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M U?M N |lxM , M  ,M $,98K @strcpyA( L| N |`!aH5`,@A0<b}?*8!N b@,< `8!}N < 8!}N @8 H8 H`* `@PapvH`8!}N "A4frexp!aTee~(8`L 8`N @ finite!a%f)%ckpds=%d,%d,%d:%d m above MSL%d m above gndvalid %d-%d%s:Max. temp. [K]Min. temp. [K]Visibility [m]Snow depth [m]Soil temp. [K]Vegetation [%]Snow cover [%]Snow temp. [K]Max. temp. [K]Min. temp. [K]Visibility [m]Snow depth [m]Soil temp. [K]Vegetation [%]Latitude [deg]Snow cover [%]Snow temp. [K]Albedo (0 - 1)Oxygen -Mol/kgWave Roughnessmissing_pointswrtieee_headerNCEP Operations PDS10(1..%d)= GDS10(1..%d)=convect-cld botconvect-cld topsigma %.2f-%.2f%d mb above gnd%d cm above gndWater temp. [K]Sweat index [K]Water temp. [K]Runoff [kg/m^2]Sweat index [K]Longitude [deg]Budget values -HCO3 - - Mol/kgCO3 -- - Mol/kg%smon (co)var%s%2x %2x %2x %2x Gnomonic grid memory problems %.5f (ETA level)Lapse rate [K/m]Wind speed [m/s]Salinity [kg/kg]Density [kg/m^3]Lapse rate [K/m]Wind speed [m/s]Salinity [kg/kg]Density [kg/m^3]Lake cover (0-1)Divergence s**-1Land/sea mask (0Budget values+ -Divergence s**-1Land/sea mask (0Budget values+ -Divergence s**-1Divergence s**-1Divergence s**-1Land/sea mask (0Runoff (total) m183 +- 7 GHz - K183 +- 3 GHz - K183 +- 1 GHz - Kens %d/%d/%d/%d:prob(%f<%s<%f)%cGDS_prt_thin_lonsetup_user_tablerec %ld:%ld:date bitmap: %d undeferror writing %s convect-cld layer%d-%d m above msl%d-%d m above gnd%.3f-%.3f (sigma)Virtual temp. [K]Temp. anomaly [K]Ice thickness [m]Long wave [W/m^2]Virtual temp. [K]Temp. anomaly [K]Ice thickness [m]Long wave [W/m^2]Snow albedo (0-1)Forecast albedo -Forecast albedo -uu - u~u~ m s**-2vv - v~v~ m s**-2Forecast albedo -SSM/T1 - ch 1 - KSSM/T1 - ch 2 - KSSM/T1 - ch 3 - KSSM/T1 - ch 4 - KSSM/T1 - ch 5 - KSSM/T1 - ch 6 - KSSM/T1 - ch 7 - KCO2 (aq) - Mol/kgWhitecap coveragePhysical Wave age%sECMWF stream?%sargument: %s ???? not enough memory ran out of memory %d-%d mb above gndu of current [m/s]v of current [m/s]Cloud Ice [kg/m^2]Snow melt [kg/m^2]Short wave [W/m^2]u of current [m/s]v of current [m/s]Cloud Ice [kg/m^2]Snow melt [kg/m^2]Short wave [W/m^2]Atmospheric tide -U-velocity m s**-1V-velocity m s**-1Skin Temperature KU-velocity m s**-1V-velocity m s**-1Skin Temperature KCloud fraction 0-1Mean wave period sOcean salinity psuObserved SST deg CU-velocity m s**-1V-velocity m s**-1Skin Temperature KU-velocity m s**-1V-velocity m s**-1U-velocity m s**-1V-velocity m s**-1PDS_date: problem clim? p1=%d? %d%s?:Potential temp. [K]Dew point temp. [K]Vapor pressure [Pa]Ice divergence [/s]Cloud water [kg/kg]Lightning [non-dim]Potential temp. [K]Dew point temp. [K]Vapor pressure [Pa]Ice divergence [/s]Sea ice cover (0-1)Snow density kg**-3Surface pressure PaTop net radiation -Relative humidity %Surface roughness mCloud cover (0 - 1)Atmospheric tide+ -Surface pressure PaRelative humidity %Surface roughness mCloud cover (0 - 1)Richardson number -u*v product m s**-2u*u product m s**-2v*v product m s**-2Atmospheric tide+ -Surface pressure PaSurface roughness mSurface pressure Pa%s-res_ens_control NCEP/NCAR Reanalysisbndary-layer cld botbndary-layer cld top%d m below sea levelclim (diurnal) %d%s:Geometric height [m]Total ozone [Dobson]Wind direction [deg]Evaporation [kg/m^2]Accum. snow [kg/m^2]Cloud water [kg/m^2]u of ice drift [m/s]v of ice drift [m/s]Graupel mixing ratioTotal ozone [kg/m^2]Geometric height [m]Wind direction [deg]Evaporation [kg/m^2]Accum. snow [kg/m^2]Cloud water [kg/m^2]u of ice drift [m/s]v of ice drift [m/s]Image data [integer]Std dev of temp. [K]Total soil wetness m%2.2d%2.2d%2.2d%2.2d%4.4d%2.2d%2.2d%2.2dbad input from stdin Std dev of height [m]Pressure anomaly [Pa]Vertical u shear [/s]Vertical v shear [/s]Relative humidity [%]Mixed layer depth [m]Total cloud cover [%]Surface roughness [m]Water runoff [kg/m^2]Ice growth rate [m/s]Momentum flux [N/m^2]Transpiration [W/m^2]Std dev of height [m]Pressure anomaly [Pa]Vertical u shear [/s]Vertical v shear [/s]Relative humidity [%]Mixed layer depth [m]Total cloud cover [%]Surface roughness [m]Ice growth rate [m/s]U wind stress [N/m^2]V wind stress [N/m^2]Momentum flux [N/m^2]2 metre temperature KTotal precipitation m2 metre temperature KLn surface pressure -2 metre temperature KLand/sea mask (0 - 1)Runoff kg m**-2 s**-1Total precipitation mTotal soil moisture mTotal precipitation m2 metre temperature KSwell direction widthSwell frequency width Harmonic (spectral) bndary-layer cld layer%.2f-%.2f (ETA levels)Geopotential [m^2/s^2]Speed of current [m/s]Wind mixing energy [J]Virtual pot. temp. [K]Geopotential [m^2/s^2]Speed of current [m/s]Wind mixing energy [J]Covar. u and T [K*m/s]Covar. v and T [K*m/s]Log surface pressure -Soil wetness level 4 mLog surface pressure -Total precipitation? mSoil wetness level 4 mSoil wetness level 1 mSoil wetness level 2 mSoil wetness level 3 mCovar Sp.Hum & Temp. KSoil wetness level 4 mSoil wetness level 1 mSoil wetness level 2 mSoil wetness level 3 mOcean depth - mean - mens_perturbation=%c%d missing GRIB record(s) ave of fcst:%d to %d%s:acc of fcst:%d to %d%s:Stream function [m^2/s]Absolute vorticity [/s]Relative vorticity [/s]Saturation deficit [Pa]Friction velocity [m/s]Stream function [m^2/s]Absolute vorticity [/s]Relative vorticity [/s]Saturation deficit [Pa]RH-type cloud cover [%]Friction velocity [m/s]Potential Temperature KRESERVED FOR METVIEW. -RESERVED FOR METVIEW. -RESERVED FOR METVIEW. -RESERVED FOR METVIEW. -RESERVED FOR METVIEW. -RESERVED FOR METVIEW. -RESERVED FOR METVIEW. -RESERVED FOR METVIEW. -RESERVED FOR METVIEW. -RESERVED FOR METVIEW. -RESERVED FOR METVIEW. -Surface net radiation -Height (geopotential) mBoundary layer height mLow cloud cover (0 - 1)Height (geopotential) mLow cloud cover (0 - 1)uT - u~T~ m s**-1 deg CvT - v~T~ m s**-1 deg CSnow depth m (of water)Height (geopotential) mLow cloud cover (0 - 1)Geopotential m**2 s**-2%smon mean from daily%sDecoding GRIB selection could not open file: %s Pressure tendency [Pa/s]Dew point depression [K]Absolute divergence [/s]Relative divergence [/s]Convective snow [kg/m^2]Speed of ice drift [m/s]Global radiation [W/m^2]Latent heat flux [W/m^2]Surface lifted index [K]Ground heat flux [W/m^2]Ice mixing ratio [kg/kg]Non-convective cloud [%]Pressure tendency [Pa/s]Variance of height [m^2]Dew point depression [K]Absolute divergence [/s]Relative divergence [/s]Convective snow [kg/m^2]Speed of ice drift [m/s]Global radiation [W/m^2]Latent heat flux [W/m^2]Surface lifted index [K]Ground heat flux [W/m^2]Covar. v and u [m^2/s^2]Std dev of Rel. Hum. [%]Non-convective cloud [%]Type of low vegetation -Long wave heating rate KEvaporation m (of water)High cloud cover (0 - 1)Brightness temperature KSolar insulation W m**-2High cloud cover (0 - 1)Ocean u velocity m s**-1Ocean v velocity m s**-1Ocean w velocity m s**-1Diagnosed SST eror deg CSnow fall kg m**-2 s**-1High cloud cover (0 - 1)St.Dev. of Temperature KMSU Ch 1 - 50.30 GHz - KMSU Ch 2 - 53.74 GHz - KMSU Ch 3 - 54.96 GHz - KMSU Ch 4 - 57.95 GHz - Killegal gribtab line:%s could not open dump file Geopotential height [gpm]Specific humidity [kg/kg]Low level cloud cover [%]Mid level cloud cover [%]Large scale snow [kg/m^2]Snow mixing ratio [kg/kg]No. concen. ice particlesMoisture availability [%]Soil type (Zobler) [0..9]Pot. evaporation [kg/m^2]Geopotential height [gpm]Specific humidity [kg/kg]Low level cloud cover [%]Mid level cloud cover [%]Large scale snow [kg/m^2]Std dev of Geop. hgt. [m]Moisture availability [%]Pot. evaporation [kg/m^2]Type of high vegetation -Short wave heating rate KTotal cloud cover (0 - 1)Total cloud cover (0 - 1)Evaporation* m (of water)Significant wave height mu*T product m s**-1 deg Cv*T product m s**-1 deg CSurface solar radiation -Relative humidity (0 - 1)Total cloud cover (0 - 1)St.Dev. of V-comp m s**-1Total cloud cover (0 - 1) it slices, dices %s missing end section Pot. vorticity [km^2/kg/s]Wave spectra (1) [non-dim]Wave spectra (2) [non-dim]Wave spectra (3) [non-dim]Velocity potential [m^2/s]Direction of current [deg]Main thermocline depth [m]Convective cloud cover [%]High level cloud cover [%]Brightness temperature [K]Sensible heat flux [W/m^2]Vertical speed shear [1/s]Cloud work function [J/kg]Ozone mixing ratio [kg/kg]x-gradient of height [m/m]y-gradient of height [m/m]Prob. of precipitation [%]Ice-free water surface [%]Drag coefficient [non-dim]Wave spectra (1) [non-dim]Wave spectra (2) [non-dim]Wave spectra (3) [non-dim]Velocity potential [m^2/s]Direction of current [deg]Main thermocline depth [m]Convective cloud cover [%]High level cloud cover [%]Sensible heat flux [W/m^2]Vertical speed shear [1/s]Cloud work function [J/kg]Mass weighted u [gm/m*K*s]Mass weighted v [gm/m*K*s]x-gradient of height [m/m]y-gradient of height [m/m]Ice-free water surface [%]Drag coefficient [non-dim]Stream Function m**2 s**-1Low vegetation cover (0-1)Vertical velocity Pa s**-1Vorticity (relative) s**-1Convective precipitation mMean sea level pressure PaMedium cloud cover (0 - 1)Percentage of vegetation %Precip. analysis weights -Soil temperature level 4 KVertical velocity Pa s**-1Vorticity (relative) s**-1Mean sea level pressure PaMedium cloud cover (0 - 1)Percentage of vegetation %Precip. analysis weights -Soil temperature level 4 KObserved heat flux W m**-2Vertical velocity Pa s**-1Vorticity (relative) s**-1Soil temperature level 1 KMean sea level pressure PaSoil temperature level 2 KEvaporation kg m**-2 s**-1Soil temperature level 3 KMedium cloud cover (0 - 1)Percentage of vegetation %Precip. analysis weights -Soil temperature level 4 KVorticity (relative) s**-1Mean sea level pressure PaVorticity (relative) s**-1Mean sea level pressure PaGOES I-M - 7.43 micron - KGOES I-M - 7.02 micron - KGOES I-M - 6.51 micron - KGOES I-M - 4.45 micron - KGOES I-M - 4.13 micron - KGOES I-M - 3.98 micron - Kensemble-mean(%d members) Radar spectra (1) [non-dim]Radar spectra (2) [non-dim]Radar spectra (3) [non-dim]Precipitable water [kg/m^2]Net long wave (top) [W/m^2]Zonal momentum flux [N/m^2]Latitude (-90 to +90) [deg]Richardson number [non-dim]Radar spectra (1) [non-dim]Radar spectra (2) [non-dim]Radar spectra (3) [non-dim]Precipitable water [kg/m^2]Net long wave (top) [W/m^2]Zonal momentum flux [N/m^2]corrected precip [kg/m^2/s]Std dev of zonal wind [m/s]Covar. T and omega [K*Pa/s]Snow melt heat flux [W/m^2]Total column ozone [Dobson]Richardson number [non-dim]High vegetation cover (0-1)Specific humidity kg kg**-1Total column water kg m**-2Large scale precipitation mTemperature of snow layer KIndicates a missing value -Specific humidity kg kg**-1Convective precipitation* mTemperature of snow layer KMean wave direction degreesPeak period of 1d spectra sMean period of wind waves sMean wind direction degreesTen metre windspeed m s**-1Specific humidity kg kg**-1Top solar radiation W m**-2Temperature of snow layer KTop thermal radiation W m-2Specific humidity kg kg**-1Convective precipitation* mGOES I-M - 14.37 micron - KGOES I-M - 14.06 micron - KGOES I-M - 13.37 micron - KGOES I-M - 12.66 micron - KGOES I-M - 12.02 micron - KGOES I-M - 11.03 micron - KGOES I-M - 0.696 micron - Kran out of data or bad file Pressure reduced to MSL [Pa]Thunderstorm probability [%]Total precipitation [kg/m^2]Main thermocline anomaly [m]Direction of ice drift [deg]Sig height of wind waves [m]Primary wave direction [deg]Primary wave mean period [s]Net short wave (top) [W/m^2]Convective inhibition [J/kg]East longitude (0-360) [deg]Pressure reduced to MSL [Pa]Thunderstorm probability [%]Total precipitation [kg/m^2]Main thermocline anomaly [m]Direction of ice drift [deg]Sig height of wind waves [m]Primary wave direction [deg]Primary wave mean period [s]Net short wave (top) [W/m^2]Convective inhibition [J/kg]Nearby model level [integer]Permanent snow points [mask]EW gravity wave drag m s**-1NS gravity wave drag m s**-1Forecast surface roughness mLarge scale precipitation* mForecast surface roughness mCloud liquid water kg kg**-1Barotropic stream function -Heat flux correction W m**-2Forecast surface roughness mLarge scale precipitation* mAVHRR ch 5 - 12.0 micron - KAVHRR ch 4 - 10.8 micron - KAVHRR ch 2 - 0.91 micron - KHIRS/2 Vis - 0.69 micron - KAVHRR ch 1 - 0.63 micron - KHumidity mixing ratio [kg/kg]Precipitation rate [kg/m^2/s]Direction of wind waves [deg]Mean period of wind waves [s]Sig height of swell waves [m]Categorical rain [yes=1;no=0]Categorical snow [yes=1;no=0]Icing SIGMET/AIRMET [non-dim]Prob. from ensemble [non-dim]Upward long wave flux [W/m^2]Storm surface runoff [kg/m^2]Deep convective heating [K/s]Solar radiative heating [K/s]Humidity mixing ratio [kg/kg]Precipitation rate [kg/m^2/s]Land-sea mask [1=land; 0=sea]Direction of wind waves [deg]Mean period of wind waves [s]Sig height of swell waves [m]3-hr pressure tendency [Pa/s]Categorical rain [yes=1;no=0]Categorical snow [yes=1;no=0]Std dev of spec. hum. [gm/gm]Covar. u and omega [m/s*Pa/s]Covar. v and omega [m/s*Pa/s]Upward long wave flux [W/m^2]Storm surface runoff [kg/m^2]Deep convective heating [K/s]Solar radiative heating [K/s]Velocity Potential m**2 s**-1Top solar radiation W m**-2 sMean of 10m windspeed m s**-1Top thermal radiation W m**-2St.Dev. of U-velocity m s**-1HIRS/2, GOES 14.71 micron - KHIRS/2, GOES 13.64 micron - KAVHRR, GOES - 3.74 micron - KNet Air-Ice heat flux - W/m^2 program error: GDS_prt_thin Soil moisture content [kg/m^2]Direction of swell waves [deg]Mean period of swell waves [s]Secondary wave direction [deg]Secondary wave mean period [s]Potential vorticity [m^2/s/kg]Upward short wave flux [W/m^2]Soil moisture content [kg/m^2]Direction of swell waves [deg]Mean period of swell waves [s]Secondary wave direction [deg]Secondary wave mean period [s]Potential vorticity [m^2/s/kg]Precipitation index [fraction]Unbalanced component of lnsp -2 metre dewpoint temperature KConvective cloud cover (0 - 1)2 metre dewpoint temperature KTop solar radiation* W m**-2 sConvective cloud cover (0 - 1)Mean period of primary swell s2 metre dewpoint temperature KConvective cloud cover (0 - 1)2 metre dewpoint temperature KHIRS/2 ch 1 - 14.95 micron - KHIRS/2 ch 3 - 14.49 micron - KHIRS/2 ch 4 - 14.22 micron - KHIRS/2 ch 5 - 13.97 micron - KHIRS/2 ch 7 - 13.35 micron - KHIRS/2 ch 8 - 11.11 micron - KHIRS/2, GOES - 9.71 micron - KHIRS/2 ch 10 - 8.16 micron - KHIRS/2 ch 11 - 7.33 micron - KHIRS/2 ch 12 - 6.72 micron - KHIRS/2, GOES - 4.57 micron - KHIRS/2, GOES - 4.52 micron - KHIRS/2 ch 15 - 4.46 micron - KHIRS/2 ch 16 - 4.40 micron - KHIRS/2 ch 17 - 4.24 micron - KHIRS/2 ch 18 - 4.00 micron - KNet Ice-Ocean salt flux - kg/sPseudo-adiabatic pot. temp. [K]Transient thermocline depth [m]Net long wave (surface) [W/m^2]Best (4-layer) lifted index [K]Turbulent kinetic energy [J/kg]Rain water mixing ratio [kg/kg]Downward long wave flux [W/m^2]Pseudo-adiabatic pot. temp. [K]Transient thermocline depth [m]Net long wave (surface) [W/m^2]Best (4-layer) lifted index [K]Turbulent kinetic energy [J/kg]Downward long wave flux [W/m^2]Top thermal radiation W m**-2 sEW gravity wave drag m**2 s**-3NS gravity wave drag m**2 s**-3Mean vertical velocity Pa s**-1Surface solar radiation W m**-2Covar U-comp. & Temp. K m s**-1Covar U-comp. & Sp.Hum. m s**-1Covar V-comp. & Temp. K m s**-1Covar V-comp. & Sp.Hum. m s**-1HIRS/2 Window - 3.76 micron - KOcean depth - instantaneous - mNet Air-Ocean heat flux - W/m^2Net Ice-Ocean heat flux - W/m^2@ Net short wave (surface) [W/m^2]Meridional momentum flux [N/m^2]x-gradient of log pressure [1/m]y-gradient of log pressure [1/m]Canopy water evaporation [W/m^2]Downward short wave flux [W/m^2]5-wave geopotential height [gpm]Shallow convective heating [K/s]Vertical diffusion heating [K/s]Longwave radiative heating [K/s]Net short wave (surface) [W/m^2]Meridional momentum flux [N/m^2]x-gradient of log pressure [1/m]y-gradient of log pressure [1/m]Std dev of meridional wind [m/s]5-wave geopotential height [gpm]Shallow convective heating [K/s]Vertical diffusion heating [K/s]Longwave radiative heating [K/s]Snow fall m(of water equivalent)Diabatic heating by radiation* KTop thermal radiation* W m**-2 sCoefficient of drag with waves -Standard deviation wave height mTurbulent Kinetic Energy input -Surface latent heat flux W m**-2Covar W-comp. & Temp. K Pa s**-1Covar W-comp. & Sp.Hum. Pa s**-1Snow fall m(of water equivalent)Geopotential height anomaly [gpm]Pressure vertical velocity [Pa/s]Geometric vertical velocity [m/s]Convective precipitation [kg/m^2]Brunt-Vaisala frequency^2 [1/s^2]Zonal gravity wave stress [N/m^2]Storm relative helicity [m^2/s^2]Prob. of frozen precipitation [%]u-component of storm motion [m/s]v-component of storm motion [m/s]Convective cloud mass flux [Pa/s]Geopotential height anomaly [gpm]Pressure vertical velocity [Pa/s]Geometric vertical velocity [m/s]Convective precipitation [kg/m^2]Brunt-Vaisala frequency^2 [1/s^2]Zonal gravity wave stress [N/m^2]Exchange coefficient [kg*m/m^3/s]Std dev of time tend of temp. [K]Convective cloud mass flux [Pa/s]Ice surface temperature layer 1 KIce surface temperature layer 2 KIce surface temperature layer 3 KIce surface temperature layer 4 KStandard deviation of orography -10 metre u wind component m s**-110 metre v wind component m s**-1Surface solar radiation W m**-2 sOzone mass mixing ratio kg kg**-1Cloud ice water content kg kg**-1Snow fall* m(of water equivalent)Standard deviation of orography -10 metre u wind component m s**-110 metre v wind component m s**-1Cloud ice water content kg kg**-12 metre temperature probability %Ocean potential temperature deg C10 metre u wind component m s**-110 metre v wind component m s**-1Surface thermal radiation W m**-2Covar V-comp. & U-comp m**2 s**-2Heaviside (beta) function (0 - 1)10 metre u wind component m s**-110 metre v wind component m s**-1Ocean Mixed Layer Temperature - Kadd_time: undefined time unit %d v1.7.3.1 (8-5-99) Wesley Ebisuzakiv1.7.3.1 (8-5-99) Wesley EbisuzakiLarge scale precipitation [kg/m^2]Best lifted index (to 500 hPa) [K]Boundary layer dissipation [W/m^2]Potential evaporation rate [W/m^2]Covariance between u and T [K*m/s]Covariance between v and T [K*m/s]Mass point model surface [non-dim]Turbulence SIGMET/AIRMET [non-dim]Convective precip. rate [kg/m^2/s]Precip index (0.0-1.00) [fraction]Asymptotic mixing length scale [m]Large scale precipitation [kg/m^2]Ice concentration [ice=1;no ice=0]Boundary layer dissipation [W/m^2]Potential evaporation rate [W/m^2]Mass point model surface [integer]Convective precip. rate [kg/m^2/s]Asymptotic mixing length scale [m]Snow sublimation heat flux [W/m^2]Equivalent Potential Temperature KSnow depth m (of water equivalent)Surface latent heat flux W m**-2 sAngle of subgrid scale orography -Slope of subgrid scale orography -East/West surface stress N m**-2 sGravity wave dissipation W m**-2 sSnow depth m (of water equivalent)Angle of subgrid scale orography -Slope of subgrid scale orography -Surface solar radiation* W m**-2 sTop solar radiation upward W m**-2Significant height of wind waves mDepth (eg of isothermal surface) mBoundary layer dissipation W m**-2Surface sensible heat flux W m**-2Gravity wave dissipation W m**-2 sSt.Dev. of Geopotential m**2 s**-2Covar W-comp. & U-comp. Pa m s**-2Covar W-comp. & V-comp. Pa m s**-2Snow depth m (of water equivalent)Total column water vapour kg m**-2Snow depth m (of water equivalent)Surface latent heat flux W m**-2 sEast/West surface stress N m**-2 sEvaporation (surface) m (of water)Ocean Mixed Layer Salinity - kg/kg Portable Grib decoder for %s etc. Sigma coord. vertical velocity [/s]Mean sea level pressure (MAPS) [Pa]Volumetric soil moisture [fraction]Clear sky upward solar flux [W/m^2]Prob. of freezing precipitation [%]Temp. tendency by all physics [K/s]Planetary boundary layer height [m]Plant canopy surface water [kg/m^2]Vegetation type (as in SiB) [0..13]Blackadar's mixing length scale [m]Snow phase-change heat flux [W/m^2]5-wave geopot. height anomaly [gpm]Upward total radiation flux [W/m^2]Sigma coord. vertical velocity [/s]Mean sea level pressure (MAPS) [Pa]Volumetric soil moisture [fraction]Clear sky upward solar flux [W/m^2]Upward solar radiation flux [W/m^2]Temp. tendency by all physics [K/s]Std dev of time tend of rel hum [%]Plant canopy surface water [kg/m^2]Max. stomato plant resistance [s/m]Blackadar's mixing length scale [m]Upward total radiation flux [W/m^2]Precipitable water content kg m**-2Surface thermal radiation W m**-2 sSkin reservoir content m (of water)Apparent Surface Humidity kg kg**-1Ice Age (0 first-year 1 multi-year)Adiabatic tendency of temperature KPrecipitable water content kg m**-2Surface latent heat flux* W m**-2 sEast/West surface stress* N m**-2 sGravity wave dissipation* W m**-2 sSkin reservoir content m (of water)Apparent Surface Humidity kg kg**-1Ice Age (0 first-year 1 multi-year)Temperature anomaly probability % KTotal precipitation probability % m2D wave spectra m**2 s radiance**-1Geopotential / orography m**2 s**-2Precipitable water content kg m**-2Skin reservoir content m (of water)Max temp.2m during averaging time KMin temp.2m during averaging time KApparent Surface Humidity kg kg**-1Convective snow-fall kg m**-2 s**-1Top solar radiation (net) J m**-2 s? usage: %s [grib file] [options] Parcel lifted index (to 500 hPa) [K]Montgomery stream function [m^2/s^2]Land cover (land=1;sea=0) [fraction]Deviation of sea level from mean [m]Categorical ice pellets [yes=1;no=0]Covariance between u and v [m^2/s^2]Convective Avail. Pot. Energy [J/kg]Cloud forcing net solar flux [W/m^2]Exchange coefficient [(kg/m^3)(m/s)]Baseflow-groundwater runoff [kg/m^2]Deep convective moistening [kg/kg/s]Montgomery stream function [m^2/s^2]Deviation of sea level from mean [m]Categorical ice pellets [yes=1;no=0]Convective Avail. Pot. Energy [J/kg]Cloud forcing net solar flux [W/m^2]Baseflow-groundwater runoff [kg/m^2]Deep convective moistening [kg/kg/s]Sea surface temperature (absolute) KBoundary layer dissipation W m**-2 sSurface sensible heat flux W m**-2 sNorth/South surface stress N m**-2 sTotal column ozone Dobson (kg m**-2)Cloud liquid water content kg kg**-1Surface thermal radiation* W m**-2 sCloud liquid water content kg kg**-1Top thermal radiation upward W m**-210 metre speed probability % m s**-1Mean direction of wind waves degreesNet surface heat flux (+ve = down) -St.Dev. of Specific humidity (0 - 1)Large scale snow-fall kg m**-2 s**-1Cloud liquid water content kg kg**-1Cloud cover (at given level) (0 - 1)Surface sensible heat flux W m**-2 sNorth/South surface stress N m**-2 sMaster length scale (turbulence) - mSnowfall rate water equiv. [kg/m^2/s]Clear sky downward solar flux [W/m^2]Temp. tendency by all radiation [K/s]Downward total radiation flux [W/m^2]Snowfall rate water equiv. [kg/m^2/s]Clear sky downward solar flux [W/m^2]Covar. u and specific hum [m/s*gm/gm]Covar. v and specific hum [m/s*gm/gm]Std dev of time tend of geop. hgt [m]Downward solar radiation flux [W/m^2]Temp. tendency by all radiation [K/s]Std dev of IR T over 1x1 deg area [K]Downward total radiation flux [W/m^2]u-component of Divergent Wind m s**-1v-component of Divergent Wind m s**-1Unbalanced component of temperature KTendency of surface pressure Pa s**-1Boundary layer dissipation* W m**-2 sSurface sensible heat flux* W m**-2 sTendency of surface pressure Pa s**-1North/South surface stress* N m**-2 sDiabatic heating by radiation K s**-1Significant height of primary swell mTendency of surface pressure Pa s**-1St.Dev. of Vertical velocity Pa s**-1Top thermal radiation (net) J m**-2 sT1 - First invariant of stress tensorSig height of wind waves and swell [m]Mean sea level pressure (Std Atm) [Pa]Categorical freezing rain [yes=1;no=0]Meridional gravity wave stress [N/m^2]Velocity point model surface [non-dim]Large scale condensation heating [K/s]Vertical diffusion zonal accel [m/s^2]Sig height of wind waves and swell [m]Mean sea level pressure (Std Atm) [Pa]Categorical freezing rain [yes=1;no=0]Meridional gravity wave stress [N/m^2]Moisture flux divergence [gr/gr*m/s/m]Velocity point model surface [integer]Temp. tendency by nonrad physics [K/s]Large scale condensation heating [K/s]Vertical diffusion zonal accel [m/s^2]u-component of Rotational Wind m s**-1v-component of Rotational Wind m s**-1Instantaneous X surface stress N m**-2Instantaneous Y surface stress N m**-2Instantaneous X surface stress N m**-2Instantaneous Y surface stress N m**-2East/west surface stress N m**-2 s**-1Covar Temp & Geopotential K m**2 s**-2Instantaneous X surface stress N m**-2Instantaneous Y surface stress N m**-2Momentum flux (irresp of dir.) N m**-2SSMI 19 GHz, Vertical Polarization - KSSMI 22 GHz, Vertical Polarization - KSSMI 37 GHz, Vertical Polarization - KSSMI 85 GHz, Vertical Polarization - KT2 - Second invariant of stress tensorInventory/diagnostic-output selections (none) no decoding Clear sky upward long wave flux [W/m^2]Std. dev. of IR T over 1x1 deg area [K]Shallow convective moistening [kg/kg/s]Vertical diffusion moistening [kg/kg/s]Clear sky upward long wave flux [W/m^2]Covar. spec. hum and omega [gm/gm*Pa/s]Shallow convective moistening [kg/kg/s]Vertical diffusion moistening [kg/kg/s]Surface stress/Charnock (from 980519) -Anisotropy of subgrid scale orography -10m. Windspeed (irresp of dir.) m s**-1Instantaneous surface Heat Flux W m**-2Anisotropy of subgrid scale orography -Instantaneous surface Heat Flux W m**-2Mean direction of primary swell degreesConvective precipitation kg m**-2 s**-1Covar Sp.Hum. & Geopotential m**2 s**-2Covar U-comp. & Geopotential m**3 s**-3Covar V-comp. & Geopotential m**3 s**-3Instantaneous surface Heat Flux W m**-210m. Windspeed (irresp of dir.) m s**-1Surface solar radiation (net) J m**-2 sMean sea level pressure (ETA model) [Pa]Horizontal moisture divergence [kg/kg/s]Lifted parcel condensation pressure [Pa]Cloud forcing net long wave flux [W/m^2]Visible beam downward solar flux [W/m^2]Near IR beam downward solar flux [W/m^2]Mean sea level pressure (ETA model) [Pa]Horizontal moisture divergence [kg/kg/s]Lifted parcel condensation pressure [Pa]Cloud forcing net long wave flux [W/m^2]Visible beam downward solar flux [W/m^2]Near IR beam downward solar flux [W/m^2]Std dev of time tend of zonal wind [m/s]Std dev of time tend of merid wind [m/s]Unbalanced component of divergence s**-1Volumetric soil water layer 1 m**3 m**-3Volumetric soil water layer 2 m**3 m**-3Volumetric soil water layer 3 m**3 m**-3Volumetric soil water layer 4 m**3 m**-3Diabatic heating by vertical diffusion KDiabatic heating by cumulus convection KVertical diffusion of zonal wind m s**-1Vertical diffusion of humidity kg kg**-1Accumulated ice water tendency (-1 to 1)Adiabatic tendency of humidity kg kg**-1Adiabatic tendency of zonal wind m s**-1Mean square slope of waves dimensionlessuv - u~v~ (u~ is time-mean of u) m s**-2Large scale precipitation kg m**-2 s**-1North/south surface stress N m**-2 s**-1SSMI 19 GHz, Horizontal Polarization - KSSMI 37 GHz, Horizontal Polarization - KSSMI 85 GHz, Horizontal Polarization - KS11 - 1,1 component of ice stress tensorS12 - 1,2 component of ice stress tensorS22 - 2,2 component of ice stress tensorClear sky downward long wave flux [W/m^2]Direct evaporation from bare soil [W/m^2]Natural log of surface pressure [ln(kPa)]Clear sky downward long wave flux [W/m^2]Std dev of time tend of spec. hum [gm/gm]No. of mixed layers next to sfc [integer]Natural log of surface pressure [ln(kPa)]Surf.temp/soil temp lev 1 (from 930804) KVariance of sub-grid scale orography m**2Top net solar radiation clear sky W m**-2Convective tendency of zonal wind m s**-1Surf.temp/soil temp lev 1 (from 930804) KVariance of sub-grid scale orography m**2Adiabatic tendency of temperature K s**-1Standard deviation 10m wind speed m s**-1Variance of sub-grid scale orography m**2Surface thermal radiation (net) J m**-2 sRadiance with respect to wave no. [W/m/sr]Clim deep soil tmp/soil tmp lev3(930804) KLog of surface roughness length for heat -Deep soil tmp/soil temp lev2(frm 930804) KClim deep soil tmp/soil tmp lev3(930804) KCovar W-comp. & Geopotential Pa m**2 s**-3Potential vorticity (mass-weighted) [1/s/m]Visible diffuse downward solar flux [W/m^2]Near IR diffuse downward solar flux [W/m^2]Vertical diffusion meridional accel [m/s^2]Potential vorticity (mass-weighted) [1/s/m]Visible diffuse downward solar flux [W/m^2]Near IR diffuse downward solar flux [W/m^2]Vertical diffusion meridional accel [m/s^2]Reserved for future unbalanced components -Reserved for future unbalanced components -Surface solar radiation downwards W m**-2 sDeep soil tmp/soil temp lev2(from 930804) KDiabatic heating large-scale condensation KAccumulated liquid water tendency (-1 to 1)Vertical diffusion of zonal wind m**2 s**-3Adiabatic tendency of zonal wind m**2 s**-3Max temp at 2m since previous postprocess KMin temp at 2m since previous postprocess KSaturated Equivalent Potential Temperature KMax 2m temp since previous post-processing KMin 2m temp since previous post-processing KConvective snow-fall m (of water equivalent)Forecast log of surface roughness for heat -Top solar radiation upward clear sky W m**-2Convective tendency of zonal wind m**2 s**-3 (none) regular inventory center %d subcenter %d process %d Table %d ICAO Standard Atmosphere Reference Height [M]Ice concentration (ice=1;no ice=0) [fraction]Radiance with respect ot wave len. [W/m^3/sr]3-hr pressure tendency (Std Atmos Red) [Pa/s]Model layer number (from bottom up) [non-dim]No. of mixed layers next to surface [integer]Temp. tendency by non-radiation physics [K/s]Surface thermal radiation downwards W m**-2 sEW component subgrid orographic variance m**2NS component subgrid orographic variance m**2Surface net solar radiation clear sky W m**-2Vertical diffusion of meridional wind m s**-1Large scale snow-fall m (of water equivalent)Accumulated cloud fraction tendency (-1 to 1)Adiabatic tendency of meridional wind m s**-1Convective snow-fall* m (of water equivalent)Ocean surface elevation relative to geoid - mTop upward thermal radiation clear sky W m**-2Convective tendency of meridional wind m s**-1Large scale snow-fall* m (of water equivalent)Top thermal radiation upward clear sky W m**-2Diabatic heating by vertical diffusion K s**-1Diabatic heating by cumulus convection K s**-1Vertical diffusion of humidity kg kg**-1 s**-1Adiabatic tendency of humidity kg kg**-1 s**-1Sea level (departure from geoid tides removed)Mixed layer depth (Tcr=0.5 C for HOPE model) mNWSE component subgrid orographic variance m**2NESW component subgrid orographic variance m**2Lat. component of gravity wave stress N m**-2 sSurface net thermal radiation clear sky W m**-2;Zx0N -d [record number|all] decode record number Change from removing negative humidity kg/kg s-1Max temp. at 2m since previous post-processing KMin temp. at 2m since previous post-processing KLogarithm of surface roughness length for heat -Vertical diffusion of meridional wind m**2 s**-3Adiabatic tendency of meridional wind m**2 s**-3Max ocean surface elevation in last 24 hours - mMin ocean surface elevation in last 24 hours - m -append append to output file Humidity tendency by cumulus convection kg kg**-1Convective tendency of meridional wind m**2 s**-3Logarithm of surface roughness length for heat. -illegal gribtab center/subcenter/ptable line: %s Meridional component gravity wave stress N m**-2 sGeopotential (at the surface=orography) m**2 s**-2Forecast logarithm of surface roughness for heat -Geopotential (at the surface=orography) m**2 s**-2 -s/-v short/verbose inventory EW component subgrid scale orographic variance m**2NS component subgrid scale orographic variance m**2Forecast logarithm of surface roughness for heat. - -PDS/-PDS10 print PDS in hex/decimal -GDS/-GDS10 print GDS in hex/decimal Prob. from ensemble norm. to clim. expect. [non-dim]Geopotential (at the surface = orography) m**2 s**-2Humidity tendency large-scale condensation kg kg**-1Instantaneous Moisture Flux (evaporation) kg m**-2 sInstantaneous Moisture Flux (evaporation) kg m**-2 sDiabatic heating by large-scale condensation K s**-1 -4yr print year using 4 digits grib header at record %ld: two values of nxny %ld %d Surf soil wet/soil wet lev1(from 930803) m (of water)Deep soil wet/soil wet lev2(from 930803) m (of water)Clim deep soil wet/soil wet lev3(930803) m (of water)Surf soil wet/soil wet lev1(from 930803) m (of water)Deep soil wet/soil wet lev2(from 930803) m (of water)Clim deep soil wet/soil wet lev3(930803) m (of water)NWSE component subgrid scale orographic variance m**2NESW component subgrid scale orographic variance m**2Meridional component of gravity wave stress N m**-2 skpds5=%d:kpds6=%d:kpds7=%d:TR=%d:P1=%d:P2=%d:TimeU=%d: %s kpds5=%d kpds6=%d kpds7=%d levels=(%d,%d) grid=%d Meridional component of gravity wave stress* N m**-2 sChange from removing negative humidity kg kg**-1 s**-1NWSE component sub-grid scale orographic variance m**2NESW component sub-grid scale orographic variance m**2Latitudinal component of gravity wave stress N m**-2 s -ncep_opn/-ncep_rean default T62 NCEP grib table LEN %d DataStart %d UnusedBits %d #Bits %d nxny %ld Using NCEP %s table, see -ncep_opn, -ncep_rean options Latitudinal component of gravity wave stress* N m**-2 sHumidity tendency by cumulus convection kg kg**-1 s**-1EW component of sub-grid scale orographic variance m**2NS component of sub-grid scale orographic variance m**2Instantaneous Moisture Flux (evaporation) kg m**-2 s**-1 -p [byte position] decode record at byte position Ultra violet index (1 hour centered at solar noon) [J/m^2]Ocean potential density(reference = surface) kg m**-3 -1000 -verf print forecast verification time -V diagnostic output (not inventory) Humidity tendency by large-scale condensation kg kg**-1 s**-1 -o [file] output file name, 'dump' is default -text/-ieee/-grib/-bin convert to text/ieee/grib/bin (default) Undefined parameter table (center %d-%d table %d), using NCEP-opn 2D wave spectra(single direction/single frequency) m**2 s radiance**-1 -i decode controlled by stdin (inventory list) Missing GDS, constant record .. cannot determine number of data points min/max data %g %g num bits %d BDS_Ref %g DecScale %d BinScale %d -nh/-h output will have no headers/headers (default) -H output will include PDS and GDS (-bin/-ieee only) timerange %d P1 %d P2 %d TimeU %d nx %d ny %d GDS grid %d num_in_ave %d missing %d polar stereo: Lat1 %f Long1 %f Orient %f %s pole (%d x %d) Dx %d Dy %d scan %d filled Arakawa E-Grid: lat0 %f lon0 %f nxny %d dLat %f dLon %f (%d x %d) scan %d mode %d gaussian: lat %f to %f long %f to %f by %f, (%d x %d) scan %d mode %d bdsgrid %d Semi-staggered Arakawa E-Grid: lat0 %f lon0 %f nxny %d dLat %f dLon %f (%d x %d) scan %d mode %d thinned gaussian: lat %f to %f lon %f %ld grid pts (%d x %d) scan %d mode %d bdsgrid %d nlat: latlon: lat %f to %f by %f nxny %ld long %f to %f by %f, (%d x %d) scan %d mode %d bdsgrid %d thinned latlon: lat %f to %f by %f nxny %ld long %f to %f, %ld grid pts (%d x %d) scan %d mode %d bdsgrid %d Mercator: lat %f to %f by %f km nxny %ld long %f to %f by %f km, (%d x %d) scan %d mode %d Latin %f bdsgrid %d Lambert Conf: Lat1 %f Lon1 %f Lov %f Latin1 %f Latin2 %f LatSP %f LonSP %f %s (%d x %d) Dx %f Dy %f scan %d mode %d rotated LatLon grid lat %f to %f lon %f to %f nxny %ld (%d x %d) dx %d dy %d scan %d mode %d transform: south pole lat %f lon %f rot angle %f 0  4 GHk  uu                                 $ ( , 0 4 8 < @ D H L P T X \ ` d h l p t x |                                  $(,048<@DHLPTX\`dhlptx|  $(,048<@DHLPTX\`dhlptx|  $(,048<@DHLPTX\`dYYYZ$ZXZZZZZY[ [L[x[Z[ZZZZ[ [L^ ^@^`^^^^__0_T_t_|___t_t_t_t_t_t_t_``4_t_t_t_t_t_t_t`X`|``aaLahaabbhbc cDcxcccd dDdx_tddeT_t_t_te_t_te_t_t_t_t_t_t_t_t_t_t_t_tf _Tft_t_t_t_t_t_t_tfff_|___t_t_t_t_t_t_t_``4_t_t_t_t_t_t_t`X`|`_t_t_t_t_t_t_tgg,gPXvP`))Phv\pvh@ x)@lvtیрѐ۠ )Ѡ))) )v)X)))4 *,*%@*p* (X*  *(4(<08(@۴H(PH*0X`*8*@d*H1<*P0hѰ*X*`pDx*h`Xt|H*pv,*xD** *H\****`x\*5**8** *8* *X*x+ + 8+++ +(D+0+8pHHvHPvHXv+@0+H+P`+Xp ߐ+`6+h%+p>(L+x8 +>0+X8@Hh+x+6<+,++%+$+++6d+ XH`vHhvHpv+6Hxv+hH-X+>+&,1d,:,DH,-,, ? 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