/[MITgcm]/MITgcm/pkg/seaice/seaice_tracer_phys.F

Diff of /MITgcm/pkg/seaice/seaice_tracer_phys.F

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-revision 1.3 by gforget,
Mon Jun 13 23:21:18 2011 UTC
+revision 1.8 by gforget,
Mon Mar  5 14:52:16 2012 UTC
 Line 5 
 C $Name$
  CStartOfInterface
        SUBROUTINE SEAICE_TRACER_PHYS( myTime, myIter, myThid )
- C     /=======================================================\
+ C     *=======================================================*
- C     | SUBROUTINE seaice_tracer_phys                         |
+ C     | SUBROUTINE seaice_tracer_phys
- C     | o Time step SItr/SItrEFF as a result of               |
+ C     | o Time step SItr/SItrEFF as a result of
- C     |   seaice thermodynamics and specific tracer physics   |
+ C     |   seaice thermodynamics and specific tracer physics
- C     \=======================================================/
+ C     *=======================================================*
        IMPLICIT NONE
  C     === Global variables ===
 Line 21 
 C     === Global variables ===
  #include "SEAICE.h"
  #include "SEAICE_PARAMS.h"
  #include "SEAICE_TRACER.h"
+ #ifdef ALLOW_SALT_PLUME
+ # include "SALT_PLUME.h"
+ #endif
  C     === Routine arguments ===
  C     INPUT:
-Line 55 
 cgf eventually I will need to handle the
+Line 58 
 cgf eventually I will need to handle the
        DO bj=myByLo(myThid),myByHi(myThid)
        DO bi=myBxLo(myThid),myBxHi(myThid)
-       DO iTr=1,SItrMaxNum
+       DO iTr=1,SItrNumInUse
  c 0) set ice-ocean and ice-snow exchange values
  c =============================================
        DO J=1,sNy
         DO I=1,sNx
-         SItrFromOcean(i,j)=0. _d 0
+         SItrFromOcean(i,j)=SItrFromOcean0(iTr)
-         SItrFromFlood(i,j)=0. _d 0
+         SItrFromFlood(i,j)=SItrFromFlood0(iTr)
-         SItrExpand(i,j)=0. _d 0
+         SItrExpand(i,j)=SItrExpand0(iTr)
         ENDDO
        ENDDO
-       if (SItrName(iTr).EQ.'age') then
+ c salinity tracer:
- c age tracer: no age in ocean, or effect from ice cover changes
+       if ( (SItrName(iTr).EQ.'salinity').AND.
-       elseif (SItrName(iTr).EQ.'salinity') then
+      &      (SItrFromOceanFrac(iTr).GT.ZERO) ) then
- c salinity tracer:
-        DO J=1,sNy
-         DO I=1,sNx
-          SItrFromOcean(i,j)=SIsal0
- #ifdef SEAICE_VARIABLE_SALINITY
-          if (SIsalFRAC.GT.0.)
-      &   SItrFromOcean(i,j)=SIsalFRAC*salt(I,j,ks,bi,bj)
- #endif
- c as of now, flooding implies no salt extraction from ocean
-         ENDDO
-        ENDDO
-       elseif (SItrName(iTr).EQ.'one') then
- c "ice concentration" tracer that should remain .EQ.1.
         DO J=1,sNy
          DO I=1,sNx
-          SItrFromOcean(i,j)=1. _d 0
+          SItrFromOcean(i,j)=SItrFromOceanFrac(iTr)*salt(I,j,ks,bi,bj)
-          SItrFromFlood(i,j)=1. _d 0
+          SItrFromFlood(i,j)=SItrFromFloodFrac(iTr)*salt(I,j,ks,bi,bj)
          ENDDO
         ENDDO
        endif
-Line 96 
 c ==================================
+Line 86 
 c ==================================
         DO I=1,sNx
          HEFFprev=SItrHEFF(i,j,bi,bj,1)
  #ifdef ALLOW_SITRACER_DEBUG_DIAG
          DIAGarray(I,J,5+(iTr-1)*5) =
       &    HEFFprev*SItracer(i,j,bi,bj,iTr) + SItrBucket(i,j,bi,bj,iTr)
  #endif
  c apply the sequence of thermodynamics increments to actual traceur
-Line 133 
 c as we dont have snow tracers, so it go
+Line 123 
 c as we dont have snow tracers, so it go
            SItrBucket(i,j,bi,bj,iTr)=SItrBucket(i,j,bi,bj,iTr)
       &             -HEFFpost*SItrFromFlood(i,j)*(1. _d 0 - growFact)
  #ifdef ALLOW_SITRACER_DEBUG_DIAG
          DIAGarray(I,J,5+(iTr-1)*5) = HEFFpost*SItracer(i,j,bi,bj,iTr)
       &  +SItrBucket(i,j,bi,bj,iTr)-DIAGarray(I,J,5+(iTr-1)*5)
  #endif
         ENDDO
-Line 142 
 c TAF?      if (SItrMate(iTr).EQ.'AREA')
+Line 132 
 c TAF?      if (SItrMate(iTr).EQ.'AREA')
        else
  c 1) or seaice cover expansion
  c ============================
  c this is much simpler than for ice volume/mass tracers, because
  c properties of the ice surface are not be conserved across the
  c ocean-ice system, the contraction/expansion terms are all
  c simultaneous (which is sane), and the only generic effect
  c is due to expansion (new cover).
        DO J=1,sNy
         DO I=1,sNx
-Line 203 
 c 3) ice-ocean tracer exchange/mapping t
+Line 193 
 c 3) ice-ocean tracer exchange/mapping t
  c ==========================================================
  #ifdef ALLOW_DIAGNOSTICS
        if (SItrMate(iTr).EQ.'HEFF') then
-         WRITE(diagName,'(A4,I2.2,A2)') 'SItr',iTr,'FX'
+         WRITE(diagName,'(A4,I2.2,A2)') 'SItr',iTr,'Fx'
          tmpscal1=-ONE/SEAICE_deltaTtherm*SEAICE_rhoIce
-         CALL DIAGNOSTICS_SCALE_FILL(SItrBucket(1-oLx,1-oLy,bi,bj,iTr),
+         CALL DIAGNOSTICS_SCALE_FILL(SItrBucket(1-OLx,1-OLy,bi,bj,iTr),
       &   tmpscal1, 1, diagName,0,1,2,bi,bj,myThid)
        endif
  #endif
-       if (SItrName(iTr).EQ.'age') then
- c age tracer: not passed to ocean
+       if ( (SItrName(iTr).EQ.'salinity').AND.
-       elseif (SItrName(iTr).EQ.'salinity') then
+      &     (SEAICE_salinityTracer) ) then
  c salinity tracer: salt flux
- c      DO J=1,sNy
+         DO J=1,sNy
- c       DO I=1,sNx
+          DO I=1,sNx
- c        saltFlux(I,J,bi,bj) = - SItrBucket(i,j,bi,bj,iTr)
+           saltFlux(I,J,bi,bj) = - SItrBucket(i,j,bi,bj,iTr)
- c    &     *HEFFM(I,J,bi,bj)/SEAICE_deltaTtherm*SEAICE_rhoIce
+      &      *HEFFM(I,J,bi,bj)/SEAICE_deltaTtherm*SEAICE_rhoIce
  c note: at this point of the time step, that is the correct sign
- c        saltPlumeFlux(I,J,bi,bj) = ...
+ #ifdef ALLOW_SALT_PLUME
- c       ENDDO
+ c should work for both constant and variable ice salinity -- to be tested
- c      ENDDO
+           saltPlumeFlux(I,J,bi,bj) = MAX(ZERO,saltFlux(I,J,bi,bj))
-       elseif (SItrName(iTr).EQ.'one') then
+      &      *SPsalFRAC*(salt(I,j,ks,bi,bj)-SItrFromOcean(i,j))
- c "ice concentration" tracer: not passed to ocean
+ #endif
+          ENDDO
+         ENDDO
        endif
        DO J=1,sNy
         DO I=1,sNx
  #ifdef ALLOW_SITRACER_DEBUG_DIAG
-Line 234 
 c empty bucket
+Line 227 
 c empty bucket
          SItrBucket(i,j,bi,bj,iTr)=0. _d 0
         ENDDO
        ENDDO
  c TAF? elseif (SItrMate(iTr).EQ.'AREA') then
  c 4) diagnostics
  c ==============
  #ifdef ALLOW_SITRACER_DEBUG_DIAG
-Line 245 
 c ==============
+Line 240 
 c ==============
          DIAGarray(I,J,1+(iTr-1)*5) = SItracer(i,j,bi,bj,iTr)
          DIAGarray(I,J,2+(iTr-1)*5) = SItracer(i,j,bi,bj,iTr)*HEFFpost
  c DIAGarray(:,:,3) is the term of comparison for DIAGarray(:,:,2)
-         if (SItrName(iTr).EQ.'age') then
+         if (SItrName(iTr).EQ.'salinity') then
-           DIAGarray(I,J,3+(iTr-1)*5) = IceAgeTr(i,j,bi,bj,2)
-         elseif (SItrName(iTr).EQ.'salinity') then
            DIAGarray(I,J,3+(iTr-1)*5) = HSALT(i,j,bi,bj)/SEAICE_rhoIce
          elseif (SItrName(iTr).EQ.'one') then
            DIAGarray(I,J,3+(iTr-1)*5) = HEFFpost
-Line 262 
 c DIAGarray(:,:,5) is the tracer flux fr
+Line 255 
 c DIAGarray(:,:,5) is the tracer flux fr
          AREApost=SItrAREA(i,j,bi,bj,3)
          DIAGarray(I,J,1+(iTr-1)*5) = SItracer(i,j,bi,bj,iTr)
          DIAGarray(I,J,2+(iTr-1)*5) = SItracer(i,j,bi,bj,iTr)*AREApost
- c DIAGarray(:,:,3) is the term of comparison for DIAGarray(:,:,2)
-         if (SItrName(iTr).EQ.'age') then
-           DIAGarray(I,J,3+(iTr-1)*5) = IceAgeTr(i,j,bi,bj,1)
-         endif
         ENDDO
        ENDDO
        endif
  #endif
        ENDDO
  #ifdef ALLOW_SITRACER_DEBUG_DIAG
-       CALL DIAGNOSTICS_FILL(DIAGarray,'UDIAG1  ',0,Nr,3,bi,bj,myThid)
+ c     CALL DIAGNOSTICS_FILL(DIAGarray,'UDIAG1  ',0,Nr,3,bi,bj,myThid)
  #endif
        ENDDO
        ENDDO

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