MODULE icbstp !!====================================================================== !! *** MODULE icbstp *** !! Icebergs: initialise variables for iceberg tracking !!====================================================================== !! History : 3.3.1 ! 2010-01 (Martin&Adcroft) Original code !! - ! 2011-03 (Madec) Part conversion to NEMO form !! - ! Removal of mapping from another grid !! - ! 2011-04 (Alderson) Split into separate modules !! - ! Move budgets to icbdia routine !! - ! 2011-05 (Alderson) Add call to copy forcing arrays !! - ! into icb copies with haloes !!---------------------------------------------------------------------- !!---------------------------------------------------------------------- !! icb_stp : start iceberg tracking !! icb_end : end iceberg tracking !!---------------------------------------------------------------------- USE par_oce ! nemo parameters USE dom_oce ! ocean domain USE sbc_oce ! ocean surface forcing USE phycst USE in_out_manager ! nemo IO USE lib_mpp USE iom USE fldread USE timing ! timing USE icb_oce ! define iceberg arrays USE icbini ! iceberg initialisation routines USE icbutl ! iceberg utility routines USE icbrst ! iceberg restart routines USE icbdyn ! iceberg dynamics (ie advection) routines USE icbclv ! iceberg calving routines USE icbthm ! iceberg thermodynamics routines USE icblbc ! iceberg lateral boundary routines (including mpp) USE icbtrj ! iceberg trajectory I/O routines USE icbdia ! iceberg budget IMPLICIT NONE PRIVATE PUBLIC icb_stp ! routine called in sbcmod.F90 module PUBLIC icb_end ! routine called in nemogcm.F90 module !!---------------------------------------------------------------------- !! NEMO/OPA 3.3 , NEMO Consortium (2011) !! $Id: icbstp.F90 2355 2015-05-20 07:11:50Z ufla $ !! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt) !!---------------------------------------------------------------------- CONTAINS SUBROUTINE icb_stp( kt ) !!---------------------------------------------------------------------- !! *** ROUTINE icb_stp *** !! !! ** Purpose : iceberg time stepping. !! !! ** Method : - top level routine to do things in the correct order !!---------------------------------------------------------------------- INTEGER, INTENT(in) :: kt ! time step index ! LOGICAL :: ll_sample_traj, ll_budget, ll_verbose ! local logical !!---------------------------------------------------------------------- ! IF( nn_timing == 1 ) CALL timing_start('icb_stp') !! start of timestep housekeeping nktberg = kt IF( nn_test_icebergs < 0 ) THEN ! read calving data ! CALL fld_read ( kt, 1, sf_icb ) src_calving(:,:) = sf_icb(1)%fnow(:,:,1) ! calving in km^3/year (water equivalent) src_calving_hflx(:,:) = 0._wp ! NO heat flux for now ! ENDIF berg_grid%floating_melt(:,:) = 0._wp ! anything that needs to be reset to zero each timestep for budgets is dealt with here CALL icb_dia_step() ll_verbose = .FALSE. IF( nn_verbose_write > 0 .AND. & MOD(kt-1,nn_verbose_write ) == 0 ) ll_verbose = nn_verbose_level >= 0 ! write out time IF( ll_verbose ) WRITE(numicb,9100) nktberg, ndastp, nsec_day 9100 FORMAT('kt= ',i8, ' day= ',i8,' secs=',i8) ! copy nemo forcing arrays into iceberg versions with extra halo ! only necessary for variables not on T points CALL icb_utl_copy() !!---------------------------------------------------------------------- !! process icebergs CALL icb_clv_flx( kt ) ! Accumulate ice from calving CALL icb_clv() ! Calve excess stored ice into icebergs ! !== For each berg, evolve ==! ! IF( ASSOCIATED(first_berg) ) CALL icb_dyn( kt ) ! ice berg dynamics IF( lk_mpp ) THEN ; CALL icb_lbc_mpp() ! Send bergs to other PEs ELSE ; CALL icb_lbc() ! Deal with any cyclic boundaries in non-mpp case ENDIF IF( ASSOCIATED(first_berg) ) CALL icb_thm( kt ) ! Ice berg thermodynamics (melting) + rolling !!---------------------------------------------------------------------- !! end of timestep housekeeping ll_sample_traj = .FALSE. IF( nn_sample_rate > 0 .AND. MOD(kt-1,nn_sample_rate) == 0 ) ll_sample_traj = .TRUE. IF( ll_sample_traj .AND. & ASSOCIATED(first_berg) ) CALL icb_trj_write( kt ) ! For each berg, record trajectory ! Gridded diagnostics ! To get these iom_put's and those preceding to actually do something ! use key_iomput in cpp file and create content for XML file CALL iom_put( "calving" , berg_grid%calving (:,:) ) ! 'calving mass input' CALL iom_put( "berg_floating_melt", berg_grid%floating_melt(:,:) ) ! 'Melt rate of icebergs + bits' , 'kg/m2/s' CALL iom_put( "berg_stored_ice" , berg_grid%stored_ice (:,:,:) ) ! 'Accumulated ice mass by class', 'kg' ! store mean budgets CALL icb_dia_put() ! Dump icebergs to screen if ( nn_verbose_level >= 2 ) CALL icb_utl_print( 'icb_stp, status', kt ) ! Diagnose budgets ll_budget = .FALSE. IF( nn_verbose_write > 0 .AND. MOD(kt-1,nn_verbose_write) == 0 ) ll_budget = ln_bergdia CALL icb_dia( ll_budget ) IF( MOD(kt,nn_stock) == 0 ) THEN CALL icb_rst_write( kt ) IF( nn_sample_rate > 0 ) CALL icb_trj_sync() ENDIF IF( nn_timing == 1 ) CALL timing_stop('icb_stp') ! END SUBROUTINE icb_stp SUBROUTINE icb_end( kt ) !!---------------------------------------------------------------------- !! *** ROUTINE icb_end *** !! !! ** Purpose : close iceberg files !! !!---------------------------------------------------------------------- INTEGER, INTENT( in ) :: kt !!---------------------------------------------------------------------- ! only write a restart if not done in icb_stp IF( MOD(kt,nn_stock) .NE. 0 ) CALL icb_rst_write( kt ) ! finish with trajectories if they were written IF( nn_sample_rate .GT. 0 ) CALL icb_trj_end() IF(lwp) WRITE(numout,'(a,i6)') 'icebergs: icb_end complete', narea CALL flush( numicb ) CLOSE( numicb ) ! END SUBROUTINE icb_end !!------------------------------------------------------------------------- END MODULE icbstp