[gradsusr] Aggregating multiple data files

Sara Fenech sarafenech at gmail.com
Mon Jun 2 17:21:45 EDT 2014


Dear Jennifer

Thanks a lot for your reply. I've arranged the things which you have kindly
pointed out in the data descriptor file (shown below), however the values
are still exponentials (see attached image obtained from GrAds) and do not
coincide with the values I obtained from the different data files.

Could it be something to do with the undef option maybe? Thanks again

Sara

dset ^dom2%ch.dat
chsub 1 720 jun
chsub 721 1440 jul
chsub 1441 2160 aug
chsub 2161 2185 sep
options template
undef 1.e30
title  OUTPUT FROM WRF V3.2.1 MODEL
pdef  380 170 lcc  38.429   18.325  190.500   85.500  36.50000  36.50000
16.50000   9600.000   9600.000
xdef 1068 linear   -4.69692   0.04324324
ydef  399 linear   28.84252   0.04324324
zdef   27 linear 1 1
tdef 2185 linear 00Z01JUN2011 60MN
VARS   84
LU_INDEX       1  0  LAND USE CATEGORY (-)
U             27  0  x-wind component (m s-1)
V             27  0  y-wind component (m s-1)
W             27  0  z-wind component (m s-1)
PH            27  0  perturbation geopotential (m2 s-2)
PHB           27  0  base-state geopotential (m2 s-2)
T             27  0  perturbation potential temperature (theta-t0) (K)
MU             1  0  perturbation dry air mass in column (Pa)
MUB            1  0  base state dry air mass in column (Pa)
NEST_POS       1  0  - (-)
P             27  0  perturbation pressure (Pa)
PB            27  0  BASE STATE PRESSURE (Pa)
P_HYD         27  0  hydrostatic pressure (Pa)
Q2             1  0  QV at 2 M (kg kg-1)
T2             1  0  TEMP at 2 M (K)
TH2            1  0  POT TEMP at 2 M (K)
PSFC           1  0  SFC PRESSURE (Pa)
U10            1  0  U at 10 M (m s-1)
V10            1  0  V at 10 M (m s-1)
QVAPOR        27  0  Water vapor mixing ratio (kg kg-1)
QCLOUD        27  0  Cloud water mixing ratio (kg kg-1)
QRAIN         27  0  Rain water mixing ratio (kg kg-1)
QICE          27  0  Ice mixing ratio (kg kg-1)
QSNOW         27  0  Snow mixing ratio (kg kg-1)
QGRAUP        27  0  Graupel mixing ratio (kg kg-1)
LANDMASK       1  0  LAND MASK (1 FOR LAND, 0 FOR WATER) (-)
TSLB           2  0  SOIL TEMPERATURE (K)
SMOIS          2  0  SOIL MOISTURE (m3 m-3)
SH2O           2  0  SOIL LIQUID WATER (m3 m-3)
SMCREL         2  0  RELATIVE SOIL MOISTURE (-)
SEAICE         1  0  SEA ICE FLAG (-)
XICEM          1  0  SEA ICE FLAG (PREVIOUS STEP) (-)
SFROFF         1  0  SURFACE RUNOFF (mm)
UDROFF         1  0  UNDERGROUND RUNOFF (mm)
IVGTYP         1  0  DOMINANT VEGETATION CATEGORY (-)
ISLTYP         1  0  DOMINANT SOIL CATEGORY (-)
VEGFRA         1  0  VEGETATION FRACTION (-)
GRDFLX         1  0  GROUND HEAT FLUX (W m-2)
ACGRDFLX       1  0  ACCUMULATED GROUND HEAT FLUX (J m-2)
SNOW           1  0  SNOW WATER EQUIVALENT (kg m-2)
SNOWH          1  0  PHYSICAL SNOW DEPTH (m)
CANWAT         1  0  CANOPY WATER (kg m-2)
SST            1  0  SEA SURFACE TEMPERATURE (K)
SSTSK          1  0  SKIN SEA SURFACE TEMPERATURE (K)
LAI            1  0  Leaf area index (area/area)
MAPFAC_M       1  0  Map scale factor on mass grid (-)
MAPFAC_MX      1  0  Map scale factor on mass grid, x direction (-)
MAPFAC_MY      1  0  Map scale factor on mass grid, y direction (-)
MF_VX_INV      1  0  Inverse map scale factor on v-grid, x direction (-)
F              1  0  Coriolis sine latitude term (s-1)
E              1  0  Coriolis cosine latitude term (s-1)
SINALPHA       1  0  Local sine of map rotation (-)
COSALPHA       1  0  Local cosine of map rotation (-)
HGT            1  0  Terrain Height (m)
TSK            1  0  SURFACE SKIN TEMPERATURE (K)
RAINC          1  0  ACCUMULATED TOTAL CUMULUS PRECIPITATION (mm)
RAINNC         1  0  ACCUMULATED TOTAL GRID SCALE PRECIPITATION (mm)
SNOWNC         1  0  ACCUMULATED TOTAL GRID SCALE SNOW AND ICE (mm)
GRAUPELNC      1  0  ACCUMULATED TOTAL GRID SCALE GRAUPEL (mm)
HAILNC         1  0  ACCUMULATED TOTAL GRID SCALE HAIL (mm)
CLDFRA        27  0  CLOUD FRACTION (-)
SWDOWN         1  0  DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE (W m-2)
GLW            1  0  DOWNWARD LONG WAVE FLUX AT GROUND SURFACE (W m-2)
OLR            1  0  TOA OUTGOING LONG WAVE (W m-2)
XLAT           1  0  LATITUDE, SOUTH IS NEGATIVE (degree_north)
XLONG          1  0  LONGITUDE, WEST IS NEGATIVE (degree_east)
ALBEDO         1  0  ALBEDO (-)
ALBBCK         1  0  BACKGROUND ALBEDO (-)
EMISS          1  0  SURFACE EMISSIVITY (-)
NOAHRES        1  0  RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET (W m{-2})
TMN            1  0  SOIL TEMPERATURE AT LOWER BOUNDARY (K)
XLAND          1  0  LAND MASK (1 FOR LAND, 2 FOR WATER) (-)
UST            1  0  U* IN SIMILARITY THEORY (m s-1)
PBLH           1  0  PBL HEIGHT (m)
HFX            1  0  UPWARD HEAT FLUX AT THE SURFACE (W m-2)
QFX            1  0  UPWARD MOISTURE FLUX AT THE SURFACE (kg m-2 s-1)
LH             1  0  LATENT HEAT FLUX AT THE SURFACE (W m-2)
ACHFX          1  0  ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE (J m-2)
ACLHF          1  0  ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE (J
m-2)
SNOWC          1  0  FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER) (-)
SR             1  0  fraction of frozen precipitation (-)
POTEVP         1  0  accumulated potential evaporation (W m-2)
SNOPCX         1  0  snow phase change heat flux (W m-2)
SOILTB         1  0  bottom soil temperature (K)
ENDVARS
@ global String comment TITLE =  OUTPUT FROM WRF V3.2.1 MODEL
@ global String comment START_DATE = 2011-06-01_00:00:00
@ global String comment SIMULATION_START_DATE = 2011-06-01_00:00:00
@ global String comment WEST-EAST_GRID_DIMENSION =   381
@ global String comment SOUTH-NORTH_GRID_DIMENSION =   171
@ global String comment BOTTOM-TOP_GRID_DIMENSION =    28
@ global String comment DX =      9600.00
@ global String comment DY =      9600.00
@ global String comment GRIDTYPE = C
@ global String comment DIFF_OPT =     1
@ global String comment KM_OPT =     4
@ global String comment DAMP_OPT =     0
@ global String comment DAMPCOEF =         0.20
@ global String comment KHDIF =         0.00
@ global String comment KVDIF =         0.00
@ global String comment MP_PHYSICS =     6
@ global String comment RA_LW_PHYSICS =     1
@ global String comment RA_SW_PHYSICS =     1
@ global String comment SF_SFCLAY_PHYSICS =     7
@ global String comment SF_SURFACE_PHYSICS =     7
@ global String comment BL_PBL_PHYSICS =     7
@ global String comment CU_PHYSICS =     1
@ global String comment SURFACE_INPUT_SOURCE =     1
@ global String comment SST_UPDATE =     0
@ global String comment GRID_FDDA =     0
@ global String comment GFDDA_INTERVAL_M =     0
@ global String comment GFDDA_END_H =     0
@ global String comment GRID_SFDDA =     0
@ global String comment SGFDDA_INTERVAL_M =     0
@ global String comment SGFDDA_END_H =     0
@ global String comment SF_URBAN_PHYSICS =     0
@ global String comment FEEDBACK =     0
@ global String comment SMOOTH_OPTION =     0
@ global String comment SWRAD_SCAT =         1.00
@ global String comment W_DAMPING =     0
@ global String comment MOIST_ADV_OPT =     1
@ global String comment SCALAR_ADV_OPT =     1
@ global String comment TKE_ADV_OPT =     1
@ global String comment DIFF_6TH_OPT =     0
@ global String comment DIFF_6TH_FACTOR =         0.12
@ global String comment OBS_NUDGE_OPT =     0
@ global String comment BUCKET_MM =        -1.00
@ global String comment BUCKET_J =        -1.00
@ global String comment PREC_ACC_DT =         0.00
@ global String comment OMLCALL =     0
@ global String comment ISFTCFLX =     0
@ global String comment WEST-EAST_PATCH_START_UNSTAG =     1
@ global String comment WEST-EAST_PATCH_END_UNSTAG =   380
@ global String comment WEST-EAST_PATCH_START_STAG =     1
@ global String comment WEST-EAST_PATCH_END_STAG =   381
@ global String comment SOUTH-NORTH_PATCH_START_UNSTAG =     1
@ global String comment SOUTH-NORTH_PATCH_END_UNSTAG =   170
@ global String comment SOUTH-NORTH_PATCH_START_STAG =     1
@ global String comment SOUTH-NORTH_PATCH_END_STAG =   171
@ global String comment BOTTOM-TOP_PATCH_START_UNSTAG =     1
@ global String comment BOTTOM-TOP_PATCH_END_UNSTAG =    27
@ global String comment BOTTOM-TOP_PATCH_START_STAG =     1
@ global String comment BOTTOM-TOP_PATCH_END_STAG =    28
@ global String comment GRID_ID =     2
@ global String comment PARENT_ID =     1
@ global String comment I_PARENT_START =    16
@ global String comment J_PARENT_START =    18
@ global String comment PARENT_GRID_RATIO =     5
@ global String comment DT =        48.00
@ global String comment CEN_LAT =        38.43
@ global String comment CEN_LON =        18.33
@ global String comment TRUELAT1 =        36.50
@ global String comment TRUELAT2 =        36.50
@ global String comment MOAD_CEN_LAT =        36.50
@ global String comment STAND_LON =        16.50
@ global String comment POLE_LAT =        90.00
@ global String comment POLE_LON =         0.00
@ global String comment GMT =         0.00
@ global String comment JULYR =  2011
@ global String comment JULDAY =   152
@ global String comment MAP_PROJ =     1
@ global String comment MMINLU = USGS
@ global String comment NUM_LAND_CAT =    24
@ global String comment ISWATER =    16
@ global String comment ISLAKE =    -1
@ global String comment ISICE =    24
@ global String comment ISURBAN =     1
@ global String comment ISOILWATER =    14



On Mon, Jun 2, 2014 at 5:12 PM, Jennifer Adams <jma at cola.iges.org> wrote:

> Hi, Sara --
> I believe the strange results you are seeing may be because you do not
> need 'options byteswapped'. Other problems I noticed:
> 1. You are missing 'template' in your options entry.
> 2. The %mc template looks for a 3-character month abbreviation, so you
> need to rename dom2sept.dat to dom2sep.dat.
> 3. The date ranges in your files do not actually span the entire month, so
> starting with 00z31jul you will be seeing I/O error messages. Your file
> labeled 'sept' does not actually contain any data for September! Use %c
> instead of %mc and put some CHSUB entries to tell grads which time steps
> are contained in each file.
> --Jennifer
>
>
> On Jun 2, 2014, at 7:05 AM, Sara Fenech wrote:
>
> Dear all
>
> I am trying to aggregate 4 .dat files using a data descriptor file using
> a single DSET entry and setting option to template. I have the following 4
> .dat files of hourly data for the corresponding months (2185 datasets in
> all)
>
> *dom2jun.dat*   (from 00Z01Jun2011 to 23Z30Jun2011) *(720 files)*
> *dom2jul.dat*    (from 00Z01Jul2011 to 23Z30Jul2011) *(720 files)*
> *dom2aug.dat *  (from 00Z31Jul2011 to 23Z29Aug2011) *(720 files)*
>  *dom2sept.dat*  (from 00Z30Aug2011 to 00Z31Aug2011) *(25 files)*
>
> Using the following data descriptor file (*dom2JJA.ctl*) I need to open
> all the .dat files one after the other so as to act as a single file and
> thus can obtain different parameters for all the time range at once. The
> only difference between the .dat files is that the time range varies.
>
> The problem is that when I am opening this descriptor file in GrAds and I
> try to access different parameters, the values are exponentials and do not
> agree with the values I extract when opening the files individually.
>
> Is there anyone who can spot what I'm doing wrong in my descriptor file
> please? Thanks a lot and I appreciate all your help
>
> Kind Regards
> Sara
>
> dset ^dom2%mc.dat
> options  byteswapped
> undef 1.e30
> title  OUTPUT FROM WRF V3.2.1 MODEL
> pdef  380 170 lcc  38.429   18.325  190.500   85.500  36.50000  36.50000
> 16.50000   9600.000   9600.000
> xdef 1068 linear   -4.69692   0.04324324
> ydef  399 linear   28.84252   0.04324324
> zdef   27 linear 1 1
> tdef 2185 linear 00Z01JUN2011 60MN
> VARS   84
> LU_INDEX       1  0  LAND USE CATEGORY (-)
> U             27  0  x-wind component (m s-1)
> V             27  0  y-wind component (m s-1)
> W             27  0  z-wind component (m s-1)
> PH            27  0  perturbation geopotential (m2 s-2)
> PHB           27  0  base-state geopotential (m2 s-2)
> T             27  0  perturbation potential temperature (theta-t0) (K)
> MU             1  0  perturbation dry air mass in column (Pa)
> MUB            1  0  base state dry air mass in column (Pa)
> NEST_POS       1  0  - (-)
> P             27  0  perturbation pressure (Pa)
> PB            27  0  BASE STATE PRESSURE (Pa)
> P_HYD         27  0  hydrostatic pressure (Pa)
> Q2             1  0  QV at 2 M (kg kg-1)
> T2             1  0  TEMP at 2 M (K)
> TH2            1  0  POT TEMP at 2 M (K)
> PSFC           1  0  SFC PRESSURE (Pa)
> U10            1  0  U at 10 M (m s-1)
> V10            1  0  V at 10 M (m s-1)
> QVAPOR        27  0  Water vapor mixing ratio (kg kg-1)
> QCLOUD        27  0  Cloud water mixing ratio (kg kg-1)
> QRAIN         27  0  Rain water mixing ratio (kg kg-1)
> QICE          27  0  Ice mixing ratio (kg kg-1)
> QSNOW         27  0  Snow mixing ratio (kg kg-1)
> QGRAUP        27  0  Graupel mixing ratio (kg kg-1)
> LANDMASK       1  0  LAND MASK (1 FOR LAND, 0 FOR WATER) (-)
> TSLB           2  0  SOIL TEMPERATURE (K)
> SMOIS          2  0  SOIL MOISTURE (m3 m-3)
> SH2O           2  0  SOIL LIQUID WATER (m3 m-3)
> SMCREL         2  0  RELATIVE SOIL MOISTURE (-)
> SEAICE         1  0  SEA ICE FLAG (-)
> XICEM          1  0  SEA ICE FLAG (PREVIOUS STEP) (-)
> SFROFF         1  0  SURFACE RUNOFF (mm)
> UDROFF         1  0  UNDERGROUND RUNOFF (mm)
> IVGTYP         1  0  DOMINANT VEGETATION CATEGORY (-)
> ISLTYP         1  0  DOMINANT SOIL CATEGORY (-)
> VEGFRA         1  0  VEGETATION FRACTION (-)
> GRDFLX         1  0  GROUND HEAT FLUX (W m-2)
> ACGRDFLX       1  0  ACCUMULATED GROUND HEAT FLUX (J m-2)
> SNOW           1  0  SNOW WATER EQUIVALENT (kg m-2)
> SNOWH          1  0  PHYSICAL SNOW DEPTH (m)
> CANWAT         1  0  CANOPY WATER (kg m-2)
> SST            1  0  SEA SURFACE TEMPERATURE (K)
> SSTSK          1  0  SKIN SEA SURFACE TEMPERATURE (K)
> LAI            1  0  Leaf area index (area/area)
> MAPFAC_M       1  0  Map scale factor on mass grid (-)
> MAPFAC_MX      1  0  Map scale factor on mass grid, x direction (-)
> MAPFAC_MY      1  0  Map scale factor on mass grid, y direction (-)
> MF_VX_INV      1  0  Inverse map scale factor on v-grid, x direction (-)
> F              1  0  Coriolis sine latitude term (s-1)
> E              1  0  Coriolis cosine latitude term (s-1)
> SINALPHA       1  0  Local sine of map rotation (-)
> COSALPHA       1  0  Local cosine of map rotation (-)
> HGT            1  0  Terrain Height (m)
> TSK            1  0  SURFACE SKIN TEMPERATURE (K)
> RAINC          1  0  ACCUMULATED TOTAL CUMULUS PRECIPITATION (mm)
> RAINNC         1  0  ACCUMULATED TOTAL GRID SCALE PRECIPITATION (mm)
> SNOWNC         1  0  ACCUMULATED TOTAL GRID SCALE SNOW AND ICE (mm)
> GRAUPELNC      1  0  ACCUMULATED TOTAL GRID SCALE GRAUPEL (mm)
> HAILNC         1  0  ACCUMULATED TOTAL GRID SCALE HAIL (mm)
> CLDFRA        27  0  CLOUD FRACTION (-)
> SWDOWN         1  0  DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE (W m-2)
> GLW            1  0  DOWNWARD LONG WAVE FLUX AT GROUND SURFACE (W m-2)
> OLR            1  0  TOA OUTGOING LONG WAVE (W m-2)
> XLAT           1  0  LATITUDE, SOUTH IS NEGATIVE (degree_north)
> XLONG          1  0  LONGITUDE, WEST IS NEGATIVE (degree_east)
> ALBEDO         1  0  ALBEDO (-)
> ALBBCK         1  0  BACKGROUND ALBEDO (-)
> EMISS          1  0  SURFACE EMISSIVITY (-)
> NOAHRES        1  0  RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET (W m{-2})
> TMN            1  0  SOIL TEMPERATURE AT LOWER BOUNDARY (K)
> XLAND          1  0  LAND MASK (1 FOR LAND, 2 FOR WATER) (-)
> UST            1  0  U* IN SIMILARITY THEORY (m s-1)
> PBLH           1  0  PBL HEIGHT (m)
> HFX            1  0  UPWARD HEAT FLUX AT THE SURFACE (W m-2)
> QFX            1  0  UPWARD MOISTURE FLUX AT THE SURFACE (kg m-2 s-1)
> LH             1  0  LATENT HEAT FLUX AT THE SURFACE (W m-2)
> ACHFX          1  0  ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE (J m-2)
> ACLHF          1  0  ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE (J
> m-2)
> SNOWC          1  0  FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER) (-)
> SR             1  0  fraction of frozen precipitation (-)
> POTEVP         1  0  accumulated potential evaporation (W m-2)
> SNOPCX         1  0  snow phase change heat flux (W m-2)
> SOILTB         1  0  bottom soil temperature (K)
> ENDVARS
> @ global String comment TITLE =  OUTPUT FROM WRF V3.2.1 MODEL
> @ global String comment START_DATE = 2011-06-01_00:00:00
> @ global String comment SIMULATION_START_DATE = 2011-06-01_00:00:00
> @ global String comment WEST-EAST_GRID_DIMENSION =   381
> @ global String comment SOUTH-NORTH_GRID_DIMENSION =   171
> @ global String comment BOTTOM-TOP_GRID_DIMENSION =    28
> @ global String comment DX =      9600.00
> @ global String comment DY =      9600.00
> @ global String comment GRIDTYPE = C
> @ global String comment DIFF_OPT =     1
> @ global String comment KM_OPT =     4
> @ global String comment DAMP_OPT =     0
> @ global String comment DAMPCOEF =         0.20
> @ global String comment KHDIF =         0.00
> @ global String comment KVDIF =         0.00
> @ global String comment MP_PHYSICS =     6
> @ global String comment RA_LW_PHYSICS =     1
> @ global String comment RA_SW_PHYSICS =     1
> @ global String comment SF_SFCLAY_PHYSICS =     7
> @ global String comment SF_SURFACE_PHYSICS =     7
> @ global String comment BL_PBL_PHYSICS =     7
> @ global String comment CU_PHYSICS =     1
> @ global String comment SURFACE_INPUT_SOURCE =     1
> @ global String comment SST_UPDATE =     0
> @ global String comment GRID_FDDA =     0
> @ global String comment GFDDA_INTERVAL_M =     0
> @ global String comment GFDDA_END_H =     0
> @ global String comment GRID_SFDDA =     0
> @ global String comment SGFDDA_INTERVAL_M =     0
> @ global String comment SGFDDA_END_H =     0
> @ global String comment SF_URBAN_PHYSICS =     0
> @ global String comment FEEDBACK =     0
> @ global String comment SMOOTH_OPTION =     0
> @ global String comment SWRAD_SCAT =         1.00
> @ global String comment W_DAMPING =     0
> @ global String comment MOIST_ADV_OPT =     1
> @ global String comment SCALAR_ADV_OPT =     1
> @ global String comment TKE_ADV_OPT =     1
> @ global String comment DIFF_6TH_OPT =     0
> @ global String comment DIFF_6TH_FACTOR =         0.12
> @ global String comment OBS_NUDGE_OPT =     0
> @ global String comment BUCKET_MM =        -1.00
> @ global String comment BUCKET_J =        -1.00
> @ global String comment PREC_ACC_DT =         0.00
> @ global String comment OMLCALL =     0
> @ global String comment ISFTCFLX =     0
> @ global String comment WEST-EAST_PATCH_START_UNSTAG =     1
> @ global String comment WEST-EAST_PATCH_END_UNSTAG =   380
> @ global String comment WEST-EAST_PATCH_START_STAG =     1
> @ global String comment WEST-EAST_PATCH_END_STAG =   381
> @ global String comment SOUTH-NORTH_PATCH_START_UNSTAG =     1
> @ global String comment SOUTH-NORTH_PATCH_END_UNSTAG =   170
> @ global String comment SOUTH-NORTH_PATCH_START_STAG =     1
> @ global String comment SOUTH-NORTH_PATCH_END_STAG =   171
> @ global String comment BOTTOM-TOP_PATCH_START_UNSTAG =     1
> @ global String comment BOTTOM-TOP_PATCH_END_UNSTAG =    27
> @ global String comment BOTTOM-TOP_PATCH_START_STAG =     1
> @ global String comment BOTTOM-TOP_PATCH_END_STAG =    28
> @ global String comment GRID_ID =     2
> @ global String comment PARENT_ID =     1
> @ global String comment I_PARENT_START =    16
> @ global String comment J_PARENT_START =    18
> @ global String comment PARENT_GRID_RATIO =     5
> @ global String comment DT =        48.00
> @ global String comment CEN_LAT =        38.43
> @ global String comment CEN_LON =        18.33
> @ global String comment TRUELAT1 =        36.50
> @ global String comment TRUELAT2 =        36.50
> @ global String comment MOAD_CEN_LAT =        36.50
> @ global String comment STAND_LON =        16.50
> @ global String comment POLE_LAT =        90.00
> @ global String comment POLE_LON =         0.00
> @ global String comment GMT =         0.00
> @ global String comment JULYR =  2011
> @ global String comment JULDAY =   152
> @ global String comment MAP_PROJ =     1
> @ global String comment MMINLU = USGS
> @ global String comment NUM_LAND_CAT =    24
> @ global String comment ISWATER =    16
> @ global String comment ISLAKE =    -1
> @ global String comment ISICE =    24
> @ global String comment ISURBAN =     1
> @ global String comment ISOILWATER =    14
>
>
> _______________________________________________
> gradsusr mailing list
> gradsusr at gradsusr.org
> http://gradsusr.org/mailman/listinfo/gradsusr
>
>
> --
> Jennifer M. Adams
> Center for Ocean-Land-Atmosphere Studies (COLA)
> 111 Research Hall, Mail Stop 2B3
> George Mason University
> 4400 University Drive
> Fairfax, VA 22030
>
>
>
>
>
>
> _______________________________________________
> gradsusr mailing list
> gradsusr at gradsusr.org
> http://gradsusr.org/mailman/listinfo/gradsusr
>
>
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