! $Id: physiq.F90 2298 2015-06-14 19:13:32Z fairhead $ !#define IO_DEBUG MODULE phytracr_spl_mod ! Recuperation des morceaux de la physique de Jeronimo specifiques ! du modele d'aerosols d'Olivier n'co. ! INCLUDE "chem.h" INCLUDE "chem_spla.h" REAL,SAVE :: scale_param_ssacc !Scaling parameter for Fine Sea Salt REAL,SAVE :: scale_param_sscoa !Scaling parameter for Coarse Sea Salt REAL, DIMENSION(:),ALLOCATABLE,SAVE :: scale_param_ind !Scaling parameter for industrial emissions of SO2 REAL, DIMENSION(:),ALLOCATABLE,SAVE :: scale_param_bb !Scaling parameter for biomas burning (SO2,BC & OM) REAL, DIMENSION(:),ALLOCATABLE,SAVE :: scale_param_ff !Scaling parameter for industrial emissions (fossil fuel) REAL, DIMENSION(:),ALLOCATABLE,SAVE :: scale_param_dustacc !Scaling parameter for Fine Dust REAL, DIMENSION(:),ALLOCATABLE,SAVE :: scale_param_dustcoa !Scaling parameter for Coarse Dust REAL, DIMENSION(:),ALLOCATABLE,SAVE :: scale_param_dustsco !Scaling parameter for SCoarse Dust REAL, DIMENSION(:),ALLOCATABLE,SAVE :: param_wstarBLperregion !parameter for .. REAL, DIMENSION(:),ALLOCATABLE,SAVE :: param_wstarWAKEperregion !parameter for .. !$OMP THREADPRIVATE(scale_param_ind,scale_param_bb,scale_param_ff) !$OMP THREADPRIVATE(scale_param_dustacc,scale_param_dustcoa,scale_param_dustsco) !$OMP THREADPRIVATE(scale_param_ssacc,scale_param_sscoa) !$OMP THREADPRIVATE(param_wstarBLperregion,param_wstarWAKEperregion) REAL, DIMENSION(:),ALLOCATABLE,SAVE ::dust_ec, u10m_ec, v10m_ec !$OMP THREADPRIVATE(dust_ec, u10m_ec, v10m_ec) CHARACTER*800 fileregionsdimsind CHARACTER*800 fileregionsdimsdust CHARACTER*800 fileregionsdimsbb CHARACTER*800 fileregionsdimswstar CHARACTER*100 paramname_ind CHARACTER*100 paramname_bb CHARACTER*100 paramname_ff CHARACTER*100 paramname_dustacc CHARACTER*100 paramname_dustcoa CHARACTER*100 paramname_dustsco CHARACTER*100 paramname_ssacc CHARACTER*100 paramname_sscoa CHARACTER*100 paramname_wstarBL CHARACTER*100 paramname_wstarWAKE CHARACTER*800 filescaleparams CHARACTER*800 paramsname !!------------------------ SULFUR emissions ---------------------------- REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_so2volc_cont ! emissions so2 volcan continuous REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_altvolc_cont ! altitude so2 volcan continuous REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_so2volc_expl ! emissions so2 volcan explosive !$OMP THREADPRIVATE( lmt_so2volc_cont,lmt_altvolc_cont,lmt_so2volc_expl ) REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_altvolc_expl ! altitude so2 volcan explosive REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_so2ff_l ! emissions so2 fossil fuel (low) REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_so2ff_h ! emissions so2 fossil fuel (high) !$OMP THREADPRIVATE( lmt_altvolc_expl,lmt_so2ff_l,lmt_so2ff_h ) REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_so2nff ! emissions so2 non-fossil fuel REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_so2ba ! emissions de so2 bateau REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_so2bb_l ! emissions de so2 biomass burning (low) !$OMP THREADPRIVATE( lmt_so2nff,lmt_so2ba,lmt_so2bb_l ) REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_so2bb_h ! emissions de so2 biomass burning (high) REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_dmsconc ! concentration de dms oceanique REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_dmsbio ! emissions de dms bio REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_h2sbio ! emissions de h2s bio !$OMP THREADPRIVATE(lmt_so2bb_h,lmt_dmsconc,lmt_dmsbio,lmt_h2sbio ) !------------------------- BLACK CARBON emissions ---------------------- REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_bcff ! emissions de BC fossil fuels REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_bcnff ! emissions de BC non-fossil fuels REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_bcbb_l ! emissions de BC biomass basses !$OMP THREADPRIVATE( lmt_bcff,lmt_bcnff,lmt_bcbb_l) REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_bcbb_h ! emissions de BC biomass hautes REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_bcba ! emissions de BC bateau !$OMP THREADPRIVATE(lmt_bcbb_h,lmt_bcba) !------------------------ ORGANIC MATTER emissions --------------------- REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_omff ! emissions de OM fossil fuels REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_omnff ! emissions de OM non-fossil fuels REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_ombb_l ! emissions de OM biomass basses !$OMP THREADPRIVATE( lmt_omff,lmt_omnff,lmt_ombb_l) REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_ombb_h ! emissions de OM biomass hautes REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_omnat ! emissions de OM Natural REAL , DIMENSION(:),ALLOCATABLE,SAVE :: lmt_omba ! emissions de OM bateau REAL , DIMENSION(:,:),ALLOCATABLE,SAVE :: lmt_sea_salt ! emissions de OM Natural !$OMP THREADPRIVATE(lmt_ombb_h,lmt_omnat,lmt_omba,lmt_sea_salt) !JE20141224 >> ! others REAL, DIMENSION(:),ALLOCATABLE,SAVE :: tsol !$OMP THREADPRIVATE(tsol) INTEGER :: ijulday LOGICAL , parameter :: edgar = .true. INTEGER , parameter :: flag_dms=4 INTEGER(kind=4) nbjour ! ! Tracer tendencies, for outputs !------------------------------- REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_cl ! Td couche !. limite/traceur REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_dec !RomP REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_cv ! Td !onvection/traceur ! RomP >>> REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_insc REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_bcscav REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_evapls REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_ls REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_trsp REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_sscav REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_sat REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_uscav REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: qPr,qDi ! concentration tra !dans pluie,air descente insaturee REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: qPa,qMel REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: qTrdi,dtrcvMA ! conc traceur !descente air insaturee et td convective MA !! RomP <<< REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_th ! Td thermique REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_lessi_impa ! Td du !lessivage par impaction REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_lessi_nucl ! Td du !lessivage par nucleation REAL,DIMENSION(:,:),ALLOCATABLE,SAVE :: qPrls !jyg: !oncentration tra dans pluie LS a la surf. REAL,DIMENSION(:,:),ALLOCATABLE,SAVE :: d_tr_dry ! Td depot !sec/traceur (1st layer),ALLOCATABLE,SAVE jyg REAL,DIMENSION(:,:),ALLOCATABLE,SAVE :: flux_tr_dry ! depot !sec/traceur (surface),ALLOCATABLE,SAVE jyg ! Index of each traceur INTEGER,SAVE :: id_prec, id_fine, id_coss, id_codu, id_scdu !$OMP THREADPRIVATE(d_tr_cl,d_tr_dec,d_tr_cv,d_tr_insc,d_tr_bcscav,d_tr_evapls) !$OMP THREADPRIVATE(d_tr_ls,d_tr_trsp,d_tr_sscav,d_tr_sat,d_tr_uscav) !$OMP THREADPRIVATE(qPr,qDi,qPa,qMel,qTrdi,dtrcvMA,d_tr_th,d_tr_lessi_impa) !$OMP THREADPRIVATE(d_tr_lessi_nucl,qPrls,d_tr_dry,flux_tr_dry) !$OMP THREADPRIVATE(id_prec,id_fine,id_coss,id_codu,id_scdu) ! JE20141224 << REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diff_aod550_tot ! epaisseur optique total aerosol 550 nm REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod670_tot ! epaisseur optique total aerosol 670 nm REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod865_tot ! epaisseur optique total aerosol 865 nm REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diff_aod550_tr2 ! epaisseur optique Traceur 2 aerosol 550 nm, diagnostic REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod670_tr2 ! epaisseur optique Traceur 2 aerosol 670 nm, diagnostic REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod865_tr2 ! epaisseur optique Traceur 2 aerosol 865 nm, diagnostic REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod550_ss ! epaisseur optique Sels marins aerosol 550 nm, diagnostic REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod670_ss ! epaisseur optique Sels marins aerosol 670 nm, diagnostic REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod865_ss ! epaisseur optique Sels marins aerosol 865 nm, diagnostic REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod550_dust ! epaisseur optique Dust aerosol 550 nm, diagnostic REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod670_dust ! epaisseur optique Dust aerosol 670 nm, diagnostic REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod865_dust ! epaisseur optique Dust aerosol 865 nm, diagnostic REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod550_dustsco ! epaisseur optique Dust SCOarse aerosol 550 nm, diagnostic REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod670_dustsco ! epaisseur optique Dust SCOarse aerosol 670 nm, diagnostic REAL,DIMENSION(:),ALLOCATABLE,SAVE :: diag_aod865_dustsco ! epaisseur optique Dust SCOarse aerosol 865 nm, diagnostic !$OMP THREADPRIVATE(diff_aod550_tot,diag_aod670_tot,diag_aod865_tot) !$OMP THREADPRIVATE(diff_aod550_tr2,diag_aod670_tr2,diag_aod865_tr2) !$OMP THREADPRIVATE(diag_aod550_ss,diag_aod670_ss,diag_aod865_ss,diag_aod550_dust) !$OMP THREADPRIVATE(diag_aod670_dust,diag_aod865_dust,diag_aod550_dustsco) !$OMP THREADPRIVATE(diag_aod670_dustsco,diag_aod865_dustsco) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod550_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod550_tr2_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod550_ss_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod550_dust_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod550_dustsco_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod670_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod670_tr2_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod670_ss_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod670_dust_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod670_dustsco_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod865_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod865_tr2_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod865_ss_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod865_dust_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod865_dustsco_terra ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod550_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod550_tr2_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod550_ss_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod550_dust_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod550_dustsco_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod670_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod670_tr2_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod670_ss_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod670_dust_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod670_dustsco_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod865_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod865_tr2_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod865_ss_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod865_dust_aqua ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: aod865_dustsco_aqua ! AOD at aqua overpass time ( 13.30 local hour) !$OMP THREADPRIVATE(aod550_aqua,aod550_tr2_aqua,aod550_ss_aqua,aod550_dust_aqua,aod550_dustsco_aqua) !$OMP THREADPRIVATE(aod670_aqua,aod670_tr2_aqua,aod670_ss_aqua,aod670_dust_aqua,aod670_dustsco_aqua) !$OMP THREADPRIVATE(aod865_aqua,aod865_tr2_aqua,aod865_ss_aqua,aod865_dust_aqua,aod865_dustsco_aqua) !$OMP THREADPRIVATE(aod550_terra,aod550_tr2_terra,aod550_ss_terra,aod550_dust_terra,aod550_dustsco_terra) !$OMP THREADPRIVATE(aod670_terra,aod670_tr2_terra,aod670_ss_terra,aod670_dust_terra,aod670_dustsco_terra) !$OMP THREADPRIVATE(aod865_terra,aod865_tr2_terra,aod865_ss_terra,aod865_dust_terra,aod865_dustsco_terra) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: sconc01 ! surface concentration REAL, DIMENSION(:), ALLOCATABLE, SAVE :: trm01 ! burden REAL, DIMENSION(:), ALLOCATABLE, SAVE :: sconc02 ! surface concentration REAL, DIMENSION(:), ALLOCATABLE, SAVE :: trm02 ! burden REAL, DIMENSION(:), ALLOCATABLE, SAVE :: sconc03 ! surface concentration REAL, DIMENSION(:), ALLOCATABLE, SAVE :: trm03 ! burden REAL, DIMENSION(:), ALLOCATABLE, SAVE :: sconc04 ! surface concentration REAL, DIMENSION(:), ALLOCATABLE, SAVE :: trm04 ! burden REAL, DIMENSION(:), ALLOCATABLE, SAVE :: sconc05 ! surface concentration REAL, DIMENSION(:), ALLOCATABLE, SAVE :: trm05 ! burden !$OMP THREADPRIVATE(sconc01,sconc02,sconc03,sconc04,sconc05) !$OMP THREADPRIVATE(trm01,trm02,trm03,trm04,trm05) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux01 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux02 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux03 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux04 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux05 !$OMP THREADPRIVATE(flux01,flux02,flux03,flux04,flux05) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: ds01 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: ds02 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: ds03 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: ds04 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: ds05 !$OMP THREADPRIVATE(ds01,ds02,ds03,ds04,ds05) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dh01 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dh02 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dh03 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dh04 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dh05 !$OMP THREADPRIVATE(dh01,dh02,dh03,dh04,dh05) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dtrconv01 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dtrconv02 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dtrconv03 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dtrconv04 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dtrconv05 !$OMP THREADPRIVATE(dtrconv01,dtrconv02,dtrconv03,dtrconv04,dtrconv05) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dtherm01 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dtherm02 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dtherm03 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dtherm04 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dtherm05 !$OMP THREADPRIVATE(dtherm01,dtherm02,dtherm03,dtherm04,dtherm05) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dhkecv01 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dhkecv02 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dhkecv03 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dhkecv04 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dhkecv05 !$OMP THREADPRIVATE(dhkecv01,dhkecv02,dhkecv03,dhkecv04,dhkecv05) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: d_tr_ds01 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: d_tr_ds02 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: d_tr_ds03 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: d_tr_ds04 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: d_tr_ds05 !$OMP THREADPRIVATE(d_tr_ds01,d_tr_ds02,d_tr_ds03,d_tr_ds04,d_tr_ds05) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dhkelsc01 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dhkelsc02 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dhkelsc03 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dhkelsc04 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: dhkelsc05 !$OMP THREADPRIVATE(dhkelsc01,dhkelsc02,dhkelsc03,dhkelsc04,dhkelsc05) REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_cv01 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_cv02 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_cv03 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_cv04 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_cv05 !$OMP THREADPRIVATE(d_tr_cv01,d_tr_cv02,d_tr_cv03,d_tr_cv04,d_tr_cv05) REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_trsp01 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_trsp02 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_trsp03 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_trsp04 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_trsp05 !$OMP THREADPRIVATE(d_tr_trsp01,d_tr_trsp02,d_tr_trsp03,d_tr_trsp04,d_tr_trsp05) REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_sscav01 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_sscav02 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_sscav03 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_sscav04 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_sscav05 !$OMP THREADPRIVATE(d_tr_sscav01,d_tr_sscav02,d_tr_sscav03,d_tr_sscav04,d_tr_sscav05) REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_sat01 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_sat02 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_sat03 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_sat04 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_sat05 !$OMP THREADPRIVATE(d_tr_sat01,d_tr_sat02,d_tr_sat03,d_tr_sat04,d_tr_sat05) REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_uscav01 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_uscav02 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_uscav03 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_uscav04 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_uscav05 !$OMP THREADPRIVATE(d_tr_uscav01,d_tr_uscav02,d_tr_uscav03,d_tr_uscav04,d_tr_uscav05) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_insc01 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_insc02 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_insc03 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_insc04 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_insc05 !$OMP THREADPRIVATE(d_tr_insc01,d_tr_insc02,d_tr_insc03,d_tr_insc04,d_tr_insc05) REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_bcscav01 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_bcscav02 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_bcscav03 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_bcscav04 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_bcscav05 !$OMP THREADPRIVATE(d_tr_bcscav01,d_tr_bcscav02,d_tr_bcscav03,d_tr_bcscav04,d_tr_bcscav05) REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_evapls01 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_evapls02 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_evapls03 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_evapls04 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_evapls05 !$OMP THREADPRIVATE(d_tr_evapls01,d_tr_evapls02,d_tr_evapls03,d_tr_evapls04,d_tr_evapls05) REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_ls01 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_ls02 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_ls03 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_ls04 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_ls05 !$OMP THREADPRIVATE(d_tr_ls01,d_tr_ls02,d_tr_ls03,d_tr_ls04,d_tr_ls05) REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_dyn01 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_dyn02 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_dyn03 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_dyn04 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_dyn05 !$OMP THREADPRIVATE(d_tr_dyn01,d_tr_dyn02,d_tr_dyn03,d_tr_dyn04,d_tr_dyn05) REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_cl01 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_cl02 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_cl03 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_cl04 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_cl05 !$OMP THREADPRIVATE(d_tr_cl01,d_tr_cl02,d_tr_cl03,d_tr_cl04,d_tr_cl05) REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_th01 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_th02 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_th03 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_th04 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: d_tr_th05 !$OMP THREADPRIVATE(d_tr_th01,d_tr_th02,d_tr_th03,d_tr_th04,d_tr_th05) REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: sed_ss3D ! corresponds to tracer 3 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: sed_dust3D ! corresponds to tracer 4 REAL, DIMENSION(:,:), ALLOCATABLE, SAVE :: sed_dustsco3D ! corresponds to tracer 4 !$OMP THREADPRIVATE(sed_ss3D,sed_dust3D,sed_dustsco3D) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! REAL, DIMENSION(:), ALLOCATABLE, SAVE :: sed_ss ! corresponds to tracer 3 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: sed_dust ! corresponds to tracer 4 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: sed_dustsco ! corresponds to tracer 4 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: his_g2pgas ! corresponds to tracer 4 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: his_g2paer ! corresponds to tracer 4 !$OMP THREADPRIVATE(sed_ss,sed_dust,sed_dustsco,his_g2pgas,his_g2paer) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxbb REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxff REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxbcbb REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxbcff REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxbcnff !$OMP THREADPRIVATE(fluxbb,fluxff,fluxbcbb,fluxbcff,fluxbcnff) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxbcba REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxbc REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxombb REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxomff REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxomnff !$OMP THREADPRIVATE(fluxbcba,fluxbc,fluxombb,fluxomff,fluxomnff) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxomba REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxomnat REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxom REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxh2sff REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxh2snff !$OMP THREADPRIVATE(fluxomba,fluxomnat,fluxom,fluxh2sff,fluxh2snff) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxso2ff REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxso2nff REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxso2bb REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxso2vol REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxso2ba !$OMP THREADPRIVATE(fluxso2ff,fluxso2nff,fluxso2bb,fluxso2vol,fluxso2ba) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxso2 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxso4ff REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxso4nff REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxso4bb REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxso4ba !$OMP THREADPRIVATE(fluxso2,fluxso4ff,fluxso4nff,fluxso4ba,fluxso4bb) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxso4 REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxdms REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxh2sbio REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxdustec REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxddfine !$OMP THREADPRIVATE(fluxso4,fluxdms,fluxh2sbio,fluxdustec,fluxddfine) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxddcoa REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxddsco REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxdd REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxssfine REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxsscoa !$OMP THREADPRIVATE(fluxddcoa,fluxddsco,fluxdd,fluxssfine,fluxsscoa) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: fluxss REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux_sparam_ind REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux_sparam_bb REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux_sparam_ff !$OMP THREADPRIVATE(fluxss,flux_sparam_ind,flux_sparam_bb,flux_sparam_ff) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux_sparam_ddfine REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux_sparam_ddcoa REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux_sparam_ddsco REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux_sparam_ssfine !$OMP THREADPRIVATE(flux_sparam_ddfine,flux_sparam_ddcoa) !$OMP THREADPRIVATE(flux_sparam_ddsco,flux_sparam_ssfine) REAL, DIMENSION(:), ALLOCATABLE, SAVE :: flux_sparam_sscoa REAL, DIMENSION(:), ALLOCATABLE, SAVE :: u10m_ss REAL, DIMENSION(:), ALLOCATABLE, SAVE :: v10m_ss !$OMP THREADPRIVATE(flux_sparam_sscoa,u10m_ss,v10m_ss) ! Select dust emission scheme for the Sahara: ! LOGICAL,PARAMETER,SAVE :: ok_chimeredust=.FALSE. LOGICAL,PARAMETER :: ok_chimeredust=.TRUE. !!!!!! !$OMP THREADPRIVATE(ok_chimeredust) CONTAINS ! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE phytracr_spl_out_init() !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !AS : This subroutine centralises the ALLOCATE needed for the 1st call of ! phys_output_write_spl in physiq USE dimphy USE infotrac_phy, ONLY: nbtr USE dustemission_mod, ONLY : dustemis_out_init ! pour les variables m[1-3]dflux CALL dustemis_out_init() !traceur ALLOCATE( diff_aod550_tot(klon) ) ALLOCATE( diag_aod670_tot(klon) ) ALLOCATE( diag_aod865_tot(klon) ) ALLOCATE( diff_aod550_tr2(klon) ) ALLOCATE( diag_aod670_tr2(klon) ) ALLOCATE( diag_aod865_tr2(klon) ) ALLOCATE( diag_aod550_ss(klon) ) ALLOCATE( diag_aod670_ss(klon) ) ALLOCATE( diag_aod865_ss(klon) ) ALLOCATE( diag_aod550_dust(klon) ) ALLOCATE( diag_aod670_dust(klon) ) ALLOCATE( diag_aod865_dust(klon) ) ALLOCATE( diag_aod550_dustsco(klon) ) ALLOCATE( diag_aod670_dustsco(klon) ) ALLOCATE( diag_aod865_dustsco(klon) ) !AS: les 15 vars _terra et 15 _aqua suivantes sont groupees differemment dans spla_output_write.h ALLOCATE( aod550_terra(klon)) ALLOCATE( aod550_tr2_terra(klon)) ALLOCATE( aod550_ss_terra(klon)) ALLOCATE( aod550_dust_terra(klon)) ALLOCATE( aod550_dustsco_terra(klon)) ALLOCATE( aod670_terra(klon)) ALLOCATE( aod670_tr2_terra(klon)) ALLOCATE( aod670_ss_terra(klon)) ALLOCATE( aod670_dust_terra(klon)) ALLOCATE( aod670_dustsco_terra(klon)) ALLOCATE( aod865_terra(klon)) ALLOCATE( aod865_tr2_terra(klon)) ALLOCATE( aod865_ss_terra(klon)) ALLOCATE( aod865_dust_terra(klon)) ALLOCATE( aod865_dustsco_terra(klon)) ALLOCATE( aod550_aqua(klon)) ALLOCATE( aod550_tr2_aqua(klon)) ALLOCATE( aod550_ss_aqua(klon)) ALLOCATE( aod550_dust_aqua(klon)) ALLOCATE( aod550_dustsco_aqua(klon)) ALLOCATE( aod670_aqua(klon)) ALLOCATE( aod670_tr2_aqua(klon)) ALLOCATE( aod670_ss_aqua(klon)) ALLOCATE( aod670_dust_aqua(klon)) ALLOCATE( aod670_dustsco_aqua(klon)) ALLOCATE( aod865_aqua(klon)) ALLOCATE( aod865_tr2_aqua(klon)) ALLOCATE( aod865_ss_aqua(klon)) ALLOCATE( aod865_dust_aqua(klon)) ALLOCATE( aod865_dustsco_aqua(klon)) ALLOCATE( sconc01(klon) ) ALLOCATE( trm01(klon) ) ALLOCATE( sconc02(klon) ) ALLOCATE( trm02(klon) ) ALLOCATE( sconc03(klon) ) ALLOCATE( trm03(klon) ) ALLOCATE( sconc04(klon) ) ALLOCATE( trm04(klon) ) ALLOCATE( sconc05(klon) ) ALLOCATE( trm05(klon) ) ! Lessivage ALLOCATE( flux01(klon) ) ALLOCATE( flux02(klon) ) ALLOCATE( flux03(klon) ) ALLOCATE( flux04(klon) ) ALLOCATE( flux05(klon) ) ALLOCATE( ds01(klon) ) ALLOCATE( ds02(klon) ) ALLOCATE( ds03(klon) ) ALLOCATE( ds04(klon) ) ALLOCATE( ds05(klon) ) ALLOCATE( dh01(klon) ) ALLOCATE( dh02(klon) ) ALLOCATE( dh03(klon) ) ALLOCATE( dh04(klon) ) ALLOCATE( dh05(klon) ) ALLOCATE( dtrconv01(klon) ) ALLOCATE( dtrconv02(klon) ) ALLOCATE( dtrconv03(klon) ) ALLOCATE( dtrconv04(klon) ) ALLOCATE( dtrconv05(klon) ) ALLOCATE( dtherm01(klon) ) ALLOCATE( dtherm02(klon) ) ALLOCATE( dtherm03(klon) ) ALLOCATE( dtherm04(klon) ) ALLOCATE( dtherm05(klon) ) ALLOCATE( dhkecv01(klon) ) ALLOCATE( dhkecv02(klon) ) ALLOCATE( dhkecv03(klon) ) ALLOCATE( dhkecv04(klon) ) ALLOCATE( dhkecv05(klon) ) ALLOCATE( d_tr_ds01(klon) ) ALLOCATE( d_tr_ds02(klon) ) ALLOCATE( d_tr_ds03(klon) ) ALLOCATE( d_tr_ds04(klon) ) ALLOCATE( d_tr_ds05(klon) ) ALLOCATE( dhkelsc01(klon) ) ALLOCATE( dhkelsc02(klon) ) ALLOCATE( dhkelsc03(klon) ) ALLOCATE( dhkelsc04(klon) ) ALLOCATE( dhkelsc05(klon) ) ALLOCATE( d_tr_cv01(klon,klev)) ALLOCATE( d_tr_cv02(klon,klev)) ALLOCATE( d_tr_cv03(klon,klev)) ALLOCATE( d_tr_cv04(klon,klev)) ALLOCATE( d_tr_cv05(klon,klev)) ALLOCATE( d_tr_trsp01(klon,klev)) ALLOCATE( d_tr_trsp02(klon,klev)) ALLOCATE( d_tr_trsp03(klon,klev)) ALLOCATE( d_tr_trsp04(klon,klev)) ALLOCATE( d_tr_trsp05(klon,klev)) ALLOCATE( d_tr_sscav01(klon,klev)) ALLOCATE( d_tr_sscav02(klon,klev)) ALLOCATE( d_tr_sscav03(klon,klev)) ALLOCATE( d_tr_sscav04(klon,klev)) ALLOCATE( d_tr_sscav05(klon,klev)) ALLOCATE( d_tr_sat01(klon,klev)) ALLOCATE( d_tr_sat02(klon,klev)) ALLOCATE( d_tr_sat03(klon,klev)) ALLOCATE( d_tr_sat04(klon,klev)) ALLOCATE( d_tr_sat05(klon,klev)) ALLOCATE( d_tr_uscav01(klon,klev)) ALLOCATE( d_tr_uscav02(klon,klev)) ALLOCATE( d_tr_uscav03(klon,klev)) ALLOCATE( d_tr_uscav04(klon,klev)) ALLOCATE( d_tr_uscav05(klon,klev)) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ALLOCATE( d_tr_insc01(klon,klev)) ALLOCATE( d_tr_insc02(klon,klev)) ALLOCATE( d_tr_insc03(klon,klev)) ALLOCATE( d_tr_insc04(klon,klev)) ALLOCATE( d_tr_insc05(klon,klev)) ALLOCATE( d_tr_bcscav01(klon,klev)) ALLOCATE( d_tr_bcscav02(klon,klev)) ALLOCATE( d_tr_bcscav03(klon,klev)) ALLOCATE( d_tr_bcscav04(klon,klev)) ALLOCATE( d_tr_bcscav05(klon,klev)) ALLOCATE( d_tr_evapls01(klon,klev)) ALLOCATE( d_tr_evapls02(klon,klev)) ALLOCATE( d_tr_evapls03(klon,klev)) ALLOCATE( d_tr_evapls04(klon,klev)) ALLOCATE( d_tr_evapls05(klon,klev)) ALLOCATE( d_tr_ls01(klon,klev)) ALLOCATE( d_tr_ls02(klon,klev)) ALLOCATE( d_tr_ls03(klon,klev)) ALLOCATE( d_tr_ls04(klon,klev)) ALLOCATE( d_tr_ls05(klon,klev)) ALLOCATE( d_tr_dyn01(klon,klev)) ALLOCATE( d_tr_dyn02(klon,klev)) ALLOCATE( d_tr_dyn03(klon,klev)) ALLOCATE( d_tr_dyn04(klon,klev)) ALLOCATE( d_tr_dyn05(klon,klev)) ALLOCATE( d_tr_cl01(klon,klev)) ALLOCATE( d_tr_cl02(klon,klev)) ALLOCATE( d_tr_cl03(klon,klev)) ALLOCATE( d_tr_cl04(klon,klev)) ALLOCATE( d_tr_cl05(klon,klev)) ALLOCATE( d_tr_th01(klon,klev)) ALLOCATE( d_tr_th02(klon,klev)) ALLOCATE( d_tr_th03(klon,klev)) ALLOCATE( d_tr_th04(klon,klev)) ALLOCATE( d_tr_th05(klon,klev)) ALLOCATE( sed_ss(klon)) ALLOCATE( sed_dust(klon)) ALLOCATE( sed_dustsco(klon)) ALLOCATE( his_g2pgas(klon)) ALLOCATE( his_g2paer(klon)) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ALLOCATE( sed_ss3D(klon,klev)) ALLOCATE( sed_dust3D(klon,klev)) ALLOCATE( sed_dustsco3D(klon,klev)) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! histrac_spl ! ALLOCATE( fluxbb(klon)) ALLOCATE( fluxff(klon)) ALLOCATE( fluxbcbb(klon)) ALLOCATE( fluxbcff(klon)) ALLOCATE( fluxbcnff(klon)) ALLOCATE( fluxbcba(klon)) ALLOCATE( fluxbc(klon)) ALLOCATE( fluxombb(klon)) ALLOCATE( fluxomff(klon)) ALLOCATE( fluxomnff(klon)) ALLOCATE( fluxomba(klon)) ALLOCATE( fluxomnat(klon)) ALLOCATE( fluxom(klon)) ALLOCATE( fluxh2sff(klon)) ALLOCATE( fluxh2snff(klon)) ALLOCATE( fluxso2ff(klon)) ALLOCATE( fluxso2nff(klon)) ALLOCATE( fluxso2bb(klon)) ALLOCATE( fluxso2vol(klon)) ALLOCATE( fluxso2ba(klon)) ALLOCATE( fluxso2(klon)) ALLOCATE( fluxso4ff(klon)) ALLOCATE( fluxso4nff(klon)) ALLOCATE( fluxso4bb(klon)) ALLOCATE( fluxso4ba(klon)) ALLOCATE( fluxso4(klon)) ALLOCATE( fluxdms(klon)) ALLOCATE( fluxh2sbio(klon)) ALLOCATE( fluxdustec(klon)) ALLOCATE( fluxddfine(klon)) ALLOCATE( fluxddcoa(klon)) ALLOCATE( fluxddsco(klon)) ALLOCATE( fluxdd(klon)) ALLOCATE( fluxssfine(klon)) ALLOCATE( fluxsscoa(klon)) ALLOCATE( fluxss(klon)) ALLOCATE( flux_sparam_ind(klon)) ALLOCATE( flux_sparam_bb(klon)) ALLOCATE( flux_sparam_ff(klon)) ALLOCATE( flux_sparam_ddfine(klon)) ALLOCATE( flux_sparam_ddcoa(klon)) ALLOCATE( flux_sparam_ddsco(klon)) ALLOCATE( flux_sparam_ssfine(klon)) ALLOCATE( flux_sparam_sscoa(klon)) ALLOCATE( u10m_ss(klon)) ALLOCATE( v10m_ss(klon)) !AS: in phys_output_write_spl, but not in spla_output_write.h !------------------------------------------------------ ALLOCATE(d_tr_cl(klon,klev,nbtr)) ALLOCATE(d_tr_th(klon,klev,nbtr)) ALLOCATE(d_tr_cv(klon,klev,nbtr)) ALLOCATE(d_tr_lessi_impa(klon,klev,nbtr)) ALLOCATE(d_tr_lessi_nucl(klon,klev,nbtr)) ALLOCATE(d_tr_insc(klon,klev,nbtr)) ALLOCATE(d_tr_bcscav(klon,klev,nbtr)) ALLOCATE(d_tr_evapls(klon,klev,nbtr)) ALLOCATE(d_tr_ls(klon,klev,nbtr)) ALLOCATE(d_tr_trsp(klon,klev,nbtr)) ALLOCATE(d_tr_sscav(klon,klev,nbtr)) ALLOCATE(d_tr_sat(klon,klev,nbtr)) ALLOCATE(d_tr_uscav(klon,klev,nbtr)) END SUBROUTINE phytracr_spl_out_init !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE phytracr_spl_ini(klon,nbreg_ind,nbreg_bb,nbreg_dust,nbreg_wstardust) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! IMPLICIT NONE INTEGER klon,nbreg_ind,nbreg_bb,nbreg_dust,nbreg_wstardust ALLOCATE( tsol(klon) ) !AS: IF permettant le debranchage des coefs de Jeronimo Escribano: fichiers *_meta ! nbreg_* sont initialisés à 1 dans phytracr_spl, if debutphy, ! avant d'appeler la subroutine presente, phytracr_spl_ini ! (phytracr_spl_ini appele readregionsdims2_spl, ! qui lit et fait "bcast" de nbreg_ind,_bb,_dust,_wstardust dans fichiers regions_*_meta) IF("ASSIM"=="YES") THEN fileregionsdimsind='regions_ind_meta' fileregionsdimsdust='regions_dustacc_meta' ! fileregionsdimsdust='regions_dust_meta' fileregionsdimsbb='regions_bb_meta' fileregionsdimswstar='regions_pwstarwake_meta' call readregionsdims2_spl(nbreg_ind,fileregionsdimsind) call readregionsdims2_spl(nbreg_dust,fileregionsdimsdust) call readregionsdims2_spl(nbreg_bb,fileregionsdimsbb) call readregionsdims2_spl(nbreg_wstardust,fileregionsdimswstar) ENDIF ! ASSIM ! fin debranchage !readregions_spl() ALLOCATE(scale_param_ind(nbreg_ind)) ALLOCATE(scale_param_bb(nbreg_bb)) ALLOCATE(scale_param_ff(nbreg_ind)) ALLOCATE(scale_param_dustacc(nbreg_dust)) ALLOCATE(scale_param_dustcoa(nbreg_dust)) ALLOCATE(scale_param_dustsco(nbreg_dust)) ALLOCATE(param_wstarBLperregion(nbreg_wstardust)) ALLOCATE(param_wstarWAKEperregion(nbreg_wstardust)) ALLOCATE( dust_ec(klon) ) ALLOCATE( u10m_ec(klon) ) ALLOCATE( v10m_ec(klon) ) ALLOCATE( lmt_so2volc_cont(klon) ) ALLOCATE( lmt_altvolc_cont(klon) ) ALLOCATE( lmt_so2volc_expl(klon) ) ALLOCATE( lmt_altvolc_expl(klon) ) ALLOCATE( lmt_so2ff_l(klon) ) ALLOCATE( lmt_so2ff_h(klon) ) ALLOCATE( lmt_so2nff(klon) ) ALLOCATE( lmt_so2ba(klon) ) ALLOCATE( lmt_so2bb_l(klon) ) ALLOCATE( lmt_so2bb_h(klon) ) ALLOCATE( lmt_dmsconc(klon) ) ALLOCATE( lmt_dmsbio(klon) ) ALLOCATE( lmt_h2sbio(klon) ) ALLOCATE( lmt_bcff(klon) ) ALLOCATE( lmt_bcnff(klon) ) ALLOCATE( lmt_bcbb_l(klon) ) ALLOCATE( lmt_bcbb_h(klon) ) ALLOCATE( lmt_bcba(klon) ) ALLOCATE( lmt_omff(klon) ) ALLOCATE( lmt_omnff(klon) ) ALLOCATE( lmt_ombb_l(klon) ) ALLOCATE( lmt_ombb_h(klon) ) ALLOCATE( lmt_omnat(klon) ) ALLOCATE( lmt_omba(klon) ) ALLOCATE(lmt_sea_salt(klon,ss_bins)) !temporal hardcoded null inicialization of assimilation emmision factors !AS: scale_param sont ensuite lus dans modvalues.nc ! par la subroutine read_scalenc, appelee par readscaleparamsnc_spl scale_param_ssacc=1. scale_param_sscoa=1. scale_param_ind(:)=1. scale_param_bb(:)=1. scale_param_ff(:)=1. scale_param_dustacc(:)=1. scale_param_dustcoa(:)=1. scale_param_dustsco(:)=1. param_wstarBLperregion(:)=0. param_wstarWAKEperregion(:)=0. RETURN END SUBROUTINE phytracr_spl_ini !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SUBROUTINE phytracr_spl ( debutphy,lafin,jD_cur,jH_cur,iflag_conv, & ! I pdtphys,ftsol, & ! I t_seri,q_seri,paprs,pplay,RHcl, & ! I pmfu, pmfd, pen_u, pde_u, pen_d, pde_d, & ! I coefh, cdragh, cdragm, yu1, yv1, & ! I u_seri, v_seri, rlat,rlon, & ! I pphis,pctsrf,pmflxr,pmflxs,prfl,psfl, & ! I da,phi,phi2,d1a,dam,mp,ep,sigd,sij,clw,elij, & ! I epmlmMm,eplaMm,upwd,dnwd,itop_con,ibas_con, & ! I evapls,wdtrainA, wdtrainM,wght_cvfd, & ! I fm_therm, entr_therm, rneb, & ! I beta_fisrt,beta_v1, & ! I zu10m,zv10m,wstar,ale_bl,ale_wake, & ! I d_tr_dyn,tr_seri) ! O !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! USE mod_grid_phy_lmdz USE mod_phys_lmdz_para USE IOIPSL USE dimphy USE infotrac USE indice_sol_mod USE write_field_phy USE mod_phys_lmdz_transfert_para USE lmdz_thermcell_dq, ONLY : thermcell_dq USE phys_cal_mod, only: jD_1jan,year_len, mth_len, days_elapsed, jh_1jan, year_cur, & mth_cur, phys_cal_update ! IMPLICIT none ! !====================================================================== ! Auteur(s) FH ! Objet: Moniteur general des tendances traceurs ! ! Remarques en vrac: ! ------------------ ! 1/ le call phytrac se fait avec nqmax-2 donc nous avons bien ! les vrais traceurs (nbtr) dans phytrac (pas la vapeur ni eau liquide) !! AS : nqmax-2 devrait etre nqmax-3 apres introducton de H2Oi ; !! et c'est encore different avec le parser de DC ? !====================================================================== INCLUDE "dimensions.h" INCLUDE "chem.h" INCLUDE "chem_spla.h" INCLUDE "YOMCST.h" INCLUDE "YOETHF.h" INCLUDE "paramet.h" INCLUDE "alpale.h" !====================================================================== ! Arguments: ! ! EN ENTREE: ! ========== ! ! divers: ! ------- ! real,intent(in) :: pdtphys ! pas d'integration pour la physique (seconde) REAL, intent(in):: jD_cur, jH_cur real, intent(in) :: ftsol(klon,nbsrf) ! temperature du sol par type real, intent(in) :: t_seri(klon,klev) ! temperature real, intent(in) :: u_seri(klon,klev) ! vent real , intent(in) :: v_seri(klon,klev) ! vent real , intent(in) :: q_seri(klon,klev) ! vapeur d eau kg/kg LOGICAL, INTENT(IN) :: lafin real tr_seri(klon,klev,nbtr) ! traceur real tmp_var(klon,klev) ! auxiliary variable to replace traceur real tmp_var2(klon,nbtr) ! auxiliary variable to replace source real tmp_var3(klon,klev,nbtr) ! auxiliary variable 3D real dummy1d ! JE auxiliary variable real aux_var2(klon) ! auxiliary variable to replace traceur real aux_var3(klon,klev) ! auxiliary variable to replace traceur real d_tr(klon,klev,nbtr) ! traceur tendance real sconc_seri(klon,nbtr) ! surface concentration of traceur ! integer nbjour save nbjour !$OMP THREADPRIVATE(nbjour) ! INTEGER masque_aqua_cur(klon) INTEGER masque_terra_cur(klon) INTEGER, DIMENSION(:), ALLOCATABLE, SAVE :: masque_aqua !mask for 1 day INTEGER, DIMENSION(:), ALLOCATABLE, SAVE :: masque_terra ! !$OMP THREADPRIVATE(masque_aqua,masque_terra) INTEGER, SAVE :: nbreg_dust, nbreg_ind, nbreg_bb, nbreg_ss,nbreg_wstardust !$OMP THREADPRIVATE(nbreg_dust, nbreg_ind, nbreg_bb,nbreg_ss,nbreg_wstardust) REAL lmt_dms(klon) ! emissions de dms !JE20150518<< REAL, DIMENSION(klon_glo) :: aod550_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod550_tr2_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod550_ss_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod550_dust_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod550_dustsco_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod670_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod670_tr2_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod670_ss_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod670_dust_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod670_dustsco_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod865_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod865_tr2_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod865_ss_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod865_dust_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod865_dustsco_terra_glo ! AOD at terra overpass time ( 10.30 local hour) REAL, DIMENSION(klon_glo) :: aod550_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod550_tr2_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod550_ss_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod550_dust_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod550_dustsco_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod670_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod670_tr2_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod670_ss_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod670_dust_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod670_dustsco_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod865_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod865_tr2_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod865_ss_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod865_dust_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) REAL, DIMENSION(klon_glo) :: aod865_dustsco_aqua_glo ! AOD at aqua overpass time ( 13.30 local hour) !!!!!!!!!!!!! !JE20150518>> real , intent(in) :: paprs(klon,klev+1) ! pression pour chaque inter-couche (en Pa) real , intent(in) :: pplay(klon,klev) ! pression pour le mileu de chaque couche (en Pa) real , intent(in) :: RHcl(klon,klev) ! humidite relativen ciel clair real znivsig(klev) ! indice des couches real paire(klon) real, intent(in) :: pphis(klon) real, intent(in) :: pctsrf(klon,nbsrf) logical , intent(in) :: debutphy ! le flag de l'initialisation de la physique ! ! Scaling Parameters: ! ---------------------- ! CHARACTER*50 c_Directory CHARACTER*80 c_FileName1 CHARACTER*80 c_FileName2 CHARACTER*130 c_FullName1 CHARACTER*130 c_FullName2 INTEGER :: xidx, yidx INTEGER,DIMENSION(klon) :: mask_bbreg INTEGER,DIMENSION(klon) :: mask_ffso2reg INTEGER :: aux_mask1 INTEGER :: aux_mask2 INTEGER, DIMENSION(:), ALLOCATABLE, SAVE :: iregion_so4 !Defines regions for SO4 ; AS: PAS UTILISE! INTEGER, DIMENSION(:), ALLOCATABLE, SAVE :: iregion_ind !Defines regions for SO2, BC & OM INTEGER, DIMENSION(:), ALLOCATABLE, SAVE :: iregion_bb !Defines regions for SO2, BC & OM INTEGER, DIMENSION(:), ALLOCATABLE, SAVE :: iregion_dust !Defines dust regions INTEGER, DIMENSION(:), ALLOCATABLE, SAVE :: iregion_wstardust !Defines dust regions !$OMP THREADPRIVATE(iregion_so4,iregion_ind,iregion_bb,iregion_dust,iregion_wstardust) ! Emissions: ! !---------------------------- SEA SALT & DUST emissions ------------------------ REAL lmt_sea_salt(klon,ss_bins) !Sea salt 0.03-8.0 um REAL u10m_ec1(klon),v10m_ec1(klon) REAL u10m_ec2(klon),v10m_ec2(klon),dust_ec2(klon) REAL dust_ec(klon) ! new dust emission chimere je20140522 REAL,DIMENSION(klon),INTENT(IN) :: zu10m REAL,DIMENSION(klon),INTENT(IN) :: zv10m REAL,DIMENSION(klon),INTENT(IN) :: wstar,ale_bl,ale_wake ! ! Rem : nbtr : nombre de vrais traceurs est defini dans dimphy.h !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !Dynamique !-------- REAL,DIMENSION(klon,klev,nbtr),INTENT(IN) :: d_tr_dyn !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! convection: ! ----------- ! REAL , intent(in) :: pmfu(klon,klev) ! flux de masse dans le panache montant REAL , intent(in) :: pmfd(klon,klev) ! flux de masse dans le panache descendant REAL, intent(in) :: pen_u(klon,klev) ! flux entraine dans le panache montant REAL, intent(in) :: pde_u(klon,klev) ! flux detraine dans le panache montant REAL, intent(in) :: pen_d(klon,klev) ! flux entraine dans le panache descendant REAL, intent(in) :: pde_d(klon,klev) ! flux detraine dans le panache descendant ! ! Convection KE scheme: ! --------------------- ! !! Variables pour le lessivage convectif REAL,DIMENSION(klon,klev),INTENT(IN) :: da REAL,DIMENSION(klon,klev,klev),INTENT(IN):: phi REAL,DIMENSION(klon,klev,klev),INTENT(IN) :: phi2 REAL,DIMENSION(klon,klev),INTENT(IN) :: d1a,dam REAL,DIMENSION(klon,klev),INTENT(IN) :: mp REAL,DIMENSION(klon,klev),INTENT(IN) :: upwd ! saturated ! updraft mass flux REAL,DIMENSION(klon,klev),INTENT(IN) :: dnwd ! saturated ! downdraft mass flux INTEGER,DIMENSION(klon),INTENT(IN) :: itop_con INTEGER,DIMENSION(klon),INTENT(IN) :: ibas_con REAL,DIMENSION(klon,klev) :: evapls REAL,DIMENSION(klon,klev),INTENT(IN) :: wdtrainA REAL,DIMENSION(klon,klev),INTENT(IN) :: wdtrainM REAL,DIMENSION(klon,klev),INTENT(IN) :: ep REAL,DIMENSION(klon),INTENT(IN) :: sigd REAL,DIMENSION(klon,klev,klev),INTENT(IN) :: sij REAL,DIMENSION(klon,klev),INTENT(IN) :: clw REAL,DIMENSION(klon,klev,klev),INTENT(IN) :: elij REAL,DIMENSION(klon,klev,klev),INTENT(IN) :: epmlmMm REAL,DIMENSION(klon,klev),INTENT(IN) :: eplaMm REAL,DIMENSION(klon,klev),INTENT(IN) :: wght_cvfd !RL ! KE: Tendances de traceurs (Td) et flux de traceurs: ! ------------------------ REAL,DIMENSION(klon,klev) :: Mint REAL,DIMENSION(klon,klev,nbtr) :: zmfd1a REAL,DIMENSION(klon,klev,nbtr) :: zmfdam REAL,DIMENSION(klon,klev,nbtr) :: zmfphi2 ! !tra dans pluie LS a la surf. ! outputs for cvltr_spl REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_cv_o REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_trsp_o REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_sscav_o REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_sat_o REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_uscav_o !!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!! REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_insc_o REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_bcscav_o REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_evapls_o REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_ls_o REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_dyn_o REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_cl_o REAL,DIMENSION(:,:,:),ALLOCATABLE,SAVE :: d_tr_th_o !!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!! !$OMP THREADPRIVATE(d_tr_cv_o,d_tr_trsp_o,d_tr_sscav_o,d_tr_sat_o,d_tr_uscav_o) !$OMP THREADPRIVATE(d_tr_insc_o,d_tr_bcscav_o,d_tr_evapls_o,d_tr_ls_o) !$OMP THREADPRIVATE(d_tr_dyn_o,d_tr_cl_o,d_tr_th_o) INTEGER :: nsplit ! ! ! Lessivage ! --------- ! REAL, intent(in) :: pmflxr(klon,klev+1), pmflxs(klon,klev+1) !--convection REAL, intent(in) :: prfl(klon,klev+1), psfl(klon,klev+1) !--large-scale REAL :: ql_incl ! contenu en eau liquide nuageuse dans le nuage ! ql_incl=oliq/rneb REAL :: ql_incloud_ref ! ref value of in-cloud condensed water content REAL,DIMENSION(klon,klev),INTENT(IN) :: rneb ! fraction nuageuse (grande echelle) ! REAL,DIMENSION(klon,klev) :: beta_fisrt ! taux de conversion ! ! de l'eau cond (de fisrtilp) REAL,DIMENSION(klon,klev) :: beta_v1 ! -- (originale version) INTEGER,SAVE :: iflag_lscav_omp,iflag_lscav !$OMP THREADPRIVATE(iflag_lscav_omp,iflag_lscav) !Thermiques: !---------- REAL,DIMENSION(klon,klev+1),INTENT(IN) :: fm_therm REAL,DIMENSION(klon,klev),INTENT(INOUT) :: entr_therm ! ! Couche limite: ! -------------- ! REAL , intent(in) :: coefh(klon,klev) ! coeff melange CL REAL , intent(in) :: cdragh(klon), cdragm(klon) REAL, intent(in) :: yu1(klon) ! vent dans la 1iere couche REAL, intent(in) :: yv1(klon) ! vent dans la 1iere couche ! ! !---------------------------------------------------------------------- REAL his_ds(klon,nbtr) REAL his_dh(klon,nbtr) REAL his_dhlsc(klon,nbtr) ! in-cloud scavenging lsc REAL his_dhcon(klon,nbtr) ! in-cloud scavenging con REAL his_dhbclsc(klon,nbtr) ! below-cloud scavenging lsc REAL his_dhbccon(klon,nbtr) ! below-cloud scavenging con REAL trm(klon,nbtr) ! REAL u10m_ec(klon), v10m_ec(klon) ! REAL his_th(klon,nbtr) REAL his_dhkecv(klon,nbtr) REAL his_dhkelsc(klon,nbtr) ! ! Coordonnees ! ----------- ! REAL, intent(in) :: rlat(klon) ! latitudes pour chaque point REAL, intent(in) :: rlon(klon) ! longitudes pour chaque point ! INTEGER i, k, iq, itr, j, ig ! ! DEFINITION OF DIAGNOSTIC VARIABLES ! REAL diag_trm(nbtr), diag_drydep(nbtr) REAL diag_wetdep(nbtr), diag_cvtdep(nbtr) REAL diag_emissn(nbtr), diag_g2part REAL diag_sedimt REAL trm_aux(nbtr), src_aux(nbtr) ! ! Variables locales pour effectuer les appels en serie !---------------------------------------------------- REAL source_tr(klon,nbtr) REAL flux_tr(klon,nbtr) REAL m_conc(klon,klev) REAL henry(nbtr) !--cste de Henry mol/l/atm REAL kk(nbtr) !--coefficient de var avec T (K) REAL alpha_r(nbtr)!--coefficient d'impaction pour la pluie REAL alpha_s(nbtr)!--coefficient d'impaction pour la neige REAL vdep_oce(nbtr), vdep_sic(nbtr) REAL vdep_ter(nbtr), vdep_lic(nbtr) REAL ccntrAA_spla(nbtr) REAL ccntrENV_spla(nbtr) REAL coefcoli_spla(nbtr) REAL dtrconv(klon,nbtr) REAL zrho(klon,klev), zdz(klon,klev) REAL zalt(klon,klev) REAL,DIMENSION(klon,klev) :: zmasse ! densité atmosphérique ! . Kg/m2 REAL,DIMENSION(klon,klev) :: ztra_th REAL qmin, qmax, aux ! PARAMETER (qmin=0.0, qmax=1.e33) PARAMETER (qmin=1.e33, qmax=-1.e33) ! Variables to save data into file !---------------------------------- CHARACTER*2 str2 !!AS: LOGICAL ok_histrac !!!JE2014124 PARAMETER (ok_histrac=.true.) !! PARAMETER (ok_histrac=.false.) INTEGER ndex2d(iim*(jjm+1)), ndex3d(iim*(jjm+1)*klev) INTEGER nhori1, nhori2, nhori3, nhori4, nhori5, nvert INTEGER nid_tra1, nid_tra2, nid_tra3, nid_tra4, nid_tra5 SAVE nid_tra1, nid_tra2, nid_tra3, nid_tra4, nid_tra5 !$OMP THREADPRIVATE(nid_tra1, nid_tra2, nid_tra3, nid_tra4, nid_tra5) INTEGER itra SAVE itra ! compteur pour la physique !$OMP THREADPRIVATE(itra) INTEGER ecrit_tra, ecrit_tra_h, ecrit_tra_m SAVE ecrit_tra, ecrit_tra_h, ecrit_tra_m !$OMP THREADPRIVATE(ecrit_tra, ecrit_tra_h, ecrit_tra_m) REAL presnivs(klev) ! pressions approximat. des milieux couches ( en PA) REAL zx_tmp_2d(iim,jjm+1), zx_tmp_3d(iim,jjm+1,klev) REAL zx_tmp_fi2d(klon), zx_tmp_fi3d(klon, klev) REAL zx_lon_glo(nbp_lon,nbp_lat), zx_lat_glo(nbp_lon,nbp_lat) REAL zsto, zout, zout_h, zout_m, zjulian !------Molar Masses REAL masse(nbtr) ! REAL fracso2emis !--fraction so2 emis en so2 PARAMETER (fracso2emis=0.95) REAL frach2sofso2 !--fraction h2s from so2 PARAMETER (frach2sofso2=0.0426) ! ! Controles !------------- LOGICAL convection,lessivage,lminmax,lcheckmass DATA convection,lessivage,lminmax,lcheckmass & /.true.,.true.,.true.,.false./ ! REAL xconv(nbtr) ! LOGICAL anthropo, bateau, edgar DATA anthropo,bateau,edgar/.true.,.true.,.true./ ! !c bc_source INTEGER kminbc, kmaxbc !JE20150715 PARAMETER (kminbc=3, kmaxbc=5) PARAMETER (kminbc=4, kmaxbc=7) ! REAL tr1_cont, tr2_cont, tr3_cont, tr4_cont ! ! JE for updating in cltrac REAL,DIMENSION(klon,klev) :: delp ! epaisseur de couche (Pa) !! JE for include gas to particle conversion in output ! REAL his_g2pgas(klon) ! gastoparticle in gas units (check!) ! REAL his_g2paer(klon) ! gastoparticle in aerosol units (check!) ! INTEGER ,intent(in) :: iflag_conv LOGICAL iscm3 ! debug variable. for checkmass ! JE !------------------------------------------------------------------------ ! only to compute time consumption of each process !---- INTEGER clock_start,clock_end,clock_rate,clock_start_spla INTEGER clock_end_outphytracr,clock_start_outphytracr INTEGER ti_init,dife,ti_inittype,ti_inittwrite INTEGER ti_spla,ti_emis,ti_depo,ti_cltr,ti_ther INTEGER ti_sedi,ti_gasp,ti_wetap,ti_cvltr,ti_lscs,ti_brop,ti_outs INTEGER ti_nophytracr,clock_per_max REAL tia_init,tia_inittype,tia_inittwrite REAL tia_spla,tia_emis,tia_depo,tia_cltr,tia_ther REAL tia_sedi,tia_gasp,tia_wetap,tia_cvltr,tia_lscs REAL tia_brop,tia_outs REAL tia_nophytracr SAVE tia_init,tia_inittype,tia_inittwrite SAVE tia_spla,tia_emis,tia_depo,tia_cltr,tia_ther SAVE tia_sedi,tia_gasp,tia_wetap,tia_cvltr,tia_lscs SAVE tia_brop,tia_outs SAVE ti_nophytracr SAVE tia_nophytracr SAVE clock_end_outphytracr,clock_start_outphytracr SAVE clock_per_max LOGICAL logitime !$OMP THREADPRIVATE(tia_init,tia_inittype,tia_inittwrite) !$OMP THREADPRIVATE(tia_spla,tia_emis,tia_depo,tia_cltr,tia_ther) !$OMP THREADPRIVATE(tia_sedi,tia_gasp,tia_wetap,tia_cvltr,tia_lscs) !$OMP THREADPRIVATE(tia_brop,tia_outs) !$OMP THREADPRIVATE(ti_nophytracr) !$OMP THREADPRIVATE(tia_nophytracr) !$OMP THREADPRIVATE(clock_end_outphytracr,clock_start_outphytracr) !$OMP THREADPRIVATE(clock_per_max) ! utils parallelization REAL :: auxklon_glo(klon_glo) INTEGER :: iauxklon_glo(klon_glo) REAL, DIMENSION(klon_glo,nbp_lev) :: auxklonnbp_lev REAL, DIMENSION(klon_glo,nbp_lev,nbtr) :: auxklonklevnbtr_glo REAL,DIMENSION(nbp_lon,nbp_lat) :: zx_tmp_2d_glo REAL,DIMENSION(nbp_lon,nbp_lat,nbp_lev) :: zx_tmp_3d_glo REAL,DIMENSION(klon_glo) :: zx_tmp_fi2d_glo REAL,DIMENSION(klon_glo , nbp_lev) :: zx_tmp_fi3d_glo REAL,DIMENSION(klon_glo,nbtr) :: auxklonnbtr_glo source_tr=0. if (debutphy) then #ifdef IOPHYS_DUST CALL iophys_ini(pdtphys) #endif nbreg_ind=1 nbreg_bb=1 nbreg_dust=1 nbreg_wstardust=1 CALL phytracr_spl_ini(klon,nbreg_ind,nbreg_bb,nbreg_dust,nbreg_wstardust) endif #ifdef IOPHYS_DUST itr = 0 DO iq = 1, nqtot IF(.NOT.tracers(iq)%isInPhysics) CYCLE itr = itr+1 write(str2,'(i2.2)') itrr call iophys_ecrit('TRA'//str2,klev,'SOURCE','',tr_seri(:,:,itr)) enddo #endif ijulday=jD_cur-jD_1jan+1 nbjour = 1 paramname_ind='ind' paramname_bb='bb' paramname_ff='ind' paramname_dustacc='dustacc' paramname_dustcoa='dustcoasco' paramname_dustsco='dustcoasco' ! paramname_dustacc='dust' ! paramname_dustcoa='dust' ! paramname_dustsco='dust' paramname_wstarBL='pwstarbl' paramname_wstarWAKE='pwstarwake' paramname_ssacc='ssacc' paramname_sscoa='sscoa' filescaleparams='modvalues.nc' !AS: debranchage de lecture des coefs d'assmilation de Jeronimo Escribano IF("ASSIM"=="YES") THEN CALL readscaleparamsnc_spl(scale_param_ind, & nbreg_ind, paramname_ind, & scale_param_ff, nbreg_ind,paramname_ff, & scale_param_bb, nbreg_bb,paramname_bb, & scale_param_dustacc, nbreg_dust,paramname_dustacc, & scale_param_dustcoa, nbreg_dust,paramname_dustcoa, & scale_param_dustsco, nbreg_dust,paramname_dustsco, & param_wstarBLperregion, nbreg_wstardust, paramname_wstarBL, & param_wstarWAKEperregion, nbreg_wstardust, paramname_wstarWAKE, & scale_param_ssacc , paramname_ssacc, & scale_param_sscoa , paramname_sscoa, & filescaleparams,ijulday,jH_cur, pdtphys,debutphy) ENDIF ! ASSIM !AS: le commentaire suivant "add seasalt" ne semble pas avoir ete mis en pratique. ! Des fichiers regions_ssacc et _sscoa existent mais ne semblent pas lus. ! Ca reste donc aux valeurs initialisées: nbreg_ss=1, scale_param_ss*=1, cf fichiers ss et modvalues !! add seasalt print *,'JE : check scale_params' print *, 'nbreg_ind', nbreg_ind print *, 'nbreg_dust', nbreg_dust print *, 'nbreg_bb', nbreg_bb print *, 'ind', scale_param_ind print *, 'dustacc', scale_param_dustacc print *, 'dustcoa', scale_param_dustcoa print *, 'dustsco', scale_param_dustsco print *, 'wstardustBL', param_wstarBLperregion print *, 'wstardustWAKE', param_wstarWAKEperregion print *, 'ff', scale_param_ff print *, 'bb', scale_param_bb print *, 'ssacc', scale_param_ssacc print *, 'sscoa', scale_param_sscoa print *,'JE: before read_newemissions ' print *,'JE: jD_cur:',jD_cur,' ijulday:',ijulday,' jH_cur:',jH_cur,' pdtphys:',pdtphys print *,'JE: now read_newemissions:' !AS: La ligne suivante fait planter a l'execution : lmt_so2ff_l pas initialise ! print *,'lmt_so2ff_l AVANT' , MINVAL(lmt_so2ff_l), MAXVAL(lmt_so2ff_l) call read_newemissions(ijulday,jH_cur ,edgar, flag_dms,debutphy, & !I pdtphys, lafin, nbjour, pctsrf, & !I t_seri, rlat, rlon, & !I pmflxr, pmflxs, prfl, psfl, & !I u10m_ec, v10m_ec, dust_ec, & !O lmt_sea_salt, lmt_so2ff_l, & !O lmt_so2ff_h, lmt_so2nff, & !O lmt_so2ba, lmt_so2bb_l, lmt_so2bb_h, & !O lmt_so2volc_cont, lmt_altvolc_cont, & !O lmt_so2volc_expl, lmt_altvolc_expl, & !O lmt_dmsbio, lmt_h2sbio, lmt_dmsconc, & !O lmt_bcff, lmt_bcnff, lmt_bcbb_l, & !O lmt_bcbb_h, lmt_bcba, lmt_omff, & !O lmt_omnff, lmt_ombb_l, lmt_ombb_h, & !O lmt_omnat, lmt_omba) !O print *,'Check emissions' print *,'lmt_so2ff_l' , MINVAL(lmt_so2ff_l), MAXVAL(lmt_so2ff_l) print *,'lmt_so2ff_h' , MINVAL(lmt_so2ff_h), MAXVAL(lmt_so2ff_h) print *,'lmt_so2nff' , MINVAL(lmt_so2nff), MAXVAL(lmt_so2nff) print *,'lmt_so2ba' , MINVAL(lmt_so2ba), MAXVAL(lmt_so2ba) print *,'lmt_so2bb_l' , MINVAL(lmt_so2bb_l), MAXVAL(lmt_so2bb_l) print *,'lmt_so2bb_h' , MINVAL(lmt_so2bb_h), MAXVAL(lmt_so2bb_h) print *,'lmt_so2volc_cont' , MINVAL(lmt_so2volc_cont), MAXVAL(lmt_so2volc_cont) print *,'lmt_altvolc_cont' , MINVAL(lmt_altvolc_cont), MAXVAL(lmt_altvolc_cont) print *,'lmt_so2volc_expl' , MINVAL(lmt_so2volc_expl), MAXVAL(lmt_so2volc_expl) print *,'lmt_altvolc_expl' , MINVAL(lmt_altvolc_expl), MAXVAL(lmt_altvolc_expl) print *,'lmt_dmsbio' , MINVAL(lmt_dmsbio), MAXVAL(lmt_dmsbio) print *,'lmt_h2sbio' , MINVAL(lmt_h2sbio), MAXVAL(lmt_h2sbio) print *,'lmt_dmsconc' , MINVAL(lmt_dmsconc), MAXVAL(lmt_dmsconc) print *,'lmt_bcff' , MINVAL(lmt_bcff), MAXVAL(lmt_bcff) print *,'lmt_bcnff' , MINVAL(lmt_bcnff), MAXVAL(lmt_bcnff) print *,'lmt_bcbb_l' , MINVAL(lmt_bcbb_l), MAXVAL(lmt_bcbb_l) print *,'lmt_bcbb_h' , MINVAL(lmt_bcbb_h), MAXVAL(lmt_bcbb_h) print *,'lmt_bcba' , MINVAL(lmt_bcba), MAXVAL(lmt_bcba) print *,'lmt_omff' , MINVAL(lmt_omff), MAXVAL(lmt_omff) print *,'lmt_omnff' , MINVAL(lmt_omnff), MAXVAL(lmt_omnff) print *,'lmt_ombb_l' , MINVAL(lmt_ombb_l), MAXVAL(lmt_ombb_l) print *,'lmt_ombb_h' , MINVAL(lmt_ombb_h), MAXVAL(lmt_ombb_h) print *,'lmt_omnat' , MINVAL(lmt_omnat), MAXVAL(lmt_omnat) print *,'lmt_omba' , MINVAL(lmt_omba), MAXVAL(lmt_omba) print *,'JE iflag_con',iflag_conv !JE_dbg do i=1,klon tsol(i)=0.0 do j=1,nbsrf tsol(i)=tsol(i)+ftsol(i,j)*pctsrf(i,j) enddo enddo !====================================================================== ! INITIALISATIONS !====================================================================== ! CALL checknanqfi(da(:,:),1.,-1.,' da_ before ! . phytracr_inphytracr') ! ! computing time ! logitime=.true. logitime=.false. IF (logitime) THEN clock_start=0 clock_end=0 clock_rate=0 CALL SYSTEM_CLOCK(COUNT_RATE=clock_rate,COUNT_MAX=clock_per_max) CALL SYSTEM_CLOCK(COUNT=clock_start_spla) clock_start=clock_start_spla clock_end_outphytracr=clock_start_spla ENDIF ! Definition of tracers index. print*,'OK ON PASSSE BIEN LA' CALL minmaxsource(source_tr,qmin,qmax,'A1 maxsource init phytracr') IF (debutphy) THEN id_prec=-1 id_fine=-1 id_coss=-1 id_codu=-1 id_scdu=-1 itr = 0 do iq=1,nqtot IF(.NOT.tracers(iq)%isInPhysics) CYCLE itr = itr+1 print *, itr, TRIM(tracers(iq)%name) SELECT CASE(tracers(iq)%name) CASE('PREC'); id_prec=itr CASE('FINE'); id_fine=itr CASE('COSS'); id_coss=itr CASE('CODU'); id_codu=itr CASE('SCDU'); id_scdu=itr END SELECT enddo ! check consistency with dust emission scheme: if (ok_chimeredust) then if (.not.( id_scdu>0 .and. id_codu>0 .and. id_fine>0)) then call abort_gcm('phytracr_mod', 'pb in ok_chimdust 0',1) endif else if (id_scdu>0) then call abort_gcm('phytracr_mod', 'pb in ok_chimdust 1 SCDU',1) endif if ( (id_codu <= 0) .or. ( id_fine<=0) ) then call abort_gcm('phytracr_mod', 'pb in ok_chimdust 1',1) endif endif !print *,id_prec,id_fine,id_coss,id_codu,id_scdu ENDIF !---fraction of tracer that is convected (Tiedke) xconv(:)=0. if(id_prec>0) xconv(id_prec)=0.8 if(id_fine>0) xconv(id_fine)=0.5 if(id_coss>0) xconv(id_coss)=0.5 if(id_codu>0) xconv(id_codu)=0.6 if(id_scdu>0) xconv(id_scdu)=0.6 !!JE fix masse(:)=1. if(id_prec>0) masse(id_prec)=32. if(id_fine>0) masse(id_fine)=6.02e23 if(id_coss>0) masse(id_coss)=6.02e23 if(id_codu>0) masse(id_codu)=6.02e23 if(id_scdu>0) masse(id_scdu)=6.02e23 henry(:)=0. if(id_prec>0) henry(id_prec)=1.4 if(id_fine>0) henry(id_fine)=0.0 if(id_coss>0) henry(id_coss)=0.0 if(id_codu>0) henry(id_codu)=0.0 if(id_scdu>0) henry(id_scdu)=0.0 !henry= (/1.4, 0.0, 0.0, 0.0/) kk(:)=0. if(id_prec>0) kk(id_prec)=2900. if(id_fine>0) kk(id_fine)=0.0 if(id_coss>0) kk(id_coss)=0.0 if(id_codu>0) kk(id_codu)=0.0 if(id_scdu>0) kk(id_scdu)=0.0 !kk = (/2900., 0., 0., 0./) alpha_r(:)=0. if(id_prec>0) alpha_r(id_prec)=0.0 if(id_fine>0) alpha_r(id_fine)=0.001 if(id_coss>0) alpha_r(id_coss)=0.001 if(id_codu>0) alpha_r(id_codu)=0.001 if(id_scdu>0) alpha_r(id_scdu)=0.001 !JE fix alpha_s(:)=0. if(id_prec>0) alpha_s(id_prec)=0.0 if(id_fine>0) alpha_s(id_fine)=0.01 if(id_coss>0) alpha_s(id_coss)=0.01 if(id_codu>0) alpha_s(id_codu)=0.01 if(id_scdu>0) alpha_s(id_scdu)=0.01 !JE fix ! alpha_r = (/0., 0.001, 0.001, 0.001/) ! alpha_s = (/0., 0.01, 0.01, 0.01/) ! nhl DATA vdep_oce /0.7, 0.05, 1.2, 1.2/ ! nhl vdep_oce for tr1 is a weighted average of dms and so2 dep velocities !vdep_oce = (/0.28, 0.28, 1.2, 1.2/) vdep_oce(:)=0. if(id_prec>0) vdep_oce(id_prec) = 0.28 if(id_fine>0) vdep_oce(id_fine) = 0.28 if(id_coss>0) vdep_oce(id_coss) = 1.2 if(id_codu>0) vdep_oce(id_codu) = 1.2 if(id_scdu>0) vdep_oce(id_scdu) = 1.2 vdep_sic(:)=0. if(id_prec>0) vdep_sic(id_prec) = 0.2 if(id_fine>0) vdep_sic(id_fine) = 0.17 if(id_coss>0) vdep_sic(id_coss) = 1.2 if(id_codu>0) vdep_sic(id_codu) = 1.2 if(id_scdu>0) vdep_sic(id_scdu) = 1.2 !vdep_sic = (/0.2, 0.17, 1.2, 1.2/) !vdep_ter = (/0.3, 0.14, 1.2, 1.2/) vdep_ter(:)=0. if(id_prec>0) vdep_ter(id_prec) = 0.3 if(id_fine>0) vdep_ter(id_fine) = 0.14 if(id_coss>0) vdep_ter(id_coss) = 1.2 if(id_codu>0) vdep_ter(id_codu) = 1.2 if(id_scdu>0) vdep_ter(id_scdu) = 1.2 vdep_lic(:)=0. if(id_prec>0) vdep_lic(id_prec) = 0.2 if(id_fine>0) vdep_lic(id_fine) = 0.17 if(id_coss>0) vdep_lic(id_coss) = 1.2 if(id_codu>0) vdep_lic(id_codu) = 1.2 if(id_scdu>0) vdep_lic(id_scdu) = 1.2 ! convective KE lessivage aer params: ! AS: #DFB (Binta) a aussi teste ccntrAA_spla=ccntrENV_spla=0.9/1.0/0.9/0.9 ! mais effet negligeable sur l'AOD ccntrAA_spla(:)=0. if(id_prec>0) ccntrAA_spla(id_prec)=-9999. if(id_fine>0) ccntrAA_spla(id_fine)=0.7 if(id_coss>0) ccntrAA_spla(id_coss)=1.0 if(id_codu>0) ccntrAA_spla(id_codu)=0.7 if(id_scdu>0) ccntrAA_spla(id_scdu)=0.7 ccntrENV_spla(:)=0. if(id_prec>0) ccntrENV_spla(id_prec)=-9999. if(id_fine>0) ccntrENV_spla(id_fine)=0.7 if(id_coss>0) ccntrENV_spla(id_coss)=1.0 if(id_codu>0) ccntrENV_spla(id_codu)=0.7 if(id_scdu>0) ccntrENV_spla(id_scdu)=0.7 ! #DFB coefcoli_spla(:)=0. if(id_prec>0) coefcoli_spla(id_prec)=-9999. if(id_fine>0) coefcoli_spla(id_fine)=0.001 if(id_coss>0) coefcoli_spla(id_coss)=0.001 if(id_codu>0) coefcoli_spla(id_codu)=0.001 if(id_scdu>0) coefcoli_spla(id_scdu)=0.001 !vdep_lic = (/0.2, 0.17, 1.2, 1.2/) ! iscm3=.false. if (debutphy) then !$OMP MASTER CALL suphel print *, 'let s check nbtr=', nbtr ! JE before put in zero IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan init phytracr') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'minmax init phytracr') ENDDO CALL minmaxsource(source_tr,qmin,qmax,'maxsource init phytracr') ENDIF ! JE initializon to cero the tracers ! DO itr=1,nbtr ! tr_seri(:,:,itr)=0.0 ! ENDDO ! JE end ! Initializing to zero tr_seri for comparison purposes ! tr_seri(:,:,:)=0.0 ! ! DO itr=1,nbtr ! trm_aux(itr)=0.0 ! src_aux(itr)=0.0 ! diag_trm(itr)=0.0 ! diag_drydep(itr)=0.0 ! diag_wetdep(itr)=0.0 ! diag_cvtdep(itr)=0.0 ! diag_emissn(itr)=0.0 ! ENDDO ! diag_g2part=0.0 print *,'PREPARE FILES TO SAVE VARIABLES' ! nbjour=30 ecrit_tra = NINT(86400./pdtphys) !--1-day average ecrit_tra_h = NINT(86400./pdtphys*0.25) !--6-hour average ecrit_tra_m = NINT(86400./pdtphys*FLOAT(nbjour)) !--1-mth average print *,'ecrit_tra=', pdtphys, ecrit_tra !!AS deleting lines !! IF (ok_histrac) THEN !! IF (is_mpi_root .AND. is_omp_root) THEN !!-----many deleted lines---- !!! nbjour=1 !! ENDIF ! mpi root !! ENDIF !--ok_histrac !$OMP END MASTER !$OMP BARRIER endif ! debutphy ! !====================================================================== ! Initialisations !====================================================================== ! ! ! je KE init IF (debutphy) THEN !$OMP MASTER ALLOCATE(d_tr_dry(klon,nbtr)) ALLOCATE(flux_tr_dry(klon,nbtr),d_tr_dec(klon,klev,nbtr)) ALLOCATE(qPrls(klon,nbtr),qPr(klon,klev,nbtr)) ALLOCATE(qDi(klon,klev,nbtr)) ALLOCATE(qPa(klon,klev,nbtr),qMel(klon,klev,nbtr)) ALLOCATE(qTrdi(klon,klev,nbtr),dtrcvMA(klon,klev,nbtr)) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ALLOCATE(d_tr_cv_o(klon,klev,nbtr)) ALLOCATE(d_tr_trsp_o(klon,klev,nbtr)) ALLOCATE(d_tr_sscav_o(klon,klev,nbtr), & d_tr_sat_o(klon,klev,nbtr)) ALLOCATE(d_tr_uscav_o(klon,klev,nbtr)) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ALLOCATE(d_tr_insc_o(klon,klev,nbtr)) ALLOCATE(d_tr_bcscav_o(klon,klev,nbtr)) ALLOCATE(d_tr_evapls_o(klon,klev,nbtr)) ALLOCATE(d_tr_ls_o(klon,klev,nbtr)) ALLOCATE(d_tr_dyn_o(klon,klev,nbtr)) ALLOCATE(d_tr_cl_o(klon,klev,nbtr)) ALLOCATE(d_tr_th_o(klon,klev,nbtr)) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ALLOCATE(iregion_so4(klon)) ALLOCATE(iregion_bb(klon)) ALLOCATE(iregion_ind(klon)) ALLOCATE(iregion_dust(klon)) ALLOCATE(iregion_wstardust(klon)) !JE20150518<< ALLOCATE(masque_aqua(klon)) ALLOCATE(masque_terra(klon)) masque_aqua(:)=0 masque_terra(:)=0 aod550_terra(:)=0. aod550_tr2_terra(:)=0. aod550_ss_terra(:)=0. aod550_dust_terra(:)=0. aod550_dustsco_terra(:)=0. aod670_terra(:)=0. aod670_tr2_terra(:)=0. aod670_ss_terra(:)=0. aod670_dust_terra(:)=0. aod670_dustsco_terra(:)=0. aod865_terra(:)=0. aod865_tr2_terra(:)=0. aod865_ss_terra(:)=0. aod865_dust_terra(:)=0. aod865_dustsco_terra(:)=0. aod550_aqua(:)=0. aod550_tr2_aqua(:)=0. aod550_ss_aqua(:)=0. aod550_dust_aqua(:)=0. aod550_dustsco_aqua(:)=0. aod670_aqua(:)=0. aod670_tr2_aqua(:)=0. aod670_ss_aqua(:)=0. aod670_dust_aqua(:)=0. aod670_dustsco_aqua(:)=0. aod865_aqua(:)=0. aod865_tr2_aqua(:)=0. aod865_ss_aqua(:)=0. aod865_dust_aqua(:)=0. aod865_dustsco_aqua(:)=0. !JE20150518>> ! !Config Key = iflag_lscav !Config Desc = Large scale scavenging parametrization: 0=none, !1=old(Genthon92), ! 2=1+PHeinrich, 3=Reddy_Boucher2004, 4=3+RPilon. !Config Def = 4 !Config iflag_lscav_omp=4 call getin('iflag_lscav', iflag_lscav_omp) iflag_lscav=iflag_lscav_omp ! initialiation for time computation tia_spla=0. tia_emis=0. tia_depo=0. tia_cltr=0. tia_ther=0. tia_sedi=0. tia_gasp=0. tia_wetap=0. tia_cvltr=0. tia_lscs=0. tia_brop=0. tia_outs=0. tia_nophytracr=0. clock_start_outphytracr=clock_end_outphytracr+1 !$OMP END MASTER !$OMP BARRIER ENDIF ! debutphy lmt_dms(:)=0.0 aux_var2(:)=0.0 aux_var3(:,:)=0.0 source_tr(:,:)=0.0 flux_tr(:,:)=0.0 flux_sparam_bb(:)=0.0 flux_sparam_ff(:)=0.0 flux_sparam_ind(:)=0.0 flux_sparam_ddfine(:)=0.0 flux_sparam_ddcoa(:)=0.0 flux_sparam_ddsco(:)=0.0 flux_sparam_ssfine(:)=0.0 flux_sparam_sscoa(:)=0.0 ! initialiation for time computation ti_spla=0 ti_emis=0 ti_depo=0 ti_cltr=0 ti_ther=0 ti_sedi=0 ti_gasp=0 ti_wetap=0 ti_cvltr=0 ti_lscs=0 ti_brop=0 ti_outs=0 DO k=1,klev DO i=1,klon Mint(i,k)=0. END DO END DO ! DO itr=1,nbtr DO k=1,klev DO i=1,klon d_tr_cv(i,k,itr)=0. d_tr_trsp(i,k,itr)=0. d_tr_sscav(i,k,itr)=0. d_tr_sat(i,k,itr)=0. d_tr_uscav(i,k,itr)=0. d_tr(i,k,itr)=0. d_tr_insc(i,k,itr)=0. d_tr_bcscav(i,k,itr)=0. d_tr_evapls(i,k,itr)=0. d_tr_ls(i,k,itr)=0. d_tr_cl(i,k,itr)=0. d_tr_th(i,k,itr)=0. d_tr_cv_o(i,k,itr)=0. d_tr_trsp_o(i,k,itr)=0. d_tr_sscav_o(i,k,itr)=0. d_tr_sat_o(i,k,itr)=0. d_tr_uscav_o(i,k,itr)=0. qDi(i,k,itr)=0. qPr(i,k,itr)=0. qPa(i,k,itr)=0. qMel(i,k,itr)=0. qTrdi(i,k,itr)=0. dtrcvMA(i,k,itr)=0. zmfd1a(i,k,itr)=0. zmfdam(i,k,itr)=0. zmfphi2(i,k,itr)=0. END DO END DO END DO DO itr=1,nbtr DO i=1,klon qPrls(i,itr)=0.0 dtrconv(i,itr)=0.0 !JE20140507<< d_tr_dry(i,itr)=0.0 flux_tr_dry(i,itr)=0.0 !JE20140507>> ENDDO ENDDO DO itr=1,nbtr DO i=1, klon his_dh(i,itr)=0.0 his_dhlsc(i,itr)=0.0 his_dhcon(i,itr)=0.0 his_dhbclsc(i,itr)=0.0 his_dhbccon(i,itr)=0.0 trm(i,itr)=0.0 his_th(i,itr)=0.0 his_dhkecv(i,itr)=0.0 his_ds(i,itr)=0.0 his_dhkelsc(i,itr)=0.0 ENDDO ENDDO !JE: DO i=1, klon his_g2pgas(i) = 0.0 his_g2paer(i) = 0.0 ENDDO ! endJE ! DO k=1, klev DO i = 1, klon zrho(i,k)=pplay(i,k)/t_seri(i,k)/RD zdz(i,k)=(paprs(i,k)-paprs(i,k+1))/zrho(i,k)/RG zmasse(i,k)=(paprs(i,k)-paprs(i,k+1))/RG ENDDO ENDDO ! DO i = 1, klon zalt(i,1)=pphis(i)/RG ENDDO DO k=1, klev-1 DO i = 1, klon zalt(i,k+1)=zalt(i,k)+zdz(i,k) ENDDO ENDDO IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_init=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_init=tia_init+REAL(ti_init)/REAL(clock_rate) ENDIF IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF IF (debutphy) then ! AS: initialisation des indices par point de grille physique iregion_* ! (variables tenant de l'assimilation, a eliminer dans un 2eme temps) iregion_dust(:)=1 iregion_ind(:)=1 iregion_bb(:)=1 iregion_wstardust(:)=1 !AS: lecture des indices dans fichiers "regions_*" eliminee par IF("ASSIM"="YES") (faux donc) IF("ASSIM"=="YES") THEN c_FullName1='regions_dustacc' !c_FullName1='regions_dust' call readregions_spl(iregion_dust,c_FullName1) c_FullName1='regions_ind' call readregions_spl(iregion_ind,c_FullName1) c_FullName1='regions_bb' call readregions_spl(iregion_bb,c_FullName1) c_FullName1='regions_pwstarwake' call readregions_spl(iregion_wstardust,c_FullName1) !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN OPEN(25,FILE='dustregions_pyvar_je.data') OPEN(55,FILE='indregions_pyvar_je.data') OPEN(75,FILE='bbregions_pyvar_je.data') OPEN(95,FILE='wstardustregions_pyvar_je.data') OPEN(76,FILE='xlat.data') OPEN(77,FILE='xlon.data') ENDIF ! mpi root !$OMP END MASTER !$OMP BARRIER CALL gather(iregion_dust,iauxklon_glo) !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN DO k=1,klon_glo WRITE(25,'(i10)') iauxklon_glo(k) ENDDO ENDIF ! mpi root !$OMP END MASTER !$OMP BARRIER CALL gather(iregion_ind,iauxklon_glo) !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN DO k=1,klon_glo WRITE(55,'(i10)') iauxklon_glo(k) ENDDO ENDIF ! mpi root !$OMP END MASTER !$OMP BARRIER CALL gather(iregion_bb,iauxklon_glo) !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN DO k=1,klon_glo WRITE(75,'(i10)') iauxklon_glo(k) ENDDO ENDIF ! mpi root !$OMP END MASTER !$OMP BARRIER CALL gather(iregion_wstardust,iauxklon_glo) !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN DO k=1,klon_glo WRITE(95,'(i10)') iauxklon_glo(k) ENDDO ENDIF ! mpi root !$OMP END MASTER !$OMP BARRIER CALL gather(rlat,auxklon_glo) !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN DO k=1,klon_glo WRITE(76,*) auxklon_glo(k) ENDDO ENDIF ! mpi root !$OMP END MASTER !$OMP BARRIER CALL gather(rlon,auxklon_glo) !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN DO k=1,klon_glo WRITE(77,*) auxklon_glo(k) ENDDO CLOSE(25) CLOSE(55) CLOSE(75) CLOSE(76) CLOSE(77) CLOSE(95) ENDIF ! mpi root !$OMP END MASTER !$OMP BARRIER ENDIF ! ASSIM ENDIF ! debutphy IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_inittype=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_inittype=tia_inittype+REAL(ti_inittype)/REAL(clock_rate) ENDIF IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF ! !======================================================================= ! SAVING SURFACE TYPE !======================================================================= IF (debutphy) THEN !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN OPEN(35,FILE='surface_ocean.data') OPEN(45,FILE='surface_seaice.data') OPEN(65,FILE='surface_land.data') OPEN(85,FILE='surface_landice.data') ENDIF ! mpi root !$OMP END MASTER !$OMP BARRIER do i = 1, klon aux_var2(i) = pctsrf(i,is_oce) enddo call gather(aux_var2,auxklon_glo) !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN DO i = 1, klon_glo WRITE (35,103) auxklon_glo(i) ENDDO ENDIF ! mpi root !$OMP END MASTER !$OMP BARRIER do i = 1, klon aux_var2(i) = pctsrf(i,is_sic) enddo call gather(aux_var2,auxklon_glo) !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN DO i = 1, klon_glo WRITE (45,103) auxklon_glo(i) ENDDO ENDIF ! mpi root !$OMP END MASTER !$OMP BARRIER do i = 1, klon aux_var2(i) = pctsrf(i,is_ter) enddo call gather(aux_var2,auxklon_glo) !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN DO i = 1, klon_glo WRITE (65,103) auxklon_glo(i) ENDDO ENDIF ! mpi root !$OMP END MASTER !$OMP BARRIER do i = 1, klon aux_var2(i) = pctsrf(i,is_lic) enddo call gather(aux_var2,auxklon_glo) !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN DO i = 1, klon_glo WRITE (85,103) auxklon_glo(i) ENDDO ! ! DO i = 1, klon ! WRITE (35,103) pctsrf(i,is_oce) ! WRITE (45,103) pctsrf(i,is_sic) ! WRITE (65,103) pctsrf(i,is_ter) ! WRITE (85,103) pctsrf(i,is_lic) ! ENDDO CLOSE(35) CLOSE(45) CLOSE(65) CLOSE(85) 103 FORMAT (f6.2) ENDIF ! mpi root !$OMP END MASTER !$OMP BARRIER ENDIF ! debutphy ! stop ! !======================================================================= ! DO itr=1,nbtr DO j=1,klev DO i=1,klon tmp_var(i,j)=tr_seri(i,j,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO j=1,klev DO i=1,klon tr_seri(i,j,itr)=tmp_var(i,j) ENDDO ENDDO ENDDO iscm3=.true. !======================================================================= ! DO k=1, klev DO i=1, klon m_conc(i,k)=pplay(i,k)/t_seri(i,k)/RKBOL*1.e-6 ENDDO ENDDO ! ! IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_avt_coarem') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'avt coarem') ENDDO CALL minmaxsource(source_tr,qmin,qmax,'src: avt coarem') ENDIF IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_inittwrite=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_inittwrite=tia_inittwrite+REAL(ti_inittwrite)/REAL(clock_rate) ENDIF ! ! !======================================================================= ! EMISSIONS OF COARSE AEROSOLS !======================================================================= IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF ! print *,'Number of tracers = ',nbtr print *,'AT BEGINNING OF PHYTRACR_SPL' ! print *,'tr_seri = ',SUM(tr_seri(:,:,3)),MINVAL(tr_seri(:,:,3)), ! . MAXVAL(tr_seri(:,:,3)) #ifdef IOPHYS_DUST do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('sav'//str2,1,'SOURCE','',source_tr(:,itr)) call iophys_ecrit('fav'//str2,1,'SOURCE','',source_tr(:,itr)) enddo do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('TRB'//str2,klev,'SOURCE','',tr_seri(:,:,itr)) enddo #endif CALL coarsemission(pctsrf,pdtphys,t_seri, & pmflxr,pmflxs,prfl,psfl, & rlat,rlon,debutphy, & zu10m,zv10m,wstar,ale_bl,ale_wake, & scale_param_ssacc,scale_param_sscoa, & scale_param_dustacc,scale_param_dustcoa, & scale_param_dustsco, & nbreg_dust, & iregion_dust,dust_ec, & param_wstarBLperregion,param_wstarWAKEperregion, & nbreg_wstardust, & iregion_wstardust, & lmt_sea_salt,qmin,qmax, & flux_sparam_ddfine,flux_sparam_ddcoa, & flux_sparam_ddsco, & flux_sparam_ssfine,flux_sparam_sscoa, & id_prec,id_fine,id_coss,id_codu,id_scdu, & ok_chimeredust, & source_tr,flux_tr) #ifdef IOPHYS_DUST do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('sap'//str2,1,'SOURCE','',source_tr(:,itr)) call iophys_ecrit('fap'//str2,1,'SOURCE','',source_tr(:,itr)) enddo #endif IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_after_coarem') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'after coarem') ENDDO CALL minmaxsource(source_tr,qmin,qmax,'src: after coarem') ENDIF ! ! ! !====================================================================== ! EMISSIONS OF AEROSOL PRECURSORS !====================================================================== ! #ifdef IOPHYS_DUST print *,'INPUT TO PRECUREMISSION' call iophys_ecrit('ftsol',4,'ftsol','',ftsol) call iophys_ecrit('u10m_ec',1,'u10m_ec','',u10m_ec) call iophys_ecrit('v10m_ec',1,'v10m_ec','',v10m_ec) call iophys_ecrit('pctsrf',4,'pctsrf','',pctsrf) call iophys_ecrit('u_seri',klev,'u_seri','',u_seri) call iophys_ecrit('v_seri',klev,'v_seri','',v_seri) call iophys_ecrit('paprs',klev,'paprs','',paprs) call iophys_ecrit('pplay',klev,'pplay','',pplay) call iophys_ecrit('cdragh',1,'cdragh','',cdragh) call iophys_ecrit('cdragm',1,'cdragm','',cdragm) call iophys_ecrit('t_seri',klev,'t_seri','',t_seri) call iophys_ecrit('q_seri',klev,'q_seri','',q_seri) call iophys_ecrit('tsol',1,'tsol','',tsol) print*,'fracso2emis,frach2sofso2,bateau',fracso2emis,frach2sofso2,bateau print*,'kminbc,kmaxbc,pdtphys',kminbc,kmaxbc,pdtphys print*,'scale_param_bb,scale_param_ind',scale_param_bb,scale_param_ind print*,'iregion_ind,iregion_bb,nbreg_ind, nbreg_bb',iregion_ind,iregion_bb,nbreg_ind, nbreg_bb print*,'id_prec,id_fine',id_prec,id_fine call iophys_ecrit('zdz',klev,'zdz','',zdz) call iophys_ecrit('zalt',klev,'zalt','',zalt) call iophys_ecrit('lmt_so2ff_l',1,'lmt_so2ff_l','',lmt_so2ff_l) call iophys_ecrit('lmt_so2ff_h',1,'lmt_so2ff_h','',lmt_so2ff_h) call iophys_ecrit('lmt_so2nff',1,'lmt_so2nff','',lmt_so2nff) call iophys_ecrit('lmt_so2ba',1,'lmt_so2ba','',lmt_so2ba) call iophys_ecrit('lmt_so2bb_l',1,'lmt_so2bb_l','',lmt_so2bb_l) call iophys_ecrit('lmt_so2bb_h',1,'lmt_so2bb_h','',lmt_so2bb_h) call iophys_ecrit('lmt_so2volc_cont',1,'lmt_so2volc_cont','',lmt_so2volc_cont) call iophys_ecrit('lmt_altvolc_cont',1,'lmt_altvolc_cont','',lmt_altvolc_cont) call iophys_ecrit('lmt_so2volc_expl',1,'lmt_so2volc_expl','',lmt_so2volc_expl) call iophys_ecrit('lmt_altvolc_expl',1,'lmt_altvolc_expl','',lmt_altvolc_expl) call iophys_ecrit('lmt_dmsbio',1,'lmt_dmsbio','',lmt_dmsbio) call iophys_ecrit('lmt_h2sbio',1,'lmt_h2sbio','',lmt_h2sbio) call iophys_ecrit('lmt_dmsconc',1,'lmt_dmsconc','',lmt_dmsconc) call iophys_ecrit('lmt_dms',1,'lmt_dms','',lmt_dms) call iophys_ecrit('flux_sparam_ind',1,'flux_sparam_ind','',flux_sparam_ind) call iophys_ecrit('flux_sparam_bb',1,'flux_sparam_bb','',flux_sparam_bb) #endif print*,'ON PASSE DANS precuremission' CALL precuremission(ftsol,u10m_ec,v10m_ec,pctsrf, & u_seri,v_seri,paprs,pplay,cdragh,cdragm, & t_seri,q_seri,tsol,fracso2emis,frach2sofso2, & bateau,zdz,zalt,kminbc,kmaxbc,pdtphys, & scale_param_bb,scale_param_ind, & iregion_ind, iregion_bb, & nbreg_ind, nbreg_bb, & lmt_so2ff_l,lmt_so2ff_h, lmt_so2nff,lmt_so2ba, & lmt_so2bb_l,lmt_so2bb_h, & lmt_so2volc_cont,lmt_altvolc_cont, & lmt_so2volc_expl,lmt_altvolc_expl, & lmt_dmsbio,lmt_h2sbio, lmt_dmsconc, lmt_dms, & id_prec,id_fine, & flux_sparam_ind, flux_sparam_bb, & source_tr,flux_tr,tr_seri) ! IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_after precur') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'after precur') ENDDO CALL minmaxsource(source_tr,qmin,qmax,'src: after precur') ENDIF !======================================================================= ! EMISSIONS OF FINE AEROSOLS !======================================================================= #ifdef IOPHYS_DUST ! do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('tpr'//str2,1,'SOURCE','',source_tr(:,itr)) call iophys_ecrit('fpr'//str2,1,'SOURCE','',flux_tr(:,itr)) enddo #endif CALL finemission(zdz,pdtphys,zalt,kminbc,kmaxbc, & scale_param_bb,scale_param_ff, & iregion_ind,iregion_bb, & nbreg_ind,nbreg_bb, & lmt_bcff, lmt_bcnff, lmt_bcbb_l,lmt_bcbb_h, & lmt_bcba, lmt_omff, lmt_omnff, & lmt_ombb_l, lmt_ombb_h, lmt_omnat, lmt_omba, & id_fine, & flux_sparam_bb, flux_sparam_ff, & source_tr,flux_tr,tr_seri) ! ! IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_after_fineem') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'after fineem') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'after fineem') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: after fineem') ENDIF ! IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_emis=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_emis=tia_emis+REAL(ti_emis)/REAL(clock_rate) ENDIF #ifdef IOPHYS_DUST do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('t'//str2,1,'SOURCE','',source_tr(:,itr)) call iophys_ecrit('f'//str2,1,'SOURCE','',flux_tr(:,itr)) enddo #endif ! ! ! !======================================================================= ! DRY DEPOSITION AND BOUNDARY LAYER MIXING !======================================================================= ! ! DO itr=1,nbtr ! CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, ! . pplay,t_seri,iscm3,'') ! ENDDO !====================================================================== ! -- Dry deposition -- !====================================================================== IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF DO itr=1,nbtr DO j=1,klev DO i=1,klon tmp_var(i,j)=tr_seri(i,j,itr) ENDDO ENDDO CALL cm3_to_kg(pplay,t_seri,tmp_var) DO j=1,klev DO i=1,klon tr_seri(i,j,itr)=tmp_var(i,j) ENDDO ENDDO ENDDO iscm3=.false. !---------------------------- IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_before_depo') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'before depo') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'before depo') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: before depo') ENDIF #ifdef IOPHYS_DUST do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('TRC'//str2,klev,'SOURCE','',tr_seri(:,:,itr)) enddo #endif CALL deposition(vdep_oce,vdep_sic,vdep_ter,vdep_lic,pctsrf, & zrho,zdz,pdtphys,RHcl,masse,t_seri,pplay,paprs, & lminmax,qmin,qmax, & his_ds,source_tr,tr_seri) ! IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_after_depo') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'after depo') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'after depo') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: after depo') ENDIF IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_depo=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_depo=tia_depo+REAL(ti_depo)/REAL(clock_rate) ENDIF ! !====================================================================== ! -- Boundary layer mixing -- !====================================================================== #ifdef IOPHYS_DUST do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('TRD'//str2,klev,'SOURCE','',tr_seri(:,:,itr)) enddo #endif IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF ! DO k = 1, klev DO i = 1, klon delp(i,k) = paprs(i,k)-paprs(i,k+1) END DO END DO ! DO itr=1,nbtr DO j=1, klev DO i=1, klon tmp_var(i,j)=tr_seri(i,j,itr) aux_var2(i)=source_tr(i,itr) ENDDO ENDDO IF (iflag_conv==2) THEN ! Tiedke CALL cltrac_spl(pdtphys,coefh,yu1,yv1,t_seri,tmp_var, & aux_var2,paprs,pplay,aux_var3) ELSE IF (iflag_conv>=3) THEN !KE CALL cltrac(pdtphys, coefh,t_seri,tmp_var,aux_var2,paprs,pplay, & delp,aux_var3,d_tr_dry,flux_tr_dry(:,itr)) ENDIF DO i=1, klon DO j=1, klev tr_seri(i,j,itr)=tmp_var(i,j) d_tr(i,j,itr)=aux_var3(i,j) d_tr_cl(i,j,itr)=d_tr(i,j,itr) ENDDO ENDDO DO k = 1, klev DO i = 1, klon tr_seri(i,k,itr) = tr_seri(i,k,itr) + d_tr(i,k,itr) ENDDO ENDDO print *,' AFTER Cltrac' IF (lminmax) THEN CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'after cltrac') ENDIF ENDDO !--end itr loop IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_cltr=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_cltr=tia_cltr+REAL(ti_cltr)/REAL(clock_rate) ENDIF !====================================================================== ! -- Calcul de l'effet des thermiques for KE-- !====================================================================== #ifdef IOPHYS_DUST print*,'iflag_conv=',iflag_conv call iophys_ecrit('coefh',klev,'coefh','',coefh) call iophys_ecrit('yu1',1,'yu1','',yu1) call iophys_ecrit('yv1',1,'yv1','',yv1) call iophys_ecrit('delp',klev,'delp','',delp) do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('TRE'//str2,klev,'SOURCE','',tr_seri(:,:,itr)) enddo #endif IF (iflag_conv>=3) THEN IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_before therm') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'before therm') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'before therm') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'before therm') ENDIF DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var3(i,k,itr)=tr_seri(i,k,itr) d_tr_th(i,k,itr)=0. tr_seri(i,k,itr)=MAX(tr_seri(i,k,itr),0.) !JE: precursor >>1e10 tr_seri(i,k,itr)=MIN(tr_seri(i,k,itr),1.e10) END DO END DO END DO !JE new implicit scheme 20140323 DO itr=1,nbtr CALL thermcell_dq(klon,klev,1,pdtphys,fm_therm,entr_therm, & zmasse,tr_seri(1:klon,1:klev,itr), & d_tr(1:klon,1:klev,itr),ztra_th,0 ) DO k=1,klev DO i=1,klon d_tr(i,k,itr)=pdtphys*d_tr(i,k,itr) d_tr_th(i,k,itr)=d_tr_th(i,k,itr)+d_tr(i,k,itr) tr_seri(i,k,itr)=MAX(tr_seri(i,k,itr)+d_tr(i,k,itr),0.) END DO END DO ENDDO ! old scheme explicit ! nsplit=10 ! DO itr=1,nbtr ! DO isplit=1,nsplit ! CALL dqthermcell(klon,klev,pdtphys/nsplit, ! . fm_therm,entr_therm,zmasse, ! . tr_seri(1:klon,1:klev,itr), ! . d_tr(1:klon,1:klev,itr),ztra_th) ! DO k=1,klev ! DO i=1,klon ! d_tr(i,k,itr)=pdtphys*d_tr(i,k,itr)/nsplit ! d_tr_th(i,k,itr)=d_tr_th(i,k,itr)+d_tr(i,k,itr) ! tr_seri(i,k,itr)=MAX(tr_seri(i,k,itr)+d_tr(i,k,itr),0.) ! END DO ! END DO ! END DO ! nsplit1 ! END DO ! it !JE end modif 20140323 DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=tr_seri(i,k,itr)-tmp_var3(i,k,itr) ENDDO ENDDO IF (lminmax) THEN IF (lcheckmass) THEN CALL checkmass(tmp_var(:,:),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'dtr therm ') ENDIF ENDIF CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon his_th(i,itr)=his_th(i,itr)+ & (tmp_var(i,k))/RNAVO* & masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys END DO !klon END DO !klev END DO !it IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_after therm') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'after therm') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'after therm') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'after therm') ENDIF IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_ther=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_ther=tia_ther+REAL(ti_ther)/REAL(clock_rate) ENDIF ENDIF ! iflag_conv KE !------------------------------------ ! Sedimentation !----------------------------------- IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF DO itr=1,nbtr DO j=1,klev DO i=1,klon tmp_var(i,j)=tr_seri(i,j,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO j=1,klev DO i=1,klon tr_seri(i,j,itr)=tmp_var(i,j) ENDDO ENDDO ENDDO !--end itr loop iscm3=.true. !-------------------------------------- print *,' BEFORE Sediment' IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_before_sedi') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'before sedi') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'before sedi') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: before sedi') ENDIF print *,'SPLA VERSION OF SEDIMENTATION IS USED' CALL sediment_mod(t_seri,pplay,zrho,paprs,pdtphys,RHcl, & id_coss,id_codu,id_scdu, & ok_chimeredust, & sed_ss,sed_dust,sed_dustsco, & sed_ss3D,sed_dust3D,sed_dustsco3D,tr_seri) CALL cm3_to_kg(pplay,t_seri,sed_ss3D) CALL cm3_to_kg(pplay,t_seri,sed_dust3D) CALL cm3_to_kg(pplay,t_seri,sed_dustsco3D) IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_after_sedi') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'after sedi') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'after sedi') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: after sedi') ENDIF ! !======================================================================= #ifdef IOPHYS_DUST do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('TRF'//str2,klev,'SOURCE','',tr_seri(:,:,itr)) enddo #endif ! IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_sedi=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_sedi=tia_sedi+REAL(ti_sedi)/REAL(clock_rate) ENDIF DO itr=1,nbtr DO j=1,klev DO i=1,klon tmp_var(i,j)=tr_seri(i,j,itr) ENDDO ENDDO CALL cm3_to_kg(pplay,t_seri,tmp_var) DO j=1,klev DO i=1,klon tr_seri(i,j,itr)=tmp_var(i,j) ENDDO ENDDO ENDDO iscm3=.false. ! ! !====================================================================== ! GAS TO PARTICLE CONVERSION !====================================================================== ! IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_beforegastopar') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'before gastopar') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'before gastopar') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: before gastopar') ENDIF CALL gastoparticle(pdtphys,zdz,zrho,rlat, & pplay,t_seri,id_prec,id_fine, & tr_seri,his_g2pgas ,his_g2paer) ! IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_after_gastopar') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'after gastopar') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'after gastopar') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: after gastopar') ENDIF IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_gasp=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_gasp=tia_gasp+REAL(ti_gasp)/REAL(clock_rate) ENDIF ! !====================================================================== ! EFFECT OF PRECIPITATION: iflag_conv=2 !====================================================================== ! #ifdef IOPHYS_DUST do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('TRG'//str2,klev,'SOURCE','',tr_seri(:,:,itr)) enddo #endif IF (iflag_conv==2) THEN IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF DO itr=1,nbtr DO j=1,klev DO i=1,klon tmp_var(i,j)=tr_seri(i,j,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO j=1,klev DO i=1,klon tr_seri(i,j,itr)=tmp_var(i,j) ENDDO ENDDO ENDDO iscm3=.true. !------------------------------ print *,'iflag_conv bef lessiv',iflag_conv IF (lessivage) THEN ! print *,' BEFORE Incloud' IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_before_incloud') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'before incloud') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'before incloud') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: before incloud') ENDIF ! CALL incloud_scav(lminmax,qmin,qmax,masse,henry,kk,prfl, ! . psfl,pmflxr,pmflxs,zrho,zdz,t_seri,pdtphys, ! . his_dhlsc,his_dhcon,tr_seri) print *,'iflag_conv bef incloud',iflag_conv IF (iflag_conv==2) THEN ! Tiedke CALL incloud_scav(.false.,qmin,qmax,masse,henry,kk,prfl, & psfl,pmflxr,pmflxs,zrho,zdz,t_seri,pdtphys, & his_dhlsc,his_dhcon,tr_seri) !---------- to use this option please comment lsc_scav at the end ! ELSE IF (iflag_conv.GE.3) THEN ! ! CALL incloud_scav_lsc(.false.,qmin,qmax,masse,henry,kk,prfl, ! . psfl,pmflxr,pmflxs,zrho,zdz,t_seri,pdtphys, ! . his_dhlsc,his_dhcon,tr_seri) !-------------------------------------------------------------- ENDIF ! ! print *,' BEFORE blcloud (after incloud)' IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_before_blcloud') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'before blcloud') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'before blcloud') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: before blcloud') ENDIF ! CALL blcloud_scav(lminmax,qmin,qmax,pdtphys,prfl,psfl, ! . pmflxr,pmflxs,zdz,alpha_r,alpha_s,masse, ! . his_dhbclsc,his_dhbccon,tr_seri) IF (iflag_conv==2) THEN ! Tiedke CALL blcloud_scav(.false.,qmin,qmax,pdtphys,prfl,psfl, & pmflxr,pmflxs,zdz,alpha_r,alpha_s,masse, & his_dhbclsc,his_dhbccon,tr_seri) !---------- to use this option please comment lsc_scav at the end ! and comment IF iflag=2 after "EFFECT OF PRECIPITATION:" ! ! ! ELSE IF (iflag_conv.GE.3) THEN ! ! CALL blcloud_scav_lsc(.false.,qmin,qmax,pdtphys,prfl,psfl, ! . pmflxr,pmflxs,zdz,alpha_r,alpha_s,masse, ! . his_dhbclsc,his_dhbccon,tr_seri) ! !---------------------------------------------------------------------- ENDIF print *,' AFTER blcloud ' IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_after_blcloud') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'after blcloud') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'after blcloud') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: after blcloud') ENDIF ENDIF !--lessivage DO itr=1,nbtr DO j=1,klev DO i=1,klon tmp_var(i,j)=tr_seri(i,j,itr) ENDDO ENDDO CALL cm3_to_kg(pplay,t_seri,tmp_var) DO j=1,klev DO i=1,klon tr_seri(i,j,itr)=tmp_var(i,j) ENDDO ENDDO ENDDO iscm3=.false. ! IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_wetap=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_wetap=tia_wetap+REAL(ti_wetap)/REAL(clock_rate) ENDIF ENDIF ! iflag_conv=2 ! ! !====================================================================== ! EFFECT OF CONVECTION !====================================================================== ! #ifdef IOPHYS_DUST do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('TRH'//str2,klev,'SOURCE','',tr_seri(:,:,itr)) enddo #endif IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF IF (convection) THEN ! print *,' BEFORE trconvect' IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_before_trconve') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'before trconve') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'before trconve') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: before trconve') ENDIF ! JE CALL trconvect(pplay,t_seri,pdtphys,pmfu,pmfd,pen_u,pde_u, ! . pen_d,pde_d,paprs,zdz,xconv,qmin,qmax,lminmax,masse, ! . dtrconv,tr_seri) ! ------------------------------------------------------------- IF (iflag_conv==2) THEN ! Tiedke CALL trconvect(pplay,t_seri,pdtphys,pmfu,pmfd,pen_u,pde_u, & pen_d,pde_d,paprs,zdz,xconv,qmin,qmax,.false.,masse, & dtrconv,tr_seri) DO itr=1,nbtr d_tr_cv(:,:,itr)=0. ENDDO ELSE IF (iflag_conv>=3) THEN ! KE print *,'JE: KE in phytracr_spl' DO itr=1,nbtr DO k = 1, klev DO i = 1, klon tmp_var3(i,k,itr)=tr_seri(i,k,itr) END DO END DO ENDDO DO itr=1,nbtr ! routine for aerosols . otherwise, check cvltrorig print *,'Check sum before cvltr itr)',itr,SUM(tr_seri(:,:,itr)) ! IF (.FALSE.) THEN CALL cvltr_spl(pdtphys, da, phi,phi2,d1a,dam, mp,ep, & sigd,sij,wght_cvfd,clw,elij,epmlmMm,eplaMm, & pmflxr,pmflxs,evapls,t_seri,wdtrainA,wdtrainM, & ! paprs,itr,tr_seri,upwd,dnwd,itop_con,ibas_con, & paprs,itr,tmp_var3,upwd,dnwd,itop_con,ibas_con, & henry,kk,zrho,ccntrAA_spla,ccntrENV_spla,coefcoli_spla, & id_prec,id_fine,id_coss, id_codu, id_scdu, & d_tr_cv,d_tr_trsp,d_tr_sscav,d_tr_sat,d_tr_uscav,qDi,qPr, & qPa,qMel,qTrdi,dtrcvMA,Mint, & zmfd1a,zmfphi2,zmfdam) ! ENDIF ! ! IF (.FALSE.) THEN ! CALL cvltr(pdtphys, da, phi,phi2,d1a,dam, mp,ep, ! . sigd,sij,wght_cvfd,clw,elij,epmlmMm,eplaMm, ! . pmflxr,pmflxs,evapls,t_seri,wdtrainA,wdtrainM, ! . paprs,itr,tmp_var3,upwd,dnwd,itop_con,ibas_con, ! . d_tr_cv,d_tr_trsp,d_tr_sscav,d_tr_sat,d_tr_uscav,qDi,qPr, ! . qPa,qMel,qTrdi,dtrcvMA,Mint, ! . zmfd1a,zmfphi2,zmfdam) !! pas lessivage convectif pou n'est pas un aerosol (i/else with cvltr) ! ENDIF !!!!!!! CALL cvltrorig(it,pdtphys, da, phi,mp,paprs,pplay,tr_seri, !!! CALL cvltrorig(it,pdtphys, da, phi,mp,paprs,pplay,tmp_var3, !!! . upwd,dnwd,d_tr_cv) ! print *,'justbefore cvltrnoscav it= ',it ! CALL checknanqfi(da(:,:),1.,-1.,' da') ! CALL checknanqfi(wght_cvfd(:,:),1.,-1.,'weigth ') ! CALL checknanqfi(mp(:,:),1.,-1.,'mp ') ! CALL checknanqfi(paprs(:,:),1.,-1.,'paprs ') ! CALL checknanqfi(pplay(:,:),1.,-1.,'pplay ') ! CALL checknanqfi(tmp_var3(:,:,itr),1.,-1.,'tmp_var3 ') ! CALL checknanqfi(upwd(:,:),1.,-1.,'upwd ') ! CALL checknanqfi(dnwd(:,:),1.,-1.,'dnwd ') ! CALL checknanqfi(d_tr_cv(:,:,itr),1.,-1.,'d_tr_cv ') ! IF (.TRUE.) THEN ! CALL cvltr_noscav(it,pdtphys, da, phi,mp,wght_cvfd,paprs, ! . pplay,tmp_var3,upwd,dnwd,d_tr_cv) ! ENDIF DO k = 1, klev DO i = 1, klon ! tr_seri(i,k,itr) = tr_seri(i,k,itr) + d_tr_cv(i,k,itr) tr_seri(i,k,itr)=(tmp_var3(i,k,itr)+d_tr_cv(i,k,itr)) tmp_var(i,k)=d_tr_cv(i,k,itr) END DO END DO CALL kg_to_cm3(pplay,t_seri,tmp_var) !just for his_* computation DO k = 1, klev DO i = 1, klon dtrconv(i,itr)=0.0 his_dhkecv(i,itr)=his_dhkecv(i,itr)-tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys END DO END DO !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! CALL kg_to_cm3(pplay,t_seri,tmp_var) !just for his_* computation DO k = 1, klev DO i = 1, klon dtrconv(i,itr)=0.0 his_ds(i,itr)=his_ds(i,itr)-tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys END DO END DO !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! IF (lminmax) THEN print *,'Check sum after cvltr itr)',itr,SUM(tr_seri(:,:,itr)) CALL minmaxqfi2(d_tr_cv(:,:,itr),qmin,qmax,'d_tr_cv:') CALL minmaxqfi2(d_tr_trsp(:,:,itr),qmin,qmax,'d_tr_trsp:') CALL minmaxqfi2(d_tr_sscav(:,:,itr),qmin,qmax,'d_tr_sscav:') CALL minmaxqfi2(d_tr_sat(:,:,itr),qmin,qmax,'d_tr_sat:') CALL minmaxqfi2(d_tr_uscav(:,:,itr),qmin,qmax,'d_tr_uscav:') IF (lcheckmass) THEN CALL checkmass(d_tr_cv(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,.false.,'d_tr_cv:') ENDIF ENDIF ENDDO ! it=1,nbtr ENDIF ! iflag_conv IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_after_trcon') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'after trconv') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'after trconv') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: after trconv') ENDIF ENDIF ! convection IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_cvltr=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_cvltr=tia_cvltr+REAL(ti_cvltr)/REAL(clock_rate) ENDIF ! ! !======================================================================= ! LARGE SCALE SCAVENGING KE !======================================================================= ! #ifdef IOPHYS_DUST call iophys_ecrit('da',klev,'da','',da) call iophys_ecrit('phi',klev,'phi','',phi) call iophys_ecrit('phi2',klev,'phi2','',phi2) call iophys_ecrit('d1a',klev,'d1a','',d1a) call iophys_ecrit('dam',klev,'dam','',dam) call iophys_ecrit('mp',klev,'mp','',mp) call iophys_ecrit('ep',klev,'ep','',ep) call iophys_ecrit('sigd',klev,'sigd','',sigd) call iophys_ecrit('sij',klev,'sij','',sij) call iophys_ecrit('wght_cvfd',klev,'wght_cvfd','',wght_cvfd) call iophys_ecrit('clw',klev,'clw','',clw) call iophys_ecrit('elij',klev,'elij','',elij) call iophys_ecrit('epmlmMm',klev,'epmlmMm','',epmlmMm) call iophys_ecrit('eplaMm',klev,'eplaMm','',eplaMm) call iophys_ecrit('pmflxr',klev,'pmflxr','',pmflxr) call iophys_ecrit('pmflxs',klev,'pmflxs','',pmflxs) call iophys_ecrit('evapls',klev,'evapls','',evapls) call iophys_ecrit('wdtrainA',klev,'wdtrainA','',wdtrainA) call iophys_ecrit('wdtrainM',klev,'wdtrainM','',wdtrainM) do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('TRI'//str2,klev,'SOURCE','',tr_seri(:,:,itr)) enddo #endif IF (iflag_conv>=3) THEN IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF IF (lessivage) THEN print *,' BEFORE lsc_scav ' IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_before_lsc_scav') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'before lsc_scav') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'before lsc_scav') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: before lsc_scav') ENDIF ql_incloud_ref = 10.e-4 ql_incloud_ref = 5.e-4 ! calcul du contenu en eau liquide au sein du nuage ql_incl = ql_incloud_ref ! choix du lessivage IF (iflag_lscav == 3 .OR. iflag_lscav == 4) THEN !IF (.false.) THEN ! test #DFB (Binta) sans lsc_scav_spl print *,'JE iflag_lscav',iflag_lscav DO itr=1,nbtr ! incloud scavenging and removal by large scale rain ! orig : ql_incl ! was replaced by 0.5e-3 kg/kg ! the value 0.5e-3 kg/kg is from Giorgi and Chameides (1986), JGR ! Liu (2001) proposed to use 1.5e-3 kg/kg ! CALL lsc_scav_orig(pdtphys,itr,iflag_lscav,ql_incl,prfl,psfl, ! . rneb,beta_fisrt, beta_v1,pplay,paprs, ! . t_seri,tr_seri,d_tr_insc, ! . d_tr_bcscav,d_tr_evapls,qPrls) CALL lsc_scav_spl(pdtphys,itr,iflag_lscav,ql_incl,prfl,psfl, & rneb,beta_fisrt, beta_v1,pplay,paprs, & t_seri,tr_seri,d_tr_insc, & alpha_r,alpha_s,kk, henry, & id_prec,id_fine,id_coss, id_codu, id_scdu, & d_tr_bcscav,d_tr_evapls,qPrls) !large scale scavenging tendency DO k = 1, klev DO i = 1, klon d_tr_ls(i,k,itr)=d_tr_insc(i,k,itr)+d_tr_bcscav(i,k,itr) & +d_tr_evapls(i,k,itr) tr_seri(i,k,itr)=tr_seri(i,k,itr)+d_tr_ls(i,k,itr) tmp_var(i,k)=d_tr_ls(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon his_dhkelsc(i,itr)=his_dhkelsc(i,itr)-tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys END DO END DO END DO !it=1,nbtr ELSE print *,'WARNING: NO lsc_scav, Please choose iflag_lscav=3 or 4' DO itr=1,nbtr DO i=1,klon his_dhkelsc(i,itr)=0.0 END DO ! klon END DO !it=1,nbtr ENDIF !iflag_lscav print *,' AFTER lsc_scav ' IF (lminmax) THEN DO itr=1,nbtr CALL checknanqfi(tr_seri(:,:,itr),qmin,qmax,'nan_after_lsc_scav') ENDDO DO itr=1,nbtr CALL minmaxqfi2(tr_seri(:,:,itr),qmin,qmax,'after lsc_scav') ENDDO IF (lcheckmass) THEN DO itr=1,nbtr CALL checkmass(tr_seri(:,:,itr),RNAVO,masse(itr),zdz, & pplay,t_seri,iscm3,'after lsc_scav') ENDDO ENDIF CALL minmaxsource(source_tr,qmin,qmax,'src: after lsc_scav') ENDIF ENDIF ! lessivage IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_lscs=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_lscs=tia_lscs+REAL(ti_lscs)/REAL(clock_rate) ENDIF ENDIF !iflag_conv !======================================================================= ! COMPUTING THE BURDEN !======================================================================= #ifdef IOPHYS_DUST do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('TRJ'//str2,klev,'SOURCE','',tr_seri(:,:,itr)) enddo #endif ! IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF DO itr=1,nbtr DO j=1,klev DO i=1,klon tmp_var(i,j)=tr_seri(i,j,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO j=1,klev DO i=1,klon tr_seri(i,j,itr)=tmp_var(i,j) ENDDO ENDDO ENDDO iscm3=.true. ! ! Computing burden in mg/m2 DO itr=1,nbtr DO k=1, klev DO i=1, klon trm(i,itr)=trm(i,itr)+tr_seri(i,k,itr)*1.e6*zdz(i,k)* & masse(itr)*1.e3/RNAVO !--mg S/m2 ENDDO ENDDO ENDDO ! ! Computing Surface concentration in ug/m3 ! DO itr=1,nbtr DO i=1, klon sconc_seri(i,itr)=tr_seri(i,1,itr)*1.e6* & masse(itr)*1.e3/RNAVO !--mg/m3 (tr_seri ist in g/cm3) ENDDO ENDDO ! !======================================================================= ! CALCULATION OF OPTICAL PROPERTIES !======================================================================= ! CALL aeropt_spl(zdz, tr_seri, RHcl, & id_prec, id_fine, id_coss, id_codu, id_scdu, & ok_chimeredust, & diff_aod550_tot, diag_aod670_tot, diag_aod865_tot, & diff_aod550_tr2, diag_aod670_tr2, diag_aod865_tr2, & diag_aod550_ss, diag_aod670_ss, diag_aod865_ss, & diag_aod550_dust,diag_aod670_dust,diag_aod865_dust, & diag_aod550_dustsco,diag_aod670_dustsco,diag_aod865_dustsco) IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_brop=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_brop=tia_brop+REAL(ti_brop)/REAL(clock_rate) ENDIF !======================================================================= ! MODIS terra/aqua simulation output !======================================================================= masque_aqua_cur(:)=0 masque_terra_cur(:)=0 CALL satellite_out_spla(jD_cur,jH_cur,pdtphys,rlat,rlon, & masque_aqua_cur, masque_terra_cur ) IF (jH_cur-pdtphys/86400. < 0.) THEN !new utc day: put in 0 everything !JE20150518<< masque_aqua(:) =0 masque_terra(:) =0 aod550_terra(:)=0. aod550_tr2_terra(:)=0. aod550_ss_terra(:)=0. aod550_dust_terra(:)=0. aod550_dustsco_terra(:)=0. aod670_terra(:)=0. aod670_tr2_terra(:)=0. aod670_ss_terra(:)=0. aod670_dust_terra(:)=0. aod670_dustsco_terra(:)=0. aod865_terra(:)=0. aod865_tr2_terra(:)=0. aod865_ss_terra(:)=0. aod865_dust_terra(:)=0. aod865_dustsco_terra(:)=0. aod550_aqua(:)=0. aod550_tr2_aqua(:)=0. aod550_ss_aqua(:)=0. aod550_dust_aqua(:)=0. aod550_dustsco_aqua(:)=0. aod670_aqua(:)=0. aod670_tr2_aqua(:)=0. aod670_ss_aqua(:)=0. aod670_dust_aqua(:)=0. aod670_dustsco_aqua(:)=0. aod865_aqua(:)=0. aod865_tr2_aqua(:)=0. aod865_ss_aqua(:)=0. aod865_dust_aqua(:)=0. aod865_dustsco_aqua(:)=0. !JE20150518>> ENDIF DO i=1,klon aod550_terra(i)=aod550_terra(i)+ & masque_terra_cur(i)*diff_aod550_tot(i) aod550_tr2_terra(i)= aod550_tr2_terra(i)+ & masque_terra_cur(i)*diff_aod550_tr2(i) aod550_ss_terra(i)=aod550_ss_terra(i) + & masque_terra_cur(i)*diag_aod550_ss(i) aod550_dust_terra(i)= aod550_dust_terra(i) + & masque_terra_cur(i)*diag_aod550_dust(i) aod550_dustsco_terra(i)= aod550_dustsco_terra(i) + & masque_terra_cur(i)*diag_aod550_dustsco(i) aod670_terra(i)=aod670_terra(i)+ & masque_terra_cur(i)*diag_aod670_tot(i) aod670_tr2_terra(i)= aod670_tr2_terra(i)+ & masque_terra_cur(i)*diag_aod670_tr2(i) aod670_ss_terra(i)=aod670_ss_terra(i) + & masque_terra_cur(i)*diag_aod670_ss(i) aod670_dust_terra(i)= aod670_dust_terra(i) + & masque_terra_cur(i)*diag_aod670_dust(i) aod670_dustsco_terra(i)= aod670_dustsco_terra(i) + & masque_terra_cur(i)*diag_aod670_dustsco(i) aod865_terra(i)=aod865_terra(i)+ & masque_terra_cur(i)*diag_aod865_tot(i) aod865_tr2_terra(i)= aod865_tr2_terra(i)+ & masque_terra_cur(i)*diag_aod865_tr2(i) aod865_ss_terra(i)=aod865_ss_terra(i) + & masque_terra_cur(i)*diag_aod865_ss(i) aod865_dust_terra(i)= aod865_dust_terra(i) + & masque_terra_cur(i)*diag_aod865_dust(i) aod865_dustsco_terra(i)= aod865_dustsco_terra(i) + & masque_terra_cur(i)*diag_aod865_dustsco(i) aod550_aqua(i)=aod550_aqua(i)+ & masque_aqua_cur(i)*diff_aod550_tot(i) aod550_tr2_aqua(i)= aod550_tr2_aqua(i)+ & masque_aqua_cur(i)*diff_aod550_tr2(i) aod550_ss_aqua(i)=aod550_ss_aqua(i) + & masque_aqua_cur(i)*diag_aod550_ss(i) aod550_dust_aqua(i)= aod550_dust_aqua(i) + & masque_aqua_cur(i)*diag_aod550_dust(i) aod550_dustsco_aqua(i)= aod550_dustsco_aqua(i) + & masque_aqua_cur(i)*diag_aod550_dustsco(i) aod670_aqua(i)=aod670_aqua(i)+ & masque_aqua_cur(i)*diag_aod670_tot(i) aod670_tr2_aqua(i)= aod670_tr2_aqua(i)+ & masque_aqua_cur(i)*diag_aod670_tr2(i) aod670_ss_aqua(i)=aod670_ss_aqua(i) + & masque_aqua_cur(i)*diag_aod670_ss(i) aod670_dust_aqua(i)= aod670_dust_aqua(i) + & masque_aqua_cur(i)*diag_aod670_dust(i) aod670_dustsco_aqua(i)= aod670_dustsco_aqua(i) + & masque_aqua_cur(i)*diag_aod670_dustsco(i) aod865_aqua(i)=aod865_aqua(i)+ & masque_aqua_cur(i)*diag_aod865_tot(i) aod865_tr2_aqua(i)= aod865_tr2_aqua(i)+ & masque_aqua_cur(i)*diag_aod865_tr2(i) aod865_ss_aqua(i)=aod865_ss_aqua(i) + & masque_aqua_cur(i)*diag_aod865_ss(i) aod865_dust_aqua(i)= aod865_dust_aqua(i) + & masque_aqua_cur(i)*diag_aod865_dust(i) aod865_dustsco_aqua(i)= aod865_dustsco_aqua(i) + & masque_aqua_cur(i)*diag_aod865_dustsco(i) masque_aqua(i)=masque_aqua(i)+masque_aqua_cur(i) masque_terra(i)=masque_terra(i)+masque_terra_cur(i) ENDDO IF (jH_cur+pdtphys/86400. >= 1.) THEN ! print *,'last step of the day' DO i=1,klon IF (masque_aqua(i)> 0) THEN aod550_aqua(i)=aod550_aqua(i)/masque_aqua(i) aod670_aqua(i)=aod670_aqua(i)/masque_aqua(i) aod865_aqua(i)=aod865_aqua(i)/masque_aqua(i) aod550_tr2_aqua(i)=aod550_tr2_aqua(i)/masque_aqua(i) aod670_tr2_aqua(i)=aod670_tr2_aqua(i)/masque_aqua(i) aod865_tr2_aqua(i)=aod865_tr2_aqua(i)/masque_aqua(i) aod550_ss_aqua(i)=aod550_ss_aqua(i)/masque_aqua(i) aod670_ss_aqua(i)=aod670_ss_aqua(i)/masque_aqua(i) aod865_ss_aqua(i)=aod865_ss_aqua(i)/masque_aqua(i) aod550_dust_aqua(i)=aod550_dust_aqua(i)/masque_aqua(i) aod670_dust_aqua(i)=aod670_dust_aqua(i)/masque_aqua(i) aod865_dust_aqua(i)=aod865_dust_aqua(i)/masque_aqua(i) aod550_dustsco_aqua(i)=aod550_dustsco_aqua(i)/masque_aqua(i) aod670_dustsco_aqua(i)=aod670_dustsco_aqua(i)/masque_aqua(i) aod865_dustsco_aqua(i)=aod865_dustsco_aqua(i)/masque_aqua(i) ELSE aod550_aqua(i) = -999. aod670_aqua(i) = -999. aod865_aqua(i) = -999. aod550_tr2_aqua(i)= -999. aod670_tr2_aqua(i)= -999. aod865_tr2_aqua(i)= -999. aod550_ss_aqua(i)= -999. aod670_ss_aqua(i)= -999. aod865_ss_aqua(i)= -999. aod550_dust_aqua(i)= -999. aod670_dust_aqua(i)= -999. aod865_dust_aqua(i)= -999. aod550_dustsco_aqua(i)= -999. aod670_dustsco_aqua(i)= -999. aod865_dustsco_aqua(i)= -999. ENDIF IF (masque_terra(i)> 0) THEN aod550_terra(i)=aod550_terra(i)/masque_terra(i) aod670_terra(i)=aod670_terra(i)/masque_terra(i) aod865_terra(i)=aod865_terra(i)/masque_terra(i) aod550_tr2_terra(i)=aod550_tr2_terra(i)/masque_terra(i) aod670_tr2_terra(i)=aod670_tr2_terra(i)/masque_terra(i) aod865_tr2_terra(i)=aod865_tr2_terra(i)/masque_terra(i) aod550_ss_terra(i)=aod550_ss_terra(i)/masque_terra(i) aod670_ss_terra(i)=aod670_ss_terra(i)/masque_terra(i) aod865_ss_terra(i)=aod865_ss_terra(i)/masque_terra(i) aod550_dust_terra(i)=aod550_dust_terra(i)/masque_terra(i) aod670_dust_terra(i)=aod670_dust_terra(i)/masque_terra(i) aod865_dust_terra(i)=aod865_dust_terra(i)/masque_terra(i) aod550_dustsco_terra(i)=aod550_dustsco_terra(i)/masque_terra(i) aod670_dustsco_terra(i)=aod670_dustsco_terra(i)/masque_terra(i) aod865_dustsco_terra(i)=aod865_dustsco_terra(i)/masque_terra(i) ELSE aod550_terra(i) = -999. aod670_terra(i) = -999. aod865_terra(i) = -999. aod550_tr2_terra(i)= -999. aod670_tr2_terra(i)= -999. aod865_tr2_terra(i)= -999. aod550_ss_terra(i)= -999. aod670_ss_terra(i)= -999. aod865_ss_terra(i)= -999. aod550_dust_terra(i)= -999. aod670_dust_terra(i)= -999. aod865_dust_terra(i)= -999. aod550_dustsco_terra(i)= -999. aod670_dustsco_terra(i)= -999. aod865_dustsco_terra(i)= -999. ENDIF ENDDO !!AS deleting lines !! IF (ok_histrac) THEN !!!! write in output file !!----many deleted lines !! ENDIF !mpi_root !!!$OMP END MASTER !!!$OMP BARRIER !! ENDIF !--ok_histrac ENDIF ! jH_cur... ! !====================================================================== ! Stockage sur bande histoire !====================================================================== #ifdef IOPHYS_DUST do itr=1,nbtr write(str2,'(i2.2)') itr call iophys_ecrit('TRK'//str2,klev,'SOURCE','',tr_seri(:,:,itr)) enddo #endif ! IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_start) ENDIF DO itr=1,nbtr DO j=1,klev DO i=1,klon tmp_var(i,j)=tr_seri(i,j,itr) ENDDO ENDDO CALL cm3_to_kg(pplay,t_seri,tmp_var) DO j=1,klev DO i=1,klon tr_seri(i,j,itr)=tmp_var(i,j) ENDDO ENDDO ENDDO iscm3=.false. ! ! !====================================================================== ! SAVING AEROSOL RELATED VARIABLES INTO FILE !====================================================================== ! ndex2d = 0 ndex3d = 0 ! itra=itra+1 print *,'SAVING VARIABLES FOR DAY ',itra ! fluxbb(:)=0.0 fluxff(:)=0.0 fluxbcbb(:)=0.0 fluxbcff(:)=0.0 fluxbcnff(:)=0.0 fluxbcba(:)=0.0 fluxbc(:)=0.0 fluxombb(:)=0.0 fluxomff(:)=0.0 fluxomnat(:)=0.0 fluxomba(:)=0.0 fluxomnff(:)=0.0 fluxom(:)=0.0 fluxh2sff(:)=0.0 fluxh2snff(:)=0.0 fluxh2sbio(:)=0.0 fluxso2ff(:)=0.0 fluxso2nff(:)=0.0 fluxso2bb(:)=0.0 fluxso2vol(:)=0.0 fluxso2ba(:)=0.0 fluxso2(:)=0.0 fluxso4ff(:)=0.0 fluxso4nff(:)=0.0 fluxso4bb(:)=0.0 fluxso4ba(:)=0.0 fluxso4(:)=0.0 fluxdms(:)=0.0 fluxdustec(:)=0.0 fluxddfine(:)=0.0 fluxddcoa(:)=0.0 fluxddsco(:)=0.0 fluxdd(:)=0.0 fluxssfine(:)=0.0 fluxsscoa(:)=0.0 fluxss(:)=0.0 DO i=1, klon IF (iregion_ind(i)>0) THEN ! LAND ! SULFUR EMISSIONS fluxh2sff(i)= (lmt_so2ff_l(i)+lmt_so2ff_h(i))*frach2sofso2* & scale_param_ind(iregion_ind(i))* & 1.e4/RNAVO*masse_s*1.e3 ! mgS/m2/s fluxso2ff(i)=scale_param_ind(iregion_ind(i)) * fracso2emis * & (lmt_so2ff_l(i)+lmt_so2ff_h(i)) * 1.e4/RNAVO * & masse_s * 1.e3 ! mgS/m2/s ! SULPHATE EMISSIONS fluxso4ff(i)=scale_param_ind(iregion_ind(i))*(1-fracso2emis)* & (lmt_so2ff_l(i)+lmt_so2ff_h(i)) * 1.e4/RNAVO * & masse_s * 1.e3 ! mgS/m2/s ! BLACK CARBON EMISSIONS fluxbcff(i)=scale_param_ff(iregion_ind(i))* & lmt_bcff(i)*1.e4*1.e3 !/g/m2/s ! ORGANIC MATTER EMISSIONS fluxomff(i)=scale_param_ff(iregion_ind(i))* & (lmt_omff(i))*1.e4*1.e3 !/g/m2/s ! FOSSIL FUEL EMISSIONS fluxff(i)=fluxbcff(i)+fluxomff(i) ENDIF IF (iregion_bb(i)>0) THEN ! LAND ! SULFUR EMISSIONS fluxso2bb(i) =scale_param_bb(iregion_bb(i)) * fracso2emis * & (lmt_so2bb_l(i)+lmt_so2bb_h(i))* & (1.-pctsrf(i,is_oce))*1.e4/RNAVO*masse_s*1.e3 ! mgS/m2/s ! SULPHATE EMISSIONS fluxso4bb(i) =scale_param_bb(iregion_bb(i))*(1-fracso2emis)* & (lmt_so2bb_l(i)+lmt_so2bb_h(i))* & (1.-pctsrf(i,is_oce))*1.e4/RNAVO*masse_s*1.e3 ! mgS/m2/s ! BLACK CARBON EMISSIONS fluxbcbb(i)=scale_param_bb(iregion_bb(i))* & (lmt_bcbb_l(i)+lmt_bcbb_h(i))*1.e4*1.e3 !mg/m2/s ! ORGANIC MATTER EMISSIONS fluxombb(i)=scale_param_bb(iregion_bb(i))* & (lmt_ombb_l(i)+lmt_ombb_h(i))*1.e4*1.e3 !mg/m2/s ! BIOMASS BURNING EMISSIONS fluxbb(i)=fluxbcbb(i)+fluxombb(i) ENDIF ! H2S EMISSIONS fluxh2sbio(i)=lmt_h2sbio(i)*1.e4/RNAVO*masse_s*1.e3 ! mgS/m2/s fluxh2snff(i)= lmt_so2nff(i)*frach2sofso2* & 1.e4/RNAVO*masse_s*1.e3 ! mgS/m2/s ! SULFUR DIOXIDE EMISSIONS fluxso2nff(i)=fracso2emis * lmt_so2nff(i) * 1.e4/RNAVO * & masse_s * 1.e3 ! mgS/m2/s fluxso2vol(i)=(lmt_so2volc_cont(i)+lmt_so2volc_expl(i)) & *1.e4/RNAVO*masse_s*1.e3 ! mgS/m2/s fluxso2ba(i) =lmt_so2ba(i)*1.e4/RNAVO*masse_s*1.e3* & fracso2emis ! mgS/m2/s fluxso2(i)=fluxso2ff(i)+fluxso2bb(i)+fluxso2nff(i)+ & fluxso2vol(i)+fluxso2ba(i) ! DMS EMISSIONS fluxdms(i)=( lmt_dms(i)+lmt_dmsbio(i) ) & *1.e4/RNAVO*masse_s*1.e3 ! mgS/m2/s ! SULPHATE EMISSIONS fluxso4ba(i) =lmt_so2ba(i)*1.e4/RNAVO*masse_s*1.e3 & *(1-fracso2emis) ! mgS/m2/s fluxso4nff(i)=(1-fracso2emis)*lmt_so2nff(i) * 1.e4/RNAVO * & masse_s * 1.e3 ! mgS/m2/s fluxso4(i)=fluxso4ff(i)+fluxso4bb(i)+fluxso4ba(i)+fluxso4nff(i) ! BLACK CARBON EMISSIONS fluxbcnff(i)=lmt_bcnff(i)*1.e4*1.e3 !mg/m2/s fluxbcba(i)=lmt_bcba(i)*1.e4*1.e3 !mg/m2/s fluxbc(i)=fluxbcbb(i)+fluxbcff(i)+fluxbcnff(i)+fluxbcba(i) ! ORGANIC MATTER EMISSIONS fluxomnat(i)=lmt_omnat(i)*1.e4*1.e3 !mg/m2/s fluxomba(i)=lmt_omba(i)*1.e4*1.e3 !mg/m2/s fluxomnff(i)=lmt_omnff(i)*1.e4*1.e3 !mg/m2/s fluxom(i)=fluxombb(i)+fluxomff(i)+fluxomnat(i)+fluxomba(i)+ & fluxomnff(i) ! DUST EMISSIONS fluxdustec(i)=dust_ec(i)*1.e6 ! old dust emission scheme !JE20140605<< old dust emission version ! fluxddfine(i)=scale_param_dustacc(iregion_dust(i)) ! . * dust_ec(i)*0.093*1.e6 ! fluxddcoa(i)=scale_param_dustcoa(iregion_dust(i)) ! . * dust_ec(i)*0.905*1.e6 ! fluxdd(i)=fluxddfine(i)+fluxddcoa(i) !JE20140605>> fluxddfine(i)=flux_sparam_ddfine(i) fluxddcoa(i)=flux_sparam_ddcoa(i) fluxddsco(i)=flux_sparam_ddsco(i) fluxdd(i)=fluxddfine(i)+fluxddcoa(i)+fluxddsco(i) ! SEA SALT EMISSIONS fluxssfine(i)=scale_param_ssacc*lmt_sea_salt(i,1)*1.e4*1.e3 fluxsscoa(i)=scale_param_sscoa*lmt_sea_salt(i,2)*1.e4*1.e3 fluxss(i)=fluxssfine(i)+fluxsscoa(i) ENDDO ! prepare outputs cvltr DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=d_tr_cv(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon d_tr_cv_o(i,k,itr)=tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys ENDDO ENDDO ENDDO DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=d_tr_trsp(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon d_tr_trsp_o(i,k,itr)=tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys ENDDO ENDDO ENDDO DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=d_tr_sscav(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon d_tr_sscav_o(i,k,itr)=tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys ENDDO ENDDO ENDDO DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=d_tr_sat(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon d_tr_sat_o(i,k,itr)=tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys ENDDO ENDDO ENDDO DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=d_tr_uscav(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon d_tr_uscav_o(i,k,itr)=tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys ENDDO ENDDO ENDDO !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=d_tr_insc(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon d_tr_insc_o(i,k,itr)=tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys ENDDO ENDDO ENDDO DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=d_tr_bcscav(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon d_tr_bcscav_o(i,k,itr)=tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys ENDDO ENDDO ENDDO DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=d_tr_evapls(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon d_tr_evapls_o(i,k,itr)=tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys ENDDO ENDDO ENDDO DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=d_tr_ls(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon d_tr_ls_o(i,k,itr)=tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys ENDDO ENDDO ENDDO DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=d_tr_dyn(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon d_tr_dyn_o(i,k,itr)=tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys ENDDO ENDDO ENDDO DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=d_tr_cl(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon d_tr_cl_o(i,k,itr)=tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys ENDDO ENDDO ENDDO DO itr=1,nbtr DO k=1,klev DO i=1,klon tmp_var(i,k)=d_tr_th(i,k,itr) ENDDO ENDDO CALL kg_to_cm3(pplay,t_seri,tmp_var) DO k=1,klev DO i=1,klon d_tr_th_o(i,k,itr)=tmp_var(i,k) & /RNAVO*masse(itr)*1.e3*1.e6*zdz(i,k)/pdtphys ENDDO ENDDO ENDDO !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! DO itr=1,nbtr WRITE(str2,'(i2.2)') itr DO i=1, klon his_dh(i,itr)= his_dhlsc(i,itr)+his_dhcon(i,itr)+ & his_dhbclsc(i,itr)+his_dhbccon(i,itr) ENDDO ENDDO !AS: commenting out and deleting lines !! IF (ok_histrac) THEN !! !! SAVING VARIABLES IN TRACEUR !!----- many lines deleted---- !! ENDIF ! ok_histrac !JE20141224 ! saving variables for output ! 2D outputs DO i=1, klon trm01(i)=0. trm02(i)=0. trm03(i)=0. trm04(i)=0. trm05(i)=0. sconc01(i)=0. sconc02(i)=0. sconc03(i)=0. sconc04(i)=0. sconc05(i)=0. flux01(i)=0. flux02(i)=0. flux03(i)=0. flux04(i)=0. flux05(i)=0. ds01(i)=0. ds02(i)=0. ds03(i)=0. ds04(i)=0. ds05(i)=0. dh01(i)=0. dh02(i)=0. dh03(i)=0. dh04(i)=0. dh05(i)=0. dtrconv01(i)=0. dtrconv02(i)=0. dtrconv03(i)=0. dtrconv04(i)=0. dtrconv05(i)=0. dtherm01(i)=0. dtherm02(i)=0. dtherm03(i)=0. dtherm04(i)=0. dtherm05(i)=0. dhkecv01(i)=0. dhkecv02(i)=0. dhkecv03(i)=0. dhkecv04(i)=0. dhkecv05(i)=0. d_tr_ds01(i)=0. d_tr_ds02(i)=0. d_tr_ds03(i)=0. d_tr_ds04(i)=0. d_tr_ds05(i)=0. dhkelsc01(i)=0. dhkelsc02(i)=0. dhkelsc03(i)=0. dhkelsc04(i)=0. dhkelsc05(i)=0. !!!!!!!!!!!!!!!!!!!!!!!!!!!!! if(id_prec>0) trm01(i)=trm(i,id_prec) if(id_fine>0) trm02(i)=trm(i,id_fine) if(id_coss>0) trm03(i)=trm(i,id_coss) if(id_codu>0) trm04(i)=trm(i,id_codu) if(id_scdu>0) trm05(i)=trm(i,id_scdu) if(id_prec>0) sconc01(i)=sconc_seri(i,id_prec) if(id_fine>0) sconc02(i)=sconc_seri(i,id_fine) if(id_coss>0) sconc03(i)=sconc_seri(i,id_coss) if(id_codu>0) sconc04(i)=sconc_seri(i,id_codu) if(id_scdu>0) sconc05(i)=sconc_seri(i,id_scdu) if(id_prec>0) flux01(i)=flux_tr(i,id_prec) if(id_fine>0) flux02(i)=flux_tr(i,id_fine) if(id_coss>0) flux03(i)=flux_tr(i,id_coss) if(id_codu>0) flux04(i)=flux_tr(i,id_codu) if(id_scdu>0) flux05(i)=flux_tr(i,id_scdu) if(id_prec>0) ds01(i)=his_ds(i,id_prec) if(id_fine>0) ds02(i)=his_ds(i,id_fine) if(id_coss>0) ds03(i)=his_ds(i,id_coss) if(id_codu>0) ds04(i)=his_ds(i,id_codu) if(id_scdu>0) ds05(i)=his_ds(i,id_scdu) if(id_prec>0) dh01(i)=his_dh(i,id_prec) if(id_fine>0) dh02(i)=his_dh(i,id_fine) if(id_coss>0) dh03(i)=his_dh(i,id_coss) if(id_codu>0) dh04(i)=his_dh(i,id_codu) if(id_scdu>0) dh05(i)=his_dh(i,id_scdu) if(id_prec>0) dtrconv01(i)=dtrconv(i,id_prec) if(id_fine>0) dtrconv02(i)=dtrconv(i,id_fine) if(id_coss>0) dtrconv03(i)=dtrconv(i,id_coss) if(id_codu>0) dtrconv04(i)=dtrconv(i,id_codu) if(id_scdu>0) dtrconv05(i)=dtrconv(i,id_scdu) if(id_prec>0) dtherm01(i)=his_th(i,id_prec) if(id_fine>0) dtherm02(i)=his_th(i,id_fine) if(id_coss>0) dtherm03(i)=his_th(i,id_coss) if(id_codu>0) dtherm04(i)=his_th(i,id_codu) if(id_scdu>0) dtherm05(i)=his_th(i,id_scdu) if(id_prec>0) dhkecv01(i)=his_dhkecv(i,id_prec) if(id_fine>0) dhkecv02(i)=his_dhkecv(i,id_fine) if(id_coss>0) dhkecv03(i)=his_dhkecv(i,id_coss) if(id_codu>0) dhkecv04(i)=his_dhkecv(i,id_codu) if(id_scdu>0) dhkecv05(i)=his_dhkecv(i,id_scdu) if(id_prec>0) d_tr_ds01(i)=his_ds(i,id_prec) if(id_fine>0) d_tr_ds02(i)=his_ds(i,id_fine) if(id_coss>0) d_tr_ds03(i)=his_ds(i,id_coss) if(id_codu>0) d_tr_ds04(i)=his_ds(i,id_codu) if(id_scdu>0) d_tr_ds05(i)=his_ds(i,id_scdu) if(id_prec>0) dhkelsc01(i)=his_dhkelsc(i,id_prec) if(id_fine>0) dhkelsc02(i)=his_dhkelsc(i,id_fine) if(id_coss>0) dhkelsc03(i)=his_dhkelsc(i,id_coss) if(id_codu>0) dhkelsc04(i)=his_dhkelsc(i,id_codu) if(id_scdu>0) dhkelsc05(i)=his_dhkelsc(i,id_scdu) u10m_ss(i)=u10m_ec(i) v10m_ss(i)=v10m_ec(i) ENDDO ! 3D outs DO i=1, klon DO k=1,klev d_tr_cv01(i,k) =0. d_tr_cv02(i,k) =0. d_tr_cv03(i,k) =0. d_tr_cv04(i,k) =0. d_tr_cv05(i,k) =0. d_tr_trsp01(i,k) =0. d_tr_trsp02(i,k) =0. d_tr_trsp03(i,k) =0. d_tr_trsp04(i,k) =0. d_tr_trsp05(i,k) =0. d_tr_sscav01(i,k)=0. d_tr_sscav02(i,k)=0. d_tr_sscav03(i,k)=0. d_tr_sscav04(i,k)=0. d_tr_sscav05(i,k)=0. d_tr_sat01(i,k) =0. d_tr_sat02(i,k) =0. d_tr_sat03(i,k) =0. d_tr_sat04(i,k) =0. d_tr_sat05(i,k) =0. d_tr_uscav01(i,k)=0. d_tr_uscav02(i,k)=0. d_tr_uscav03(i,k)=0. d_tr_uscav04(i,k)=0. d_tr_uscav05(i,k)=0. d_tr_insc01(i,k)=0.!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! d_tr_insc02(i,k)=0. d_tr_insc03(i,k)=0. d_tr_insc04(i,k)=0. d_tr_insc05(i,k)=0. d_tr_bcscav01(i,k)=0. d_tr_bcscav02(i,k)=0. d_tr_bcscav03(i,k)=0. d_tr_bcscav04(i,k)=0. d_tr_bcscav05(i,k)=0. d_tr_evapls01(i,k)=0. d_tr_evapls02(i,k)=0. d_tr_evapls03(i,k)=0. d_tr_evapls04(i,k)=0. d_tr_evapls05(i,k)=0. d_tr_ls01(i,k)=0. d_tr_ls02(i,k)=0. d_tr_ls03(i,k)=0. d_tr_ls04(i,k)=0. d_tr_ls05(i,k)=0.!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! d_tr_dyn01(i,k)=0. d_tr_dyn02(i,k)=0. d_tr_dyn03(i,k)=0. d_tr_dyn04(i,k)=0. d_tr_dyn05(i,k)=0.!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! d_tr_cl01(i,k)=0. d_tr_cl02(i,k)=0. d_tr_cl03(i,k)=0. d_tr_cl04(i,k)=0. d_tr_cl05(i,k)=0.!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! d_tr_th01(i,k)=0. d_tr_th02(i,k)=0. d_tr_th03(i,k)=0. d_tr_th04(i,k)=0. d_tr_th05(i,k)=0.!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ENDDO ENDDO IF(1==0) THEN ! calcul in original trunk version; problem: budget not closed. Corrected in "ELSE" DO i=1, klon DO k=1,klev if(id_prec>0) d_tr_cv01(i,k) =d_tr_cv_o(i,k,id_prec) if(id_fine>0) d_tr_cv02(i,k) =d_tr_cv_o(i,k,id_fine) if(id_coss>0) d_tr_cv03(i,k) =d_tr_cv_o(i,k,id_coss) if(id_codu>0) d_tr_cv04(i,k) =d_tr_cv_o(i,k,id_codu) if(id_scdu>0) d_tr_cv05(i,k) =d_tr_cv_o(i,k,id_scdu) if(id_prec>0) d_tr_trsp01(i,k) =d_tr_trsp_o(i,k,id_prec) if(id_fine>0) d_tr_trsp02(i,k) =d_tr_trsp_o(i,k,id_fine) if(id_coss>0) d_tr_trsp03(i,k) =d_tr_trsp_o(i,k,id_coss) if(id_codu>0) d_tr_trsp04(i,k) =d_tr_trsp_o(i,k,id_codu) if(id_scdu>0) d_tr_trsp05(i,k) =d_tr_trsp_o(i,k,id_scdu) if(id_prec>0) d_tr_sscav01(i,k)=d_tr_sscav_o(i,k,id_prec) if(id_fine>0) d_tr_sscav02(i,k)=d_tr_sscav_o(i,k,id_fine) if(id_coss>0) d_tr_sscav03(i,k)=d_tr_sscav_o(i,k,id_coss) if(id_codu>0) d_tr_sscav04(i,k)=d_tr_sscav_o(i,k,id_codu) if(id_scdu>0) d_tr_sscav05(i,k)=d_tr_sscav_o(i,k,id_scdu) if(id_prec>0) d_tr_sat01(i,k) =d_tr_sat_o(i,k,id_prec) if(id_fine>0) d_tr_sat02(i,k) =d_tr_sat_o(i,k,id_fine) if(id_coss>0) d_tr_sat03(i,k) =d_tr_sat_o(i,k,id_coss) if(id_codu>0) d_tr_sat04(i,k) =d_tr_sat_o(i,k,id_codu) if(id_scdu>0) d_tr_sat05(i,k) =d_tr_sat_o(i,k,id_scdu) if(id_prec>0) d_tr_uscav01(i,k)=d_tr_uscav_o(i,k,id_prec) if(id_fine>0) d_tr_uscav02(i,k)=d_tr_uscav_o(i,k,id_fine) if(id_coss>0) d_tr_uscav03(i,k)=d_tr_uscav_o(i,k,id_coss) if(id_codu>0) d_tr_uscav04(i,k)=d_tr_uscav_o(i,k,id_codu) if(id_scdu>0) d_tr_uscav05(i,k)=d_tr_uscav_o(i,k,id_scdu) if(id_prec>0) d_tr_insc01(i,k)=d_tr_insc_o(i,k,id_prec) if(id_fine>0) d_tr_insc02(i,k)=d_tr_insc_o(i,k,id_fine) if(id_coss>0) d_tr_insc03(i,k)=d_tr_insc_o(i,k,id_coss) if(id_codu>0) d_tr_insc04(i,k)=d_tr_insc_o(i,k,id_codu) if(id_scdu>0) d_tr_insc05(i,k)=d_tr_insc_o(i,k,id_scdu) if(id_prec>0) d_tr_bcscav01(i,k)=d_tr_bcscav_o(i,k,id_prec) if(id_fine>0) d_tr_bcscav02(i,k)=d_tr_bcscav_o(i,k,id_fine) if(id_coss>0) d_tr_bcscav03(i,k)=d_tr_bcscav_o(i,k,id_coss) if(id_codu>0) d_tr_bcscav04(i,k)=d_tr_bcscav_o(i,k,id_codu) if(id_scdu>0) d_tr_bcscav05(i,k)=d_tr_bcscav_o(i,k,id_scdu) if(id_prec>0) d_tr_evapls01(i,k)=d_tr_evapls_o(i,k,id_prec) if(id_fine>0) d_tr_evapls02(i,k)=d_tr_evapls_o(i,k,id_fine) if(id_coss>0) d_tr_evapls03(i,k)=d_tr_evapls_o(i,k,id_coss) if(id_codu>0) d_tr_evapls04(i,k)=d_tr_evapls_o(i,k,id_codu) if(id_scdu>0) d_tr_evapls05(i,k)=d_tr_evapls_o(i,k,id_scdu) ENDDO ENDDO ELSE ! correction pour fermeture de bilan, par FH dans les simus de Binta pour Habib DO i=1, klon DO k=1,klev if(id_prec>0) d_tr_cv01(i,k) =d_tr_cv(i,k,id_prec)/pdtphys if(id_fine>0) d_tr_cv02(i,k) =d_tr_cv(i,k,id_fine)/pdtphys if(id_coss>0) d_tr_cv03(i,k) =d_tr_cv(i,k,id_coss)/pdtphys if(id_codu>0) d_tr_cv04(i,k) =d_tr_cv(i,k,id_codu)/pdtphys if(id_scdu>0) d_tr_cv05(i,k) =d_tr_cv(i,k,id_scdu)/pdtphys if(id_prec>0) d_tr_trsp01(i,k) =d_tr_trsp(i,k,id_prec)/pdtphys if(id_fine>0) d_tr_trsp02(i,k) =d_tr_trsp(i,k,id_fine)/pdtphys if(id_coss>0) d_tr_trsp03(i,k) =d_tr_trsp(i,k,id_coss)/pdtphys if(id_codu>0) d_tr_trsp04(i,k) =d_tr_trsp(i,k,id_codu)/pdtphys if(id_scdu>0) d_tr_trsp05(i,k) =d_tr_trsp(i,k,id_scdu)/pdtphys if(id_prec>0) d_tr_sscav01(i,k)=d_tr_sscav(i,k,id_prec)/pdtphys if(id_fine>0) d_tr_sscav02(i,k)=d_tr_sscav(i,k,id_fine)/pdtphys if(id_coss>0) d_tr_sscav03(i,k)=d_tr_sscav(i,k,id_coss)/pdtphys if(id_codu>0) d_tr_sscav04(i,k)=d_tr_sscav(i,k,id_codu)/pdtphys if(id_scdu>0) d_tr_sscav05(i,k)=d_tr_sscav(i,k,id_scdu)/pdtphys if(id_prec>0) d_tr_sat01(i,k) =d_tr_sat(i,k,id_prec)/pdtphys if(id_fine>0) d_tr_sat02(i,k) =d_tr_sat(i,k,id_fine)/pdtphys if(id_coss>0) d_tr_sat03(i,k) =d_tr_sat(i,k,id_coss)/pdtphys if(id_codu>0) d_tr_sat04(i,k) =d_tr_sat(i,k,id_codu)/pdtphys if(id_scdu>0) d_tr_sat05(i,k) =d_tr_sat(i,k,id_scdu)/pdtphys if(id_prec>0) d_tr_uscav01(i,k)=d_tr_uscav(i,k,id_prec)/pdtphys if(id_fine>0) d_tr_uscav02(i,k)=d_tr_uscav(i,k,id_fine)/pdtphys if(id_coss>0) d_tr_uscav03(i,k)=d_tr_uscav(i,k,id_coss)/pdtphys if(id_codu>0) d_tr_uscav04(i,k)=d_tr_uscav(i,k,id_codu)/pdtphys if(id_scdu>0) d_tr_uscav05(i,k)=d_tr_uscav(i,k,id_scdu)/pdtphys if(id_prec>0) d_tr_insc01(i,k)=d_tr_insc(i,k,id_prec)/pdtphys if(id_fine>0) d_tr_insc02(i,k)=d_tr_insc(i,k,id_fine)/pdtphys if(id_coss>0) d_tr_insc03(i,k)=d_tr_insc(i,k,id_coss)/pdtphys if(id_codu>0) d_tr_insc04(i,k)=d_tr_insc(i,k,id_codu)/pdtphys if(id_scdu>0) d_tr_insc05(i,k)=d_tr_insc(i,k,id_scdu)/pdtphys if(id_prec>0) d_tr_bcscav01(i,k)=d_tr_bcscav(i,k,id_prec)/pdtphys if(id_fine>0) d_tr_bcscav02(i,k)=d_tr_bcscav(i,k,id_fine)/pdtphys if(id_coss>0) d_tr_bcscav03(i,k)=d_tr_bcscav(i,k,id_coss)/pdtphys if(id_codu>0) d_tr_bcscav04(i,k)=d_tr_bcscav(i,k,id_codu)/pdtphys if(id_scdu>0) d_tr_bcscav05(i,k)=d_tr_bcscav(i,k,id_scdu)/pdtphys if(id_prec>0) d_tr_evapls01(i,k)=d_tr_evapls(i,k,id_prec)/pdtphys if(id_fine>0) d_tr_evapls02(i,k)=d_tr_evapls(i,k,id_fine)/pdtphys if(id_coss>0) d_tr_evapls03(i,k)=d_tr_evapls(i,k,id_coss)/pdtphys if(id_codu>0) d_tr_evapls04(i,k)=d_tr_evapls(i,k,id_codu)/pdtphys if(id_scdu>0) d_tr_evapls05(i,k)=d_tr_evapls(i,k,id_scdu)/pdtphys ENDDO ENDDO ENDIF IF(1==0) THEN ! This "if" is as in original trunk DO i=1, klon DO k=1,klev if(id_prec>0) d_tr_ls01(i,k)=d_tr_ls_o(i,k,id_prec) if(id_fine>0) d_tr_ls02(i,k)=d_tr_ls_o(i,k,id_fine) if(id_coss>0) d_tr_ls03(i,k)=d_tr_ls_o(i,k,id_coss) if(id_codu>0) d_tr_ls04(i,k)=d_tr_ls_o(i,k,id_codu) if(id_scdu>0) d_tr_ls05(i,k)=d_tr_ls_o(i,k,id_scdu) if(id_prec>0) d_tr_dyn01(i,k)=d_tr_dyn_o(i,k,id_prec) if(id_fine>0) d_tr_dyn02(i,k)=d_tr_dyn_o(i,k,id_fine) if(id_coss>0) d_tr_dyn03(i,k)=d_tr_dyn_o(i,k,id_coss) if(id_codu>0) d_tr_dyn04(i,k)=d_tr_dyn_o(i,k,id_codu) if(id_scdu>0) d_tr_dyn05(i,k)=d_tr_dyn_o(i,k,id_scdu) if(id_prec>0) d_tr_cl01(i,k)=d_tr_cl_o(i,k,id_prec) if(id_fine>0) d_tr_cl02(i,k)=d_tr_cl_o(i,k,id_fine) if(id_coss>0) d_tr_cl03(i,k)=d_tr_cl_o(i,k,id_coss) if(id_codu>0) d_tr_cl04(i,k)=d_tr_cl_o(i,k,id_codu) if(id_scdu>0) d_tr_cl05(i,k)=d_tr_cl_o(i,k,id_scdu) if(id_prec>0) d_tr_th01(i,k)=d_tr_th_o(i,k,id_prec) if(id_fine>0) d_tr_th02(i,k)=d_tr_th_o(i,k,id_fine) if(id_coss>0) d_tr_th03(i,k)=d_tr_th_o(i,k,id_coss) if(id_codu>0) d_tr_th04(i,k)=d_tr_th_o(i,k,id_codu) if(id_scdu>0) d_tr_th05(i,k)=d_tr_th_o(i,k,id_scdu) ENDDO ENDDO ELSE DO i=1, klon DO k=1,klev if(id_prec>0) d_tr_ls01(i,k)=d_tr_ls(i,k,id_prec)/pdtphys if(id_fine>0) d_tr_ls02(i,k)=d_tr_ls(i,k,id_fine)/pdtphys if(id_coss>0) d_tr_ls03(i,k)=d_tr_ls(i,k,id_coss)/pdtphys if(id_codu>0) d_tr_ls04(i,k)=d_tr_ls(i,k,id_codu)/pdtphys if(id_scdu>0) d_tr_ls05(i,k)=d_tr_ls(i,k,id_scdu)/pdtphys if(id_prec>0) d_tr_dyn01(i,k)=d_tr_dyn(i,k,id_prec)/pdtphys if(id_fine>0) d_tr_dyn02(i,k)=d_tr_dyn(i,k,id_fine)/pdtphys if(id_coss>0) d_tr_dyn03(i,k)=d_tr_dyn(i,k,id_coss)/pdtphys if(id_codu>0) d_tr_dyn04(i,k)=d_tr_dyn(i,k,id_codu)/pdtphys if(id_scdu>0) d_tr_dyn05(i,k)=d_tr_dyn(i,k,id_scdu)/pdtphys if(id_prec>0) d_tr_cl01(i,k)=d_tr_cl(i,k,id_prec)/pdtphys if(id_fine>0) d_tr_cl02(i,k)=d_tr_cl(i,k,id_fine)/pdtphys if(id_coss>0) d_tr_cl03(i,k)=d_tr_cl(i,k,id_coss)/pdtphys if(id_codu>0) d_tr_cl04(i,k)=d_tr_cl(i,k,id_codu)/pdtphys if(id_scdu>0) d_tr_cl05(i,k)=d_tr_cl(i,k,id_scdu)/pdtphys if(id_prec>0) d_tr_th01(i,k)=d_tr_th(i,k,id_prec)/pdtphys if(id_fine>0) d_tr_th02(i,k)=d_tr_th(i,k,id_fine)/pdtphys if(id_coss>0) d_tr_th03(i,k)=d_tr_th(i,k,id_coss)/pdtphys if(id_codu>0) d_tr_th04(i,k)=d_tr_th(i,k,id_codu)/pdtphys if(id_scdu>0) d_tr_th05(i,k)=d_tr_th(i,k,id_scdu)/pdtphys ENDDO ENDDO ENDIF IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start ti_outs=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_outs=tia_outs+REAL(ti_outs)/REAL(clock_rate) ENDIF IF (logitime) THEN CALL SYSTEM_CLOCK(COUNT=clock_end) dife=clock_end-clock_start_spla ti_spla=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_spla=tia_spla+REAL(ti_spla)/REAL(clock_rate) print *,'times for this timestep:timeproc,timeproc/time_pytracr_spl-' print *,'time spla',REAL(ti_spla)/REAL(clock_rate) & ,REAL(ti_spla)/REAL(ti_spla) print *,'time init',REAL(ti_init)/REAL(clock_rate) & ,REAL(ti_init)/REAL(ti_spla) print *,'time inittype',REAL(ti_inittype)/REAL(clock_rate) & ,REAL(ti_inittype)/REAL(ti_spla) print *,'time inittwrite',REAL(ti_inittwrite)/REAL(clock_rate) & ,REAL(ti_inittwrite)/REAL(ti_spla) print *,'time emis',REAL(ti_emis)/REAL(clock_rate) & ,REAL(ti_emis)/REAL(ti_spla) print *,'time depo ',REAL(ti_depo)/REAL(clock_rate) & ,REAL(ti_depo)/REAL(ti_spla) print *,'time cltr',REAL(ti_cltr)/REAL(clock_rate) & ,REAL(ti_cltr)/REAL(ti_spla) print *,'time ther',REAL(ti_ther)/REAL(clock_rate) & ,REAL(ti_ther)/REAL(ti_spla) print *,'time sedi',REAL(ti_sedi)/REAL(clock_rate) & ,REAL(ti_sedi)/REAL(ti_spla) print *,'time gas to part',REAL(ti_gasp)/REAL(clock_rate) & ,REAL(ti_gasp)/REAL(ti_spla) print *,'time AP wet',REAL(ti_wetap)/REAL(clock_rate) & ,REAL(ti_wetap)/REAL(ti_spla) print *,'time convective',REAL(ti_cvltr)/REAL(clock_rate) & ,REAL(ti_cvltr)/REAL(ti_spla) print *,'time NP lsc scav',REAL(ti_lscs)/REAL(clock_rate) & ,REAL(ti_lscs)/REAL(ti_spla) print *,'time opt,brdn,etc',REAL(ti_brop)/REAL(clock_rate) & ,REAL(ti_brop)/REAL(ti_spla) print *,'time outputs',REAL(ti_outs)/REAL(clock_rate) & ,REAL(ti_outs)/REAL(ti_spla) print *,'--time accumulated: time proc, time proc/time phytracr_spl--' print *,'time spla',tia_spla print *,'time init',tia_init,tia_init/tia_spla print *,'time inittype',tia_inittype,tia_inittype/tia_spla print *,'time inittwrite',tia_inittwrite,tia_inittwrite/tia_spla print *,'time emis',tia_emis,tia_emis/tia_spla print *,'time depo',tia_depo,tia_depo/tia_spla print *,'time cltr',tia_cltr,tia_cltr/tia_spla print *,'time ther',tia_ther,tia_ther/tia_spla print *,'time sedi',tia_sedi,tia_sedi/tia_spla print *,'time gas to part',tia_gasp,tia_gasp/tia_spla print *,'time AP wet',tia_wetap,tia_wetap/tia_spla print *,'time convective',tia_cvltr,tia_cvltr/tia_spla print *,'time NP lsc scav',tia_lscs,tia_lscs/tia_spla print *,'time opt,brdn,etc',tia_brop,tia_brop/tia_spla print *,'time outputs',tia_outs,tia_outs/tia_spla dife=clock_end_outphytracr-clock_start_outphytracr ti_nophytracr=dife*MAX(0,SIGN(1,dife)) & +(dife+clock_per_max)*MAX(0,SIGN(1,-dife)) tia_nophytracr=tia_nophytracr+REAL(ti_nophytracr)/REAL(clock_rate) print *,'Time outside phytracr; Time accum outside phytracr' print*,REAL(ti_nophytracr)/REAL(clock_rate),tia_nophytracr clock_start_outphytracr=clock_end ENDIF print *,'END PHYTRACR_SPL ' print *,'lmt_so2ff_l FIN' , MINVAL(lmt_so2ff_l), MAXVAL(lmt_so2ff_l) ! CALL abort_gcm('TEST1', 'OK1', 1) RETURN END SUBROUTINE phytracr_spl SUBROUTINE readregionsdims2_spl(nbreg,fileregions) USE mod_grid_phy_lmdz USE mod_phys_lmdz_para IMPLICIT NONE CHARACTER*800 fileregions CHARACTER*800 auxstr INTEGER nbreg IF (is_mpi_root .AND. is_omp_root) THEN OPEN (UNIT=1,FILE=trim(adjustl(fileregions))) READ(1,'(a)') auxstr READ(1,'(i10)') nbreg CLOSE(UNIT=1) ENDIF CALL bcast(nbreg) END SUBROUTINE readregionsdims2_spl SUBROUTINE readregionsdims_spl(nbreg_ind,fileregionsdimsind, & nbreg_dust,fileregionsdimsdust, & nbreg_bb,fileregionsdimsbb) USE mod_grid_phy_lmdz USE mod_phys_lmdz_para IMPLICIT NONE CHARACTER*800 fileregionsdimsind CHARACTER*800 fileregionsdimsdust CHARACTER*800 fileregionsdimsbb CHARACTER*800 auxstr INTEGER nbreg_ind,nbreg_dust,nbreg_bb IF (is_mpi_root .AND. is_omp_root) THEN OPEN (UNIT=1,FILE=trim(adjustl(fileregionsdimsind))) READ(1,'(a)') auxstr READ(1,'(i10)') nbreg_ind CLOSE(UNIT=1) OPEN (UNIT=1,FILE=trim(adjustl(fileregionsdimsdust))) READ(1,'(a)') auxstr READ(1,'(i10)') nbreg_dust CLOSE(UNIT=1) OPEN (UNIT=1,FILE=trim(adjustl(fileregionsdimsbb))) READ(1,'(a)') auxstr READ(1,'(i10)') nbreg_bb CLOSE(UNIT=1) ENDIF CALL bcast(nbreg_ind) CALL bcast(nbreg_dust) CALL bcast(nbreg_bb) END SUBROUTINE readregionsdims_spl SUBROUTINE readregions_spl(iregion,filenameregion) USE dimphy USE mod_grid_phy_lmdz USE mod_phys_lmdz_para IMPLICIT NONE CHARACTER*(*) filenameregion INTEGER iregion(klon) INTEGER iregion_glo(klon_glo) INTEGER k IF (is_mpi_root .AND. is_omp_root) THEN print *,trim(adjustl(filenameregion)) OPEN(1,file=trim(adjustl(filenameregion))) DO k=1,klon_glo READ(1,'(i10)') iregion_glo(k) ENDDO CLOSE(UNIT=1) ENDIF CALL scatter(iregion_glo,iregion) END SUBROUTINE readregions_spl !! AS: SUBROUTINE readscaleparams_spl pas appellee SUBROUTINE readscaleparams_spl(scale_param, nbreg, & filescaleparams) USE mod_grid_phy_lmdz USE mod_phys_lmdz_para IMPLICIT NONE CHARACTER*800 filescaleparams INTEGER nbreg REAL scale_param(nbreg) INTEGER k IF (is_mpi_root .AND. is_omp_root) THEN OPEN(1,file=trim(adjustl(filescaleparams)),form='unformatted') do k=1,nbreg read(1) scale_param(k) enddo CLOSE(1) ENDIF CALL bcast(scale_param) ! print *,'holaaaaaaaaaaaa' ! print *,scale_param END SUBROUTINE readscaleparams_spl SUBROUTINE readscaleparamsnc_spl(scale_param_ind, & nbreg_ind, paramname_ind, & scale_param_ff, nbreg_ff,paramname_ff, & scale_param_bb, nbreg_bb,paramname_bb, & scale_param_dustacc, nbreg_dustacc,paramname_dustacc, & scale_param_dustcoa, nbreg_dustcoa,paramname_dustcoa, & scale_param_dustsco, nbreg_dustsco,paramname_dustsco, & param_wstarBLperregion, nbreg_wstardustBL, paramname_wstarBL, & param_wstarWAKEperregion, nbreg_wstardustWAKE, paramname_wstarWAKE, & scale_param_ssacc , paramname_ssacc, & scale_param_sscoa , paramname_sscoa, & filescaleparams,julien,jH_phys, pdtphys,debutphy) ! SUBROUTINE readscaleparamsnc_spl(scale_param, nbreg, & ! filescaleparams,paramname,& ! julien,jH_phys, pdtphys,debutphy) USE mod_grid_phy_lmdz USE mod_phys_lmdz_para IMPLICIT NONE CHARACTER*800 filescaleparams CHARACTER*100 paramname_ind,paramname_ff,paramname_bb CHARACTER*100 paramname_dustacc, paramname_dustcoa CHARACTER*100 paramname_dustsco CHARACTER*100 paramname_ssacc CHARACTER*100 paramname_sscoa CHARACTER*100 paramname_wstarBL CHARACTER*100 paramname_wstarWAKE INTEGER nbreg,iday INTEGER nbreg_ind, nbreg_ff, nbreg_bb , nbreg_dustacc INTEGER nbreg_dustcoa , nbreg_dustsco, nbreg_wstardustBL INTEGER nbreg_wstardustWAKE INTEGER,PARAMETER :: nbreg_ssacc=1 INTEGER,PARAMETER :: nbreg_sscoa=1 REAL,PARAMETER :: sca_resol = 24. ! resolution of scalig params in hours REAL scale_param_ind(nbreg_ind) REAL scale_param_bb(nbreg_bb) REAL scale_param_ff(nbreg_ff) REAL scale_param_dustacc(nbreg_dustacc) REAL scale_param_dustcoa(nbreg_dustcoa) REAL scale_param_dustsco(nbreg_dustsco) REAL param_wstarBLperregion(nbreg_wstardustBL) REAL param_wstarWAKEperregion(nbreg_wstardustWAKE) REAL scale_param_ssacc REAL scale_param_ssacc_tmp(nbreg_ssacc) REAL scale_param_sscoa REAL scale_param_sscoa_tmp(nbreg_sscoa) INTEGER k,step_sca,test_sca REAL :: jH_phys, pdtphys REAL,SAVE :: jH_sca, jH_ini INTEGER julien LOGICAL debutphy SAVE step_sca,test_sca,iday !$OMP THREADPRIVATE(step_sca,test_sca,iday) !$OMP THREADPRIVATE(jH_sca,jH_ini) IF (debutphy) THEN iday=julien step_sca=1 test_sca=0 jH_ini=jH_phys jH_sca=jH_phys ENDIF IF (test_sca == 0 ) THEN ! READ file!! call read_scalenc(filescaleparams,paramname_ind, & nbreg_ind,step_sca, & scale_param_ind) call read_scalenc(filescaleparams,paramname_bb, & nbreg_bb,step_sca, & scale_param_bb) call read_scalenc(filescaleparams,paramname_ff, & nbreg_ff,step_sca, & scale_param_ff) call read_scalenc(filescaleparams,paramname_dustacc, & nbreg_dustacc,step_sca, & scale_param_dustacc) call read_scalenc(filescaleparams,paramname_dustcoa, & nbreg_dustcoa,step_sca, & scale_param_dustcoa) call read_scalenc(filescaleparams,paramname_dustsco, & nbreg_dustsco,step_sca, & scale_param_dustsco) call read_scalenc(filescaleparams,paramname_wstarBL, & nbreg_wstardustBL,step_sca, & param_wstarBLperregion) call read_scalenc(filescaleparams,paramname_wstarWAKE, & nbreg_wstardustWAKE,step_sca, & param_wstarWAKEperregion) call read_scalenc(filescaleparams,paramname_ssacc, & nbreg_ssacc,step_sca, & scale_param_ssacc_tmp) call read_scalenc(filescaleparams,paramname_sscoa, & nbreg_sscoa,step_sca, & scale_param_sscoa_tmp) scale_param_ssacc=scale_param_ssacc_tmp(1) scale_param_sscoa=scale_param_sscoa_tmp(1) !print *,'JEREADFILE',julien,jH_phys step_sca= step_sca + 1 test_sca=1 ENDIF jH_sca=jH_sca+pdtphys/(24.*3600.) IF (jH_sca>(sca_resol)/24.) THEN test_sca=0 jH_sca=jH_ini ENDIF END SUBROUTINE readscaleparamsnc_spl SUBROUTINE read_scalenc(filescaleparams,paramname,nbreg,step_sca, & scale_param) USE mod_grid_phy_lmdz USE mod_phys_lmdz_para USE netcdf, ONLY:nf90_open,nf90_close,nf90_inq_varid,nf90_nowrite,nf90_noerr,nf90_get_var IMPLICIT NONE CHARACTER*800 filescaleparams CHARACTER*100 paramname INTEGER nbreg, step_sca REAL scale_param(nbreg) !local vars integer nid,ierr,nvarid real rcode,auxreal integer start(4),count(4), status ! local integer debutread,countread CHARACTER*104 varname CHARACTER*2 aux_2s integer i, j, ig !$OMP MASTER IF (is_mpi_root .AND. is_omp_root) THEN !nci=NCOPN(trim(adjustl(filescaleparams)),NCNOWRIT,rcode) ierr = nf90_open (trim(adjustl(filescaleparams)),nf90_nowrite, nid) if (ierr == nf90_noerr) THEN debutread=step_sca countread=1 do i=1,nbreg WRITE(aux_2s,'(i2.2)') i varname= trim(adjustl(paramname))//aux_2s print *,varname ierr = nf90_inq_varid (nid,trim(adjustl(varname)), nvarid) ierr = nf90_get_var (nid, nvarid, auxreal, debutread, countread) IF (ierr /= nf90_noerr) THEN PRINT*, 'Pb de lecture pour modvalues' print *,'JE scale_var, step_sca',trim(adjustl(varname)),step_sca CALL HANDLE_ERR(ierr) print *,'error ierr= ',ierr CALL exit(1) call abort_gcm('read_scalenc','error reading variable',1) ENDIF print *,auxreal scale_param(i)=auxreal enddo ierr = nf90_close(nid) else print *,'File '//trim(adjustl(filescaleparams))//' not found' print *,'doing nothing...' endif ENDIF ! mpi_root !$OMP END MASTER !$OMP BARRIER ! CALL scatter(var local _glo,var local) o algo asi call bcast(scale_param) END SUBROUTINE read_scalenc END MODULE