SUBROUTINE phyredem(fichnom) !------------------------------------------------------------------------------- ! Author: Z.X. Li (LMD/CNRS), 1993/08/18 !------------------------------------------------------------------------------- ! Purpose: Write restart state for physics. !------------------------------------------------------------------------------- USE dimphy, ONLY: klon, klev USE fonte_neige_mod, ONLY: fonte_neige_final USE pbl_surface_mod, ONLY: pbl_surface_final USE phys_state_var_mod, ONLY: radpas, zmasq, pctsrf, & ftsol, beta_aridity, delta_tsurf, falb_dir, & falb_dif, qsol, fevap, radsol, solsw, sollw, & sollwdown, rain_fall, snow_fall, bs_fall, z0m, z0h, & agesno, zmea, zstd, zsig, zgam, zthe, zpic, & zval, rugoro, t_ancien, q_ancien, & prw_ancien, prlw_ancien, prsw_ancien, prbsw_ancien, & ql_ancien, qs_ancien, qbs_ancien, cf_ancien, rvc_ancien, u_ancien, & v_ancien, clwcon, rnebcon, ratqs, pbl_tke, & wake_delta_pbl_tke, zmax0, f0, sig1, w01, & wake_deltat, wake_deltaq, wake_s, awake_s, & wake_dens, awake_dens, cv_gen, & wake_cstar, & wake_pe, wake_fip, fm_therm, entr_therm, & detr_therm, ale_bl, ale_bl_trig, alp_bl, & ale_wake, ale_bl_stat, & du_gwd_rando, du_gwd_front, u10m, v10m, & treedrg, solswfdiff, delta_sal, ds_ns, dt_ns, & delta_sst, ratqs_inter_, dter, dser, dt_ds USE lmdz_geometry, ONLY: longitude_deg, latitude_deg USE iostart, ONLY: open_restartphy, close_restartphy, enddef_restartphy, put_field, put_var USE traclmdz_mod, ONLY: traclmdz_to_restart USE infotrac_phy, ONLY: type_trac, nqtot, tracers, nbtr USE carbon_cycle_mod, ONLY: carbon_cycle_cpl, co2_send, carbon_cycle_rad, RCO2_glo USE indice_sol_mod, ONLY: nbsrf, is_oce, is_sic, is_ter, is_lic, epsfra USE surface_data, ONLY: type_ocean, version_ocean USE ocean_slab_mod, ONLY: nslay, tslab, seaice, tice, fsic USE time_phylmdz_mod, ONLY: annee_ref, day_end, itau_phy, pdtphys USE config_ocean_skin_m, ONLY: activate_ocean_skin USE lmdz_abort_physic, ONLY: abort_physic USE lmdz_alpale USE lmdz_clesphys USE lmdz_compbl, ONLY: iflag_pbl, iflag_pbl_split, iflag_order2_sollw, ifl_pbltree IMPLICIT NONE include "dimsoil.h" !====================================================================== CHARACTER*(*) fichnom ! les variables globales ecrites 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 trs(klon, nbtr) INTEGER nid, nvarid, idim1, idim2, idim3 INTEGER ierr INTEGER length PARAMETER (length = 100) REAL tab_cntrl(length) INTEGER isoil, nsrf, isw CHARACTER (len = 2) :: str2 CHARACTER (len = 256) :: nam, lnam INTEGER :: it, iq, pass !====================================================================== ! Get variables which will be written to restart file from module ! pbl_surface_mod IF (iflag_physiq <= 1) THEN CALL pbl_surface_final(fder, snow, qsurf, tsoil) ENDIF ! Get a variable calculated in module fonte_neige_mod CALL fonte_neige_final(run_off_lic_0) !====================================================================== CALL open_restartphy(fichnom) DO ierr = 1, length tab_cntrl(ierr) = 0.0 ENDDO tab_cntrl(1) = pdtphys tab_cntrl(2) = radpas ! co2_ppm : current value of atmospheric CO2 tab_cntrl(3) = co2_ppm tab_cntrl(4) = solaire 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. tab_cntrl(13) = day_end tab_cntrl(14) = annee_ref tab_cntrl(15) = itau_phy ! co2_ppm0 : initial value of atmospheric CO2 ! tab_cntrl(16) = co2_ppm0 ! PC -- initial value of RCO2 for the radiation scheme ! tab_cntrl(17) = co2_ppm * 1.0e-06 * RMCO2 / RMD IF (carbon_cycle_rad) tab_cntrl(17) = RCO2_glo !PRINT*, "PC : phyredem RCO2_glo =",RCO2_glo DO pass = 1, 2 ! pass=1 netcdf definition ; pass=2 netcdf write CALL put_var(pass, "controle", "Parametres de controle", tab_cntrl) CALL put_field(pass, "longitude", & "Longitudes de la grille physique", longitude_deg) CALL put_field(pass, "latitude", "Latitudes de la grille physique", latitude_deg) ! PB ajout du masque terre/mer CALL put_field(pass, "masque", "masque terre mer", zmasq) ! BP ajout des fraction de chaque sous-surface ! Get last fractions from slab ocean IF (type_ocean == 'slab' .AND. version_ocean == "sicINT") THEN WHERE (1. - zmasq(:)>EPSFRA) pctsrf(:, is_oce) = (1. - fsic(:)) * (1. - zmasq(:)) pctsrf(:, is_sic) = fsic(:) * (1. - zmasq(:)) END WHERE END IF ! 1. fraction de terre CALL put_field(pass, "FTER", "fraction de continent", pctsrf(:, is_ter)) ! 2. Fraction de glace de terre CALL put_field(pass, "FLIC", "fraction glace de terre", pctsrf(:, is_lic)) ! 3. fraction ocean CALL put_field(pass, "FOCE", "fraction ocean", pctsrf(:, is_oce)) ! 4. Fraction glace de mer CALL put_field(pass, "FSIC", "fraction glace mer", pctsrf(:, is_sic)) IF(nbsrf>99) THEN PRINT*, "Trop de sous-mailles"; CALL abort_physic("phyredem", "", 1) END IF IF(nsoilmx>99) THEN PRINT*, "Trop de sous-surfaces"; CALL abort_physic("phyredem", "", 1) END IF IF(nsw>99) THEN PRINT*, "Trop de bandes"; CALL abort_physic("phyredem", "", 1) END IF ! Surface variables CALL put_field_srf1(pass, "TS", "Temperature", ftsol(:, :)) IF (iflag_pbl>1 .AND. iflag_wake>=1 .AND. iflag_pbl_split >=1) THEN CALL put_field_srf1(pass, "DELTATS", & "w-x surface temperature difference", delta_tsurf(:, :)) CALL put_field_srf1(pass, "BETAS", "Aridity factor", beta_aridity(:, :)) end IF ! End surface variables ! ================== Albedo ======================================= PRINT*, 'PHYREDEM NOUVEAU' CALL put_field_srf2(pass, "A_dir_SW", "Albedo direct", falb_dir(:, :, :)) CALL put_field_srf2(pass, "A_dif_SW", "Albedo diffus", falb_dif(:, :, :)) CALL put_field_srf1(pass, "U10M", "u a 10m", u10m) CALL put_field_srf1(pass, "V10M", "v a 10m", v10m) ! ================== Tsoil ========================================= CALL put_field_srf2(pass, "Tsoil", "Temperature", tsoil(:, :, :)) !FC ! CALL put_field_srf2("treedrg","freinage arbres",treedrg(:,:,:)) CALL put_field(pass, "treedrg_ter", "freinage arbres", treedrg(:, :, is_ter)) CALL put_field_srf1(pass, "QS", "Humidite", qsurf(:, :)) CALL put_field (pass, "QSOL", "Eau dans le sol (mm)", qsol) CALL put_field_srf1(pass, "EVAP", "Evaporation", fevap(:, :)) CALL put_field_srf1(pass, "SNOW", "Neige", snow(:, :)) CALL put_field(pass, "RADS", "Rayonnement net a la surface", radsol) CALL put_field(pass, "solsw", "Rayonnement solaire a la surface", solsw) CALL put_field(pass, "solswfdiff", "Fraction du rayonnement solaire a la surface qui est diffus", solswfdiff) CALL put_field(pass, "sollw", "Rayonnement IF a la surface", sollw) CALL put_field(pass, "sollwdown", "Rayonnement down IF a la surface", sollwdown) CALL put_field(pass, "fder", "Derive de flux", fder) CALL put_field(pass, "rain_f", "precipitation liquide", rain_fall) CALL put_field(pass, "snow_f", "precipitation solide", snow_fall) CALL put_field_srf1(pass, "Z0m", "rugosite", z0m(:, :)) CALL put_field_srf1(pass, "Z0h", "rugosite", z0h(:, :)) CALL put_field_srf1(pass, "AGESNO", "Age de la neige", agesno(:, :)) CALL put_field(pass, "ZMEA", "ZMEA", zmea) CALL put_field(pass, "ZSTD", "ZSTD", zstd) CALL put_field(pass, "ZSIG", "ZSIG", zsig) CALL put_field(pass, "ZGAM", "ZGAM", zgam) CALL put_field(pass, "ZTHE", "ZTHE", zthe) CALL put_field(pass, "ZPIC", "ZPIC", zpic) CALL put_field(pass, "ZVAL", "ZVAL", zval) CALL put_field(pass, "RUGSREL", "RUGSREL", rugoro) CALL put_field(pass, "TANCIEN", "TANCIEN", t_ancien) CALL put_field(pass, "QANCIEN", "QANCIEN", q_ancien) CALL put_field(pass, "QLANCIEN", "QLANCIEN", ql_ancien) CALL put_field(pass, "QSANCIEN", "QSANCIEN", qs_ancien) IF (ok_bs) THEN CALL put_field(pass, "bs_f", "precipitation neige soufflee", bs_fall) CALL put_field(pass, "QBSANCIEN", "QBSANCIEN", qbs_ancien) CALL put_field(pass, "PRBSWANCIEN", "PRBSWANCIEN", prbsw_ancien) ENDIF IF (ok_ice_supersat) THEN CALL put_field(pass, "CFANCIEN", "CFANCIEN", cf_ancien) CALL put_field(pass, "RVCANCIEN", "RVCANCIEN", rvc_ancien) ENDIF CALL put_field(pass, "PRWANCIEN", "PRWANCIEN", prw_ancien) CALL put_field(pass, "PRLWANCIEN", "PRLWANCIEN", prlw_ancien) CALL put_field(pass, "PRSWANCIEN", "PRSWANCIEN", prsw_ancien) CALL put_field(pass, "UANCIEN", "UANCIEN", u_ancien) CALL put_field(pass, "VANCIEN", "VANCIEN", v_ancien) CALL put_field(pass, "CLWCON", "Eau liquide convective", clwcon) CALL put_field(pass, "RNEBCON", "Nebulosite convective", rnebcon) CALL put_field(pass, "RATQS", "Ratqs", ratqs) ! run_off_lic_0 CALL put_field(pass, "RUNOFFLIC0", "Runofflic0", run_off_lic_0) ! DEB TKE PBL ! IF (iflag_pbl>1) THEN CALL put_field_srf3(pass, "TKE", "Energ. Cineti. Turb.", & pbl_tke(:, :, :)) CALL put_field_srf3(pass, "DELTATKE", "Del TKE wk/env.", & wake_delta_pbl_tke(:, :, :)) END IF ! FIN TKE PBL ! !IM ajout zmax0, f0, sig1, w01 !IM wake_deltat, wake_deltaq, wake_s, wake_cstar, wake_pe, wake_fip CALL put_field(pass, "ZMAX0", "ZMAX0", zmax0) CALL put_field(pass, "F0", "F0", f0) CALL put_field(pass, "sig1", "sig1 Emanuel", sig1) CALL put_field(pass, "w01", "w01 Emanuel", w01) ! wake_deltat CALL put_field(pass, "WAKE_DELTAT", "WAKE_DELTAT", wake_deltat) CALL put_field(pass, "WAKE_DELTAQ", "WAKE_DELTAQ", wake_deltaq) CALL put_field(pass, "WAKE_S", "Wake frac. area", wake_s) CALL put_field(pass, "AWAKE_S", "Active Wake frac. area", awake_s) CALL put_field(pass, "WAKE_DENS", "Wake num. /unit area", wake_dens) CALL put_field(pass, "AWAKE_DENS", "Active Wake num. /unit area", awake_dens) CALL put_field(pass, "CV_GEN", "CB birth rate", cv_gen) CALL put_field(pass, "WAKE_CSTAR", "WAKE_CSTAR", wake_cstar) CALL put_field(pass, "WAKE_PE", "WAKE_PE", wake_pe) CALL put_field(pass, "WAKE_FIP", "WAKE_FIP", wake_fip) ! thermiques CALL put_field(pass, "FM_THERM", "FM_THERM", fm_therm) CALL put_field(pass, "ENTR_THERM", "ENTR_THERM", entr_therm) CALL put_field(pass, "DETR_THERM", "DETR_THERM", detr_therm) CALL put_field(pass, "ALE_BL", "ALE_BL", ale_bl) CALL put_field(pass, "ALE_BL_TRIG", "ALE_BL_TRIG", ale_bl_trig) CALL put_field(pass, "ALP_BL", "ALP_BL", alp_bl) CALL put_field(pass, "ALE_WAKE", "ALE_WAKE", ale_wake) CALL put_field(pass, "ALE_BL_STAT", "ALE_BL_STAT", ale_bl_stat) ! fisrtilp/clouds CALL put_field(pass, "RATQS_INTER", "Relative width of the lsc sugrid scale water", ratqs_inter_) IF (ANY(type_trac == ['co2i', 'inco'])) THEN IF (carbon_cycle_cpl) THEN IF (.NOT. ALLOCATED(co2_send)) THEN ! This is the case of create_etat0_limit, ce0l ALLOCATE(co2_send(klon)) co2_send(:) = co2_ppm0 END IF CALL put_field(pass, "co2_send", "co2_ppm for coupling", co2_send) END IF ! trs from traclmdz_mod ELSE IF (type_trac == 'lmdz') THEN CALL traclmdz_to_restart(trs) it = 0 DO iq = 1, nqtot IF(.NOT.(tracers(iq)%isAdvected .AND. tracers(iq)%isInPhysics)) CYCLE it = it + 1 CALL put_field(pass, "trs_" // tracers(iq)%name, "", trs(:, it)) END DO END IF ! Restart variables for Slab ocean IF (type_ocean == 'slab') THEN IF (nslay==1) THEN CALL put_field(pass, "tslab", "Slab ocean temperature", tslab) ELSE DO it = 1, nslay WRITE(str2, '(i2.2)') it CALL put_field(pass, "tslab" // str2, "Slab ocean temperature", tslab(:, it)) END DO END IF IF (version_ocean == 'sicINT') THEN CALL put_field(pass, "seaice", "Slab seaice (kg/m2)", seaice) CALL put_field(pass, "slab_tice", "Slab sea ice temperature", tice) END IF END IF IF (ok_gwd_rando) CALL put_field(pass, "du_gwd_rando", & "tendency on zonal wind due to flott gravity waves", du_gwd_rando) IF (.NOT. ok_hines .AND. ok_gwd_rando) CALL put_field(pass, "du_gwd_front", & "tendency on zonal wind due to acama gravity waves", du_gwd_front) IF (activate_ocean_skin >= 1) THEN IF (activate_ocean_skin == 2 .AND. type_ocean == 'couple') THEN CALL put_field(pass, "delta_sal", & "ocean-air interface salinity minus bulk salinity", delta_sal) CALL put_field(pass, "delta_SST", & "ocean-air interface temperature minus bulk SST", delta_sst) CALL put_field(pass, "dter", & "ocean-air interface temperature minus subskin temperature", & dter) CALL put_field(pass, "dser", & "ocean-air interface salinity minus subskin salinity", dser) CALL put_field(pass, "dt_ds", & "(tks / tkt) * dTer", dt_ds) end if CALL put_field(pass, "dS_ns", "delta salinity near surface", ds_ns) CALL put_field(pass, "dT_ns", "delta temperature near surface", dT_ns) end if IF (pass==1) CALL enddef_restartphy IF (pass==2) CALL close_restartphy ENDDO ! DO pass=1,2 ! pass=1 netcdf definition ; pass=2 netcdf write !$OMP BARRIER CONTAINS SUBROUTINE put_field_srf1(pass, nam, lnam, field) IMPLICIT NONE INTEGER, INTENT(IN) :: pass CHARACTER(LEN = *), INTENT(IN) :: nam, lnam REAL, INTENT(IN) :: field(:, :) CHARACTER(LEN = 256) :: nm, lm, str DO nsrf = 1, SIZE(field, 2) WRITE(str, '(i2.2)') nsrf nm = TRIM(nam) // TRIM(str) lm = TRIM(lnam) // " de surface No. " // TRIM(str) CALL put_field(pass, nm, lm, field(:, nsrf)) END DO END SUBROUTINE put_field_srf1 SUBROUTINE put_field_srf2(pass, nam, lnam, field) IMPLICIT NONE INTEGER, INTENT(IN) :: pass CHARACTER(LEN = *), INTENT(IN) :: nam, lnam REAL, INTENT(IN) :: field(:, :, :) CHARACTER(LEN = 256) :: nm, lm, str DO nsrf = 1, SIZE(field, 3) DO isoil = 1, SIZE(field, 2) WRITE(str, '(i2.2,"srf",i2.2)')isoil, nsrf ! WRITE(lunout,*)"PHYREDEM ",TRIM(nam)//TRIM(str) nm = TRIM(nam) // TRIM(str) lm = TRIM(lnam) // " du sol No. " // TRIM(str) CALL put_field(pass, nm, lm, field(:, isoil, nsrf)) END DO END DO END SUBROUTINE put_field_srf2 SUBROUTINE put_field_srf3(pass, nam, lnam, field) IMPLICIT NONE INTEGER, INTENT(IN) :: pass CHARACTER(LEN = *), INTENT(IN) :: nam, lnam REAL, INTENT(IN) :: field(:, :, :) CHARACTER(LEN = 256) :: nm, lm, str DO nsrf = 1, SIZE(field, 3) WRITE(str, '(i2.2)') nsrf nm = TRIM(nam) // TRIM(str) lm = TRIM(lnam) // TRIM(str) CALL put_field(pass, nm, lm, field(:, 1:klev + 1, nsrf)) END DO END SUBROUTINE put_field_srf3 END SUBROUTINE phyredem