MODULE diatmb !!====================================================================== !! *** MODULE diaharm *** !! Harmonic analysis of tidal constituents !!====================================================================== !! History : 3.6 ! 2014 (E O'Dea) Original code !!---------------------------------------------------------------------- USE oce ! ocean dynamics and tracers variables USE dom_oce ! ocean space and time domain USE in_out_manager ! I/O units USE iom ! I/0 library USE wrk_nemo ! working arrays USE diaregmean #if defined key_fabm USE trc USE par_fabm #endif IMPLICIT NONE PRIVATE LOGICAL , PUBLIC :: ln_diatmb !: Top Middle and Bottom output PUBLIC dia_tmb_init ! routine called by nemogcm.F90 PUBLIC dia_tmb ! routine called by diawri.F90 !!---------------------------------------------------------------------- !! NEMO/OPA 3.6 , NEMO Consortium (2014) !! $Id$ !! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt) !!---------------------------------------------------------------------- CONTAINS SUBROUTINE dia_tmb_init !!--------------------------------------------------------------------------- !! *** ROUTINE dia_tmb_init *** !! !! ** Purpose: Initialization of tmb namelist !! !! ** Method : Read namelist !! History !! 3.6 ! 08-14 (E. O'Dea) Routine to initialize dia_tmb !!--------------------------------------------------------------------------- !! INTEGER :: ios ! Local integer output status for namelist read ! NAMELIST/nam_diatmb/ ln_diatmb !!---------------------------------------------------------------------- ! REWIND ( numnam_ref ) ! Read Namelist nam_diatmb in reference namelist : TMB diagnostics READ ( numnam_ref, nam_diatmb, IOSTAT=ios, ERR= 901 ) 901 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_diatmb in reference namelist', lwp ) REWIND( numnam_cfg ) ! Namelist nam_diatmb in configuration namelist TMB diagnostics READ ( numnam_cfg, nam_diatmb, IOSTAT = ios, ERR = 902 ) 902 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_diatmb in configuration namelist', lwp ) IF(lwm) WRITE ( numond, nam_diatmb ) IF(lwp) THEN ! Control print WRITE(numout,*) WRITE(numout,*) 'dia_tmb_init : Output Top, Middle, Bottom Diagnostics' WRITE(numout,*) '~~~~~~~~~~~~' WRITE(numout,*) 'Namelist nam_diatmb : set tmb outputs ' WRITE(numout,*) 'Switch for TMB diagnostics (T) or not (F) ln_diatmb = ', ln_diatmb ENDIF END SUBROUTINE dia_tmb_init SUBROUTINE dia_calctmb( pinfield,pouttmb ) !!--------------------------------------------------------------------- !! *** ROUTINE dia_tmb *** !! !! ** Purpose : Find the Top, Mid and Bottom fields of water Column !! !! ** Method : !! use mbathy to find surface, mid and bottom of model levels !! !! History : !! 3.6 ! 08-14 (E. O'Dea) Routine based on dia_wri_foam !!---------------------------------------------------------------------- !! * Modules used ! Routine to map 3d field to top, middle, bottom IMPLICIT NONE ! Routine arguments REAL(wp), DIMENSION(jpi, jpj, jpk), INTENT(IN ) :: pinfield ! Input 3d field and mask REAL(wp), DIMENSION(jpi, jpj, 3 ), INTENT( OUT) :: pouttmb ! Output top, middle, bottom ! Local variables INTEGER :: ji,jj,jk ! Dummy loop indices ! Local Real REAL(wp) :: zmdi ! set masked values zmdi=1.e+20 !missing data indicator for masking ! Calculate top pouttmb(:,:,1) = pinfield(:,:,1)*tmask(:,:,1) + zmdi*(1.0-tmask(:,:,1)) ! Calculate middle DO jj = 1,jpj DO ji = 1,jpi jk = max(1,mbathy(ji,jj)/2) pouttmb(ji,jj,2) = pinfield(ji,jj,jk)*tmask(ji,jj,jk) + zmdi*(1.0-tmask(ji,jj,jk)) END DO END DO ! Calculate bottom DO jj = 1,jpj DO ji = 1,jpi jk = max(1,mbathy(ji,jj) ) pouttmb(ji,jj,3) = pinfield(ji,jj,jk)*tmask(ji,jj,jk) + zmdi*(1.0-tmask(ji,jj,jk)) END DO END DO END SUBROUTINE dia_calctmb SUBROUTINE dia_tmb !!---------------------------------------------------------------------- !! *** ROUTINE dia_tmb *** !! ** Purpose : Write diagnostics for Top, Mid and Bottom of water Column !! !! ** Method : !! use mbathy to find surface, mid and bottom of model levels !! calls calctmb to retrieve TMB values before sending to iom_put !! !! History : !! 3.6 ! 08-14 (E. O'Dea) !! !!-------------------------------------------------------------------- REAL(wp), POINTER, DIMENSION(:,:,:) :: zwtmb ! temporary workspace REAL(wp) :: zmdi ! set masked values INTEGER :: jn ! set masked values #if defined key_fabm INTEGER :: tmp_dummy #endif zmdi=1.e+20 !missing data indicator for maskin IF (ln_diatmb) THEN CALL wrk_alloc( jpi , jpj, 3 , zwtmb ) CALL dia_calctmb( tsn(:,:,:,jp_tem),zwtmb ) !ssh already output but here we output it masked CALL iom_put( "sshnmasked" , sshn(:,:)*tmask(:,:,1) + zmdi*(1.0 - tmask(:,:,1)) ) ! tmb Temperature CALL iom_put( "top_temp" , zwtmb(:,:,1) ) ! tmb Temperature CALL iom_put( "mid_temp" , zwtmb(:,:,2) ) ! tmb Temperature CALL iom_put( "bot_temp" , zwtmb(:,:,3) ) ! tmb Temperature CALL iom_put( "dif_temp" , (zwtmb(:,:,1) - zwtmb(:,:,3))*tmask(:,:,1)+zmdi*(1.0-tmask(:,:,1 ) ) ) ! tmb Temperature ! CALL iom_put( "sotrefml" , hmld_tref(:,:) ) ! "T criterion Mixed Layer Depth CALL dia_calctmb( tsn(:,:,:,jp_sal),zwtmb ) CALL iom_put( "top_sal" , zwtmb(:,:,1) ) ! tmb Salinity CALL iom_put( "mid_sal" , zwtmb(:,:,2) ) ! tmb Salinity CALL iom_put( "bot_sal" , zwtmb(:,:,3) ) ! tmb Salinity CALL iom_put( "dif_sal" , (zwtmb(:,:,1) - zwtmb(:,:,3))*tmask(:,:,1)+zmdi*(1.0-tmask(:,:,1 ) ) ) ! tmb Salinity CALL dia_calctmb( un(:,:,:),zwtmb ) CALL iom_put( "top_u" , zwtmb(:,:,1) ) ! tmb U Velocity CALL iom_put( "mid_u" , zwtmb(:,:,2) ) ! tmb U Velocity CALL iom_put( "bot_u" , zwtmb(:,:,3) ) ! tmb U Velocity CALL iom_put( "dif_u" , (zwtmb(:,:,1) - zwtmb(:,:,3))*tmask(:,:,1)+zmdi*(1.0-tmask(:,:,1 ) ) ) ! tmb U Velocity !Called in dynspg_ts.F90 CALL iom_put( "baro_u" , un_b ) ! Barotropic U Velocity CALL dia_calctmb( vn(:,:,:),zwtmb ) CALL iom_put( "top_v" , zwtmb(:,:,1) ) ! tmb V Velocity CALL iom_put( "mid_v" , zwtmb(:,:,2) ) ! tmb V Velocity CALL iom_put( "bot_v" , zwtmb(:,:,3) ) ! tmb V Velocity CALL iom_put( "dif_v" , (zwtmb(:,:,1) - zwtmb(:,:,3))*tmask(:,:,1)+zmdi*(1.0-tmask(:,:,1 ) ) ) ! tmb V Velocity CALL wrk_alloc( jpi , jpj, 3 , zwtmb ) #if defined key_fabm CALL wrk_alloc( jpi , jpj, 6 , zwtmb ) DO jn=1,jp_fabm ! State loop ! By default, only use a small sub sample of values. tmp_dummy = 0 SELECT CASE (trim(ctrcnm(jn))) CASE ('N1_p') ; tmp_dummy = 0 CASE ('N3_n') ; tmp_dummy = 0 CASE ('N4_n') ; tmp_dummy = 0 CASE ('N5_s') ; tmp_dummy = 0 CASE ('O2_o') ; tmp_dummy = 0 !CASE ('O3_c') ; tmp_dummy = 0 !CASE ('O3_bioalk') ; tmp_dummy = 0 CASE ('P1_Chl') ; tmp_dummy = 0 CASE ('P2_Chl') ; tmp_dummy = 0 CASE ('P3_Chl') ; tmp_dummy = 0 CASE ('P4_Chl') ; tmp_dummy = 0 CASE ('P1_c') ; tmp_dummy = 0 CASE ('P2_c') ; tmp_dummy = 0 CASE ('P3_c') ; tmp_dummy = 0 CASE ('P4_c') ; tmp_dummy = 0 CASE ('Z4_c') ; tmp_dummy = 0 CASE ('Z5_c') ; tmp_dummy = 0 CASE ('Z6_c') ; tmp_dummy = 0 CASE DEFAULT tmp_dummy = 1 CYCLE END SELECT CALL dia_calctmb_region_mean( trn(:,:,:,jn),zwtmb ) CALL iom_put( "top_"//TRIM(ctrcnm(jn)), zwtmb(:,:,1) ) ! tmb Temperature CALL iom_put( "bot_"//TRIM(ctrcnm(jn)), zwtmb(:,:,2) ) ! tmb Temperature CALL iom_put( "dif_"//TRIM(ctrcnm(jn)), zwtmb(:,:,3) ) ! tmb Temperature CALL iom_put( "zav_"//TRIM(ctrcnm(jn)), zwtmb(:,:,4) ) ! tmb Temperature CALL iom_put( "vol_"//TRIM(ctrcnm(jn)), zwtmb(:,:,5) ) ! tmb Temperature !CALL dia_calctmb( trn(:,:,:,jn),zwtmb ) !CALL iom_put( "top_"//TRIM(ctrcnm(jn)), zwtmb(:,:,1) ) ! tmb Temperature !CALL iom_put( "mid_"//TRIM(ctrcnm(jn)), zwtmb(:,:,2) ) ! tmb Temperature !CALL iom_put( "bot_"//TRIM(ctrcnm(jn)), zwtmb(:,:,3) ) ! tmb Temperature !CALL iom_put( "dif_"//TRIM(ctrcnm(jn)), (zwtmb(:,:,1) - zwtmb(:,:,3))*tmask(:,:,1)+zmdi*(1.0-tmask(:,:,1 ) ) ) ! tmb Temperature ENDDO ! State loop CALL wrk_dealloc( jpi , jpj, 6 , zwtmb ) #endif !Called in dynspg_ts.F90 CALL iom_put( "baro_v" , vn_b ) ! Barotropic V Velocity ELSE CALL ctl_warn('dia_tmb: tmb diagnostic is set to false you should not have seen this') ENDIF END SUBROUTINE dia_tmb !!====================================================================== END MODULE diatmb