Thank you,<div><br></div><div>Regards,</div><div><br></div><div>Kishore</div><div class="gmail_extra"><br><br><div class="gmail_quote">On Sat, Nov 10, 2012 at 5:23 PM, bob ogwang <span dir="ltr"><<a href="mailto:bob_ogwang@yahoo.co.uk" target="_blank">bob_ogwang@yahoo.co.uk</a>></span> wrote:<br>
<blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex"><table cellspacing="0" cellpadding="0" border="0"><tbody><tr><td valign="top" style="font:inherit"><div><br>Hi Kishore,</div>
<div>Please have a look at this website:</div>
<div><a href="http://iridl.ldeo.columbia.edu/SOURCES/.NOAA/.NCEP-NCAR/.CDAS-1/.MONTHLY/.Intrinsic/.PressureLevel/" target="_blank">http://iridl.ldeo.columbia.edu/SOURCES/.NOAA/.NCEP-NCAR/.CDAS-1/.MONTHLY/.Intrinsic/.PressureLevel/</a></div>
<div><font color="#000000"><strong><font face="times new roman, new york, times, serif"><u><span style="COLOR:rgb(0,0,191)"></span></u><span style="COLOR:rgb(0,0,191)">.........................................</span></font></strong></font></div>
<p style="FONT-FAMILY:garamond,new york,times,serif;COLOR:rgb(0,127,64)"><font color="#000000" face="courier, monaco, monospace, sans-serif">B. Alex</font>
</p><p style="FONT-FAMILY:garamond,new york,times,serif;COLOR:rgb(0,127,64)"><span style="FONT-SIZE:12pt"><font color="#000000"><a href="http://www.nuist.edu.cn/" rel="nofollow" target="_blank"><font color="#00407f"><font color="#000000" face="Times New Roman"></font>
</font></a></font></span></p><p style="FONT-FAMILY:garamond,new york,times,serif;COLOR:rgb(0,127,64)"></p><font color="#000000"><u><font color="#000000">Nanjing-China</font></u>
<p style="FONT-FAMILY:garamond,new york,times,serif;COLOR:rgb(0,127,64)"></p></font><font color="#000000">...........................................</font><br><br>--- On <b>Sat, 10/11/12, <a href="mailto:gradsusr-request@gradsusr.org" target="_blank">gradsusr-request@gradsusr.org</a> <i><<a href="mailto:gradsusr-request@gradsusr.org" target="_blank">gradsusr-request@gradsusr.org</a>></i></b> wrote:<br>
<blockquote style="BORDER-LEFT:rgb(16,16,255) 2px solid;PADDING-LEFT:5px;MARGIN-LEFT:5px"><br>From: <a href="mailto:gradsusr-request@gradsusr.org" target="_blank">gradsusr-request@gradsusr.org</a> <<a href="mailto:gradsusr-request@gradsusr.org" target="_blank">gradsusr-request@gradsusr.org</a>><br>
Subject: gradsusr Digest, Vol 33, Issue 32<br>To: <a href="mailto:gradsusr@gradsusr.org" target="_blank">gradsusr@gradsusr.org</a><br>Date: Saturday, 10 November, 2012, 7:10<br><br>
<div>Send gradsusr mailing list submissions to<br> <a href="http://uk.mc1723.mail.yahoo.com/mc/compose?to=gradsusr@gradsusr.org" target="_blank">gradsusr@gradsusr.org</a><br><br>To subscribe or unsubscribe via the World Wide Web, visit<br>
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Subject line so it is more specific<br>than "Re: Contents of gradsusr digest..."<br><br><br>Today's Topics:<br><br> 1. how to get relative humidity data? (Kishore Babu)<br> 2. plotting long variable names (Donald Van Dyke)<br>
<br><br>----------------------------------------------------------------------<br><br>Message: 1<br>Date: Sat, 10 Nov 2012 11:11:35 +0530<br>From: Kishore Babu <<a href="http://uk.mc1723.mail.yahoo.com/mc/compose?to=kishoreragi@gmail.com" target="_blank">kishoreragi@gmail.com</a>><br>
Subject: [gradsusr] how to get relative humidity data?<br>To: GrADS Users Forum <<a href="http://uk.mc1723.mail.yahoo.com/mc/compose?to=gradsusr@gradsusr.org" target="_blank">gradsusr@gradsusr.org</a>><br>Message-ID:<br>
<<a href="http://uk.mc1723.mail.yahoo.com/mc/compose?to=CAN4rXbRGMTgTEXR8qDfHG5QSKfO8GQHPRONYQgvVsRMA3BXNfQ@mail.gmail.com" target="_blank">CAN4rXbRGMTgTEXR8qDfHG5QSKfO8GQHPRONYQgvVsRMA3BXNfQ@mail.gmail.com</a>><br>
Content-Type: text/plain; charset="iso-8859-1"<br><br>Dear all,<br><br>I know that this not related to grads, but I do fell that I can get the<br>information I want here.<br><br>I need observational/satellite data of relative humidity from 1996-2006.<br>
Could anyone who has experience, please recommend me some online data<br>center to download the data.<br><br>Thank you for the help in advance,<br><br>Sincerely,<br><br>Kishore<br>-------------- next part --------------<br>
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<br>------------------------------<br><br>Message: 2<br>Date: Sat, 10 Nov 2012 02:10:39 -0500<br>From: Donald Van Dyke <<a href="http://uk.mc1723.mail.yahoo.com/mc/compose?to=don.vandyke@noaa.gov" target="_blank">don.vandyke@noaa.gov</a>><br>
Subject: [gradsusr] plotting long variable names<br>To: <a href="http://uk.mc1723.mail.yahoo.com/mc/compose?to=gradsusr@gradsusr.org" target="_blank">gradsusr@gradsusr.org</a><br>Message-ID: <<a href="http://uk.mc1723.mail.yahoo.com/mc/compose?to=509DFDEF.2020104@noaa.gov" target="_blank">509DFDEF.2020104@noaa.gov</a>><br>
Content-Type: text/plain; charset="iso-8859-1"<br><br>All,<br><br>I've run into some trouble trying to plot variables with very long names <br>from NCEP. I updated to the recent GrADS 2.0.2, wgrib2,
and g2ctl <br>releases with no further success. Specifically, I'm trying to plot <br>certain max variables from the hi-res NCEP NAM nest as well as some <br>other NCEP hi-res models (ARW and NMM). As an example, I've attached <br>
the control file that g2ctl produces from a NAM nest grib2 file. Note <br>some of the very long variable names such as MXUPHL5000_2000m. <br>Unfortunately, I'm interested in plotting some of those, and it doesn't <br>
work. If I run a simple script such as<br><br>'reinit'<br>'open namnest.ctl'<br>'set gxout shaded'<br>'d MXUPHL5000_2000m'<br>'printim test.png'<br><br>'quit'<br><br>I get an error that says<br>
<br>Syntax Error: Invalid Operand<br> 'mxuphl5000_2000m' not a variable or function name<br> Error ocurred at column 1<br>DISPLAY error: Invalid expression<br> Expression = mxuphl5000_2000m<br>No hardcopy metafile open<br>
GX package
terminated<br><br>Is there an easy solution to this? Ideally, I'd like to either see <br>GrADS be able to read these long variable names, or NCEP use shorter <br>names. I suppose it is possible to trick it into working by using <br>
wgrib2 to rename the variables I want to plot into something shorter <br>that GrADS can read and writing those to a new grib2 file, but that <br>seems like a lot of needless work and trickery. Am I missing something <br>
here? Thanks for any help anyone can give.<br><br>-Don<br>-------------- next part --------------<br>dset ^nam.t00z.conusnest.hiresf12.tm00.grib2<br>index ^nam.t00z.conusnest.hiresf12.tm00.grib2.idx<br>undef 9.999E+20<br>
title nam.t00z.conusnest.hiresf12.tm00.grib2<br>* produced by g2ctl v0.0.8.8<br>* command line options: nam.t00z.conusnest.hiresf12.tm00.grib2<br>* 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<br>dtype grib2<br>pdef 1473 1025 lccr 12.190000 -133.459 1 1 25.000000 25.000000 -95 5079.000000 5079.000000<br>
xdef 2191 linear -152.852997 0.0472378093784381<br>ydef 1063 linear 12.202469 0.0461727272727273<br>tdef 1 linear 12Z09nov2012 1mo<br>* PROFILE hPa<br>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<br>
options pascals<br>vars 302<br>no4LFTX180_0mb 0,108,18000,0 0,7,193 ** 180-0 mb above ground Best (4 layer) Lifted Index [K]<br>ABSVprs 42,100 0,2,10 ** (1000 850 750 700 500 400 250) Absolute Vorticity
[1/s]<br>ACPCPsfc 0,1,0 0,1,10,1 ** surface Convective Precipitation [kg/m^2]<br>ALBDOsfc 0,1,0 0,19,1 ** surface Albedo [%]<br>APCPsfc 0,1,0 0,1,8,1 ** surface Total Precipitation [kg/m^2]<br>BGRUNsfc 0,1,0 1,0,192,1 ** surface Baseflow-Groundwater Runoff [kg/m^2]<br>
BMIXLhy1 0,105,1 2,0,197 ** 1 hybrid level Blackadars Mixing Length Scale [m]<br>BRTMPtoa 0,8,0 0,4,4 ** top of atmosphere Brightness Temperature [K]<br>CAPEsfc 0,1,0 0,7,6 ** surface Convective Available Potential Energy [J/kg]<br>
CAPE180_0mb 0,108,18000,0 0,7,6 ** 180-0 mb above ground Convective Available Potential Energy [J/kg]<br>CAPE90_0mb 0,108,9000,0 0,7,6 ** 90-0 mb above ground Convective Available
Potential Energy [J/kg]<br>CAPE255_0mb 0,108,25500,0 0,7,6 ** 255-0 mb above ground Convective Available Potential Energy [J/kg]<br>CCONDsfc 0,1,0 2,0,199 ** surface Canopy Conductance [m/s]<br>CDsfc 0,1,0 0,2,196 ** surface Drag Coefficient [non-dim]<br>
CDCONclm 0,200,0 0,6,2 ** entire atmosphere (considered as a single layer) Convective Cloud Cover [%]<br>CFRZRsfc 0,1,0 0,1,193 ** surface Categorical Freezing Rain [-]<br>CICEprs 40,100 0,6,0 ** (1000 975 950 925 900.. 125 100 75 50 30) Cloud Ice [kg/m^2]<br>
CICEhy1 0,105,1 0,6,0 ** 1 hybrid level Cloud Ice [kg/m^2]<br>CICEPsfc 0,1,0 0,1,194 ** surface Categorical Ice Pellets [-]<br>CINsfc 0,1,0 0,7,7 ** surface Convective
Inhibition [J/kg]<br>CIN180_0mb 0,108,18000,0 0,7,7 ** 180-0 mb above ground Convective Inhibition [J/kg]<br>CIN90_0mb 0,108,9000,0 0,7,7 ** 90-0 mb above ground Convective Inhibition [J/kg]<br>CIN255_0mb 0,108,25500,0 0,7,7 ** 255-0 mb above ground Convective Inhibition [J/kg]<br>
CLWMRprs 40,100 0,1,22 ** (1000 975 950 925 900.. 125 100 75 50 30) Cloud Mixing Ratio [kg/kg]<br>CLWMRhy1 0,105,1 0,1,22 ** 1 hybrid level Cloud Mixing Ratio [kg/kg]<br>CNVHRclm 0,200,0 0,0,196,0 ** entire atmosphere (considered as a single layer) Deep Convective Heating Rate [K/s]<br>
CNWATsfc 0,1,0 2,0,196 ** surface Plant Canopy Surface Water [kg/m^2]<br>CPOFPsfc 0,1,0 1,1,193 ** surface Probability of Frozen Precipitation
[%]<br>CPRATsfc 0,1,0 0,1,196 ** surface Convective Precipitation Rate [kg/m^2/s]<br>CRAINsfc 0,1,0 0,1,192 ** surface Categorical Rain [-]<br>CSDSFsfc 0,1,0 0,4,196 ** surface Clear Sky Downward Solar Flux [W/m^2]<br>
CSNOWsfc 0,1,0 0,1,195 ** surface Categorical Snow [-]<br>CUEFIclm 0,200,0 0,6,194 ** entire atmosphere (considered as a single layer) Convective Cloud Efficiency [non-dim]<br>DLWRFavesfc 0,1,0 0,5,192,0 ** surface Downward Long-Wave Rad. Flux [W/m^2]<br>
DLWRFsfc 0,1,0 0,5,192 ** surface Downward Long-Wave Rad. Flux [W/m^2]<br>DPTprs 42,100 0,0,6 ** (1000 925 850 700 500 400 300) Dew Point Temperature [K]<br>DPT2m 0,103,2 0,0,6 ** 2 m above ground Dew Point Temperature
[K]<br>DPT30_0mb 0,108,3000,0 0,0,6 ** 30-0 mb above ground Dew Point Temperature [K]<br>DSWRFavesfc 0,1,0 0,4,192,0 ** surface Downward Short-Wave Radiation Flux [W/m^2]<br>DSWRFsfc 0,1,0 0,4,192 ** surface Downward Short-Wave Radiation Flux [W/m^2]<br>
DZDTprs 42,100 0,2,9 ** (1000 975 950 925 900.. 75 50 30 20 10) Vertical Velocity (Geometric) [m/s]<br>EVPsfc 0,1,0 0,1,6,1 ** surface Evaporation [kg/m^2]<br>FRICVsfc 0,1,0 0,2,197 ** surface Frictional Velocity [m/s]<br>
GFLUXavesfc 0,1,0 2,0,193,0 ** surface Ground Heat Flux [W/m^2]<br>GFLUXsfc 0,1,0 2,0,193 ** surface Ground Heat Flux [W/m^2]<br>GUSTsfc 0,1,0 0,2,22 ** surface Wind Speed (Gust) [m/s]<br>HCDChcll 0,234,0 0,6,5 ** high
cloud layer High Cloud Cover [%]<br>HGTsfc 0,1,0 0,3,5 ** surface Geopotential Height [gpm]<br>HGTprs 42,100 0,3,5 ** (1000 975 950 925 900.. 75 50 30 20 10) Geopotential Height [gpm]<br>HGThy1 0,105,1 0,3,5 ** 1 hybrid level Geopotential Height [gpm]<br>
HGTclb 0,2,0 0,3,5 ** cloud base Geopotential Height [gpm]<br>HGTtop0C 0,204,0 0,3,5 ** highest tropospheric freezing level Geopotential Height [gpm]<br>HGTceil 0,215,0 0,3,5 ** cloud ceiling Geopotential Height [gpm]<br>
HGTpbl 0,220,0 0,3,5 ** planetary boundary layer Geopotential Height [gpm]<br>HGTlwb0 0,245,0 0,3,5 ** lowest level of the wet bulb zero Geopotential Height [gpm]<br>HGTlblsw 0,253,0 0,3,5 ** lowest
bottom level of supercooled liquid water layer Geopotential Height [gpm]<br>HGThtlsw 0,254,0 0,3,5 ** highest top level of supercooled liquid water layer Geopotential Height [gpm]<br>HGTclt 0,3,0 0,3,5 ** cloud top Geopotential Height [gpm]<br>
HGT0C 0,4,0 0,3,5 ** 0C isotherm Geopotential Height [gpm]<br>HGTl5 0,5,0 0,3,5 ** level of adiabatic condensation from sfc Geopotential Height [gpm]<br>HGTmwl 0,6,0 0,3,5 ** max wind Geopotential Height [gpm]<br>
HINDEXsfc 0,1,0 2,4,2 ** surface Haines Index [Numeric]<br>HLCY3000_0m 0,103,3000,0 0,7,8 ** 3000-0 m above ground Storm Relative Helicity [m^2/s^2]<br>HLCY1000_0m 0,103,1000,0 0,7,8 ** 1000-0 m above ground Storm Relative Helicity
[m^2/s^2]<br>HPBLsfc 0,1,0 0,3,196 ** surface Planetary Boundary Layer Height [m]<br>ICECsfc 0,1,0 10,2,0 ** surface Ice Cover [Proportion]<br>LANDsfc 0,1,0 2,0,0 ** surface Land Cover (0=sea, 1=land) [Proportion]<br>
LCDClcll 0,214,0 0,6,3 ** low cloud layer Low Cloud Cover [%]<br>LFTXl100_100 0,100,50000,100000 0,7,192 ** 500-1000 mb Surface Lifted Index [K]<br>LHTFLavesfc 0,1,0 0,0,10,0 ** surface Latent Heat Net Flux [W/m^2]<br>
LHTFLsfc 0,1,0 0,0,10 ** surface Latent Heat Net Flux [W/m^2]<br>LRGHRclm 0,200,0 0,0,195,0 ** entire atmosphere (considered as a single layer) Large Scale Condensate Heating Rate [K/s]<br>LTNGsfc 0,1,0 0,17,192 ** surface Lightning
[non-dim]<br>LWHRclm 0,200,0 0,5,194 ** entire atmosphere (considered as a single layer) Long-Wave Radiative Heating Rate [K/s]<br>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]<br>
MAXREF1000m 0,103,1000 0,16,198,2 ** 1000 m above ground Hourly Maximum of Simulated Reflectivity at 1 km AGL [dB]<br>MAXRH2m 0,103,2 0,1,27 ** 2 m above ground Maximum Relative Humidity [%]<br>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]<br>
MAXUW10m 0,103,10 0,2,222,2 ** 10 m above ground U Component of Hourly Maximum 10m Wind Speed [m/s]<br>MAXVW10m 0,103,10 0,2,223,2 ** 10 m above
ground V Component of Hourly Maximum 10m Wind Speed [m/s]<br>MCDCmcll 0,224,0 0,6,4 ** middle cloud layer Medium Cloud Cover [%]<br>MCONV850mb 0,100,85000 0,1,197 ** 850 mb Horizontal Moisture Divergence [kg/kg/s]<br>
MCONV950mb 0,100,95000 0,1,197 ** 950 mb Horizontal Moisture Divergence [kg/kg/s]<br>MCONV30_0mb 0,108,3000,0 0,1,197 ** 30-0 mb above ground Horizontal Moisture Divergence [kg/kg/s]<br>MCONVclm 0,200,0 0,1,197 ** entire atmosphere (considered as a single layer) Horizontal Moisture Divergence [kg/kg/s]<br>
MINRH2m 0,103,2 0,1,198 ** 2 m above ground Minimum Relative Humidity [%]<br>MSLETmsl 0,101,0 0,3,192 ** mean sea level MSLP (Eta model reduction) [Pa]<br>MSTAV0_100cm 0,106,0,1 2,0,194 ** 0-1
m below ground Moisture Availability [%]<br>MXSALBsfc 0,1,0 0,19,192 ** surface Maximum Snow Albedo [%]<br>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]<br>
NCPCPsfc 0,1,0 0,1,9,1 ** surface Large-Scale Precipitation (non-convective) [kg/m^2]<br>PEVAPsfc 0,1,0 0,1,199,1 ** surface Potential Evaporation [kg/m^2]<br>PLI30_0mb 0,108,3000,0 0,7,0 ** 30-0 mb above ground Parcel Lifted Index (to 500 hPa) [K]<br>
PLPL255_0mb 0,108,25500,0 0,3,200 ** 255-0 mb above ground Pressure of level from which parcel was lifted [Pa]<br>POROSsfc 0,1,0 2,3,197 ** surface Soil Porosity [Proportion]<br>POT10m 0,103,10 0,0,2 ** 10 m above ground
Potential Temperature [K]<br>POT30_0mb 0,108,3000,0 0,0,2 ** 30-0 mb above ground Potential Temperature [K]<br>PRATEsfc 0,1,0 0,1,7 ** surface Precipitation Rate [kg/m^2/s]<br>PRESsfc 0,1,0 0,3,0 ** surface Pressure [Pa]<br>
PRES80m 0,103,80 0,3,0 ** 80 m above ground Pressure [Pa]<br>PREShy1 0,105,1 0,3,0 ** 1 hybrid level Pressure [Pa]<br>PRES30_0mb 0,108,3000,0 0,3,0 ** 30-0 mb above ground Pressure [Pa]<br>PRES60_30mb 0,108,6000,3000 0,3,0 ** 60-30 mb above ground Pressure [Pa]<br>
PRES90_60mb 0,108,9000,6000 0,3,0 ** 90-60 mb above ground Pressure [Pa]<br>PRES120_90mb 0,108,12000,9000 0,3,0 ** 120-90 mb above ground Pressure [Pa]<br>PRES150_120mb 0,108,15000,12000 0,3,0 ** 150-120
mb above ground Pressure [Pa]<br>PRES180_150mb 0,108,18000,15000 0,3,0 ** 180-150 mb above ground Pressure [Pa]<br>PRESclb 0,2,0 0,3,0 ** cloud base Pressure [Pa]<br>PRESgclb 0,206,0 0,3,0 ** grid scale cloud bottom level Pressure [Pa]<br>
PRESgclt 0,207,0 0,3,0 ** grid scale cloud top level Pressure [Pa]<br>PREScclb 0,242,0 0,3,0 ** convective cloud bottom level Pressure [Pa]<br>PREScclt 0,243,0 0,3,0 ** convective cloud top level Pressure [Pa]<br>
PRESscclb 0,248,0 0,3,0 ** shallow convective cloud bottom level Pressure [Pa]<br>PRESscclt 0,249,0 0,3,0 ** shallow convective cloud top level Pressure [Pa]<br>PRESdcclb 0,251,0 0,3,0 ** deep convective cloud bottom
level Pressure [Pa]<br>PRESdcclt 0,252,0 0,3,0 ** deep convective cloud top level Pressure [Pa]<br>PRESclt 0,3,0 0,3,0 ** cloud top Pressure [Pa]<br>PRESl5 0,5,0 0,3,0 ** level of adiabatic condensation from sfc Pressure [Pa]<br>
PRESmwl 0,6,0 0,3,0 ** max wind Pressure [Pa]<br>PREStrop 0,7,0 0,3,0 ** tropopause Pressure [Pa]<br>PRMSLmsl 0,101,0 0,3,1 ** mean sea level Pressure Reduced to MSL [Pa]<br>PWAT30_0mb 0,108,3000,0 0,1,3 ** 30-0 mb above ground Precipitable Water [kg/m^2]<br>
PWATclm 0,200,0 0,1,3 ** entire atmosphere (considered as a single layer) Precipitable Water [kg/m^2]<br>RCQsfc 0,1,0 2,0,204 ** surface Humidity parameter in canopy conductance
[Fraction]<br>RCSsfc 0,1,0 2,0,202 ** surface Solar parameter in canopy conductance [Fraction]<br>RCSOLsfc 0,1,0 2,0,205 ** surface Soil moisture parameter in canopy conductance [Fraction]<br>RCTsfc 0,1,0 2,0,203 ** surface Temperature parameter in canopy conductance [Fraction]<br>
REFCclm 0,200,0 0,16,196 ** entire atmosphere (considered as a single layer) Composite reflectivity [dB]<br>REFD1000m 0,103,1000 0,16,195 ** 1000 m above ground Reflectivity [dB]<br>REFD4000m 0,103,4000 0,16,195 ** 4000 m above ground Reflectivity [dB]<br>
REFDhy1 0,105,1 0,16,195 ** 1 hybrid level Reflectivity [dB]<br>RETOPclm 0,200,0 0,16,197 ** entire atmosphere (considered as a single layer) Echo Top
[m]<br>RHprs 42,100 0,1,1 ** (1000 975 950 925 900.. 75 50 30 20 10) Relative Humidity [%]<br>RH2m 0,103,2 0,1,1 ** 2 m above ground Relative Humidity [%]<br>RHhy1 0,105,1 0,1,1 ** 1 hybrid level Relative Humidity [%]<br>
RH30_0mb 0,108,3000,0 0,1,1 ** 30-0 mb above ground Relative Humidity [%]<br>RH60_30mb 0,108,6000,3000 0,1,1 ** 60-30 mb above ground Relative Humidity [%]<br>RH90_60mb 0,108,9000,6000 0,1,1 ** 90-60 mb above ground Relative Humidity [%]<br>
RH120_90mb 0,108,12000,9000 0,1,1 ** 120-90 mb above ground Relative Humidity [%]<br>RH150_120mb 0,108,15000,12000 0,1,1 ** 150-120 mb above ground Relative Humidity [%]<br>RH180_150mb 0,108,18000,15000 0,1,1 ** 180-150 mb above ground Relative Humidity
[%]<br>RH0C 0,4,0 0,1,1 ** 0C isotherm Relative Humidity [%]<br>RIMEprs 40,100 0,1,203 ** (1000 975 950 925 900.. 125 100 75 50 30) Rime Factor [non-dim]<br>RIMEhy1 0,105,1 0,1,203 ** 1 hybrid level Rime Factor [non-dim]<br>
RLYRSsfc 0,1,0 2,3,193 ** surface Number of Soil Layers in Root Zone [non-dim]<br>RSMINsfc 0,1,0 2,0,200 ** surface Minimal Stomatal Resistance [s/m]<br>RWMRprs 40,100 0,1,24 ** (1000 975 950 925 900.. 125 100 75 50 30) Rain Mixing Ratio [kg/kg]<br>
RWMRhy1 0,105,1 0,1,24 ** 1 hybrid level Rain Mixing Ratio [kg/kg]<br>SFCRsfc 0,1,0 2,0,1 ** surface Surface Roughness [m]<br>SFEXCsfc 0,1,0 2,0,195 ** surface Exchange Coefficient [(kg/m^3)(m/s)]<br>SHTFLavesfc
0,1,0 0,0,11,0 ** surface Sensible Heat Net Flux [W/m^2]<br>SHTFLsfc 0,1,0 0,0,11 ** surface Sensible Heat Net Flux [W/m^2]<br>SMDRYsfc 0,1,0 2,3,196 ** surface Direct Evaporation Cease (soil moisture) [Proportion]<br>
SMREFsfc 0,1,0 2,3,195 ** surface Transpiration Stress-onset (soil moisture) [Proportion]<br>SNFALBsfc 0,1,0 0,19,193 ** surface Snow-Free Albedo [%]<br>SNMRprs 40,100 0,1,25 ** (1000 975 950 925 900.. 125 100 75 50 30) Snow Mixing Ratio [kg/kg]<br>
SNMRhy1 0,105,1 0,1,25 ** 1 hybrid level Snow Mixing Ratio [kg/kg]<br>SNODsfc 0,1,0 0,1,11 ** surface Snow Depth [m]<br>SNOHFsfc 0,1,0 0,0,192,0 ** surface Snow Phase Change Heat Flux
[W/m^2]<br>SNOMsfc 0,1,0 0,1,16,1 ** surface Snow Melt [kg/m^2]<br>SNOWCsfc 0,1,0 0,1,201 ** surface Snow Cover [%]<br>SOILL0_10cm 0,106,0,0.1 2,3,192 ** 0-0.1 m below ground Liquid Volumetric Soil Moisture (non Frozen) [Proportion]<br>
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]<br>SOILL40_100cm 0,106,0.4,1 2,3,192 ** 0.4-1 m below ground Liquid Volumetric Soil Moisture (non Frozen) [Proportion]<br>
SOILL100_200cm 0,106,1,2 2,3,192 ** 1-2 m below ground Liquid Volumetric Soil Moisture (non Frozen) [Proportion]<br>SOILM0_200cm 0,106,0,2 2,0,3 ** 0-2 m below ground Soil Moisture Content [kg/m^2]<br>SOILW0_10cm 0,106,0,0.1 2,0,192 ** 0-0.1 m below ground Volumetric Soil Moisture
Content [Fraction]<br>SOILW10_40cm 0,106,0.1,0.4 2,0,192 ** 0.1-0.4 m below ground Volumetric Soil Moisture Content [Fraction]<br>SOILW40_100cm 0,106,0.4,1 2,0,192 ** 0.4-1 m below ground Volumetric Soil Moisture Content [Fraction]<br>
SOILW100_200cm 0,106,1,2 2,0,192 ** 1-2 m below ground Volumetric Soil Moisture Content [Fraction]<br>SOTYPsfc 0,1,0 2,3,0 ** surface Soil Type [-]<br>SPFHsfc 0,1,0 0,1,0 ** surface Specific Humidity [kg/kg]<br>
SPFHprs 42,100 0,1,0 ** (1000 975 950 925 900.. 75 50 30 20 10) Specific Humidity [kg/kg]<br>SPFH2m 0,103,2 0,1,0 ** 2 m above ground Specific Humidity [kg/kg]<br>SPFH10m 0,103,10 0,1,0 ** 10 m above ground Specific Humidity [kg/kg]<br>
SPFH80m 0,103,80 0,1,0 **
80 m above ground Specific Humidity [kg/kg]<br>SPFHhy1 0,105,1 0,1,0 ** 1 hybrid level Specific Humidity [kg/kg]<br>SPFH30_0mb 0,108,3000,0 0,1,0 ** 30-0 mb above ground Specific Humidity [kg/kg]<br>SPFH60_30mb 0,108,6000,3000 0,1,0 ** 60-30 mb above ground Specific Humidity [kg/kg]<br>
SPFH90_60mb 0,108,9000,6000 0,1,0 ** 90-60 mb above ground Specific Humidity [kg/kg]<br>SPFH120_90mb 0,108,12000,9000 0,1,0 ** 120-90 mb above ground Specific Humidity [kg/kg]<br>SPFH150_120mb 0,108,15000,12000 0,1,0 ** 150-120 mb above ground Specific Humidity [kg/kg]<br>
SPFH180_150mb 0,108,18000,15000 0,1,0 ** 180-150 mb above ground Specific Humidity [kg/kg]<br>SSRUNsfc 0,1,0 1,0,193,1 ** surface Storm Surface Runoff
[kg/m^2]<br>STRM250mb 0,100,25000 0,2,4 ** 250 mb Stream Function [m^2/s]<br>SWHRclm 0,200,0 0,4,197 ** entire atmosphere (considered as a single layer) Solar Radiative Heating Rate [K/s]<br>TCDCclm 0,200,0 0,6,1 ** entire atmosphere (considered as a single layer) Total Cloud Cover [%]<br>
TCLSWclm 0,200,0 0,1,209 ** entire atmosphere (considered as a single layer) Total column-integrated supercooled liquid water [kg/m^2]<br>TCOLCclm 0,200,0 0,6,198 ** entire atmosphere (considered as a single layer) Total Column-Integrated Condensate [kg/m^2]<br>
TCOLIclm 0,200,0 0,6,197 ** entire atmosphere (considered as a single layer) Total Column-Integrated Cloud Ice [kg/m^2]<br>TCOLMclm 0,200,0 0,1,210 ** entire atmosphere
(considered as a single layer) Total column-integrated melting ice [kg/m^2]<br>TCOLRclm 0,200,0 0,1,204 ** entire atmosphere (considered as a single layer) Total Column Integrated Rain [kg/m^2]<br>TCOLSclm 0,200,0 0,1,205 ** entire atmosphere (considered as a single layer) Total Column Integrated Snow [kg/m^2]<br>
TCOLWclm 0,200,0 0,6,196 ** entire atmosphere (considered as a single layer) Total Column-Integrated Cloud Water [kg/m^2]<br>TCONDhy1 0,105,1 0,6,195 ** 1 hybrid level Total Condensate [kg/kg]<br>TKEprs 40,100 0,19,11 ** (1000 975 950 925 900.. 125 100 75 50 30) Turbulent Kinetic Energy [J/kg]<br>
TKEhy1 0,105,1 0,19,11 ** 1 hybrid level Turbulent Kinetic Energy [J/kg]<br>TKEhy2 0,105,2 0,19,11 ** 2 hybrid level Turbulent
Kinetic Energy [J/kg]<br>TMAX2m 0,103,2 0,0,4 ** 2 m above ground Maximum Temperature [K]<br>TMIN2m 0,103,2 0,0,5 ** 2 m above ground Minimum Temperature [K]<br>TMPsfc 0,1,0 0,0,0 ** surface Temperature [K]<br>
TMPprs 42,100 0,0,0 ** (1000 975 950 925 900.. 75 50 30 20 10) Temperature [K]<br>TMP_914m 0,102,914 0,0,0 ** 914 m above mean sea level Temperature [K]<br>TMP_1524m 0,102,1524 0,0,0 ** 1524 m above mean sea level Temperature [K]<br>
TMP_1829m 0,102,1829 0,0,0 ** 1829 m above mean sea level Temperature [K]<br>TMP_2134m 0,102,2134 0,0,0 ** 2134 m above mean sea level Temperature [K]<br>TMP_2743m 0,102,2743 0,0,0 ** 2743 m above mean sea level Temperature
[K]<br>TMP_3658m 0,102,3658 0,0,0 ** 3658 m above mean sea level Temperature [K]<br>TMP_305m 0,102,305 0,0,0 ** 305 m above mean sea level Temperature [K]<br>TMP_457m 0,102,457 0,0,0 ** 457 m above mean sea level Temperature [K]<br>
TMP_610m 0,102,610 0,0,0 ** 610 m above mean sea level Temperature [K]<br>TMP_4572m 0,102,4572 0,0,0 ** 4572 m above mean sea level Temperature [K]<br>TMP2m 0,103,2 0,0,0 ** 2 m above ground Temperature [K]<br>
TMP80m 0,103,80 0,0,0 ** 80 m above ground Temperature [K]<br>TMPhy1 0,105,1 0,0,0 ** 1 hybrid level Temperature [K]<br>TMP30_0mb 0,108,3000,0 0,0,0 ** 30-0 mb above ground Temperature [K]<br>TMP60_30mb
0,108,6000,3000 0,0,0 ** 60-30 mb above ground Temperature [K]<br>TMP90_60mb 0,108,9000,6000 0,0,0 ** 90-60 mb above ground Temperature [K]<br>TMP120_90mb 0,108,12000,9000 0,0,0 ** 120-90 mb above ground Temperature [K]<br>
TMP150_120mb 0,108,15000,12000 0,0,0 ** 150-120 mb above ground Temperature [K]<br>TMP180_150mb 0,108,18000,15000 0,0,0 ** 180-150 mb above ground Temperature [K]<br>TMPclt 0,3,0 0,0,0 ** cloud top Temperature [K]<br>
TMPtrop 0,7,0 0,0,0 ** tropopause Temperature [K]<br>TSOIL0_10cm 0,106,0,0.1 2,0,2 ** 0-0.1 m below ground Soil Temperature Validation to deprecate [K]<br>TSOIL10_40cm 0,106,0.1,0.4 2,0,2 ** 0.1-0.4 m below ground Soil Temperature Validation to deprecate
[K]<br>TSOIL40_100cm 0,106,0.4,1 2,0,2 ** 0.4-1 m below ground Soil Temperature Validation to deprecate [K]<br>TSOIL100_200cm 0,106,1,2 2,0,2 ** 1-2 m below ground Soil Temperature Validation to deprecate [K]<br>
TSOIL300cm 0,106,3 2,0,2 ** 3 m underground Soil Temperature Validation to deprecate [K]<br>UFLXsfc 0,1,0 0,2,17 ** surface Momentum Flux, U-Component [N/m^2]<br>UGRDprs 42,100 0,2,2 ** (1000 975 950 925 900.. 75 50 30 20 10) U-Component of Wind [m/s]<br>
UGRD_914m 0,102,914 0,2,2 ** 914 m above mean sea level U-Component of Wind [m/s]<br>UGRD_1524m 0,102,1524 0,2,2 ** 1524 m above mean sea level U-Component of Wind [m/s]<br>UGRD_1829m 0,102,1829 0,2,2 ** 1829 m above mean sea
level U-Component of Wind [m/s]<br>UGRD_2134m 0,102,2134 0,2,2 ** 2134 m above mean sea level U-Component of Wind [m/s]<br>UGRD_2743m 0,102,2743 0,2,2 ** 2743 m above mean sea level U-Component of Wind [m/s]<br>
UGRD_3658m 0,102,3658 0,2,2 ** 3658 m above mean sea level U-Component of Wind [m/s]<br>UGRD_305m 0,102,305 0,2,2 ** 305 m above mean sea level U-Component of Wind [m/s]<br>UGRD_457m 0,102,457 0,2,2 ** 457 m above mean sea level U-Component of Wind [m/s]<br>
UGRD_610m 0,102,610 0,2,2 ** 610 m above mean sea level U-Component of Wind [m/s]<br>UGRD_4572m 0,102,4572 0,2,2 ** 4572 m above mean sea level U-Component of Wind [m/s]<br>UGRD10m 0,103,10 0,2,2 ** 10 m above ground
U-Component of Wind [m/s]<br>UGRD80m 0,103,80 0,2,2 ** 80 m above ground U-Component of Wind [m/s]<br>UGRDhy1 0,105,1 0,2,2 ** 1 hybrid level U-Component of Wind [m/s]<br>UGRDhy2 0,105,2 0,2,2 ** 2 hybrid level U-Component of Wind [m/s]<br>
UGRD30_0mb 0,108,3000,0 0,2,2 ** 30-0 mb above ground U-Component of Wind [m/s]<br>UGRD60_30mb 0,108,6000,3000 0,2,2 ** 60-30 mb above ground U-Component of Wind [m/s]<br>UGRD90_60mb 0,108,9000,6000 0,2,2 ** 90-60 mb above ground U-Component of Wind [m/s]<br>
UGRD120_90mb 0,108,12000,9000 0,2,2 ** 120-90 mb above ground U-Component of Wind [m/s]<br>UGRD150_120mb 0,108,15000,12000 0,2,2 ** 150-120 mb above ground U-Component of Wind [m/s]<br>UGRD180_150mb 0,108,18000,15000 0,2,2 **
180-150 mb above ground U-Component of Wind [m/s]<br>UGRDpbl 0,220,0 0,2,2 ** planetary boundary layer U-Component of Wind [m/s]<br>UGRDmwl 0,6,0 0,2,2 ** max wind U-Component of Wind [m/s]<br>UGRDtrop 0,7,0 0,2,2 ** tropopause U-Component of Wind [m/s]<br>
ULWRFavesfc 0,1,0 0,5,193,0 ** surface Upward Long-Wave Rad. Flux [W/m^2]<br>ULWRFavetoa 0,8,0 0,5,193,0 ** top of atmosphere Upward Long-Wave Rad. Flux [W/m^2]<br>ULWRFsfc 0,1,0 0,5,193 ** surface Upward Long-Wave Rad. Flux [W/m^2]<br>
ULWRFtoa 0,8,0 0,5,193 ** top of atmosphere Upward Long-Wave Rad. Flux [W/m^2]<br>UPHL5000_2000m 0,103,5000,2000 0,7,197 ** 5000-2000 m above ground Updraft Helicity [m^2/s^2]<br>USTM6000_0m 0,103,6000,0 0,2,194 ** 6000-0 m above
ground U-Component Storm Motion [m/s]<br>USWRFavesfc 0,1,0 0,4,193,0 ** surface Upward Short-Wave Radiation Flux [W/m^2]<br>USWRFtoa 0,8,0 0,4,193,0 ** top of atmosphere Upward Short-Wave Radiation Flux [W/m^2]<br>
USWRFsfc 0,1,0 0,4,193 ** surface Upward Short-Wave Radiation Flux [W/m^2]<br>VEGsfc 0,1,0 2,0,4 ** surface Vegetation [%]<br>VFLXsfc 0,1,0 0,2,18 ** surface Momentum Flux, V-Component [N/m^2]<br>VGRDprs 42,100 0,2,3 ** (1000 975 950 925 900.. 75 50 30 20 10) V-Component of Wind [m/s]<br>
VGRD_914m 0,102,914 0,2,3 ** 914 m above mean sea level V-Component of Wind [m/s]<br>VGRD_1524m 0,102,1524 0,2,3 ** 1524 m above mean sea level V-Component of Wind
[m/s]<br>VGRD_1829m 0,102,1829 0,2,3 ** 1829 m above mean sea level V-Component of Wind [m/s]<br>VGRD_2134m 0,102,2134 0,2,3 ** 2134 m above mean sea level V-Component of Wind [m/s]<br>VGRD_2743m 0,102,2743 0,2,3 ** 2743 m above mean sea level V-Component of Wind [m/s]<br>
VGRD_3658m 0,102,3658 0,2,3 ** 3658 m above mean sea level V-Component of Wind [m/s]<br>VGRD_305m 0,102,305 0,2,3 ** 305 m above mean sea level V-Component of Wind [m/s]<br>VGRD_457m 0,102,457 0,2,3 ** 457 m above mean sea level V-Component of Wind [m/s]<br>
VGRD_610m 0,102,610 0,2,3 ** 610 m above mean sea level V-Component of Wind [m/s]<br>VGRD_4572m 0,102,4572 0,2,3 ** 4572 m above mean sea level V-Component of Wind
[m/s]<br>VGRD10m 0,103,10 0,2,3 ** 10 m above ground V-Component of Wind [m/s]<br>VGRD80m 0,103,80 0,2,3 ** 80 m above ground V-Component of Wind [m/s]<br>VGRDhy1 0,105,1 0,2,3 ** 1 hybrid level V-Component of Wind [m/s]<br>
VGRDhy2 0,105,2 0,2,3 ** 2 hybrid level V-Component of Wind [m/s]<br>VGRD30_0mb 0,108,3000,0 0,2,3 ** 30-0 mb above ground V-Component of Wind [m/s]<br>VGRD60_30mb 0,108,6000,3000 0,2,3 ** 60-30 mb above ground V-Component of Wind [m/s]<br>
VGRD90_60mb 0,108,9000,6000 0,2,3 ** 90-60 mb above ground V-Component of Wind [m/s]<br>VGRD120_90mb 0,108,12000,9000 0,2,3 ** 120-90 mb above ground V-Component of Wind [m/s]<br>VGRD150_120mb 0,108,15000,12000 0,2,3 ** 150-120 mb above ground
V-Component of Wind [m/s]<br>VGRD180_150mb 0,108,18000,15000 0,2,3 ** 180-150 mb above ground V-Component of Wind [m/s]<br>VGRDpbl 0,220,0 0,2,3 ** planetary boundary layer V-Component of Wind [m/s]<br>VGRDmwl 0,6,0 0,2,3 ** max wind V-Component of Wind [m/s]<br>
VGRDtrop 0,7,0 0,2,3 ** tropopause V-Component of Wind [m/s]<br>VGTYPsfc 0,1,0 2,0,198 ** surface Vegetation Type [Integer(0-13)]<br>VISsfc 0,1,0 0,19,0 ** surface Visibility [m]<br>VRATEpbl 0,220,0 0,2,224 ** planetary boundary layer Ventilation Rate [m^2/s]<br>
VSTM6000_0m 0,103,6000,0 0,2,195 ** 6000-0 m above ground V-Component Storm Motion [m/s]<br>VVELprs 42,100 0,2,8 ** (1000 975 950 925 900.. 75 50 30 20 10) Vertical
Velocity (Pressure) [Pa/s]<br>VVELhy1 0,105,1 0,2,8 ** 1 hybrid level Vertical Velocity (Pressure) [Pa/s]<br>VVEL30_0mb 0,108,3000,0 0,2,8 ** 30-0 mb above ground Vertical Velocity (Pressure) [Pa/s]<br>VVEL90_60mb 0,108,9000,6000 0,2,8 ** 90-60 mb above ground Vertical Velocity (Pressure) [Pa/s]<br>
VVEL180_150mb 0,108,18000,15000 0,2,8 ** 180-150 mb above ground Vertical Velocity (Pressure) [Pa/s]<br>VWSHtrop 0,7,0 0,2,192 ** tropopause Vertical Speed Shear [1/s]<br>WEASDaccsfc 0,1,0 0,1,13,1 ** surface Water Equivalent of Accumulated Snow Depth [kg/m^2]<br>
WEASDsfc 0,1,0 0,1,13 ** surface Water Equivalent of Accumulated Snow Depth [kg/m^2]<br>WILTsfc 0,1,0 2,0,201 ** surface Wilting Point
[Fraction]<br>WTMPsfc 0,1,0 10,3,0 ** surface Water Temperature [K]<br>ENDVARS<br><br>------------------------------<br><br>_______________________________________________<br>gradsusr mailing list<br><a href="http://uk.mc1723.mail.yahoo.com/mc/compose?to=gradsusr@gradsusr.org" target="_blank">gradsusr@gradsusr.org</a><br>
<a href="http://gradsusr.org/mailman/listinfo/gradsusr" target="_blank">http://gradsusr.org/mailman/listinfo/gradsusr</a><br><br><br>End of gradsusr Digest, Vol 33, Issue 32<br>****************************************<br>
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