C $Header: /u/gcmpack/MITgcm/pkg/land/land_readparms.F,v 1.13 2009/04/28 22:10:02 jmc Exp $
C $Name: $
#include "LAND_OPTIONS.h"
CBOP
C !ROUTINE: LAND_READPARMS
C !INTERFACE:
SUBROUTINE LAND_READPARMS( myThid )
C !DESCRIPTION: \bv
C *==========================================================*
C | S/R LAND_READPARMS
C | o Read Land package parameters
C *==========================================================*
C \ev
C !USES:
IMPLICIT NONE
C == Global variables ===
C-- size for MITgcm & Land package :
#include "LAND_SIZE.h"
#include "EEPARAMS.h"
#include "PARAMS.h"
#include "LAND_PARAMS.h"
#ifdef ALLOW_MNC
#include "MNC_PARAMS.h"
#endif
C !INPUT/OUTPUT PARAMETERS:
C == Routine Arguments ==
C myThid :: Number of this instance
INTEGER myThid
CEOP
#ifdef ALLOW_LAND
C Functions
INTEGER ILNBLNK
C == Local Variables ==
C msgBuf :: Informational/error meesage buffer
C iUnit :: Work variable for IO unit number
C k :: loop counter
C iL :: Work variable for length of file-name
CHARACTER*(MAX_LEN_MBUF) msgBuf
INTEGER iUnit, k, iL
_RL tmpvar
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
C-- Land model parameters:
C land_calc_grT :: step forward ground Temperature
C land_calc_grW :: step forward soil moiture
C land_impl_grT :: solve ground Temperature implicitly
C land_calc_snow :: step forward snow thickness
C land_calc_alb :: compute albedo of snow over land
C land_oldPickup :: restart from an old pickup (= before checkpoint 52j)
C land_grT_iniFile :: File containing initial ground Temp.
C land_grW_iniFile :: File containing initial ground Water.
C land_snow_iniFile :: File containing initial snow thickness.
C land_deltaT :: land model time-step
C land_taveFreq :: Frequency^-1 for time-Aver. output (s)
C land_diagFreq :: Frequency^-1 for diagnostic output (s)
C land_monFreq :: Frequency^-1 for monitor output (s)
C land_dzF :: layer thickness
NAMELIST //LAND_MODEL_PAR
& land_calc_grT, land_calc_grW,
& land_impl_grT, land_calc_snow,
& land_calc_alb, land_oldPickup,
& land_grT_iniFile, land_grW_iniFile, land_snow_iniFile,
& land_deltaT, land_taveFreq, land_diagFreq, land_monFreq,
& land_dzF,
& land_timeave_mnc, land_snapshot_mnc, land_mon_mnc,
& land_pickup_write_mnc, land_pickup_read_mnc
C-- Physical constants :
C land_grdLambda :: Thermal conductivity of the ground
C land_heatCs :: Heat capacity of dry soil (J/m3/K)
C land_CpWater :: Heat capacity of water (J/kg/K)
C land_wTauDiff :: soil moisture diffusion time scale
C land_waterCap :: field capacity per meter of soil
C land_fractRunOff:: fraction of water in excess which run-off
C land_rhoLiqW :: density of liquid water (kg/m3)
C land_rhoSnow :: density of snow (kg/m3)
C land_Lfreez :: Latent heat of freezing (J/kg)
C land_hMaxSnow :: Maximum snow-thickness (m)
C diffKsnow :: thermal conductivity of snow (W/m/K)
C timeSnowAge :: snow aging time scale (s)
C hNewSnowAge :: new snow thickness that refresh the snow-age (by 1/e)
C albColdSnow :: albedo of cold (=dry) new snow (Tsfc < -10)
C albWarmSnow :: albedo of warm (=wet) new snow (Tsfc = 0)
C albOldSnow :: albedo of old snow (snowAge > 35.d)
C hAlbSnow :: snow thickness for albedo transition: snow/ground
NAMELIST //LAND_PHYS_PAR
& land_grdLambda, land_heatCs, land_CpWater,
& land_wTauDiff, land_waterCap, land_fractRunOff,
& land_rhoLiqW,
& land_rhoSnow, land_Lfreez,
& land_hMaxSnow, diffKsnow, timeSnowAge, hNewSnowAge,
& albColdSnow, albWarmSnow, tempSnowAlbL, albOldSnow, hAlbSnow
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
_BEGIN_MASTER(myThid)
C- Set default value:
land_calc_grT = .TRUE.
land_calc_grW = .TRUE.
land_impl_grT = .TRUE.
land_calc_snow= .TRUE.
land_calc_alb = .TRUE.
land_oldPickup= .FALSE.
land_grT_iniFile = ' '
land_grW_iniFile = ' '
land_snow_iniFile= ' '
land_deltaT = deltaTclock
land_taveFreq = taveFreq
land_diagFreq = dumpFreq
land_monFreq = monitorFreq
#ifdef ALLOW_MNC
land_timeave_mnc = timeave_mnc .AND. useMNC
land_snapshot_mnc = snapshot_mnc .AND. useMNC
land_mon_mnc = monitor_mnc .AND. useMNC
land_pickup_write_mnc = pickup_write_mnc .AND. useMNC
land_pickup_read_mnc = pickup_read_mnc .AND. useMNC
#else
land_timeave_mnc = .FALSE.
land_snapshot_mnc = .FALSE.
land_mon_mnc = .FALSE.
land_pickup_write_mnc = .FALSE.
land_pickup_read_mnc = .FALSE.
#endif
land_grdLambda= 0.42 _d 0
land_heatCs = 1.13 _d 6
land_CpWater = 4.2 _d 3
c land_CpWater = HeatCapacity_Cp
land_wTauDiff = 48. _d 0*3600. _d 0
land_waterCap = 0.24 _d 0
land_fractRunOff = 0.5 _d 0
land_rhoLiqW = rhoConstFresh
C- snow parameters:
land_rhoSnow = 330. _d 0
land_Lfreez = 334. _d 3
land_hMaxSnow = 1. _d 3
diffKsnow = 0.30 _d 0
timeSnowAge = 50. _d 0 * 86400. _d 0
hNewSnowAge = 2. _d -3
albColdSnow = 0.85 _d 0
albWarmSnow = 0.70 _d 0
tempSnowAlbL = -10. _d 0
albOldSnow = 0.55 _d 0
hAlbSnow = 0.30 _d 0
C- layer thickness:
DO k=1,land_nLev
land_dzF(k) = -1.
land_rec_dzC(k) = -1.
ENDDO
WRITE(msgBuf,'(A)') ' LAND_READPARMS: opening data.land'
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
I SQUEEZE_RIGHT, myThid )
CALL OPEN_COPY_DATA_FILE( 'data.land', 'LAND_READPARMS',
O iUnit, myThid )
C-- Read parameters from open data file:
C- Parameters for Land model:
READ(UNIT=iUnit,NML=LAND_MODEL_PAR)
C- Physical Constants for Land package
READ(UNIT=iUnit,NML=LAND_PHYS_PAR)
WRITE(msgBuf,'(A)')
& ' LAND_READPARMS: finished reading data.land'
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit,
I SQUEEZE_RIGHT, myThid )
C-- Close the open data file
CLOSE(iUnit)
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
C- derive other parameters:
land_impl_grT = land_calc_grT .AND. land_impl_grT
tmpvar = 0. _d 0
DO k=1,land_nLev
tmpvar = tmpvar+land_dzF(k)
IF (tmpvar.GT.0. _d 0) land_rec_dzC(k) = 2. _d 0 / tmpvar
tmpvar = land_dzF(k)
ENDDO
IF ( land_Lfreez.NE. 0. _d 0 ) THEN
recip_Lfreez = 1. _d 0 / land_Lfreez
ELSE
recip_Lfreez = 0. _d 0
ENDIF
C-- Check parameters and model configuration
IF ( land_nLev.NE.2 .AND. land_impl_grT ) THEN
WRITE(msgBuf,'(2A,I3)') 'LAND_READPARMS: ',
& ' land_impl_grT=.T. but land_nLev=',land_nLev
CALL PRINT_ERROR( msgBuf, myThid)
WRITE(msgBuf,'(A)')
& 'Implicit scheme only implemented for 2 levels land Temp'
CALL PRINT_ERROR( msgBuf, myThid)
STOP 'ABNORMAL END: S/R LAND_READPARMS'
ENDIF
C- If land_taveFreq is positive, then must compile the land-diagnostics code
#ifndef ALLOW_LAND_TAVE
IF (land_taveFreq.GT.0.) THEN
WRITE(msgBuf,'(2A)') 'LAND_READPARMS:',
& ' land_taveFreq > 0 but ALLOW_LAND_TAVE undefined'
CALL PRINT_ERROR( msgBuf, myThid)
WRITE(msgBuf,'(2A)') 'Re-compile setting: ',
& '#define ALLOW_LAND_TAVE (in LAND_OPTIONS.h)'
CALL PRINT_ERROR( msgBuf, myThid)
STOP 'ABNORMAL END: S/R LAND_READPARMS'
ENDIF
#endif /* ALLOW_LAND_TAVE */
C- If land_monFreq is > 0, then must compile the monitor pkg
#ifndef ALLOW_MONITOR
IF (land_monFreq.GT.0.) THEN
WRITE(msgBuf,'(2A)') 'LAND_READPARMS:',
& ' land_monFreq > 0 but ALLOW_MONITOR undefined'
CALL PRINT_ERROR( msgBuf, myThid)
WRITE(msgBuf,'(2A)')
& 'Re-compile with pkg monitor (in packages.conf)'
CALL PRINT_ERROR( msgBuf, myThid)
STOP 'ABNORMAL END: S/R LAND_READPARMS'
ENDIF
#endif /* ALLOW_MONITOR */
#ifdef ALLOW_MNC
land_timeave_mnc = useMNC .AND. land_timeave_mnc
land_snapshot_mnc = useMNC .AND. land_snapshot_mnc
land_mon_mnc = useMNC .AND. land_mon_mnc
land_pickup_write_mnc = useMNC .AND. land_pickup_write_mnc
land_pickup_read_mnc = useMNC .AND. land_pickup_read_mnc
land_timeave_mdsio = (.NOT.land_timeave_mnc)
& .OR. outputTypesInclusive
land_snapshot_mdsio = (.NOT.land_snapshot_mnc)
& .OR. outputTypesInclusive
land_mon_stdio = (.NOT.land_mon_mnc)
& .OR. outputTypesInclusive
land_pickup_write_mdsio = (.NOT.land_pickup_write_mnc)
& .OR. outputTypesInclusive
#else
land_timeave_mnc = .FALSE.
land_snapshot_mnc = .FALSE.
land_mon_mnc = .FALSE.
land_pickup_write_mnc = .FALSE.
land_pickup_read_mnc = .FALSE.
land_timeave_mdsio = .TRUE.
land_snapshot_mdsio = .TRUE.
land_mon_stdio = .TRUE.
land_pickup_write_mdsio = .TRUE.
#endif
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
C-- Print out parameter values :
iUnit = standardMessageUnit
WRITE(msgBuf,'(A)') ' '
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
WRITE(msgBuf,'(A)') '// ==================================='
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
WRITE(msgBuf,'(A)') '// Land package parameters :'
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
WRITE(msgBuf,'(A)') '// ==================================='
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
C- namelist LAND_MODEL_PAR:
CALL WRITE_0D_L( land_calc_grT, INDEX_NONE,
& 'land_calc_grT =',
& ' /* step forward ground Temp. on/off flag */')
CALL WRITE_0D_L( land_calc_grW, INDEX_NONE,
& 'land_calc_grW =',
& ' /* step forward soil moiture on/off flag */')
CALL WRITE_0D_L( land_impl_grT, INDEX_NONE,
& 'land_impl_grT =',
& ' /* solve ground temperature implicitly */')
CALL WRITE_0D_L( land_calc_snow, INDEX_NONE,
& 'land_calc_snow =',
& ' /* step forward snow thickness */')
CALL WRITE_0D_L( land_calc_alb, INDEX_NONE,
& 'land_calc_alb =',
& ' /* compute land+snow albedo */')
iL = ILNBLNK( land_grT_iniFile )
c IF ( iL.EQ.LEN(land_grT_iniFile) ) iL=0
IF ( iL.GE.1 ) THEN
WRITE(msgBuf,'(A,A)') 'land_grT_iniFile = ',
& '/* Initial ground-Temp Input-File */'
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
WRITE(msgBuf,'(16X,A)') land_grT_iniFile(1:iL)
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
msgBuf=' ;'
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
ENDIF
iL = ILNBLNK( land_grW_iniFile )
IF ( iL.GE.1 ) THEN
WRITE(msgBuf,'(A,A)') 'land_grW_iniFile = ',
& '/* Initial soil-Water Input-File */'
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
WRITE(msgBuf,'(16X,A)') land_grW_iniFile(1:iL)
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
msgBuf=' ;'
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
ENDIF
iL = ILNBLNK( land_snow_iniFile )
IF ( iL.GE.1 ) THEN
WRITE(msgBuf,'(A,A)') 'land_snow_iniFile= ',
& '/* Initial snow thickness Input-File */'
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
WRITE(msgBuf,'(16X,A)') land_grW_iniFile(1:iL)
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
msgBuf=' ;'
CALL PRINT_MESSAGE(msgBuf,iUnit,SQUEEZE_RIGHT,myThid)
ENDIF
CALL WRITE_0D_RL( land_deltaT, INDEX_NONE,'land_deltaT =',
& ' /* land model Time-Step (s) */')
CALL WRITE_0D_RL( land_taveFreq, INDEX_NONE,'land_taveFreq =',
& ' /* Frequency^-1 for time-Aver. output (s) */')
CALL WRITE_0D_RL( land_diagFreq, INDEX_NONE,'land_diagFreq =',
& ' /* Frequency^-1 for diagnostic output (s) */')
CALL WRITE_0D_RL( land_diagFreq, INDEX_NONE,'land_monFreq =',
& ' /* Frequency^-1 for monitor output (s) */')
CALL WRITE_1D_RL( land_dzF,land_nLev, INDEX_K,'land_dzF = ',
& ' /* layer thickness ( m ) */')
CALL WRITE_1D_RL(land_rec_dzC,land_nLev,INDEX_K,'land_rec_dzC= '
& ,' /* recip. vertical spacing (m-1) */')
CALL WRITE_0D_L( land_timeave_mdsio, INDEX_NONE,
& 'land_timeave_mdsio =',' /* use MDSIO for Tave output */')
CALL WRITE_0D_L( land_timeave_mnc, INDEX_NONE,
& 'land_timeave_mnc =',' /* use MNC for Tave output */')
CALL WRITE_0D_L( land_snapshot_mdsio, INDEX_NONE,
& 'land_snapshot_mdsio =',
& ' /* use MDSIO for snapshot output */')
CALL WRITE_0D_L( land_snapshot_mnc, INDEX_NONE,
& 'land_snapshot_mnc =',' /* use MNC for snapshot output */')
CALL WRITE_0D_L( land_mon_stdio, INDEX_NONE,
& 'land_mon_stdio =',' /* use STDOUT for monitor output */')
CALL WRITE_0D_L( land_mon_mnc, INDEX_NONE,
& 'land_mon_mnc =',' /* use MNC for monitor output */')
CALL WRITE_0D_L( land_pickup_write_mnc, INDEX_NONE,
& 'land_pickup_write_mnc =',
& ' /* use MNC for writing pickups */')
CALL WRITE_0D_L( land_pickup_read_mnc, INDEX_NONE,
& 'land_pickup_read_mnc =',
& ' /* use MNC for reading pickups */')
C- namelist LAND_PHYS_PAR:
CALL WRITE_0D_RL(land_grdLambda,INDEX_NONE,'land_grdLambda =',
& ' /* Thermal conductivity of the ground (W/m/K)*/')
CALL WRITE_0D_RL( land_heatCs,INDEX_NONE,'land_heatCs =',
& ' /* Heat capacity of dry soil (J/m3/K) */')
CALL WRITE_0D_RL( land_CpWater,INDEX_NONE,'land_CpWater =',
& ' /* Heat capacity of water (J/kg/K) */')
CALL WRITE_0D_RL( land_wTauDiff,INDEX_NONE,'land_wTauDiff =',
& ' /* soil moisture diffusion time scale (s) */')
CALL WRITE_0D_RL( land_waterCap,INDEX_NONE,'land_waterCap =',
& ' /* field capacity per meter of soil (1) */')
CALL WRITE_0D_RL(land_fractRunOff,INDEX_NONE,'land_fractRunOff='
& ,' /* fraction of water in excess which run-off */')
CALL WRITE_0D_RL(land_rhoLiqW,INDEX_NONE,'land_rhoLiqW =',
& ' /* density of liquid water (kg/m3) */')
CALL WRITE_0D_RL(land_rhoSnow,INDEX_NONE,'land_rhoSnow =',
& ' /* density of snow (kg/m3) */')
CALL WRITE_0D_RL(land_Lfreez,INDEX_NONE,'land_Lfreez =',
& ' /* Latent heat of freezing (J/kg) */')
CALL WRITE_0D_RL(land_hMaxSnow,INDEX_NONE,'land_hMaxSnow =',
& ' /* maximum snow-thickness (m) */')
CALL WRITE_0D_RL(diffKsnow,INDEX_NONE,'diffKsnow =',
& ' /* thermal conductivity of snow (W/m/K) */')
CALL WRITE_0D_RL(timeSnowAge,INDEX_NONE,'timeSnowAge =',
& ' /* snow aging time scale (s) */')
CALL WRITE_0D_RL(hNewSnowAge,INDEX_NONE,'hNewSnowAge =',
& ' /* new snow thickness to refresh snow-age by 1/e */')
CALL WRITE_0D_RL(albColdSnow,INDEX_NONE,'albColdSnow =',
& ' /* albedo of cold (=dry) new snow */')
CALL WRITE_0D_RL(albWarmSnow,INDEX_NONE,'albWarmSnow =',
& ' /* albedo of warm (=wet) new snow */')
CALL WRITE_0D_RL(tempSnowAlbL,INDEX_NONE,'tempSnowAlbL =',
& ' /* Temp. transition from ColdSnow to WarmSnow Alb. (oC) */')
CALL WRITE_0D_RL(albOldSnow, INDEX_NONE,'albOldSnow =',
& ' /* albedo of old snow (snowAge >35.d)*/')
CALL WRITE_0D_RL(hAlbSnow, INDEX_NONE,'hAlbSnow =',
& ' /* snow depth for albedo transition */')
C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
_END_MASTER(myThid)
C-- Everyone else must wait for the parameters to be loaded
_BARRIER
#endif /* ALLOW_LAND */
RETURN
END