GEOS-CF fcst tavg1hr v1: Goddard Earth Observing System Composition Forecast

Dataset Availability: 2022-10-01T00:00:00Z–2024-11-02T12:00:00Z
Dataset Provider: NASA / GMAO
Earth Engine Snippet: ee.ImageCollection("NASA/GEOS-CF/v1/fcst/tavg1hr")
Tags: composition forecast geos gmao nasa

Description

This dataset contains meteorological forecast (fcst) of time-averaged frequency data (tavg1hr). Use the 'creation_time' and 'forecast_time' properties to select data of interest. The Goddard Earth Observing System Composition Forecast (GEOS-CF) system is a high-resolution (0.25°) global constituent prediction system from NASA's Global Modeling and Assimilation Office(GMAO).

GEOS-CF offers a new tool for atmospheric chemistry research, with the goal to supplement NASA's broad range of space-based and in-situ observations. GEOS-CF expands on the GEOS weather and aerosol modeling system by introducing the GEOS-Chem chemistry module to provide hindcasts and 5-days forecasts of atmospheric constituents including ozone (O3), carbon monoxide (CO), nitrogen dioxide (NO2), sulfur dioxide (SO2), and fine particulate matter (PM2.5). The chemistry module integrated in GEOS-CF is identical to the offline GEOS-Chem model and readily benefits from the innovations provided by the GEOS-Chem community.

Evaluation of GEOS-CF against satellite, ozonesonde, and surface observations for years 2018–2019 shows realistic simulated concentrations of O3, NO2, and CO, with normalized mean biases of −0.1 to 0.3, normalized root mean square errors between 0.1–0.4, and correlations between 0.3–0.8. Comparisons against surface observations highlight the successful representation of air pollutants in many regions of the world and during all seasons, yet also highlight current limitations, such as a global high bias in SO2 and an overprediction of summertime O3 over the Southeast United States.

GEOS-CF v1.0 generally overestimates aerosols by 20%–50% due to known issues in GEOS-Chem v12.0.1 that have been addressed in later versions. The 5-days forecasts have skill scores comparable to the 1-day hindcast. Model skills can be improved significantly by applying a bias-correction to the surface model output using a machine-learning approach.

Bands

Resolution
27750 meters

Bands

Name	Units	Description
`ACET`	Mol fraction	Acetone (CH3C(O)CH3, MW = 58.08 g mol-1) volume mixing ratio dry air
`ALD2`	Mol fraction	Acetaldehyde (CH3CHO, MW = 44.05 g mol-1) volume mixing ratio dry air
`ALK4`	Mol fraction	Lumped >= C4 Alkanes (MW = 58.12 g mol-1) volume mixing ratio dry air
`AOD550_BC`		Black carbon optical depth at 550nm
`AOD550_CLOUD`		Cloud optical depth
`AOD550_DST1`		Dust bin1 optical depth at 550nm
`AOD550_DST2`		Dust bin2 optical depth at 550nm
`AOD550_DST3`		Dust bin3 optical depth at 550nm
`AOD550_DST4`		Dust bin4 optical depth at 550nm
`AOD550_DST5`		Dust bin5 optical depth at 550nm
`AOD550_DST6`		Dust bin6 optical depth at 550nm
`AOD550_DST7`		Dust bin7 optical depth at 550nm
`AOD550_DUST`		Dust optical depth at 550nm
`AOD550_OC`		Organic carbon optical depth at 550nm
`AOD550_SALA`		Accumulation mode sea salt optical depth at 550nm
`AOD550_SALC`		Coarse mode sea salt optical depth at 550nm
`AOD550_SULFATE`		Sulfate optical depth at 550nm
`BCPI`	Mol fraction	Hydrophilic black carbon aerosol (MW = 12.01 g mol-1) volume mixing ratio dry air
`BCPO`	Mol fraction	Hydrophobic black carbon aerosol (MW = 12.01 g mol-1) volume mixing ratio dry air
`BENZ`	Mol fraction	Benzene (C6H6, MW = 78.11 g mol-1) volume mixing ratio dry air
`C2H6`	Mol fraction	Ethane (C2H6, MW = 30.07 g mol-1) volume mixing ratio dry air
`C3H8`	Mol fraction	Propane (C3H8, MW = 44.10 g mol-1) volume mixing ratio dry air
`CH4`	Mol fraction	Methane (CH4, MW = 16.00 g mol-1) volume mixing ratio dry air
`CLDTT`		Total cloud area fraction
`CO`	Mol fraction	Carbon monoxide (CO, MW = 28.00 g mol-1) volume mixing ratio dry air
`DRYDEPFLX_BCPI`	molec cm-2 s-1	Hydrophilic black carbon aerosol (MW = 12.01 g mol-1) dry deposition flux
`DRYDEPFLX_BCPO`	molec cm-2 s-1	Hydrophobic black carbon aerosol (MW = 12.01 g mol-1) dry deposition flux
`DRYDEPFLX_DST1`	molec cm-2 s-1	Dust aerosol, Reff = 0.7 microns (MW = 29.00 g mol-1) dry deposition flux
`DRYDEPFLX_DST2`	molec cm-2 s-1	Dust aerosol, Reff = 1.4 microns (MW = 29.00 g mol-1) dry deposition flux
`DRYDEPFLX_DST3`	molec cm-2 s-1	Dust aerosol, Reff = 2.4 microns (MW = 29.00 g mol-1) dry deposition flux
`DRYDEPFLX_DST4`	molec cm-2 s-1	Dust aerosol, Reff = 4.5 microns (MW = 29.00 g mol-1) dry deposition flux
`DRYDEPFLX_HCHO`	molec cm-2 s-1	Formaldehyde (CH2O, MW = 30.00 g mol-1) dry deposition flux
`DRYDEPFLX_HNO3`	molec cm-2 s-1	Nitric acid (HNO3, MW = 63.00 g mol-1) dry deposition flux
`DRYDEPFLX_NH3`	molec cm-2 s-1	Ammonia (NH3, MW = 17.00 g mol-1) dry deposition flux
`DRYDEPFLX_NH4`	molec cm-2 s-1	Ammonium (NH4, MW = 18.00 g mol-1) dry deposition flux
`DRYDEPFLX_NIT`	molec cm-2 s-1	Inorganic nitrates (MW = 62.00 g mol-1) dry deposition flux
`DRYDEPFLX_NO2`	molec cm-2 s-1	Nitrogen dioxide (NO2, MW = 46.00 g mol-1) dry deposition flux
`DRYDEPFLX_O3`	molec cm-2 s-1	Ozone (O3, MW = 48.00 g mol-1) dry deposition flux
`DRYDEPFLX_OCPI`	molec cm-2 s-1	Hydrophilic organic carbon aerosol (MW = 12.01 g mol-1) dry deposition flux
`DRYDEPFLX_OCPO`	molec cm-2 s-1	Hydrophobic organic carbon aerosol (MW = 12.01 g mol-1) dry deposition flux
`DRYDEPFLX_SALA`	molec cm-2 s-1	Fine (0.01-0.05 microns) sea salt aerosol (MW = 31.40 g mol-1) dry deposition flux
`DRYDEPFLX_SALC`	molec cm-2 s-1	Coarse (0.5-8 microns) sea salt aerosol (MW = 31.40 g mol-1) dry deposition flux
`DST1`	Mol fraction	Dust aerosol, Reff = 0.7 microns (MW = 29.00 g mol-1) volume mixing ratio dry air
`DST2`	Mol fraction	Dust aerosol, Reff = 1.4 microns (MW = 29.00 g mol-1) volume mixing ratio dry air
`DST3`	Mol fraction	Dust aerosol, Reff = 2.4 microns (MW = 29.00 g mol-1) volume mixing ratio dry air
`DST4`	Mol fraction	Dust aerosol, Reff = 4.5 microns (MW = 29.00 g mol-1) volume mixing ratio dry air
`EOH`	Mol fraction	Ethanol (C2H5OH, MW = 46.07 g mol-1) volume mixing ratio dry air
`H2O2`	Mol fraction	Hydrogen peroxide (H2O2, MW = 34.00 g mol-1) volume mixing ratio dry air
`HCHO`	Mol fraction	Formaldehyde (CH2O, MW = 30.00 g mol-1) volume mixing ratio dry air
`HNO3`	Mol fraction	Nitric acid (HNO3, MW = 63.00 g mol-1) volume mixing ratio dry air
`HNO4`	Mol fraction	Peroxynitric acid (HNO4, MW = 79.00 g mol-1) volume mixing ratio dry air
`ISOP`	Mol fraction	Isoprene (CH2=C(CH3)CH=CH2, MW = 68.12 g mol-1) volume mixing ratio dry air
`MACR`	Mol fraction	Methacrolein (CH2=C(CH3)CHO, MW = 70.00 g mol-1) volume mixing ratio dry air
`MEK`	Mol fraction	Methyl Ethyl Ketone (RC(O)R, MW = 72.11 g mol-1) volume mixing ratio dry air
`MVK`	Mol fraction	Methyl vinyl ketone (CH2=CHC(=O)CH3, MW = 70.00 g mol-1) volume mixing ratio dry air
`N2O5`	Mol fraction	Dinitrogen pentoxide (N2O5, MW = 108.00 g mol-1) volume mixing ratio dry air
`NH3`	Mol fraction	Ammonia (NH3, MW = 17.00 g mol-1) volume mixing ratio dry air
`NH4`	Mol fraction	Ammonium (NH4, MW = 18.00 g mol-1) volume mixing ratio dry air
`NIT`	Mol fraction	Inorganic nitrates (MW = 62.00 g mol-1) volume mixing ratio dry air
`NO`	Mol fraction	Nitrogen oxide (NO, MW = 30.00 g mol-1) volume mixing ratio dry air
`NO2`	Mol fraction	Nitrogen dioxide (NO2, MW = 46.00 g mol-1) volume mixing ratio dry air
`NOy`	Mol fraction	Reactive nitrogen = NO NO2 HNO3 HNO4 HONO 2xN2O5 PAN OrganicNitrates AerosolNitrates
`O3`	Mol fraction	Ozone (O3, MW = 48.00 g mol-1) volume mixing ratio dry air
`OCPI`	Mol fraction	Hydrophilic organic carbon aerosol (MW = 12.01 g mol-1) volume mixing ratio dry air
`OCPO`	Mol fraction	Hydrophobic organic carbon aerosol (MW = 12.01 g mol-1) volume mixing ratio dry air
`PAN`	Mol fraction	Peroxyacetyl nitrate (CH3C(O)OONO2, MW = 121.00 g mol-1) volume mixing ratio dry air
`PHIS`	m^2 s-2	Surface geopotential height
`PM25_RH35_GCC`	ug m-3	Particulate matter with diameter below 2.5 um RH 35
`PM25_RH35_GOCART`	kg/m^3	Total reconstructed PM2.5 RH 35
`PM25bc_RH35_GCC`	ug m-3	Black carbon particulate matter with diameter below 2.5 um RH 35
`PM25du_RH35_GCC`	ug m-3	Dust particulate matter with diameter below 2.5 um RH 35
`PM25ni_RH35_GCC`	ug m-3	Nitrate particulate matter with diameter below 2.5 um RH 35
`PM25oc_RH35_GCC`	ug m-3	Organic carbon particulate matter with diameter below 2.5 um RH 35
`PM25soa_RH35_GCC`	ug m-3	Secondary organic aerosol particulate matter with diameter below 2.5 um RH 35
`PM25ss_RH35_GCC`	ug m-3	Seasalt particulate matter with diameter below 2.5 um RH 35
`PM25su_RH35_GCC`	ug m-3	Sulfate particulate matter with diameter below 2.5 um RH 35
`PRPE`	Mol fraction	Lumped >= C3 alkenes (C3H6, MW = 42.08 g mol-1) volume mixing ratio dry air
`PS`	Pa	Surface pressure
`Q`	Mass fraction	Specific humidity
`Q10M`	Mass fraction	10-meter specific humidity
`Q2M`	Mass fraction	2-meter specific humidity
`RCHO`	Mol fraction	Lumped aldehyde >= C3 (CH3CH2CHO, MW = 58.00 g mol-1) volume mixing ratio dry air
`RH`		Relative humidity after moist
`SALA`	Mol fraction	Fine (0.01-0.05 microns) sea salt aerosol (MW = 31.40 g mol-1) volume mixing ratio dry air
`SALC`	Mol fraction	Coarse (0.5-8 microns) sea salt aerosol (MW = 31.40 g mol-1) volume mixing ratio dry air
`SLP`	Pa	Sea level pressure
`SO2`	Mol fraction	Sulfur dioxide (SO2, MW = 64.00 g mol-1) volume mixing ratio dry air
`SOAP`	Mol fraction	SOA Precursor - lumped species for simplified SOA parameterization (MW = 150.00 g mol-1) volume mixing ratio dry air
`SOAS`	Mol fraction	SOA Simple - simplified non-volatile SOA parameterization (MW = 150.00 g mol-1) volume mixing ratio dry air
`T`	K	Air temperature
`T10M`	K	10-meter air temperature
`T2M`	K	2-meter air temperature
`TOLU`	Mol fraction	Toluene (C7H8, MW = 92.14 g mol-1) volume mixing ratio dry air
`TOTCOL_BrO`	1.0e15 molec cm-2	Bromine monoxide (BrO, MW = 96.00 g mol-1) total column density
`TOTCOL_CO`	1.0e15 molec cm-2	Carbon monoxide (CO, MW = 28.00 g mol-1) total column density
`TOTCOL_HCHO`	1.0e15 molec cm-2	Formaldehyde (CH2O, MW = 30.00 g mol-1) total column density
`TOTCOL_IO`	1.0e15 molec cm-2	Iodine monoxide (IO, MW = 143.00 g mol-1) total column density
`TOTCOL_NO2`	1.0e15 molec cm-2	Nitrogen dioxide (NO2, MW = 46.00 g mol-1) total column density
`TOTCOL_O3`	Dobson	Ozone (O3, MW = 48.00 g mol-1) total column density
`TOTCOL_SO2`	1.0e15 molec cm-2	Sulfur dioxide (SO2, MW = 64.00 g mol-1) total column density
`TPREC`	kg/m^2/s	Total precipitation
`TROPCOL_BrO`	1.0e15 molec cm-2	Bromine monoxide (BrO, MW = 96.00 g mol-1) tropospheric column density
`TROPCOL_CO`	1.0e15 molec cm-2	Carbon monoxide (CO, MW = 28.00 g mol-1) tropospheric column density
`TROPCOL_HCHO`	1.0e15 molec cm-2	Formaldehyde (CH2O, MW = 30.00 g mol-1) tropospheric column density
`TROPCOL_IO`	1.0e15 molec cm-2	Iodine monoxide (IO, MW = 143.00 g mol-1) tropospheric column density
`TROPCOL_NO2`	1.0e15 molec cm-2	Nitrogen dioxide (NO2, MW = 46.00 g mol-1) tropospheric column density
`TROPCOL_O3`	Dobson	Ozone (O3, MW = 48.00 g mol-1) tropospheric column density
`TROPCOL_SO2`	1.0e15 molec cm-2	Sulfur dioxide (SO2, MW = 64.00 g mol-1) tropospheric column density
`TROPPB`	Pa	Tropopause pressure based on blended estimate
`TS`	K	Surface skin temperature
`U`	m/s	Eastward wind
`U10M`	m/s	10-meter eastward wind
`U2M`	m/s	2-meter eastward wind
`V`	m/s	Northward wind
`V10M`	m/s	10-meter northward wind
`V2M`	m/s	2-meter northward wind
`WETDEPFLX_BCPI`	kg/m^2/s	Hydrophilic black carbon aerosol (MW = 12.01 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_BCPO`	kg/m^2/s	Hydrophobic black carbon aerosol (MW = 12.01 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_DST1`	kg/m^2/s	Dust aerosol, Reff = 0.7 microns (MW = 29.00 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_DST2`	kg/m^2/s	Dust aerosol, Reff = 1.4 microns (MW = 29.00 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_DST3`	kg/m^2/s	Dust aerosol, Reff = 2.4 microns (MW = 29.00 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_DST4`	kg/m^2/s	Dust aerosol, Reff = 4.5 microns (MW = 29.00 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_HCHO`	kg/m^2/s	Formaldehyde (CH2O, MW = 30.00 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_HNO3`	kg/m^2/s	Nitric acid (HNO3, MW = 63.00 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_NH3`	kg/m^2/s	Ammonia (NH3, MW = 17.00 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_NH4`	kg/m^2/s	Ammonium (NH4, MW = 18.00 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_NIT`	kg/m^2/s	Inorganic nitrates (MW = 62.00 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_OCPI`	kg/m^2/s	Hydrophilic organic carbon aerosol (MW = 12.01 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_OCPO`	kg/m^2/s	Hydrophobic organic carbon aerosol (MW = 12.01 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_SALA`	kg/m^2/s	Fine (0.01-0.05 microns) sea salt aerosol (MW = 31.40 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_SALC`	kg/m^2/s	Coarse (0.5-8 microns) sea salt aerosol (MW = 31.40 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_SO2`	kg/m^2/s	Sulfur dioxide (SO2, MW = 64.00 g mol-1) vertical integrated loss due to wet scavenging
`WETDEPFLX_SO4`	kg/m^2/s	Sulfate (SO4, MW = 96.00 g mol-1) vertical integrated loss due to wet scavenging
`XYLE`	Mol fraction	Xylene (C8H10, MW = 106.16 g mol-1) volume mixing ratio dry air
`ZL`	m	Mid layer heights
`ZPBL`	m	Planetary boundary layer height

Image Properties

Image Properties

Name	Type	Description
creation_time	DOUBLE	Time of creation
forecast_time	DOUBLE	Forecast time

Terms of Use

Terms of Use

Unless otherwise noted, all NASA-produced data may be used for any purpose without prior permission. For more information and exceptions visit the NASA Data & Information Policy page.

Citations

Keller, C. A., Knowland, K. E., Duncan, B. N., Liu, J., Anderson, D. C., Das, S., ... & Pawson, S. (2021). Description of the NASA GEOS composition forecast modeling system GEOS-CF v1. 0. Journal of Advances in Modeling Earth Systems, 13(4), e2020MS002413. doi:10.1029/2020MS002413

DOIs

https://doi.org/10.1029/2020MS002413

Explore with Earth Engine

Code Editor (JavaScript)

var imageVisParamNO2 = {
  'bands': ['NO2'],
  'min': 6.96e-11,
  'max': 4.42e-8,
};

var imageVisParamT = {
  'bands': ['T'],
  'min': 220,
  'max': 320,
  'palette': ['d7191c', 'fdae61', 'ffffbf', 'abd9e9', '2c7bb6'],
};

var geosCf = ee.ImageCollection('NASA/GEOS-CF/v1/fcst/tavg1hr');

Map.setCenter(100, 20, 3);

var weeklyT =
    geosCf.select('T').filterDate('2022-11-01', '2022-11-08').median();
Map.addLayer(weeklyT, imageVisParamT, 'Weekly T', false, 1);

var NO2 = ee.Image('NASA/GEOS-CF/v1/fcst/tavg1hr/20220921_12z-20220921_1230z');
Map.addLayer(NO2, imageVisParamNO2, 'NO2', true, 1);

Open in Code Editor

GEOS-CF fcst tavg1hr v1: Goddard Earth Observing System Composition Forecast

NASA/GEOS-CF/v1/fcst/tavg1hr, composition,forecast,geos,gmao,nasa

2022-10-01T00:00:00Z/2024-11-02T12:00:00Z

Google Earth Engine

https://developers.google.com/earth-engine/datasets

https://doi.org/10.1029/2020MS002413