modeln.f90

    IVERB    = TZBAKFILE%NLFIVERB
    !
    CALL IO_File_open(TZBAKFILE)
    !
    CALL WRITE_DESFM_n(IMI,TZBAKFILE)
    CALL IO_Header_write( TBACKUPN(nfile_backup_current)%TFILE )
    CALL WRITE_LFIFM_n( TBACKUPN(nfile_backup_current)%TFILE, TBACKUPN(nfile_backup_current)%TFILE%TDADFILE%CNAME )
    TOUTDATAFILE => TZBAKFILE
    CALL MNHWRITE_ZS_DUMMY_n(TZBAKFILE)
    IF (CSURF=='EXTE') THEN
      TFILE_SURFEX => TZBAKFILE
      CALL GOTO_SURFEX(IMI)
      CALL WRITE_SURF_ATM_n(YSURF_CUR,'MESONH','ALL',.FALSE.)
      IF ( KTCOUNT > 1) THEN
        CALL DIAG_SURF_ATM_n(YSURF_CUR,'MESONH')
        CALL WRITE_DIAG_SURF_ATM_n(YSURF_CUR,'MESONH','ALL')
      END IF
      NULLIFY(TFILE_SURFEX)
    END IF
    !
    ! Reinitialize Lagragian variables at every model backup
    IF (LLG .AND. LINIT_LG .AND. CINIT_LG=='FMOUT') THEN
      CALL INI_LG(XXHAT,XYHAT,XZZ,XSVT,XLBXSVM,XLBYSVM)
      IF (IVERB>=5) THEN
        WRITE(UNIT=ILUOUT,FMT=*) '************************************'
        WRITE(UNIT=ILUOUT,FMT=*) '*** Lagrangian variables refreshed after ',TRIM(TZBAKFILE%CNAME),' backup'
        WRITE(UNIT=ILUOUT,FMT=*) '************************************'
      END IF
    END IF
    ! Reinitialise mean variables
    IF (LMEAN_FIELD) THEN
       CALL INI_MEAN_FIELD
    END IF
!
  ELSE
    !Necessary to have a 'valid' CNAME when calling some subroutines
    TZBAKFILE => TFILE_DUMMY
  END IF
ELSE
  !Necessary to have a 'valid' CNAME when calling some subroutines
  TZBAKFILE => TFILE_DUMMY
END IF
!
IF ( nfile_output_current < NOUT_NUMB ) THEN
  IF ( KTCOUNT == TOUTPUTN(nfile_output_current + 1)%NSTEP ) THEN
    nfile_output_current = nfile_output_current + 1
    !
    TZOUTFILE => TOUTPUTN(nfile_output_current)%TFILE
    !
    CALL IO_File_open(TZOUTFILE)
    !
    CALL IO_Header_write(TZOUTFILE)
    CALL IO_Fieldlist_write(  TOUTPUTN(nfile_output_current) )
    CALL IO_Field_user_write( TOUTPUTN(nfile_output_current) )
    !
    CALL IO_File_close(TZOUTFILE)
    !
  END IF
END IF
!
CALL SECOND_MNH2(ZTIME2)
!
XT_STORE = XT_STORE + ZTIME2 - ZTIME1
!
!-------------------------------------------------------------------------------
!
!*       4.BIS    IBM and Fluctuations application
!              -----------------------------
!
!*       4.B1   Add fluctuations at the domain boundaries
!
IF (LRECYCL) THEN
  CALL ADDFLUCTUATIONS (                                    &
           CLBCX,CLBCY,                                     &
           XUT, XVT, XWT, XTHT, XTKET, XRT, XSVT, XSRCT,    &
           XFLUCTUTN,XFLUCTVTW,XFLUCTUTS,XFLUCTVTE,         &
           XFLUCTWTW,XFLUCTWTN,XFLUCTWTS,XFLUCTWTE          )
ENDIF
!
!*       4.B2   Immersed boundaries
!
IF (LIBM) THEN
  !
  ZTIME1=ZTIME2
  !
  IF (.NOT.LCARTESIAN) THEN
    CALL PRINT_MSG(NVERB_FATAL, 'GEN', 'MODELN', 'IBM can only be used in combination with cartesian coordinates')
  ENDIF
  !
  CALL IBM_FORCING(XUT,XVT,XWT,XTHT,XRT,XSVT,XTKET)
  !
  IF (LIBM_TROUBLE) THEN
     CALL IBM_FORCING_TR(XUT,XVT,XWT,XTHT,XRT,XSVT,XTKET)
  ENDIF
  !
  CALL SECOND_MNH2(ZTIME2)
  !
  XT_IBM_FORC = XT_IBM_FORC + ZTIME2 - ZTIME1
  !
ENDIF
!-------------------------------------------------------------------------------
!
!*       5.    INITIALIZATION OF THE BUDGET VARIABLES
!              --------------------------------------
!
IF (NBUMOD==IMI) THEN
  LBU_ENABLE = CBUTYPE /='NONE'.AND. CBUTYPE /='SKIP' 
ELSE
  LBU_ENABLE = .FALSE.
END IF
!
IF (NBUMOD==IMI .AND. CBUTYPE=='MASK' ) THEN
  CALL SET_MASK()
  if ( lbu_ru ) then
    tbudgets(NBUDGET_U)%trhodj%xdata(:, nbutime, :) = tbudgets(NBUDGET_U)%trhodj%xdata(:, nbutime, :) &
                                                      + Mask_compress( Mxm( xrhodj(:, :, :) ) )
  end if
  if ( lbu_rv ) then
    tbudgets(NBUDGET_V)%trhodj%xdata(:, nbutime, :) = tbudgets(NBUDGET_V)%trhodj%xdata(:, nbutime, :) &
                                                      + Mask_compress( Mym( xrhodj(:, :, :) ) )
  end if
  if ( lbu_rw ) then
    tbudgets(NBUDGET_W)%trhodj%xdata(:, nbutime, :) = tbudgets(NBUDGET_W)%trhodj%xdata(:, nbutime, :) &
                                                      + Mask_compress( Mzm( xrhodj(:, :, :) ) )
  end if
  if ( associated( tburhodj ) ) tburhodj%xdata(:, nbutime, :) = tburhodj%xdata(:, nbutime, :) + Mask_compress( xrhodj(:, :, :) )
END IF
!
IF (NBUMOD==IMI .AND. CBUTYPE=='CART' ) THEN
  if ( lbu_ru ) then
    tbudgets(NBUDGET_U)%trhodj%xdata(:, :, :) = tbudgets(NBUDGET_U)%trhodj%xdata(:, :, :) + Cart_compress( Mxm( xrhodj(:, :, :) ) )
  end if
  if ( lbu_rv ) then
    tbudgets(NBUDGET_V)%trhodj%xdata(:, :, :) = tbudgets(NBUDGET_V)%trhodj%xdata(:, :, :) + Cart_compress( Mym( xrhodj(:, :, :) ) )
  end if
  if ( lbu_rw ) then
    tbudgets(NBUDGET_W)%trhodj%xdata(:, :, :) = tbudgets(NBUDGET_W)%trhodj%xdata(:, :, :) &
                                                + Cart_compress( Mzm( xrhodj(:, :, :) ) )
  end if
  if ( associated( tburhodj ) ) tburhodj%xdata(:, :, :) = tburhodj%xdata(:, :, :) + Cart_compress( xrhodj(:, :, :) )
END IF
!
CALL BUDGET_FLAGS(LUSERV, LUSERC, LUSERR,         &
                  LUSERI, LUSERS, LUSERG, LUSERH  )
!
XTIME_BU   = 0.0
!
!-------------------------------------------------------------------------------
!
!*       6.    INITIALIZATION OF THE FIELD TENDENCIES
!              --------------------------------------
!
ZTIME1 = ZTIME2
XTIME_BU_PROCESS = 0.
!
CALL INITIAL_GUESS ( NRR, NSV, KTCOUNT, XRHODJ,IMI, XTSTEP,                 &
                     XRUS, XRVS, XRWS, XRTHS, XRRS, XRTKES, XRSVS,          &
                     XUT, XVT, XWT, XTHT, XRT, XTKET, XSVT )
!
CALL SECOND_MNH2(ZTIME2)
!
XT_GUESS = XT_GUESS + ZTIME2 - ZTIME1 - XTIME_BU_PROCESS
!
!-------------------------------------------------------------------------------
!
!*       7.    INITIALIZATION OF THE LES FOR CURRENT TIME-STEP
!              -----------------------------------------------
!
XTIME_LES_BU   = 0.0
XTIME_LES      = 0.0
IF (LLES) CALL LES_INI_TIMESTEP_n(KTCOUNT)
!
!-------------------------------------------------------------------------------
!
!*       8.    TWO-WAY INTERACTIVE GRID-NESTING
!              --------------------------------
!
!
CALL SECOND_MNH2(ZTIME1)
XTIME_BU_PROCESS = 0.
XTIME_LES_BU_PROCESS = 0.
!
GMASKkids(:,:)=.FALSE.
!
IF (NMODEL>1) THEN
  ! correct an ifort bug
  DPTR_XRHODJ=>XRHODJ
  DPTR_XUM=>XUT
  DPTR_XVM=>XVT
  DPTR_XWM=>XWT
  DPTR_XTHM=>XTHT
  DPTR_XRM=>XRT
  DPTR_XTKEM=>XTKET
  DPTR_XSVM=>XSVT
  DPTR_XRUS=>XRUS
  DPTR_XRVS=>XRVS
  DPTR_XRWS=>XRWS
  DPTR_XRTHS=>XRTHS
  DPTR_XRRS=>XRRS
  DPTR_XRTKES=>XRTKES
  DPTR_XRSVS=>XRSVS
  DPTR_XINPRC=>XINPRC
  DPTR_XINPRR=>XINPRR
  DPTR_XINPRS=>XINPRS
  DPTR_XINPRG=>XINPRG
  DPTR_XINPRH=>XINPRH
  DPTR_XPRCONV=>XPRCONV
  DPTR_XPRSCONV=>XPRSCONV
  DPTR_XDIRFLASWD=>XDIRFLASWD
  DPTR_XSCAFLASWD=>XSCAFLASWD
  DPTR_XDIRSRFSWD=>XDIRSRFSWD
  DPTR_GMASKkids=>GMASKkids
  !
  CALL TWO_WAY(     NRR,NSV,KTCOUNT,DPTR_XRHODJ,IMI,XTSTEP,                                    &
       DPTR_XUM ,DPTR_XVM ,DPTR_XWM , DPTR_XTHM, DPTR_XRM,DPTR_XSVM,                           &
       DPTR_XRUS,DPTR_XRVS,DPTR_XRWS,DPTR_XRTHS,DPTR_XRRS,DPTR_XRSVS,                          &
       DPTR_XINPRC,DPTR_XINPRR,DPTR_XINPRS,DPTR_XINPRG,DPTR_XINPRH,DPTR_XPRCONV,DPTR_XPRSCONV, &
       DPTR_XDIRFLASWD,DPTR_XSCAFLASWD,DPTR_XDIRSRFSWD,DPTR_GMASKkids           )
END IF
!
CALL SECOND_MNH2(ZTIME2)
XT_2WAY = XT_2WAY + ZTIME2 - ZTIME1 - XTIME_LES_BU_PROCESS - XTIME_BU_PROCESS
!
!-------------------------------------------------------------------------------
!-------------------------------------------------------------------------------
!
!*       10.    FORCING
!               -------
!
!
ZTIME1 = ZTIME2
XTIME_BU_PROCESS = 0.
XTIME_LES_BU_PROCESS = 0.
IF (LCARTESIAN) THEN
  CALL SM_GRIDCART(XXHAT,XYHAT,XZHAT,XZS,LSLEVE,XLEN1,XLEN2,XZSMT,XDXHAT,XDYHAT,XZZ,ZJ)
  XMAP=1.
ELSE
  CALL SM_GRIDPROJ(XXHAT,XYHAT,XZHAT,XZS,LSLEVE,XLEN1,XLEN2,XZSMT,XLATORI,XLONORI, &
                   XMAP,XLAT,XLON,XDXHAT,XDYHAT,XZZ,ZJ)
END IF
!
IF ( LFORCING ) THEN
  CALL FORCING(XTSTEP,LUSERV,XRHODJ,XCORIOZ,XZHAT,XZZ,TDTCUR,&
               XUFRC_PAST, XVFRC_PAST,XWTFRC,         &
               XUT,XVT,XWT,XTHT,XTKET,XRT,XSVT,       &
               XRUS,XRVS,XRWS,XRTHS,XRTKES,XRRS,XRSVS,IMI,ZJ)
END IF
!
IF ( L2D_ADV_FRC ) THEN 
  CALL ADV_FORCING_n(XRHODJ,TDTCUR,XTHT,XRT,XZZ,XRTHS,XRRS)
END IF
IF ( L2D_REL_FRC ) THEN 
  CALL REL_FORCING_n(XRHODJ,TDTCUR,XTHT,XRT,XZZ,XRTHS,XRRS)
END IF
!
CALL SECOND_MNH2(ZTIME2)
!
XT_FORCING = XT_FORCING + ZTIME2 - ZTIME1 &
             - XTIME_LES_BU_PROCESS - XTIME_BU_PROCESS
!
!-------------------------------------------------------------------------------
!
!*       11.    NUDGING
!               -------
!
!
ZTIME1 = ZTIME2
XTIME_BU_PROCESS = 0.
XTIME_LES_BU_PROCESS = 0.
!
IF ( LNUDGING ) THEN
  CALL NUDGING(LUSERV,XRHODJ,XTNUDGING,         &
               XUT,XVT,XWT,XTHT,XRT,            &
               XLSUM,XLSVM,XLSWM,XLSTHM,XLSRVM, &
               XRUS,XRVS,XRWS,XRTHS,XRRS)

END IF
!
CALL SECOND_MNH2(ZTIME2)
!
XT_NUDGING = XT_NUDGING + ZTIME2 - ZTIME1 &
             - XTIME_LES_BU_PROCESS - XTIME_BU_PROCESS
!
!-------------------------------------------------------------------------------
!
!*       12.    DYNAMICAL SOURCES
!               -----------------
!
ZTIME1 = ZTIME2
XTIME_BU_PROCESS = 0.
XTIME_LES_BU_PROCESS = 0.
!
IF( LTRANS ) THEN
  XUT(:,:,:) = XUT(:,:,:) + XUTRANS
  XVT(:,:,:) = XVT(:,:,:) + XVTRANS
END IF
!
CALL DYN_SOURCES( NRR,NRRL, NRRI,                              &
                  XUT, XVT, XWT, XTHT, XRT,                    &
                  XCORIOX, XCORIOY, XCORIOZ, XCURVX, XCURVY,   &
                  XRHODJ, XZZ, XTHVREF, XEXNREF,               &
                  XRUS, XRVS, XRWS, XRTHS                      )
!
IF( LTRANS ) THEN
  XUT(:,:,:) = XUT(:,:,:) - XUTRANS
  XVT(:,:,:) = XVT(:,:,:) - XVTRANS
END IF
!
CALL SECOND_MNH2(ZTIME2)
!
XT_SOURCES = XT_SOURCES + ZTIME2 - ZTIME1 &
             - XTIME_LES_BU_PROCESS - XTIME_BU_PROCESS
!
!-------------------------------------------------------------------------------
!
!*       13.    NUMERICAL DIFFUSION
!               -------------------
!
ZTIME1 = ZTIME2
XTIME_BU_PROCESS = 0.
XTIME_LES_BU_PROCESS = 0.
!
IF ( LNUMDIFU .OR. LNUMDIFTH .OR. LNUMDIFSV ) THEN
!
  CALL UPDATE_HALO_ll(TFIELDT_ll, IINFO_ll)
  CALL UPDATE_HALO2_ll(TFIELDT_ll, THALO2T_ll, IINFO_ll)
  IF ( .NOT. LSTEADYLS ) THEN
     CALL UPDATE_HALO_ll(TLSFIELD_ll, IINFO_ll)
     CALL UPDATE_HALO_ll(TLSFIELD2D_ll,IINFO_ll) 
     CALL UPDATE_HALO2_ll(TLSFIELD_ll, TLSHALO2_ll, IINFO_ll)
  END IF
  CALL NUM_DIFF ( CLBCX, CLBCY, NRR, NSV,                               &
                  XDK2U, XDK4U, XDK2TH, XDK4TH, XDK2SV, XDK4SV, IMI,    &
                  XUT, XVT, XWT, XTHT, XTKET, XRT, XSVT,                &
                  XLSUM,XLSVM,XLSWM,XLSTHM,XLSRVM,XRHODJ,               &
                  XRUS, XRVS, XRWS, XRTHS, XRTKES, XRRS, XRSVS,         &
                  LZDIFFU,LNUMDIFU, LNUMDIFTH, LNUMDIFSV,               &
                  THALO2T_ll, TLSHALO2_ll,XZDIFFU_HALO2      )
END IF

if ( lbudget_sv ) then
  do jsv = 1, nsv
    call Budget_store_init( tbudgets(jsv + NBUDGET_SV1 - 1), 'NEGA2', xrsvs(:, :, :, jsv) )
  end do
end if

DO JSV = NSV_CHEMBEG,NSV_CHEMEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
DO JSV = NSV_CHICBEG,NSV_CHICEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
DO JSV = NSV_AERBEG,NSV_AEREND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
DO JSV = NSV_LNOXBEG,NSV_LNOXEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
DO JSV = NSV_DSTBEG,NSV_DSTEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
DO JSV = NSV_SLTBEG,NSV_SLTEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
DO JSV = NSV_PPBEG,NSV_PPEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
#ifdef MNH_FOREFIRE
DO JSV = NSV_FFBEG,NSV_FFEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
#endif
! Blaze smoke
DO JSV = NSV_FIREBEG,NSV_FIREEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
DO JSV = NSV_CSBEG,NSV_CSEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
DO JSV = NSV_DSTDEPBEG,NSV_DSTDEPEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
DO JSV = NSV_SLTDEPBEG,NSV_SLTDEPEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
DO JSV = NSV_AERDEPBEG,NSV_AERDEPEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
DO JSV = NSV_SNWBEG,NSV_SNWEND
  XRSVS(:,:,:,JSV) = MAX(XRSVS(:,:,:,JSV),0.)
END DO
IF (CELEC .NE. 'NONE') THEN
  XRSVS(:,:,:,NSV_ELECBEG) = MAX(XRSVS(:,:,:,NSV_ELECBEG),0.)
  XRSVS(:,:,:,NSV_ELECEND) = MAX(XRSVS(:,:,:,NSV_ELECEND),0.)
END IF

if ( lbudget_sv ) then
  do jsv = 1, nsv
    call Budget_store_end( tbudgets(jsv + NBUDGET_SV1 - 1), 'NEGA2', xrsvs(:, :, :, jsv) )
  end do
end if
!
CALL SECOND_MNH2(ZTIME2)
!
XT_DIFF = XT_DIFF + ZTIME2 - ZTIME1 &
          - XTIME_LES_BU_PROCESS - XTIME_BU_PROCESS
!
!-------------------------------------------------------------------------------
!
!*       14.    UPPER AND LATERAL RELAXATION
!               ----------------------------
!
ZTIME1 = ZTIME2
XTIME_BU_PROCESS = 0.
XTIME_LES_BU_PROCESS = 0.
!
IF(LVE_RELAX .OR. LVE_RELAX_GRD .OR. LHORELAX_UVWTH .OR. LHORELAX_RV .OR.&
   LHORELAX_RC .OR. LHORELAX_RR .OR. LHORELAX_RI .OR. LHORELAX_RS .OR.   &
   LHORELAX_RG .OR. LHORELAX_RH .OR. LHORELAX_TKE .OR.                   &
   ANY(LHORELAX_SV)) THEN
  CALL RELAXATION (LVE_RELAX,LVE_RELAX_GRD,LHORELAX_UVWTH,LHORELAX_RV,LHORELAX_RC,   &
                   LHORELAX_RR,LHORELAX_RI,LHORELAX_RS,LHORELAX_RG,    &
                   LHORELAX_RH,LHORELAX_TKE,LHORELAX_SV,               &
                   LHORELAX_SVC2R2,LHORELAX_SVC1R3,                    &
                   LHORELAX_SVELEC,LHORELAX_SVLG,                      &
                   LHORELAX_SVCHEM,LHORELAX_SVCHIC,LHORELAX_SVAER,     &
                   LHORELAX_SVDST,LHORELAX_SVSLT,LHORELAX_SVPP,        &
                   LHORELAX_SVCS,LHORELAX_SVSNW,LHORELAX_SVFIRE,       &
#ifdef MNH_FOREFIRE
                   LHORELAX_SVFF,                                      &
#endif
                   KTCOUNT,NRR,NSV,XTSTEP,XRHODJ,                      &
                   XUT, XVT, XWT, XTHT, XRT, XSVT, XTKET,              &
                   XLSUM, XLSVM, XLSWM, XLSTHM,                        &
                   XLBXUM, XLBXVM, XLBXWM, XLBXTHM,                    &
                   XLBXRM, XLBXSVM, XLBXTKEM,                          &
                   XLBYUM, XLBYVM, XLBYWM, XLBYTHM,                    &
                   XLBYRM, XLBYSVM, XLBYTKEM,                          &
                   NALBOT, XALK, XALKW,                                &
                   NALBAS, XALKBAS, XALKWBAS,                          &
                   LMASK_RELAX,XKURELAX, XKVRELAX, XKWRELAX,           &
                   NRIMX,NRIMY,                                        &
                   XRUS, XRVS, XRWS, XRTHS, XRRS, XRSVS, XRTKES        )
END IF

IF (CELEC.NE.'NONE' .AND. LRELAX2FW_ION) THEN
   CALL RELAX2FW_ION (KTCOUNT, IMI, XTSTEP, XRHODJ, XSVT, NALBOT,      &
                      XALK, LMASK_RELAX, XKWRELAX, XRSVS )   
END IF                      
!
CALL SECOND_MNH2(ZTIME2)
!
XT_RELAX = XT_RELAX + ZTIME2 - ZTIME1 &
           - XTIME_LES_BU_PROCESS - XTIME_BU_PROCESS
!
!-------------------------------------------------------------------------------
!
!*       15.    PARAMETRIZATIONS' MONITOR
!               -------------------------
!
ZTIME1 = ZTIME2
!
CALL PHYS_PARAM_n( KTCOUNT, TZBAKFILE,                            &
                   XT_RAD,  XT_SHADOWS, XT_DCONV, XT_GROUND,      &
                   XT_MAFL, XT_DRAG, XT_EOL, XT_TURB,  XT_TRACER, &
                   ZTIME, ZWETDEPAER, GMASKkids, GCLOUD_ONLY      )
!
IF (CDCONV/='NONE') THEN
  XPACCONV = XPACCONV + XPRCONV * XTSTEP
  IF (LCH_CONV_LINOX) THEN
    XIC_TOTAL_NUMBER = XIC_TOTAL_NUMBER + XIC_RATE * XTSTEP
    XCG_TOTAL_NUMBER = XCG_TOTAL_NUMBER + XCG_RATE * XTSTEP
  END IF
END IF
!
!
CALL SECOND_MNH2(ZTIME2)
!
XT_PARAM = XT_PARAM + ZTIME2 - ZTIME1 - XTIME_LES - ZTIME
!
!-------------------------------------------------------------------------------
!
!*       16.    TEMPORAL SERIES
!               ---------------
!
ZTIME1 = ZTIME2
!
IF (LSERIES) THEN
  IF ( MOD (KTCOUNT-1,NFREQSERIES) == 0 ) CALL SERIES_n
END IF
!
CALL SECOND_MNH2(ZTIME2)
!
XT_STEP_MISC = XT_STEP_MISC + ZTIME2 - ZTIME1
!
!-------------------------------------------------------------------------------
!
!*       17.    LARGE SCALE FIELD REFRESH
!               -------------------------
!
ZTIME1 = ZTIME2
!
IF (.NOT. LSTEADYLS) THEN
  IF (  IMI==1                             .AND.      &
    NCPL_CUR < NCPL_NBR                              ) THEN
    IF (KTCOUNT+1 == NCPL_TIMES(NCPL_CUR,1)          ) THEN
                                  ! The next current time reachs a
      NCPL_CUR=NCPL_CUR+1         ! coupling one, LS sources are refreshed
      !
      CALL LS_COUPLING(XTSTEP,GSTEADY_DMASS,CCONF,                          &
             CGETTKET,                                                      &
             CGETRVT,CGETRCT,CGETRRT,CGETRIT,                               &
             CGETRST,CGETRGT,CGETRHT,CGETSVT,LCH_INIT_FIELD, NSV,           &
             NIMAX_ll,NJMAX_ll,                                             &
             NSIZELBX_ll,NSIZELBXU_ll,NSIZELBY_ll,NSIZELBYV_ll,             &
             NSIZELBXTKE_ll,NSIZELBYTKE_ll,                                 &
             NSIZELBXR_ll,NSIZELBYR_ll,NSIZELBXSV_ll,NSIZELBYSV_ll,         &
             XLSUM,XLSVM,XLSWM,XLSTHM,XLSRVM,XLSZWSM,XDRYMASST,             &
             XLBXUM,XLBXVM,XLBXWM,XLBXTHM,XLBXTKEM,XLBXRM,XLBXSVM,          &
             XLBYUM,XLBYVM,XLBYWM,XLBYTHM,XLBYTKEM,XLBYRM,XLBYSVM,          &
             XLSUS,XLSVS,XLSWS,XLSTHS,XLSRVS,XLSZWSS,XDRYMASSS,             &
             XLBXUS,XLBXVS,XLBXWS,XLBXTHS,XLBXTKES,XLBXRS,XLBXSVS,          &
             XLBYUS,XLBYVS,XLBYWS,XLBYTHS,XLBYTKES,XLBYRS,XLBYSVS           )
      !
      DO JSV=NSV_CHEMBEG,NSV_CHEMEND
        XLBXSVS(:,:,:,JSV)=MAX(XLBXSVS(:,:,:,JSV),0.)
        XLBYSVS(:,:,:,JSV)=MAX(XLBYSVS(:,:,:,JSV),0.)
      ENDDO
      !
      DO JSV=NSV_LNOXBEG,NSV_LNOXEND
        XLBXSVS(:,:,:,JSV)=MAX(XLBXSVS(:,:,:,JSV),0.)
        XLBYSVS(:,:,:,JSV)=MAX(XLBYSVS(:,:,:,JSV),0.)
      ENDDO
      !
      DO JSV=NSV_AERBEG,NSV_AEREND
        XLBXSVS(:,:,:,JSV)=MAX(XLBXSVS(:,:,:,JSV),0.)
        XLBYSVS(:,:,:,JSV)=MAX(XLBYSVS(:,:,:,JSV),0.)
      ENDDO
      !
      DO JSV=NSV_DSTBEG,NSV_DSTEND
        XLBXSVS(:,:,:,JSV)=MAX(XLBXSVS(:,:,:,JSV),0.)
        XLBYSVS(:,:,:,JSV)=MAX(XLBYSVS(:,:,:,JSV),0.)
      ENDDO
      !
      DO JSV=NSV_DSTDEPBEG,NSV_DSTDEPEND
        XLBXSVS(:,:,:,JSV)=MAX(XLBXSVS(:,:,:,JSV),0.)
        XLBYSVS(:,:,:,JSV)=MAX(XLBYSVS(:,:,:,JSV),0.)
      ENDDO
      !
      DO JSV=NSV_SLTBEG,NSV_SLTEND
        XLBXSVS(:,:,:,JSV)=MAX(XLBXSVS(:,:,:,JSV),0.)
        XLBYSVS(:,:,:,JSV)=MAX(XLBYSVS(:,:,:,JSV),0.)
      ENDDO
      !
      DO JSV=NSV_SLTDEPBEG,NSV_SLTDEPEND
        XLBXSVS(:,:,:,JSV)=MAX(XLBXSVS(:,:,:,JSV),0.)
        XLBYSVS(:,:,:,JSV)=MAX(XLBYSVS(:,:,:,JSV),0.)
      ENDDO
      !
      DO JSV=NSV_PPBEG,NSV_PPEND
        XLBXSVS(:,:,:,JSV)=MAX(XLBXSVS(:,:,:,JSV),0.)
        XLBYSVS(:,:,:,JSV)=MAX(XLBYSVS(:,:,:,JSV),0.)
      ENDDO
      !
#ifdef MNH_FOREFIRE
      DO JSV=NSV_FFBEG,NSV_FFEND
        XLBXSVS(:,:,:,JSV)=MAX(XLBXSVS(:,:,:,JSV),0.)
        XLBYSVS(:,:,:,JSV)=MAX(XLBYSVS(:,:,:,JSV),0.)
      ENDDO
      !
#endif
      DO JSV=NSV_FIREBEG,NSV_FIREEND
        XLBXSVS(:,:,:,JSV)=MAX(XLBXSVS(:,:,:,JSV),0.)
        XLBYSVS(:,:,:,JSV)=MAX(XLBYSVS(:,:,:,JSV),0.)
      ENDDO
      !
      DO JSV=NSV_CSBEG,NSV_CSEND
        XLBXSVS(:,:,:,JSV)=MAX(XLBXSVS(:,:,:,JSV),0.)
        XLBYSVS(:,:,:,JSV)=MAX(XLBYSVS(:,:,:,JSV),0.)
      ENDDO
      !
      DO JSV=NSV_SNWBEG,NSV_SNWEND
        XLBXSVS(:,:,:,JSV)=MAX(XLBXSVS(:,:,:,JSV),0.)
        XLBYSVS(:,:,:,JSV)=MAX(XLBYSVS(:,:,:,JSV),0.)
      ENDDO
      !
     END IF
  END IF
END IF
!
CALL SECOND_MNH2(ZTIME2)
!
XT_COUPL = XT_COUPL + ZTIME2 - ZTIME1
!
!-------------------------------------------------------------------------------
!
!
!
!*      8 Bis . Blowing snow scheme
!              ---------
!
IF ( LBLOWSNOW ) THEN
 CALL BLOWSNOW( XTSTEP, NRR, XPABST, XTHT, XRT, XZZ, XRHODREF,        &
                XRHODJ, XEXNREF, XRRS, XRTHS, XSVT, XRSVS, XSNWSUBL3D )
ENDIF
!
!-----------------------------------------------------------------------
!
!*       8 Ter  VISCOSITY (no-slip condition inside)
!              ---------
!
!
IF ( LVISC ) THEN
!
ZTIME1 = ZTIME2
!
   CALL VISCOSITY(CLBCX, CLBCY, NRR, NSV, XMU_V,XPRANDTL,         &
                  LVISC_UVW,LVISC_TH,LVISC_SV,LVISC_R,            &
                  LDRAG,    &
                  XUT, XVT, XWT, XTHT, XRT, XSVT,                 &
                  XRHODJ, XDXX, XDYY, XDZZ, XDZX, XDZY,           &
                  XRUS, XRVS, XRWS, XRTHS, XRRS, XRSVS,XDRAG )
!
ENDIF
!
CALL SECOND_MNH2(ZTIME2)
!
XT_VISC = XT_VISC + ZTIME2 - ZTIME1
!!
!-------------------------------------------------------------------------------
!
!*       9.    ADVECTION
!              ---------
!
ZTIME1 = ZTIME2
XTIME_BU_PROCESS = 0.
XTIME_LES_BU_PROCESS = 0.
!
!
!
CALL MPPDB_CHECK3DM("before ADVEC_METSV:XU/V/W/TH/TKE/T,XRHODJ",PRECISION,&
                   &  XUT, XVT, XWT, XTHT, XTKET,XRHODJ)
 CALL ADVECTION_METSV ( TZBAKFILE, CUVW_ADV_SCHEME,                    &
                 CMET_ADV_SCHEME, CSV_ADV_SCHEME, CCLOUD, NSPLIT,      &
                 LSPLIT_CFL, XSPLIT_CFL, LCFL_WRIT,                    &
                 CLBCX, CLBCY, NRR, NSV, TDTCUR, XTSTEP,               &
                 XUT, XVT, XWT, XTHT, XRT, XTKET, XSVT, XPABST,        &
                 XTHVREF, XRHODJ, XDXX, XDYY, XDZZ, XDZX, XDZY,        &
                 XRTHS, XRRS, XRTKES, XRSVS,                           &
                 XRTHS_CLD, XRRS_CLD, XRSVS_CLD, XRTKEMS               )
CALL MPPDB_CHECK3DM("after  ADVEC_METSV:XU/V/W/TH/TKE/T,XRHODJ ",PRECISION,&
                   &  XUT, XVT, XWT, XTHT, XTKET,XRHODJ)
!
CALL SECOND_MNH2(ZTIME2)
!
XT_ADV = XT_ADV + ZTIME2 - ZTIME1 - XTIME_LES_BU_PROCESS - XTIME_BU_PROCESS
!
!-------------------------------------------------------------------------------
ZTIME1 = ZTIME2
XTIME_BU_PROCESS = 0.
XTIME_LES_BU_PROCESS = 0.
!
ZRWS = XRWS
!
CALL GRAVITY_IMPL ( CLBCX, CLBCY, NRR, NRRL, NRRI,XTSTEP,            &
                 XTHT, XRT, XTHVREF, XRHODJ, XRWS, XRTHS, XRRS,      &
                 XRTHS_CLD, XRRS_CLD                                 )   
!
! At the initial instant the difference with the ref state creates a 
! vertical velocity production that must not be advected as it is 
! compensated by the pressure gradient
!
IF (KTCOUNT == 1 .AND. CCONF=='START') XRWS_PRES = - (XRWS - ZRWS) 
!
CALL SECOND_MNH2(ZTIME2)
!
XT_GRAV = XT_GRAV + ZTIME2 - ZTIME1 - XTIME_LES_BU_PROCESS - XTIME_BU_PROCESS
! 
IF ( LIBM .AND. CIBM_ADV=='FORCIN' ) THEN
  !
  ZTIME1=ZTIME2
  !
  CALL IBM_FORCING_ADV   (XRUS,XRVS,XRWS)
  !
  CALL SECOND_MNH2(ZTIME2)
  !
  XT_IBM_FORC = XT_IBM_FORC + ZTIME2 - ZTIME1
  !
ENDIF
!
ZTIME1 = ZTIME2
XTIME_BU_PROCESS = 0.
XTIME_LES_BU_PROCESS = 0.
!
!MPPDB_CHECK_LB=.TRUE.
CALL MPPDB_CHECK3DM("before ADVEC_UVW:XU/V/W/TH/TKE/T,XRHODJ,XRU/V/Ws",PRECISION,&
                   &  XUT, XVT, XWT, XTHT, XTKET,XRHODJ,XRUS,XRVS,XRWS)
IF ((CUVW_ADV_SCHEME(1:3)=='CEN') .AND. (CTEMP_SCHEME == 'LEFR')) THEN
  IF (CUVW_ADV_SCHEME=='CEN4TH') THEN
    NULLIFY(TZFIELDC_ll)
    NULLIFY(TZHALO2C_ll)
      CALL ADD3DFIELD_ll( TZFIELDC_ll, XUT, 'MODEL_n::XUT' )
      CALL ADD3DFIELD_ll( TZFIELDC_ll, XVT, 'MODEL_n::XVT' )
      CALL ADD3DFIELD_ll( TZFIELDC_ll, XWT, 'MODEL_n::XWT' )
      CALL INIT_HALO2_ll(TZHALO2C_ll,3,IIU,IJU,IKU)
      CALL UPDATE_HALO_ll(TZFIELDC_ll,IINFO_ll)
      CALL UPDATE_HALO2_ll(TZFIELDC_ll, TZHALO2C_ll, IINFO_ll)
  END IF
 CALL ADVECTION_UVW_CEN(CUVW_ADV_SCHEME,                &
                           CLBCX, CLBCY,                           &
                           XTSTEP, KTCOUNT,                        &
                           XUM, XVM, XWM, XDUM, XDVM, XDWM,        &
                           XUT, XVT, XWT,                          &
                           XRHODJ, XDXX, XDYY, XDZZ, XDZX, XDZY,   &
                           XRUS,XRVS, XRWS,                        &
                           TZHALO2C_ll                             )
  IF (CUVW_ADV_SCHEME=='CEN4TH') THEN
    CALL CLEANLIST_ll(TZFIELDC_ll)
    NULLIFY(TZFIELDC_ll)
    CALL  DEL_HALO2_ll(TZHALO2C_ll)
    NULLIFY(TZHALO2C_ll)
  END IF
ELSE

  CALL ADVECTION_UVW(CUVW_ADV_SCHEME, CTEMP_SCHEME,                  &
                 NWENO_ORDER, LSPLIT_WENO,                           &
                 CLBCX, CLBCY, XTSTEP,                               &
                 XUT, XVT, XWT,                                      &
                 XRHODJ, XDXX, XDYY, XDZZ, XDZX, XDZY,               &
                 XRUS, XRVS, XRWS,                                   &
                 XRUS_PRES, XRVS_PRES, XRWS_PRES                     )
END IF
!
CALL MPPDB_CHECK3DM("after  ADVEC_UVW:XU/V/W/TH/TKE/T,XRHODJ,XRU/V/Ws",PRECISION,&
                   &  XUT, XVT, XWT, XTHT, XTKET,XRHODJ,XRUS,XRVS,XRWS)
!MPPDB_CHECK_LB=.FALSE.
!
CALL SECOND_MNH2(ZTIME2)
!
XT_ADVUVW = XT_ADVUVW + ZTIME2 - ZTIME1 - XTIME_LES_BU_PROCESS - XTIME_BU_PROCESS
!
!-------------------------------------------------------------------------------
!
IF (NMODEL_CLOUD==IMI .AND. CTURBLEN_CLOUD/='NONE') THEN
  CALL TURB_CLOUD_INDEX( XTSTEP, TZBAKFILE,                               &
                         LTURB_DIAG, NRRI,                                &
                         XRRS, XRT, XRHODJ, XDXX, XDYY, XDZZ, XDZX, XDZY, &
                         XCEI                                             )
END IF
!
!-------------------------------------------------------------------------------
!
!*       18.    LATERAL BOUNDARY CONDITION FOR THE NORMAL VELOCITY
!               --------------------------------------------------
!
ZTIME1 = ZTIME2
!
CALL MPPDB_CHECK3DM("before RAD_BOUND :XRU/V/WS",PRECISION,XRUS,XRVS,XRWS)
ZRUS=XRUS
ZRVS=XRVS
ZRWS=XRWS
!
if ( .not. l1d ) then
  if ( lbudget_u ) call Budget_store_init( tbudgets(NBUDGET_U), 'PRES', xrus(:, :, :) )
  if ( lbudget_v ) call Budget_store_init( tbudgets(NBUDGET_V), 'PRES', xrvs(:, :, :) )
  if ( lbudget_w ) call Budget_store_init( tbudgets(NBUDGET_W), 'PRES', xrws(:, :, :) )
end if
!
CALL MPPDB_CHECK3DM("before RAD_BOUND : other var",PRECISION,XUT,XVT,XRHODJ,XTKET)
CALL MPPDB_CHECKLB(XLBXUM,"modeln XLBXUM",PRECISION,'LBXU',NRIMX)
CALL MPPDB_CHECKLB(XLBYVM,"modeln XLBYVM",PRECISION,'LBYV',NRIMY)
CALL MPPDB_CHECKLB(XLBXUS,"modeln XLBXUS",PRECISION,'LBXU',NRIMX)
CALL MPPDB_CHECKLB(XLBYVS,"modeln XLBYVS",PRECISION,'LBYV',NRIMY)
!
  CALL RAD_BOUND (CLBCX,CLBCY,CTURB,XCARPKMAX,           &
                XTSTEP,                                  &
                XDXHAT, XDYHAT, XZHAT,                   &
                XUT, XVT,                                &
                XLBXUM, XLBYVM, XLBXUS, XLBYVS,          &
                XFLUCTUNW,XFLUCTVNN,XFLUCTUNE,XFLUCTVNS, &
                XCPHASE, XCPHASE_PBL, XRHODJ,            &
                XTKET,XRUS, XRVS, XRWS                   )
ZRUS=XRUS-ZRUS
ZRVS=XRVS-ZRVS
ZRWS=XRWS-ZRWS
!
CALL SECOND_MNH2(ZTIME2)
!
XT_RAD_BOUND = XT_RAD_BOUND + ZTIME2 - ZTIME1
!
!-------------------------------------------------------------------------------
!
!*       19.    PRESSURE COMPUTATION
!               --------------------
!
ZTIME1 = ZTIME2
XTIME_BU_PROCESS = 0.
XTIME_LES_BU_PROCESS = 0.
!
ZPABST = XPABST
!
IF(.NOT. L1D) THEN
!
CALL MPPDB_CHECK3DM("before pressurez:XRU/V/WS",PRECISION,XRUS,XRVS,XRWS)
  XRUS_PRES = XRUS
  XRVS_PRES = XRVS
  XRWS_PRES = XRWS
!
  CALL PRESSUREZ( CLBCX,CLBCY,CPRESOPT,NITR,LITRADJ,KTCOUNT, XRELAX,IMI, &
                  XRHODJ,XDXX,XDYY,XDZZ,XDZX,XDZY,XDXHATM,XDYHATM,XRHOM, &
                  XAF,XBFY,XCF,XTRIGSX,XTRIGSY,NIFAXX,NIFAXY,            &
                  NRR,NRRL,NRRI,XDRYMASST,XREFMASS,XMASS_O_PHI0,         &
                  XTHT,XRT,XRHODREF,XTHVREF,XRVREF,XEXNREF, XLINMASS,    &
                  XRUS, XRVS, XRWS, XPABST,                              &
                  XBFB,&
                  XBF_SXP2_YP1_Z) !JUAN Z_SPLITING
!
  XRUS_PRES = XRUS - XRUS_PRES + ZRUS
  XRVS_PRES = XRVS - XRVS_PRES + ZRVS
  XRWS_PRES = XRWS - XRWS_PRES + ZRWS
  CALL MPPDB_CHECK3DM("after pressurez:XRU/V/WS",PRECISION,XRUS,XRVS,XRWS)
!
END IF
!
CALL SECOND_MNH2(ZTIME2)
!
XT_PRESS = XT_PRESS + ZTIME2 - ZTIME1 &
           - XTIME_LES_BU_PROCESS - XTIME_BU_PROCESS
!
!-------------------------------------------------------------------------------
!
!*       20.    CHEMISTRY/AEROSOLS
!               ------------------
!
ZTIME1 = ZTIME2
XTIME_BU_PROCESS = 0.
XTIME_LES_BU_PROCESS = 0.
!
IF (LUSECHEM) THEN
  CALL CH_MONITOR_n(ZWETDEPAER,KTCOUNT,XTSTEP, ILUOUT, NVERB)
END IF
!
! For inert aerosol (dust and sea salt) => aer_monitor_n
IF ((LDUST).OR.(LSALT)) THEN
!
! tests to see if any cloud exists
!   
    GCLD=.TRUE.
    IF (GCLD .AND. NRR.LE.3 ) THEN 
      IF( MAX(MAXVAL(XCLDFR(:,:,:)),MAXVAL(XICEFR(:,:,:))).LE. 1.E-10 .AND. GCLOUD_ONLY ) THEN
          GCLD = .FALSE.                ! only the cloudy verticals would be 
                                        ! refreshed but there is no clouds 
      END IF
    END IF
!
    IF (GCLD .AND. NRR.GE.4 ) THEN 
      IF( CCLOUD(1:3)=='ICE' )THEN
        IF( MAXVAL(XRT(:,:,:,2)).LE.XRTMIN(2) .AND.             &
            MAXVAL(XRT(:,:,:,4)).LE.XRTMIN(4) .AND. GCLOUD_ONLY ) THEN
            GCLD = .FALSE.            ! only the cloudy verticals would be 
                                      ! refreshed but there is no cloudwater and ice
        END IF
      END IF
      IF( CCLOUD=='C3R5' )THEN
        IF( MAXVAL(XRT(:,:,:,2)).LE.XRTMIN_C1R3(2) .AND.             &
            MAXVAL(XRT(:,:,:,4)).LE.XRTMIN_C1R3(4) .AND. GCLOUD_ONLY ) THEN
            GCLD = .FALSE.            ! only the cloudy verticals would be 
                                      ! refreshed but there is no cloudwater and ice
        END IF
      END IF
      IF( CCLOUD=='LIMA' )THEN
        IF( MAXVAL(XRT(:,:,:,2)).LE.XRTMIN_LIMA(2) .AND.             &
            MAXVAL(XRT(:,:,:,4)).LE.XRTMIN_LIMA(4) .AND. GCLOUD_ONLY ) THEN
            GCLD = .FALSE.            ! only the cloudy verticals would be 
                                      ! refreshed but there is no cloudwater and ice
        END IF
      END IF
    END IF

!
        CALL AER_MONITOR_n(KTCOUNT,XTSTEP, ILUOUT, NVERB, GCLD)
END IF
!
!
CALL SECOND_MNH2(ZTIME2)
!
XT_CHEM = XT_CHEM + ZTIME2 - ZTIME1 &
      - XTIME_LES_BU_PROCESS - XTIME_BU_PROCESS
!
ZTIME = ZTIME + XTIME_LES_BU_PROCESS + XTIME_BU_PROCESS

!-------------------------------------------------------------------------------
!
!*       20.    WATER MICROPHYSICS
!               ------------------
!
ZTIME1 = ZTIME2
XTIME_BU_PROCESS = 0.
XTIME_LES_BU_PROCESS = 0.
!
IF (CCLOUD /= 'NONE' .AND. CELEC == 'NONE') THEN
!
  IF (CCLOUD == 'C2R2' .OR. CCLOUD == 'KHKO' .OR. CCLOUD == 'C3R5' &
                                             .OR. CCLOUD == "LIMA" ) THEN
    IF ( LFORCING ) THEN
      XWT_ACT_NUC(:,:,:) = XWT(:,:,:) + XWTFRC(:,:,:)
    ELSE
      XWT_ACT_NUC(:,:,:) = XWT(:,:,:)
    END IF
    IF (CTURB /= 'NONE' ) THEN
     IF ( ((CCLOUD=='C2R2'.OR.CCLOUD=='KHKO').AND.LACTTKE) .OR. (CCLOUD=='LIMA'.AND.MACTTKE) ) THEN 
       XWT_ACT_NUC(:,:,:) = XWT_ACT_NUC(:,:,:) +  (2./3. * XTKET(:,:,:))**0.5
     ELSE
       XWT_ACT_NUC(:,:,:) = XWT_ACT_NUC(:,:,:) 
     ENDIF
    ENDIF
  ELSE
    XWT_ACT_NUC(:,:,:) = 0.
  END IF
!
  XRTHS_CLD  = XRTHS
  XRRS_CLD   = XRRS
  XRSVS_CLD  = XRSVS
  IF (CSURF=='EXTE') THEN
    ALLOCATE (ZSEA(SIZE(XRHODJ,1),SIZE(XRHODJ,2)))
    ALLOCATE (ZTOWN(SIZE(XRHODJ,1),SIZE(XRHODJ,2)))
    ZSEA(:,:) = 0.
    ZTOWN(:,:)= 0.
    CALL MNHGET_SURF_PARAM_n (PSEA=ZSEA(:,:),PTOWN=ZTOWN(:,:))
    CALL RESOLVED_CLOUD ( CCLOUD, CACTCCN, CSCONV, CMF_CLOUD, NRR, NSPLITR,    &
                          NSPLITG, IMI, KTCOUNT,                               &
                          CLBCX,CLBCY,TZBAKFILE, CRAD, CTURBDIM,               &
                          LSUBG_COND,LSIGMAS,CSUBG_AUCV,XTSTEP,                &
                          XZZ, XRHODJ, XRHODREF, XEXNREF,                      &
                          ZPABST, XTHT,XRT,XSIGS,VSIGQSAT,XMFCONV,XTHM,XRCM,   &
                          XPABST, XWT_ACT_NUC,XDTHRAD, XRTHS, XRRS,            &
                          XSVT, XRSVS,                                         &
                          XSRCT, XCLDFR,XICEFR, XCIT,                          &
                          LSEDIC,KACTIT, KSEDC, KSEDI, KRAIN, KWARM, KHHONI,   &
                          LCONVHG, XCF_MF,XRC_MF, XRI_MF,                      &
                          XINPRC,ZINPRC3D,XINPRR, XINPRR3D, XEVAP3D,           &
                          XINPRS,ZINPRS3D, XINPRG,ZINPRG3D, XINPRH,ZINPRH3D,   &
                          XSOLORG, XMI,ZSPEEDC, ZSPEEDR, ZSPEEDS, ZSPEEDG, ZSPEEDH, &
                          XINDEP, XSUPSAT, XNACT, XNPRO,XSSPRO, XRAINFR,       &
                          XHLC_HRC, XHLC_HCF, XHLI_HRI, XHLI_HCF,              &
                          ZSEA, ZTOWN                                          )
    DEALLOCATE(ZTOWN)
    DEALLOCATE(ZSEA)
  ELSE
    CALL RESOLVED_CLOUD ( CCLOUD, CACTCCN, CSCONV, CMF_CLOUD, NRR, NSPLITR,    &
                          NSPLITG, IMI, KTCOUNT,                               &
                          CLBCX,CLBCY,TZBAKFILE, CRAD, CTURBDIM,               &
                          LSUBG_COND,LSIGMAS,CSUBG_AUCV,                       &
                          XTSTEP,XZZ, XRHODJ, XRHODREF, XEXNREF,               &
                          ZPABST, XTHT,XRT,XSIGS,VSIGQSAT,XMFCONV,XTHM,XRCM,   &
                          XPABST, XWT_ACT_NUC,XDTHRAD, XRTHS, XRRS,            &
                          XSVT, XRSVS,                                         &
                          XSRCT, XCLDFR, XICEFR, XCIT,                         &
                          LSEDIC,KACTIT, KSEDC, KSEDI, KRAIN, KWARM, KHHONI,   &
                          LCONVHG, XCF_MF,XRC_MF, XRI_MF,                      &
                          XINPRC,ZINPRC3D,XINPRR, XINPRR3D, XEVAP3D,           &
                          XINPRS,ZINPRS3D, XINPRG,ZINPRG3D, XINPRH,ZINPRH3D,   &
                          XSOLORG, XMI,ZSPEEDC, ZSPEEDR, ZSPEEDS, ZSPEEDG, ZSPEEDH, &
                          XINDEP, XSUPSAT, XNACT, XNPRO,XSSPRO, XRAINFR,       &
                          XHLC_HRC, XHLC_HCF, XHLI_HRI, XHLI_HCF               )
  END IF
  XRTHS_CLD  = XRTHS - XRTHS_CLD
  XRRS_CLD   = XRRS  - XRRS_CLD
  XRSVS_CLD  = XRSVS - XRSVS_CLD
!
  IF (CCLOUD /= 'REVE' ) THEN
    XACPRR = XACPRR + XINPRR * XTSTEP
          IF ( (CCLOUD(1:3) == 'ICE' .AND. LSEDIC ) .OR.                     &
        ((CCLOUD == 'C2R2' .OR. CCLOUD == 'C3R5' .OR. CCLOUD == 'KHKO' &
                           .OR. CCLOUD == 'LIMA' ) .AND. KSEDC ) )    THEN
      XACPRC = XACPRC + XINPRC * XTSTEP
      IF (LDEPOSC .OR. LDEPOC) XACDEP = XACDEP + XINDEP * XTSTEP
    END IF
    IF (CCLOUD(1:3) == 'ICE' .OR. CCLOUD == 'C3R5' .OR. &
                                 (CCLOUD == 'LIMA' .AND. NMOM_I.GE.1 ) ) THEN
      XACPRS = XACPRS + XINPRS * XTSTEP
      XACPRG = XACPRG + XINPRG * XTSTEP
      IF (CCLOUD == 'ICE4' .OR. (CCLOUD == 'LIMA' .AND. NMOM_H.GE.1)) XACPRH = XACPRH + XINPRH * XTSTEP          
    END IF
!
! Lessivage des CCN et IFN nucléables par Slinn
!
    IF (LSCAV .AND. (CCLOUD == 'LIMA')) THEN
      CALL LIMA_PRECIP_SCAVENGING(CCLOUD, ILUOUT, KTCOUNT,XTSTEP,XRT(:,:,:,3), &
                              XRHODREF, XRHODJ, XZZ, XPABST, XTHT,             &
                              XSVT(:,:,:,NSV_LIMA_BEG:NSV_LIMA_END),           &
                              XRSVS(:,:,:,NSV_LIMA_BEG:NSV_LIMA_END), XINPAP   )
!
      XACPAP(:,:) = XACPAP(:,:) + XINPAP(:,:) * XTSTEP
    END IF
  END IF
!
! It is necessary that SV_C2R2 and SV_C1R3 are contiguous in the preceeding CALL
!
END IF