--- trunk/phylmd/pbl_surface.f	2018/07/12 14:49:20	276
+++ trunk/phylmd/Interface_surf/pbl_surface.f	2018/08/02 15:55:01	300
@@ -4,15 +4,15 @@
 
 contains
 
-  SUBROUTINE pbl_surface(dtime, pctsrf, t, q, u, v, julien, mu0, ftsol, &
-       cdmmax, cdhmax, ftsoil, qsol, paprs, pplay, fsnow, qsurf, evap, falbe, &
-       fluxlat, rain_fall, snow_f, fsolsw, fsollw, frugs, agesno, rugoro, d_t, &
-       d_q, d_u, d_v, d_ts, flux_t, flux_q, flux_u, flux_v, cdragh, cdragm, &
-       q2, dflux_t, dflux_q, coefh, t2m, q2m, u10m_srf, v10m_srf, pblh, capcl, &
+  SUBROUTINE pbl_surface(pctsrf, t, q, u, v, julien, mu0, ftsol, cdmmax, &
+       cdhmax, ftsoil, qsol, paprs, pplay, fsnow, qsurf, evap, falbe, fluxlat, &
+       rain_fall, snow_f, fsolsw, fsollw, frugs, agesno, rugoro, d_t, d_q, &
+       d_u, d_v, d_ts, flux_t, flux_q, flux_u, flux_v, cdragh, cdragm, q2, &
+       dflux_t, dflux_q, coefh, t2m, q2m, u10m_srf, v10m_srf, pblh, capcl, &
        oliqcl, cteicl, pblt, therm, plcl, fqcalving, ffonte, run_off_lic_0)
 
     ! From phylmd/clmain.F, version 1.6, 2005/11/16 14:47:19
-    ! Author: Z. X. Li (LMD/CNRS), date: 1993/08/18
+    ! Author: Z. X. Li (LMD/CNRS), date: 1993 Aug. 18th
     ! Objet : interface de couche limite (diffusion verticale)
 
     ! Tout ce qui a trait aux traceurs est dans "phytrac". Le calcul
@@ -36,8 +36,6 @@
     USE suphec_m, ONLY: rd, rg
     use time_phylmdz, only: itap
 
-    REAL, INTENT(IN):: dtime ! interval du temps (secondes)
-
     REAL, INTENT(inout):: pctsrf(klon, nbsrf)
     ! tableau des pourcentages de surface de chaque maille
 
@@ -74,9 +72,8 @@
     real agesno(klon, nbsrf)
     REAL, INTENT(IN):: rugoro(klon)
 
-    REAL d_t(klon, klev), d_q(klon, klev)
-    ! d_t------output-R- le changement pour "t"
-    ! d_q------output-R- le changement pour "q"
+    REAL, intent(out):: d_t(:, :), d_q(:, :) ! (klon, klev)
+    ! changement pour t et q
 
     REAL, intent(out):: d_u(klon, klev), d_v(klon, klev)
     ! changement pour "u" et "v"
@@ -121,11 +118,14 @@
     REAL, INTENT(inout):: pblt(klon, nbsrf) ! T au nveau HCL
     REAL therm(klon, nbsrf)
     REAL plcl(klon, nbsrf)
-    REAL fqcalving(klon, nbsrf), ffonte(klon, nbsrf)
+
+    REAL, intent(out):: fqcalving(klon, nbsrf)
+    ! flux d'eau "perdue" par la surface et necessaire pour limiter la
+    ! hauteur de neige, en kg / m2 / s
+
+    real ffonte(klon, nbsrf)
     ! ffonte----Flux thermique utilise pour fondre la neige
-    ! fqcalving-Flux d'eau "perdue" par la surface et necessaire pour limiter la
-    !           hauteur de neige, en kg / m2 / s
-    REAL run_off_lic_0(klon)
+    REAL, intent(inout):: run_off_lic_0(:) ! (klon)
 
     ! Local:
 
@@ -140,7 +140,7 @@
     REAL rugmer(klon)
     REAL ytsoil(klon, nsoilmx)
     REAL yts(klon), ypct(klon), yz0_new(klon)
-    real yrugos(klon) ! longeur de rugosite (en m)
+    real yrugos(klon) ! longueur de rugosite (en m)
     REAL yalb(klon)
     REAL snow(klon), yqsurf(klon), yagesno(klon)
     real yqsol(klon) ! column-density of water in soil, in kg m-2
@@ -211,12 +211,6 @@
     ypaprs = 0.
     ypplay = 0.
     ydelp = 0.
-    yu = 0.
-    yv = 0.
-    yt = 0.
-    yq = 0.
-    y_dflux_t = 0.
-    y_dflux_q = 0.
     yrugoro = 0.
     d_ts = 0.
     flux_t = 0.
@@ -229,6 +223,7 @@
     d_u = 0.
     d_v = 0.
     coefh = 0.
+    fqcalving = 0.
 
     ! Initialisation des "pourcentages potentiels". On consid\`ere ici qu'on
     ! peut avoir potentiellement de la glace sur tout le domaine oc\'eanique
@@ -331,33 +326,36 @@
              END DO
           end IF
 
-          call coef_diff_turb(dtime, nsrf, ni(:knon), ypaprs(:knon, :), &
+          call coef_diff_turb(nsrf, ni(:knon), ypaprs(:knon, :), &
                ypplay(:knon, :), yu(:knon, :), yv(:knon, :), yq(:knon, :), &
                yt(:knon, :), yts(:knon), ycdragm(:knon), zgeop(:knon, :), &
                ycoefm(:knon, :), ycoefh(:knon, :), yq2(:knon, :))
 
-          CALL clvent(dtime, yu(:knon, 1), yv(:knon, 1), ycoefm(:knon, :), &
+          CALL clvent(yu(:knon, 1), yv(:knon, 1), ycoefm(:knon, :), &
                ycdragm(:knon), yt(:knon, :), yu(:knon, :), ypaprs(:knon, :), &
                ypplay(:knon, :), ydelp(:knon, :), y_d_u(:knon, :), &
                y_flux_u(:knon))
-          CALL clvent(dtime, yu(:knon, 1), yv(:knon, 1), ycoefm(:knon, :), &
+          CALL clvent(yu(:knon, 1), yv(:knon, 1), ycoefm(:knon, :), &
                ycdragm(:knon), yt(:knon, :), yv(:knon, :), ypaprs(:knon, :), &
                ypplay(:knon, :), ydelp(:knon, :), y_d_v(:knon, :), &
                y_flux_v(:knon))
 
-          ! calculer la diffusion de "q" et de "h"
-          CALL clqh(dtime, julien, firstcal, nsrf, ni(:knon), &
-               ytsoil(:knon, :), yqsol(:knon), mu0, yrugos, yrugoro, &
+          CALL clqh(julien, firstcal, nsrf, ni(:knon), ytsoil(:knon, :), &
+               yqsol(:knon), mu0(ni(:knon)), yrugos(:knon), yrugoro(:knon), &
                yu(:knon, 1), yv(:knon, 1), ycoefh(:knon, :), ycdragh(:knon), &
-               yt, yq, yts(:knon), ypaprs, ypplay, ydelp, yrads(:knon), &
-               yalb(:knon), snow(:knon), yqsurf, yrain_f, ysnow_f, &
-               yfluxlat(:knon), pctsrf_new_sic, yagesno(:knon), y_d_t, y_d_q, &
-               y_d_ts(:knon), yz0_new, y_flux_t(:knon), y_flux_q(:knon), &
-               y_dflux_t(:knon), y_dflux_q(:knon), y_fqcalving, y_ffonte, &
-               y_run_off_lic_0)
+               yt(:knon, :), yq(:knon, :), yts(:knon), ypaprs(:knon, :), &
+               ypplay(:knon, :), ydelp(:knon, :), yrads(:knon), yalb(:knon), &
+               snow(:knon), yqsurf(:knon), yrain_f(:knon), ysnow_f(:knon), &
+               yfluxlat(:knon), pctsrf_new_sic(ni(:knon)), yagesno(:knon), &
+               y_d_t(:knon, :), y_d_q(:knon, :), y_d_ts(:knon), &
+               yz0_new(:knon), y_flux_t(:knon), y_flux_q(:knon), &
+               y_dflux_t(:knon), y_dflux_q(:knon), y_fqcalving(:knon), &
+               y_ffonte(:knon), y_run_off_lic_0(:knon))
 
           ! calculer la longueur de rugosite sur ocean
+
           yrugm = 0.
+
           IF (nsrf == is_oce) THEN
              DO j = 1, knon
                 yrugm(j) = 0.018 * ycdragm(j) * (yu(j, 1)**2 + yv(j, 1)**2) &
@@ -366,10 +364,6 @@
                 yrugm(j) = max(1.5E-05, yrugm(j))
              END DO
           END IF
-          DO j = 1, knon
-             y_dflux_t(j) = y_dflux_t(j) * ypct(j)
-             y_dflux_q(j) = y_dflux_q(j) * ypct(j)
-          END DO
 
           DO k = 1, klev
              DO j = 1, knon
@@ -409,8 +403,8 @@
              ffonte(i, nsrf) = y_ffonte(j)
              cdragh(i) = cdragh(i) + ycdragh(j) * ypct(j)
              cdragm(i) = cdragm(i) + ycdragm(j) * ypct(j)
-             dflux_t(i) = dflux_t(i) + y_dflux_t(j)
-             dflux_q(i) = dflux_q(i) + y_dflux_q(j)
+             dflux_t(i) = dflux_t(i) + y_dflux_t(j) * ypct(j)
+             dflux_q(i) = dflux_q(i) + y_dflux_q(j) * ypct(j)
           END DO
           IF (nsrf == is_ter) THEN
              qsol(ni(:knon)) = yqsol(:knon)
@@ -474,8 +468,9 @@
           END DO
 
           CALL hbtm(ypaprs, ypplay, yt2m, yq2m, ustar(:knon), y_flux_t(:knon), &
-               y_flux_q(:knon), yu, yv, yt, yq, ypblh(:knon), ycapcl, &
-               yoliqcl, ycteicl, ypblt, ytherm, ylcl)
+               y_flux_q(:knon), yu(:knon, :), yv(:knon, :), yt(:knon, :), &
+               yq(:knon, :), ypblh(:knon), ycapcl, yoliqcl, ycteicl, ypblt, &
+               ytherm, ylcl)
 
           DO j = 1, knon
              i = ni(j)