/[MITgcm]/MITgcm/pkg/dic/dic_surfforcing.F

Diff of /MITgcm/pkg/dic/dic_surfforcing.F

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-revision 1.18 by dfer,
Fri Oct 26 21:08:13 2007 UTC
+revision 1.24 by jmc,
Mon Apr 12 20:07:57 2010 UTC
 Line 3 
 C $Name$
  #include "DIC_OPTIONS.h"
  #include "PTRACERS_OPTIONS.h"
- #include "GCHEM_OPTIONS.h"
  CBOP
  C !ROUTINE: DIC_SURFFORCING
  C !INTERFACE: ==========================================================
        SUBROUTINE DIC_SURFFORCING( PTR_CO2 , PTR_ALK, PTR_PO4, GDC,
       I           bi,bj,imin,imax,jmin,jmax,
       I           myIter,myTime,myThid)
  C !DESCRIPTION:
  C  Calculate the carbon air-sea flux terms
  C  following external_forcing_dic.F (OCMIP run) from Mick
  C !USES: ===============================================================
        IMPLICIT NONE
-Line 25 
 C !USES: ===============================
+Line 24 
 C !USES: ===============================
  #include "PARAMS.h"
  #include "GRID.h"
  #include "FFIELDS.h"
- #include "DIC_ABIOTIC.h"
+ #include "DIC_VARS.h"
  C !INPUT PARAMETERS: ===================================================
  C  myThid               :: thread number
-Line 46 
 c GDC                   :: tendency due
+Line 45 
 c GDC                   :: tendency due
  #ifdef ALLOW_PTRACERS
  C !LOCAL VARIABLES: ====================================================
-        INTEGER I,J, kLev, it
+        INTEGER i,j, kLev
  C Number of iterations for pCO2 solvers...
  C Solubility relation coefficients
        _RL SchmidtNoDIC(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-Line 66 
 cccccccccccccccccccccccccccccccccccccccc
+Line 65 
 cccccccccccccccccccccccccccccccccccccccc
        kLev=1
- c if coupled to atmsopheric model, use the
+ cc if coupled to atmsopheric model, use the
- c Co2 value passed from the coupler
+ cc Co2 value passed from the coupler
- #ifndef USE_ATMOSCO2
+ c#ifndef USE_ATMOSCO2
- C PRE-INDUSTRIAL STEADY STATE pCO2 = 278.0 ppmv
+ cC PRE-INDUSTRIAL STEADY STATE pCO2 = 278.0 ppmv
-        DO j=1-OLy,sNy+OLy
+ c       DO j=1-OLy,sNy+OLy
-         DO i=1-OLx,sNx+OLx
+ c        DO i=1-OLx,sNx+OLx
-            AtmospCO2(i,j,bi,bj)=278.0 _d -6
+ c           AtmospCO2(i,j,bi,bj)=278.0 _d -6
-         ENDDO
+ c        ENDDO
-        ENDDO
+ c       ENDDO
- #endif
+ c#endif
  C =================================================================
-Line 101 
 C FOR NON-INTERACTIVE Si
+Line 100 
 C FOR NON-INTERACTIVE Si
           CALL CARBON_COEFFS(
       I                       theta,salt,
-      I                       bi,bj,iMin,iMax,jMin,jMax)
+      I                       bi,bj,iMin,iMax,jMin,jMax,myThid)
  C====================================================================
         DO j=jmin,jmax
-Line 142 
 C$TAF LOOP = parallel
+Line 141 
 C$TAF LOOP = parallel
       I        aks(i,j,bi,bj),akb(i,j,bi,bj),akw(i,j,bi,bj),
       I        aksi(i,j,bi,bj),akf(i,j,bi,bj),ff(i,j,bi,bj),
       I        bt(i,j,bi,bj),st(i,j,bi,bj),ft(i,j,bi,bj),
-      U        pH(i,j,bi,bj),pCO2(i,j,bi,bj) )
+      U        pH(i,j,bi,bj),pCO2(i,j,bi,bj),
+      I        i,j,kLev,bi,bj,myIter,myThid )
            ELSE
              pCO2(i,j,bi,bj)=0. _d 0
            ENDIF
 Line 154 
 C$TAF LOOP = parallel
            IF ( maskC(i,j,kLev,bi,bj).NE.0. _d 0 ) THEN
  C calculate SCHMIDT NO. for CO2
                SchmidtNoDIC(i,j) =
       &            sca1
       &          + sca2 * theta(i,j,kLev,bi,bj)
       &          + sca3 * theta(i,j,kLev,bi,bj)*theta(i,j,kLev,bi,bj)
       &          + sca4 * theta(i,j,kLev,bi,bj)*theta(i,j,kLev,bi,bj)
       &                *theta(i,j,kLev,bi,bj)
  C Determine surface flux (FDIC)
  C first correct pCO2at for surface atmos pressure
                pCO2sat(i,j) =
       &          AtmosP(i,j,bi,bj)*AtmospCO2(i,j,bi,bj)
  C then account for Schmidt number
 Line 174 
 C Calculate flux in terms of DIC units u
  C Flux = Vp * ([CO2sat] - [CO2])
  C CO2sat = K0*pCO2atmos*P/P0
  C Converting pCO2 to [CO2] using ff, as in CALC_PCO2
                FluxCO2(i,j,bi,bj) =
       &         Kwexch(i,j)*(
       &         ak0(i,j,bi,bj)*pCO2sat(i,j) -
       &         ff(i,j,bi,bj)*pCO2(i,j,bi,bj)
       &         )
            ELSE
                FluxCO2(i,j,bi,bj) = 0. _d 0
            ENDIF
 Line 206 
 c
            ENDDO
           ENDDO
  C update tendency
           DO j=jmin,jmax
            DO i=imin,imax
             GDC(i,j)= recip_drF(kLev)*recip_hFacC(i,j,kLev,bi,bj)
       &              *(FluxCO2(i,j,bi,bj)
  #ifdef ALLOW_OLD_VIRTUALFLUX
       &              + VirtualFlux(i,j)
  #endif

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