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module phyredem_m |
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IMPLICIT NONE |
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contains |
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SUBROUTINE phyredem(fichnom, rlat, rlon, pctsrf, tsol, tsoil, tslab, & |
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seaice, qsurf, qsol, snow, albedo, alblw, evap, rain_fall,& |
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snow_fall, solsw, sollw, fder, radsol, frugs, agesno, zmea,& |
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zstd, zsig, zgam, zthe, zpic, zval, t_ancien, q_ancien,& |
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rnebcon, ratqs, clwcon, run_off_lic_0) |
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! From phylmd/phyredem.F, v 1.3 2005/05/25 13:10:09 |
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! Auteur(s) Z.X. Li (LMD/CNRS) date: 19930818 |
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! Objet: Ecriture de l'etat de démarrage ou redémarrage pour la physique |
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USE indicesol, ONLY : is_lic, is_oce, is_sic, is_ter, nbsrf |
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USE dimphy, ONLY : klev, klon, zmasq |
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USE dimsoil, ONLY : nsoilmx |
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USE temps, ONLY : itau_phy |
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USE netcdf95, ONLY : nf95_create, nf95_put_att |
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USE netcdf, ONLY : nf90_clobber, nf90_global |
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INCLUDE 'netcdf.inc' |
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CHARACTER(len=*) fichnom |
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REAL, INTENT (IN) :: rlat(klon), rlon(klon) |
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REAL :: tsol(klon, nbsrf) |
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REAL :: tsoil(klon, nsoilmx, nbsrf) |
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REAL :: tslab(klon), seaice(klon) !IM "slab" ocean |
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REAL :: qsurf(klon, nbsrf) |
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REAL :: qsol(klon) |
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REAL :: snow(klon, nbsrf) |
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REAL :: albedo(klon, nbsrf) |
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REAL :: alblw(klon, nbsrf) |
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REAL :: evap(klon, nbsrf) |
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REAL :: rain_fall(klon) |
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REAL :: snow_fall(klon) |
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REAL :: solsw(klon) |
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REAL :: sollw(klon) |
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REAL :: fder(klon) |
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REAL :: radsol(klon) |
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REAL :: frugs(klon, nbsrf) |
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REAL :: agesno(klon, nbsrf) |
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REAL :: zmea(klon) |
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REAL, intent(in):: zstd(klon) |
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REAL, intent(in):: zsig(klon) |
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REAL :: zgam(klon) |
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REAL :: zthe(klon) |
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REAL :: zpic(klon) |
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REAL :: zval(klon) |
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REAL :: pctsrf(klon, nbsrf) |
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REAL :: t_ancien(klon, klev), q_ancien(klon, klev) |
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REAL :: clwcon(klon, klev), rnebcon(klon, klev), ratqs(klon, klev) |
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REAL :: run_off_lic_0(klon) |
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INTEGER :: nid, nvarid, idim2, idim3 |
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INTEGER :: ierr |
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INTEGER :: isoil, nsrf |
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CHARACTER (7) :: str7 |
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CHARACTER (2) :: str2 |
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!------------------------------------------------------------ |
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PRINT *, 'Call sequence information: phyredem' |
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CALL nf95_create(fichnom, nf90_clobber, nid) |
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call nf95_put_att(nid, nf90_global, 'title', 'Fichier redémarrage physique') |
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call nf95_put_att(nid, nf90_global, "itau_phy", itau_phy) |
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ierr = nf_def_dim(nid, 'points_physiques', klon, idim2) |
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ierr = nf_def_dim(nid, 'horizon_vertical', klon*klev, idim3) |
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ierr = nf_def_var(nid, 'longitude', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 32, & |
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'Longitudes de la grille physique') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, rlon) |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'latitude', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 31, & |
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'Latitudes de la grille physique') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, rlat) |
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! PB ajout du masque terre/mer |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'masque', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 16, 'masque terre mer') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, zmasq) |
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! BP ajout des fraction de chaque sous-surface |
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! 1. fraction de terre |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'FTER', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 21, 'fraction de continent') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, pctsrf(1:klon, is_ter)) |
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! 2. Fraction de glace de terre |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'FLIC', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 24, 'fraction glace de terre') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, pctsrf(1:klon, is_lic)) |
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! 3. fraction ocean |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'FOCE', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 14, 'fraction ocean') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, pctsrf(1:klon, is_oce)) |
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! 4. Fraction glace de mer |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'FSIC', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 18, 'fraction glace mer') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, pctsrf(1:klon, is_sic)) |
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DO nsrf = 1, nbsrf |
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IF (nsrf<=99) THEN |
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WRITE (str2, '(i2.2)') nsrf |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'TS'//str2, nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 28, & |
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'Temperature de surface No.'//str2) |
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ierr = nf_enddef(nid) |
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ELSE |
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PRINT *, 'Trop de sous-mailles' |
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STOP 1 |
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END IF |
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ierr = nf_put_var_real(nid, nvarid, tsol(1, nsrf)) |
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END DO |
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DO nsrf = 1, nbsrf |
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DO isoil = 1, nsoilmx |
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IF (isoil<=99 .AND. nsrf<=99) THEN |
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WRITE (str7, '(i2.2, "srf", i2.2)') isoil, nsrf |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'Tsoil'//str7, nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 29, & |
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'Temperature du sol No.'//str7) |
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ierr = nf_enddef(nid) |
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ELSE |
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PRINT *, 'Trop de couches' |
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STOP 1 |
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END IF |
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ierr = nf_put_var_real(nid, nvarid, tsoil(1, isoil, nsrf)) |
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END DO |
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END DO |
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!IM "slab" ocean |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'TSLAB', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 33, & |
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'Ecart de la SST (pour slab-ocean)') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, tslab) |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'SEAICE', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 33, & |
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'Glace de mer kg/m2 (pour slab-ocean)') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, seaice) |
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DO nsrf = 1, nbsrf |
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IF (nsrf<=99) THEN |
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WRITE (str2, '(i2.2)') nsrf |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'QS'//str2, nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 25, & |
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'Humidite de surface No.'//str2) |
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ierr = nf_enddef(nid) |
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ELSE |
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PRINT *, 'Trop de sous-mailles' |
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STOP 1 |
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END IF |
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ierr = nf_put_var_real(nid, nvarid, qsurf(1, nsrf)) |
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END DO |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'QSOL', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 20, 'Eau dans le sol (mm)') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, qsol) |
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DO nsrf = 1, nbsrf |
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IF (nsrf<=99) THEN |
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WRITE (str2, '(i2.2)') nsrf |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'ALBE'//str2, nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 23, & |
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'albedo de surface No.'//str2) |
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ierr = nf_enddef(nid) |
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ELSE |
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PRINT *, 'Trop de sous-mailles' |
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STOP 1 |
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END IF |
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ierr = nf_put_var_real(nid, nvarid, albedo(1, nsrf)) |
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END DO |
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!IM BEG albedo LW |
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DO nsrf = 1, nbsrf |
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IF (nsrf<=99) THEN |
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WRITE (str2, '(i2.2)') nsrf |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'ALBLW'//str2, nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 23, & |
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'albedo LW de surface No.'//str2) |
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ierr = nf_enddef(nid) |
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ELSE |
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PRINT *, 'Trop de sous-mailles' |
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STOP 1 |
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END IF |
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ierr = nf_put_var_real(nid, nvarid, alblw(1, nsrf)) |
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END DO |
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!IM END albedo LW |
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DO nsrf = 1, nbsrf |
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IF (nsrf<=99) THEN |
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WRITE (str2, '(i2.2)') nsrf |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'EVAP'//str2, nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 28, & |
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'Evaporation de surface No.'//str2) |
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ierr = nf_enddef(nid) |
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ELSE |
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PRINT *, 'Trop de sous-mailles' |
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STOP 1 |
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END IF |
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ierr = nf_put_var_real(nid, nvarid, evap(1, nsrf)) |
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END DO |
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DO nsrf = 1, nbsrf |
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IF (nsrf<=99) THEN |
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WRITE (str2, '(i2.2)') nsrf |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'SNOW'//str2, nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 22, & |
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'Neige de surface No.'//str2) |
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ierr = nf_enddef(nid) |
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ELSE |
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PRINT *, 'Trop de sous-mailles' |
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STOP 1 |
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END IF |
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ierr = nf_put_var_real(nid, nvarid, snow(1, nsrf)) |
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END DO |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'RADS', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 28, & |
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'Rayonnement net a la surface') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, radsol) |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'solsw', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 32, & |
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'Rayonnement solaire a la surface') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, solsw) |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'sollw', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 27, & |
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'Rayonnement IF a la surface') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, sollw) |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'fder', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 14, 'Derive de flux') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, fder) |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'rain_f', nf_float, 1, idim2, nvarid) |
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ierr = nf_put_att_text(nid, nvarid, 'title', 21, 'precipitation liquide') |
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ierr = nf_enddef(nid) |
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ierr = nf_put_var_real(nid, nvarid, rain_fall) |
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ierr = nf_redef(nid) |
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ierr = nf_def_var(nid, 'snow_f', nf_float, 1, idim2, nvarid) |
301 |
|
|
ierr = nf_put_att_text(nid, nvarid, 'title', 20, 'precipitation solide') |
302 |
|
|
ierr = nf_enddef(nid) |
303 |
|
|
ierr = nf_put_var_real(nid, nvarid, snow_fall) |
304 |
guez |
12 |
|
305 |
guez |
15 |
DO nsrf = 1, nbsrf |
306 |
|
|
IF (nsrf<=99) THEN |
307 |
|
|
WRITE (str2, '(i2.2)') nsrf |
308 |
|
|
ierr = nf_redef(nid) |
309 |
|
|
ierr = nf_def_var(nid, 'RUG'//str2, nf_float, 1, idim2, nvarid) |
310 |
|
|
ierr = nf_put_att_text(nid, nvarid, 'title', 23, & |
311 |
|
|
'rugosite de surface No.'//str2) |
312 |
|
|
ierr = nf_enddef(nid) |
313 |
|
|
ELSE |
314 |
|
|
PRINT *, 'Trop de sous-mailles' |
315 |
|
|
STOP 1 |
316 |
|
|
END IF |
317 |
|
|
ierr = nf_put_var_real(nid, nvarid, frugs(1, nsrf)) |
318 |
|
|
END DO |
319 |
guez |
12 |
|
320 |
guez |
15 |
DO nsrf = 1, nbsrf |
321 |
|
|
IF (nsrf<=99) THEN |
322 |
|
|
WRITE (str2, '(i2.2)') nsrf |
323 |
|
|
ierr = nf_redef(nid) |
324 |
|
|
ierr = nf_def_var(nid, 'AGESNO'//str2, nf_float, 1, idim2, nvarid) |
325 |
|
|
ierr = nf_put_att_text(nid, nvarid, 'title', 15, & |
326 |
|
|
'Age de la neige surface No.'//str2) |
327 |
|
|
ierr = nf_enddef(nid) |
328 |
|
|
ELSE |
329 |
|
|
PRINT *, 'Trop de sous-mailles' |
330 |
|
|
STOP 1 |
331 |
|
|
END IF |
332 |
|
|
ierr = nf_put_var_real(nid, nvarid, agesno(1, nsrf)) |
333 |
|
|
END DO |
334 |
guez |
12 |
|
335 |
guez |
15 |
ierr = nf_redef(nid) |
336 |
|
|
ierr = nf_def_var(nid, 'ZMEA', nf_float, 1, idim2, nvarid) |
337 |
|
|
ierr = nf_enddef(nid) |
338 |
|
|
ierr = nf_put_var_real(nid, nvarid, zmea) |
339 |
guez |
12 |
|
340 |
guez |
15 |
ierr = nf_redef(nid) |
341 |
|
|
ierr = nf_def_var(nid, 'ZSTD', nf_float, 1, idim2, nvarid) |
342 |
|
|
ierr = nf_enddef(nid) |
343 |
|
|
ierr = nf_put_var_real(nid, nvarid, zstd) |
344 |
|
|
ierr = nf_redef(nid) |
345 |
|
|
ierr = nf_def_var(nid, 'ZSIG', nf_float, 1, idim2, nvarid) |
346 |
|
|
ierr = nf_enddef(nid) |
347 |
|
|
ierr = nf_put_var_real(nid, nvarid, zsig) |
348 |
|
|
ierr = nf_redef(nid) |
349 |
|
|
ierr = nf_def_var(nid, 'ZGAM', nf_float, 1, idim2, nvarid) |
350 |
|
|
ierr = nf_enddef(nid) |
351 |
|
|
ierr = nf_put_var_real(nid, nvarid, zgam) |
352 |
|
|
ierr = nf_redef(nid) |
353 |
|
|
ierr = nf_def_var(nid, 'ZTHE', nf_float, 1, idim2, nvarid) |
354 |
|
|
ierr = nf_enddef(nid) |
355 |
|
|
ierr = nf_put_var_real(nid, nvarid, zthe) |
356 |
|
|
ierr = nf_redef(nid) |
357 |
|
|
ierr = nf_def_var(nid, 'ZPIC', nf_float, 1, idim2, nvarid) |
358 |
|
|
ierr = nf_enddef(nid) |
359 |
|
|
ierr = nf_put_var_real(nid, nvarid, zpic) |
360 |
|
|
ierr = nf_redef(nid) |
361 |
|
|
ierr = nf_def_var(nid, 'ZVAL', nf_float, 1, idim2, nvarid) |
362 |
|
|
ierr = nf_enddef(nid) |
363 |
|
|
ierr = nf_put_var_real(nid, nvarid, zval) |
364 |
guez |
12 |
|
365 |
guez |
15 |
ierr = nf_redef(nid) |
366 |
|
|
ierr = nf_def_var(nid, 'TANCIEN', nf_float, 1, idim3, nvarid) |
367 |
|
|
ierr = nf_enddef(nid) |
368 |
|
|
ierr = nf_put_var_real(nid, nvarid, t_ancien) |
369 |
guez |
12 |
|
370 |
guez |
15 |
ierr = nf_redef(nid) |
371 |
|
|
ierr = nf_def_var(nid, 'QANCIEN', nf_float, 1, idim3, nvarid) |
372 |
|
|
ierr = nf_enddef(nid) |
373 |
|
|
ierr = nf_put_var_real(nid, nvarid, q_ancien) |
374 |
guez |
12 |
|
375 |
guez |
15 |
ierr = nf_redef(nid) |
376 |
|
|
ierr = nf_def_var(nid, 'RUGMER', nf_float, 1, idim2, nvarid) |
377 |
|
|
ierr = nf_put_att_text(nid, nvarid, 'title', 28, & |
378 |
|
|
'Longueur de rugosite sur mer') |
379 |
|
|
ierr = nf_enddef(nid) |
380 |
|
|
ierr = nf_put_var_real(nid, nvarid, frugs(1, is_oce)) |
381 |
guez |
12 |
|
382 |
guez |
15 |
ierr = nf_redef(nid) |
383 |
|
|
ierr = nf_def_var(nid, 'CLWCON', nf_float, 1, idim2, nvarid) |
384 |
|
|
ierr = nf_put_att_text(nid, nvarid, 'title', 28, 'Eau liquide convective') |
385 |
|
|
ierr = nf_enddef(nid) |
386 |
|
|
ierr = nf_put_var_real(nid, nvarid, clwcon) |
387 |
guez |
12 |
|
388 |
guez |
15 |
ierr = nf_redef(nid) |
389 |
|
|
ierr = nf_def_var(nid, 'RNEBCON', nf_float, 1, idim2, nvarid) |
390 |
|
|
ierr = nf_put_att_text(nid, nvarid, 'title', 28, 'Nebulosite convective') |
391 |
|
|
ierr = nf_enddef(nid) |
392 |
|
|
ierr = nf_put_var_real(nid, nvarid, rnebcon) |
393 |
guez |
12 |
|
394 |
guez |
15 |
ierr = nf_redef(nid) |
395 |
|
|
ierr = nf_def_var(nid, 'RATQS', nf_float, 1, idim2, nvarid) |
396 |
|
|
ierr = nf_put_att_text(nid, nvarid, 'title', 5, 'Ratqs') |
397 |
|
|
ierr = nf_enddef(nid) |
398 |
|
|
ierr = nf_put_var_real(nid, nvarid, ratqs) |
399 |
|
|
|
400 |
|
|
! run_off_lic_0 |
401 |
|
|
|
402 |
|
|
ierr = nf_redef(nid) |
403 |
|
|
ierr = nf_def_var(nid, 'RUNOFFLIC0', nf_float, 1, idim2, nvarid) |
404 |
|
|
ierr = nf_put_att_text(nid, nvarid, 'title', 10, 'Runofflic0') |
405 |
|
|
ierr = nf_enddef(nid) |
406 |
|
|
ierr = nf_put_var_real(nid, nvarid, run_off_lic_0) |
407 |
|
|
|
408 |
|
|
|
409 |
|
|
ierr = nf_close(nid) |
410 |
|
|
|
411 |
|
|
END SUBROUTINE phyredem |
412 |
|
|
|
413 |
|
|
end module phyredem_m |