Thank you very much for any help you could give to me.
I really appreciate your work.
Cheers,
Tiziana.
-------------------------------------
Tiziana Cherubini
Department of Meteorology
University of Hawaii
2525 Correa Rd. HIG 350
Honolulu, Hawaii 96822
(808) 956-4593, (808) 956-2877 fax
//------------------------------------------------------------------------------
// NOAA/ERL
// Forecast Systems Laboratory
// Facility Division
// Data Acquisition Branch
// Posix Data Services Software
//
// This software and its documentation are in the public domain and are
// furnished "as is". The United Stated government, its instrumentalities,
// officers, employees, and agents make no warranty, express or implied, as to
// the usefullness of the software and documentation for any purpose. They
// assume no responsibility (1) for the use of the software and documentation;
// or (2) to provide technical support to users.
//
// avn_global_complete_list.cdl
//
// netCDF data file definition for aviation model NPS grids
//
// latitude and longitude information for grid:
// lon x lat = 1.0 x 1.0
//
//------------------------------------------------------------------------------
netcdf AvnGlobal
{
dimensions:
record = unlimited;
namelen = 132;
y = 181;
x = 360;
numIsoLevel = 26;
fixedHeight = 3;
variables:
// geopotential height at Isobaric Levels
float
GH(record, numIsoLevel, y, x);
GH:record = "valtime, reftime";
GH:_Navigation_var = "nav";
GH:numIsoLevel = "isoLevel";
GH:long_name = "geopotential height";
GH:units = "meters";
GH:valid_range = -800.f, 100000.f;
GH:_FillValue = -99999.f;
// temperature at Isobaric Levels
float
T(record, numIsoLevel, y, x);
T:record = "valtime, reftime";
T:_Navigation_var = "nav";
T:numIsoLevel = "isoLevel";
T:long_name = "temperature";
T:units = "kelvin";
T:valid_range = 160.f, 340.f;
T:_FillValue = -99999.f;
// VVEL=pressure vertical velocity
float
PVV(record, numIsoLevel, y, x);
PVV:record = "valtime, reftime";
PVV:_Navigation_var = "nav";
PVV:numIsoLevel = "isoLevel";
PVV:long_name = "pressure vertical velocity";
PVV:units = "Pa/s";
PVV:valid_range = -10.f, 10.f;
PVV:_FillValue = -99999.f;
// relative humidity at isobaric levels
float
RH(record, numIsoLevel, y, x);
RH:record = "valtime, reftime";
RH:_Navigation_var = "nav";
RH:numIsoLevel = "isoLevel";
RH:long_name = "relative humidity";
RH:units = "percent";
RH:valid_range = -5.f, 110.f;
RH:_FillValue = -99999.f;
// Absolute vorticity
float
AV(record, numIsoLevel, y, x);
AV:record = "valtime, reftime";
AV:_Navigation_var = "nav";
AV:numIsoLevel = "isoLevel";
AV:long_name = "absolute vorticity";
AV:units = "/second";
AV:valid_range = -300.f, 300.f;
AV:_FillValue = -99999.f;
// ozone mixing ratio
float
O3MR(record, numIsoLevel, y, x);
O3MR:record = "valtime, reftime";
O3MR:_Navigation_var = "nav";
O3MR:numIsoLevel = "isoLevel";
O3MR:long_name = "ozone mixing ratio";
O3MR:units = "kg/kg";
O3MR:_FillValue = -99999.f;
// 5-wave geopotential height
float
WAVH5(record, y, x);
WAVH5:record = "valtime, reftime";
WAVH5:_Navigation_var = "nav";
WAVH5:long_name = "5-wave geopotential height";
WAVH5:units = "GpM";
WAVH5:_FillValue = -99999.f;
// UGRD=u wind component at Isobaric Levels
float
uW(record, numIsoLevel, y, x);
uW:record = "valtime, reftime";
uW:_Navigation_var = "nav";
uW:numIsoLevel = "isoLevel";
uW:long_name = "eastward wind";
uW:units = "meters/second";
uW:valid_range = -150.f, 150.f;
uW:_FillValue = -99999.f;
// VGRD=v wind component at Isobaric Levels
float
vW(record, numIsoLevel, y, x);
vW:record = "valtime, reftime";
vW:_Navigation_var = "nav";
vW:numIsoLevel = "isoLevel";
vW:long_name = "northward wind";
vW:units = "meters/second";
vW:valid_range = -150.f, 150.f;
vW:_FillValue = -99999.f;
// temperature 30-0 mb above ground
float
T_30(record, y, x);
T_30:record = "valtime, reftime";
T_30:_Navigation_var = "nav";
T_30:long_name = "temperature 30-0 mb above ground";
T_30:units = "kelvin";
T_30:valid_range = 160.f, 340.f;
T_30:_FillValue = -99999.f;
// relative humidity 30-0 mb above ground
float
RH_30(record, y, x);
RH_30:record = "valtime, reftime";
RH_30:_Navigation_var = "nav";
RH_30:long_name = "relative humidity 30-0 mb above ground";
RH_30:units = "percent";
RH_30:valid_range = -10.f, 110.f;
RH_30:_FillValue = -99999.f;
// specific humidity 30-0 mb above ground
float
SH_30(record, y, x);
SH_30:record = "valtime, reftime";
SH_30:_Navigation_var = "nav";
SH_30:long_name = "specific humidity 30-0 mb above ground";
SH_30:units = "percent";
SH_30:valid_range = -10.f, 110.f;
SH_30:_FillValue = -99999.f;
// u wind component 30-0 mb above ground
float
uW_30(record, y, x);
uW_30:record = "valtime, reftime";
uW_30:_Navigation_var = "nav";
uW_30:long_name = "eastward wind 30-0 mb above ground";
uW_30:units = "meters/second";
uW_30:valid_range = -300.f, 300.f;
uW_30:_FillValue = -99999.f;
// v wind component 30-0 mb above ground
float
vW_30(record, y, x);
vW_30:record = "valtime, reftime";
vW_30:_Navigation_var = "nav";
vW_30:long_name = "northward wind 30-0 mb above ground";
vW_30:units = "meters/second";
vW_30:valid_range = -300.f, 300.f;
vW_30:_FillValue = -99999.f;
// temperature at fixed height above MSL
float
T_FH(record, fixedHeight, y, x);
T_FH:record = "valtime, reftime";
T_FH:_Navigation_var = "nav";
T_FH:fixedHeight = "fixed height level";
T_FH:long_name = "temperature at fixed height above MSL";
T_FH:units = "kelvin";
T_FH:valid_range = 160.f, 340.f;
T_FH:_FillValue = -99999.f;
// u wind component at fixed height above MSL
float
uW_FH(record, fixedHeight, y, x);
uW_FH:record = "valtime, reftime";
uW_FH:_Navigation_var = "nav";
uW_FH:fixedHeight = "fixed height level";
uW_FH:long_name = "eastward wind at fixed height above MSL";
uW_FH:units = "meters/second";
uW_FH:valid_range = -300.f, 300.f;
uW_FH:_FillValue = -99999.f;
// v wind component at fixed height above MSL
float
vW_FH(record, fixedHeight, y, x);
vW_FH:record = "valtime, reftime";
vW_FH:_Navigation_var = "nav";
vW_FH:fixedHeight = "fixed height level";
vW_FH:long_name = "northward wind at fixed height above MSL";
vW_FH:units = "meters/second";
vW_FH:valid_range = -300.f, 300.f;
vW_FH:_FillValue = -99999.f;
// surface pressure
float
P(record, y, x);
P:record = "valtime, reftime";
P:_Navigation_var = "nav";
P:long_name = "pressure at surface";
P:units = "pascals";
P:valid_range = 30000.f, 110000.f;
P:_FillValue = -99999.f;
// precipitable water
float
PW(record, y, x);
PW:record = "valtime, reftime";
PW:_Navigation_var = "nav";
PW:long_name = "precipitable water";
PW:units = "kg/m2";
PW:valid_range = 0.f, 100.f;
PW:_FillValue = -99999.f;
// relative humidity (atmos col)
float
RH_AC(record, y, x);
RH_AC:record = "valtime, reftime";
RH_AC:_Navigation_var = "nav";
RH_AC:long_name = "relative humidity (atmos col)";
RH_AC:units = "percent";
RH_AC:valid_range = -10.f, 110.f;
RH_AC:_FillValue = -99999.f;
// geopotential height at tropopause
float
GH_T(record, y, x);
GH_T:record = "valtime, reftime";
GH_T:_Navigation_var = "nav";
GH_T:long_name = "geopotential height at tropopause";
GH_T:units = "meters";
GH_T:valid_range = -300.f, 100000.f;
GH_T:_FillValue = -99999.f;
// temperature at tropopause
float
T_T(record, y, x);
T_T:record = "valtime, reftime";
T_T:_Navigation_var = "nav";
T_T:long_name = "temperature at tropopause";
T_T:units = "kelvin";
T_T:valid_range = 160.f, 340.f;
T_T:_FillValue = -99999.f;
// atmospheric pressure at tropopause
float
P_T(record, y, x);
P_T:record = "valtime, reftime";
P_T:_Navigation_var = "nav";
P_T:long_name = "pressure at tropopause";
P_T:units = "pascals";
P_T:valid_range = 0.f, 150000.f;
P_T:_FillValue = -99999.f;
// vertical speed shear at tropopause
float
VSS_T(record, y, x);
VSS_T:record = "valtime, reftime";
VSS_T:_Navigation_var = "nav";
VSS_T:long_name = "vertical speed shear at tropopause";
VSS_T:units = "1/s";
VSS_T:_FillValue = -99999.f;
// surface lifted index
float
LI(record, y, x);
LI:record = "valtime, reftime";
LI:_Navigation_var = "nav";
LI:long_name = "surface lifted index";
LI:units = "kelvin";
LI:_FillValue = -99999.f;
// surface convective available potential energy
float
CAPE(record, y, x);
CAPE:record = "valtime, reftime";
CAPE:_Navigation_var = "nav";
CAPE:long_name = "surface convective available potential energy";
CAPE:units = "J/kg";
CAPE:valid_range = 0.f, 20000.f;
CAPE:_FillValue = -99999.f;
// surface convective inhibition
float
CIN(record, y, x);
CIN:record = "valtime, reftime";
CIN:_Navigation_var = "nav";
CIN:long_name = "surface convective inhibition";
CIN:units = "J/kg";
CIN:valid_range = 0.f, 20000.f;
CIN:_FillValue = -99999.f;
// Best (4-layer) lifted index [K] (Surface)
float
LFTX4(record, y, x);
LFTX4:record = "valtime, reftime";
LFTX4:_Navigation_var = "nav";
LFTX4:long_name = "Best (4-layer) lifted index";
LFTX4:units = "K";
LFTX4:_FillValue = -99999.f;
// Best (4-layer) lifted index [K] (180-0 mb above gnd)
float
LFTX4180(record, y, x);
LFTX4180:record = "valtime, reftime";
LFTX4180:_Navigation_var = "nav";
LFTX4180:long_name = "Best (4-layer) lifted index";
LFTX4180:units = "K";
LFTX4180:_FillValue = -99999.f;
// convective available potential energy
float
CAPE180(record, y, x);
CAPE180:record = "valtime, reftime";
CAPE180:_Navigation_var = "nav";
CAPE180:long_name = "convective available potential energy 180-0
mb";
CAPE180:units = "J/kg";
CAPE180:valid_range = 0.f, 20000.f;
CAPE180:_FillValue = -99999.f;
// convective inhibition
float
CIN180(record, y, x);
CIN180:record = "valtime, reftime";
CIN180:_Navigation_var = "nav";
CIN180:long_name = "convective inhibition 180-0 mb";
CIN180:units = "J/kg";
CIN180:valid_range = 0.f, 20000.f;
CIN180:_FillValue = -99999.f;
// geopotential height at maximum wind
float
GH_WMAX(record, y, x);
GH_WMAX:record = "valtime, reftime";
GH_WMAX:_Navigation_var = "nav";
GH_WMAX:long_name = "geopotential height at maximum wind";
GH_WMAX:units = "meters";
GH_WMAX:valid_range = -300.f, 100000.f;
GH_WMAX:_FillValue = -99999.f;
// temperature at maximum wind
float
T_WMAX(record, y, x);
T_WMAX:record = "valtime, reftime";
T_WMAX:_Navigation_var = "nav";
T_WMAX:long_name = "temperature at maximum wind";
T_WMAX:units = "kelvin";
T_WMAX:valid_range = 160.f, 340.f;
T_WMAX:_FillValue = -99999.f;
// atmospheric pressure at max wind
float
P_WMAX(record, y, x);
P_WMAX:record = "valtime, reftime";
P_WMAX:_Navigation_var = "nav";
P_WMAX:long_name = "pressure at maximum wind";
P_WMAX:units = "pascals";
P_WMAX:valid_range = 0.f, 150000.f;
P_WMAX:_FillValue = -99999.f;
// geopotential height of surface
float
GH_S(record, y, x);
GH_S:record = "valtime, reftime";
GH_S:_Navigation_var = "nav";
GH_S:long_name = "geopotential height of surface";
GH_S:units = "meters";
GH_S:valid_range = -500.f, 10000.f;
GH_S:_FillValue = -99999.f;
// atmospheric pressure at mean sea level
float
PMSL(record, y, x);
PMSL:record = "valtime, reftime";
PMSL:_Navigation_var = "nav";
PMSL:long_name = "pressure at mean sea level";
PMSL:units = "pascals";
PMSL:valid_range = 85000.f, 110000.f;
PMSL:_FillValue = -99999.f;
// relative humidity at sigma 0.44-1.00
float
RH_SONE(record, y, x);
RH_SONE:record = "valtime, reftime";
RH_SONE:_Navigation_var = "nav";
RH_SONE:long_name = "relative humidity - sigma 0.44-1.00";
RH_SONE:units = "percent";
RH_SONE:valid_range = -10.f, 110.f;
RH_SONE:_FillValue = -99999.f;
// relative humidity at sigma 0.72-0.94
float
RH_STWO(record, y, x);
RH_STWO:record = "valtime, reftime";
RH_STWO:_Navigation_var = "nav";
RH_STWO:long_name = "relative humidity - sigma 0.72-0.94";
RH_STWO:units = "percent";
RH_STWO:valid_range = -10.f, 110.f;
RH_STWO:_FillValue = -99999.f;
// relative humidity at sigma 0.44-0.72
float
RH_STRE(record, y, x);
RH_STRE:record = "valtime, reftime";
RH_STRE:_Navigation_var = "nav";
RH_STRE:long_name = "relative humidity - sigma 0.44-0.72";
RH_STRE:units = "percent";
RH_STRE:valid_range = -10.f, 110.f;
RH_STRE:_FillValue = -99999.f;
// relative humidity at sigma 0.33-1.00
float
RH_SFOUR(record, y, x);
RH_SFOUR:record = "valtime, reftime";
RH_SFOUR:_Navigation_var = "nav";
RH_SFOUR:long_name = "relative humidity - sigma 0.33-1.00";
RH_SFOUR:units = "percent";
RH_SFOUR:valid_range = -10.f, 110.f;
RH_SFOUR:_FillValue = -99999.f;
// potential temperature, sigma=0.9950
float
PT_SIG(record, y, x);
PT_SIG:record = "valtime, reftime";
PT_SIG:_Navigation_var = "nav";
PT_SIG:long_name = "potential temperature at sigma=0.9950";
PT_SIG:units = "kelvin";
PT_SIG:valid_range = 160.f, 340.f;
PT_SIG:_FillValue = -99999.f;
// temperature, sigma=0.9950
float
T_SIG(record, y, x);
T_SIG:record = "valtime, reftime";
T_SIG:_Navigation_var = "nav";
T_SIG:long_name = "temperature at sigma=0.9950";
T_SIG:units = "kelvin";
T_SIG:valid_range = 160.f, 340.f;
T_SIG:_FillValue = -99999.f;
// pressure vertical velocity, sigma=0.9950
float
PVV_SIG(record, y, x);
PVV_SIG:record = "valtime, reftime";
PVV_SIG:_Navigation_var = "nav";
PVV_SIG:long_name = "pressure vertical velocity, sigma=0.9950";
PVV_SIG:units = "Pa/s";
PVV_SIG:valid_range = -10.f, 10.f;
PVV_SIG:_FillValue = -99999.f;
// relative humidity, sigma=0.9950
float
RH_SIG(record, y, x);
RH_SIG:record = "valtime, reftime";
RH_SIG:_Navigation_var = "nav";
RH_SIG:long_name = "relative humidity, sigma=0.9950";
RH_SIG:units = "percent";
RH_SIG:valid_range = -10.f, 110.f;
RH_SIG:_FillValue = -99999.f;
// TOZNE - Total ozone [Dobson]
float
TOZNE(record, y, x);
TOZNE:record = "valtime, reftime";
TOZNE:_Navigation_var = "nav";
TOZNE:long_name = "total ozone";
TOZNE:units = "dobson";
TOZNE:_FillValue = -99999.f;
// u wind component at tropopause
float
uW_T(record, y, x);
uW_T:record = "valtime, reftime";
uW_T:_Navigation_var = "nav";
uW_T:long_name = "eastward wind at tropopause";
uW_T:units = "meters/second";
uW_T:valid_range = -300.f, 300.f;
uW_T:_FillValue = -99999.f;
// u wind component at max wind
float
uW_WMAX(record, y, x);
uW_WMAX:record = "valtime, reftime";
uW_WMAX:_Navigation_var = "nav";
uW_WMAX:long_name = "eastward wind at maximum wind";
uW_WMAX:units = "meters/second";
uW_WMAX:valid_range = -300.f, 300.f;
uW_WMAX:_FillValue = -99999.f;
// eastward wind at sigma=0.9950
float
uW_SIG(record, y, x);
uW_SIG:record = "valtime, reftime";
uW_SIG:_Navigation_var = "nav";
uW_SIG:long_name = "eastward wind at sigma=0.9950";
uW_SIG:units = "meters/second";
uW_SIG:valid_range = -300.f, 300.f;
uW_SIG:_FillValue = -99999.f;
// v wind component at tropopause
float
vW_T(record, y, x);
vW_T:record = "valtime, reftime";
vW_T:_Navigation_var = "nav";
vW_T:long_name = "northward wind at tropopause";
vW_T:units = "meters/second";
vW_T:valid_range = -300.f, 300.f;
vW_T:_FillValue = -99999.f;
// v wind component at maximum
float
vW_WMAX(record, y, x);
vW_WMAX:record = "valtime, reftime";
vW_WMAX:_Navigation_var = "nav";
vW_WMAX:long_name = "northward wind at maximum wind";
vW_WMAX:units = "meters/second";
vW_WMAX:valid_range = -300.f, 300.f;
vW_WMAX:_FillValue = -99999.f;
// northward wind at sigma=0.9950
float
vW_SIG(record, y, x);
vW_SIG:record = "valtime, reftime";
vW_SIG:_Navigation_var = "nav";
vW_SIG:long_name = "northward wind at sigma=0.9950";
vW_SIG:units = "meters/second";
vW_SIG:valid_range = -300.f, 300.f;
vW_SIG:_FillValue = -99999.f;
// sensible heat flux at surface
float
SHTFL(record, y, x);
SHTFL:record = "valtime, reftime";
SHTFL:_Navigation_var = "nav";
SHTFL:long_name = "sensible heat flux at surface";
SHTFL:units = "W/m2";
SHTFL:_FillValue = -99999.f;
// latent heat flux at surface
float
LHTFL(record, y, x);
LHTFL:record = "valtime, reftime";
LHTFL:_Navigation_var = "nav";
LHTFL:long_name = "latent heat flux at surface";
LHTFL:units = "W/m2";
LHTFL:_FillValue = -99999.f;
// temperature at surface
float
T_S(record, y, x);
T_S:record = "valtime, reftime";
T_S:_Navigation_var = "nav";
T_S:long_name = "temperature at surface";
T_S:units = "kelvin";
T_S:valid_range = 160.f, 340.f;
T_S:_FillValue = -99999.f;
// volumetric soil moisture 0-10cm down from surface
float
USOILW(record, y, x);
USOILW:record = "valtime, reftime";
USOILW:_Navigation_var = "nav";
USOILW:long_name = "volumetric soil moisture 0-10cm down from
surface";
USOILW:units = "fraction";
USOILW:_FillValue = -99999.f;
// volumetric soil moisture 10-200cm down from surface
float
LSOILW(record, y, x);
LSOILW:record = "valtime, reftime";
LSOILW:_Navigation_var = "nav";
LSOILW:long_name = "volumetric soil moisture 10-200cm down from
surface";
LSOILW:units = "fraction";
LSOILW:_FillValue = -99999.f;
// temperature 0-10 cm down from surface
float
T_10D(record, y, x);
T_10D:record = "valtime, reftime";
T_10D:_Navigation_var = "nav";
T_10D:long_name = "temperature 0-10 cm down from surface";
T_10D:units = "kelvin";
T_10D:valid_range = 160.f, 340.f;
T_10D:_FillValue = -99999.f;
// temperature 10-200 cm down from surface
float
T_200D(record, y, x);
T_200D:record = "valtime, reftime";
T_200D:_Navigation_var = "nav";
T_200D:long_name = "temperature 10-200 cm down from surface";
T_200D:units = "kelvin";
T_200D:valid_range = 160.f, 340.f;
T_200D:_FillValue = -99999.f;
// accumulated snow
float
ACCS(record, y, x);
ACCS:record = "valtime, reftime";
ACCS:_Navigation_var = "nav";
ACCS:long_name = "accumulated snow";
ACCS:units = "kg/m2";
ACCS:_FillValue = -99999.f;
// downward long wave flux at surface
float
DLWF_S(record, y, x);
DLWF_S:record = "valtime, reftime";
DLWF_S:_Navigation_var = "nav";
DLWF_S:long_name = "downward long wave flux at surface";
DLWF_S:units = "W/m2";
DLWF_S:_FillValue = -99999.f;
// upward long wave flux at surface
float
ULWF_S(record, y, x);
ULWF_S:record = "valtime, reftime";
ULWF_S:_Navigation_var = "nav";
ULWF_S:long_name = "upward long wave flux at surface";
ULWF_S:units = "W/m2";
ULWF_S:_FillValue = -99999.f;
// upward long wave flux at nom. top
float
ULWF_NT(record, y, x);
ULWF_NT:record = "valtime, reftime";
ULWF_NT:_Navigation_var = "nav";
ULWF_NT:long_name = "upward long wave flux at nom. top";
ULWF_NT:units = "W/m2";
ULWF_NT:_FillValue = -99999.f;
// upward short wave flux at nom. top
float
USWF_NT(record, y, x);
USWF_NT:record = "valtime, reftime";
USWF_NT:_Navigation_var = "nav";
USWF_NT:long_name = "upward short wave flux at nom. top";
USWF_NT:units = "W/m2";
USWF_NT:_FillValue = -99999.f;
// upward short wave flux at surface
float
USWF_S(record, y, x);
USWF_S:record = "valtime, reftime";
USWF_S:_Navigation_var = "nav";
USWF_S:long_name = "upward short wave flux at surface";
USWF_S:units = "W/m2";
USWF_S:_FillValue = -99999.f;
// downward short wave flux at surface
float
DSWF_S(record, y, x);
DSWF_S:record = "valtime, reftime";
DSWF_S:_Navigation_var = "nav";
DSWF_S:long_name = "downward short wave flux at surface";
DSWF_S:units = "W/m2";
DSWF_S:_FillValue = -99999.f;
// total cloud cover - high cloud layer
float
TCC_HCLD(record, y, x);
TCC_HCLD:record = "valtime, reftime";
TCC_HCLD:_Navigation_var = "nav";
TCC_HCLD:long_name = "total cloud cover - high cloud layer";
TCC_HCLD:units = "percent";
TCC_HCLD:_FillValue = -99999.f;
// pressure at top of high cloud layer
float
P_THCLD(record, y, x);
P_THCLD:record = "valtime, reftime";
P_THCLD:_Navigation_var = "nav";
P_THCLD:long_name = "pressure at top of high cloud layer";
P_THCLD:units = "pascals";
P_THCLD:valid_range = 0.f, 150000.f;
P_THCLD:_FillValue = -99999.f;
// pressure at bottom of high cloud layer
float
P_BHCLD(record, y, x);
P_BHCLD:record = "valtime, reftime";
P_BHCLD:_Navigation_var = "nav";
P_BHCLD:long_name = "pressure at bottom of high cloud layer";
P_BHCLD:units = "pascals";
P_BHCLD:valid_range = 0.f, 150000.f;
P_BHCLD:_FillValue = -99999.f;
// temperature at top of high cloud layer
float
T_THCLD(record, y, x);
T_THCLD:record = "valtime, reftime";
T_THCLD:_Navigation_var = "nav";
T_THCLD:long_name = "temperature at top of high cloud layer";
T_THCLD:units = "kelvin";
T_THCLD:valid_range = 160.f, 340.f;
T_THCLD:_FillValue = -99999.f;
// total cloud cover - medium cloud layer
float
TCC_MCLD(record, y, x);
TCC_MCLD:record = "valtime, reftime";
TCC_MCLD:_Navigation_var = "nav";
TCC_MCLD:long_name = "total cloud cover - medium cloud layer";
TCC_MCLD:units = "percent";
TCC_MCLD:_FillValue = -99999.f;
// pressure at top of medium cloud layer
float
P_TMCLD(record, y, x);
P_TMCLD:record = "valtime, reftime";
P_TMCLD:_Navigation_var = "nav";
P_TMCLD:long_name = "pressure at top of medium cloud layer";
P_TMCLD:units = "pascals";
P_TMCLD:valid_range = 0.f, 150000.f;
P_TMCLD:_FillValue = -99999.f;
// pressure at bottom of medium cloud layer
float
P_BMCLD(record, y, x);
P_BMCLD:record = "valtime, reftime";
P_BMCLD:_Navigation_var = "nav";
P_BMCLD:long_name = "pressure at bottom of medium cloud layer";
P_BMCLD:units = "pascals";
P_BMCLD:valid_range = 0.f, 150000.f;
P_BMCLD:_FillValue = -99999.f;
// temperature at top of medium cloud layer
float
T_TMCLD(record, y, x);
T_TMCLD:record = "valtime, reftime";
T_TMCLD:_Navigation_var = "nav";
T_TMCLD:long_name = "temperature at top of medium cloud layer";
T_TMCLD:units = "kelvin";
T_TMCLD:valid_range = 160.f, 340.f;
T_TMCLD:_FillValue = -99999.f;
// total cloud cover - low cloud layer
float
TCC_LCLD(record, y, x);
TCC_LCLD:record = "valtime, reftime";
TCC_LCLD:_Navigation_var = "nav";
TCC_LCLD:long_name = "total cloud cover - low cloud layer";
TCC_LCLD:units = "percent";
TCC_LCLD:_FillValue = -99999.f;
// pressure at top of low cloud layer
float
P_TLCLD(record, y, x);
P_TLCLD:record = "valtime, reftime";
P_TLCLD:_Navigation_var = "nav";
P_TLCLD:long_name = "pressure at top of low cloud layer";
P_TLCLD:units = "pascals";
P_TLCLD:valid_range = 0.f, 150000.f;
P_TLCLD:_FillValue = -99999.f;
// pressure at bottom of low cloud layer
float
P_BLCLD(record, y, x);
P_BLCLD:record = "valtime, reftime";
P_BLCLD:_Navigation_var = "nav";
P_BLCLD:long_name = "pressure at bottom of low cloud layer";
P_BLCLD:units = "pascals";
P_BLCLD:valid_range = 0.f, 150000.f;
P_BLCLD:_FillValue = -99999.f;
// temperature at top of low cloud layer
float
T_TLCLD(record, y, x);
T_TLCLD:record = "valtime, reftime";
T_TLCLD:_Navigation_var = "nav";
T_TLCLD:long_name = "temperature at top of low cloud layer";
T_TLCLD:units = "kelvin";
T_TLCLD:valid_range = 160.f, 340.f;
T_TLCLD:_FillValue = -99999.f;
// precipitation rate
float
PRATE(record, y, x);
PRATE:record = "valtime, reftime";
PRATE:_Navigation_var = "nav";
PRATE:long_name = "precipitation rate";
PRATE:units = "kg/m2/s";
PRATE:_FillValue = -99999.f;
// convective precipitation rate
float
CPRAT(record, y, x);
CPRAT:record = "valtime, reftime";
CPRAT:_Navigation_var = "nav";
CPRAT:long_name = "convective precipitation rate";
CPRAT:units = "kg/m2/s";
CPRAT:_FillValue = -99999.f;
// ground heat flux
float
GHF(record, y, x);
GHF:record = "valtime, reftime";
GHF:_Navigation_var = "nav";
GHF:long_name = "ground heat flux";
GHF:units = "W/m2";
GHF:_FillValue = -99999.f;
// land cover
float
LAND(record, y, x);
LAND:record = "valtime, reftime";
LAND:_Navigation_var = "nav";
LAND:long_name = "land cover (1=land, 0=sea)";
LAND:units = "fraction";
LAND:valid_range = 0.f, 1.f;
LAND:_FillValue = -99999.f;
// ice concentration
float
ICEC(record, y, x);
ICEC:record = "valtime, reftime";
ICEC:_Navigation_var = "nav";
ICEC:long_name = "ice concentration (1=ice, 0=no ice)";
ICEC:units = "fraction";
ICEC:valid_range = 0.f, 1.f;
ICEC:_FillValue = -99999.f;
// temperature 2m above the ground
float
T_2M(record, y, x);
T_2M:record = "valtime, reftime";
T_2M:_Navigation_var = "nav";
T_2M:long_name = "temperature 2m above the ground";
T_2M:units = "kelvin";
T_2M:valid_range = 160.f, 340.f;
T_2M:_FillValue = -99999.f;
// specific humidity 2m above ground
float
SH_2M(record, y, x);
SH_2M:record = "valtime, reftime";
SH_2M:_Navigation_var = "nav";
SH_2M:long_name = "specific humidity 2m above ground";
SH_2M:units = "kg/kg";
SH_2M:_FillValue = -99999.f;
// maximum temperature 2m above the ground
float
TMAX_2M(record, y, x);
TMAX_2M:record = "valtime, reftime";
TMAX_2M:_Navigation_var = "nav";
TMAX_2M:long_name = "maximum temperature 2m above the ground";
TMAX_2M:units = "kelvin";
TMAX_2M:valid_range = 160.f, 340.f;
TMAX_2M:_FillValue = -99999.f;
// minimum temperature 2m above the ground
float
TMIN_2M(record, y, x);
TMIN_2M:record = "valtime, reftime";
TMIN_2M:_Navigation_var = "nav";
TMIN_2M:long_name = "minimum temperature 2m above the ground";
TMIN_2M:units = "kelvin";
TMIN_2M:valid_range = 160.f, 340.f;
TMIN_2M:_FillValue = -99999.f;
// water runoff
float
WATR(record, y, x);
WATR:record = "valtime, reftime";
WATR:_Navigation_var = "nav";
WATR:long_name = "water runoff";
WATR:units = "kg/m2";
WATR:_FillValue = -99999.f;
// potential evaporation rate
float
PEVPR(record, y, x);
PEVPR:record = "valtime, reftime";
PEVPR:_Navigation_var = "nav";
PEVPR:long_name = "potential evaporation rate";
PEVPR:units = "W/m2";
PEVPR:_FillValue = -99999.f;
// cloud work function
float
CWF(record, y, x);
CWF:record = "valtime, reftime";
CWF:_Navigation_var = "nav";
CWF:long_name = "cloud work function";
CWF:units = "J/kg";
CWF:_FillValue = -99999.f;
// planetary boundary layer height
float
PBLH(record, y, x);
PBLH:record = "valtime, reftime";
PBLH:_Navigation_var = "nav";
PBLH:long_name = "planetary boundary layer height";
PBLH:units = "meters";
PBLH:_FillValue = -99999.f;
// albedo at the surface
float
ALBDO(record, y, x);
ALBDO:record = "valtime, reftime";
ALBDO:_Navigation_var = "nav";
ALBDO:long_name = "albedo at the surface";
ALBDO:units = "percent";
ALBDO:_FillValue = -99999.f;
// total cloud cover - atmos col
float
TCC_HAC(record, y, x);
TCC_HAC:record = "valtime, reftime";
TCC_HAC:_Navigation_var = "nav";
TCC_HAC:long_name = "total cloud cover - atmos col";
TCC_HAC:units = "percent";
TCC_HAC:_FillValue = -99999.f;
// total cloud cover - convective cloud
float
TCC_CON(record, y, x);
TCC_CON:record = "valtime, reftime";
TCC_CON:_Navigation_var = "nav";
TCC_CON:long_name = "total cloud cover - convective cloud";
TCC_CON:units = "percent";
TCC_CON:_FillValue = -99999.f;
// pressure at top of convective cloud
float
P_TLCON(record, y, x);
P_TLCON:record = "valtime, reftime";
P_TLCON:_Navigation_var = "nav";
P_TLCON:long_name = "pressure at top of convective cloud";
P_TLCON:units = "pascals";
P_TLCON:valid_range = 0.f, 150000.f;
P_TLCON:_FillValue = -99999.f;
// pressure at bottom of convective cloud
float
P_BLCON(record, y, x);
P_BLCON:record = "valtime, reftime";
P_BLCON:_Navigation_var = "nav";
P_BLCON:long_name = "pressure at bottom of convective cloud";
P_BLCON:units = "pascals";
P_BLCON:valid_range = 0.f, 150000.f;
P_BLCON:_FillValue = -99999.f;
// total cloud cover - boundary cloud layer
float
TCC_BND(record, y, x);
TCC_BND:record = "valtime, reftime";
TCC_BND:_Navigation_var = "nav";
TCC_BND:long_name = "total cloud cover - boundary cloud layer";
TCC_BND:units = "percent";
TCC_BND:_FillValue = -99999.f;
// total precipitation at surface
float
APCP(record, y, x);
APCP:record = "valtime, reftime";
APCP:_Navigation_var = "nav";
APCP:long_name = "total precipitation";
APCP:units = "kg/m2";
APCP:valid_range = 0.f, 1000.f;
APCP:_FillValue = -99999.f;
// convective precipitation
float
ACPCP(record, y, x);
ACPCP:record = "valtime, reftime";
ACPCP:_Navigation_var = "nav";
ACPCP:long_name = "convective precipitation";
ACPCP:units = "kg/m2";
ACPCP:valid_range = 0.f, 1000.f;
ACPCP:_FillValue = -99999.f;
// categorical rain at the surface
float
CRAIN(record, y, x);
CRAIN:record = "valtime, reftime";
CRAIN:_Navigation_var = "nav";
CRAIN:long_name = "categorical rain at the surface (1=yes, 0=no)";
CRAIN:units = "flag";
CRAIN:_FillValue = -99999.f;
// categorical freezing rain
float
CFR(record, y, x);
CFR:record = "valtime, reftime";
CFR:_Navigation_var = "nav";
CFR:long_name = "categorical freezing rain at the surface (1=yes,
0=no)";
CFR:units = "flag";
CFR:_FillValue = -99999.f;
// categorical ice pellets
float
CIP(record, y, x);
CIP:record = "valtime, reftime";
CIP:_Navigation_var = "nav";
CIP:long_name = "categorical ice pellets at the surface (1=yes,
0=no)";
CIP:units = "flag";
CIP:_FillValue = -99999.f;
// categorical snow
float
CS(record, y, x);
CS:record = "valtime, reftime";
CS:_Navigation_var = "nav";
CS:long_name = "categorical snow at the surface (1=yes, 0=no)";
CS:units = "flag";
CS:_FillValue = -99999.f;
// relative humidity 2m above ground
float
RH_2M(record, y, x);
RH_2M:record = "valtime, reftime";
RH_2M:_Navigation_var = "nav";
RH_2M:long_name = "relative humidity 2m above ground";
RH_2M:units = "percent";
RH_2M:valid_range = -10.f, 110.f;
RH_2M:_FillValue = -99999.f;
// zonal momentum flux at the surface
float
ZMF_S(record, y, x);
ZMF_S:record = "valtime, reftime";
ZMF_S:_Navigation_var = "nav";
ZMF_S:long_name = "zonal momentum flux at the surface";
ZMF_S:units = "N/m2";
ZMF_S:_FillValue = -99999.f;
// eastward wind at 10m above ground
float
uW_10M(record, y, x);
uW_10M:record = "valtime, reftime";
uW_10M:_Navigation_var = "nav";
uW_10M:long_name = "eastward wind at 10m above ground";
uW_10M:units = "meters/second";
uW_10M:valid_range = -300.f, 300.f;
uW_10M:_FillValue = -99999.f;
// zonal gravity wave stress
float
ZGWS(record, y, x);
ZGWS:record = "valtime, reftime";
ZGWS:_Navigation_var = "nav";
ZGWS:long_name = "zonal gravity wave stress";
ZGWS:units = "N/m2";
ZGWS:_FillValue = -99999.f;
// meridional momentum flux
float
MMF(record, y, x);
MMF:record = "valtime, reftime";
MMF:_Navigation_var = "nav";
MMF:long_name = "meridional momentum flux";
MMF:units = "N/m2";
MMF:_FillValue = -99999.f;
// northward wind at 10m above ground
float
vW_10M(record, y, x);
vW_10M:record = "valtime, reftime";
vW_10M:_Navigation_var = "nav";
vW_10M:long_name = "northward wind at 10m above ground";
vW_10M:units = "meters/second";
vW_10M:valid_range = -300.f, 300.f;
vW_10M:_FillValue = -99999.f;
// meridional gravity wave stress
float
MGWS(record, y, x);
MGWS:record = "valtime, reftime";
MGWS:_Navigation_var = "nav";
MGWS:long_name = "meridional gravity wave stress";
MGWS:units = "N/m2";
MGWS:_FillValue = -99999.f;
// geopotential height anomaly
float
GHA(record, numIsoLevel, y, x);
GHA:record = "valtime, reftime";
GHA:_Navigation_var = "nav";
GHA:numIsoLevel = "isoLevel";
GHA:long_name = "geopotential height anomaly";
GHA:units = "gpm";
GHA:_FillValue = -99999.f;
// 5-wave geopotential height anomaly
float
WAV5(record, y, x);
WAV5:record = "valtime, reftime";
WAV5:_Navigation_var = "nav";
WAV5:long_name = "5-wave geopotential height anomaly - 500 mb";
WAV5:units = "gpm";
WAV5:_FillValue = -99999.f;
// time the data is valid at
double
valtime(record);
valtime:long_name = "valid time";
valtime:units = "seconds since (1970-1-1 00:00:00.0)";
// reference time of the model
double
reftime(record);
reftime:long_name = "reference time";
reftime:units = "seconds since (1970-1-1 00:00:00.0)";
// vertical levels
double
isoLevel(numIsoLevel);
isoLevel:long_name = "isobaric levels";
isoLevel:units = "millibars";
double
fixedHeightLevels(fixedHeight);
fixedHeightLevels:long_name = "fixed height levels";
fixedHeightLevels:units = "meters";
// nice name for originating center
char
origin(namelen);
// nice name for model
char
model(namelen);
// nice name for grid
char
grid(namelen);
//----------------------------------------------------------------------
// navigation information
//----------------------------------------------------------------------
// projection type
char
nav(namelen);
nav:long_name = "projection type";
// version number of cdl definition
int
version;
:history = "created by FSL Data Systems";
:title = "Global 26 layer spectral Aviation Model";
:query = "GDAM.NMC.AVN126.65160PointGlobalLatLon.*";
:age = 21600;
data:
version = 1;
origin = "NOAA/ERL Forecast Systems Laboratory, Boulder CO";
model = "126 wave triangular, 26 layer spectral aviation run";
grid = "global";
nav = "Latitude/Longitude";
isoLevel = 1000.0, 975.0, 950.0, 925.0, 900.0, 850.0, 800.0,
750.0, 700.0, 650.0, 600.0, 550.0, 500.0, 450.0,
400.0, 350.0, 300.0, 250.0, 200.0, 150.0, 100.0,
70.0, 50.0, 30.0, 20.0, 10.0;
fixedHeightLevels = 1829.0, 2743.0, 3658.0;
}
------- End of Forwarded Message
