C $Header: /home/ubuntu/mnt/e9_copy/MITgcm/pkg/atm_ocn_coupler/cpl_send_ocn_fields.F,v 1.1 2006/06/15 23:05:26 jmc Exp $ C $Name: $ #include "CPP_OPTIONS.h" CStartOfInterface SUBROUTINE CPL_SEND_OCN_FIELDS C /==========================================================\ C | SUBROUTINE CPL_SEND_OCN_FIELDS | C | o Routine for sending surface flux to ocean component | C |==========================================================| C | This version talks to the MITgcm general circulation | C | model. | C \==========================================================/ IMPLICIT NONE C == Global variables == #include "ATMSIZE.h" #include "ATMVARS.h" #include "OCNSIZE.h" #include "OCNVARS.h" #include "OCNIDS.h" C == Routine arguments == C == Local variables == CEndOfInterface C-- Map Sea Level atmos. pressure onto ocean grid CALL ATM_TO_OCN_MAPXYR8( I Nx_atm, Ny_atm, atmSLPr_atm, Nx_ocn, Ny_ocn, O atmSLPr_ocn ) C Send Sea Level atmos. pressure to ocean component CALL COUPSEND_R8TILES( ocnCompName, ocnSLPrName, I Nx_ocn, Ny_ocn, atmSLPr_ocn ) C-- Map heatflux onto ocean grid CALL ATM_TO_OCN_MAPXYR8( I Nx_atm, Ny_atm, HeatFlux_atm, Nx_ocn, Ny_ocn, O HeatFlux_ocn ) C Map Energy flux carried by RunOff onto ocean grid and substract it C from previous (direct) FWFlux => total Heat-Flux = Qnet - EnRunOff CALL ATM_TO_OCN_MAPRUNOFF( I ROEnFx_atm, U HeatFlux_ocn) C Send (net) heatflux. to ocean component CALL COUPSEND_R8TILES( ocnCompName, ocnHeatFluxName, I Nx_ocn, Ny_ocn, HeatFlux_ocn ) C-- Map net shortwave radiation onto ocean grid CALL ATM_TO_OCN_MAPXYR8( I Nx_atm, Ny_atm, qShortWave_atm, Nx_ocn, Ny_ocn, O qShortWave_ocn ) C Send net shortwave radiation to ocean component CALL COUPSEND_R8TILES( ocnCompName, ocnQshortWaveName, I Nx_ocn, Ny_ocn, qShortWave_ocn ) C-- Map Zonal momentum flux onto ocean grid CALL ATM_TO_OCN_MAPXYR8( I Nx_atm, Ny_atm, TauX_atm, Nx_ocn, Ny_ocn, O TauX_ocn ) C Send Zonal momentum flux to ocean component CALL COUPSEND_R8TILES( ocnCompName, ocnTauXName, I Nx_ocn, Ny_ocn, TauX_ocn ) C-- Map Meridional momentum flux onto ocean grid CALL ATM_TO_OCN_MAPXYR8( I Nx_atm, Ny_atm, TauY_atm, Nx_ocn, Ny_ocn, O TauY_ocn ) C Send Meridional momentum flux to ocean component CALL COUPSEND_R8TILES( ocnCompName, ocnTauYName, I Nx_ocn, Ny_ocn, TauY_ocn ) C-- Map atmos. fresh water flux onto ocean grid : Evap - Precip CALL ATM_TO_OCN_MAPXYR8( I Nx_atm, Ny_atm, EvMPr_atm, Nx_ocn, Ny_ocn, O FWFlux_ocn ) C Map atmos. runOff from land onto ocean grid and substract it C from previous (direct) FWFlux => total FWFlux = E-P-R CALL ATM_TO_OCN_MAPRUNOFF( I RunOff_atm, U FWFlux_ocn) C Send E-P-R to ocean component CALL COUPSEND_R8TILES( ocnCompName, ocnFWFluxName, I Nx_ocn, Ny_ocn, FWFlux_ocn ) C-- Map salt flux from sea-ice compon. onto ocean grid CALL ATM_TO_OCN_MAPXYR8( I Nx_atm, Ny_atm, SaltFlx_atm, Nx_ocn, Ny_ocn, O SaltFlx_ocn ) C Send salt flux to ocean component CALL COUPSEND_R8TILES( ocnCompName, ocnSaltFxName, I Nx_ocn, Ny_ocn, SaltFlx_ocn ) C-- Map sea-ice mass onto ocean grid CALL ATM_TO_OCN_MAPXYR8( I Nx_atm, Ny_atm, sIceMass_atm, Nx_ocn, Ny_ocn, O sIceMass_ocn ) C Send sea-ice mass to ocean component CALL COUPSEND_R8TILES( ocnCompName, ocnSeaIceName, I Nx_ocn, Ny_ocn, sIceMass_ocn ) RETURN END