/[MITgcm]/MITgcm/pkg/thsice/thsice_step_fwd.F

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-revision 1.11 by jmc,
Mon Jul 11 19:00:34 2005 UTC
+revision 1.18 by jmc,
Wed Apr  4 02:40:42 2007 UTC
 Line 6 
 C $Name$
  CBOP
  C     !ROUTINE: THSICE_STEP_FWD
  C     !INTERFACE:
        SUBROUTINE THSICE_STEP_FWD(
       I             bi, bj, iMin, iMax, jMin, jMax,
       I             prcAtm,
-      U             evpAtm, flxSW,
       I             myTime, myIter, myThid )
  C     !DESCRIPTION: \bv
  C     *==========================================================*
  C     | S/R  THSICE_STEP_FWD
  C     | o Step Forward Therm-SeaIce model.
  C     *==========================================================*
  C     \ev
-Line 30 
 C     === Global variables ===
+Line 29 
 C     === Global variables ===
  #include "THSICE_PARAMS.h"
  #include "THSICE_VARS.h"
  #include "THSICE_TAVE.h"
+ #include "THSICE_2DYN.h"
+       INTEGER siLo, siHi, sjLo, sjHi
+       PARAMETER ( siLo = 1-OLx , siHi = sNx+OLx )
+       PARAMETER ( sjLo = 1-OLy , sjHi = sNy+OLy )
  C     !INPUT/OUTPUT PARAMETERS:
  C     === Routine arguments ===
+ C- input:
  C     bi,bj   :: tile indices
  C   iMin,iMax :: computation domain: 1rst index range
  C   jMin,jMax :: computation domain: 2nd  index range
+ C     prcAtm  :: total precip from the atmosphere [kg/m2/s]
+ C     myTime  :: current Time of simulation [s]
+ C     myIter  :: current Iteration number in simulation
+ C     myThid  :: my Thread Id number
+ C-- Use fluxes hold in commom blocks
  C- input:
- C     prcAtm  :: total precip from the atmosphere [kg/m2/s]
+ C     icFlxSW :: net short-wave heat flux (+=down) below sea-ice, into ocean
- C     evpAtm  :: (Inp) evaporation to the atmosphere [kg/m2/s] (>0 if evaporate)
+ C     icFlxAtm  :: net Atmospheric surf. heat flux over sea-ice [W/m2], (+=down)
- C     flxSW   :: (Inp) short-wave heat flux (+=down): downward comp. only
+ C     icFrwAtm  :: evaporation over sea-ice to the atmosphere [kg/m2/s] (+=up)
- C                      (part.1), becomes net SW flux into ocean (part.2).
  C- output
- C     evpAtm  :: (Out) net fresh-water flux (E-P) from the atmosphere [m/s] (+=up)
+ C     icFlxAtm  :: net Atmospheric surf. heat flux over ice+ocean [W/m2], (+=down)
- C     flxSW   :: (Out) net surf. heat flux from the atmosphere [W/m2], (+=down)
+ C     icFrwAtm  :: net fresh-water flux (E-P) from the atmosphere [m/s] (+=up)
- C     myTime  :: time counter for this thread
- C     myIter  :: iteration counter for this thread
- C     myThid  :: thread number for this instance of the routine.
        INTEGER bi,bj
        INTEGER iMin, iMax
        INTEGER jMin, jMax
        _RL prcAtm(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL evpAtm(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL flxSW (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        _RL  myTime
        INTEGER myIter
        INTEGER myThid
-Line 61 
 CEOP
+Line 64 
 CEOP
  #ifdef ALLOW_THSICE
  C     !LOCAL VARIABLES:
  C     === Local variables ===
- C     snowPr    :: snow precipitation [kg/m2/s]
+ C     iceFrac   :: fraction of grid area covered in ice
- C     agingTime :: aging time scale (s)
- C     ageFac    :: snow aging factor [1]
- C     albedo    :: surface albedo [0-1]
- C     flxAtm    :: net heat flux from the atmosphere (+=down) [W/m2]
- C     frwAtm    :: net fresh-water flux (E-P) to the atmosphere  [kg/m2/s]
- C     Fbot      :: the oceanic heat flux already incorporated (ice_therm)
  C     flx2oc    :: net heat flux from the ice to the ocean (+=down) [W/m2]
  C     frw2oc    :: fresh-water flux from the ice to the ocean
  C     fsalt     :: mass salt flux to the ocean
  C     frzmltMxL :: ocean mixed-layer freezing/melting potential [W/m2]
- C     TFrzOce   :: sea-water freezing temperature [oC] (function of S)
+ C     tFrzOce   :: sea-water freezing temperature [oC] (function of S)
-       INTEGER i,j
+ C     isIceFree :: true for ice-free grid-cell that remains ice-free
-       _RL snowPr
+ C     ageFac    :: snow aging factor [1]
-       _RL agingTime, ageFac
+ C     snowFac   :: snowing refreshing-age factor [units of 1/snowPr]
-       _RL albedo
+       LOGICAL isIceFree(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL flxAtm(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL     iceFrac  (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL frwAtm
+       _RL     flx2oc   (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL flx2oc
+       _RL     frw2oc   (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL frw2oc
+       _RL     fsalt    (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL fsalt
+       _RL     tFrzOce  (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL TFrzOce, cphm, frzmltMxL
+       _RL     frzmltMxL(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL Fbot, esurp
+       _RL ageFac
+       _RL snowFac
+       _RL cphm
        _RL opFrac, icFrac
-       _RL oceV2s, oceTs
-       _RL compact, hIce, hSnow, Tsf, Tice(nlyr), qicen(nlyr)
-       _RL tmpflx(0:2), tmpdTs
  #ifdef ALLOW_DIAGNOSTICS
        _RL tmpFac
  #endif
+       INTEGER i,j
+       LOGICAL dBugFlag
-       LOGICAL dBug
+ C-    define grid-point location where to print debugging values
+ #include "THSICE_DEBUG.h"
-FORMAT(A,1P4E11.3)
-       dBug = .FALSE.
- C-    Initialise flxAtm
-        DO j = 1-Oly, sNy+Oly
-         DO i = 1-Olx, sNx+Olx
-           flxAtm(i,j) = 0.
-         ENDDO
-        ENDDO
-       IF ( fluidIsWater ) THEN
+FORMAT(A,1P4E14.6)
-        DO j = jMin, jMax
-         DO i = iMin, iMax
- c        dBug = ( bi.EQ.3 .AND. i.EQ.15 .AND. j.EQ.11 )
  C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
- C    part.1 : ice-covered fraction ;
- C     Solve for surface and ice temperature (implicitly) ; compute surf. fluxes
- C-------
-          IF (iceMask(i,j,bi,bj).GT.0. _d 0) THEN
-           icFrac  = iceMask(i,j,bi,bj)
-           TFrzOce = -mu_Tf*sOceMxL(i,j,bi,bj)
-           hIce    = iceHeight(i,j,bi,bj)
-           hSnow   = snowHeight(i,j,bi,bj)
-           Tsf     = Tsrf(i,j,bi,bj)
-           qicen(1)= Qice1(i,j,bi,bj)
-           qicen(2)= Qice2(i,j,bi,bj)
-           IF ( dBug ) THEN
-            WRITE(6,'(A,2I4,2I2)') 'ThSI_FWD: i,j=',i,j,bi,bj
-            WRITE(6,1010) 'ThSI_FWD:-0- iceMask, hIc, hSn, Tsf  =',
-      &                                 icFrac, hIce,hSnow,Tsf
-           ENDIF
-           CALL THSICE_ALBEDO(
-      I               hIce, hSnow, Tsf, snowAge(i,j,bi,bj),
-      O               albedo,
-      I               myThid )
-           flxSW(i,j) = flxSW(i,j)*(1. _d 0 - albedo)
-           CALL THSICE_SOLVE4TEMP(
-      I          useBulkforce, tmpflx, TFrzOce, hIce, hSnow,
-      U          flxSW(i,j), Tsf, qicen,
-      O          Tice, sHeating(i,j,bi,bj), flxCndBt(i,j,bi,bj),
-      O          tmpdTs, flxAtm(i,j), evpAtm(i,j),
-      I          i,j, bi,bj, myThid)
- #ifdef SHORTWAVE_HEATING
+ C-    Initialise
- C--    Update Fluxes :
+       dBugFlag = debugLevel.GE.debLevB
-           opFrac= 1. _d 0-icFrac
+       DO j = 1-OLy, sNy+OLy
-           Qsw(i,j,bi,bj)=-icFrac*flxSW(i,j) +opFrac*Qsw(i,j,bi,bj)
+         DO i = 1-OLx, sNx+OLx
+           isIceFree(i,j) = .FALSE.
+           saltFlux(i,j,bi,bj) = 0. _d 0
+ #ifdef ALLOW_AUTODIFF_TAMC
+           iceFrac(i,j) = 0.
  #endif
- C--    Update Sea-Ice state :
-           Tsrf(i,j,bi,bj) =Tsf
-           Tice1(i,j,bi,bj)=Tice(1)
-           Tice2(i,j,bi,bj)=Tice(2)
-           Qice1(i,j,bi,bj)=qicen(1)
-           Qice2(i,j,bi,bj)=qicen(2)
-           siceAlb(i,j,bi,bj) = icFrac*albedo
-           IF ( dBug ) THEN
-            WRITE(6,1010) 'ThSI_FWD: Tsf, Tice(1,2), frzmltMxL =',
-      &                              Tsf, Tice, frzmltMxL
-            WRITE(6,1010) 'ThSI_FWD: sHeat,fxCndBt, fxAtm,evAtm=',
-      &                  sHeating(i,j,bi,bj), flxCndBt(i,j,bi,bj),
-      &                  flxAtm(i,j), evpAtm(i,j)
-           ENDIF
-          ENDIF
          ENDDO
+       ENDDO
+       ageFac = 1. _d 0 - thSIce_deltaT/snowAgTime
+       snowFac = thSIce_deltaT/(rhos*hNewSnowAge)
+       DO j = jMin, jMax
+        DO i = iMin, iMax
+         IF (iceMask(i,j,bi,bj).GT.0. _d 0) THEN
+ C--  Snow aging :
+           snowAge(i,j,bi,bj) = thSIce_deltaT
+      &                       + snowAge(i,j,bi,bj)*ageFac
+           IF ( snowPrc(i,j,bi,bj).GT.0. _d 0 )
+      &      snowAge(i,j,bi,bj) = snowAge(i,j,bi,bj)
+      &          * EXP( - snowFac*snowPrc(i,j,bi,bj) )
+ c    &          * EXP( -(thSIce_deltaT*snowPrc(i,j,bi,bj)/rhos)
+ c    &                  /hNewSnowAge )
+ C-------
+ C note: Any flux of mass (here fresh water) that enter or leave the system
+ C       with a non zero energy HAS TO be counted: add snow precip.
+           icFlxAtm(i,j,bi,bj) = icFlxAtm(i,j,bi,bj)
+      &                        - Lfresh*snowPrc(i,j,bi,bj)
+ C--
+         ENDIF
         ENDDO
-       ENDIF
+       ENDDO
-       dBug = .FALSE.
  #ifdef ALLOW_DIAGNOSTICS
        IF ( useDiagnostics ) THEN
-Line 170 
 C--    Update Sea-Ice state :
+Line 138 
 C--    Update Sea-Ice state :
          CALL DIAGNOSTICS_FRACT_FILL(
       I                   snowPrc,   iceMask,tmpFac,1,'SIsnwPrc',
       I                   0,1,1,bi,bj,myThid)
+         CALL DIAGNOSTICS_FRACT_FILL(
+      I                   siceAlb,   iceMask,tmpFac,1,'SIalbedo',
+      I                   0,1,1,bi,bj,myThid)
        ENDIF
  #endif /* ALLOW_DIAGNOSTICS */
+       DO j = jMin, jMax
+        DO i = iMin, iMax
+           siceAlb(i,j,bi,bj) = iceMask(i,j,bi,bj)*siceAlb(i,j,bi,bj)
+        ENDDO
+       ENDDO
  C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
  C    part.2 : ice-covered fraction ;
  C     change in ice/snow thickness and ice-fraction
  C     note: can only reduce the ice-fraction but not increase it.
  C-------
-       agingTime = 50. _d 0 * 86400. _d 0
-       ageFac = 1. _d 0 - thSIce_deltaT/agingTime
        DO j = jMin, jMax
         DO i = iMin, iMax
- c       dBug = ( bi.EQ.3 .AND. i.EQ.15 .AND. j.EQ.11 )
-         TFrzOce = -mu_Tf*sOceMxL(i,j,bi,bj)
+         tFrzOce(i,j) = -mu_Tf*sOceMxL(i,j,bi,bj)
-         oceTs   = tOceMxL(i,j,bi,bj)
          cphm    = cpwater*rhosw*hOceMxL(i,j,bi,bj)
-         frzmltMxL = (TFrzOce-oceTs)*cphm/ocean_deltaT
+         frzmltMxL(i,j) = ( tFrzOce(i,j)-tOceMxL(i,j,bi,bj) )
+      &                 * cphm/ocean_deltaT
-         Fbot   = 0. _d 0
+         iceFrac(i,j) = iceMask(i,j,bi,bj)
-         saltFlux(i,j,bi,bj) = 0. _d 0
+         flx2oc(i,j)  = icFlxSW(i,j,bi,bj)
-         compact= iceMask(i,j,bi,bj)
  C-------
-         IF (dBug .AND. (frzmltMxL.GT.0. .OR. compact.GT.0.) ) THEN
+ #ifdef ALLOW_DBUG_THSICE
+         IF ( dBug(i,j,bi,bj) ) THEN
+          IF (frzmltMxL(i,j).GT.0. .OR. iceFrac(i,j).GT.0.) THEN
            WRITE(6,'(A,2I4,2I2)') 'ThSI_FWD: i,j=',i,j,bi,bj
            WRITE(6,1010) 'ThSI_FWD:-1- iceMask, hIc, hSn, Tsf  =',
-      &                  compact, iceHeight(i,j,bi,bj),
+      &                  iceFrac(i,j), iceHeight(i,j,bi,bj),
       &                  snowHeight(i,j,bi,bj), Tsrf(i,j,bi,bj)
-           WRITE(6,1010) 'ThSI_FWD: ocTs,TFrzOce,frzmltMxL,Qnet=',
+           WRITE(6,1010) 'ThSI_FWD: ocTs,tFrzOce,frzmltMxL,Qnet=',
-      &                     oceTs, TFrzOce, frzmltMxL,Qnet(i,j,bi,bj)
+      &                     tOceMxL(i,j,bi,bj), tFrzOce(i,j),
+      &                     frzmltMxL(i,j), Qnet(i,j,bi,bj)
+          ENDIF
+          IF (iceFrac(i,j).GT.0.)
+      &    WRITE(6,1010) 'ThSI_FWD: icFrac,flxAtm,evpAtm,flxSnw=',
+      &      iceFrac(i,j), icFlxAtm(i,j,bi,bj),
+      &      icFrwAtm(i,j,bi,bj),-Lfresh*snowPrc(i,j,bi,bj)
          ENDIF
- C-------
+ #endif
-         IF (iceMask(i,j,bi,bj).GT.0. _d 0) THEN
+        ENDDO
+       ENDDO
-           oceV2s  = v2ocMxL(i,j,bi,bj)
-           snowPr  = snowPrc(i,j,bi,bj)
-           hIce    = iceHeight(i,j,bi,bj)
-           hSnow   = snowHeight(i,j,bi,bj)
-           Tsf     = Tsrf(i,j,bi,bj)
-           qicen(1)= Qice1(i,j,bi,bj)
-           qicen(2)= Qice2(i,j,bi,bj)
-           flx2oc  = flxSW(i,j)
-           CALL THSICE_CALC_THICKN(
-      I          frzmltMxL, TFrzOce, oceTs, oceV2s, snowPr,
-      I          sHeating(i,j,bi,bj), flxCndBt(i,j,bi,bj), evpAtm(i,j),
-      U          compact, hIce, hSnow, Tsf, qicen, flx2oc,
-      O          frw2oc, fsalt, Fbot,
-      I          dBug, myThid)
- C- note : snowPr was not supposed to be modified in THSICE_THERM ;
- C         but to reproduce old results, is reset to zero if Tsf >= 0
-           snowPrc(i,j,bi,bj) = snowPr
- C--  Snow aging :
-           snowAge(i,j,bi,bj) = thSIce_deltaT
-      &                       + snowAge(i,j,bi,bj)*ageFac
-           IF ( snowPr.GT.0. _d 0 )
-      &      snowAge(i,j,bi,bj) = snowAge(i,j,bi,bj)
-      &          * EXP( -(thSIce_deltaT*snowPr/rhos)/hNewSnowAge )
- C--
- C-- Diagnostic of Atmospheric Fluxes over sea-ice :
-           frwAtm = evpAtm(i,j) - prcAtm(i,j)
- C note: Any flux of mass (here fresh water) that enter or leave the system
- C       with a non zero energy HAS TO be counted: add snow precip.
-           flxAtm(i,j) = flxAtm(i,j) - Lfresh*snowPrc(i,j,bi,bj)
- C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
-       IF (dBug) WRITE(6,1010) 'ThSI_FWD: icFrac,flxAtm,evpAtm,flxSnw=',
-      &  iceMask(i,j,bi,bj),flxAtm(i,j),evpAtm(i,j),-Lfresh*snowPr
-       IF (dBug) WRITE(6,1010) 'ThSI_FWD: compact,flx2oc,fsalt,frw2oc=',
-      &   compact,flx2oc,fsalt,frw2oc
- #ifdef CHECK_ENERGY_CONSERV
-           icFrac = iceMask(i,j,bi,bj)
-           CALL THSICE_CHECK_CONSERV( dBug, i, j, bi, bj, 0,
-      I            icFrac, compact, hIce, hSnow, qicen,
-      I            flx2oc, frw2oc, fsalt, flxAtm(i,j), frwAtm,
-      I            myTime, myIter, myThid )
- #endif /* CHECK_ENERGY_CONSERV */
- C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
- C--    Update Sea-Ice state :
+       CALL THSICE_CALC_THICKN(
- c         iceMask(i,j,bi,bj)=compact
+      I          bi, bj, siLo, siHi, sjLo, sjHi,
-           iceHeight(i,j,bi,bj) = hIce
+      I          iMin,iMax, jMin,jMax, dBugFlag,
-           snowHeight(i,j,bi,bj)= hSnow
+      I          iceMask(siLo,sjLo,bi,bj), tFrzOce,
-           Tsrf(i,j,bi,bj) =Tsf
+      I          tOceMxL(siLo,sjLo,bi,bj), v2ocMxL(siLo,sjLo,bi,bj),
-           Qice1(i,j,bi,bj)=qicen(1)
+      I          snowPrc(siLo,sjLo,bi,bj), prcAtm,
-           Qice2(i,j,bi,bj)=qicen(2)
+      I          sHeating(siLo,sjLo,bi,bj), flxCndBt(siLo,sjLo,bi,bj),
+      U          iceFrac, iceHeight(siLo,sjLo,bi,bj),
+      U          snowHeight(siLo,sjLo,bi,bj), Tsrf(siLo,sjLo,bi,bj),
+      U          Qice1(siLo,sjLo,bi,bj), Qice2(siLo,sjLo,bi,bj),
+      U          icFrwAtm(siLo,sjLo,bi,bj), frzmltMxL, flx2oc,
+      O          frw2oc, fsalt,
+      I          myTime, myIter, myThid )
  C--    Net fluxes :
-           frw2oc = frw2oc + (prcAtm(i,j)-snowPrc(i,j,bi,bj))
+       DO j = jMin, jMax
+        DO i = iMin, iMax
+         IF (iceMask(i,j,bi,bj).GT.0. _d 0) THEN
  C-     weighted average net fluxes:
            icFrac = iceMask(i,j,bi,bj)
            opFrac= 1. _d 0-icFrac
-           flxAtm(i,j) = icFrac*flxAtm(i,j) - opFrac*Qnet(i,j,bi,bj)
+           icFlxAtm(i,j,bi,bj) = icFrac*icFlxAtm(i,j,bi,bj)
-           frwAtm =     icFrac*frwAtm + opFrac*rhofw*EmPmR(i,j,bi,bj)
+      &                        - opFrac*Qnet(i,j,bi,bj)
-           Qnet(i,j,bi,bj)=-icFrac*flx2oc +opFrac*Qnet(i,j,bi,bj)
+           icFrwAtm(i,j,bi,bj) = icFrac*icFrwAtm(i,j,bi,bj)
-           EmPmR(i,j,bi,bj)=-icFrac*frw2oc/rhofw+opFrac*EmPmR(i,j,bi,bj)
+      &                        + opFrac*rhofw*EmPmR(i,j,bi,bj)
-           saltFlux(i,j,bi,bj)=-icFrac*fsalt
+           Qnet(i,j,bi,bj) = -icFrac*flx2oc(i,j) + opFrac*Qnet(i,j,bi,bj)
+           EmPmR(i,j,bi,bj)= -icFrac*frw2oc(i,j)/rhofw
-           IF (dBug) WRITE(6,1010)
+      &                    +  opFrac*EmPmR(i,j,bi,bj)
-      &          'ThSI_FWD:-3- compact, hIc, hSn, Qnet =',
+           saltFlux(i,j,bi,bj) = -icFrac*fsalt(i,j)
-      &                        compact,hIce,hSnow,Qnet(i,j,bi,bj)
+ #ifdef ALLOW_DBUG_THSICE
+           IF (dBug(i,j,bi,bj)) WRITE(6,1010)
+      &          'ThSI_FWD:-3- iceFrac, hIc, hSn, Qnet =',
+      &           iceFrac(i,j), iceHeight(i,j,bi,bj),
+      &           snowHeight(i,j,bi,bj), Qnet(i,j,bi,bj)
+ #endif
          ELSEIF (hOceMxL(i,j,bi,bj).gt.0. _d 0) THEN
-           flxAtm(i,j) =  -Qnet(i,j,bi,bj)
+           icFlxAtm(i,j,bi,bj) = -Qnet(i,j,bi,bj)
-           frwAtm = rhofw*EmPmR(i,j,bi,bj)
+           icFrwAtm(i,j,bi,bj) = rhofw*EmPmR(i,j,bi,bj)
          ELSE
-           flxAtm(i,j) = 0. _d 0
+           icFlxAtm(i,j,bi,bj) = 0. _d 0
-           frwAtm      = 0. _d 0
+           icFrwAtm(i,j,bi,bj) = 0. _d 0
          ENDIF
+        ENDDO
+       ENDDO
  C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
  C    part.3 : freezing of sea-water
  C     over ice-free fraction and what is left from ice-covered fraction
  C-------
- c       compact= iceMask(i,j,bi,bj)
+       CALL THSICE_EXTEND(
-         hIce   = iceHeight(i,j,bi,bj)
+      I          bi, bj, siLo, siHi, sjLo, sjHi,
-         hSnow  = snowHeight(i,j,bi,bj)
+      I          iMin,iMax, jMin,jMax, dBugFlag,
+      I          frzmltMxL, tFrzOce,
-         esurp  = frzmltMxL - Fbot*iceMask(i,j,bi,bj)
+      I          tOceMxL(siLo,sjLo,bi,bj),
-         IF (esurp.GT.0. _d 0) THEN
+      U          iceFrac, iceHeight(siLo,sjLo,bi,bj),
-           icFrac = compact
+      U          snowHeight(siLo,sjLo,bi,bj), Tsrf(siLo,sjLo,bi,bj),
-           qicen(1)= Qice1(i,j,bi,bj)
+      U          Tice1(siLo,sjLo,bi,bj), Tice2(siLo,sjLo,bi,bj),
-           qicen(2)= Qice2(i,j,bi,bj)
+      U          Qice1(siLo,sjLo,bi,bj), Qice2(siLo,sjLo,bi,bj),
-           CALL THSICE_EXTEND(
+      O          flx2oc, frw2oc, fsalt,
-      I               esurp, TFrzOce,
+      I          myTime, myIter, myThid )
-      U               oceTs, compact, hIce, hSnow, qicen,
-      O               flx2oc, frw2oc, fsalt,
+       DO j = jMin, jMax
-      I               dBug, myThid )
+        DO i = iMin, iMax
- C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
+         IF (frzmltMxL(i,j).GT.0. _d 0) THEN
-       IF (dBug) WRITE(6,1010) 'ThSI_FWD: compact,flx2oc,fsalt,frw2oc='
-      &                 ,compact,flx2oc,fsalt,frw2oc
- #ifdef CHECK_ENERGY_CONSERV
-           tmpflx(1) = 0.
-           tmpflx(2) = 0.
-           CALL THSICE_CHECK_CONSERV( dBug, i, j, bi, bj, 1,
-      I            icFrac, compact, hIce, hSnow, qicen,
-      I            flx2oc, frw2oc, fsalt, tmpflx(1), tmpflx(2),
-      I            myTime, myIter, myThid )
- #endif /* CHECK_ENERGY_CONSERV */
- C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
- C--    Update Sea-Ice state :
-           IF ( compact.GT.0. _d 0 .AND. icFrac.EQ.0. _d 0) THEN
-              Tsrf(i,j,bi,bj)  = TFrzOce
-              Tice1(i,j,bi,bj) = TFrzOce
-              Tice2(i,j,bi,bj) = TFrzOce
-              Qice1(i,j,bi,bj) = qicen(1)
-              Qice2(i,j,bi,bj) = qicen(2)
-           ENDIF
-           iceHeight(i,j,bi,bj) = hIce
-           snowHeight(i,j,bi,bj)= hSnow
  C--    Net fluxes :
-           Qnet(i,j,bi,bj) = Qnet(i,j,bi,bj) - flx2oc
+           Qnet(i,j,bi,bj) = Qnet(i,j,bi,bj) - flx2oc(i,j)
-           EmPmR(i,j,bi,bj)= EmPmR(i,j,bi,bj)- frw2oc/rhofw
+           EmPmR(i,j,bi,bj)= EmPmR(i,j,bi,bj)- frw2oc(i,j)/rhofw
-           saltFlux(i,j,bi,bj)=saltFlux(i,j,bi,bj) - fsalt
+           saltFlux(i,j,bi,bj)=saltFlux(i,j,bi,bj) - fsalt(i,j)
-           IF (dBug) WRITE(6,1010)
+ #ifdef ALLOW_DBUG_THSICE
-      &          'ThSI_FWD:-4- compact, hIc, hSn, Qnet =',
+           IF (dBug(i,j,bi,bj)) WRITE(6,1010)
-      &                        compact,hIce,hSnow,Qnet(i,j,bi,bj)
+      &         'ThSI_FWD:-4- iceFrac, hIc, hSn, Qnet =',
- C--   - if esurp > 0 : end
+      &           iceFrac(i,j), iceHeight(i,j,bi,bj),
+      &           snowHeight(i,j,bi,bj), Qnet(i,j,bi,bj)
+ #endif
          ENDIF
-         IF ( compact .GT. 0. _d 0 ) THEN
+         IF ( hOceMxL(i,j,bi,bj).GT.0. _d 0 )
-           iceMask(i,j,bi,bj)=compact
+      &    isIceFree(i,j) = iceMask(i,j,bi,bj).LE.0. _d 0
-           IF ( hSnow .EQ. 0. _d 0 ) snowAge(i,j,bi,bj) = 0. _d 0
+      &                  .AND.   iceFrac(i,j) .LE.0. _d 0
+         IF ( iceFrac(i,j) .GT. 0. _d 0 ) THEN
+           iceMask(i,j,bi,bj)=iceFrac(i,j)
+           IF ( snowHeight(i,j,bi,bj).EQ.0. _d 0 )
+      &     snowAge(i,j,bi,bj) = 0. _d 0
          ELSE
            iceMask(i,j,bi,bj)  = 0. _d 0
            iceHeight(i,j,bi,bj)= 0. _d 0
            snowHeight(i,j,bi,bj)=0. _d 0
            snowAge(i,j,bi,bj)  = 0. _d 0
-           Tsrf(i,j,bi,bj)     = oceTs
+           Tsrf(i,j,bi,bj)     = tOceMxL(i,j,bi,bj)
            Tice1(i,j,bi,bj)    = 0. _d 0
            Tice2(i,j,bi,bj)    = 0. _d 0
            Qice1(i,j,bi,bj)    = 0. _d 0
            Qice2(i,j,bi,bj)    = 0. _d 0
          ENDIF
- C--     Return atmospheric fluxes in evpAtm & flxSW (same sign and units):
-         evpAtm(i,j) = frwAtm
-         flxSW (i,j) = flxAtm(i,j)
  #ifdef ATMOSPHERIC_LOADING
  C--     Compute Sea-Ice Loading (= mass of sea-ice + snow / area unit)
          sIceLoad(i,j,bi,bj) = ( snowHeight(i,j,bi,bj)*rhos
-Line 363 
 C--     Compute Sea-Ice Loading (= mass
+Line 292 
 C--     Compute Sea-Ice Loading (= mass
         ENDDO
        ENDDO
+       IF ( thSIceAdvScheme.GT.0 ) THEN
+ C--   note: those fluxes should to be added directly to Qnet, EmPmR & saltFlux
+        DO j = jMin, jMax
+         DO i = iMin, iMax
+          IF ( hOceMxL(i,j,bi,bj).GT.0. _d 0 ) THEN
+           Qnet(i,j,bi,bj) = Qnet(i,j,bi,bj) - oceQnet(i,j,bi,bj)
+           EmPmR(i,j,bi,bj)= EmPmR(i,j,bi,bj)- oceFWfx(i,j,bi,bj)/rhofw
+           saltFlux(i,j,bi,bj)=saltFlux(i,j,bi,bj) - oceSflx(i,j,bi,bj)
+          ENDIF
+         ENDDO
+        ENDDO
+       ENDIF
+ #ifdef ALLOW_BULK_FORCE
+       IF ( useBulkForce ) THEN
+         CALL BULKF_FLUX_ADJUST(
+      I                          bi, bj, iMin, iMax, jMin, jMax,
+      I                          isIceFree, myTime, myIter, myThid )
+       ENDIF
+ #endif /* ALLOW_BULK_FORCE */
  C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
  #endif /* ALLOW_THSICE */

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+Added in v.1.18

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