[gradsusr] Relative humidity data
Kishore Babu
kishoreragi at gmail.com
Sun Nov 11 05:15:55 EST 2012
Thank you,
Regards,
Kishore
On Sat, Nov 10, 2012 at 5:23 PM, bob ogwang <bob_ogwang at yahoo.co.uk> wrote:
>
> Hi Kishore,
> Please have a look at this website:
>
> http://iridl.ldeo.columbia.edu/SOURCES/.NOAA/.NCEP-NCAR/.CDAS-1/.MONTHLY/.Intrinsic/.PressureLevel/
> *.........................................*
>
> B. Alex
>
> <http://www.nuist.edu.cn/>
>
> *Nanjing-China*
>
> ...........................................
>
> --- On *Sat, 10/11/12, gradsusr-request at gradsusr.org <
> gradsusr-request at gradsusr.org>* wrote:
>
>
> From: gradsusr-request at gradsusr.org <gradsusr-request at gradsusr.org>
> Subject: gradsusr Digest, Vol 33, Issue 32
> To: gradsusr at gradsusr.org
> Date: Saturday, 10 November, 2012, 7:10
>
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> Today's Topics:
>
> 1. how to get relative humidity data? (Kishore Babu)
> 2. plotting long variable names (Donald Van Dyke)
>
>
> ----------------------------------------------------------------------
>
> Message: 1
> Date: Sat, 10 Nov 2012 11:11:35 +0530
> From: Kishore Babu <kishoreragi at gmail.com<http://uk.mc1723.mail.yahoo.com/mc/compose?to=kishoreragi@gmail.com>
> >
> Subject: [gradsusr] how to get relative humidity data?
> To: GrADS Users Forum <gradsusr at gradsusr.org<http://uk.mc1723.mail.yahoo.com/mc/compose?to=gradsusr@gradsusr.org>
> >
> Message-ID:
> <CAN4rXbRGMTgTEXR8qDfHG5QSKfO8GQHPRONYQgvVsRMA3BXNfQ at mail.gmail.com<http://uk.mc1723.mail.yahoo.com/mc/compose?to=CAN4rXbRGMTgTEXR8qDfHG5QSKfO8GQHPRONYQgvVsRMA3BXNfQ@mail.gmail.com>
> >
> Content-Type: text/plain; charset="iso-8859-1"
>
> Dear all,
>
> I know that this not related to grads, but I do fell that I can get the
> information I want here.
>
> I need observational/satellite data of relative humidity from 1996-2006.
> Could anyone who has experience, please recommend me some online data
> center to download the data.
>
> Thank you for the help in advance,
>
> Sincerely,
>
> Kishore
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> ------------------------------
>
> Message: 2
> Date: Sat, 10 Nov 2012 02:10:39 -0500
> From: Donald Van Dyke <don.vandyke at noaa.gov<http://uk.mc1723.mail.yahoo.com/mc/compose?to=don.vandyke@noaa.gov>
> >
> Subject: [gradsusr] plotting long variable names
> To: gradsusr at gradsusr.org<http://uk.mc1723.mail.yahoo.com/mc/compose?to=gradsusr@gradsusr.org>
> Message-ID: <509DFDEF.2020104 at noaa.gov<http://uk.mc1723.mail.yahoo.com/mc/compose?to=509DFDEF.2020104@noaa.gov>
> >
> Content-Type: text/plain; charset="iso-8859-1"
>
> All,
>
> I've run into some trouble trying to plot variables with very long names
> from NCEP. I updated to the recent GrADS 2.0.2, wgrib2, and g2ctl
> releases with no further success. Specifically, I'm trying to plot
> certain max variables from the hi-res NCEP NAM nest as well as some
> other NCEP hi-res models (ARW and NMM). As an example, I've attached
> the control file that g2ctl produces from a NAM nest grib2 file. Note
> some of the very long variable names such as MXUPHL5000_2000m.
> Unfortunately, I'm interested in plotting some of those, and it doesn't
> work. If I run a simple script such as
>
> 'reinit'
> 'open namnest.ctl'
> 'set gxout shaded'
> 'd MXUPHL5000_2000m'
> 'printim test.png'
>
> 'quit'
>
> I get an error that says
>
> Syntax Error: Invalid Operand
> 'mxuphl5000_2000m' not a variable or function name
> Error ocurred at column 1
> DISPLAY error: Invalid expression
> Expression = mxuphl5000_2000m
> No hardcopy metafile open
> GX package terminated
>
> Is there an easy solution to this? Ideally, I'd like to either see
> GrADS be able to read these long variable names, or NCEP use shorter
> names. I suppose it is possible to trick it into working by using
> wgrib2 to rename the variables I want to plot into something shorter
> that GrADS can read and writing those to a new grib2 file, but that
> seems like a lot of needless work and trickery. Am I missing something
> here? Thanks for any help anyone can give.
>
> -Don
> -------------- next part --------------
> dset ^nam.t00z.conusnest.hiresf12.tm00.grib2
> index ^nam.t00z.conusnest.hiresf12.tm00.grib2.idx
> undef 9.999E+20
> title nam.t00z.conusnest.hiresf12.tm00.grib2
> * produced by g2ctl v0.0.8.8
> * command line options: nam.t00z.conusnest.hiresf12.tm00.grib2
> * griddef=1:0:(1473 x 1025):grid_template=30:winds(grid): Lambert
> Conformal: (1473 x 1025) input WE:SN output WE:SN res 8 Lat1 12.190000 Lon1
> 226.541000 LoV 265.000000 LatD 25.000000 Latin1 25.000000 Latin2 25.000000
> LatSP 0.000000 LonSP 0.000000 Nor
> dtype grib2
> pdef 1473 1025 lccr 12.190000 -133.459 1 1 25.000000 25.000000 -95
> 5079.000000 5079.000000
> xdef 2191 linear -152.852997 0.0472378093784381
> ydef 1063 linear 12.202469 0.0461727272727273
> tdef 1 linear 12Z09nov2012 1mo
> * PROFILE hPa
> zdef 42 levels 100000 97500 95000 92500 90000 87500 85000 82500 80000
> 77500 75000 72500 70000 67500 65000 62500 60000 57500 55000 52500 50000
> 47500 45000 42500 40000 37500 35000 32500 30000 27500 25000 22500 20000
> 17500 15000 12500 10000 7500 5000 3000 2000 1000
> options pascals
> vars 302
> no4LFTX180_0mb 0,108,18000,0 0,7,193 ** 180-0 mb above ground Best (4
> layer) Lifted Index [K]
> ABSVprs 42,100 0,2,10 ** (1000 850 750 700 500 400 250) Absolute
> Vorticity [1/s]
> ACPCPsfc 0,1,0 0,1,10,1 ** surface Convective Precipitation [kg/m^2]
> ALBDOsfc 0,1,0 0,19,1 ** surface Albedo [%]
> APCPsfc 0,1,0 0,1,8,1 ** surface Total Precipitation [kg/m^2]
> BGRUNsfc 0,1,0 1,0,192,1 ** surface Baseflow-Groundwater Runoff
> [kg/m^2]
> BMIXLhy1 0,105,1 2,0,197 ** 1 hybrid level Blackadars Mixing Length
> Scale [m]
> BRTMPtoa 0,8,0 0,4,4 ** top of atmosphere Brightness Temperature [K]
> CAPEsfc 0,1,0 0,7,6 ** surface Convective Available Potential Energy
> [J/kg]
> CAPE180_0mb 0,108,18000,0 0,7,6 ** 180-0 mb above ground Convective
> Available Potential Energy [J/kg]
> CAPE90_0mb 0,108,9000,0 0,7,6 ** 90-0 mb above ground Convective
> Available Potential Energy [J/kg]
> CAPE255_0mb 0,108,25500,0 0,7,6 ** 255-0 mb above ground Convective
> Available Potential Energy [J/kg]
> CCONDsfc 0,1,0 2,0,199 ** surface Canopy Conductance [m/s]
> CDsfc 0,1,0 0,2,196 ** surface Drag Coefficient [non-dim]
> CDCONclm 0,200,0 0,6,2 ** entire atmosphere (considered as a single
> layer) Convective Cloud Cover [%]
> CFRZRsfc 0,1,0 0,1,193 ** surface Categorical Freezing Rain [-]
> CICEprs 40,100 0,6,0 ** (1000 975 950 925 900.. 125 100 75 50 30)
> Cloud Ice [kg/m^2]
> CICEhy1 0,105,1 0,6,0 ** 1 hybrid level Cloud Ice [kg/m^2]
> CICEPsfc 0,1,0 0,1,194 ** surface Categorical Ice Pellets [-]
> CINsfc 0,1,0 0,7,7 ** surface Convective Inhibition [J/kg]
> CIN180_0mb 0,108,18000,0 0,7,7 ** 180-0 mb above ground Convective
> Inhibition [J/kg]
> CIN90_0mb 0,108,9000,0 0,7,7 ** 90-0 mb above ground Convective
> Inhibition [J/kg]
> CIN255_0mb 0,108,25500,0 0,7,7 ** 255-0 mb above ground Convective
> Inhibition [J/kg]
> CLWMRprs 40,100 0,1,22 ** (1000 975 950 925 900.. 125 100 75 50 30)
> Cloud Mixing Ratio [kg/kg]
> CLWMRhy1 0,105,1 0,1,22 ** 1 hybrid level Cloud Mixing Ratio [kg/kg]
> CNVHRclm 0,200,0 0,0,196,0 ** entire atmosphere (considered as a
> single layer) Deep Convective Heating Rate [K/s]
> CNWATsfc 0,1,0 2,0,196 ** surface Plant Canopy Surface Water [kg/m^2]
> CPOFPsfc 0,1,0 1,1,193 ** surface Probability of Frozen Precipitation
> [%]
> CPRATsfc 0,1,0 0,1,196 ** surface Convective Precipitation Rate
> [kg/m^2/s]
> CRAINsfc 0,1,0 0,1,192 ** surface Categorical Rain [-]
> CSDSFsfc 0,1,0 0,4,196 ** surface Clear Sky Downward Solar Flux [W/m^2]
> CSNOWsfc 0,1,0 0,1,195 ** surface Categorical Snow [-]
> CUEFIclm 0,200,0 0,6,194 ** entire atmosphere (considered as a single
> layer) Convective Cloud Efficiency [non-dim]
> DLWRFavesfc 0,1,0 0,5,192,0 ** surface Downward Long-Wave Rad. Flux
> [W/m^2]
> DLWRFsfc 0,1,0 0,5,192 ** surface Downward Long-Wave Rad. Flux [W/m^2]
> DPTprs 42,100 0,0,6 ** (1000 925 850 700 500 400 300) Dew Point
> Temperature [K]
> DPT2m 0,103,2 0,0,6 ** 2 m above ground Dew Point Temperature [K]
> DPT30_0mb 0,108,3000,0 0,0,6 ** 30-0 mb above ground Dew Point
> Temperature [K]
> DSWRFavesfc 0,1,0 0,4,192,0 ** surface Downward Short-Wave Radiation
> Flux [W/m^2]
> DSWRFsfc 0,1,0 0,4,192 ** surface Downward Short-Wave Radiation Flux
> [W/m^2]
> DZDTprs 42,100 0,2,9 ** (1000 975 950 925 900.. 75 50 30 20 10)
> Vertical Velocity (Geometric) [m/s]
> EVPsfc 0,1,0 0,1,6,1 ** surface Evaporation [kg/m^2]
> FRICVsfc 0,1,0 0,2,197 ** surface Frictional Velocity [m/s]
> GFLUXavesfc 0,1,0 2,0,193,0 ** surface Ground Heat Flux [W/m^2]
> GFLUXsfc 0,1,0 2,0,193 ** surface Ground Heat Flux [W/m^2]
> GUSTsfc 0,1,0 0,2,22 ** surface Wind Speed (Gust) [m/s]
> HCDChcll 0,234,0 0,6,5 ** high cloud layer High Cloud Cover [%]
> HGTsfc 0,1,0 0,3,5 ** surface Geopotential Height [gpm]
> HGTprs 42,100 0,3,5 ** (1000 975 950 925 900.. 75 50 30 20 10)
> Geopotential Height [gpm]
> HGThy1 0,105,1 0,3,5 ** 1 hybrid level Geopotential Height [gpm]
> HGTclb 0,2,0 0,3,5 ** cloud base Geopotential Height [gpm]
> HGTtop0C 0,204,0 0,3,5 ** highest tropospheric freezing level
> Geopotential Height [gpm]
> HGTceil 0,215,0 0,3,5 ** cloud ceiling Geopotential Height [gpm]
> HGTpbl 0,220,0 0,3,5 ** planetary boundary layer Geopotential Height
> [gpm]
> HGTlwb0 0,245,0 0,3,5 ** lowest level of the wet bulb zero
> Geopotential Height [gpm]
> HGTlblsw 0,253,0 0,3,5 ** lowest bottom level of supercooled liquid
> water layer Geopotential Height [gpm]
> HGThtlsw 0,254,0 0,3,5 ** highest top level of supercooled liquid
> water layer Geopotential Height [gpm]
> HGTclt 0,3,0 0,3,5 ** cloud top Geopotential Height [gpm]
> HGT0C 0,4,0 0,3,5 ** 0C isotherm Geopotential Height [gpm]
> HGTl5 0,5,0 0,3,5 ** level of adiabatic condensation from sfc
> Geopotential Height [gpm]
> HGTmwl 0,6,0 0,3,5 ** max wind Geopotential Height [gpm]
> HINDEXsfc 0,1,0 2,4,2 ** surface Haines Index [Numeric]
> HLCY3000_0m 0,103,3000,0 0,7,8 ** 3000-0 m above ground Storm Relative
> Helicity [m^2/s^2]
> HLCY1000_0m 0,103,1000,0 0,7,8 ** 1000-0 m above ground Storm Relative
> Helicity [m^2/s^2]
> HPBLsfc 0,1,0 0,3,196 ** surface Planetary Boundary Layer Height [m]
> ICECsfc 0,1,0 10,2,0 ** surface Ice Cover [Proportion]
> LANDsfc 0,1,0 2,0,0 ** surface Land Cover (0=sea, 1=land) [Proportion]
> LCDClcll 0,214,0 0,6,3 ** low cloud layer Low Cloud Cover [%]
> LFTXl100_100 0,100,50000,100000 0,7,192 ** 500-1000 mb Surface Lifted
> Index [K]
> LHTFLavesfc 0,1,0 0,0,10,0 ** surface Latent Heat Net Flux [W/m^2]
> LHTFLsfc 0,1,0 0,0,10 ** surface Latent Heat Net Flux [W/m^2]
> LRGHRclm 0,200,0 0,0,195,0 ** entire atmosphere (considered as a
> single layer) Large Scale Condensate Heating Rate [K/s]
> LTNGsfc 0,1,0 0,17,192 ** surface Lightning [non-dim]
> LWHRclm 0,200,0 0,5,194 ** entire atmosphere (considered as a single
> layer) Long-Wave Radiative Heating Rate [K/s]
> MAXDVVl100_100 0,100,40000,100000 0,2,221,2 ** 400-1000 mb Hourly
> Maximum of Downward Vertical Velocity in the lowest 400hPa [m/s]
> MAXREF1000m 0,103,1000 0,16,198,2 ** 1000 m above ground Hourly
> Maximum of Simulated Reflectivity at 1 km AGL [dB]
> MAXRH2m 0,103,2 0,1,27 ** 2 m above ground Maximum Relative Humidity
> [%]
> MAXUVVl100_100 0,100,40000,100000 0,2,220,2 ** 400-1000 mb Hourly
> Maximum of Upward Vertical Velocity in the lowest 400hPa [m/s]
> MAXUW10m 0,103,10 0,2,222,2 ** 10 m above ground U Component of Hourly
> Maximum 10m Wind Speed [m/s]
> MAXVW10m 0,103,10 0,2,223,2 ** 10 m above ground V Component of Hourly
> Maximum 10m Wind Speed [m/s]
> MCDCmcll 0,224,0 0,6,4 ** middle cloud layer Medium Cloud Cover [%]
> MCONV850mb 0,100,85000 0,1,197 ** 850 mb Horizontal Moisture
> Divergence [kg/kg/s]
> MCONV950mb 0,100,95000 0,1,197 ** 950 mb Horizontal Moisture
> Divergence [kg/kg/s]
> MCONV30_0mb 0,108,3000,0 0,1,197 ** 30-0 mb above ground Horizontal
> Moisture Divergence [kg/kg/s]
> MCONVclm 0,200,0 0,1,197 ** entire atmosphere (considered as a single
> layer) Horizontal Moisture Divergence [kg/kg/s]
> MINRH2m 0,103,2 0,1,198 ** 2 m above ground Minimum Relative Humidity
> [%]
> MSLETmsl 0,101,0 0,3,192 ** mean sea level MSLP (Eta model reduction)
> [Pa]
> MSTAV0_100cm 0,106,0,1 2,0,194 ** 0-1 m below ground Moisture
> Availability [%]
> MXSALBsfc 0,1,0 0,19,192 ** surface Maximum Snow Albedo [%]
> MXUPHL5000_2000m 0,103,5000,2000 0,7,199,2 ** 5000-2000 m above ground
> Hourly Maximum of Updraft Helicity over Layer 2km to 5 km AGL [m^2/s^2]
> NCPCPsfc 0,1,0 0,1,9,1 ** surface Large-Scale Precipitation
> (non-convective) [kg/m^2]
> PEVAPsfc 0,1,0 0,1,199,1 ** surface Potential Evaporation [kg/m^2]
> PLI30_0mb 0,108,3000,0 0,7,0 ** 30-0 mb above ground Parcel Lifted
> Index (to 500 hPa) [K]
> PLPL255_0mb 0,108,25500,0 0,3,200 ** 255-0 mb above ground Pressure of
> level from which parcel was lifted [Pa]
> POROSsfc 0,1,0 2,3,197 ** surface Soil Porosity [Proportion]
> POT10m 0,103,10 0,0,2 ** 10 m above ground Potential Temperature [K]
> POT30_0mb 0,108,3000,0 0,0,2 ** 30-0 mb above ground Potential
> Temperature [K]
> PRATEsfc 0,1,0 0,1,7 ** surface Precipitation Rate [kg/m^2/s]
> PRESsfc 0,1,0 0,3,0 ** surface Pressure [Pa]
> PRES80m 0,103,80 0,3,0 ** 80 m above ground Pressure [Pa]
> PREShy1 0,105,1 0,3,0 ** 1 hybrid level Pressure [Pa]
> PRES30_0mb 0,108,3000,0 0,3,0 ** 30-0 mb above ground Pressure [Pa]
> PRES60_30mb 0,108,6000,3000 0,3,0 ** 60-30 mb above ground Pressure [Pa]
> PRES90_60mb 0,108,9000,6000 0,3,0 ** 90-60 mb above ground Pressure [Pa]
> PRES120_90mb 0,108,12000,9000 0,3,0 ** 120-90 mb above ground Pressure
> [Pa]
> PRES150_120mb 0,108,15000,12000 0,3,0 ** 150-120 mb above ground
> Pressure [Pa]
> PRES180_150mb 0,108,18000,15000 0,3,0 ** 180-150 mb above ground
> Pressure [Pa]
> PRESclb 0,2,0 0,3,0 ** cloud base Pressure [Pa]
> PRESgclb 0,206,0 0,3,0 ** grid scale cloud bottom level Pressure [Pa]
> PRESgclt 0,207,0 0,3,0 ** grid scale cloud top level Pressure [Pa]
> PREScclb 0,242,0 0,3,0 ** convective cloud bottom level Pressure [Pa]
> PREScclt 0,243,0 0,3,0 ** convective cloud top level Pressure [Pa]
> PRESscclb 0,248,0 0,3,0 ** shallow convective cloud bottom level
> Pressure [Pa]
> PRESscclt 0,249,0 0,3,0 ** shallow convective cloud top level Pressure
> [Pa]
> PRESdcclb 0,251,0 0,3,0 ** deep convective cloud bottom level Pressure
> [Pa]
> PRESdcclt 0,252,0 0,3,0 ** deep convective cloud top level Pressure
> [Pa]
> PRESclt 0,3,0 0,3,0 ** cloud top Pressure [Pa]
> PRESl5 0,5,0 0,3,0 ** level of adiabatic condensation from sfc
> Pressure [Pa]
> PRESmwl 0,6,0 0,3,0 ** max wind Pressure [Pa]
> PREStrop 0,7,0 0,3,0 ** tropopause Pressure [Pa]
> PRMSLmsl 0,101,0 0,3,1 ** mean sea level Pressure Reduced to MSL [Pa]
> PWAT30_0mb 0,108,3000,0 0,1,3 ** 30-0 mb above ground Precipitable
> Water [kg/m^2]
> PWATclm 0,200,0 0,1,3 ** entire atmosphere (considered as a single
> layer) Precipitable Water [kg/m^2]
> RCQsfc 0,1,0 2,0,204 ** surface Humidity parameter in canopy
> conductance [Fraction]
> RCSsfc 0,1,0 2,0,202 ** surface Solar parameter in canopy conductance
> [Fraction]
> RCSOLsfc 0,1,0 2,0,205 ** surface Soil moisture parameter in canopy
> conductance [Fraction]
> RCTsfc 0,1,0 2,0,203 ** surface Temperature parameter in canopy
> conductance [Fraction]
> REFCclm 0,200,0 0,16,196 ** entire atmosphere (considered as a single
> layer) Composite reflectivity [dB]
> REFD1000m 0,103,1000 0,16,195 ** 1000 m above ground Reflectivity [dB]
> REFD4000m 0,103,4000 0,16,195 ** 4000 m above ground Reflectivity [dB]
> REFDhy1 0,105,1 0,16,195 ** 1 hybrid level Reflectivity [dB]
> RETOPclm 0,200,0 0,16,197 ** entire atmosphere (considered as a single
> layer) Echo Top [m]
> RHprs 42,100 0,1,1 ** (1000 975 950 925 900.. 75 50 30 20 10) Relative
> Humidity [%]
> RH2m 0,103,2 0,1,1 ** 2 m above ground Relative Humidity [%]
> RHhy1 0,105,1 0,1,1 ** 1 hybrid level Relative Humidity [%]
> RH30_0mb 0,108,3000,0 0,1,1 ** 30-0 mb above ground Relative Humidity
> [%]
> RH60_30mb 0,108,6000,3000 0,1,1 ** 60-30 mb above ground Relative
> Humidity [%]
> RH90_60mb 0,108,9000,6000 0,1,1 ** 90-60 mb above ground Relative
> Humidity [%]
> RH120_90mb 0,108,12000,9000 0,1,1 ** 120-90 mb above ground Relative
> Humidity [%]
> RH150_120mb 0,108,15000,12000 0,1,1 ** 150-120 mb above ground Relative
> Humidity [%]
> RH180_150mb 0,108,18000,15000 0,1,1 ** 180-150 mb above ground Relative
> Humidity [%]
> RH0C 0,4,0 0,1,1 ** 0C isotherm Relative Humidity [%]
> RIMEprs 40,100 0,1,203 ** (1000 975 950 925 900.. 125 100 75 50 30)
> Rime Factor [non-dim]
> RIMEhy1 0,105,1 0,1,203 ** 1 hybrid level Rime Factor [non-dim]
> RLYRSsfc 0,1,0 2,3,193 ** surface Number of Soil Layers in Root Zone
> [non-dim]
> RSMINsfc 0,1,0 2,0,200 ** surface Minimal Stomatal Resistance [s/m]
> RWMRprs 40,100 0,1,24 ** (1000 975 950 925 900.. 125 100 75 50 30)
> Rain Mixing Ratio [kg/kg]
> RWMRhy1 0,105,1 0,1,24 ** 1 hybrid level Rain Mixing Ratio [kg/kg]
> SFCRsfc 0,1,0 2,0,1 ** surface Surface Roughness [m]
> SFEXCsfc 0,1,0 2,0,195 ** surface Exchange Coefficient [(kg/m^3)(m/s)]
> SHTFLavesfc 0,1,0 0,0,11,0 ** surface Sensible Heat Net Flux [W/m^2]
> SHTFLsfc 0,1,0 0,0,11 ** surface Sensible Heat Net Flux [W/m^2]
> SMDRYsfc 0,1,0 2,3,196 ** surface Direct Evaporation Cease (soil
> moisture) [Proportion]
> SMREFsfc 0,1,0 2,3,195 ** surface Transpiration Stress-onset (soil
> moisture) [Proportion]
> SNFALBsfc 0,1,0 0,19,193 ** surface Snow-Free Albedo [%]
> SNMRprs 40,100 0,1,25 ** (1000 975 950 925 900.. 125 100 75 50 30)
> Snow Mixing Ratio [kg/kg]
> SNMRhy1 0,105,1 0,1,25 ** 1 hybrid level Snow Mixing Ratio [kg/kg]
> SNODsfc 0,1,0 0,1,11 ** surface Snow Depth [m]
> SNOHFsfc 0,1,0 0,0,192,0 ** surface Snow Phase Change Heat Flux [W/m^2]
> SNOMsfc 0,1,0 0,1,16,1 ** surface Snow Melt [kg/m^2]
> SNOWCsfc 0,1,0 0,1,201 ** surface Snow Cover [%]
> SOILL0_10cm 0,106,0,0.1 2,3,192 ** 0-0.1 m below ground Liquid
> Volumetric Soil Moisture (non Frozen) [Proportion]
> SOILL10_40cm 0,106,0.1,0.4 2,3,192 ** 0.1-0.4 m below ground Liquid
> Volumetric Soil Moisture (non Frozen) [Proportion]
> SOILL40_100cm 0,106,0.4,1 2,3,192 ** 0.4-1 m below ground Liquid
> Volumetric Soil Moisture (non Frozen) [Proportion]
> SOILL100_200cm 0,106,1,2 2,3,192 ** 1-2 m below ground Liquid
> Volumetric Soil Moisture (non Frozen) [Proportion]
> SOILM0_200cm 0,106,0,2 2,0,3 ** 0-2 m below ground Soil Moisture
> Content [kg/m^2]
> SOILW0_10cm 0,106,0,0.1 2,0,192 ** 0-0.1 m below ground Volumetric Soil
> Moisture Content [Fraction]
> SOILW10_40cm 0,106,0.1,0.4 2,0,192 ** 0.1-0.4 m below ground Volumetric
> Soil Moisture Content [Fraction]
> SOILW40_100cm 0,106,0.4,1 2,0,192 ** 0.4-1 m below ground Volumetric
> Soil Moisture Content [Fraction]
> SOILW100_200cm 0,106,1,2 2,0,192 ** 1-2 m below ground Volumetric Soil
> Moisture Content [Fraction]
> SOTYPsfc 0,1,0 2,3,0 ** surface Soil Type [-]
> SPFHsfc 0,1,0 0,1,0 ** surface Specific Humidity [kg/kg]
> SPFHprs 42,100 0,1,0 ** (1000 975 950 925 900.. 75 50 30 20 10)
> Specific Humidity [kg/kg]
> SPFH2m 0,103,2 0,1,0 ** 2 m above ground Specific Humidity [kg/kg]
> SPFH10m 0,103,10 0,1,0 ** 10 m above ground Specific Humidity [kg/kg]
> SPFH80m 0,103,80 0,1,0 ** 80 m above ground Specific Humidity [kg/kg]
> SPFHhy1 0,105,1 0,1,0 ** 1 hybrid level Specific Humidity [kg/kg]
> SPFH30_0mb 0,108,3000,0 0,1,0 ** 30-0 mb above ground Specific Humidity
> [kg/kg]
> SPFH60_30mb 0,108,6000,3000 0,1,0 ** 60-30 mb above ground Specific
> Humidity [kg/kg]
> SPFH90_60mb 0,108,9000,6000 0,1,0 ** 90-60 mb above ground Specific
> Humidity [kg/kg]
> SPFH120_90mb 0,108,12000,9000 0,1,0 ** 120-90 mb above ground Specific
> Humidity [kg/kg]
> SPFH150_120mb 0,108,15000,12000 0,1,0 ** 150-120 mb above ground
> Specific Humidity [kg/kg]
> SPFH180_150mb 0,108,18000,15000 0,1,0 ** 180-150 mb above ground
> Specific Humidity [kg/kg]
> SSRUNsfc 0,1,0 1,0,193,1 ** surface Storm Surface Runoff [kg/m^2]
> STRM250mb 0,100,25000 0,2,4 ** 250 mb Stream Function [m^2/s]
> SWHRclm 0,200,0 0,4,197 ** entire atmosphere (considered as a single
> layer) Solar Radiative Heating Rate [K/s]
> TCDCclm 0,200,0 0,6,1 ** entire atmosphere (considered as a single
> layer) Total Cloud Cover [%]
> TCLSWclm 0,200,0 0,1,209 ** entire atmosphere (considered as a single
> layer) Total column-integrated supercooled liquid water [kg/m^2]
> TCOLCclm 0,200,0 0,6,198 ** entire atmosphere (considered as a single
> layer) Total Column-Integrated Condensate [kg/m^2]
> TCOLIclm 0,200,0 0,6,197 ** entire atmosphere (considered as a single
> layer) Total Column-Integrated Cloud Ice [kg/m^2]
> TCOLMclm 0,200,0 0,1,210 ** entire atmosphere (considered as a single
> layer) Total column-integrated melting ice [kg/m^2]
> TCOLRclm 0,200,0 0,1,204 ** entire atmosphere (considered as a single
> layer) Total Column Integrated Rain [kg/m^2]
> TCOLSclm 0,200,0 0,1,205 ** entire atmosphere (considered as a single
> layer) Total Column Integrated Snow [kg/m^2]
> TCOLWclm 0,200,0 0,6,196 ** entire atmosphere (considered as a single
> layer) Total Column-Integrated Cloud Water [kg/m^2]
> TCONDhy1 0,105,1 0,6,195 ** 1 hybrid level Total Condensate [kg/kg]
> TKEprs 40,100 0,19,11 ** (1000 975 950 925 900.. 125 100 75 50 30)
> Turbulent Kinetic Energy [J/kg]
> TKEhy1 0,105,1 0,19,11 ** 1 hybrid level Turbulent Kinetic Energy
> [J/kg]
> TKEhy2 0,105,2 0,19,11 ** 2 hybrid level Turbulent Kinetic Energy
> [J/kg]
> TMAX2m 0,103,2 0,0,4 ** 2 m above ground Maximum Temperature [K]
> TMIN2m 0,103,2 0,0,5 ** 2 m above ground Minimum Temperature [K]
> TMPsfc 0,1,0 0,0,0 ** surface Temperature [K]
> TMPprs 42,100 0,0,0 ** (1000 975 950 925 900.. 75 50 30 20 10)
> Temperature [K]
> TMP_914m 0,102,914 0,0,0 ** 914 m above mean sea level Temperature [K]
> TMP_1524m 0,102,1524 0,0,0 ** 1524 m above mean sea level Temperature
> [K]
> TMP_1829m 0,102,1829 0,0,0 ** 1829 m above mean sea level Temperature
> [K]
> TMP_2134m 0,102,2134 0,0,0 ** 2134 m above mean sea level Temperature
> [K]
> TMP_2743m 0,102,2743 0,0,0 ** 2743 m above mean sea level Temperature
> [K]
> TMP_3658m 0,102,3658 0,0,0 ** 3658 m above mean sea level Temperature
> [K]
> TMP_305m 0,102,305 0,0,0 ** 305 m above mean sea level Temperature [K]
> TMP_457m 0,102,457 0,0,0 ** 457 m above mean sea level Temperature [K]
> TMP_610m 0,102,610 0,0,0 ** 610 m above mean sea level Temperature [K]
> TMP_4572m 0,102,4572 0,0,0 ** 4572 m above mean sea level Temperature
> [K]
> TMP2m 0,103,2 0,0,0 ** 2 m above ground Temperature [K]
> TMP80m 0,103,80 0,0,0 ** 80 m above ground Temperature [K]
> TMPhy1 0,105,1 0,0,0 ** 1 hybrid level Temperature [K]
> TMP30_0mb 0,108,3000,0 0,0,0 ** 30-0 mb above ground Temperature [K]
> TMP60_30mb 0,108,6000,3000 0,0,0 ** 60-30 mb above ground Temperature
> [K]
> TMP90_60mb 0,108,9000,6000 0,0,0 ** 90-60 mb above ground Temperature
> [K]
> TMP120_90mb 0,108,12000,9000 0,0,0 ** 120-90 mb above ground
> Temperature [K]
> TMP150_120mb 0,108,15000,12000 0,0,0 ** 150-120 mb above ground
> Temperature [K]
> TMP180_150mb 0,108,18000,15000 0,0,0 ** 180-150 mb above ground
> Temperature [K]
> TMPclt 0,3,0 0,0,0 ** cloud top Temperature [K]
> TMPtrop 0,7,0 0,0,0 ** tropopause Temperature [K]
> TSOIL0_10cm 0,106,0,0.1 2,0,2 ** 0-0.1 m below ground Soil Temperature
> Validation to deprecate [K]
> TSOIL10_40cm 0,106,0.1,0.4 2,0,2 ** 0.1-0.4 m below ground Soil
> Temperature Validation to deprecate [K]
> TSOIL40_100cm 0,106,0.4,1 2,0,2 ** 0.4-1 m below ground Soil
> Temperature Validation to deprecate [K]
> TSOIL100_200cm 0,106,1,2 2,0,2 ** 1-2 m below ground Soil Temperature
> Validation to deprecate [K]
> TSOIL300cm 0,106,3 2,0,2 ** 3 m underground Soil Temperature
> Validation to deprecate [K]
> UFLXsfc 0,1,0 0,2,17 ** surface Momentum Flux, U-Component [N/m^2]
> UGRDprs 42,100 0,2,2 ** (1000 975 950 925 900.. 75 50 30 20 10)
> U-Component of Wind [m/s]
> UGRD_914m 0,102,914 0,2,2 ** 914 m above mean sea level U-Component of
> Wind [m/s]
> UGRD_1524m 0,102,1524 0,2,2 ** 1524 m above mean sea level U-Component
> of Wind [m/s]
> UGRD_1829m 0,102,1829 0,2,2 ** 1829 m above mean sea level U-Component
> of Wind [m/s]
> UGRD_2134m 0,102,2134 0,2,2 ** 2134 m above mean sea level U-Component
> of Wind [m/s]
> UGRD_2743m 0,102,2743 0,2,2 ** 2743 m above mean sea level U-Component
> of Wind [m/s]
> UGRD_3658m 0,102,3658 0,2,2 ** 3658 m above mean sea level U-Component
> of Wind [m/s]
> UGRD_305m 0,102,305 0,2,2 ** 305 m above mean sea level U-Component of
> Wind [m/s]
> UGRD_457m 0,102,457 0,2,2 ** 457 m above mean sea level U-Component of
> Wind [m/s]
> UGRD_610m 0,102,610 0,2,2 ** 610 m above mean sea level U-Component of
> Wind [m/s]
> UGRD_4572m 0,102,4572 0,2,2 ** 4572 m above mean sea level U-Component
> of Wind [m/s]
> UGRD10m 0,103,10 0,2,2 ** 10 m above ground U-Component of Wind [m/s]
> UGRD80m 0,103,80 0,2,2 ** 80 m above ground U-Component of Wind [m/s]
> UGRDhy1 0,105,1 0,2,2 ** 1 hybrid level U-Component of Wind [m/s]
> UGRDhy2 0,105,2 0,2,2 ** 2 hybrid level U-Component of Wind [m/s]
> UGRD30_0mb 0,108,3000,0 0,2,2 ** 30-0 mb above ground U-Component of
> Wind [m/s]
> UGRD60_30mb 0,108,6000,3000 0,2,2 ** 60-30 mb above ground U-Component
> of Wind [m/s]
> UGRD90_60mb 0,108,9000,6000 0,2,2 ** 90-60 mb above ground U-Component
> of Wind [m/s]
> UGRD120_90mb 0,108,12000,9000 0,2,2 ** 120-90 mb above ground
> U-Component of Wind [m/s]
> UGRD150_120mb 0,108,15000,12000 0,2,2 ** 150-120 mb above ground
> U-Component of Wind [m/s]
> UGRD180_150mb 0,108,18000,15000 0,2,2 ** 180-150 mb above ground
> U-Component of Wind [m/s]
> UGRDpbl 0,220,0 0,2,2 ** planetary boundary layer U-Component of Wind
> [m/s]
> UGRDmwl 0,6,0 0,2,2 ** max wind U-Component of Wind [m/s]
> UGRDtrop 0,7,0 0,2,2 ** tropopause U-Component of Wind [m/s]
> ULWRFavesfc 0,1,0 0,5,193,0 ** surface Upward Long-Wave Rad. Flux
> [W/m^2]
> ULWRFavetoa 0,8,0 0,5,193,0 ** top of atmosphere Upward Long-Wave Rad.
> Flux [W/m^2]
> ULWRFsfc 0,1,0 0,5,193 ** surface Upward Long-Wave Rad. Flux [W/m^2]
> ULWRFtoa 0,8,0 0,5,193 ** top of atmosphere Upward Long-Wave Rad. Flux
> [W/m^2]
> UPHL5000_2000m 0,103,5000,2000 0,7,197 ** 5000-2000 m above ground
> Updraft Helicity [m^2/s^2]
> USTM6000_0m 0,103,6000,0 0,2,194 ** 6000-0 m above ground U-Component
> Storm Motion [m/s]
> USWRFavesfc 0,1,0 0,4,193,0 ** surface Upward Short-Wave Radiation Flux
> [W/m^2]
> USWRFtoa 0,8,0 0,4,193,0 ** top of atmosphere Upward Short-Wave
> Radiation Flux [W/m^2]
> USWRFsfc 0,1,0 0,4,193 ** surface Upward Short-Wave Radiation Flux
> [W/m^2]
> VEGsfc 0,1,0 2,0,4 ** surface Vegetation [%]
> VFLXsfc 0,1,0 0,2,18 ** surface Momentum Flux, V-Component [N/m^2]
> VGRDprs 42,100 0,2,3 ** (1000 975 950 925 900.. 75 50 30 20 10)
> V-Component of Wind [m/s]
> VGRD_914m 0,102,914 0,2,3 ** 914 m above mean sea level V-Component of
> Wind [m/s]
> VGRD_1524m 0,102,1524 0,2,3 ** 1524 m above mean sea level V-Component
> of Wind [m/s]
> VGRD_1829m 0,102,1829 0,2,3 ** 1829 m above mean sea level V-Component
> of Wind [m/s]
> VGRD_2134m 0,102,2134 0,2,3 ** 2134 m above mean sea level V-Component
> of Wind [m/s]
> VGRD_2743m 0,102,2743 0,2,3 ** 2743 m above mean sea level V-Component
> of Wind [m/s]
> VGRD_3658m 0,102,3658 0,2,3 ** 3658 m above mean sea level V-Component
> of Wind [m/s]
> VGRD_305m 0,102,305 0,2,3 ** 305 m above mean sea level V-Component of
> Wind [m/s]
> VGRD_457m 0,102,457 0,2,3 ** 457 m above mean sea level V-Component of
> Wind [m/s]
> VGRD_610m 0,102,610 0,2,3 ** 610 m above mean sea level V-Component of
> Wind [m/s]
> VGRD_4572m 0,102,4572 0,2,3 ** 4572 m above mean sea level V-Component
> of Wind [m/s]
> VGRD10m 0,103,10 0,2,3 ** 10 m above ground V-Component of Wind [m/s]
> VGRD80m 0,103,80 0,2,3 ** 80 m above ground V-Component of Wind [m/s]
> VGRDhy1 0,105,1 0,2,3 ** 1 hybrid level V-Component of Wind [m/s]
> VGRDhy2 0,105,2 0,2,3 ** 2 hybrid level V-Component of Wind [m/s]
> VGRD30_0mb 0,108,3000,0 0,2,3 ** 30-0 mb above ground V-Component of
> Wind [m/s]
> VGRD60_30mb 0,108,6000,3000 0,2,3 ** 60-30 mb above ground V-Component
> of Wind [m/s]
> VGRD90_60mb 0,108,9000,6000 0,2,3 ** 90-60 mb above ground V-Component
> of Wind [m/s]
> VGRD120_90mb 0,108,12000,9000 0,2,3 ** 120-90 mb above ground
> V-Component of Wind [m/s]
> VGRD150_120mb 0,108,15000,12000 0,2,3 ** 150-120 mb above ground
> V-Component of Wind [m/s]
> VGRD180_150mb 0,108,18000,15000 0,2,3 ** 180-150 mb above ground
> V-Component of Wind [m/s]
> VGRDpbl 0,220,0 0,2,3 ** planetary boundary layer V-Component of Wind
> [m/s]
> VGRDmwl 0,6,0 0,2,3 ** max wind V-Component of Wind [m/s]
> VGRDtrop 0,7,0 0,2,3 ** tropopause V-Component of Wind [m/s]
> VGTYPsfc 0,1,0 2,0,198 ** surface Vegetation Type [Integer(0-13)]
> VISsfc 0,1,0 0,19,0 ** surface Visibility [m]
> VRATEpbl 0,220,0 0,2,224 ** planetary boundary layer Ventilation Rate
> [m^2/s]
> VSTM6000_0m 0,103,6000,0 0,2,195 ** 6000-0 m above ground V-Component
> Storm Motion [m/s]
> VVELprs 42,100 0,2,8 ** (1000 975 950 925 900.. 75 50 30 20 10)
> Vertical Velocity (Pressure) [Pa/s]
> VVELhy1 0,105,1 0,2,8 ** 1 hybrid level Vertical Velocity (Pressure)
> [Pa/s]
> VVEL30_0mb 0,108,3000,0 0,2,8 ** 30-0 mb above ground Vertical Velocity
> (Pressure) [Pa/s]
> VVEL90_60mb 0,108,9000,6000 0,2,8 ** 90-60 mb above ground Vertical
> Velocity (Pressure) [Pa/s]
> VVEL180_150mb 0,108,18000,15000 0,2,8 ** 180-150 mb above ground
> Vertical Velocity (Pressure) [Pa/s]
> VWSHtrop 0,7,0 0,2,192 ** tropopause Vertical Speed Shear [1/s]
> WEASDaccsfc 0,1,0 0,1,13,1 ** surface Water Equivalent of Accumulated
> Snow Depth [kg/m^2]
> WEASDsfc 0,1,0 0,1,13 ** surface Water Equivalent of Accumulated Snow
> Depth [kg/m^2]
> WILTsfc 0,1,0 2,0,201 ** surface Wilting Point [Fraction]
> WTMPsfc 0,1,0 10,3,0 ** surface Water Temperature [K]
> ENDVARS
>
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>
> End of gradsusr Digest, Vol 33, Issue 32
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