
 
+
| Height="15,75" | emission flux at the surface
=Gas phase species: dry deposition=
 
{|{{prettytable}}
 
|- style="font-weight:bold"
 
| Height="12,75" | CF Standard_name
 
| Explanation
 
| Canonical unit
 
 
 
|- style="background-color:#FF99CC;font-weight:bold"
 
| Height="12,75" | gases phase species: dry deposition
 
 
  |  
 
  |  
 
  |  
 
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_ozone
+
| Height="15" | surface_emission_mass_flux_of_nox
  | dry deposition flux of O3
+
  | kg m-2 s-1
| mole m-2 s-1
+
| NOx=NO+NO2
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_hydrogen_peroxide
+
| Height="15" | surface_emission_mass_flux_of_carbon_monoxide
| dry deposition flux of H2O2
+
  | kg m-2 s-1
  | mole m-2 s-1
+
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_nitrogen_monooxide
+
| Height="30" | surface_emission_mass_flux_of_non_methane_volatile_organic_compounds
| dry deposition flux of NO
+
  | kg m-2 s-1
  | mole m-2 s-1
+
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_nitrogen_dioxide
+
| Height="30" | surface_emission_mass_flux_of_anthropogenic_non_methane_volatile_organic_compounds
| dry deposition flux of NO2
+
  | kg m-2 s-1
  | mole m-2 s-1
+
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_nox"
+
| Height="30" | surface_emission_mass_flux_of_biogenic_non_methane_volatile_organic_compounds
| dry deposition flux of NOx=NO+NO2
+
  | kg m-2 s-1
  | mole m-2 s-1
+
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_all_nitrogen_oxides
+
| Height="15" | surface_emission_mass_flux_ammonia
| dry deposition flux of NOy
+
  | kg m-2 s-1
  | mole m-2 s-1
+
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_nitric_acid
+
| Height="15" | surface_emission_mass_flux_of_sulfur_dioxide
| dry deposition flux of HNO3
+
  | kg m-2 s-1
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_ammonia
 
| dry deposition flux of NH3
 
| mole m-2 s-1
 
 
 
|-  
 
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_ammonium
 
| dry deposition flux of NH4
 
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_peroxyacetyl_nitrate
 
  | dry deposition flux of PAN
 
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_carbon_monoxide
 
| dry deposition flux of CO
 
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_formaldehyde
 
| dry deposition flux of CHO2
 
| mole m-2 s-1
 
 
 
|-
 
| Height="25,5" | surface_dry_deposition_mole_flux_due_to_turbulence_of_sulfur_dioxide
 
| dry deposition flux of SO2
 
| mole m-2 s-1
 
 
 
|-
 
| Height="12,75" |
 
|
 
 
  |  
 
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_ozone
+
| Height="15" | surface_emission_mass_flux_of_sulfate_as_sulfate_dry_aerosol
| dry deposition flux of O3
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_hydrogen_peroxide
+
| Height="15" | surface_emission_mass_flux_of_black_carbon_dry_aerosol
| dry deposition flux of H2O2
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_nitrogen_monooxide
+
| Height="30" | surface_emission_mass_flux_of_organic_carbon_as_particulate_organic_carbon_dry_aerosol
| dry deposition flux of NO
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_nitrogen_dioxide
+
| Height="30" | atmosphere_emission_mass_flux_of_secondary_organic_carbon_as_particulate_organic_carbon_dry_aerosol
| dry deposition flux of NO2
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_nox"
+
| Height="15" | surface_emission_mass_flux_of_seasalt_dry_aerosol
| dry deposition flux of NOx=NO+NO2
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_all_nitrogen_oxides
+
| Height="15" | surface_emission_mass_flux_of_dust_dry_aerosol
| dry deposition flux of NOy
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_nitric_acid
+
| Height="15" | surface_emission_mass_flux_of_hexachlorbiphenyl
| dry deposition flux of HNO3
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_ammonia
+
| Height="15" | surface_emission_mass_flux_of_alpha_hexachlorocyclohexane
| dry deposition flux of NH3
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_ammonium
+
| Height="15" | surface_re_emission_mass_flux_of_hexachlorbiphenyl
| dry deposition flux of NH4
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_peroxyacetyl_nitrate
+
| Height="15" | surface_re_emission_mass_flux_of_alpha_hexachlorocyclohexane
| dry deposition flux of PAN
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_carbon_monoxide
+
| Height="15" | surface_emission_mass_flux_of_mercury_0
| dry deposition flux of CO
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_formaldehyde
+
| Height="15" | surface_emission_mass_flux_of_mercury_2
| dry deposition flux of CHO2
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_mass_flux_due_to_turbulence_of_sulfur_dioxide
+
| Height="15" | surface_emission_mass_flux_of_mercury_aerosol
| dry deposition flux of SO2
 
 
  | kg m-2 s-1
 
  | kg m-2 s-1
 +
|
  
|-  
+
|- style="background-color:#CCFFCC;font-size:12pt"
| Height="12,75" |  
+
|style="font-weight:bold" Height="15,75" | volume mixing ratios
 +
|style="font-weight:bold" |  
 
  |  
 
  |  
 +
 +
|- style="font-size:12pt"
 +
| Height="30" | mole_fraction_of_ozone_in_air
 +
| 1=mole mole-1
 
  |  
 
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_velocity_due_to_turbulence_of_ozone
+
| Height="30" | mole_fraction_of_cabon_monoxide_in_air
  | dry deposition velocity of O3
+
  | 1=mole mole-1
  | s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_velocity_due_to_turbulence_of_hydrogen_peroxide
+
| Height="30" | mole_fraction_of_nitrogen_monoxide_in_air
  | dry deposition velocity of H2O2
+
  | 1=mole mole-1
  | s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_velocity_due_to_turbulence_of_nitrogen_monooxide
+
| Height="30" | mole_fraction_of_nitrogen_dioxide_in_air
  | dry deposition velocity of NO
+
  | 1=mole mole-1
  | s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_velocity_due_to_turbulence_of_nitrogen_dioxide
+
| Height="30" | mole_fraction_of_nitrogen_acid_in_air
  | dry deposition velocity of NO2
+
  | 1=mole mole-1
  | s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_velocity_due_to_turbulence_of_all_nitrogen_oxides
+
| Height="30" | mole_fraction_of_peroxyacetyl_nitrate_in_air
  | dry deposition velocity of NOy
+
  | 1=mole mole-1
  | s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_velocity_due_to_turbulence_of_nitric_acide
+
| Height="30" | mole_fraction_of_hydroxyl_radical_in_air
  | dry deposition velocity of HNO3
+
  | 1=mole mole-1
  | s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_velocity_due_to_turbulence_of_ammonia
+
| Height="30" | mole_fraction_of_sulfur_dioxide_in_air
  | dry deposition velocity of NH3
+
  | 1=mole mole-1
  | s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_velocity_due_to_turbulence_of_ammonium
+
| Height="30" | mole_fraction_of_hexachlorbiphenyl_in_air
  | dry deposition velocity of NH4
+
  | 1=mole mole-1
  | s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_velocity_due_to_turbulence_of_peroxyacetyl_nitrate
+
| Height="30" | mole_fraction_of_alpha_hexachlorocyclohexane_in_air
  | dry deposition velocity of PAN
+
  | 1=mole mole-1
  | s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_velocity_due_to_turbulence_of_carbon_monoxide
+
| Height="30" | mole_fraction_of_mercury_0_in_air
  | dry deposition velocity of CO
+
  | 1=mole mole-1
  | s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_velocity_due_to_turbulence_of_formaldehyde
+
| Height="30" | mole_fraction_of_mercury_2_in_air
  | wet deposition velocity of CHO2
+
  | 1=mole mole-1
  | s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_dry_deposition_velocity_due_to_turbulence_of_sulfur_dioxide
+
| Height="30" | mole_fraction_of_mercury_aerosol_in_air
  | dry deposition velocity of SO2
+
  | 1=mole mole-1
  | s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" |  
+
| Height="30" | mole_fraction_of_CO_with_lifetime_of_25_days_in_air
 +
| 1=mole mole-1
 
  |  
 
  |  
 +
 +
|- style="font-size:12pt"
 +
| Height="30" | mole_fraction_of_CO_due_to_methane_oxidation_in_air
 +
| 1=mole mole-1
 
  |  
 
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | dry_deposition_mass_flux_of_ozone_in_stomata
+
| Height="30" | mole_fraction_of_CO_due_to_oxidation_of_anthropogenic_NMVOC_in_air
  | dry deposition of O3 in Stomata
+
  | 1=mole mole-1
  | kg m-2 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" |  
+
| Height="30" | mole_fraction_of_CO_due_to_oxidation_of_biogenic_NMVOC_in_air
 +
| 1=mole mole-1
 
  |  
 
  |  
 +
 +
|- style="font-size:12pt"
 +
| Height="30" | mole_fraction_of_CO_due_to_emissions_from_East_Asia_in_air
 +
| 1=mole mole-1
 
  |  
 
  |  
|}
 
  
=Gas phase species: wet deposition=
+
|- style="font-size:12pt"
{|{{prettytable}}
+
| Height="30" | mole_fraction_of_CO_due_to_emissions_from_Europe_and_North_Africa_in_air
|- style="font-weight:bold"
+
  | 1=mole mole-1
| Height="12,75" | CF Standard_name
+
  |  
  | Explanation
 
  | Canonical unit
 
  
|- style="background-color:#FF99CC;font-weight:bold"
+
|- style="font-size:12pt"
| Height="12,75" | gases phase species: wet deposition
+
| Height="30" | mole_fraction_of_CO_due_to_emissions_from_North_America_in_air
 +
| 1=mole mole-1
 
  |  
 
  |  
 +
 +
|- style="font-size:12pt"
 +
| Height="30" | mole_fraction_of_CO_due_to_emissions_from_South_Asia_in_air
 +
| 1=mole mole-1
 
  |  
 
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_wet_deposition_mole_flux_of_all_nitrogen_oxides
+
| Height="30" | mole_fraction_of_anthropogenic_NMVOC_in_air
  | wet deposition of NOy
+
  | 1=mole mole-1
  | mole m-2 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_wet_deposition_mole_flux_of_nitric_acid
+
| Height="30" | mole_fraction_of_biogenic_NMVOC_in_air
  | wet deposition of HNO3
+
  | 1=mole mole-1
  | mole m-2 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_wet_deposition_mole_flux_of_ammonia
+
| Height="15" |  
  | wet deposition of NH3
+
  |  
  | mole m-2 s-1
+
  |  
  
|-  
+
|- style="background-color:#CCFFCC;font-size:12pt"
| Height="25,5" | surface_wet_deposition_mole_flux_of_ammonium
+
|style="font-weight:bold" Height="15,75" | mass mixing ratio
| wet deposition of NH4
+
|style="font-weight:bold" |
  | mole m-2 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_wet_deposition_mole_flux_of_sulfur_dioxide
+
| Height="30" | mass_fraction_of_pm10_aerosol_at_50_percent_relative_humidity_in_air
  | wet deposition of SO2
+
  | 1=kg/kg
  | mole m-2 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" |  
+
| Height="30" | mass_fraction_of_pm2p5_aerosol_at_50_percent_relative_humidity_in_air
 +
| 1=kg/kg
 
  |  
 
  |  
 +
 +
|- style="font-size:12pt"
 +
| Height="30" | mass_fraction_of_pm1_aerosol_at_50_percent_relative_humidity_in_air
 +
| 1=kg/kg
 
  |  
 
  |  
|-
 
| Height="25,5" | surface_wet_deposition_mass_flux_of_all_nitrogen_oxides
 
| wet deposition of NOy
 
| kg m-2 s-1
 
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_wet_deposition_mass_flux_of_nitric_acid
+
| Height="15" | mass_fraction_ of_nitrate_as_nitrate_dry_aerosol_in_air
  | wet deposition of HNO3
+
  | 1=kg/kg
  | kg m-2 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_wet_deposition_mass_flux_of_ammonia
+
| Height="15" | mass_fraction_of_sulfate_as_sulfate_dry_aerosol_in_air
  | wet deposition of NH3
+
  | 1=kg/kg
  | kg m-2 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_wet_deposition_mass_flux_of_ammonium
+
| Height="15" | mass_fraction_of_ammonium_as_ammonium_dry_aerosol_in_air
  | wet deposition of NH4
+
  | 1=kg/kg
  | kg m-2 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | surface_wet_deposition_mass_flux_of_sulfur_dioxide
+
| Height="15" | mass_fraction_ of_black_carbon_dry_aerosol_in_air
  | wet deposition of SO2
+
  | 1=kg/kg
  | kg m-2 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" |  
+
| Height="30" | mass_fraction_of_organic_carbon_as_particulate_organic_carbon_dry_aerosol_in_air
 +
| 1=kg/kg
 
  |  
 
  |  
 +
 +
|- style="font-size:12pt"
 +
| Height="30" | mass_fraction_of_secondary_organic_carbon_as_particulate_organic_carbon_dry_aerosol_in_air
 +
| 1=kg/kg
 
  |  
 
  |  
  
 +
|- style="font-size:12pt"
 +
| Height="15" | mass_fraction_ of_seasalt_dry_aerosol_in_air
 +
| 1=kg/kg
 +
|
  
|}
+
|- style="font-size:12pt"
 +
| Height="15" | mass_fraction_ of_dust_dry_aerosol_in_air
 +
| 1=kg/kg
 +
|
  
=Gas phase species: chemical prod/loss=
+
|- style="font-size:12pt"
{|{{prettytable}}
+
| Height="15" | mass_fraction_ of_aerosol_water_ambient_aerosol_in_air
|- style="font-weight:bold"
+
  | 1=kg/kg
| Height="12,75" | CF Standard_name
+
  |  
  | Explanation
 
  | Canonical unit
 
  
|- style="background-color:#FF99CC;font-weight:bold"
+
|- style="font-size:12pt"
| Height="12,75" | gases phase species: chemical prod/loss
+
| Height="15" |  
 +
|
 
  |  
 
  |  
 
|-
 
| Height="38,25" | chemical_net_production_rate_of_mole_fraction_of_ozone
 
| chemical net production of ozone from all reactions (prod-loss)
 
| s-1=mole mole-1 s-1
 
 
|-
 
| Height="25,5" | chemical_gross_production_rate_of_mole_fraction_of_ozone               
 
| chemical gross production of ozone
 
| s-1=mole mole-1 s-1
 
  
|-  
+
|- style="background-color:#CCFFCC;font-size:12pt"
| Height="25,5" | chemical_destruction_rate_of_mole_fraction_of_ozone
+
|style="font-weight:bold" Height="15,75" | fluxes due to chemical reactions
| chemical destruction of ozone
+
|style="font-weight:bold" |
  | s-1=mole mole-1 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="38,25" | chemical_net_production_rate_of_mole_fraction_of_carbon_monoxide
+
| Height="15" | chemical_gross_production_rate_of_mole_concentration_of_ozone
| chemical net production of CO from all reactions (prod-loss)
+
  | mole m-3 s-1
  | s-1=mole mole-1 s-1
+
  |  
 
|-
 
| Height="25,5" | chemical_gross_production_rate_of_mole_fraction_of_carbon_monoxide
 
  | chemical gross production of CO
 
| s-1=mole mole-1 s-1
 
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | chemical_destruction_rate_of_mole_fraction_of_carbon_monoxide
+
| Height="15" | chemical_destruction_rate_of_mole_concentration_of_ozone
| chemical destruction of CO
+
  | mole m-3 s-1
  | s-1=mole mole-1 s-1
+
|
  
|-  
+
|- style="font-size:12pt"
| Height="38,25" | chemical_net_production_rate_of_mole_fraction_of_nitrogen_monoxide
+
| Height="15" | chemical_destruction_rate_of_mole_concentration_of_methane
| chemical net production of NO from all reactions (prod-loss)
+
  | mole m-3 s-1
  | s-1=mole mole-1 s-1
+
  |  
 
|-
 
| Height="25,5" | chemical_gross_production_rate_of_mole_fraction_of_nitrogen_monoxide
 
  | chemical gross production of NO
 
| s-1=mole mole-1 s-1
 
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | chemical_destruction_rate_of_mole_fraction_of_nitrogen_monoxide
+
| Height="30" | chemical_destruction_rate_of_mole_concentration_of_carbon_monoxide
| chemical destruction of NO
+
  | mole m-3 s-1
  | s-1=mole mole-1 s-1
+
|
  
|-  
+
|- style="font-size:12pt"
| Height="38,25" | chemical_net_production_rate_of_mole_fraction_of_nitrogen_dioxide
+
| Height="15" |  
| chemical net production of NO2 from all reactions (prod-loss)
+
  |  
| s-1=mole mole-1 s-1
+
  |  
 
|-
 
| Height="25,5" | chemical_gross_production_rate_of_mole_fraction_of_nitrogen_dioxide
 
  | chemical gross production of NO2
 
  | s-1=mole mole-1 s-1
 
  
|-  
+
|- style="background-color:#CCFFCC;font-size:12pt"
| Height="25,5" | chemical_destruction_rate_of_mole_fraction_of_nitrogen_dioxide
+
|style="font-weight:bold" Height="15,75" | optical thickness at 550 nm
  | chemical destruction of NO2
+
  |  
  | s-1=mole mole-1 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="38,25" | chemical_net_production_rate_of_mole_fraction_of_sulfur-dioxide
+
| Height="15" | pm10_aerosol_ambient_optical_depth_at_550_nm
| chemical net production of SO2 from all reactions (prod-loss)
+
  | 1
| s-1=mole mole-1 s-1
+
  |  
 
|-
 
| Height="25,5" | chemical_gross_production_rate_of_mole_fraction_of_sulfur-dioxide
 
  | chemical gross production of SO2
 
  | s-1=mole mole-1 s-1
 
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | chemical_destruction_rate_of_mole_fraction_of_sulfur-dioxide
+
| Height="15" | pm2p5_aerosol_ambient_optical_depth_at_550_nm
  | chemical destruction of SO2
+
  | 1
  | s-1=mole mole-1 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="38,25" | chemical_net_production_rate_of_mole_fraction_of_formaldehyde
+
| Height="15" | pm1_aerosol_ambient_optical_depth_at_550_nm
| chemical net production of CHCO from all reactions (prod-loss)
+
  | 1
| s-1=mole mole-1 s-1
+
  |  
 
|-
 
| Height="25,5" | chemical_gross_production_rate_of_mole_fraction_of_formaldehyde
 
  | chemical gross production of CHCO
 
  | s-1=mole mole-1 s-1 
 
  
|-  
+
|- style="font-size:12pt"
| Height="25,5" | chemical_destruction_rate_of_mole_fraction_of_formaldehyde
+
| Height="15" | nitrate_aerosol_ambient_optical_depth_at_550_nm
  | chemical destruction of CHCO
+
  | 1
  | s-1=mole mole-1 s-1
+
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" |  
+
| Height="15" | sulfate_aerosol_ambient_optical_depth_at_550_nm
 +
| 1
 
  |  
 
  |  
 +
 +
|- style="font-size:12pt"
 +
| Height="15" | ammonium_aerosol_ambient_optical_depth_at_550_nm
 +
| 1
 
  |  
 
  |  
  
|}
+
|- style="font-size:12pt"
 +
| Height="15" | black_carbon_aerosol_ambient_optical_depth_at_550_nm
 +
| 1
 +
|
  
=Aerosols=
+
|- style="font-size:12pt"
{|{{prettytable}}
+
| Height="15" | organic_carbon_aerosol_ambient_optical_depth_at_550_nm
 +
| 1
 +
|  
  
|- style="font-weight:bold"
+
|- style="font-size:12pt"
| width="300" Height="12,75" | CF Standard_name
+
| Height="15" | seasalt_aerosol_ambient_optical_depth_at_550_nm
  | width="300" | Explanation
+
  | 1
  | width="300" | Canonical unit
+
  |  
  
|- style="background-color:#FF99CC"
+
|- style="font-size:12pt"
|style="font-weight:bold" Height="12,75" | aerosols: concentrations and columns
+
| Height="15" | dust_aerosol_ambient_optical_depth_at_550_nm
 +
| 1
 
  |  
 
  |  
|
 
 
|-
 
| Height="12,75" | mass_concentration_of_dry_aerosol
 
| total dry aerosol
 
| kg m-3 
 
 
|-
 
| Height="12,75" | mass_concentration_of_mercury_dry_aerosol
 
| mercury dry aerosol
 
| kg m-3 
 
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" |  
+
| Height="15" | aerosol_water_aerosol_ambient_optical_depth_at_550_nm
 +
| 1
 
  |  
 
  |  
|
 
  
|}
+
|- style="font-size:12pt"
 
+
| Height="15" |  
=Other names needed for the intercomparison of Chemical Transport Models=
+
  |  
{|{{prettytable}}
+
  |  
 
 
|- style="font-weight:bold"
 
| width="300" Height="12,75" | CF Standard_name
 
  | width="300" | Explanation
 
  | width="300" |Canonical unit
 
  
|- style="background-color:#FF99CC;font-weight:bold"
+
|- style="background-color:#CCFFCC;font-size:12pt"
| Height="12,75" | Others
+
| Height="15" | others
 
  |  
 
  |  
 
  |  
 
  |  
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | lightning_flash_frequency
+
| Height="15" | grid_cell_area
| flash frequency due to lightning
 
| s-1=flashes s-1
 
 
 
|-  
 
| Height="12,75" | reference pressure for hybrid sigma coordinate
 
| atmospheric reference pressure at the surface for hybrid coordinates
 
| Pa
 
 
 
|-
 
| Height="12,75" | model_gridbox_area
 
| model gridbox area
 
 
  | m2
 
  | m2
 +
| model grid cell area
  
|-  
+
|- style="font-size:12pt"
| Height="12,75" | model_gridbox_height
+
| Height="15" | grid_cell_height
| model gridbox height
 
 
  | m
 
  | m
 +
| model grid cell height
 +
 +
|- style="font-size:12pt"
 +
| Height="15" | atmosphere_mass_content_of_air
 +
| kg m-2
 +
| vertically integrated mass of air
  
 
|}
 
|}

Revision as of 10:49, August 18, 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 NOT UP TO DATE!!!

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 of three CTMs within the Global and regional Earth-system (Atmosphere) Monitoring using Satellite and in-situ data GEMS project within the theme Global Reactive Gases (GRG). In addition, most of these names probably will be needed 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 this page.

Comments to ChristianeTextor or directly on our 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
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