GEOS-Chem User's Guide

GEOS–Chem v9–01–03 Online User's Guide

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Appendix 4: GEOS–Chem Meteorological Fields

We compare the meteorological data products that GEOS–Chem reads from disk.

A4.1 GCAP fields used by GEOS–Chem

NOTES about GCAP met fields:

A3 fields are 3-hour time averages, centered on 01:30 04:30 07:30 ... 22:30 GMT
A6 fields are 6-hour time averages, centered on 00:00 06:00 12:00 18:00 GMT
I6 fields are 6-hour instantaneous fields, centered on 00:00 06:00 12:00 18:00 GMT
Constant fields are time-invariant
Please see the GCAP page on the GEOS-Chem Wiki for more information.

Field	Type	Dimension	Quantity	Units
ALBEDO	A3	2-D	Surface albedo	unitless
PREACC	A3	2-D	Total precipitation	mm H2O/day
PRECON	A3	2-D	Convective precipitation	mm H2O/day
TS	A3	2-D	Surface temprature	K
MOLENGTH	A3	2-D	Monin-Obhukov length	m
USTAR	A3	2-D	Friction velocity	m/s
PBL	A3	2-D	Boundary layer height	m
RADSWG	A3	2-D	Incident radiation at ground	W/m2
SNICE	A3	2-D	Fraction of box covered w/ snow, land, or ocean ice	unitless
OICE	A3	2-D	Ocean or lake ice fraction	unitless
USS	A3	2-D	Zonal wind at 10m above surface	m/s
VSS	A3	2-D	Meridional wind at 10m above the surface	m/s
SOIL	A3	2-D	Volumetric water content	m3/m3
SNOWD	A3	2-D	Snow depth	m
PARDIR	A3	2-D	Direct photosynthetically-active radiation	W/m2
PARDIF	A3	2-D	Diffuse photosynthetically-active radiation	unitless

T	A6	3-D	Temperature	K
U	A6	3-D	Zonal wind	m/s
V	A6	3-D	Meridional wind	m/s
OPTDEPTH	A6	3-D	Optical depth	unitless
CLDF	A6	3-D	Cloud fraction	unitless
Q	A6	3-D	Specific humidity	kg H2O/kg air
MOISTQ	A6	3-D	Tendency of Q w/r/t precipitation	g H2O/kg air/day
UPDE	A6	3-D	Convective updraft flux	Pa/s
DNDE	A6	3-D	Convective downdraft flux	Pa/s
ENTRAIN	A6	3-D	Convective entrainment	Pa/s
DETRAINE	A6	3-D	Convective detrainment	Pa/s
UPDN	A6	3-D	Convective updraft flux (non-entraining plume)	Pa/s
DNDN	A6	3-D	Convective downdraft flux (non-entraining plume)	Pa/s
DETRAINN	A6	3-D	Convective detrainment (non-entraining plume)	Pa/s

PS	I6	2-D	Surface pressure	hPa
SLP	I6	2-D	Sea-level pressure	hPa

PHIS	Constant	2-D	Surface geopotential heights	m2/s2
LWI	Constant	2-D	Land fraction	unitless

A4.2 GEOS–4 fields used by GEOS–Chem

NOTES for GEOS–4 fields:

A-3 fields are 3-hour time-averages, centered on 01:30, 04:30, 07:30, ... 22:30 GMT.
A-6 fields are 6-hour time-averages, centered on 00:00, 06:00, 12:00, and 18:00 GMT.
I-6 fields are 6-hour instantaneous data at 00:00, 06:00, 12:00, and 18:00 GMT.
The air temperature at 2 meters is used as a proxy for the surface air temperature.
Skin temperature is the temperature of the ground (or ocean) surface.

Field	Type	Dimension	Quantity	Units
LWI	I6	2-D	Land-water-ice flags	unitless
PHIS	I6	2-D	Surface geopotential heights	m2/s2
PS	I6	2-D	Surface pressure	mb
SLP	I6	2-D	Sea level pressure	mb

CLDTOT	A6	3-D	3-D cloud fraction (conv + large scale)	unitless
HKBETA	A6	3-D	Hack overshoot parameter	unitless
HKETA	A6	3-D	Hack convective mass flux	kg/m2/s
MOISTQ	A6	3-D	Tendency in specific humidity	g H2O/kg air/day
OPTDEPTH	A6	3-D	Grid box optical depth	unitless
Q	A6	3-D	Specific humidity	g H2O/kg air
T	A6	3-D	Temperature	K
U	A6	3-D	Zonal wind	m/s
V	A6	3-D	Meridional wind	m/s
ZMEU	A6	3-D	Zhang-McFarlane updraft entrainment	Pa/s
ZMMD	A6	3-D	Zhang-McFarlane downdraft mass flux	Pa/s
ZMMU	A6	3-D	Zhang-McFarlane updraft mass flux	Pa/s

ALBEDO	A3	2-D	Surface albedo (visible)	unitless
CLDFRC	A3	2-D	Column cloud fraction at ground	unitless
GWETTOP	A3	2-D	Top soil wetness	unitless
HFLUX	A3	2-D	Sensible heat flux	W/m2
LAI	A3	2-D	Leaf area indices	%
PARDF	A3	2-D	Photosynthetically active diffuse radiation	W/m2
PARDR	A3	2-D	Photosynthetically active direct radiation	W/m2
PBLH	A3	2-D	Planetary boundary layer depth	m
PREACC	A3	2-D	Total precipitation at ground	mm H2O/day
PRECON	A3	2-D	Convective precipitation at ground	mm H2O/day
RADLWG	A3	2-D	Longwave (IR) radiation emanating from the ground	W/m2
RADSWG	A3	2-D	Solar insolation (shortwave) reaching the ground	W/m2
SNOW	A3	2-D	Snow depth (equivalent water)	mm H2O
T2M	A3	2-D	Air temperature at 2 meter elevation	K
TSKIN	A3	2-D	Skin temperature (ground T or sea surface T)	K
U10M	A3	2-D	UWND at 10 m altitude	m/s
USTAR	A3	2-D	Friction velocity	m/s
V10M	A3	2-D	VWND at 10 m altitude	m/s
Z0M	A3	2-D	Roughness height	m

A4.3 GEOS–5 fields used by GEOS–Chem

NOTES about GEOS–5 met fields:

A3 fields are 3-hour time averages, centered on 01:30 04:30 07:30 ... 22:30 GMT
A6 fields are 6-hour time averages, centered on 00:00 06:00 12:00 18:00 GMT
I6 fields are 6-hour instantaneous fields, centered on 00:00 06:00 12:00 18:00 GMT
NOTE: Relative Humidity in the GEOS–5 "raw data files" is labeled as "percent" but is actually "fraction" (unitless).
Please see the GEOS-5 page on the GEOS-Chem Wiki for more information.

Field	Type	Dimension	Quantity	Units
ALBEDO	A3	2-D	Surface albedo	unitless
CLDTOT	A3	2-D	Column cloud fraction	unitless
EFLUX	A3	2-D<	Latent heat flux	W/m2
EVAP	A3	2-D	Evapotranspiration flux	unitless
FRLAKE	A3	2-D	Fraction of lake	unitless
FRLAND	A3	2-D	Fraction of land	unitless
FRLANDIC	A3	2-D	Fraction of land ice	unitless
FROCEAN	A3	2-D	Fraction of ocean	unitless
GRN	A3	2-D	Greenness index	unitless
GWETROOT	A3	2-D	Root zone soil moisture	unitless
GWETTOP	A3	2-D	Top soil moisture	unitless
HFLUX	A3	2-D	Sensible heat flux	W/m2
LAI	A3	2-D	Leaf area index	m2/m2
LWGNET	A3	2-D	Net longwave radiation at ground	W/m2
LWTUP	A3	2-D	Outgoing longwave radiation	W/m2
PARDF	A3	2-D	Diffuse photosnythetically-active radiation	W/m2
LWTUP	A3	2-D	Long
PARDR	A3	2-D	Direct photosynthetically-active radiation	W/m2
PBLH	A3	2-D	Planetary boundary layer thickness	m
PRECANV	A3	2-D	Anvil precipitation	kg/m2/s
PRECCON	A3	2-D	Total convective precipitation at the ground	kg/m2/s
PRECTOT	A3	2-D	Total precipitation at the ground	kg/m2/s
PRECSNO	A3	2-D	Total snow precipitation at the ground	kg/m2/s
QV2M	A3	2-D	Specific humidity at 2m	kg/kg
SNOMAS	A3	2-D	Snow depth (H2O equivalent)	m
SNODP	A3	2-D	Snow depth (geometric)	m
SWGNET	A3	2-D	Net shortwave radiation at ground	W/m2
T2M	A3	2-D	Temperature at 2m above ground	K
TROPP	A3	2-D	Tropopause pressure	hPa
TSKIN	A3	2-D	Ground (skin) temperature	K
U10M	A3	2-D	Zonal wind at 10m above ground	m/s
USTAR	A3	2-D	Friction velocity	m/s
V10M	A3	2-D	Meridional wind at 10m above ground	m/s
Z0M	A3	2-D	Roughness height	m

DQRCON	A6	3-D	Precipitation from convective processes	kg/m2/s
DQRLSC	A6	3-D	Precipitation from large-scale processes	kg/m2/s
DTRAIN	A6	3-D	Detrainment mass flux	kg/m2/s
QL	A6	3-D	Water mixing ratio	unitless
QI	A6	3-D	Ice mixing ratio	unitless
OPTDEPTH	A6	3-D	Overall grid-box optical depth	unitless
TAUCLI	A6	3-D	Grid-box optical depth, ice-path	unitless
TAUCLW	A6	3-D	Grid-box optical depth, water-path	unitless
CLOUD	A6	3-D	Cloud fraction	unitless
PV	A6	3-D	Ertel potential vorticity	K*m2/kg/s
OMEGA	A6	3-D	Vertical pressure velocity	Pa/s
QV	A6	3-D	Specific humidity	kg/kg
RH	A6	3-D	Relative Humidity	unitless
T	A6	3-D	Temperature	K
U	A6	3-D	Zonal wind	m/s
V	A6	3-D	Meridional wind	m/s
DQIDTMST	A6	3-D	Tendency of QV in ice processes	kg/kg/s
DQLDTMST	A6	3-D	Tendency of QV in moist processes	kg/kg/s
DQVDTMST	A6	3-D	Tendency of QV in vapor processes	kg/kg/s
MOISTQ	A6	3-D	Overall tendency of QV	kg/kg/s
CMFMC	A6	3-D	Convective mass flux	kg/m2/s

LWI	I6	2-D	Land/water/ice flags	m/s
PS	I6	2-D	Surface pressure	hPa
SLP	I6	2-D	Sea-level pressure	hPa
TO3	I6	2-D	Total ozone column	DU
TTO3	I6	2-D	Tropospheric ozone column	DU

A4.4 GEOS–5.7.2 fields used by GEOS–Chem

Notes about GEOS–5.7.2 met fields:

A1 fields are 1-hr time-averaged fields with timestamps (i.e. center of averaging period): 00:30, 01:30, 02:30 ... 23:30 GMT
A3 fields are 3-hr time-averaged fields with timestamps (i.e. center of averaging period): 01:30, 04:30, 07:30, 10:30, 13:30, 16:30, 19:30, 22:30 GMT
I3 fields 3-hr instantaneous fields with timestamps: 00:00, 03:00, 06:00, 09:00, 12:00, 15:00, 18:00, 21:00 GMT.
Constant fields are time-invariant.
For more information about the GEOS–5.7.2 raw data, please see the GEOS–5.7.2 page on the GEOS–Chem wiki.
For detailed information about how the individual GEOS–5.7.2 fields were regridded, see the List of GEOS–5.7.2 met fields page on the GEOS–Chem wiki.

Field	Type	Dimension	Units	Quantity
FRLAKE	Constant	2-D	Fraction of lake type in grid box	fraction
FRLAND	Constant	2-D	Fraction of land type in grid box	fraction
FRLANDIC	Constant	2-D	Fraction of land ice type in grid box	fraction
FROCEAN	Constant	2-D	Fraction of ocean in grid box	fraction
PHIS	Constant	2-D	Surface geopotential	m² s^-2

ALBEDO	A1	2-D	Surface albedo	fraction
CLDTOT	A1	2-D	Total cloud fraction	fraction
EFLUX	A1	2-D	Latent heat flux (positive upward)	W m^-2
EVAP	A1	2-D	Surface evaporation	kg m^-2 s^-2
FRSEAICE	A1	2-D	Fraction of sea ice	fraction
FRSNO	A1	2-D	Fractional snow-covered area	fraction
GRN	A1	2-D	Vegetation greenness fraction	fraction
GWETROOT	A1	2-D	Root zone soil wetness	fraction
GWETTOP	A1	2-D	Root zone soil wetness	fraction
HFLUX	A1	2-D	Sensible heat flux (positive upward)	W m^-2
LAI	A1	2-D	Leaf area index	m² m^-2
LWGNT	A1	2-D	Surface net downward longwave flux	W m^-2
LWI	A1	2-D	Land/water/ice flags	unitless
LWTUP	A1	2-D	Upward longwave flux at top of atmosphere (TOA)	W m^-2
PARDF	A1	2-D	Surface downward PAR diffuse flux	W m^-2
PARDR	A1	2-D	Surface downward PAR beam flux	W m^-2
PBLH	A1	2-D	Planetary boundary layer height above surface	m
PRECANV	A1	2-D	Surface precipitation flux from anvils	kg m^-2 s^-2
PRECCON	A1	2-D	Surface precipitation flux from convection	kg m^-2 s^-2
PRECLSC	A1	2-D	Surface precipitation flux from large-scale	kg m^-2 s^-2
PRECSNO	A1	2-D	Surface snowfall flux	kg m^-2 s^-2
PRECTOT	A1	2-D	Total surface precipitation flux	kg m^-2 s^-2
QV2M	A1	2-D	Specific humidity at 2 m above the displacement height	kg kg^-1
SEAICE00	A1	2-D	Fraction of grid box that has < 10% sea ice coverage	fraction
SEAICE10	A1	2-D	Fraction of grid box that has 10-20% sea ice coverage	fraction
SEAICE20	A1	2-D	Fraction of grid box that has 20-30% sea ice coverage	fraction
SEAICE30	A1	2-D	Fraction of grid box that has 30-40% sea ice coverage	fraction
SEAICE40	A1	2-D	Fraction of grid box that has 40-50% sea ice coverage	fraction
SEAICE50	A1	2-D	Fraction of grid box that has 50-60% sea ice coverage	fraction
SEAICE60	A1	2-D	Fraction of grid box that has 60-70% sea ice coverage	fraction
SEAICE70	A1	2-D	Fraction of grid box that has 70-80% sea ice coverage	fraction
SEAICE80	A1	2-D	Fraction of grid box that has 80-90% sea ice coverage	fraction
SEAICE90	A1	2-D	Fraction of grid box that has > 90% sea ice coverage	fraction
SLP	A1	2-D	Sea level pressure	hPa
SNODP	A1	2-D	Snow depth	m
SNOMAS	A1	2-D	Snow mass	kg m^-2
SWGDN	A1	2-D	Surface incident shortwave flux	W m^-2
SWGNT	A1	2-D	Net surface downward shortwave flux	W m^-2
TROPPT	A1	2-D	T based tropopause pressure	hPa
TS	A1	2-D	Surface skin temperature	K
T2M	A1	2-D	Temperature 2 m above displacement height	K
U10M	A1	2-D	Eastward wind 10 m above displacement height	m s^-1
USTAR	A1	2-D	Friction velocity	m s^-1
V10M	A1	2-D	Northward wind 10 m above displacement height	m s^-1
Z0M	A1	2-D	Roughness length, momentum	m

CLOUD	A3cld	3-D	Total cloud fraction in grid box	fraction
QI	A3cld	3-D	Cloud ice mixing ratio	kg kg^-1
QIAN	A3cld	3-D	Cloud ice mixing ratio – anvils	kg kg^-1
QILS	A3cld	3-D	Cloud ice mixing ratio – large-scale	kg kg^-1
QL	A3cld	3-D	Cloud liquid water mixing ratio	kg kg^-1
QLAN	A3cld	3-D	Cloud liquid water mixing ratio – anvil	kg kg^-1
QLLS	A3cld	3-D	Cloud liquid water mixing ratio – large-scale	kg kg^-1
TAUCLI	A3cld	3-D	In-cloud ice cloud optical thickness (visible band)	unitless
TAUCLW	A3cld	3-D	In-cloud liquid cloud optical thickness (visible band)	unitless
OPTDEPTH	A3cld	3-D	Total in-cloud optical depth (visible band)	unitless

CMFMC	A3dyn	3-D	Upward moist convective mass flux	kg m^-2 s^-2
DTRAIN	A3dyn	3-D	Detrainment cloud mass flux	kg m^-2 s^-2
OMEGA	A3dyn	3-D	Vertical pressure velocity	Pa s^-1
RH	A3dyn	3-D	Relative humidity	unitless
U	A3dyn	3-D	Eastward component of wind	m s^-1
V	A3dyn	3-D	Northward component of wind	m s^-1

DQRCU	A3mstC	3-D	Precipitation production rate – convective	kg kg^-1 s^-1
DQRLSAN	A3mstC	3-D	Precipitation production rate – large-scale + anvil	kg kg^-1 s^-1
REEVAPCN	A3mstC	3-D	Evaporation of precipitating convective condensate	kg kg^-1 s^-1
REEVAPLS(AN)	A3mstC	3-D	Evaporation of precipitating LS + anvil condensate	kg kg^-1 s^-1

PFICU	A3mstE	3-D	Downward flux of ice precipitation – convective	kg m^-2 s^-1
PFILSAN	A3mstE	3-D	Downward flux of ice precip – large-scale + anvil	kg m^-2 s^-1
PFLCU	A3mstE	3-D	Downward flux of liquid precipitation – convective	kg m^-2 s^-1
PFLLSAN	A3mstE	3-D	Downward flux of liquid precip – large-scale + anvil	kg m^-2 s^-1

PS	I3	2-D	Surface pressure	Pa
PV	I3	3-D	Ertel potential vorticity	K m² kg^-1 s^-1
QV	I3	3-D	Specific humidity	kg kg^-1
T	I3	3-D	Air temperature	K

A4.5 MERRA fields used by GEOS–Chem

Notes about MERRA met fields:

A1 fields are 1-hr time-averaged fields with timestamps (i.e. center of averaging period): 00:30, 01:30, 02:30 ... 23:30 GMT
A3 fields are 3-hr time-averaged fields with timestamps (i.e. center of averaging period): 01:30, 04:30, 07:30, 10:30, 13:30, 16:30, 19:30, 22:30 GMT
I6 fields 6-hr instantaneous fields with timestamps: 00:00, 06:00, 12:00, 18:00 GMT.
Constant fields are time-invariant.
For more information about the MERRA raw data, please see the MERRA post on the GEOS–Chem wiki.
For detailed information about how the individual MERRA fields were regridded, see the List of MERRA met fields post on the GEOS–Chem wiki.
For more information about the native MERRA grids, see the MERRA grid structure post on the GEOS–Chem wiki.

Field	Type	Dimension	Units	Quantity
FRLAKE	Constant	2-D	Fraction of lake type in grid box	fraction
FRLAND	Constant	2-D	Fraction of land type in grid box	fraction
FRLANDIC	Constant	2-D	Fraction of land ice type in grid box	fraction
FROCEAN	Constant	2-D	Fraction of ocean in grid box	fraction
PHIS	Constant	2-D	Surface geopotential	m² s^-2

ALBEDO	A1	2-D	Surface albedo	fraction
CLDTOT	A1	2-D	Total cloud fraction	fraction
EFLUX	A1	2-D	Latent heat flux (positive upward)	W m^-2
EVAP	A1	2-D	Surface evaporation	kg m^-2 s^-2
FRSEAICE	A1	2-D	Fraction of sea ice	fraction
FRSNO	A1	2-D	Fractional snow-covered area	fraction
GRN	A1	2-D	Vegetation greenness fraction	fraction
GWETROOT	A1	2-D	Root zone soil wetness	fraction
GWETTOP	A1	2-D	Root zone soil wetness	fraction
HFLUX	A1	2-D	Sensible heat flux (positive upward)	W m^-2
LAI	A1	2-D	Leaf area index	m² m^-2
LWGNT	A1	2-D	Surface net downward longwave flux	W m^-2
LWI	A1	2-D	Land/water/ice flags	unitless
LWTUP	A1	2-D	Upward longwave flux at top of atmosphere (TOA)	W m^-2
PARDF	A1	2-D	Surface downward PAR diffuse flux	W m^-2
PARDR	A1	2-D	Surface downward PAR beam flux	W m^-2
PBLH	A1	2-D	Planetary boundary layer height above surface	m
PRECANV	A1	2-D	Surface precipitation flux from anvils	kg m^-2 s^-2
PRECCON	A1	2-D	Surface precipitation flux from convection	kg m^-2 s^-2
PRECLSC	A1	2-D	Surface precipitation flux from large-scale	kg m^-2 s^-2
PRECSNO	A1	2-D	Surface snowfall flux	kg m^-2 s^-2
PRECTOT	A1	2-D	Total surface precipitation flux	kg m^-2 s^-2
QV2M	A1	2-D	Specific humidity at 2 m above the displacement height	kg kg^-1
SEAICE00	A1	2-D	Fraction of grid box that has < 10% sea ice coverage	fraction
SEAICE10	A1	2-D	Fraction of grid box that has 10-20% sea ice coverage	fraction
SEAICE20	A1	2-D	Fraction of grid box that has 20-30% sea ice coverage	fraction
SEAICE30	A1	2-D	Fraction of grid box that has 30-40% sea ice coverage	fraction
SEAICE40	A1	2-D	Fraction of grid box that has 40-50% sea ice coverage	fraction
SEAICE50	A1	2-D	Fraction of grid box that has 50-60% sea ice coverage	fraction
SEAICE60	A1	2-D	Fraction of grid box that has 60-70% sea ice coverage	fraction
SEAICE70	A1	2-D	Fraction of grid box that has 70-80% sea ice coverage	fraction
SEAICE80	A1	2-D	Fraction of grid box that has 80-90% sea ice coverage	fraction
SEAICE90	A1	2-D	Fraction of grid box that has > 90% sea ice coverage	fraction
SLP	A1	2-D	Sea level pressure	hPa
SNODP	A1	2-D	Snow depth	m
SNOMAS	A1	2-D	Snow mass	kg m^-2
SWGDN	A1	2-D	Surface incident shortwave flux	W m^-2
SWGNT	A1	2-D	Net surface downward shortwave flux	W m^-2
TROPPT	A1	2-D	T based tropopause pressure	hPa
TS	A1	2-D	Surface skin temperature	K
T2M	A1	2-D	Temperature 2 m above displacement height	K
U10M	A1	2-D	Eastward wind 10 m above displacement height	m s^-1
USTAR	A1	2-D	Friction velocity	m s^-1
V10M	A1	2-D	Northward wind 10 m above displacement height	m s^-1
Z0M	A1	2-D	Roughness length, momentum	m

CLOUD	A3	3-D	Total cloud fraction in grid box	fraction
CMFMC	A3	3-D	Upward moist convective mass flux	kg m^-2 s^-2
DQRCU	A3	3-D	Precipitation production rate – convective	kg kg^-1 s^-1
DQRLSAN	A3	3-D	Precipitation production rate – large-scale + anvil	kg kg^-1 s^-1
DQIDTMST	A3	3-D	Ice tendency from moist physics	kg kg^-1 s^-1
DQLDTMST	A3	3-D	Liquid water tendency from moist physics	kg kg^-1 s^-1
DQVDTMST	A3	3-D	Water vapor tendency from moist physics	kg kg^-1 s^-1
DTRAIN	A3	3-D	Detrainment cloud mass flux	kg m^-2 s^-2
MOISTQ	A3	3-D	Overall tendency of QV	g kg^-1 day^-1
OPTDEPTH	A3	3-D	Total in-cloud optical depth (visible band)	unitless
PFICU	A3	3-D	Downward flux of ice precipitation – convective	kg m^-2 s^-1
PFILSAN	A3	3-D	Downward flux of ice precip – large-scale + anvil	kg m^-2 s^-1
PFLCU	A3	3-D	Downward flux of liquid precipitation – convective	kg m^-2 s^-1
PFLLSAN	A3	3-D	Downward flux of liquid precip – large-scale + anvil	kg m^-2 s^-1
QI	A3	3-D	Cloud ice mixing ratio	kg kg^-1
QL	A3	3-D	Cloud liquid water mixing ratio	kg kg^-1
QV	A3	3-D	Specific humidity	kg kg^-1
REEVAPCN	A3	3-D	Evaporation of precipitating convective condensate	kg kg^-1 s^-1
REEVAPLS	A3	3-D	Evaporation of precipitating large-scale + anvil condensate	kg kg^-1 s^-1
T	A3	3-D	Air temperature	K
TAUCLI	A3	3-D	In-cloud ice cloud optical thickness (visible band)	unitless
TAUCLW	A3	3-D	In-cloud liquid cloud optical thickness (visible band)	unitless
U	A3	3-D	Eastward component of wind	m s^-1
V	A3	3-D	Northward component of wind	m s^-1

OMEGA	I6	3-D	Vertical pressure velocity	Pa s^-1
PS	I6	2-D	Surface pressure	hPa
PV	I6	3-D	Ertel potential vorticity	K m² kg^-1 s^-1
RH	I6	3-D	Relative humidity	unitless

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