http://dx.doi.org/:10.3334/ORNLDAAC/1925
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2024-03-28
ISO 19115-2 Geographic Information - Metadata Part 2 Extensions for imagery and gridded data
ISO 19115-2:2009(E)
2
vertical
temporal
2692
809.0
area
merge of 1s ATom DC-8 data with TOGA flask samples from ATom-1 on 2016-07-29 to 2016-08-23
2021-07-01T18:45:12.448Z
revision
http://dx.doi.org/
1925/MER-TOGA_DC8_ATom-1.nc
Harvard University
wofsy@g.harvard.edu
https://harvard.edu
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web browser
information
originator
WOFSY, S.C.
This dataset provides information on greenhouse gases and human-produced air pollution, including atmospheric concentrations of carbon dioxide (CO2), methane (CH4), tropospheric ozone (O3) and black carbon (BC) aerosols, collected during airborne campaigns conducted by NASA's Atmospheric Tomography (ATom) mission. This dataset includes merged data from all instruments. A variety of merged file types have been created for each flight date. The merge files include additional data such as numbered profiles and distance flown. In the case of data obtained over longer time intervals (e.g. flask data), the merge files provide (weighted) averages of 1-second data to match the sampling intervals. ATom deploys an extensive gas and aerosol payload on the NASA DC-8 aircraft for systematic, global-scale sampling of the atmosphere, profiling continuously from 0.2 to 12 km altitude. Flights occurred in each of 4 seasons from 2016 to 2018. Flights originate from the Armstrong Flight Research Center in Palmdale, California, fly north to the western Arctic, south to the South Pacific, east to the Atlantic, north to Greenland, and return to California across central North America. ATom establishes a single, contiguous, global-scale dataset. This comprehensive dataset will be used to improve the representation of chemically reactive gases and short-lived climate forcers in global models of atmospheric chemistry and climate. Profiles of the reactive gases will also provide critical information for validation of satellite data, particularly in remote areas where in situ data is lacking. Complete aircraft flight information including, but not limited to, latitude, longitude, and altitude are also provided. This data release provides results from the ATom-1 and ATom-2 flight campaigns. Data from subsequent campaigns will be added when it is finalized.
Harvard University
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atmosphere > atmospheric chemistry > trace gases/trace species
atmosphere > air quality
human dimensions > environmental impacts > biomass burning
atmosphere > atmospheric chemistry > carbon and hydrocarbon compounds > carbon monoxide
atmosphere > atmospheric chemistry > oxygen compounds > ozone
atmosphere > atmospheric chemistry > sulfur compounds
atmosphere > atmospheric chemistry > carbon and hydrocarbon compounds > carbon dioxide
atmosphere > atmospheric chemistry > halocarbons and halogens
atmosphere > atmospheric chemistry > carbon and hydrocarbon compounds > non-methane hydrocarbons/volatile organic compounds
atmosphere > aerosols > carbonaceous aerosols
human dimensions > environmental impacts > industrial emissions
human dimensions > environmental impacts > fossil fuel burning
theme
GCMD Science Keywords
Atmospheric Tomography Mission, Phase 1, July - August 2016
project
Oak Ridge National Laboratory (ORNL) Distributed Active Archive Center (DAAC)
dataCenter
time
theme
Atmospheric Tomography Mission, Phase 1, July - August 2016
largerWorkCitation
project
Unidata Common Data Model
TRAJECTORY
largerWorkCitation
project
eng
climatologyMeteorologyAtmosphere
1
-179.84589
179.92377
-65.33153
79.99272
seconds
2016-07-29T14:36:22Z
2016-08-23T19:58:21Z
merge of 1s ATom DC-8 data with TOGA flask samples from ATom-1 on 2016-07-29 to 2016-08-23
2021-07-01T18:45:12.448Z
revision
Harvard University
wofsy@g.harvard.edu
https://harvard.edu
WWW:LINK
web browser
information
originator
WOFSY, S.C.
This dataset provides information on greenhouse gases and human-produced air pollution, including atmospheric concentrations of carbon dioxide (CO2), methane (CH4), tropospheric ozone (O3) and black carbon (BC) aerosols, collected during airborne campaigns conducted by NASA's Atmospheric Tomography (ATom) mission. This dataset includes merged data from all instruments. A variety of merged file types have been created for each flight date. The merge files include additional data such as numbered profiles and distance flown. In the case of data obtained over longer time intervals (e.g. flask data), the merge files provide (weighted) averages of 1-second data to match the sampling intervals. ATom deploys an extensive gas and aerosol payload on the NASA DC-8 aircraft for systematic, global-scale sampling of the atmosphere, profiling continuously from 0.2 to 12 km altitude. Flights occurred in each of 4 seasons from 2016 to 2018. Flights originate from the Armstrong Flight Research Center in Palmdale, California, fly north to the western Arctic, south to the South Pacific, east to the Atlantic, north to Greenland, and return to California across central North America. ATom establishes a single, contiguous, global-scale dataset. This comprehensive dataset will be used to improve the representation of chemically reactive gases and short-lived climate forcers in global models of atmospheric chemistry and climate. Profiles of the reactive gases will also provide critical information for validation of satellite data, particularly in remote areas where in situ data is lacking. Complete aircraft flight information including, but not limited to, latitude, longitude, and altitude are also provided. This data release provides results from the ATom-1 and ATom-2 flight campaigns. Data from subsequent campaigns will be added when it is finalized.
THREDDS OPeNDAP
1
-179.84589
179.92377
-65.33153
79.99272
2016-07-29T14:36:22Z
2016-08-23T19:58:21Z
tight
OPeNDAP Client Access
https://thredds.daac.ornl.gov/thredds/dodsC/ornldaac/1925/MER-TOGA_DC8_ATom-1.nc
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merge of 1s ATom DC-8 data with TOGA flask samples from ATom-1 on 2016-07-29 to 2016-08-23
2021-07-01T18:45:12.448Z
revision
Harvard University
wofsy@g.harvard.edu
https://harvard.edu
WWW:LINK
web browser
information
originator
WOFSY, S.C.
This dataset provides information on greenhouse gases and human-produced air pollution, including atmospheric concentrations of carbon dioxide (CO2), methane (CH4), tropospheric ozone (O3) and black carbon (BC) aerosols, collected during airborne campaigns conducted by NASA's Atmospheric Tomography (ATom) mission. This dataset includes merged data from all instruments. A variety of merged file types have been created for each flight date. The merge files include additional data such as numbered profiles and distance flown. In the case of data obtained over longer time intervals (e.g. flask data), the merge files provide (weighted) averages of 1-second data to match the sampling intervals. ATom deploys an extensive gas and aerosol payload on the NASA DC-8 aircraft for systematic, global-scale sampling of the atmosphere, profiling continuously from 0.2 to 12 km altitude. Flights occurred in each of 4 seasons from 2016 to 2018. Flights originate from the Armstrong Flight Research Center in Palmdale, California, fly north to the western Arctic, south to the South Pacific, east to the Atlantic, north to Greenland, and return to California across central North America. ATom establishes a single, contiguous, global-scale dataset. This comprehensive dataset will be used to improve the representation of chemically reactive gases and short-lived climate forcers in global models of atmospheric chemistry and climate. Profiles of the reactive gases will also provide critical information for validation of satellite data, particularly in remote areas where in situ data is lacking. Complete aircraft flight information including, but not limited to, latitude, longitude, and altitude are also provided. This data release provides results from the ATom-1 and ATom-2 flight campaigns. Data from subsequent campaigns will be added when it is finalized.
THREDDS HTTP Service
1
-179.84589
179.92377
-65.33153
79.99272
2016-07-29T14:36:22Z
2016-08-23T19:58:21Z
tight
FileHTTPService
https://thredds.daac.ornl.gov/thredds/fileServer/ornldaac/1925/MER-TOGA_DC8_ATom-1.nc
file
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download
CFC11_TOGA
double
CFC-11 Dry Volume Mixing Ratio, ppt
CFC113_TOGA
double
CFC-113 Dry Volume Mixing Ratio, ppt
CH3Cl_TOGA
double
Methyl chloride Dry Volume Mixing Ratio, ppt
CH2Cl2_TOGA
double
Dichloromethane Dry Volume Mixing Ratio, ppt
CHCl3_TOGA
double
Chloroform Dry Volume Mixing Ratio, ppt
C2Cl4_TOGA
double
Tetrachloroethene Dry Volume Mixing Ratio, ppt
ClBenzene_TOGA
double
Chlorobenzene Dry Volume Mixing Ratio, ppt
CHBrCl2_TOGA
double
Bromodichloromethane Dry Volume Mixing Ratio, ppt
CHBr2Cl_TOGA
double
Dibromochloromethane Dry Volume Mixing Ratio, ppt
CH3Br_TOGA
double
Methyl bromide Dry Volume Mixing Ratio, ppt
CH2Br2_TOGA
double
Dibromomethane Dry Volume Mixing Ratio, ppt
CHBr3_TOGA
double
Bromoform Dry Volume Mixing Ratio, ppt
CH2ClI_TOGA
double
Chloroiodomethane Dry Volume Mixing Ratio, ppt
CH2BrI_TOGA
double
Bromoiodomethane Dry Volume Mixing Ratio, ppt
CH3I_TOGA
double
Methyl iodide Dry Volume Mixing Ratio, ppt
CH2I2_TOGA
double
Diiodomethane Dry Volume Mixing Ratio, ppt
Propane_TOGA
double
Propane Dry Volume Mixing Ratio, ppt
iButane_TOGA
double
Isobutane Dry Volume Mixing Ratio, ppt
nButane_TOGA
double
n-Butane Dry Volume Mixing Ratio, ppt
iPentane_TOGA
double
Isopentane Dry Volume Mixing Ratio, ppt
nPentane_TOGA
double
n-Pentane Dry Volume Mixing Ratio, ppt
x2MePentane_TOGA
double
2-Methylpentane Dry Volume Mixing Ratio, ppt
x3MePentane_TOGA
double
3-Methylpentane Dry Volume Mixing Ratio, ppt
nHexane_TOGA
double
n-Hexane Dry Volume Mixing Ratio, ppt
x224TrimePentane_TOGA
double
2,2,4-Trimethylpentane Dry Volume Mixing Ratio, ppt
nHeptane_TOGA
double
n-Heptane Dry Volume Mixing Ratio, ppt
iButene1Butene_TOGA
double
Isobutene + 1-Butene Dry Volume Mixing Ratio, ppt
Isoprene_TOGA
double
Isoprene Dry Volume Mixing Ratio, ppt
Benzene_TOGA
double
Benzene Dry Volume Mixing Ratio, ppt
Toluene_TOGA
double
Toluene Dry Volume Mixing Ratio, ppt
EthBenzene_TOGA
double
Ethylbenzene Dry Volume Mixing Ratio, ppt
mpXylene_TOGA
double
m-Xylene + p-Xylene Dry Volume Mixing Ratio, ppt
oXylene_TOGA
double
o-Xylene Dry Volume Mixing Ratio, ppt
aPinene_TOGA
double
alpha-Pinene Dry Volume Mixing Ratio, ppt
Tricyclene_TOGA
double
Tricyclene Dry Volume Mixing Ratio, ppt
Camphene_TOGA
double
Camphene Dry Volume Mixing Ratio, ppt
bPineneMyrcene_TOGA
double
beta-Pinene + Myrcene Dry Volume Mixing Ratio, ppt
LimoneneD3Carene_TOGA
double
Limonene + D3-Carene Dry Volume Mixing Ratio, ppt
CH2O_TOGA
double
Formaldehyde Dry Volume Mixing Ratio, ppt
CH3CHO_TOGA
double
Acetaldehyde Dry Volume Mixing Ratio, ppt
Propanal_TOGA
double
Propanal Dry Volume Mixing Ratio, ppt
Butanal_TOGA
double
Butanal Dry Volume Mixing Ratio, ppt
Acrolein_TOGA
double
Acrolein Dry Volume Mixing Ratio, ppt
MAC_TOGA
double
Methacrolein Dry Volume Mixing Ratio, ppt
Acetone_TOGA
double
Acetone Dry Volume Mixing Ratio, ppt
MEK_TOGA
double
Methyl ethyl ketone Dry Volume Mixing Ratio, ppt
MVK_TOGA
double
Methyl vinyl ketone Dry Volume Mixing Ratio, ppt
CH3OH_TOGA
double
Methanol Dry Volume Mixing Ratio, ppt
C2H5OH_TOGA
double
Ethanol Dry Volume Mixing Ratio, ppt
MTBE_TOGA
double
Methyl tert-butyl ether Dry Volume Mixing Ratio, ppt
DMS_TOGA
double
Dimethyl sulfide Dry Volume Mixing Ratio, ppt
HCN_TOGA
double
HCN Dry Volume Mixing Ratio, ppt
CH3CN_TOGA
double
Acetonitrile Dry Volume Mixing Ratio, ppt
EthONO2_TOGA
double
Ethyl nitrate Dry Volume Mixing Ratio, ppt
iPropONO2_TOGA
double
Isopropyl nitrate Dry Volume Mixing Ratio, ppt
P
double
Static pressure
T
double
Static Temperature
TAS
double
True Air Speed
U
double
E-W Horizontal Wind Speed
V
double
N-S Horizontal Wind Speed
W
double
Vertical Wind Speed
TEDR
double
Log10 of Turbulent Dissipation Rate
REYN
double
Log10 of Reynolds Number per Length
G_LAT
double
GPS Latitude (latitude)
G_LONG
double
GPS Longitude (longitude)
G_ALT
double
GPS Altitude (altitude)
POT
double
Potential Temperature
ROLL
double
Roll Angle +right wing down (platform_roll_angle)
HDG
double
Heading Angle
PITCH
double
Pitch Angle (platform_pitch_angle)
YAW
double
YAW (sideslip) Angle (platform_yaw_angle)
AOA
double
Angle of Attack
Stoptime_AMSSD
double
UTC_stop_time_in_seconds_from_midnight
MidPoint_AMSSD
double
UTC_midpoint_time_in_seconds_from_midnight
LAT_AMSSD
double
Aircraft_latitude_at_time_of_sampling
LON_AMSSD
double
Aircraft_longitude_at_time_of_sampling
GALT_AMSSD
double
Aircraft_GPS_altitude_at_time_of_sampling
StdToVol_AMSSD
double
Conversion_factor_from_std_to_ambient_volume_and_pressure
OA_PM1_AMSSD
double
Total_submicron_aerosol_mass_measured_in_size_segregated_mode_of_OA_by_AMS_less_than_1_um
SO4_PM1_AMSSD
double
Total_submicron_aerosol_mass_measured_in_size_segregated_mode_of_sulfate_by_AMS_less_than_1_um
NO3_PM1_AMSSD
double
Total_submicron_aerosol_mass_measured_in_size_segregated_mode_of_nitrate_by_AMS_less_than_1_um
NH4_PM1_AMSSD
double
Total_submicron_aerosol_mass_measured_in_size_segregated_mode_of_ammonium_by_AMS_less_than_1_um
Chl_PM1_AMSSD
double
Total_submicron_aerosol_mass_measured_in_size_segregated_mode_of_chloride_by_AMS_less_than_1_um
Stoptime_AMS
double
UTC_end_time_in_seconds_from_midnight
MidPointTime_AMS
double
UTC_midpoint_time_in_seconds_from_midnight
LAT_AMS
double
Aircraft_latitude_at_time_of_sampling
LON_AMS
double
Aircraft_longitude_at_time_of_sampling
ALT_AMS
double
Aircraft_GPS_altitude_at_time_of_sampling
OA_PM1_AMS
double
Mass_concentration_of_organic_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
OA_prec_PM1_AMS
double
1s_precision_error_of_the_mass_concentration_of_organic_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
OA_DL_PM1_AMS
double
Detection_limit_for_the_mass_concentration_of_organic_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Sulfate_PM1_AMS
double
Mass_concentration_of_sulfate_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Sulfate_prec_PM1_AMS
double
1s_precision_error_of_the_mass_concentration_of_sulfate_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Sulfate_DL_PM1_AMS
double
Detection_limit_for_the_mass_concentration_of_sulfate_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Nitrate_PM1_AMS
double
Mass_concentration_of_nitrate_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Nitrate_prec_PM1_AMS
double
1s_precision_error_of_the_mass_concentration_of_nitrate_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Nitrate_DL_PM1_AMS
double
Detection_limit_for_the_mass_concentration_of_nitrate_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Ammonium_PM1_AMS
double
Mass_concentration_of_ammonium_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Ammonium_prec_PM1_AMS
double
1s_precision_error_of_the_mass_concentration_of_ammonium_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Ammonium_DL_PM1_AMS
double
Detection_limit_for_the_mass_concentration_of_ammonium_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Chloride_PM1_AMS
double
Mass_concentration_of_chloride_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Chloride_prec_PM1_AMS
double
1s_precision_error_of_the_mass_concentration_of_chloride_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Chloride_DL_PM1_AMS
double
Detection_limit_for_the_mass_concentration_of_chloride_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Seasalt_PM1_AMS
double
Mass_concentration_of_seasalt_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Seasalt_prec_PM1_AMS
double
1s_precision_error_of_the_mass_concentration_of_seasalt_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
Seasalt_DL_PM1_AMS
double
Detection_limit_for_the_mass_concentration_of_seasalt_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
MSA_PM1_AMS
double
Mass_concentration_of_MSA_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
MSA_prec_PM1_AMS
double
1s_precision_error_of_the_mass_concentration_of_MSA_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
MSA_DL_PM1_AMS
double
Detection_limit_for_the_mass_concentration_of_MSA_aerosol_in_air_for_particle_diameter_less_than_1um_measured_by_HRAMS
StdtoVol_AMS
double
Conversion_factor_from_std_to_ambient_volume_and_pressure
CloudFlag_AMS
int
Datapoints_suspected_to_be_impacted_by_artifacts_due_to_ice_impaction_on_the_inlet
AmmBalance_PM1_AMS
double
Ammonium_Molar_Balance_for_non_refractory_inorganic_species_less_than_1um_measured_by_HRAMS
Density_PM1_AMS
double
Estimated_aerosol_density_assuming_internally_mixed_aerosol_for_particle_diameter_less_than_1um_measured_by_HRAMS
OADensity_PM1_AMS
double
Estimated_density_of_the_organic_aerosol_fraction_assuming_internally_mixed_aerosol_for_particle_diameter_less_than_1um_measured_by_HRAMS
OtoC_Ratio_PM1_AMS
double
O/C_atomic_ratio_of_the_organic_mass_fraction_of_the_aerosol_for_particle_diameter_less_than_1um_measured_by_HRAMS
HtoC_Ratio_PM1_AMS
double
H/C_atomic_ratio_of_the_organic_mass_fraction_of_the_aerosol_for_particle_diameter_less_than_1um_measured_by_HRAMS
OAtoOC_PM1_AMS
double
Organic_aerosol_to_organic_carbon_ratio_of_the_organic_mass_fraction_of_the_aerosol_for_particle_diameter_less_than_1um_measured_by_HRAMS
OSc_PM1_AMS
double
Estimated_average_oxidation_state_of_carbon_of_the_organic_mass_fraction_of_the_aerosol_for_particle_diameter_less_than_1um_measured_by_HRAMS
f43_PM1_AMS
double
Fractional_contribution_of_m/z_43_to_total_organic_mass_for_particle_diameter_less_than_1um_measured_by_HRAMS
f44_PM1_AMS
double
Fractional_contribution_of_m/z_44_to_total_organic_mass_for_particle_diameter_less_than_1um_measured_by_HRAMS
f57_PM1_AMS
double
Fractional_contribution_of_m/z_57_to_total_organic_mass_for_particle_diameter_less_than_1um_measured_by_HRAMS
f60_PM1_AMS
double
Fractional_contribution_of_m/z_60_to_total_organic_mass_for_particle_diameter_less_than_1um_measured_by_HRAMS
f82_PM1_AMS
double
Fractional_contribution_of_m/z_82_to_total_organic_mass_for_particle_diameter_less_than_1um_measured_by_HRAMS
f91_PM1_AMS
double
Fractional_contribution_of_m/z_91_to_total_organic_mass_for_particle_diameter_less_than_1um_measured_by_HRAMS
fC2H3O_PM1_AMS
double
Fractional_contribution_of_C2H3O+_to_total_organic_mass_for_particle_diameter_less_than_1um_measured_by_HRAMS
fCO2_PM1_AMS
double
Fractional_contribution_of_CO2+_to_total_organic_mass_for_particle_diameter_less_than_1um_measured_by_HRAMS
fC4H9_PM1_AMS
double
Fractional_contribution_of_C4H9+_to_total_organic_mass_for_particle_diameter_less_than_1um_measured_by_HRAMS
fC2H4O2_PM1_AMS
double
Fractional_contribution_of_C2H4O2+_to_total_organic_mass_for_particle_diameter_less_than_1um_measured_by_HRAMS
fC5H6O_PM1_AMS
double
Fractional_contribution_of_C5H6O+_to_total_organic_mass_for_particle_diameter_less_than_1um_measured_by_HRAMS
fC7H7_PM1_AMS
double
Fractional_contribution_of_C7H7+_to_total_organic_mass_for_particle_diameter_less_than_1um_measured_by_HRAMS
OrgNitr_Fraction_PM1_AMS
double
Estimated_organic_nitrate_fractional_contribution_to_total_aerosol_nitrate_mass_by_HRAMS
O2N2_AO2
double
deviations in the rato of O2 to N2 on the Scripps O2 Laboratory scale adjusted to match Medusa flasks, per meg
CO2raw_AO2
double
dry air mole fraction (ppm) of CO2 on WMO X2007 scale
O2N2raw_AO2
double
deviations in the rato of O2 to N2 on the Scripps O2 Laboratory scale, per meg
APOraw_AO2
double
atmospheric potential oxygen (O2/N2+1.1*(CO2-350)), per meg
CO2_AO2
double
dry air mole fraction of CO2 on WMO X2007 scale adjusted to match Medusa flasks, ppm
APO_AO2
double
atmospheric potential oxygen (O2/N2+1.1*(CO2-350)) adjusted to match Medusa flasks, per meg
OH_ATHOS
double
OH mixing ratio in pptv
HO2_ATHOS
double
HO2 mixing ratio in pptv
OHInterference_ATHOS
double
OH interference in pptv
T_OHR
double
temperature inside OHR instrument
P_OHR
double
pressure inside OHR instrument
OHReactivity_OHR
double
OH reactivity in Hz
jO3_O2_O1D_CAFS
double
Photolysis frequency of O3->O2+O(1D)
jNO2_NO_O3P_CAFS
double
Photolysis frequency of NO2->NO+O(3P)
jH2O2_OH_OH_CAFS
double
Photolysis frequency of H2O2->2OH
jNO3_NO_O2_CAFS
double
Photolysis frequency of NO3->NO+O2
jNO3_NO2_O3P_CAFS
double
Photolysis frequency of NO3->NO2+O(3P)
jN2O5_NO3_NO2_CAFS
double
Photolysis frequency of N2O5->NO3+NO2
jHNO2_OH_NO_CAFS
double
Photolysis frequency of HNO2->OH+NO
jHNO3_OH_NO2_CAFS
double
Photolysis frequency of HNO3->OH+NO2
jHNO4_HO2_NO2_UvVisOnly_CAFS
double
Photolysis frequency of HNO4->HO2+NO2(UV_VISonly)
jCH2O_H_HCO_CAFS
double
Photolysis frequency of CH2O->H+HCO
jCH2O_H2_CO_CAFS
double
Photolysis frequency of CH2O->H2+CO
jCH3CHO_CH3_HCO_CAFS
double
Photolysis frequency of CH3CHO->CH3+HCO
jPropanal_CH2CH3_HCO_CAFS
double
Photolysis frequency of Propanal->CH2CH3+HCO
jCH3OOH_CH3O_OH_CAFS
double
Photolysis frequency of CH3OOH->CH3O+OH
jMeONO2_CH3O_NO2_CAFS
double
Photolysis frequency of MeONO2->CH3O+NO2
jEthONO2_CH3CH2O_NO2_CAFS
double
Photolysis frequency of EthONO2->CH3CH2O+NO2
jPAN_CH3COO2_NO2_CAFS
double
Photolysis frequency of PAN->CH3COO2+NO2
jPAN_CH3COO_NO3_CAFS
double
Photolysis frequency of PAN->CH3CO(O)+NO3
jMAC_NoProductsSpecified_CAFS
double
Photolysis frequency of MAC->NoProductsSpecified
jMVK_NoProductsSpecified_CAFS
double
Photolysis frequency of MVK->NoProductsSpecified
jAcetone_CH3CO_CH3_CAFS
double
Photolysis frequency of Acetone->CH3CO+CH3
jMEK_CH3CO_CH2CH3_CAFS
double
Photolysis frequency of MEK->CH3CO+CH2CH3
jHydroxyacetone_CH3CO_CH3O_CAFS
double
Photolysis frequency of Hydroxyacetone->CH3CO+CH3O
jHydroxyacetone_CH3COO_CH3_CAFS
double
Photolysis frequency of Hydroxyacetone->CH3COO+CH3
jCHOCHO_HCO_HCO_CAFS
double
Photolysis frequency of CHOCHO->HCO+HCO
jCHOCHO_H2_2CO_CAFS
double
Photolysis frequency of CHOCHO->H2+2CO
jCHOCHO_CH2O_CO_CAFS
double
Photolysis frequency of CHOCHO->CH2O+CO
jCH3COCHO_CH3CO_HCO_CAFS
double
Photolysis frequency of CH3COCHO->CH3CO+HCO
j23Butanedione_NoProductsSpecified_CAFS
double
Photolysis frequency of 23Butanedione->NoProductsSpecified
jCl2_Cl_Cl_CAFS
double
Photolysis frequency of Cl2->Cl+Cl
jClO_Cl_O3P_CAFS
double
Photolysis frequency of ClO->Cl+O(3P)
jClNO2_Cl_NO2_CAFS
double
Photolysis frequency of ClNO2->Cl+NO2[JPL2015*]
jClONO_Cl_NO2_CAFS
double
Photolysis frequency of ClONO->Cl+NO2
jClONO2_Cl_NO3_CAFS
double
Photolysis frequency of ClONO2->Cl+NO3
jClONO2_ClO_NO2_CAFS
double
Photolysis frequency of ClONO2->ClO+NO2
jBr2_Br_Br_CAFS
double
Photolysis frequency of Br2->Br+Br
jBrO_Br_O_CAFS
double
Photolysis frequency of BrO->Br+O
jHOBr_OH_Br_CAFS
double
Photolysis frequency of HOBr->OH+Br
jBrNO_Br_NO_CAFS
double
Photolysis frequency of BrNO->Br+NO
jBrONO_Br_NO2_CAFS
double
Photolysis frequency of BrONO->Br+NO2
jBrONO_BrO_NO_CAFS
double
Photolysis frequency of BrONO->BrO+NO
jBrNO2_Br_NO2_CAFS
double
Photolysis frequency of BrNO2->Br+NO2
jBrONO2_BrO_NO2_CAFS
double
Photolysis frequency of BrONO2->BrO+NO2
jBrONO2_Br_NO3_CAFS
double
Photolysis frequency of BrONO2->Br+NO3
jBrCl_Br_Cl_CAFS
double
Photolysis frequency of BrCl->Br+Cl
jCHBr3_NoProductsSpecified_CAFS
double
Photolysis frequency of CHBr3->NoProductsSpecified
jO3_dnwFrac_CAFS
double
jO3_downwelling/(jO3_downwelling+jO3_upwelling)
jNO2_dnwFrac_CAFS
double
jNO2_downwelling/(jNO2_downwelling+jNO2_upwelling)
H2O2_CIT
double
volume_mixing_ratio_of_hydrogen_peroxide_in_air_in_pptv
HCN_CIT
double
volume_mixing_ratio_of_hydrogen_cyanide_in_air_in_pptv
HNO3_CIT
double
volume_mixing_ratio_of_nitric_acid_in_air_in_pptv
MHP_CIT
double
mixing_ratio_of_methyl_hydrogen_peroxide_in_parts_per_trillion
PAA_CIT
double
volume_mixing_ratio_of_peroxyacetic_acid_in_air_in_pptv
PNA_CIT
double
volume_mixing_ratio_of_peroxynitric_acid_in_air_in_pptv
SO2_CIT
double
gas-phase Sulfur Dioxide mixing ratio in pptv
cloudindicator_CAPS
int
cloud indicator
H2O_DLH
double
water vapor mixing ratio in ppmv
RHi_DLH
double
relative humidity with respect to ice
RHw_DLH
double
relative humidity with respect to liquid
N2O_PECD
double
N2O dry mole fraction mixing ratio (ppb)
N2Oe_PECD
double
N2O dry mole fraction mixing ratio error 1-s (ppb)
SF6_PECD
double
SF6 dry mole fraction mixing ratio (ppt)
SF6e_PECD
double
SF6 dry mole fraction mixing ratio error 1-s (ppt)
CFC11_PECD
double
CFC11 dry mole fraction mixing ratio (ppt)
CFC11e_PECD
double
CFC11 dry mole fraction mixing ratio error 1-s (ppt)
CFC113_PECD
double
CFC113 dry mole fraction mixing ratio (ppt)
CFC113e_PECD
double
CFC113 dry mole fraction mixing ratio error 1-s (ppt)
CFC12_PECD
double
CFC12 dry mole fraction mixing ratio (ppt)
CFC12e_PECD
double
CFC12 dry mole fraction mixing ratio error 1-s (ppt)
H1211_PECD
double
H1211 dry mole fraction mixing ratio (ppt)
H1211e_PECD
double
H1211 dry mole fraction mixing ratio error 1-s (ppt)
CH4_PECD
double
CH4 dry mole fraction mixing ratio (ppb)
CH4e_PECD
double
CH4 dry mole fraction mixing ratio error 1-s (ppb)
CO_PECD
double
CO dry mole fraction mixing ratio (ppb)
COe_PECD
double
CO dry mole fraction mixing ratio error 1-s (ppb)
H2_PECD
double
H2 dry mole fraction mixing ratio (ppb)
H2e_PECD
double
H2 dry mole fraction mixing ratio error 1-s (ppb)
PAN_PECD
double
PAN dry mole fraction mixing ratio (ppt)
PANe_PECD
double
PAN dry mole fraction mixing ratio error 1-s (ppt)
CH3Cl_PMSD
double
CH3Cl dry mole fraction mixing ratio (ppt)
CH3Cle_PMSD
double
CH3Cl dry mole fraction mixing ratio error 1-s (ppt)
CH3Br_PMSD
double
CH3Br dry mole fraction mixing ratio (ppt)
CH3Bre_PMSD
double
CH3Br dry mole fraction mixing ratio error 1-s (ppt)
CH3I_PMSD
double
CH3I dry mole fraction mixing ratio (ppt)
CH3Ie_PMSD
double
CH3I dry mole fraction mixing ratio error 1-s (ppt)
HFC134a_PMSD
double
HFC134a dry mole fraction mixing ratio (ppt)
HFC134ae_PMSD
double
HFC134a dry mole fraction mixing ratio error 1-s (ppt)
HCFC22_PMSD
double
HCFC22 dry mole fraction mixing ratio (ppt)
HCFC22e_PMSD
double
HCFC22 dry mole fraction mixing ratio error 1-s (ppt)
HCFC141b_PMSD
double
HCFC141b dry mole fraction mixing ratio (ppt)
HCFC141be_PMSD
double
HCFC141b dry mole fraction mixing ratio error 1-s (ppt)
HCFC142b_PMSD
double
HCFC142b dry mole fraction mixing ratio (ppt)
HCFC142be_PMSD
double
HCFC142b dry mole fraction mixing ratio error 1-s (ppt)
OCS_PMSD
double
OCS dry mole fraction mixing ratio (ppt)
OCSe_PMSD
double
OCS dry mole fraction mixing ratio error 1-s (ppt)
CS2_PMSD
double
CS2 dry mole fraction mixing ratio (ppt)
CS2e_PMSD
double
CS2 dry mole fraction mixing ratio error 1-s (ppt)
T_GEOS5
double
temperature
U_GEOS5
double
zonal wind
V_GEOS5
double
meridional wind
H_GEOS5
double
geopotential height
Theta_GEOS5
double
potential temperature
EPV_GEOS5
double
Ertel's potential vorticity
RH_GEOS5
double
relative Humidity
CO_GEOS5
double
Carbon monoxide mixing ratio (mol/mol)
SO2_GEOS5
double
Sulfur dioxide mass mixing ratio (kg/kg)
SO4_GEOS5
double
Sulfate aerosol mass mixing ratio (kg/kg)
BC_GEOS5
double
black carbon mass mixing ratio (kg/kg)
OC_GEOS5
double
organic carbon mass mixing ratio (kg/kg)
CONBGL_GEOS5
double
CO global non-biomass burning mass mixing ratio (kg/kg)
CONBAS_GEOS5
double
CO Asia non-biomass burning mass mixing ratio (kg/kg)
CONBNA_GEOS5
double
CO North American non-biomass burning mass mixing ratio (kg/kg)
CONBEU_GEOS5
double
CO European non-biomass burning mass mixing ratio (kg/kg)
COBBGL_GEOS5
double
CO global biomass burning mass mixing ratio (kg/kg)
COBBAE_GEOS5
double
CO Asia and Europe biomass burning mass mixing ratio (kg/kg)
COBBNA_GEOS5
double
CO North America biomass burning mass mixing ratio (kg/kg)
COBBAF_GEOS5
double
CO Africa biomass burning mass mixing ratio (kg/kg)
COBBLA_GEOS5
double
CO Central and South America biomass burning mass mixing ratio (kg/kg)
SS_GEOS5
double
sea salt mass mixing ratio (kg/kg)
DU_GEOS5
double
dust mass mixing ratio (kg/kg)
PBLH_GEOS5
double
planetary boundary layer height
TROPPB_GEOS5
double
tropopause pressure
U50M_GEOS5
double
Near-surface (50-m) zonal wind (X_eastward_wind_at_50m)
V50M_GEOS5
double
Near-surface (50-m) meridional wind (X_eastward_wind_at_50m)
SLP_GEOS5
double
Mean sea level pressure (CF_air_pressure_at_mean_sea_level)
PS_GEOS5
double
Surface pressure (CF_surface_air_pressure)
lat
double
latitude
lon
double
latitude (0-360 degrees)
StaticPressure_GMI
double
pressure
TroposphereIndicator_GMI
double
tropopause indication
StaticTemperature_GMI
double
temperature
CH2O_GMI
double
CH2O mixing ratio in ppbv
CH4_GMI
double
CH4 mixing ratio in ppbv
CO_GMI
double
CO mixing ratio in ppbv
H2_GMI
double
H2 mixing ratio in ppbv
CHOOH_GMI
double
CHOOH mixing ratio in ppbv
HNO3_GMI
double
HNO3 mixing ratio in ppbv
HNO4_GMI
double
HNO4 mixing ratio in ppbv
H2O_GMI
double
H2O mixing ratio in ppbv
HO2_GMI
double
HO2 mixing ratio in ppbv
H2O2_GMI
double
H2O2 mixing ratio in ppbv
CH3OH_GMI
double
CH3OH mixing ratio in ppbv
CH3OOH_GMI
double
CH3OOH mixing ratio in ppbv
N2O_GMI
double
N2O mixing ratio in ppbv
NO_GMI
double
NO mixing ratio in ppbv
NO2_GMI
double
NO2 mixing ratio in ppbv
N2O5_GMI
double
N2O5 mixing ratio in ppbv
O3_GMI
double
O3 mixing ratio in ppbv
OH_GMI
double
OH mixing ratio in ppbv
CH3Br_GMI
double
CH3Br mixing ratio in ppbv
CH3Cl_GMI
double
CH3Cl mixing ratio in ppbv
CFC11_GMI
double
CFC11 mixing ratio in ppbv
CFC12_GMI
double
CFC12 mixing ratio in ppbv
CFC113_GMI
double
CFC113 mixing ratio in ppbv
CFC114_GMI
double
CFC114 mixing ratio in ppbv
CFC115_GMI
double
CFC115 mixing ratio in ppbv
HCFC22_GMI
double
HCFC22 mixing ratio in ppbv
HCFC141b_GMI
double
HCFC141b mixing ratio in ppbv
HCFC142b_GMI
double
HCFC142b mixing ratio in ppbv
H1202_GMI
double
H1202 mixing ratio in ppbv
H1211_GMI
double
H1211 mixing ratio in ppbv
H1301_GMI
double
H1301 mixing ratio in ppbv
H2402_GMI
double
H2402 mixing ratio in ppbv
CH3CHO_GMI
double
CH3CHO mixing ratio in ppbv
C4-C5Alkanes_GMI
double
C4-C5Alkanes mixing ratio in ppbv
Ethane_GMI
double
C2H6 mixing ratio in ppbv
Propane_GMI
double
C3H8 mixing ratio in ppbv
Ethanol_GMI
double
Ethanol mixing ratio in ppbv
C2H5OOH_GMI
double
C2H5OOH mixing ratio in ppbv
Isoprene_GMI
double
Isoprene mixing ratio in ppbv
MAC_GMI
double
MAC mixing ratio in ppbv
CH3CO3_GMI
double
CH3CO3 mixing ratio in ppbv
MEK_GMI
double
MEK mixing ratio in ppbv
MVK_GMI
double
MVK mixing ratio in ppbv
PAN_GMI
double
PAN mixing ratio in ppbv
MPAN_GMI
double
MPAN mixing ratio in ppbv
PPN_GMI
double
PPN mixing ratio in ppbv
Propene_GMI
double
Propene mixing ratio in ppbv
C4andC5Alkylnitrates_GMI
double
C4andC5Alkylnitrates mixing ratio in ppbv
C3toCnAldehydes_GMI
double
C3toCnAldehydes mixing ratio in ppbv
Acetone_GMI
double
Acetone mixing ratio in ppbv
Day_Of_Year
double
day of year
Latitude
double
latitude
Longitude
double
longitude
MSL_GPS_Altitude
double
global positioning system altitude (mean sea level)
HAE_GPS_Altitude
double
global positioning system altitude (height above ellipsoid)
Pressure_Altitude
double
pressure altitude (barometric_altitude)
Radar_Altitude
double
radar altitude
Ground_Speed
double
ground speed (platform_speed_wrt_ground)
True_Air_Speed
double
true air speed (platform_speed_wrt_air)
Indicated_Air_Speed
double
indicated air speed
Mach_Number
double
mach number
Vertical_Speed
double
vertical speed
True_Heading
double
true heading (platform_yaw_angle)
Track_Angle
double
track angle
Drift_Angle
double
drift angle
Pitch_Angle
double
pitch angle (platform_pitch_angle)
Roll_Angle
double
roll angle (platform_roll_angle)
Static_Air_Temp
double
static air temperature
Potential_Temp
double
potential temperature
Dew_Point
double
dew point (dew_point_temperature)
Total_Air_Temp
double
total air temperature (air_temperature)
IR_Surf_Temp
double
IR surface temperature
Static_Pressure
double
static pressure
Cabin_Pressure
double
cabin pressure
Wind_Speed
double
wind speed (wind_speed)
Wind_Direction
double
wind direction
Solar_Zenith_Angle
double
solar zenith angle (solar_zenith_angle)
Aircraft_Sun_Elevation
double
aircraft sun elevation (solar_elevation_angle)
Sun_Azimuth
double
sun azimuth (solar_azimuth_angle)
Aircraft_Sun_Azimuth
double
aircraft sun azimuth (platform_azimuth_angle)
Mixing_Ratio
double
H2O mixing ratio (humidity_mixing_ratio)
Part_Press_Water_Vapor
double
H2O vapor pressure
Sat_Vapor_Press_H2O
double
H2O sat vapor pressure water
Sat_Vapor_Press_Ice
double
H2O sat vapor pressure ice
Relative_Humidity
double
relative humidity (relative_humidity)
CH2O
double
volume mixing ratio of formaldehyde in pptv
Julian_Day
double
Julian days
Lat
double
latitude
Lon
double
longitude
Pres
double
pressure
Prob_ConvInf
double
Probability ConvInf
Prob_ConvInf_Land
double
Probability ConvInf Land
ConvInf_CldTop
double
ConvInf CldTop
Days_Since_ConvInf
double
Days since ConvInf
Days_Since_Most_Recent_ConvInf
double
Days since most recent ConvInf
Prob_BdyInf
double
Probability BdyInf
Days_Since_BdyInf_Most_Recent
double
Days since BdyInf most recent
Days_Since_BdyInf_All
double
Days since BdyInf all
Prob_Land_BdyInf
double
Probability Land BdyInf
Days_Since_Land_BdyInf_Most_Recent
double
Days since Land BdyInf most recent
Prob_SeaIceInf
double
Probability SeaIceInf
Prob_StratInf
double
Probability StratInf
Days_Since_StratInf_Most_Recent
double
Days since StratInf most recent
Days_Since_StratInf_All
double
Days since StratInf all
Prob_FireInf
double
Probability FireInf
Days_Since_FireInf_Most_Recent
double
Days since FireInf most recent
Days_Since_FireInf_All
double
Days since FireInf all
Sunlight_Exposure
double
Sunlight Exposure
End_LAS
double
seconds since midnight
N_LAS
double
particle number of dry aerosol particles for all sizes at STP = 1013 hPa and 0 Celsius
S_LAS
double
particle surface area concentrations of dry aerosol particles for all sizes at STP = 1013 hPa and 0 Celsius
V_LAS
double
particle volume concentrations of dry aerosol particles for all sizes at STP = 1013 hPa and 0 Celsius
Nacc_LAS
double
particle number of dry aerosol particles for ammonium sulfate optical equivalent diameter (D) = 0.100 to 0.885 microns at STP
Sacc_LAS
double
particle surface area concentrations of dry aerosol particles for ammonium sulfate optical equivalent diameter (D) = 0.100 to 0.885 microns at STP
Vacc_LAS
double
particle volume concentrations of dry aerosol particles for ammonium sulfate optical equivalent diameter (D) = 0.100 to 0.885 microns at STP
Ncoarse_LAS
double
particle number of dry aerosol particles for ammonium sulfate optical equivalent diameter (D) = 0.885 to approx 4 microns at STP
Scoarse_LAS
double
particle surface area concentrations of dry aerosol particles for ammonium sulfate optical equivalent diameter (D) = 0.885 to approx 4 microns at STP
Vcoarse_LAS
double
particle volume concentrations of dry aerosol particles for ammonium sulfate optical equivalent diameter (D) = 0.885 to approx 4 microns at STP
N_nucl_AMP
double
particle number concentration over nucleation mode diameter range 0.0027 < Dp <= 0.012 um at 1013 hPa and 0 Celsius
S_nucl_AMP
double
particle surface area concentration over nucleation mode diameter range 0.0027 < Dp <= 0.012 um at 1013 hPa and 0 Celsius
V_nucl_AMP
double
particle volume concentration over nucleation mode diameter range 0.0027 < Dp <= 0.012 um at 1013 hPa and 0 Celsius
N_aitken_AMP
double
particle number concentration over Aitken mode diameter range .012 < Dp <=0.06 um at 1013 hPa and 0 Celsius
S_aitken_AMP
double
particle surface area concentration over Aitken mode diameter range .012 < Dp <=0.06 um at 1013 hPa and 0 Celsius
V_aitken_AMP
double
particle volume concentration over Aitken mode diameter range .012 < Dp <=0.06 um at 1013 hPa and 0 Celsius
N_accum_AMP
double
particle number concentration over accumulation mode diameter range 0.06 < Dp <=0.50 um at 1013 hPa and 0 Celsius
S_accum_AMP
double
particle surface area concentration over accumulation mode diameter range 0.06 < Dp <=0.50 um at 1013 hPa and 0 Celsius
V_accum_AMP
double
particle volume concentration over accumulation mode diameter range 0.06 < Dp <=0.50 um at 1013 hPa and 0 Celsius
N_coarse_AMP
double
particle number concentration over coarse mode diameter range 0.50 < Dp <=4.8 um at 1013 hPa and 0 Celsius
S_coarse_AMP
double
particle surface area concentration over coarse mode diameter range 0.50 < Dp <=4.8 um at 1013 hPa and 0 Celsius
V_coarse_AMP
double
particle volume concentration over coarse mode diameter range 0.50 < Dp <=4.8 um at 1013 hPa and 0 Celsius
N_fine_AMP
double
particle number concentration over nucleation, Aitken, and accumulation mode diameter ranges 0.0027 < Dp <=0.50 um at 1013 hPa and 0 Celsius
S_fine_AMP
double
particle surface area concentration over nucleation, Aitken, and accumulation mode diameter ranges 0.0027 < Dp <=0.50 um at 1013 hPa and 0 Celsius
V_fine_AMP
double
particle volume concentration over nucleation, Aitken, and accumulation mode diameter ranges 0.0027 < Dp <=0.50 um at 1013 hPa and 0 Celsius
calc_ext_340_AMP
double
total calculated particle extinction at 340 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
calc_ext_380_AMP
double
total calculated particle extinction at 380 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
calc_ext_405_AMP
double
total calculated particle extinction at 405 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
calc_ext_440_AMP
double
total calculated particle extinction at 440 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
calc_ext_500_AMP
double
total calculated particle extinction at 500 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
calc_ext_532_AMP
double
total calculated particle extinction at 532 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
calc_ext_664_AMP
double
total calculated particle extinction at 664 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
calc_ext_675_AMP
double
total calculated particle extinction at 675 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
calc_ext_870_AMP
double
total calculated particle extinction at 870 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
calc_ext_937_AMP
double
total calculated particle extinction at 937 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
calc_ext_1020_AMP
double
total calculated particle extinction at 1020 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
calc_ext_1064_AMP
double
total calculated particle extinction at 1064 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
calc_ext_1640_AMP
double
total calculated particle extinction at 1640 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius
asymmetry_340_AMP
double
total calculated asymmetry parameter at 340 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
asymmetry_380_AMP
double
total calculated asymmetry parameter at 380 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
asymmetry_405_AMP
double
total calculated asymmetry parameter at 405 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
asymmetry_440_AMP
double
total calculated asymmetry parameter at 440 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
asymmetry_500_AMP
double
total calculated asymmetry parameter at 500 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
asymmetry_532_AMP
double
total calculated asymmetry parameter at 532 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
asymmetry_664_AMP
double
total calculated asymmetry parameter at 664 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
asymmetry_675_AMP
double
total calculated asymmetry parameter at 675 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
asymmetry_870_AMP
double
total calculated asymmetry parameter at 870 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
asymmetry_937_AMP
double
total calculated asymmetry parameter at 937 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
asymmetry_1020_AMP
double
total calculated asymmetry parameter at 1020 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
asymmetry_1064_AMP
double
total calculated asymmetry parameter at 1064 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
asymmetry_1640_AMP
double
total calculated asymmetry parameter at 1640 nm wavelength assuming dry ammonium sulfate over diameter ranges 0.0027 < Dp <=4.8 um at 1013 hPa and 0 Celsius smoothed with 10 iterations of binomial smoothing
Ntot_CAPS
double
particle number concentrations (N) of aerosol and cloud particles for all sizes at 1013.25 hPa and 273.15 K
Nacc_CAPS
double
particle number concentrations (N) of aerosol and cloud particles for ammonium sulfate optical equivalent diameter ranges 0.57 to 1.0 um at 1013.25 hPa and 273.15 K
STP_Factor_CAPS
double
standard temperature and pressure factor
Ncoa1_CAPS
double
particle number concentrations (N) of aerosol and cloud particles for ammonium sulfate optical equivalent diameter ranges 1.0 to 10.0 um at 1013.25 hPa and 273.15 K
Ncoa2_CAPS
double
particle number concentrations (N) of aerosol and cloud particles for ammonium sulfate optical equivalent diameter ranges 10.0 to 30.0 um at 1013.25 hPa and 273.15 K
Ncoa3_CAPS
double
particle number concentrations (N) of aerosol and cloud particles for ammonium sulfate optical equivalent diameter ranges 30.0 to 50.0 um at 1013.25 hPa and 273.15 K
CO2_NOAA
double
CO2 dry air mole fraction in ppm
CH4_NOAA
double
CH4 dry air mole fraction in ppb
CO_NOAA
double
CO dry air mole fraction in ppb
NO2_CL
double
volume mixing ratio of nitrogen dioxide in air in ppbv
NO2_CL_2sigma
double
2-sigma uncertainty of 1Hz data of volume mixing ratio of nitrogen dioxide in air in ppbv
NO_CL
double
volume mixing ratio of nitric oxide in air in ppbv
NO_CL_2sigma
double
2-sigma uncertainty of 1Hz data of volume mixing ratio of nitric oxide in air in ppbv
NOy_CL
double
volume mixing ratio of reactive nitric oxide in air in ppbv
NOy_CL_2sigma
double
2-sigma uncertainty of 1Hz data of volume mixing ratio of reactive nitric oxide in air in ppbv
O3_CL
double
volume mixing ratio of ozone in air in ppbv
O3_CL_2sigma
double
2-sigma uncertainty of 1Hz data of volume mixing ratio of ozone in air in ppbv
GASMass_PALMS
double
mass concentration of glycolic acid sulfate in non-refractory particles
IEPOXsulfMass_PALMS
double
mass concentration of IEPOX sulfate ester in non-refractory particles
IodineMass_PALMS
double
mass concentration of iodine in non-refractory particles
OrgMass_PALMS
double
mass concentration of organic material in non-refractory particles
SulfateMass_PALMS
double
mass concentration of sulfate in non-refractory particles
BromineMass_PALMS
double
mass concentration of bromine in non-refractory particles
SulfOrgNitMass_PALMS
double
mass concentration of mixed sulfate-organic-nitrate particles
BioBurnMass_PALMS
double
mass concentration of biomass burning particles
SootMass_PALMS
double
mass concentration of elemental carbon particles
MineralMass_PALMS
double
mass concentration of mineral/metallic particles
MeteoricMass_PALMS
double
mass concentration of particles with meteoric material
AlkaliSaltMass_PALMS
double
mass concentration of alkali salt particles
SeaSaltMass_PALMS
double
mass concentration of sea salt particles
OilCombMass_PALMS
double
mass concentration of particles from fuel oil combustion
UnclassMass_PALMS
double
mass concentration of unclassified particles
NposMass_PALMS
double
number of positive ion particle spectra
SulfOrgNitFrac_PALMS
double
mixed sulfate-organic-nitrate particles in number fraction
BioBurnFrac_PALMS
double
biomass burning particles in number fraction
SootFrac_PALMS
double
elemental carbon particles in number fraction
MineralFrac_PALMS
double
mineral/metallic particles in number fraction
MeteoricFrac_PALMS
double
particles with meteoric material in number fraction
AlkaliSaltFrac_PALMS
double
alkali salt particles in number fraction
SeaSaltFrac_PALMS
double
sea salt particles in number fraction
OilCombFrac_PALMS
double
particles from heavy oil combustion in number fraction
UnclassFrac_PALMS
double
unclassified particles in number fraction
OrgSulfMF_PALMS
double
organic-to-sulfate mass fraction
IEPOXmf_PALMS
double
fraction of submicron aerosol mass attributed to IEPOX sulfate
GASmf_PALMS
double
fraction of submicron aerosol mass attributed to glycolic acid sulfate
SulfNeut_PALMS
double
degree of sulfate neutralization in molar
Npos_PALMS
double
counts of positive ion particles
NNeg_PALMS
double
counts of negative ion products
NAcid_PALMS
double
counts of SulfNeut product
CH4_QCLS
double
CH4 Dry Air Molar Mixing Ratio in ppb
N2O_QCLS
double
N2O Dry Air Molar Mixing Ratio in ppb
CO_QCLS
double
CO Dry Air Molar Mixing Ratio in ppb
CO2_QCLS
double
CO2 Dry Air Molar Mixing Ratio in ppm
dNdlogDp_dry_1_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_2.7nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_2_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_3nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_3_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_3.4nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_4_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_3.8nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_5_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_4.2nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_6_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_4.8nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_7_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_5.3nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_8_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_6nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_9_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_6.7nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_10_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_7.5nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_11_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_8.5nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_12_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_9.5nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_13_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_10.6nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_14_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_11.9nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_15_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_13.4nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_16_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_15nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_17_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_16.9nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_18_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_18.9nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_19_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_21.2nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_20_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_23.8nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_21_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_26.7nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_22_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_30nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_23_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_33.7nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_24_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_37.8nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_25_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_42.4nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_26_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_47.5nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_27_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_53.3nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_28_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_59.9nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_29_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_67.2nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_30_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_75.4nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_31_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_84.6nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_32_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_94.9nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_33_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_106nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_34_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_119nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_35_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_134nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_36_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_150nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_37_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_169nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_38_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_189nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_39_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_212nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_40_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_238nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_41_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_267nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_42_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_300nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_43_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_337nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_44_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_378nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_45_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_424nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_46_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_475nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_47_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_533nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_48_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_599nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_49_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_672nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_50_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_754nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_51_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_846nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_52_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_949nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_53_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_1064nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_54_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_1194nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_55_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_1340nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_56_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_1504nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_57_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_1687nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_58_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_1893nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_59_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_2124nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_60_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_2383nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_61_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_2674nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_62_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_3000nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_63_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_3366nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_64_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_3777nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_65_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_4238nm_AMP_at_273.15K_and_1013hPa
dNdlogDp_dry_66_AMP
double
number_size_distribution_of_dry_particles_in_air_per_dlog10Dp_for_bin_center_amm_sulf_equivalent_optical_diameter_at_4755nm_AMP_at_273.15K_and_1013hPa
BC_mass_90_550_nm
double
BC concentration
LAM_mass_180to1290nm
double
Light Absorbing Metallic (LAM) aerosol mass mixing ratio
LAM_num_180to1290nm
double
Percent of anthropogenic-like FeOx by mass
N2O_UCATS
double
N20 dry mole fraction mixing ratio (ppb)
N2Oe_UCATS
double
N20 dry mole fraction mixing ratio error 1-s (ppb)
SF6_UCATS
double
SF6 dry mole fraction mixing ratio (ppt)
SF6e_UCATS
double
SF6 dry mole fraction mixing ratio error 1-s (ppt)
CH4_UCATS
double
CH4 dry mole fraction mixing ratio (ppb)
CH4e_UCATS
double
CH4 dry mole fraction mixing ratio error 1-s (ppb)
H2_UCATS
double
H2 dry mole fraction mixing ratio (ppb)
H2e_UCATS
double
H2 dry mole fraction mixing ratio error 1-s (ppb)
CO_UCATS
double
CH3Cl dry mole fraction mixing ratio (ppb)
COe_UCATS
double
CH3Cl dry mole fraction mixing ratio error 1-s (ppb)
O3_UCATS
double
UCATS ozone mixing ratio (ppb)
O3e_UCATS
double
UCATS ozone mixing ratio error (ppb)
Flight_ID
char
Flight ID
time_bnds
double
Flight_Date
int
flight date in YYYYMMDD
RF
int
research flight number
CumDist
double
Cumulative ground track distance
UTC_Start
double
start elapsed time in seconds from 0000 UTC
UTC_Stop_TOGA
double
stop elapsed time in seconds from 0000 UTC
UTC_Mean_1s
double
mean elapsed time in seconds from 0000 UTC
percent_anthrofeox
double
CO.X
double
CO Dry Air Molar Mixing Ratio in ppb
Flag.CO.X
int
flag_CO_QCLS_gap_filled_with_smoothed_CO_NOAA
prof.no
int
Profile Number (>0) ; high level leg = 0 ; low level leg = -1
Dist
int
Distance in km along the flight track
CO2.X
double
CO Dry Air Molar Mixing Ratio in ppb
Flag.CO2.X
int
flag_CO2_QCLS_gap_filled_with_smoothed_CO2_NOAA
time
double
(time)
Oak Ridge National Laboratory (ORNL) Distributed Active Archive Center (DAAC)
uso@daac.ornl.gov
https://daac.ornl.gov
WWW:LINK
web browser
URL for the data publisher
This URL provides contact information for the publisher of this dataset
information
publisher
OPeNDAP
https://thredds.daac.ornl.gov/thredds/dodsC/ornldaac/1925/MER-TOGA_DC8_ATom-1.nc.html
WWW:LINK
File Information
This URL provides a standard OPeNDAP html interface for selecting data from this dataset. Change the extension to .info for a description of the dataset.
download
http://www.ncdc.noaa.gov/oa/wct/wct-jnlp-beta.php?singlefile=https://thredds.daac.ornl.gov/thredds/dodsC/ornldaac/1925/MER-TOGA_DC8_ATom-1.nc
WWW:LINK
Viewer Information
This URL provides an NCDC climate and weather toolkit view of an OPeNDAP resource.
mapDigital
This record was translated from NcML using UnidataDD2MI.xsl Version 2.3.4. (2024-03-28T10:57:34.846-04:00)