! $Id: phyetat0_mod.F90 5117 2024-07-24 14:23:34Z abarral $ MODULE phyetat0_mod USE lmdz_abort_physic, ONLY: abort_physic PRIVATE PUBLIC :: phyetat0 CONTAINS SUBROUTINE phyetat0(fichnom, clesphy0, tabcntr0) USE dimphy, ONLY: klon, zmasq, klev USE iophy, ONLY: init_iophy_new USE ocean_cpl_mod, ONLY: ocean_cpl_init USE fonte_neige_mod, ONLY: fonte_neige_init USE pbl_surface_mod, ONLY: pbl_surface_init USE surface_data, ONLY: type_ocean, version_ocean USE phyetat0_get_mod, ONLY: phyetat0_get, phyetat0_srf USE phys_state_var_mod, ONLY: ancien_ok, clwcon, detr_therm, phys_tstep, & qsol, fevap, z0m, z0h, agesno, & du_gwd_rando, du_gwd_front, entr_therm, f0, fm_therm, & falb_dir, falb_dif, prw_ancien, prlw_ancien, prsw_ancien, prbsw_ancien, & ftsol, pbl_tke, pctsrf, q_ancien, ql_ancien, qs_ancien, qbs_ancien, rneb_ancien, radpas, radsol, rain_fall, ratqs, & rnebcon, rugoro, sig1, snow_fall, bs_fall, solaire_etat0, sollw, sollwdown, & solsw, solswfdiff, t_ancien, u_ancien, v_ancien, w01, wake_cstar, wake_deltaq, & wake_deltat, wake_delta_pbl_TKE, delta_tsurf, beta_aridity, wake_fip, wake_pe, & wake_s, awake_s, wake_dens, awake_dens, cv_gen, zgam, zmax0, zmea, zpic, zsig, & zstd, zthe, zval, ale_bl, ale_bl_trig, alp_bl, u10m, v10m, treedrg, & ale_wake, ale_bl_stat, ds_ns, dt_ns, delta_sst, delta_sal, dter, dser, & dt_ds, ratqs_inter_ !FC USE lmdz_geometry, ONLY: longitude_deg, latitude_deg USE iostart, ONLY: close_startphy, get_field, get_var, open_startphy USE infotrac_phy, ONLY: nqtot, nbtr, type_trac, tracers USE lmdz_readTracFiles, ONLY: maxlen, new2oldH2O USE traclmdz_mod, ONLY: traclmdz_from_restart USE carbon_cycle_mod, ONLY: carbon_cycle_init, carbon_cycle_cpl, carbon_cycle_tr, carbon_cycle_rad, co2_send, RCO2_glo USE indice_sol_mod, ONLY: nbsrf, is_ter, epsfra, is_lic, is_oce, is_sic USE ocean_slab_mod, ONLY: nslay, tslab, seaice, tice, ocean_slab_init USE time_phylmdz_mod, ONLY: init_iteration, pdtphys, itau_phy USE lmdz_wxios, ONLY: missing_val_xios => missing_val, using_xios USE netcdf, ONLY: missing_val_netcdf => nf90_fill_real USE config_ocean_skin_m, ONLY: activate_ocean_skin IMPLICIT none !====================================================================== ! Auteur(s) Z.X. Li (LMD/CNRS) date: 19930818 ! Objet: Lecture de l'etat initial pour la physique !====================================================================== include "dimsoil.h" include "clesphys.h" include "alpale.h" include "compbl.h" include "YOMCST.h" !====================================================================== CHARACTER*(*) fichnom ! les variables globales lues dans le fichier restart REAL tsoil(klon, nsoilmx, nbsrf) REAL qsurf(klon, nbsrf) REAL snow(klon, nbsrf) REAL fder(klon) REAL run_off_lic_0(klon) REAL fractint(klon) REAL trs(klon, nbtr) REAL zts(klon) ! pour drag arbres FC REAL drg_ter(klon, klev) CHARACTER*6 ocean_in LOGICAL ok_veget_in INTEGER longcles PARAMETER (longcles = 20) REAL clesphy0(longcles) REAL xmin, xmax INTEGER nid, nvarid INTEGER ierr, i, nsrf, isoil, k INTEGER length PARAMETER (length = 100) INTEGER it, iq, isw REAL tab_cntrl(length), tabcntr0(length) CHARACTER*7 str7 CHARACTER*2 str2 LOGICAL :: found REAL :: lon_startphy(klon), lat_startphy(klon) CHARACTER(LEN = maxlen) :: tname, t(2) REAL :: missing_val IF (using_xios) THEN missing_val = missing_val_xios ELSE missing_val = missing_val_netcdf ENDIF ! FH1D ! real iolat(jjm+1) !real iolat(jjm+1-1/(iim*jjm)) ! Ouvrir le fichier contenant l'etat initial: CALL open_startphy(fichnom) ! Lecture des parametres de controle: CALL get_var("controle", tab_cntrl) !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! FH 2008/05/09 On elimine toutes les clefs physiques dans la dynamique ! Les constantes de la physiques sont lues dans la physique seulement. ! Les egalites du type ! tab_cntrl( 5 )=clesphy0(1) ! sont remplacees par ! clesphy0(1)=tab_cntrl( 5 ) ! On inverse aussi la logique. ! On remplit les tab_cntrl avec les parametres lus dans les .def !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! DO i = 1, length tabcntr0(i) = tab_cntrl(i) ENDDO tab_cntrl(1) = pdtphys tab_cntrl(2) = radpas ! co2_ppm : value from the previous time step ! co2_ppm0 : initial value of atmospheric CO2 (from create_etat0_limit.e .def) co2_ppm0 = 284.32 ! when no initial value is available e.g., from a restart ! this variable must be set in a .def file which will then be ! used by the conf_phys_m.F90 routine. ! co2_ppm0 = 284.32 (illustrative example on how to set the variable in .def ! file, for a pre-industrial CO2 concentration value) IF (carbon_cycle_tr .OR. carbon_cycle_cpl) THEN co2_ppm = tab_cntrl(3) RCO2 = co2_ppm * 1.0e-06 * RMCO2 / RMD IF (tab_cntrl(17) > 0. .AND. carbon_cycle_rad) THEN RCO2_glo = tab_cntrl(17) ELSE RCO2_glo = co2_ppm0 * 1.0e-06 * RMCO2 / RMD ENDIF ! ELSE : keep value from .def ENDIF solaire_etat0 = tab_cntrl(4) tab_cntrl(5) = iflag_con tab_cntrl(6) = nbapp_rad IF (iflag_cycle_diurne>=1) tab_cntrl(7) = iflag_cycle_diurne IF (soil_model) tab_cntrl(8) = 1. IF (new_oliq) tab_cntrl(9) = 1. IF (ok_orodr) tab_cntrl(10) = 1. IF (ok_orolf) tab_cntrl(11) = 1. IF (ok_limitvrai) tab_cntrl(12) = 1. itau_phy = tab_cntrl(15) clesphy0(1) = tab_cntrl(5) clesphy0(2) = tab_cntrl(6) clesphy0(3) = tab_cntrl(7) clesphy0(4) = tab_cntrl(8) clesphy0(5) = tab_cntrl(9) clesphy0(6) = tab_cntrl(10) clesphy0(7) = tab_cntrl(11) clesphy0(8) = tab_cntrl(12) clesphy0(9) = tab_cntrl(17) ! set time iteration CALL init_iteration(itau_phy) ! read latitudes and make a sanity check (because already known from dyn) CALL get_field("latitude", lat_startphy) DO i = 1, klon IF (ABS(lat_startphy(i) - latitude_deg(i))>=1) THEN WRITE(*, *) "phyetat0: Error! Latitude discrepancy wrt startphy file:", & " i=", i, " lat_startphy(i)=", lat_startphy(i), & " latitude_deg(i)=", latitude_deg(i) ! This is presumably serious enough to abort run CALL abort_physic("phyetat0", "discrepancy in latitudes!", 1) ENDIF IF (ABS(lat_startphy(i) - latitude_deg(i))>=0.0001) THEN WRITE(*, *) "phyetat0: Warning! Latitude discrepancy wrt startphy file:", & " i=", i, " lat_startphy(i)=", lat_startphy(i), & " latitude_deg(i)=", latitude_deg(i) ENDIF ENDDO ! read longitudes and make a sanity check (because already known from dyn) CALL get_field("longitude", lon_startphy) DO i = 1, klon IF (ABS(lon_startphy(i) - longitude_deg(i))>=1) THEN IF (ABS(360 - ABS(lon_startphy(i) - longitude_deg(i)))>=1) THEN WRITE(*, *) "phyetat0: Error! Longitude discrepancy wrt startphy file:", & " i=", i, " lon_startphy(i)=", lon_startphy(i), & " longitude_deg(i)=", longitude_deg(i) ! This is presumably serious enough to abort run CALL abort_physic("phyetat0", "discrepancy in longitudes!", 1) ENDIF ENDIF IF (ABS(lon_startphy(i) - longitude_deg(i))>=1) THEN IF (ABS(360 - ABS(lon_startphy(i) - longitude_deg(i))) > 0.0001) THEN WRITE(*, *) "phyetat0: Warning! Longitude discrepancy wrt startphy file:", & " i=", i, " lon_startphy(i)=", lon_startphy(i), & " longitude_deg(i)=", longitude_deg(i) ENDIF ENDIF ENDDO ! Lecture du masque terre mer CALL get_field("masque", zmasq, found) IF (.NOT. found) THEN PRINT*, 'phyetat0: Le champ est absent' PRINT *, 'fichier startphy non compatible avec phyetat0' ENDIF ! Lecture des fractions pour chaque sous-surface ! initialisation des sous-surfaces pctsrf = 0. ! fraction de terre CALL get_field("FTER", pctsrf(:, is_ter), found) IF (.NOT. found) PRINT*, 'phyetat0: Le champ est absent' ! fraction de glace de terre CALL get_field("FLIC", pctsrf(:, is_lic), found) IF (.NOT. found) PRINT*, 'phyetat0: Le champ est absent' ! fraction d'ocean CALL get_field("FOCE", pctsrf(:, is_oce), found) IF (.NOT. found) PRINT*, 'phyetat0: Le champ est absent' ! fraction glace de mer CALL get_field("FSIC", pctsrf(:, is_sic), found) IF (.NOT. found) PRINT*, 'phyetat0: Le champ est absent' ! Verification de l'adequation entre le masque et les sous-surfaces fractint(1:klon) = pctsrf(1:klon, is_ter) & + pctsrf(1:klon, is_lic) DO i = 1, klon IF (abs(fractint(i) - zmasq(i)) > EPSFRA) THEN WRITE(*, *) 'phyetat0: attention fraction terre pas ', & 'coherente ', i, zmasq(i), pctsrf(i, is_ter) & , pctsrf(i, is_lic) WRITE(*, *) 'Je force la coherence zmasq=fractint' zmasq(i) = fractint(i) ENDIF ENDDO fractint (1:klon) = pctsrf(1:klon, is_oce) & + pctsrf(1:klon, is_sic) DO i = 1, klon IF (abs(fractint(i) - (1. - zmasq(i))) > EPSFRA) THEN WRITE(*, *) 'phyetat0 attention fraction ocean pas ', & 'coherente ', i, zmasq(i), pctsrf(i, is_oce) & , pctsrf(i, is_sic) WRITE(*, *) 'Je force la coherence zmasq=1.-fractint' zmasq(i) = 1. - fractint(i) ENDIF ENDDO !=================================================================== ! Lecture des temperatures du sol: !=================================================================== found = phyetat0_get(ftsol(:, 1), "TS", "Surface temperature", 283.) IF (found) THEN DO nsrf = 2, nbsrf ftsol(:, nsrf) = ftsol(:, 1) ENDDO ELSE found = phyetat0_srf(ftsol, "TS", "Surface temperature", 283.) ENDIF !=================================================================== ! Lecture des albedo difus et direct !=================================================================== DO nsrf = 1, nbsrf DO isw = 1, nsw IF (isw>99) THEN PRINT*, "Trop de bandes SW" CALL abort_physic("phyetat0", "", 1) ENDIF WRITE(str2, '(i2.2)') isw found = phyetat0_srf(falb_dir(:, isw, :), "A_dir_SW" // str2 // "srf", "Direct Albedo", 0.2) found = phyetat0_srf(falb_dif(:, isw, :), "A_dif_SW" // str2 // "srf", "Direct Albedo", 0.2) ENDDO ENDDO found = phyetat0_srf(u10m, "U10M", "u a 10m", 0.) found = phyetat0_srf(v10m, "V10M", "v a 10m", 0.) !=================================================================== ! Lecture dans le cas iflag_pbl_surface =1 !=================================================================== IF (iflag_physiq <= 1) THEN !=================================================================== ! Lecture des temperatures du sol profond: !=================================================================== DO isoil = 1, nsoilmx IF (isoil>99) THEN PRINT*, "Trop de couches " CALL abort_physic("phyetat0", "", 1) ENDIF WRITE(str2, '(i2.2)') isoil found = phyetat0_srf(tsoil(:, isoil, :), "Tsoil" // str2 // "srf", "Temp soil", 0.) IF (.NOT. found) THEN PRINT*, "phyetat0: Le champ est absent" PRINT*, " Il prEND DOnc la valeur de surface" tsoil(:, isoil, :) = ftsol(:, :) ENDIF ENDDO !======================================================================= ! Lecture precipitation/evaporation !======================================================================= found = phyetat0_srf(qsurf, "QS", "Near surface hmidity", 0.) found = phyetat0_get(qsol, "QSOL", "Surface hmidity / bucket", 0.) found = phyetat0_srf(snow, "SNOW", "Surface snow", 0.) found = phyetat0_srf(fevap, "EVAP", "evaporation", 0.) found = phyetat0_get(snow_fall, "snow_f", "snow fall", 0.) found = phyetat0_get(rain_fall, "rain_f", "rain fall", 0.) IF (ok_bs) THEN found = phyetat0_get(bs_fall, "bs_f", "blowing snow fall", 0.) ELSE bs_fall(:) = 0. ENDIF !======================================================================= ! Radiation !======================================================================= found = phyetat0_get(solsw, "solsw", "net SW radiation surf", 0.) found = phyetat0_get(solswfdiff, "solswfdiff", "fraction of SW radiation surf that is diffuse", 1.) found = phyetat0_get(sollw, "sollw", "net LW radiation surf", 0.) found = phyetat0_get(sollwdown, "sollwdown", "down LW radiation surf", 0.) IF (.NOT. found) THEN sollwdown(:) = 0. ; zts(:) = 0. DO nsrf = 1, nbsrf zts(:) = zts(:) + ftsol(:, nsrf) * pctsrf(:, nsrf) ENDDO sollwdown(:) = sollw(:) + RSIGMA * zts(:)**4 ENDIF found = phyetat0_get(radsol, "RADS", "Solar radiation", 0.) found = phyetat0_get(fder, "fder", "Flux derivative", 0.) ! Lecture de la longueur de rugosite found = phyetat0_srf(z0m, "RUG", "Z0m ancien", 0.001) IF (found) THEN z0h(:, 1:nbsrf) = z0m(:, 1:nbsrf) ELSE found = phyetat0_srf(z0m, "Z0m", "Roughness length, momentum ", 0.001) found = phyetat0_srf(z0h, "Z0h", "Roughness length, enthalpy ", 0.001) ENDIF !FC IF (ifl_pbltree>0) THEN !CALL get_field("FTER", pctsrf(:, is_ter), found) treedrg(:, 1:klev, 1:nbsrf) = 0.0 CALL get_field("treedrg_ter", drg_ter(:, :), found) ! found=phyetat0_srf(treedrg,"treedrg","drag from vegetation" , 0.) !lecture du profile de freinage des arbres IF (.NOT. found) THEN treedrg(:, 1:klev, 1:nbsrf) = 0.0 ELSE treedrg(:, 1:klev, is_ter) = drg_ter(:, :) ! found=phyetat0_get(treedrg,"treedrg","freinage arbres",0.) ENDIF ELSE ! initialize treedrg(), because it will be written in restartphy.nc treedrg(:, :, :) = 0.0 ENDIF endif ! iflag_physiq <= 1 ! Lecture de l'age de la neige: found = phyetat0_srf(agesno, "AGESNO", "SNOW AGE", 0.001) ancien_ok = .TRUE. ancien_ok = ancien_ok.AND.phyetat0_get(t_ancien, "TANCIEN", "TANCIEN", 0.) ancien_ok = ancien_ok.AND.phyetat0_get(q_ancien, "QANCIEN", "QANCIEN", 0.) ancien_ok = ancien_ok.AND.phyetat0_get(ql_ancien, "QLANCIEN", "QLANCIEN", 0.) ancien_ok = ancien_ok.AND.phyetat0_get(qs_ancien, "QSANCIEN", "QSANCIEN", 0.) ancien_ok = ancien_ok.AND.phyetat0_get(rneb_ancien, "RNEBANCIEN", "RNEBANCIEN", 0.) ancien_ok = ancien_ok.AND.phyetat0_get(u_ancien, "UANCIEN", "UANCIEN", 0.) ancien_ok = ancien_ok.AND.phyetat0_get(v_ancien, "VANCIEN", "VANCIEN", 0.) ancien_ok = ancien_ok.AND.phyetat0_get(prw_ancien, "PRWANCIEN", "PRWANCIEN", 0.) ancien_ok = ancien_ok.AND.phyetat0_get(prlw_ancien, "PRLWANCIEN", "PRLWANCIEN", 0.) ancien_ok = ancien_ok.AND.phyetat0_get(prsw_ancien, "PRSWANCIEN", "PRSWANCIEN", 0.) ! cas specifique des variables de la neige soufflee IF (ok_bs) THEN ancien_ok = ancien_ok.AND.phyetat0_get(qbs_ancien, "QBSANCIEN", "QBSANCIEN", 0.) ancien_ok = ancien_ok.AND.phyetat0_get(prbsw_ancien, "PRBSWANCIEN", "PRBSWANCIEN", 0.) ELSE qbs_ancien(:, :) = 0. prbsw_ancien(:) = 0. ENDIF ! Ehouarn: addtional tests to check if t_ancien, q_ancien contain ! dummy values (as is the case when generated by ce0l, ! or by iniaqua) IF ((maxval(q_ancien)==minval(q_ancien)) .OR. & (maxval(ql_ancien)==minval(ql_ancien)) .OR. & (maxval(qs_ancien)==minval(qs_ancien)) .OR. & (maxval(rneb_ancien)==minval(rneb_ancien)) .OR. & (maxval(prw_ancien)==minval(prw_ancien)) .OR. & (maxval(prlw_ancien)==minval(prlw_ancien)) .OR. & (maxval(prsw_ancien)==minval(prsw_ancien)) .OR. & (maxval(t_ancien)==minval(t_ancien))) THEN ancien_ok = .FALSE. ENDIF IF (ok_bs) THEN IF ((maxval(qbs_ancien)==minval(qbs_ancien)) .OR. & (maxval(prbsw_ancien)==minval(prbsw_ancien))) THEN ancien_ok = .FALSE. ENDIF ENDIF found = phyetat0_get(clwcon, "CLWCON", "CLWCON", 0.) found = phyetat0_get(rnebcon, "RNEBCON", "RNEBCON", 0.) found = phyetat0_get(ratqs, "RATQS", "RATQS", 0.) found = phyetat0_get(run_off_lic_0, "RUNOFFLIC0", "RUNOFFLIC0", 0.) !================================== ! TKE !================================== IF (iflag_pbl>1) THEN found = phyetat0_srf(pbl_tke, "TKE", "Turb. Kinetic. Energ. ", 1.e-8) ENDIF IF (iflag_pbl>1 .AND. iflag_wake>=1 .AND. iflag_pbl_split >=1) THEN found = phyetat0_srf(wake_delta_pbl_tke, "DELTATKE", "Del TKE wk/env", 0.) !! found=phyetat0_srf(delta_tsurf,"DELTA_TSURF","Delta Ts wk/env ",0.) found = phyetat0_srf(delta_tsurf, "DELTATS", "Delta Ts wk/env ", 0.) !! found=phyetat0_srf(beta_aridity,"BETA_S","Aridity factor ",1.) found = phyetat0_srf(beta_aridity, "BETAS", "Aridity factor ", 1.) ENDIF !(iflag_pbl>1 .AND. iflag_wake>=1 .AND. iflag_pbl_split >=1 ) !================================== ! thermiques, poches, convection !================================== ! Emanuel found = phyetat0_get(sig1, "sig1", "sig1", 0.) found = phyetat0_get(w01, "w01", "w01", 0.) ! Wake found = phyetat0_get(wake_deltat, "WAKE_DELTAT", "Delta T wake/env", 0.) found = phyetat0_get(wake_deltaq, "WAKE_DELTAQ", "Delta hum. wake/env", 0.) found = phyetat0_get(wake_s, "WAKE_S", "Wake frac. area", 0.) found = phyetat0_get(awake_s, "AWAKE_S", "Active Wake frac. area", 0.) !jyg< ! Set wake_dens to -1000. when there is no restart so that the actual ! initialization is made in calwake. !! found=phyetat0_get(1,wake_dens,"WAKE_DENS","Wake num. /unit area",0.) found = phyetat0_get(wake_dens, "WAKE_DENS", "Wake num. /unit area", -1000.) found = phyetat0_get(awake_dens, "AWAKE_DENS", "Active Wake num. /unit area", 0.) found = phyetat0_get(cv_gen, "CV_GEN", "CB birth rate", 0.) !>jyg found = phyetat0_get(wake_cstar, "WAKE_CSTAR", "WAKE_CSTAR", 0.) found = phyetat0_get(wake_pe, "WAKE_PE", "WAKE_PE", 0.) found = phyetat0_get(wake_fip, "WAKE_FIP", "WAKE_FIP", 0.) ! Thermiques found = phyetat0_get(zmax0, "ZMAX0", "ZMAX0", 40.) found = phyetat0_get(f0, "F0", "F0", 1.e-5) found = phyetat0_get(fm_therm, "FM_THERM", "Thermals mass flux", 0.) found = phyetat0_get(entr_therm, "ENTR_THERM", "Thermals Entrain.", 0.) found = phyetat0_get(detr_therm, "DETR_THERM", "Thermals Detrain.", 0.) ! ALE/ALP found = phyetat0_get(ale_bl, "ALE_BL", "ALE BL", 0.) found = phyetat0_get(ale_bl_trig, "ALE_BL_TRIG", "ALE BL_TRIG", 0.) found = phyetat0_get(alp_bl, "ALP_BL", "ALP BL", 0.) found = phyetat0_get(ale_wake, "ALE_WAKE", "ALE_WAKE", 0.) found = phyetat0_get(ale_bl_stat, "ALE_BL_STAT", "ALE_BL_STAT", 0.) ! fisrtilp/Clouds 0.002 could be ratqsbas. But can stay like this as well found = phyetat0_get(ratqs_inter_, "RATQS_INTER", "Relative width of the lsc sugrid scale water", 0.002) !=========================================== ! Read and send field trs to traclmdz !=========================================== !--OB now this is for co2i - ThL: and therefore also for inco IF (ANY(type_trac == ['co2i', 'inco'])) THEN IF (carbon_cycle_cpl) THEN ALLOCATE(co2_send(klon), stat = ierr) IF (ierr /= 0) CALL abort_physic('phyetat0', 'pb allocation co2_send', 1) found = phyetat0_get(co2_send, "co2_send", "co2 send", co2_ppm0) ENDIF ELSE IF (type_trac == 'lmdz') THEN it = 0 DO iq = 1, nqtot IF(.NOT.(tracers(iq)%isAdvected .AND. tracers(iq)%isInPhysics)) CYCLE it = it + 1 tname = tracers(iq)%name t(1) = 'trs_' // TRIM(tname); t(2) = 'trs_' // TRIM(new2oldH2O(tname)) found = phyetat0_get(trs(:, it), t(:), "Surf trac" // TRIM(tname), 0.) END DO CALL traclmdz_from_restart(trs) ENDIF !=========================================== ! ondes de gravite / relief !=========================================== ! ondes de gravite non orographiques IF (ok_gwd_rando) found = & phyetat0_get(du_gwd_rando, "du_gwd_rando", "du_gwd_rando", 0.) IF (.NOT. ok_hines .AND. ok_gwd_rando) found & = phyetat0_get(du_gwd_front, "du_gwd_front", "du_gwd_front", 0.) ! prise en compte du relief sous-maille found = phyetat0_get(zmea, "ZMEA", "sub grid orography", 0.) found = phyetat0_get(zstd, "ZSTD", "sub grid orography", 0.) found = phyetat0_get(zsig, "ZSIG", "sub grid orography", 0.) found = phyetat0_get(zgam, "ZGAM", "sub grid orography", 0.) found = phyetat0_get(zthe, "ZTHE", "sub grid orography", 0.) found = phyetat0_get(zpic, "ZPIC", "sub grid orography", 0.) found = phyetat0_get(zval, "ZVAL", "sub grid orography", 0.) found = phyetat0_get(zmea, "ZMEA", "sub grid orography", 0.) found = phyetat0_get(rugoro, "RUGSREL", "sub grid orography", 0.) !=========================================== ! Initialize ocean !=========================================== IF (type_ocean == 'slab') THEN CALL ocean_slab_init(phys_tstep, pctsrf) IF (nslay==1) THEN found = phyetat0_get(tslab, ["tslab01", "tslab "], "tslab", 0.) ELSE DO i = 1, nslay WRITE(str2, '(i2.2)') i found = phyetat0_get(tslab(:, i), "tslab" // str2, "tslab", 0.) ENDDO ENDIF IF (.NOT. found) THEN PRINT*, "phyetat0: Le champ est absent" PRINT*, "Initialisation a tsol_oce" DO i = 1, nslay tslab(:, i) = MAX(ftsol(:, is_oce), 271.35) ENDDO ENDIF ! Sea ice variables IF (version_ocean == 'sicINT') THEN found = phyetat0_get(tice, "slab_tice", "slab_tice", 0.) IF (.NOT. found) THEN PRINT*, "phyetat0: Le champ est absent" PRINT*, "Initialisation a tsol_sic" tice(:) = ftsol(:, is_sic) ENDIF found = phyetat0_get(seaice, "seaice", "seaice", 0.) IF (.NOT. found) THEN PRINT*, "phyetat0: Le champ est absent" PRINT*, "Initialisation a 0/1m suivant fraction glace" seaice(:) = 0. WHERE (pctsrf(:, is_sic)>EPSFRA) seaice = 917. ENDWHERE ENDIF ENDIF !sea ice INT ENDIF ! Slab IF (activate_ocean_skin >= 1) THEN IF (activate_ocean_skin == 2 .AND. type_ocean == 'couple') THEN found = phyetat0_get(delta_sal, "delta_sal", & "ocean-air interface salinity minus bulk salinity", 0.) found = phyetat0_get(delta_sst, "delta_SST", & "ocean-air interface temperature minus bulk SST", 0.) found = phyetat0_get(dter, "dter", & "ocean-air interface temperature minus subskin temperature", 0.) found = phyetat0_get(dser, "dser", & "ocean-air interface salinity minus subskin salinity", 0.) found = phyetat0_get(dt_ds, "dt_ds", "(tks / tkt) * dTer", 0.) where (pctsrf(:, is_oce) == 0.) delta_sst = missing_val delta_sal = missing_val dter = missing_val dser = missing_val dt_ds = missing_val end where end if found = phyetat0_get(ds_ns, "dS_ns", "delta salinity near surface", 0.) found = phyetat0_get(dt_ns, "dT_ns", "delta temperature near surface", & 0.) where (pctsrf(:, is_oce) == 0.) ds_ns = missing_val dt_ns = missing_val delta_sst = missing_val delta_sal = missing_val end where end if ! on ferme le fichier CALL close_startphy ! Initialize module pbl_surface_mod IF (iflag_physiq <= 1) THEN CALL pbl_surface_init(fder, snow, qsurf, tsoil) endif ! Initialize module ocean_cpl_mod for the case of coupled ocean IF (type_ocean == 'couple') THEN CALL ocean_cpl_init(phys_tstep, longitude_deg, latitude_deg) ENDIF ! CALL init_iophy_new(latitude_deg, longitude_deg) ! Initilialize module fonte_neige_mod CALL fonte_neige_init(run_off_lic_0) END SUBROUTINE phyetat0 END MODULE phyetat0_mod