dset ^narr.t09z.awip32.merged.grb2
index ^narr.t09z.awip32.merged.grb2.idx
undef 9.999E+20
title narr.t09z.awip32.merged.grb2
*  produced by g2ctl v0.0.4o
* griddef=1:0:(349 x 277):grid_template=30: Lambert Conformal: (349 x 277) input WE:SN output WE:SN res 8 Lat1 1.000000 Lon1 214.500000 LoV 253.000000 LatD 50.000000 Latin1 50.000000 Latin2 50.000000 LatSP 0.000000 LonSP 0.000000 North Pole (349 x 27
dtype grib2
pdef 349 277 lccr 1.000000 214.500000 1 1 50.000000 50.000000 253.000000 32463.000000 32463.000000
xdef 708 linear 148.640594 0.295163136593552
ydef 287 linear 0.897559 0.295118181818182
tdef 2 linear 09Z28oct2009 3hr
* PROFILE hPa
zdef 29 levels 100000 97500 95000 92500 90000 87500 85000 82500 80000 77500 75000 72500 70000 65000 60000 55000 50000 45000 40000 35000 30000 27500 25000 22500 20000 17500 15000 12500 10000
options pascals
vars 185
no4LFTX180_0mb  0,108,18000,0   0,7,193 ** 180-0 mb above ground Best (4 layer) Lifted Index [K]
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]
APCPNsfc   0,1,0   0,1,223,1 ** surface Total precipitation (nearest grid point) [kg/m2]
BGRUNsfc   0,1,0   1,0,192,1 ** surface Baseflow-Groundwater Runoff [kg/m^2]
BMIXLhlev1   0,105,1   2,0,197 ** 1 hybrid level Blackadars Mixing Length Scale [m]
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]
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   0,6,2,0 ** entire atmosphere (considered as a single layer) Convective Cloud Cover [%]
CDLYRclm   0,200,0   0,6,192,0 ** entire atmosphere (considered as a single layer) Non-Convective Cloud Cover [%]
CFRZRsfc   0,1,0   0,1,193 ** surface Categorical Freezing Rain (yes=1; no=0) [non-dim]
CICEPsfc   0,1,0   0,1,194 ** surface Categorical Ice Pellets (yes=1; no=0) [non-dim]
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]
CLWMRprs    29,100  0,1,22 ** (1000 975 950 925 900.. 200 175 150 125 100) Cloud Mixing Ratio [kg/kg]
CNWATsfc   0,1,0   2,0,196 ** surface Plant Canopy Surface Water [kg/m^2]
CRAINsfc   0,1,0   0,1,192 ** surface Categorical Rain (yes=1; no=0) [non-dim]
CSNOWsfc   0,1,0   0,1,195 ** surface Categorical Snow (yes=1; no=0) [non-dim]
DLWRFsfc   0,1,0   0,5,192,0 ** surface Downward Long-Wave Rad. Flux [W/m^2]
DPT2m   0,103,2   0,0,6 ** 2 m above ground Dew Point Temperature [K]
DSWRFsfc   0,1,0   0,4,192,0 ** surface Downward Short-Wave Rad. Flux [W/m^2]
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]
GFLUXsfc   0,1,0   2,0,193,0 ** surface Ground Heat Flux [W/m^2]
HCDChcll   0,234,0   0,6,5 ** high cloud layer High Cloud Cover [%]
HGTprs    29,100  0,3,5 ** (1000 975 950 925 900.. 200 175 150 125 100) Geopotential Height [gpm]
HGThlev1   0,105,1   0,3,5 ** 1 hybrid level Geopotential Height [gpm]
HGTclb   0,2,0   0,3,5 ** cloud base 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]
HGTmwl   0,6,0   0,3,5 ** max wind Geopotential Height [gpm]
HGTtrop   0,7,0   0,3,5 ** tropopause Geopotential Height [gpm]
HLCY3000_0m  0,103,3000,0   0,7,8 ** 3000 m above ground - 0 m above ground Storm Relative Helicity [m^2/s^2]
HPBLsfc   0,1,0   0,3,196 ** surface Planetary Boundary Layer Height [m]
ICMRprs    29,100  0,1,23 ** (1000 975 950 925 900.. 200 175 150 125 100) Ice Water Mixing Ratio [kg/kg]
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]
LHTFLsfc   0,1,0   0,0,10,0 ** surface Latent Heat Net Flux [W/m^2]
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]
MCONVhlev1   0,105,1   0,1,197 ** 1 hybrid level 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]
MCONV60_30mb  0,108,6000,3000   0,1,197 ** 60-30 mb above ground Horizontal Moisture Divergence [kg/kg/s]
MCONV90_60mb  0,108,9000,6000   0,1,197 ** 90-60 mb above ground Horizontal Moisture Divergence [kg/kg/s]
MCONV120_90mb  0,108,12000,9000   0,1,197 ** 120-90 mb above ground Horizontal Moisture Divergence [kg/kg/s]
MCONV150_120mb  0,108,15000,12000   0,1,197 ** 150-120 mb above ground Horizontal Moisture Divergence [kg/kg/s]
MCONV180_150mb  0,108,18000,15000   0,1,197 ** 180-150 mb above ground Horizontal Moisture Divergence [kg/kg/s]
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 [%]
PEVAPsfc   0,1,0   0,1,199,1 ** surface Potential Evaporation [kg/m^2]
POTsfc   0,1,0   0,0,2 ** surface Potential Temperature [K]
POT10m   0,103,10   0,0,2 ** 10 m above ground Potential Temperature [K]
POT30m   0,103,30   0,0,2 ** 30 m above ground Potential Temperature [K]
POThlev1   0,105,1   0,0,2 ** 1 hybrid level 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]
PRES2m   0,103,2   0,3,0 ** 2 m above ground Pressure [Pa]
PRES10m   0,103,10   0,3,0 ** 10 m above ground Pressure [Pa]
PRES30m   0,103,30   0,3,0 ** 30 m above ground Pressure [Pa]
PREShlev1   0,105,1   0,3,0 ** 1 hybrid level Pressure [Pa]
PRESclb   0,2,0   0,3,0 ** cloud base 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]
PRESNsfc   0,1,0   0,3,212 ** surface Pressure (nearest grid point) [Pa]
PRMSLmsl   0,101,0   0,3,1 ** mean sea level Pressure Reduced to MSL [Pa]
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]
RH2m   0,103,2   0,1,1 ** 2 m above ground Relative Humidity [%]
RHhlev1   0,105,1   0,1,1 ** 1 hybrid level Relative Humidity [%]
RH0C   0,4,0   0,1,1 ** 0C isotherm Relative Humidity [%]
SFEXCsfc   0,1,0   2,0,195 ** surface Exchange Coefficient [(kg/m^3)(m/s)]
SHTFLsfc   0,1,0   0,0,11,0 ** surface Sensible Heat Net Flux [W/m^2]
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]
SPFHprs    29,100  0,1,0 ** (1000 975 950 925 900.. 200 175 150 125 100) 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]
SPFH30m   0,103,30   0,1,0 ** 30 m above ground Specific Humidity [kg/kg]
SPFHhlev1   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]
TCDCclm   0,200,0   0,6,1 ** entire atmosphere (considered as a single layer) Total Cloud Cover [%]
TKEprs    15,100  0,19,11 ** (1000 975 950 925 900.. 750 725 700 650 600) Turbulent Kinetic Energy [J/kg]
TKEhlev1   0,105,1   0,19,11 ** 1 hybrid level Turbulent Kinetic Energy [J/kg]
TMPsfc   0,1,0   0,0,0 ** surface Temperature [K]
TMPprs    29,100  0,0,0 ** (1000 975 950 925 900.. 200 175 150 125 100) Temperature [K]
TMP2m   0,103,2   0,0,0 ** 2 m above ground Temperature [K]
TMP10m   0,103,10   0,0,0 ** 10 m above ground Temperature [K]
TMP30m   0,103,30   0,0,0 ** 30 m above ground Temperature [K]
TMPhlev1   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 [K]
TSOIL10_40cm  0,106,0.1,0.4   2,0,2 ** 0.1-0.4 m below ground Soil Temperature [K]
TSOIL40_100cm  0,106,0.4,1   2,0,2 ** 0.4-1 m below ground Soil Temperature [K]
TSOIL100_200cm  0,106,1,2   2,0,2 ** 1-2 m below ground Soil Temperature [K]
TSOILl106   0,106,8   2,0,2 ** 8 m underground Soil Temperature [K]
UGRDprs    29,100  0,2,2 ** (1000 975 950 925 900.. 200 175 150 125 100) U-Component of Wind [m/s]
UGRD10m   0,103,10   0,2,2 ** 10 m above ground U-Component of Wind [m/s]
UGRD30m   0,103,30   0,2,2 ** 30 m above ground U-Component of Wind [m/s]
UGRDhlev1   0,105,1   0,2,2 ** 1 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]
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]
ULWRFsfc   0,1,0   0,5,193,0 ** surface Upward Long-Wave Rad. Flux [W/m^2]
ULWRFtoa   0,8,0   0,5,193,0 ** top of atmosphere Upward Long-Wave Rad. Flux [W/m^2]
USTM6000_0m  0,103,6000,0   0,2,194 ** 6000 m above ground - 0 m above ground U-Component Storm Motion [m/s]
USWRFsfc   0,1,0   0,4,193,0 ** surface Upward Short-Wave Rad. Flux [W/m^2]
USWRFtoa   0,8,0   0,4,193,0 ** top of atmosphere Upward Short-Wave Rad. Flux [W/m^2]
VEGsfc   0,1,0   2,0,4 ** surface Vegetation [%]
VGRDprs    29,100  0,2,3 ** (1000 975 950 925 900.. 200 175 150 125 100) V-Component of Wind [m/s]
VGRD10m   0,103,10   0,2,3 ** 10 m above ground V-Component of Wind [m/s]
VGRD30m   0,103,30   0,2,3 ** 30 m above ground V-Component of Wind [m/s]
VGRDhlev1   0,105,1   0,2,3 ** 1 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]
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]
VISsfc   0,1,0   0,19,0 ** surface Visibility [m]
VSTM6000_0m  0,103,6000,0   0,2,195 ** 6000 m above ground - 0 m above ground V-Component Storm Motion [m/s]
VVELprs    29,100  0,2,8 ** (1000 975 950 925 900.. 200 175 150 125 100) Vertical Velocity (Pressure) [Pa/s]
VVELhlev1   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]
VVEL60_30mb  0,108,6000,3000   0,2,8 ** 60-30 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]
VVEL120_90mb  0,108,12000,9000   0,2,8 ** 120-90 mb above ground Vertical Velocity (Pressure) [Pa/s]
VVEL150_120mb  0,108,15000,12000   0,2,8 ** 150-120 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 sheer [1/s]
WCCONVl100_100  0,100,0,70000   2,0,223,1 ** 0-700 mb Water Condensate Flux Convergance (Vertical Int) [kg/m2]
WCCONVclm   0,200,0   2,0,223,1 ** entire atmosphere (considered as a single layer) Water Condensate Flux Convergance (Vertical Int) [kg/m2]
WCINCl100_100  0,100,0,70000   2,0,221,1 ** 0-700 mb Water condensate added by precip assimilation [kg/m2]
WCINCclm   0,200,0   2,0,221,1 ** entire atmosphere (considered as a single layer) Water condensate added by precip assimilation [kg/m2]
WCUFLXl100_100  0,100,0,70000   2,0,226,1 ** 0-700 mb Water Condensate Zonal Flux (Vertical Int) [kg/m2]
WCUFLXclm   0,200,0   2,0,226,1 ** entire atmosphere (considered as a single layer) Water Condensate Zonal Flux (Vertical Int) [kg/m2]
WCVFLXl100_100  0,100,0,70000   2,0,227,1 ** 0-700 mb Water Condensate Meridional Flux (Vertical Int) [kg/m2]
WCVFLXclm   0,200,0   2,0,227,1 ** entire atmosphere (considered as a single layer) Water Condensate Meridional Flux (Vertical Int) [kg/m2]
WEASDsfc   0,1,0   0,1,13 ** surface Water Equivalent of Accumulated Snow Depth [kg/m^2]
WVCONVl100_100  0,100,0,70000   2,0,222,1 ** 0-700 mb Water Vapor Flux Convergance (Vertical Int) [kg/m2]
WVCONVclm   0,200,0   2,0,222,1 ** entire atmosphere (considered as a single layer) Water Vapor Flux Convergance (Vertical Int) [kg/m2]
WVINCl100_100  0,100,0,70000   2,0,220,1 ** 0-700 mb Water vapor added by precip assimilation [kg/m2]
WVINCclm   0,200,0   2,0,220,1 ** entire atmosphere (considered as a single layer) Water vapor added by precip assimilation [kg/m2]
WVUFLXl100_100  0,100,0,70000   2,0,224,1 ** 0-700 mb Water Vapor Zonal Flux (Vertical Int) [kg/m2]
WVUFLXclm   0,200,0   2,0,224,1 ** entire atmosphere (considered as a single layer) Water Vapor Zonal Flux (Vertical Int) [kg/m2]
WVVFLXl100_100  0,100,0,70000   2,0,225,1 ** 0-700 mb Water Vapor Meridional Flux (Vertical Int) [kg/m2]
WVVFLXclm   0,200,0   2,0,225,1 ** entire atmosphere (considered as a single layer) Water Vapor Meridional Flux (Vertical Int) [kg/m2]
ENDVARS