MODULE carbon_cycle_mod !======================================================================= ! Authors: Patricia Cadule and Laurent Fairhead ! base sur un travail anterieur mene par Patricia Cadule et Josefine Ghattas ! ! Purpose and description: ! ----------------------- ! Control module for the carbon CO2 tracers : ! - Initialisation of carbon cycle fields ! - Definition of fluxes to be exchanged ! ! Rest of code is in tracco2i.F90 ! ! Le cas online/offline est defini par le flag carbon_cycle_cpl (y/n) ! Le transport du traceur CO2 est defini par le flag carbon_cycle_tr (y/n) ! la provenance des champs (termes de puits) est denini par le flag level_coupling_esm ! ! level_coupling_esm : level of coupling of the biogeochemical fields between ! LMDZ, ORCHIDEE and NEMO ! Definitions of level_coupling_esm in physiq.def ! level_coupling_esm = 0 ! No field exchange between LMDZ and ORCHIDEE models ! ! No field exchange between LMDZ and NEMO ! level_coupling_esm = 1 ! Field exchange between LMDZ and ORCHIDEE models ! ! No field exchange between LMDZ and NEMO models ! level_coupling_esm = 2 ! No field exchange between LMDZ and ORCHIDEE models ! ! Field exchange between LMDZ and NEMO models ! level_coupling_esm = 3 ! Field exchange between LMDZ and ORCHIDEE models ! ! Field exchange between LMDZ and NEMO models !======================================================================= IMPLICIT NONE SAVE PRIVATE PUBLIC :: carbon_cycle_init, infocfields_init ! Variables read from parmeter file physiq.def LOGICAL, PUBLIC :: carbon_cycle_cpl ! Coupling of CO2 fluxes between LMDZ/ORCHIDEE and LMDZ/OCEAN(PISCES) !$OMP THREADPRIVATE(carbon_cycle_cpl) LOGICAL, PUBLIC :: carbon_cycle_tr ! 3D transport of CO2 in the atmosphere, parameter read in conf_phys !$OMP THREADPRIVATE(carbon_cycle_tr) LOGICAL, PUBLIC :: carbon_cycle_rad ! flag to activate CO2 interactive radiatively !$OMP THREADPRIVATE(carbon_cycle_rad) INTEGER, PUBLIC :: level_coupling_esm ! Level of coupling for the ESM - 0, 1, 2, 3 !$OMP THREADPRIVATE(level_coupling_esm) LOGICAL, PUBLIC :: read_fco2_ocean_cor ! flag to read corrective oceanic CO2 flux !$OMP THREADPRIVATE(read_fco2_ocean_cor) REAL, PUBLIC :: var_fco2_ocean_cor ! corrective oceanic CO2 flux !$OMP THREADPRIVATE(var_fco2_ocean_cor) REAL, PUBLIC :: ocean_area_tot ! total oceanic area to convert flux !$OMP THREADPRIVATE(ocean_area_tot) LOGICAL, PUBLIC :: read_fco2_land_cor ! flag to read corrective land CO2 flux !$OMP THREADPRIVATE(read_fco2_land_cor) REAL, PUBLIC :: var_fco2_land_cor ! corrective land CO2 flux !$OMP THREADPRIVATE(var_fco2_land_cor) REAL, PUBLIC :: land_area_tot ! total land area to convert flux !$OMP THREADPRIVATE(land_area_tot) REAL, PUBLIC :: RCO2_glo !$OMP THREADPRIVATE(RCO2_glo) REAL, PUBLIC :: RCO2_tot !$OMP THREADPRIVATE(RCO2_tot) LOGICAL :: carbon_cycle_emis_comp_omp=.FALSE. LOGICAL :: carbon_cycle_emis_comp=.FALSE. ! Calculation of emission compatible !$OMP THREADPRIVATE(carbon_cycle_emis_comp) LOGICAL :: RCO2_inter_omp LOGICAL :: RCO2_inter ! RCO2 interactive : if true calculate new value RCO2 for the radiation scheme !$OMP THREADPRIVATE(RCO2_inter) ! Scalare values when no transport, from physiq.def REAL :: fos_fuel_s_omp REAL :: fos_fuel_s ! carbon_cycle_fos_fuel dans physiq.def !$OMP THREADPRIVATE(fos_fuel_s) REAL :: emis_land_s ! not yet implemented !$OMP THREADPRIVATE(emis_land_s) REAL :: airetot ! Total area of the earth surface !$OMP THREADPRIVATE(airetot) INTEGER :: ntr_co2 ! Number of tracers concerning the carbon cycle !$OMP THREADPRIVATE(ntr_co2) ! fco2_ocn_day : flux CO2 from ocean for 1 day (cumulated) [gC/m2/d]. Allocation and initalization done in cpl_mod REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_ocn_day !$OMP THREADPRIVATE(fco2_ocn_day) REAL, DIMENSION(:), ALLOCATABLE :: fco2_land_day ! flux CO2 from land for 1 day (cumulated) [gC/m2/d] !$OMP THREADPRIVATE(fco2_land_day) REAL, DIMENSION(:), ALLOCATABLE :: fco2_lu_day ! Emission from land use change for 1 day (cumulated) [gC/m2/d] !$OMP THREADPRIVATE(fco2_lu_day) REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_ff ! Emission from fossil fuel [kgCO2/m2/s] !$OMP THREADPRIVATE(fco2_ff) REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_bb ! Emission from biomass burning [kgCO2/m2/s] !$OMP THREADPRIVATE(fco2_bb) REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_land ! Net flux from terrestrial ecocsystems [kgCO2/m2/s] !$OMP THREADPRIVATE(fco2_land) REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_land_nbp ! Net flux from terrestrial ecocsystems [kgCO2/m2/s] !$OMP THREADPRIVATE(fco2_land_nbp) REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_land_nep ! Net flux from terrestrial ecocsystems [kgCO2/m2/s] !$OMP THREADPRIVATE(fco2_land_nep) REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_land_fLuc ! Net flux from terrestrial ecocsystems [kgCO2/m2/s] !$OMP THREADPRIVATE(fco2_land_fLuc) REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_land_fwoodharvest ! Net flux from terrestrial ecocsystems [kgCO2/m2/s] !$OMP THREADPRIVATE(fco2_land_fwoodharvest) REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_land_fHarvest ! Net flux from terrestrial ecocsystems [kgCO2/m2/s] !$OMP THREADPRIVATE(fco2_land_fHarvest) REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_ocean ! Net flux from ocean [kgCO2/m2/s] !$OMP THREADPRIVATE(fco2_ocean) REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_ocean_cor ! Net corrective flux from ocean [kgCO2/m2/s] !$OMP THREADPRIVATE(fco2_ocean_cor) REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_land_cor ! Net corrective flux from land [kgCO2/m2/s] !$OMP THREADPRIVATE(fco2_land_cor) REAL, DIMENSION(:,:), ALLOCATABLE :: dtr_add ! Tracer concentration to be injected !$OMP THREADPRIVATE(dtr_add) ! Following 2 fields will be allocated and initialized in surf_land_orchidee REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_land_inst ! flux CO2 from land at one time step !$OMP THREADPRIVATE(fco2_land_inst) REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: fco2_lu_inst ! Emission from land use change at one time step !$OMP THREADPRIVATE(fco2_lu_inst) ! Calculated co2 field to be send to the ocean via the coupler and to ORCHIDEE REAL, DIMENSION(:), ALLOCATABLE, PUBLIC :: co2_send ! Field allocated in phyetat0 !$OMP THREADPRIVATE(co2_send) INTEGER, PARAMETER, PUBLIC :: id_CO2=1 !--temporaire OB -- to be changed ! nbfields : total number of fields INTEGER, PUBLIC :: nbcf !$OMP THREADPRIVATE(nbcf) ! nbcf_in : number of fields IN INTEGER, PUBLIC :: nbcf_in !$OMP THREADPRIVATE(nbcf_in) ! nbcf_in_orc : number of fields IN INTEGER, PUBLIC :: nbcf_in_orc !$OMP THREADPRIVATE(nbcf_in_orc) ! nbcf_in_inca : number of fields IN (from INCA) INTEGER, PUBLIC :: nbcf_in_inca !$OMP THREADPRIVATE(nbcf_in_inca) ! nbcf_in_nemo : number of fields IN (from nemo) INTEGER, PUBLIC :: nbcf_in_nemo !$OMP THREADPRIVATE(nbcf_in_nemo) ! nbcf_in_ant : number of fields IN (from anthropogenic sources) INTEGER, PUBLIC :: nbcf_in_ant !$OMP THREADPRIVATE(nbcf_in_ant) ! nbcf_out : number of fields OUT INTEGER, PUBLIC :: nbcf_out !$OMP THREADPRIVATE(nbcf_out) ! Name of variables CHARACTER(len=25), ALLOCATABLE, DIMENSION(:), PUBLIC :: cfname ! coupling field short name for restart (?) and diagnostics !$OMP THREADPRIVATE(cfname) CHARACTER(len=25), ALLOCATABLE, DIMENSION(:), PUBLIC :: cfname_in ! coupling field short name for restart (?) and diagnostics !$OMP THREADPRIVATE(cfname_in) CHARACTER(len=25), ALLOCATABLE, DIMENSION(:), PUBLIC :: cfname_out ! coupling field short name for restart (?) and diagnostics !$OMP THREADPRIVATE(cfname_out) CHARACTER(len=15), ALLOCATABLE, DIMENSION(:), PUBLIC :: cfunits_in ! coupling field units for diagnostics !$OMP THREADPRIVATE(cfunits_in) CHARACTER(len=15), ALLOCATABLE, DIMENSION(:), PUBLIC :: cfunits_out ! coupling field units for diagnostics !$OMP THREADPRIVATE(cfunits_out) CHARACTER(len=120), ALLOCATABLE, DIMENSION(:), PUBLIC :: cftext_in ! coupling field long name for diagnostics !$OMP THREADPRIVATE(cftext_in) CHARACTER(len=120), ALLOCATABLE, DIMENSION(:), PUBLIC :: cftext_out ! coupling field long name for diagnostics !$OMP THREADPRIVATE(cftext_out) CHARACTER(len=5), ALLOCATABLE, DIMENSION(:), PUBLIC :: cfmod1 ! model 1 (rreference) : LMDz !$OMP THREADPRIVATE(cfmod1) CHARACTER(len=5), ALLOCATABLE, DIMENSION(:), PUBLIC :: cfmod2 ! model 2 !$OMP THREADPRIVATE(cfmod2) CHARACTER(LEN=20), ALLOCATABLE, DIMENSION(:), PUBLIC :: field_out_names !$OMP THREADPRIVATE(field_out_names) CHARACTER(LEN=20), ALLOCATABLE, DIMENSION(:), PUBLIC :: field_in_names !$OMP THREADPRIVATE(field_in_names) REAL, ALLOCATABLE, DIMENSION(:,:), PUBLIC :: fields_in ! klon,nbcf_in !$OMP THREADPRIVATE(fields_in) REAL, ALLOCATABLE, DIMENSION(:,:), PUBLIC :: yfields_in ! knon,nbcf_in !$OMP THREADPRIVATE(yfields_in) REAL, ALLOCATABLE, DIMENSION(:,:), PUBLIC :: fields_out ! klon,nbcf_out !$OMP THREADPRIVATE(fields_out) REAL, ALLOCATABLE, DIMENSION(:,:), PUBLIC :: yfields_out ! knon,nbcf_out !$OMP THREADPRIVATE(yfields_out) TYPE, PUBLIC :: co2_trac_type CHARACTER(len = 8) :: name ! Tracer name in tracer.def INTEGER :: id ! Index in total tracer list, tr_seri CHARACTER(len=30) :: file ! File name LOGICAL :: cpl ! True if this tracers is coupled from ORCHIDEE or PISCES. ! False if read from file. INTEGER :: updatefreq ! Frequence to inject in second INTEGER :: readstep ! Actual time step to read in file LOGICAL :: updatenow ! True if this tracer should be updated this time step END TYPE co2_trac_type INTEGER,PARAMETER :: maxco2trac=5 ! Maximum number of different CO2 fluxes TYPE(co2_trac_type), DIMENSION(maxco2trac) :: co2trac CONTAINS SUBROUTINE carbon_cycle_init() ! This subroutine is called from tracco2i_init, which is called from phytrac_init only at first timestep. ! - Allocate variables. These variables must be allocated before first call to phys_output_write in physiq. USE dimphy USE IOIPSL USE print_control_mod, ONLY: lunout USE dimensions_mod, ONLY: iim, jjm, llm, ndm USE clesphys_mod_h IMPLICIT NONE ! Local variables INTEGER :: ierr IF (carbon_cycle_cpl) THEN ierr=0 IF (.NOT.ALLOCATED(fco2_land)) ALLOCATE(fco2_land(klon), stat=ierr) IF (ierr /= 0) CALL abort_physic('carbon_cycle_init', 'pb in allocation fco2_land',1) IF (.NOT.ALLOCATED(fco2_land_nbp)) ALLOCATE(fco2_land_nbp(klon), stat=ierr) IF (ierr /= 0) CALL abort_physic('carbon_cycle_init', 'pb in allocation fco2_land_nbp',1) IF (.NOT.ALLOCATED(fco2_land_nep)) ALLOCATE(fco2_land_nep(klon), stat=ierr) IF (ierr /= 0) CALL abort_physic('carbon_cycle_init', 'pb in allocation fco2_land_nep',1) IF (.NOT.ALLOCATED(fco2_land_fLuc)) ALLOCATE(fco2_land_fLuc(klon), stat=ierr) IF (ierr /= 0) CALL abort_physic('carbon_cycle_init', 'pb in allocation fco2_land_fLuc',1) IF (.NOT.ALLOCATED(fco2_land_fwoodharvest)) ALLOCATE(fco2_land_fwoodharvest(klon), stat=ierr) IF (ierr /= 0) CALL abort_physic('carbon_cycle_init', 'pb in allocation fco2_land_fwoodharvest',1) IF (.NOT.ALLOCATED(fco2_land_fHarvest)) ALLOCATE(fco2_land_fHarvest(klon), stat=ierr) IF (ierr /= 0) CALL abort_physic('carbon_cycle_init', 'pb in allocation fco2_land_fHarvest',1) IF (.NOT.ALLOCATED(fco2_ff)) ALLOCATE(fco2_ff(klon), stat=ierr) IF (ierr /= 0) CALL abort_physic('carbon_cycle_init', 'pb in allocation fco2_ff',1) IF (.NOT.ALLOCATED(fco2_bb)) ALLOCATE(fco2_bb(klon), stat=ierr) IF (ierr /= 0) CALL abort_physic('carbon_cycle_init', 'pb in allocation fco2_bb',1) IF (.NOT.ALLOCATED(fco2_ocean)) ALLOCATE(fco2_ocean(klon), stat=ierr) IF (ierr /= 0) CALL abort_physic('carbon_cycle_init', 'pb in allocation fco2_ocean',1) IF (.NOT.ALLOCATED(fco2_ocean_cor)) ALLOCATE(fco2_ocean_cor(klon), stat=ierr) IF (ierr /= 0) CALL abort_physic('carbon_cycle_init', 'pb in allocation fco2_ocean_cor',1) IF (.NOT.ALLOCATED(fco2_land_cor)) ALLOCATE(fco2_land_cor(klon), stat=ierr) IF (ierr /= 0) CALL abort_physic('carbon_cycle_init', 'pb in allocation fco2_land_cor',1) ENDIF END SUBROUTINE carbon_cycle_init SUBROUTINE infocfields_init ! USE control_mod, ONLY: planet_type USE phys_cal_mod, ONLY : mth_cur USE mod_synchro_omp USE mod_phys_lmdz_para, ONLY: is_mpi_root, is_omp_root USE mod_phys_lmdz_transfert_para USE mod_phys_lmdz_omp_transfert USE dimphy, ONLY: klon USE iniprint_mod_h USE clesphys_mod_h IMPLICIT NONE !======================================================================= ! ! Authors: Patricia Cadule and Laurent Fairhead ! ------- ! ! Purpose and description: ! ----------------------- ! ! Infofields ! this routine enables to define the field exchanges in both directions between ! the atmospheric circulation model (LMDZ) and ORCHIDEE. In the future this ! routing might apply to other models (e.g., NEMO, INCA, ...). ! Therefore, currently with this routine, it is possible to define the coupling ! fields only between LMDZ and ORCHIDEE. ! The coupling_fields.def file enables to define the name of the exchanged ! fields at the coupling interface. ! field_in_names : the set of names of the exchanged fields in input to ORCHIDEE ! (LMDZ to ORCHIDEE) ! field_out_names : the set of names of the exchanged fields in output of ! ORCHIDEE (ORCHIDEE to LMDZ) ! n : the number of exchanged fields at th coupling interface ! nb_fields_in : number of inputs fields to ORCHIDEE (LMDZ to ORCHIDEE) ! nb_fields_out : number of ouput fields of ORCHIDEE (ORCHIDEE to LMDZ) ! ! The syntax for coupling_fields.def is as follows: ! IMPORTANT: each column entry must be separated from the previous one by 3 ! spaces and only that ! field name coupling model 1 model 2 long_name ! direction ! 10char -3spaces- 3char -3spaces- 4char -3spaces- 4char -3spaces- 30char ! ! n ! FIELD1 IN LMDZ ORC ! .... ! FIELD(j) IN LMDZ ORC ! FIELD(j+1) OUT LMDZ ORC ! ... ! FIELDn OUT LMDZ ORC ! !======================================================================= ! ... 22/12/2017 .... !----------------------------------------------------------------------- ! Declarations ! Local variables INTEGER :: iq, ierr, stat, error CHARACTER(LEN=20), ALLOCATABLE, DIMENSION(:), SAVE :: cfname_root CHARACTER(LEN=120), ALLOCATABLE, DIMENSION(:), SAVE :: cftext_root CHARACTER(LEN=15), ALLOCATABLE, DIMENSION(:), SAVE :: cfunits_root CHARACTER(len=3), ALLOCATABLE, DIMENSION(:) :: cfintent_root CHARACTER(len=5), ALLOCATABLE, DIMENSION(:) :: cfmod1_root CHARACTER(len=5), ALLOCATABLE, DIMENSION(:) :: cfmod2_root LOGICAL, ALLOCATABLE, DIMENSION(:), SAVE :: mask_in_root LOGICAL, ALLOCATABLE, DIMENSION(:), SAVE :: mask_out_root CHARACTER(len=*),parameter :: modname="infocfields" CHARACTER(len=10),SAVE :: planet_type="earth" !----------------------------------------------------------------------- nbcf=0 nbcf_in=0 nbcf_out=0 IF (planet_type=='earth') THEN IF (is_mpi_root .AND. is_omp_root) THEN IF (level_coupling_esm.GT.0) THEN OPEN(200,file='coupling_fields.def',form='formatted',status='old', iostat=ierr) IF (ierr.EQ.0) THEN WRITE(lunout,*) trim(modname),': Open coupling_fields.def : ok' READ(200,*) nbcf WRITE(lunout,*) 'infocfields_mod.F90 --- nbcf=',nbcf ALLOCATE(cfname_root(nbcf)) ALLOCATE(cfintent_root(nbcf)) ALLOCATE(cfmod1_root(nbcf)) ALLOCATE(cfmod2_root(nbcf)) ALLOCATE(cftext_root(nbcf)) ALLOCATE(cfunits_root(nbcf)) ALLOCATE(mask_in_root(nbcf)) ALLOCATE(mask_out_root(nbcf)) nbcf_in=0 nbcf_out=0 DO iq=1,nbcf WRITE(lunout,*) 'infofields : field=',iq READ(200,'(A15,3X,A3,3X,A5,3X,A5,3X,A120,3X,A15)',IOSTAT=ierr) & cfname_root(iq),cfintent_root(iq),cfmod1_root(iq),cfmod2_root(iq),cftext_root(iq),cfunits_root(iq) cfname_root(iq)=TRIM(cfname_root(iq)) cfintent_root(iq)=TRIM(cfintent_root(iq)) cfmod1_root(iq)=TRIM(cfmod1_root(iq)) cfmod2_root(iq)=TRIM(cfmod2_root(iq)) cftext_root(iq)=TRIM(cftext_root(iq)) cfunits_root(iq)=TRIM(cfunits_root(iq)) WRITE(lunout,*) 'coupling field: ',cfname_root(iq), & ', number: ',iq,', INTENT: ',cfintent_root(iq) WRITE(lunout,*) 'coupling field: ',cfname_root(iq), & ', number: ',iq,', model 1 (ref): ',cfmod1_root(iq),', model 2: ',cfmod2_root(iq) WRITE(lunout,*) 'coupling field: ',cfname_root(iq), & ', number: ',iq,', long name: ',cftext_root(iq),', units ',cfunits_root(iq) IF (nbcf_in+nbcf_out.LT.nbcf) THEN IF (cfintent_root(iq).NE.'OUT') THEN nbcf_in=nbcf_in+1 mask_in_root(iq)=.TRUE. mask_out_root(iq)=.FALSE. ELSE IF (cfintent_root(iq).EQ.'OUT') THEN nbcf_out=nbcf_out+1 mask_in_root(iq)=.FALSE. mask_out_root(iq)=.TRUE. ENDIF ELSE WRITE(lunout,*) 'abort_gcm --- nbcf : ',nbcf WRITE(lunout,*) 'abort_gcm --- nbcf_in : ',nbcf_in WRITE(lunout,*) 'abort_gcm --- nbcf_out: ',nbcf_out CALL abort_physic('infocfields_init','Problem in the definition of the coupling fields',1) ENDIF ENDDO !DO iq=1,nbcf ELSE WRITE(lunout,*) trim(modname),': infocfields_mod.F90 --- Problem in opening coupling_fields.def' WRITE(lunout,*) trim(modname),': infocfields_mod.F90 --- WARNING using defaut values' ENDIF ! ierr CLOSE(200) ENDIF ! level_coupling_esm ENDIF ! (is_mpi_root .AND. is_omp_root) !$OMP BARRIER CALL bcast(nbcf) CALL bcast(nbcf_in) CALL bcast(nbcf_out) WRITE(lunout,*) 'infocfields_mod.F90 --- nbcf =',nbcf WRITE(lunout,*) 'infocfields_mod.F90 --- nbcf_in =',nbcf_in WRITE(lunout,*) 'infocfields_mod.F90 --- nbcf_out=',nbcf_out ALLOCATE(cfname(nbcf)) ALLOCATE(cfname_in(nbcf_in)) ALLOCATE(cftext_in(nbcf_in)) ALLOCATE(cfname_out(nbcf_out)) ALLOCATE(cftext_out(nbcf_out)) ALLOCATE(cfmod1(nbcf)) ALLOCATE(cfmod2(nbcf)) ALLOCATE(cfunits_in(nbcf_in)) ALLOCATE(cfunits_out(nbcf_out)) IF (is_mpi_root .AND. is_omp_root) THEN IF (nbcf.GT.0) cfname=cfname_root IF (nbcf_in.GT.0) cfname_in=PACK(cfname_root,mask_in_root) IF (nbcf_out.GT.0) cfname_out=PACK(cfname_root,mask_out_root) IF (nbcf_in.GT.0) cftext_in=PACK(cftext_root,mask_in_root) IF (nbcf_out.GT.0) cftext_out=PACK(cftext_root,mask_out_root) IF (nbcf.GT.0) cfmod1=cfmod1_root IF (nbcf.GT.0) cfmod2=cfmod2_root IF (nbcf_in.GT.0) cfunits_in=PACK(cfunits_root,mask_in_root) IF (nbcf_out.GT.0) cfunits_out=PACK(cfunits_root,mask_out_root) nbcf_in_orc=0 nbcf_in_nemo=0 nbcf_in_inca=0 nbcf_in_ant=0 DO iq=1,nbcf IF (cfmod1(iq) == "ORC") nbcf_in_orc = nbcf_in_orc + 1 IF (cfmod1(iq) == "NEMO") nbcf_in_nemo = nbcf_in_nemo + 1 IF (cfmod1(iq) == "INCA") nbcf_in_inca = nbcf_in_inca + 1 IF (cfmod1(iq) == "ALL") nbcf_in_orc = nbcf_in_orc + 1 ! ALL = ORC/NEMO/INCA IF (cfmod1(iq) == "ALL") nbcf_in_nemo = nbcf_in_nemo + 1 ! ALL = ORC/NEMO/INCA IF (cfmod1(iq) == "ALL") nbcf_in_inca = nbcf_in_inca + 1 ! ALL = ORC/NEMO/INCA IF (cfmod1(iq) == "ANT") nbcf_in_ant = nbcf_in_ant + 1 ENDDO ENDIF ! (is_mpi_root .AND. is_omp_root) !$OMP BARRIER CALL bcast(nbcf_in_orc) CALL bcast(nbcf_in_nemo) CALL bcast(nbcf_in_inca) CALL bcast(nbcf_in_ant) WRITE(lunout,*) 'nbcf_in_orc =',nbcf_in_orc WRITE(lunout,*) 'nbcf_in_nemo =',nbcf_in_nemo WRITE(lunout,*) 'nbcf_in_inca =',nbcf_in_inca WRITE(lunout,*) 'nbcf_in_ant =',nbcf_in_ant IF (nbcf_in.GT.0) THEN DO iq=1,nbcf_in CALL bcast(cfname_in(iq)) CALL bcast(cftext_in(iq)) CALL bcast(cfunits_in(iq)) ENDDO ENDIF IF (nbcf_out.GT.0) THEN DO iq=1,nbcf_out CALL bcast(cfname_out(iq)) CALL bcast(cftext_out(iq)) CALL bcast(cfunits_out(iq)) ENDDO ENDIF IF (nbcf.GT.0) THEN DO iq=1,nbcf CALL bcast(cfmod1(iq)) CALL bcast(cfmod2(iq)) ENDDO ENDIF IF (nbcf_in.GT.0) WRITE(lunout,*)'infocfields_mod --- cfname_in: ',cfname_in IF (nbcf_out.GT.0) WRITE(lunout,*)'infocfields_mod --- cfname_out: ',cfname_out IF (nbcf_in.GT.0) WRITE(lunout,*)'infocfields_mod --- cftext_in: ',cftext_in IF (nbcf_out.GT.0) WRITE(lunout,*)'infocfields_mod --- cftext_out: ',cftext_out IF (nbcf.GT.0) WRITE(lunout,*)'infocfields_mod --- cfmod1: ',cfmod1 IF (nbcf.GT.0) WRITE(lunout,*)'infocfields_mod --- cfmod2: ',cfmod2 IF (nbcf_in.GT.0) WRITE(lunout,*)'infocfunits_mod --- cfunits_in: ',cfunits_in IF (nbcf_out.GT.0) WRITE(lunout,*)'infocfunits_mod --- cfunits_out: ',cfunits_out IF (nbcf_in.GT.0) WRITE(*,*)'infocfields_init --- number of fields in to LMDZ: ',nbcf_in IF (nbcf_out.GT.0) WRITE(*,*)'infocfields_init --- number of fields out of LMDZ: ',nbcf_out ELSE ! Default values for other planets nbcf=0 nbcf_in=0 nbcf_out=0 ENDIF ! planet_type ALLOCATE(fields_in(klon,nbcf_in),stat=error) IF (error /= 0) CALL abort_physic(modname,'Pb in allocation fields_in',1) ALLOCATE(yfields_in(klon,nbcf_in),stat=error) IF (error /= 0) CALL abort_physic(modname,'Pb in allocation yfields_in',1) ALLOCATE(fields_out(klon,nbcf_out),stat=error) IF (error /= 0) CALL abort_physic(modname,'Pb in allocation fields_out',1) ALLOCATE(yfields_out(klon,nbcf_out),stat=error) IF (error /= 0) CALL abort_physic(modname,'Pb in allocation yfields_out',1) END SUBROUTINE infocfields_init END MODULE carbon_cycle_mod