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phys_output_write_mod.F90 @ 3605

Last change on this file since 3605 was 3605, checked in by lguez, 4 years ago
Merge revisions 3427:3600 of trunk into branch `Ocean_skin`
Property copyright set to Name of program: LMDZ Creation date: 1984 Version: LMDZ5 License: CeCILL version 2 Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539 See the license file in the root directory Property svn:keywords set to `Id`
File size: 97.9 KB

Line
1	!
2	! $Id: phys_output_write_mod.F90 3605 2019-11-21 15:43:45Z lguez $
3	!
4	MODULE phys_output_write_mod
5
6	USE phytrac_mod, ONLY : d_tr_cl, d_tr_th, d_tr_cv, d_tr_lessi_impa, &
7	d_tr_lessi_nucl, d_tr_insc, d_tr_bcscav, d_tr_evapls, d_tr_ls, &
8	d_tr_trsp, d_tr_sscav, d_tr_sat, d_tr_uscav, flux_tr_dry
9
10	! Author: Abderrahmane IDELKADI (original include file)
11	! Author: Laurent FAIRHEAD (transformation to module/subroutine)
12	! Author: Ulysse GERARD (effective implementation)
13
14	CONTAINS
15
16	! ug Routine pour définir (lors du premier passage) ET sortir les variables
17	SUBROUTINE phys_output_write(itap, pdtphys, paprs, pphis, &
18	pplay, lmax_th, aerosol_couple, &
19	ok_ade, ok_aie, ok_volcan, ivap, iliq, isol, new_aod, ok_sync, &
20	ptconv, read_climoz, clevSTD, ptconvth, &
21	d_u, d_t, qx, d_qx, zmasse, flag_aerosol, flag_aerosol_strat, ok_cdnc)
22
23	! This subroutine does the actual writing of diagnostics that were
24	! defined and initialised in phys_output_mod.F90
25
26	USE dimphy, ONLY: klon, klev, klevp1
27	USE infotrac_phy, ONLY: nbtr
28	USE mod_phys_lmdz_para, ONLY: is_north_pole_phy,is_south_pole_phy
29	USE mod_grid_phy_lmdz, ONLY : nbp_lon, nbp_lat
30	USE time_phylmdz_mod, ONLY: day_step_phy, start_time, itau_phy
31	USE vertical_layers_mod, ONLY : ap, bp, aps, bps
32	USE phys_output_ctrlout_mod, ONLY: o_phis, o_aire, is_ter, is_lic, is_oce, &
33	o_longitude, o_latitude, &
34	o_Ahyb, o_Bhyb,o_Ahyb_bounds, o_Bhyb_bounds, &
35	o_Ahyb_mid, o_Bhyb_mid,o_Ahyb_mid_bounds, o_Bhyb_mid_bounds, &
36	is_ave, is_sic, o_contfracATM, o_contfracOR, &
37	o_aireTER, o_flat, o_slp, o_ptstar, o_pt0, o_tsol, &
38	o_t2m, o_t2m_min, o_t2m_max, &
39	o_t2m_min_mon, o_t2m_max_mon, &
40	o_q2m, o_ustar, o_u10m, o_v10m, &
41	o_wind10m, o_wind10max, o_gusts, o_sicf, &
42	o_psol, o_mass, o_qsurf, o_qsol, o_tsoil_deep_land, &
43	o_precip, o_rain_fall, o_rain_con, o_ndayrain, o_plul, o_pluc, o_plun, &
44	o_snow, o_msnow, o_fsnow, o_evap, o_ep,o_epmax_diag, & ! epmax_cape
45	o_tops, o_tops0, o_topl, o_topl0, &
46	o_SWupTOA, o_SWupTOAclr, o_SWupTOAcleanclr, o_SWdnTOA, &
47	o_SWdnTOAclr, o_nettop, o_SWup200, &
48	o_SWup200clr, o_SWdn200, o_SWdn200clr, &
49	o_LWup200, o_LWup200clr, o_LWdn200, &
50	o_LWdn200clr, o_sols, o_sols0, &
51	o_soll, o_radsol, o_soll0, o_SWupSFC, &
52	o_SWupSFCclr, o_SWupSFCcleanclr, o_SWdnSFC, o_SWdnSFCclr, o_SWdnSFCcleanclr, &
53	o_LWupSFC, o_LWdnSFC, o_LWupSFCclr, &
54	o_LWdnSFCclr, o_LWupTOAcleanclr, o_LWdnSFCcleanclr, o_bils, o_bils_diss, &
55	o_bils_ec,o_bils_ech, o_bils_tke, o_bils_kinetic, &
56	o_bils_latent, o_bils_enthalp, o_sens, &
57	o_fder, o_ffonte, o_fqcalving, o_fqfonte, o_mrroli, o_runofflic, &
58	o_taux, o_tauy, o_snowsrf, o_qsnow, &
59	o_snowhgt, o_toice, o_sissnow, o_runoff, &
60	o_albslw3, o_pourc_srf, o_fract_srf, &
61	o_taux_srf, o_tauy_srf, o_tsol_srf, &
62	o_evappot_srf, o_ustar_srf, o_u10m_srf, &
63	o_v10m_srf, o_t2m_srf, o_evap_srf, &
64	o_sens_srf, o_lat_srf, o_flw_srf, &
65	o_fsw_srf, o_wbils_srf, o_wbilo_srf, &
66	o_wevap_srf, o_wrain_srf, o_wsnow_srf, &
67	o_tke_srf, o_tke_max_srf,o_dltpbltke_srf, o_wstar, &
68	o_l_mixmin,o_l_mix, &
69	o_cdrm, o_cdrh, o_cldl, o_cldm, o_cldh, &
70	o_cldt, o_JrNt, o_cldljn, o_cldmjn, &
71	o_cldhjn, o_cldtjn, o_cldq, o_lwp, o_iwp, &
72	o_ue, o_ve, o_uq, o_vq, o_cape, o_pbase, &
73	o_uwat, o_vwat, &
74	o_ptop, o_fbase, o_plcl, o_plfc, &
75	o_wbeff, o_convoccur, o_cape_max, o_upwd, o_ep,o_epmax_diag, &
76	o_Mipsh, o_Ma, &
77	o_dnwd, o_dnwd0, o_ftime_deepcv, o_ftime_con, o_mc, &
78	o_prw, o_prlw, o_prsw, o_s_pblh, o_s_pblt, o_s_lcl, &
79	o_s_therm, o_uSTDlevs, o_vSTDlevs, &
80	o_wSTDlevs, o_zSTDlevs, o_qSTDlevs, &
81	o_tSTDlevs, epsfra, o_t_oce_sic, &
82	o_ale_bl, o_alp_bl, o_ale_wk, o_alp_wk, &
83	o_dtvdf_x , o_dtvdf_w , o_dqvdf_x , o_dqvdf_w , &
84	o_sens_x , o_sens_w , o_flat_x , o_flat_w , &
85	o_delta_tsurf, &
86	o_cdragh_x , o_cdragh_w , o_cdragm_x , o_cdragm_w , &
87	o_kh , o_kh_x , o_kh_w , &
88	o_ale, o_alp, o_cin, o_WAPE, o_wake_h, o_cv_gen, o_wake_dens, &
89	o_wake_s, o_wake_deltat, o_wake_deltaq, &
90	o_wake_omg, o_dtwak, o_dqwak, o_dqwak2d, o_Vprecip, &
91	o_qtaa, o_Clwaa, &
92	o_ftd, o_fqd, o_wdtrainA, o_wdtrainS, o_wdtrainM, &
93	o_n2, o_s2, o_proba_notrig, &
94	o_random_notrig, o_ale_bl_stat, &
95	o_ale_bl_trig, o_alp_bl_det, &
96	o_alp_bl_fluct_m, o_alp_bl_fluct_tke, &
97	o_alp_bl_conv, o_alp_bl_stat, &
98	o_slab_qflux, o_tslab, o_slab_bils, &
99	o_slab_bilg, o_slab_sic, o_slab_tice, &
100	o_slab_hdiff, o_slab_ekman, o_slab_gm, &
101	o_weakinv, o_dthmin, o_cldtau, &
102	o_cldemi, o_pr_con_l, o_pr_con_i, &
103	o_pr_lsc_l, o_pr_lsc_i, o_re, o_fl, &
104	o_rh2m, &
105	o_qsat2m, o_tpot, o_tpote, o_SWnetOR, &
106	o_LWdownOR, o_snowl, &
107	o_solldown, o_dtsvdfo, o_dtsvdft, &
108	o_dtsvdfg, o_dtsvdfi, o_z0m, o_z0h, o_od443aer, o_od550aer, &
109	o_dryod550aer, o_od865aer, o_abs550aer, o_od550lt1aer, &
110	o_sconcso4, o_sconcno3, o_sconcoa, o_sconcbc, &
111	o_sconcss, o_sconcdust, o_concso4, o_concno3, &
112	o_concoa, o_concbc, o_concss, o_concdust, &
113	o_loadso4, o_loadoa, o_loadbc, o_loadss, &
114	o_loaddust, o_loadno3, o_tausumaero, &
115	o_drytausumaero, o_tausumaero_lw, &
116	o_topswad, o_topswad0, o_solswad, o_solswad0, &
117	o_toplwad, o_toplwad0, o_sollwad, o_sollwad0, &
118	o_swtoaas_nat, o_swsrfas_nat, &
119	o_swtoacs_nat, o_swtoaas_ant, &
120	o_swsrfas_ant, o_swtoacs_ant, &
121	o_swsrfcs_ant, o_swtoacf_nat, &
122	o_swsrfcf_nat, o_swtoacf_ant, &
123	o_swsrfcs_nat, o_swsrfcf_ant, &
124	o_swtoacf_zero, o_swsrfcf_zero, &
125	o_topswai, o_solswai, o_toplwai, o_sollwai, o_scdnc, &
126	o_cldncl, o_reffclws, o_reffclwc, o_solbnd, o_stratomask,&
127	o_cldnvi, o_lcc, o_lcc3d, o_lcc3dcon, &
128	o_lcc3dstra, o_icc3dcon, o_icc3dstra, &
129	o_cldicemxrat, o_cldwatmxrat, o_reffclwtop, o_ec550aer, &
130	o_lwcon, o_iwcon, o_temp, o_theta, &
131	o_ovapinit, o_ovap, o_oliq, o_ocond, o_geop, &
132	o_vitu, o_vitv, o_vitw, o_pres, o_paprs, &
133	o_zfull, o_zhalf, o_rneb, o_rnebjn, o_rnebcon, &
134	o_rnebls, o_rneblsvol, o_rhum, o_ozone, o_ozone_light, &
135	o_duphy, o_dtphy, o_dqphy, o_dqphy2d, o_dqlphy, o_dqlphy2d, &
136	o_dqsphy, o_dqsphy2d, o_albe_srf, o_z0m_srf, o_z0h_srf, &
137	o_ages_srf, o_snow_srf, o_alb1, o_alb2, o_tke, &
138	o_tke_max, o_kz, o_kz_max, o_clwcon, &
139	o_dtdyn, o_dqdyn, o_dqdyn2d, o_dqldyn, o_dqldyn2d, &
140	o_dqsdyn, o_dqsdyn2d, o_dudyn, o_dvdyn, &
141	o_dtcon, o_tntc, o_ducon, o_dvcon, &
142	o_dqcon, o_dqcon2d, o_tnhusc, o_tnhusc, o_dtlsc, &
143	o_dtlschr, o_dqlsc, o_dqlsc2d, o_beta_prec, &
144	o_dtlscth, o_dtlscst, o_dqlscth, o_dqlscth2d, &
145	o_dqlscst, o_dqlscst2d, o_plulth, o_plulst, &
146	o_ptconvth, o_lmaxth, o_dtvdf, &
147	o_dtdis, o_dqvdf, o_dqvdf2d, o_dteva, o_dqeva, o_dqeva2d, &
148	o_ptconv, o_ratqs, o_dtthe, &
149	o_duthe, o_dvthe, o_ftime_th, &
150	o_f_th, o_e_th, o_w_th, o_q_th, &
151	o_a_th, o_cloudth_sth, o_cloudth_senv, &
152	o_cloudth_sigmath, o_cloudth_sigmaenv, &
153	o_d_th, o_f0_th, o_zmax_th, &
154	o_dqthe, o_dqthe2d, o_dtajs, o_dqajs, o_dqajs2d, o_dtswr, &
155	o_dtsw0, o_dtlwr, o_dtlw0, o_dtec, &
156	o_duvdf, o_dvvdf, o_duoro, o_dvoro, &
157	o_dtoro, o_dulif, o_dvlif, o_dtlif, &
158	o_du_gwd_hines, o_dv_gwd_hines, o_dthin, o_dqch4, o_rsu, &
159	o_du_gwd_front, o_dv_gwd_front, &
160	o_east_gwstress, o_west_gwstress, &
161	o_rsd, o_rlu, o_rld, o_rsucs, o_rsdcs, o_rsucsaf, o_rsdcsaf, &
162	o_rlucs, o_rldcs, o_tnt, o_tntr, &
163	o_tntscpbl, o_tnhus, o_tnhusscpbl, &
164	o_evu, o_h2o, o_mcd, o_dmc, o_ref_liq, &
165	o_ref_ice, o_rsut4co2, o_rlut4co2, &
166	o_rsutcs4co2, o_rlutcs4co2, o_rsu4co2, &
167	o_rlu4co2, o_rsucs4co2, o_rlucs4co2, &
168	o_rsd4co2, o_rld4co2, o_rsdcs4co2, &
169	o_rldcs4co2, o_tnondef, o_ta, o_zg, &
170	o_hus, o_hur, o_ua, o_va, o_wap, &
171	o_psbg, o_tro3, o_tro3_daylight, &
172	o_uxv, o_vxq, o_vxT, o_wxq, o_vxphi, &
173	o_wxT, o_uxu, o_vxv, o_TxT, o_trac, &
174	#ifdef REPROBUS
175	o_nas, &
176	#endif
177	o_dtr_vdf, o_dtr_the, o_dtr_con, &
178	o_dtr_lessi_impa, o_dtr_lessi_nucl, &
179	o_dtr_insc, o_dtr_bcscav, o_dtr_evapls, &
180	o_dtr_ls, o_dtr_trsp, o_dtr_sscav, o_dtr_dry, &
181	o_dtr_sat, o_dtr_uscav, o_trac_cum, o_du_gwd_rando, o_dv_gwd_rando, &
182	o_ustr_gwd_hines,o_vstr_gwd_hines,o_ustr_gwd_rando,o_vstr_gwd_rando, &
183	o_ustr_gwd_front,o_vstr_gwd_front, &
184	o_sens_prec_liq_oce, o_sens_prec_liq_sic, &
185	o_sens_prec_sol_oce, o_sens_prec_sol_sic, &
186	o_lat_prec_liq_oce, o_lat_prec_liq_sic, &
187	o_lat_prec_sol_oce, o_lat_prec_sol_sic, &
188	o_sza, &
189	! Marine
190	o_map_prop_hc, o_map_prop_hist, o_map_emis_hc, o_map_iwp_hc, &
191	o_map_deltaz_hc, o_map_pcld_hc, o_map_tcld_hc, &
192	o_map_emis_hist, o_map_iwp_hist, o_map_deltaz_hist, &
193	o_map_rad_hist, &
194	o_map_emis_Cb, o_map_pcld_Cb, o_map_tcld_Cb, &
195	o_map_emis_ThCi, o_map_pcld_ThCi, o_map_tcld_ThCi, &
196	o_map_emis_Anv, o_map_pcld_Anv, o_map_tcld_Anv, &
197	o_map_ntot, o_map_hc,o_map_hist,o_map_Cb,o_map_ThCi,o_map_Anv, &
198	o_alt_tropo, &
199	! Tropopause
200	o_p_tropopause, o_z_tropopause, o_t_tropopause, &
201	o_col_O3_strato, o_col_O3_tropo, &
202	!--interactive CO2
203	o_flx_co2_ocean, o_flx_co2_land, o_flx_co2_ff, o_flx_co2_bb, &
204	o_t_int, o_s_int, o_ds_ns, o_dt_ns, o_dter, o_dser, o_tkt, o_tks, &
205	o_rf, o_taur
206
207	#ifdef CPP_StratAer
208	USE phys_output_ctrlout_mod, ONLY: &
209	o_budg_3D_nucl, o_budg_3D_cond_evap, o_budg_3D_ocs_to_so2, o_budg_3D_so2_to_h2so4, &
210	o_budg_sed_part, o_R2SO4, o_OCS_lifetime, o_SO2_lifetime, &
211	o_budg_3D_backgr_ocs, o_budg_3D_backgr_so2, &
212	o_budg_dep_dry_ocs, o_budg_dep_wet_ocs, &
213	o_budg_dep_dry_so2, o_budg_dep_wet_so2, &
214	o_budg_dep_dry_h2so4, o_budg_dep_wet_h2so4, &
215	o_budg_dep_dry_part, o_budg_dep_wet_part, &
216	o_budg_emi_ocs, o_budg_emi_so2, o_budg_emi_h2so4, o_budg_emi_part, &
217	o_budg_ocs_to_so2, o_budg_so2_to_h2so4, o_budg_h2so4_to_part, &
218	o_surf_PM25_sulf, o_ext_strat_550, o_tau_strat_550, &
219	o_vsed_aer, o_tau_strat_1020, o_ext_strat_1020, o_f_r_wet
220	#endif
221
222	USE phys_output_ctrlout_mod, ONLY: o_heat_volc, o_cool_volc !NL
223	USE phys_state_var_mod, ONLY: heat_volc, cool_volc !NL
224
225	USE phys_state_var_mod, ONLY: pctsrf, rain_fall, snow_fall, &
226	qsol, z0m, z0h, fevap, agesno, &
227	nday_rain, rain_con, snow_con, &
228	topsw, toplw, toplw0, swup, swdn, &
229	topsw0, swupc0, swdnc0, swup0, swdn0, SWup200, SWup200clr, &
230	SWdn200, SWdn200clr, LWup200, LWup200clr, &
231	LWdn200, LWdn200clr, solsw, solsw0, sollw, &
232	radsol, swradcorr, sollw0, sollwdown, sollw, gustiness, &
233	sollwdownclr, lwdnc0, lwdn0, ftsol, ustar, u10m, &
234	v10m, pbl_tke, wake_delta_pbl_TKE, &
235	delta_tsurf, &
236	wstar, cape, ema_pcb, ema_pct, &
237	ema_cbmf, Mipsh, Ma, fm_therm, ale_bl, alp_bl, ale, &
238	alp, cin, wake_pe, wake_dens, wake_s, wake_deltat, &
239	wake_deltaq, ftd, fqd, ale_bl_trig, albsol1, &
240	ale_wake, ale_bl_stat, &
241	rnebcon, wo, falb1, albsol2, coefh, clwcon0, &
242	ratqs, entr_therm, zqasc, detr_therm, f0, &
243	lwup, lwdn, lwupc0, lwup0, coefm, &
244	swupp, lwupp, swupc0p, swup0p, lwupc0p, lwup0p, swdnp, lwdnp, &
245	swdnc0p, swdn0p, lwdnc0p, lwdn0p, tnondef, O3sumSTD, uvsumSTD, &
246	vqsumSTD, vTsumSTD, O3daysumSTD, wqsumSTD, &
247	vphisumSTD, wTsumSTD, u2sumSTD, v2sumSTD, &
248	T2sumSTD, nlevSTD, du_gwd_rando, du_gwd_front, &
249	ulevSTD, vlevSTD, wlevSTD, philevSTD, qlevSTD, tlevSTD, &
250	rhlevSTD, O3STD, O3daySTD, uvSTD, vqSTD, vTSTD, wqSTD, &
251	vphiSTD, wTSTD, u2STD, v2STD, T2STD, missing_val_nf90, ds_ns, dt_ns
252
253	USE phys_local_var_mod, ONLY: zxfluxlat, slp, ptstar, pt0, zxtsol, zt2m, &
254	zt2m_cor,zq2m_cor,zu10m_cor,zv10m_cor, zrh2m_cor, zqsat2m_cor, &
255	t2m_min_mon, t2m_max_mon, evap, &
256	l_mixmin,l_mix, &
257	zu10m, zv10m, zq2m, zustar, zxqsurf, &
258	rain_lsc, rain_num, snow_lsc, bils, sens, fder, &
259	zxffonte, zxfqcalving, zxfqfonte, zxrunofflic, fluxu, &
260	fluxv, zxsnow, qsnow, snowhgt, to_ice, &
261	sissnow, runoff, albsol3_lic, evap_pot, &
262	t2m, fluxt, fluxlat, fsollw, fsolsw, &
263	wfbils, wfbilo, wfevap, wfrain, wfsnow, &
264	cdragm, cdragh, cldl, cldm, &
265	cldh, cldt, JrNt, cldljn, cldmjn, cldhjn, &
266	cldtjn, cldq, flwp, fiwp, ue, ve, uq, vq, &
267	uwat, vwat, &
268	plcl, plfc, wbeff, convoccur, upwd, dnwd, dnwd0, prw, prlw, prsw, &
269	s_pblh, s_pblt, s_lcl, s_therm, uwriteSTD, &
270	vwriteSTD, wwriteSTD, phiwriteSTD, qwriteSTD, &
271	twriteSTD, alp_wake, &
272	!! dtvdf_x ,dtvdf_w ,dqvdf_x ,dqvdf_w , &
273	d_t_vdf_x ,d_t_vdf_w ,d_q_vdf_x ,d_q_vdf_w , &
274	sens_x ,sens_w ,zxfluxlat_x,zxfluxlat_w, &
275	cdragh_x ,cdragh_w ,cdragm_x ,cdragm_w , &
276	kh ,kh_x ,kh_w , &
277	cv_gen, wake_h, &
278	wake_omg, d_t_wake, d_q_wake, Vprecip, qtaa, Clw, &
279	wdtrainA, wdtrainS, wdtrainM, n2, s2, proba_notrig, &
280	random_notrig, &
281	alp_bl_det, alp_bl_fluct_m, alp_bl_conv, &
282	alp_bl_stat, alp_bl_fluct_tke, slab_wfbils, &
283	weak_inversion, dthmin, cldtau, cldemi, &
284	pmflxr, pmflxs, prfl, psfl, re, fl, rh2m, &
285	qsat2m, tpote, tpot, d_ts, od443aer, od550aer, dryod550aer, &
286	od865aer, abs550aer, od550lt1aer, sconcso4, sconcno3, &
287	sconcoa, sconcbc, sconcss, sconcdust, concso4, concno3, &
288	concoa, concbc, concss, concdust, loadso4, &
289	loadoa, loadbc, loadss, loaddust, loadno3, tausum_aero, drytausum_aero, &
290	topswad_aero, topswad0_aero, solswad_aero, &
291	solswad0_aero, topsw_aero, solsw_aero, &
292	topsw0_aero, solsw0_aero, topswcf_aero, &
293	solswcf_aero, topswai_aero, solswai_aero, &
294	toplwad_aero, toplwad0_aero, sollwad_aero, &
295	sollwad0_aero, toplwai_aero, sollwai_aero, &
296	scdnc, cldncl, reffclws, reffclwc, cldnvi, stratomask,&
297	lcc, lcc3d, lcc3dcon, lcc3dstra, &
298	icc3dcon, icc3dstra, zfice, reffclwtop, &
299	ec550aer, flwc, fiwc, t_seri, theta, q_seri, &
300	ql_seri, qs_seri, tr_seri, &
301	zphi, u_seri, v_seri, omega, cldfra, &
302	rneb, rnebjn, rneblsvol, zx_rh, d_t_dyn, &
303	d_q_dyn, d_ql_dyn, d_qs_dyn, &
304	d_q_dyn2d, d_ql_dyn2d, d_qs_dyn2d, &
305	d_u_dyn, d_v_dyn, d_t_con, d_t_ajsb, d_t_ajs, &
306	d_u_ajs, d_v_ajs, &
307	d_u_con, d_v_con, d_q_con, d_q_ajs, d_t_lsc, &
308	d_t_lwr,d_t_lw0,d_t_swr,d_t_sw0, &
309	d_t_eva, d_q_lsc, beta_prec, d_t_lscth, &
310	d_t_lscst, d_q_lscth, d_q_lscst, plul_th, &
311	plul_st, d_t_vdf, d_t_diss, d_q_vdf, d_q_eva, &
312	zw2, fraca, zmax_th, d_q_ajsb, d_t_ec, d_u_vdf, &
313	d_v_vdf, d_u_oro, d_v_oro, d_t_oro, d_u_lif, &
314	d_v_lif, d_t_lif, du_gwd_hines, dv_gwd_hines, d_t_hin, &
315	dv_gwd_rando, dv_gwd_front, &
316	east_gwstress, west_gwstress, &
317	d_q_ch4, pmfd, pmfu, ref_liq, ref_ice, rhwriteSTD, &
318	ep, epmax_diag, & ! epmax_cape
319	p_tropopause, t_tropopause, z_tropopause
320
321	#ifdef CPP_StratAer
322	USE phys_local_var_mod, ONLY: &
323	budg_3D_nucl, budg_3D_cond_evap, budg_3D_ocs_to_so2, budg_3D_so2_to_h2so4, &
324	budg_sed_part, R2SO4, OCS_lifetime, SO2_lifetime, &
325	budg_3D_backgr_ocs, budg_3D_backgr_so2, &
326	budg_dep_dry_ocs, budg_dep_wet_ocs, &
327	budg_dep_dry_so2, budg_dep_wet_so2, &
328	budg_dep_dry_h2so4, budg_dep_wet_h2so4, &
329	budg_dep_dry_part, budg_dep_wet_part, &
330	budg_emi_ocs, budg_emi_so2, budg_emi_h2so4, budg_emi_part, &
331	budg_ocs_to_so2, budg_so2_to_h2so4, budg_h2so4_to_part, &
332	surf_PM25_sulf, tau_strat_550, tausum_strat, &
333	vsed_aer, tau_strat_1020, f_r_wet
334	#endif
335
336	#ifdef REPROBUS
337	USE CHEM_REP, ONLY : nas, nbnas, tnamenas, ttextnas
338	#endif
339
340	USE carbon_cycle_mod, ONLY: fco2_ff, fco2_bb, fco2_land, fco2_ocean
341
342	USE phys_output_var_mod, ONLY: vars_defined, snow_o, zfra_o, bils_diss, &
343	bils_ec,bils_ech, bils_tke, bils_kinetic, bils_latent, bils_enthalp, &
344	itau_con, nfiles, clef_files, nid_files, dryaod_diag, &
345	zustr_gwd_hines, zvstr_gwd_hines,zustr_gwd_rando, zvstr_gwd_rando, &
346	zustr_gwd_front, zvstr_gwd_front, sza_o, &
347	sens_prec_liq_o, sens_prec_sol_o, lat_prec_liq_o, lat_prec_sol_o, &
348	cloudth_sth,cloudth_senv,cloudth_sigmath,cloudth_sigmaenv, &
349	! Marine
350	map_prop_hc, map_prop_hist, &
351	map_emis_hc,map_iwp_hc,map_deltaz_hc,&
352	map_pcld_hc,map_tcld_hc,&
353	map_emis_hist,map_iwp_hist,map_deltaz_hist,&
354	map_rad_hist,&
355	map_ntot,map_hc,map_hist,&
356	map_Cb,map_ThCi,map_Anv,&
357	map_emis_Cb,map_pcld_Cb,map_tcld_Cb,&
358	map_emis_ThCi,map_pcld_ThCi,map_tcld_ThCi,&
359	map_emis_Anv,map_pcld_Anv,map_tcld_Anv, &
360	alt_tropo, &
361	!Ionela
362	ok_4xCO2atm, t_int, s_int, dter, dser, tkt, tks, rf, taur
363
364	USE ocean_slab_mod, ONLY: nslay, tslab, slab_bilg, tice, seaice, &
365	slab_ekman,slab_hdiff,slab_gm,dt_ekman, dt_hdiff, dt_gm, dt_qflux
366	USE pbl_surface_mod, ONLY: snow, ftsoil
367	USE indice_sol_mod, ONLY: nbsrf
368	USE infotrac_phy, ONLY: nqtot, nqo, type_trac, tname, niadv
369	USE geometry_mod, ONLY: cell_area, latitude_deg, longitude_deg
370	USE surface_data, ONLY: type_ocean, version_ocean, ok_veget, ok_snow
371	USE aero_mod, ONLY: naero_tot, id_STRAT_phy
372	USE ioipsl, ONLY: histend, histsync
373	USE iophy, ONLY: set_itau_iophy, histwrite_phy
374	USE netcdf, ONLY: nf90_fill_real
375	USE print_control_mod, ONLY: prt_level,lunout
376
377
378	#ifdef CPP_XIOS
379	! ug Pour les sorties XIOS
380	USE xios
381	USE wxios, ONLY: wxios_closedef, missing_val, wxios_set_context
382	#endif
383	USE phys_cal_mod, ONLY : mth_len
384
385	#ifdef CPP_RRTM
386	USE YOESW, ONLY : RSUN
387	#endif
388	USE tracinca_mod, ONLY: config_inca
389	use config_ocean_skin_m, only: activate_ocean_skin
390
391	IMPLICIT NONE
392
393	INCLUDE "clesphys.h"
394	INCLUDE "thermcell.h"
395	INCLUDE "compbl.h"
396	INCLUDE "YOMCST.h"
397	INCLUDE "dimsoil.h"
398
399	! Input
400	INTEGER :: itap, ivap, iliq, isol, read_climoz
401	INTEGER, DIMENSION(klon) :: lmax_th
402	LOGICAL :: aerosol_couple, ok_sync
403	LOGICAL :: ok_ade, ok_aie, ok_volcan, new_aod
404	LOGICAL, DIMENSION(klon, klev) :: ptconv, ptconvth
405	REAL :: pdtphys
406	CHARACTER (LEN=4), DIMENSION(nlevSTD) :: clevSTD
407	REAL, DIMENSION(klon,nlevSTD) :: zx_tmp_fi3d_STD
408	REAL, DIMENSION(klon) :: pphis
409	REAL, DIMENSION(klon, klev) :: pplay, d_u, d_t
410	REAL, DIMENSION(klon, klev+1) :: paprs
411	REAL, DIMENSION(klon,klev,nqtot) :: qx, d_qx
412	REAL, DIMENSION(klon, klev) :: zmasse
413	INTEGER :: flag_aerosol_strat
414	INTEGER :: flag_aerosol
415	LOGICAL :: ok_cdnc
416	REAL, DIMENSION(3) :: freq_moyNMC
417
418	! Local
419	INTEGER :: itau_w
420	INTEGER :: i, iinit, iinitend=1, iff, iq, iiq, nsrf, k, ll, naero
421	REAL, DIMENSION (klon) :: zx_tmp_fi2d, zpt_conv2d
422	REAL, DIMENSION (klon,klev) :: zx_tmp_fi3d, zpt_conv
423	REAL, DIMENSION (klon,klev+1) :: zx_tmp_fi3d1
424	REAL, DIMENSION (klon,NSW) :: zx_tmp_fi3dsp
425	CHARACTER (LEN=4) :: bb2
426	INTEGER, DIMENSION(nbp_lon*nbp_lat) :: ndex2d
427	INTEGER, DIMENSION(nbp_lonnbp_latklev) :: ndex3d
428	REAL, PARAMETER :: dobson_u = 2.1415e-05 ! Dobson unit, in kg m-2
429	! REAL, PARAMETER :: missing_val=nf90_fill_real
430	REAL, DIMENSION(klev+1,2) :: Ahyb_bounds, Bhyb_bounds
431	REAL, DIMENSION(klev,2) :: Ahyb_mid_bounds, Bhyb_mid_bounds
432	INTEGER :: ilev
433	#ifndef CPP_XIOS
434	REAL :: missing_val
435	#endif
436	REAL, PARAMETER :: un_jour=86400.
437	INTEGER ISW
438	CHARACTER*1 ch1
439	CHARACTER*20 varname
440
441	#ifdef CPP_XIOS
442	TYPE(xios_fieldgroup) :: group_handle
443	TYPE(xios_field) :: child
444	#endif
445	#ifdef CPP_StratAer
446	LOGICAL, PARAMETER :: debug_strataer=.FALSE.
447	#endif
448
449	! On calcul le nouveau tau:
450	itau_w = itau_phy + itap
451	! On le donne à iophy pour que les histwrite y aient accès:
452	CALL set_itau_iophy(itau_w)
453
454	! IF (.NOT.vars_defined) THEN
455	iinitend = 1
456	! ELSE
457	! iinitend = 1
458	! ENDIF
459
460	#ifdef CPP_XIOS
461	CALL wxios_set_context
462	#endif
463
464	Ahyb_bounds(1,1) = 0.
465	Ahyb_bounds(1,2) = aps(1)
466	Bhyb_bounds(1,1) = 1.
467	Bhyb_bounds(1,2) = bps(1)
468	DO ilev=2,klev
469	Ahyb_bounds(ilev,1) = aps(ilev-1)
470	Ahyb_bounds(ilev,2) = aps(ilev)
471	Bhyb_bounds(ilev,1) = bps(ilev-1)
472	Bhyb_bounds(ilev,2) = bps(ilev)
473	ENDDO
474	Ahyb_bounds(klev+1,1) = aps(klev)
475	Ahyb_bounds(klev+1,2) = 0.
476	Bhyb_bounds(klev+1,1) = bps(klev)
477	Bhyb_bounds(klev+1,2) = 0.
478
479	DO ilev=1, klev
480	Ahyb_mid_bounds(ilev,1) = ap(ilev)
481	Ahyb_mid_bounds(ilev,2) = ap(ilev+1)
482	Bhyb_mid_bounds(ilev,1) = bp(ilev)
483	Bhyb_mid_bounds(ilev,2) = bp(ilev+1)
484	END DO
485
486	#ifdef CPP_XIOS
487	#ifdef CPP_StratAer
488	!$OMP MASTER
489	IF (.NOT.vars_defined) THEN
490	!On ajoute les variables 3D traceurs par l interface fortran
491	CALL xios_get_handle("fields_strataer_trac_3D", group_handle)
492	! On boucle sur les traceurs pour les ajouter au groupe puis fixer les attributs
493	DO iq=nqo+1, nqtot
494	iiq=niadv(iq)
495	varname=trim(tname(iiq))
496	WRITE (lunout,*) 'XIOS var=', nqo, iq, nqtot, varname
497	CALL xios_add_child(group_handle, child, varname)
498	CALL xios_set_attr(child, name=varname, unit="kg kg-1")
499	varname='d'//trim(tname(iiq))//'_vdf'
500	CALL xios_add_child(group_handle, child, varname)
501	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
502	varname='d'//trim(tname(iiq))//'_the'
503	CALL xios_add_child(group_handle, child, varname)
504	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
505	varname='d'//trim(tname(iiq))//'_con'
506	CALL xios_add_child(group_handle, child, varname)
507	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
508	varname='d'//trim(tname(iiq))//'_lessi_impa'
509	CALL xios_add_child(group_handle, child, varname)
510	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
511	varname='d'//trim(tname(iiq))//'_lessi_nucl'
512	CALL xios_add_child(group_handle, child, varname)
513	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
514	varname='d'//trim(tname(iiq))//'_insc'
515	CALL xios_add_child(group_handle, child, varname)
516	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
517	varname='d'//trim(tname(iiq))//'_bcscav'
518	CALL xios_add_child(group_handle, child, varname)
519	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
520	varname='d'//trim(tname(iiq))//'_evapls'
521	CALL xios_add_child(group_handle, child, varname)
522	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
523	varname='d'//trim(tname(iiq))//'_ls'
524	CALL xios_add_child(group_handle, child, varname)
525	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
526	varname='d'//trim(tname(iiq))//'_trsp'
527	CALL xios_add_child(group_handle, child, varname)
528	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
529	varname='d'//trim(tname(iiq))//'_sscav'
530	CALL xios_add_child(group_handle, child, varname)
531	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
532	varname='d'//trim(tname(iiq))//'_sat'
533	CALL xios_add_child(group_handle, child, varname)
534	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
535	varname='d'//trim(tname(iiq))//'_uscav'
536	CALL xios_add_child(group_handle, child, varname)
537	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
538	ENDDO
539	!On ajoute les variables 2D traceurs par l interface fortran
540	CALL xios_get_handle("fields_strataer_trac_2D", group_handle)
541	! On boucle sur les traceurs pour les ajouter au groupe puis fixer les attributs
542	DO iq=nqo+1, nqtot
543	iiq=niadv(iq)
544	varname='cum'//trim(tname(iiq))
545	WRITE (lunout,*) 'XIOS var=', iq, nqtot, varname
546	CALL xios_add_child(group_handle, child, varname)
547	CALL xios_set_attr(child, name=varname, unit="kg m-2")
548	varname='cumd'//trim(tname(iiq))//'_dry'
549	CALL xios_add_child(group_handle, child, varname)
550	CALL xios_set_attr(child, name=varname, unit="kg m-2 s-1")
551	ENDDO
552	ENDIF
553	!$OMP END MASTER
554	#endif
555	#endif
556	! ug la boucle qui suit ne sert qu'une fois, pour l'initialisation, sinon il n'y a toujours qu'un seul passage:
557	DO iinit=1, iinitend
558	! print *,'IFF iinit=', iinit, iinitend
559	#ifdef CPP_XIOS
560	!$OMP MASTER
561	IF (vars_defined) THEN
562	IF (prt_level >= 10) then
563	write(lunout,*)"phys_output_write: call xios_update_calendar, itau_w=",itau_w
564	ENDIF
565	! CALL xios_update_calendar(itau_w)
566	CALL xios_update_calendar(itap)
567	ENDIF
568	!$OMP END MASTER
569	!$OMP BARRIER
570	#endif
571	! On procède à l'écriture ou à la définition des nombreuses variables:
572	!!! Champs 1D !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
573	CALL histwrite_phy(o_phis, pphis)
574
575	zx_tmp_fi2d = cell_area
576	IF (is_north_pole_phy) then
577	zx_tmp_fi2d(1) = cell_area(1)/nbp_lon
578	ENDIF
579	IF (is_south_pole_phy) then
580	zx_tmp_fi2d(klon) = cell_area(klon)/nbp_lon
581	ENDIf
582	CALL histwrite_phy(o_aire, zx_tmp_fi2d)
583
584	IF (vars_defined) THEN
585	DO i=1, klon
586	zx_tmp_fi2d(i)=pctsrf(i,is_ter)+pctsrf(i,is_lic)
587	ENDDO
588	ENDIF
589
590	CALL histwrite_phy(o_contfracATM, zx_tmp_fi2d)
591	CALL histwrite_phy(o_contfracOR, pctsrf(:,is_ter))
592	!
593	#ifdef CPP_XIOS
594	CALL histwrite_phy("R_ecc",R_ecc)
595	CALL histwrite_phy("R_peri",R_peri)
596	CALL histwrite_phy("R_incl",R_incl)
597	CALL histwrite_phy("solaire",solaire)
598	CALL histwrite_phy(o_Ahyb, ap)
599	CALL histwrite_phy(o_Bhyb, bp)
600	CALL histwrite_phy(o_Ahyb_bounds, Ahyb_bounds)
601	CALL histwrite_phy(o_Bhyb_bounds, Bhyb_bounds)
602	CALL histwrite_phy(o_Ahyb_mid, aps)
603	CALL histwrite_phy(o_Bhyb_mid, bps)
604	CALL histwrite_phy(o_Ahyb_mid_bounds, Ahyb_mid_bounds)
605	CALL histwrite_phy(o_Bhyb_mid_bounds, Bhyb_mid_bounds)
606	CALL histwrite_phy(o_longitude, longitude_deg)
607	CALL histwrite_phy(o_latitude, latitude_deg)
608	!
609	#ifdef CPP_RRTM
610	IF (iflag_rrtm.EQ.1) THEN
611	DO ISW=1, NSW
612	WRITE(ch1,'(i1)') ISW
613	! zx_tmp_0d=RSUN(ISW)
614	! CALL histwrite_phy("rsun"//ch1,zx_tmp_0d)
615	CALL histwrite_phy("rsun"//ch1,RSUN(ISW))
616	ENDDO
617	ENDIF
618	#endif
619	!
620	CALL histwrite_phy("co2_ppm",co2_ppm)
621	CALL histwrite_phy("CH4_ppb",CH4_ppb)
622	CALL histwrite_phy("N2O_ppb",N2O_ppb)
623	CALL histwrite_phy("CFC11_ppt",CFC11_ppt)
624	CALL histwrite_phy("CFC12_ppt",CFC12_ppt)
625	!
626	#endif
627
628	!!! Champs 2D !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
629	! Simulateur AIRS
630	IF (ok_airs) then
631	CALL histwrite_phy(o_alt_tropo,alt_tropo)
632
633	CALL histwrite_phy(o_map_prop_hc,map_prop_hc)
634	CALL histwrite_phy(o_map_prop_hist,map_prop_hist)
635
636	CALL histwrite_phy(o_map_emis_hc,map_emis_hc)
637	CALL histwrite_phy(o_map_iwp_hc,map_iwp_hc)
638	CALL histwrite_phy(o_map_deltaz_hc,map_deltaz_hc)
639	CALL histwrite_phy(o_map_pcld_hc,map_pcld_hc)
640	CALL histwrite_phy(o_map_tcld_hc,map_tcld_hc)
641
642	CALL histwrite_phy(o_map_emis_hist,map_emis_hist)
643	CALL histwrite_phy(o_map_iwp_hist,map_iwp_hist)
644	CALL histwrite_phy(o_map_deltaz_hist,map_deltaz_hist)
645
646	CALL histwrite_phy(o_map_ntot,map_ntot)
647	CALL histwrite_phy(o_map_hc,map_hc)
648	CALL histwrite_phy(o_map_hist,map_hist)
649
650	CALL histwrite_phy(o_map_Cb,map_Cb)
651	CALL histwrite_phy(o_map_ThCi,map_ThCi)
652	CALL histwrite_phy(o_map_Anv,map_Anv)
653
654	CALL histwrite_phy(o_map_emis_Cb,map_emis_Cb)
655	CALL histwrite_phy(o_map_pcld_Cb,map_pcld_Cb)
656	CALL histwrite_phy(o_map_tcld_Cb,map_tcld_Cb)
657
658	CALL histwrite_phy(o_map_emis_ThCi,map_emis_ThCi)
659	CALL histwrite_phy(o_map_pcld_ThCi,map_pcld_ThCi)
660	CALL histwrite_phy(o_map_tcld_ThCi,map_tcld_ThCi)
661
662	CALL histwrite_phy(o_map_emis_Anv,map_emis_Anv)
663	CALL histwrite_phy(o_map_pcld_Anv,map_pcld_Anv)
664	CALL histwrite_phy(o_map_tcld_Anv,map_tcld_Anv)
665	ENDIF
666
667	CALL histwrite_phy(o_sza, sza_o)
668	CALL histwrite_phy(o_flat, zxfluxlat)
669	CALL histwrite_phy(o_ptstar, ptstar)
670	CALL histwrite_phy(o_pt0, pt0)
671	CALL histwrite_phy(o_slp, slp)
672	CALL histwrite_phy(o_tsol, zxtsol)
673	CALL histwrite_phy(o_t2m, zt2m_cor)
674	CALL histwrite_phy(o_t2m_min, zt2m_cor)
675	CALL histwrite_phy(o_t2m_max, zt2m_cor)
676	CALL histwrite_phy(o_t2m_max_mon, t2m_max_mon)
677	CALL histwrite_phy(o_t2m_min_mon, t2m_min_mon)
678
679	IF (vars_defined) THEN
680	DO i=1, klon
681	zx_tmp_fi2d(i)=SQRT(zu10m_cor(i)zu10m_cor(i)+zv10m_cor(i)zv10m_cor(i))
682	ENDDO
683	ENDIF
684	CALL histwrite_phy(o_wind10m, zx_tmp_fi2d)
685
686	IF (vars_defined) THEN
687	DO i=1, klon
688	zx_tmp_fi2d(i)=SQRT(zu10m_cor(i)zu10m_cor(i)+zv10m_cor(i)zv10m_cor(i))
689	ENDDO
690	ENDIF
691	CALL histwrite_phy(o_wind10max, zx_tmp_fi2d)
692
693	CALL histwrite_phy(o_gusts, gustiness)
694
695	IF (vars_defined) THEN
696	DO i = 1, klon
697	zx_tmp_fi2d(i) = pctsrf(i,is_sic)
698	ENDDO
699	ENDIF
700	CALL histwrite_phy(o_sicf, zx_tmp_fi2d)
701	CALL histwrite_phy(o_q2m, zq2m_cor)
702	CALL histwrite_phy(o_ustar, zustar)
703	CALL histwrite_phy(o_u10m, zu10m_cor)
704	CALL histwrite_phy(o_v10m, zv10m_cor)
705
706	IF (vars_defined) THEN
707	DO i = 1, klon
708	zx_tmp_fi2d(i) = paprs(i,1)
709	ENDDO
710	ENDIF
711	CALL histwrite_phy(o_psol, zx_tmp_fi2d)
712	CALL histwrite_phy(o_mass, zmasse)
713	CALL histwrite_phy(o_qsurf, zxqsurf)
714
715	IF (.NOT. ok_veget) THEN
716	CALL histwrite_phy(o_qsol, qsol)
717	CALL histwrite_phy(o_tsoil_deep_land, ftsoil(:, nsoilmx, is_ter))
718	ENDIF
719
720	IF (vars_defined) THEN
721	DO i = 1, klon
722	zx_tmp_fi2d(i) = rain_fall(i) + snow_fall(i)
723	ENDDO
724	ENDIF
725
726	CALL histwrite_phy(o_precip, zx_tmp_fi2d)
727	CALL histwrite_phy(o_rain_fall, rain_fall)
728	CALL histwrite_phy(o_ndayrain, nday_rain)
729
730	! epmax_cape:
731	! CALL histwrite_phy(o_epmax_diag, epmax_diag)
732	CALL histwrite_phy(o_ep, ep)
733
734	IF (vars_defined) THEN
735	DO i = 1, klon
736	zx_tmp_fi2d(i) = rain_lsc(i) + snow_lsc(i)
737	ENDDO
738	ENDIF
739	CALL histwrite_phy(o_plul, zx_tmp_fi2d)
740	CALL histwrite_phy(o_plun, rain_num)
741
742	IF (vars_defined) THEN
743	DO i = 1, klon
744	zx_tmp_fi2d(i) = rain_con(i) + snow_con(i)
745	ENDDO
746	ENDIF
747	CALL histwrite_phy(o_pluc, zx_tmp_fi2d)
748	CALL histwrite_phy(o_rain_con, rain_con)
749	CALL histwrite_phy(o_snow, snow_fall)
750	CALL histwrite_phy(o_msnow, zxsnow)
751	CALL histwrite_phy(o_fsnow, zfra_o)
752	CALL histwrite_phy(o_evap, evap)
753
754	IF (vars_defined) THEN
755	zx_tmp_fi2d = topsw*swradcorr
756	ENDIF
757	CALL histwrite_phy(o_tops, zx_tmp_fi2d)
758
759	IF (vars_defined) THEN
760	zx_tmp_fi2d = topsw0*swradcorr
761	ENDIF
762	CALL histwrite_phy(o_tops0, zx_tmp_fi2d)
763
764	CALL histwrite_phy(o_topl, toplw)
765	CALL histwrite_phy(o_topl0, toplw0)
766
767	IF (vars_defined) THEN
768	zx_tmp_fi2d(:) = swup(:,klevp1)*swradcorr(:)
769	ENDIF
770	CALL histwrite_phy(o_SWupTOA, zx_tmp_fi2d)
771
772	IF (vars_defined) THEN
773	zx_tmp_fi2d(:) = swup0(:,klevp1)*swradcorr(:)
774	ENDIF
775	CALL histwrite_phy(o_SWupTOAclr, zx_tmp_fi2d)
776
777	IF (vars_defined) THEN
778	zx_tmp_fi2d(:) = swupc0(:,klevp1)*swradcorr(:)
779	ENDIF
780	CALL histwrite_phy(o_SWupTOAcleanclr, zx_tmp_fi2d)
781
782	IF (vars_defined) THEN
783	zx_tmp_fi2d(:) = swdn(:,klevp1)*swradcorr(:)
784	ENDIF
785	CALL histwrite_phy(o_SWdnTOA, zx_tmp_fi2d)
786
787	IF (vars_defined) THEN
788	zx_tmp_fi2d(:) = swdn0(:,klevp1)*swradcorr(:)
789	ENDIF
790	CALL histwrite_phy(o_SWdnTOAclr, zx_tmp_fi2d)
791
792	IF (vars_defined) THEN
793	zx_tmp_fi2d(:) = topsw(:)*swradcorr(:)-toplw(:)
794	ENDIF
795	CALL histwrite_phy(o_nettop, zx_tmp_fi2d)
796
797	IF (vars_defined) THEN
798	zx_tmp_fi2d = SWup200*swradcorr
799	ENDIF
800	CALL histwrite_phy(o_SWup200, zx_tmp_fi2d)
801
802	IF (vars_defined) THEN
803	zx_tmp_fi2d = SWup200clr*swradcorr
804	ENDIF
805	CALL histwrite_phy(o_SWup200clr, zx_tmp_fi2d)
806
807	IF (vars_defined) THEN
808	zx_tmp_fi2d = SWdn200*swradcorr
809	ENDIF
810	CALL histwrite_phy(o_SWdn200, zx_tmp_fi2d)
811
812
813	IF (vars_defined) THEN
814	zx_tmp_fi2d = SWdn200clr*swradcorr
815	ENDIF
816	CALL histwrite_phy(o_SWdn200clr, zx_tmp_fi2d)
817
818	CALL histwrite_phy(o_LWup200, LWup200)
819	CALL histwrite_phy(o_LWup200clr, LWup200clr)
820	CALL histwrite_phy(o_LWdn200, LWdn200)
821	CALL histwrite_phy(o_LWdn200clr, LWdn200clr)
822
823	IF (vars_defined) THEN
824	zx_tmp_fi2d = solsw*swradcorr
825	ENDIF
826	CALL histwrite_phy(o_sols, zx_tmp_fi2d)
827
828
829	IF (vars_defined) THEN
830	zx_tmp_fi2d = solsw0*swradcorr
831	ENDIF
832	CALL histwrite_phy(o_sols0, zx_tmp_fi2d)
833	CALL histwrite_phy(o_soll, sollw)
834	CALL histwrite_phy(o_soll0, sollw0)
835	CALL histwrite_phy(o_radsol, radsol)
836
837	IF (vars_defined) THEN
838	zx_tmp_fi2d(:) = swup(:,1)*swradcorr(:)
839	ENDIF
840	CALL histwrite_phy(o_SWupSFC, zx_tmp_fi2d)
841
842	IF (vars_defined) THEN
843	zx_tmp_fi2d(:) = swup0(:,1)*swradcorr(:)
844	ENDIF
845	CALL histwrite_phy(o_SWupSFCclr, zx_tmp_fi2d)
846
847	IF (vars_defined) THEN
848	zx_tmp_fi2d(:) = swupc0(:,1)*swradcorr(:)
849	ENDIF
850	CALL histwrite_phy(o_SWupSFCcleanclr, zx_tmp_fi2d)
851
852	IF (vars_defined) THEN
853	zx_tmp_fi2d(:) = swdn(:,1)*swradcorr(:)
854	ENDIF
855	CALL histwrite_phy(o_SWdnSFC, zx_tmp_fi2d)
856
857	IF (vars_defined) THEN
858	zx_tmp_fi2d(:) = swdn0(:,1)*swradcorr(:)
859	ENDIF
860	CALL histwrite_phy(o_SWdnSFCclr, zx_tmp_fi2d)
861
862	IF (vars_defined) THEN
863	zx_tmp_fi2d(:) = swdnc0(:,1)*swradcorr(:)
864	ENDIF
865	CALL histwrite_phy(o_SWdnSFCcleanclr, zx_tmp_fi2d)
866
867	IF (vars_defined) THEN
868	zx_tmp_fi2d(:)=sollwdown(:)-sollw(:)
869	ENDIF
870	CALL histwrite_phy(o_LWupSFC, zx_tmp_fi2d)
871	CALL histwrite_phy(o_LWdnSFC, sollwdown)
872
873	IF (vars_defined) THEN
874	sollwdownclr(1:klon) = -1.*lwdn0(1:klon,1)
875	zx_tmp_fi2d(1:klon)=sollwdownclr(1:klon)-sollw0(1:klon)
876	ENDIF
877	CALL histwrite_phy(o_LWupSFCclr, zx_tmp_fi2d)
878	CALL histwrite_phy(o_LWdnSFCclr, sollwdownclr)
879
880	IF (vars_defined) THEN
881	zx_tmp_fi2d(:) = lwupc0(:,klevp1)
882	ENDIF
883	CALL histwrite_phy(o_LWupTOAcleanclr, zx_tmp_fi2d)
884	IF (vars_defined) THEN
885	zx_tmp_fi2d(:) = -1.*lwdnc0(:,1)
886	ENDIF
887	CALL histwrite_phy(o_LWdnSFCcleanclr, zx_tmp_fi2d)
888
889	CALL histwrite_phy(o_bils, bils)
890	CALL histwrite_phy(o_bils_diss, bils_diss)
891	CALL histwrite_phy(o_bils_ec, bils_ec)
892	CALL histwrite_phy(o_bils_ech, bils_ech)
893	CALL histwrite_phy(o_bils_tke, bils_tke)
894	CALL histwrite_phy(o_bils_kinetic, bils_kinetic)
895	CALL histwrite_phy(o_bils_latent, bils_latent)
896	CALL histwrite_phy(o_bils_enthalp, bils_enthalp)
897
898	IF (vars_defined) THEN
899	zx_tmp_fi2d(1:klon)=-1*sens(1:klon)
900	ENDIF
901	CALL histwrite_phy(o_sens, zx_tmp_fi2d)
902	CALL histwrite_phy(o_fder, fder)
903	CALL histwrite_phy(o_ffonte, zxffonte)
904	CALL histwrite_phy(o_fqcalving, zxfqcalving)
905	CALL histwrite_phy(o_fqfonte, zxfqfonte)
906	IF (vars_defined) THEN
907	zx_tmp_fi2d(1:klon)=(zxfqfonte(1:klon)+rain_fall(1:klon))*pctsrf(1:klon,is_lic)
908	ENDIF
909	CALL histwrite_phy(o_mrroli, zx_tmp_fi2d)
910	CALL histwrite_phy(o_runofflic, zxrunofflic)
911	IF (vars_defined) THEN
912	zx_tmp_fi2d=0.
913	DO nsrf=1,nbsrf
914	zx_tmp_fi2d(:)=zx_tmp_fi2d(:)+pctsrf(:,nsrf)*fluxu(:,1,nsrf)
915	ENDDO
916	ENDIF
917	CALL histwrite_phy(o_taux, zx_tmp_fi2d)
918
919	IF (vars_defined) THEN
920	zx_tmp_fi2d=0.
921	DO nsrf=1,nbsrf
922	zx_tmp_fi2d(:)=zx_tmp_fi2d(:)+pctsrf(:,nsrf)*fluxv(:,1,nsrf)
923	ENDDO
924	ENDIF
925	CALL histwrite_phy(o_tauy, zx_tmp_fi2d)
926
927	IF (ok_snow) THEN
928	CALL histwrite_phy(o_snowsrf, snow_o)
929	CALL histwrite_phy(o_qsnow, qsnow)
930	CALL histwrite_phy(o_snowhgt,snowhgt)
931	CALL histwrite_phy(o_toice,to_ice)
932	CALL histwrite_phy(o_sissnow,sissnow)
933	CALL histwrite_phy(o_runoff,runoff)
934	CALL histwrite_phy(o_albslw3,albsol3_lic)
935	ENDIF
936
937	DO nsrf = 1, nbsrf
938
939	IF (vars_defined) zx_tmp_fi2d(1 : klon) = pctsrf( 1 : klon, nsrf)*100.
940	CALL histwrite_phy(o_pourc_srf(nsrf), zx_tmp_fi2d)
941	IF (vars_defined) zx_tmp_fi2d(1 : klon) = pctsrf( 1 : klon, nsrf)
942	CALL histwrite_phy(o_fract_srf(nsrf), zx_tmp_fi2d)
943	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fluxu( 1 : klon, 1, nsrf)
944	CALL histwrite_phy(o_taux_srf(nsrf), zx_tmp_fi2d)
945	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fluxv( 1 : klon, 1, nsrf)
946	CALL histwrite_phy(o_tauy_srf(nsrf), zx_tmp_fi2d)
947	IF (vars_defined) zx_tmp_fi2d(1 : klon) = ftsol( 1 : klon, nsrf)
948	CALL histwrite_phy(o_tsol_srf(nsrf), zx_tmp_fi2d)
949	IF (vars_defined) zx_tmp_fi2d(1 : klon) = evap_pot( 1 : klon, nsrf)
950	CALL histwrite_phy(o_evappot_srf(nsrf), zx_tmp_fi2d)
951	IF (vars_defined) zx_tmp_fi2d(1 : klon) = ustar(1 : klon, nsrf)
952	CALL histwrite_phy(o_ustar_srf(nsrf), zx_tmp_fi2d)
953	IF (vars_defined) zx_tmp_fi2d(1 : klon) = u10m(1 : klon, nsrf)
954	CALL histwrite_phy(o_u10m_srf(nsrf), zx_tmp_fi2d)
955	IF (vars_defined) zx_tmp_fi2d(1 : klon) = v10m(1 : klon, nsrf)
956	CALL histwrite_phy(o_v10m_srf(nsrf), zx_tmp_fi2d)
957	IF (vars_defined) zx_tmp_fi2d(1 : klon) = t2m(1 : klon, nsrf)
958	CALL histwrite_phy(o_t2m_srf(nsrf), zx_tmp_fi2d)
959	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fevap(1 : klon, nsrf)
960	CALL histwrite_phy(o_evap_srf(nsrf), zx_tmp_fi2d)
961	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fluxt( 1 : klon, 1, nsrf)
962	CALL histwrite_phy(o_sens_srf(nsrf), zx_tmp_fi2d)
963	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fluxlat( 1 : klon, nsrf)
964	CALL histwrite_phy(o_lat_srf(nsrf), zx_tmp_fi2d)
965	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fsollw( 1 : klon, nsrf)
966	CALL histwrite_phy(o_flw_srf(nsrf), zx_tmp_fi2d)
967	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fsolsw( 1 : klon, nsrf)
968	CALL histwrite_phy(o_fsw_srf(nsrf), zx_tmp_fi2d)
969	IF (vars_defined) zx_tmp_fi2d(1 : klon) = wfbils( 1 : klon, nsrf)
970	CALL histwrite_phy(o_wbils_srf(nsrf), zx_tmp_fi2d)
971	IF (vars_defined) zx_tmp_fi2d(1 : klon) = wfbilo( 1 : klon, nsrf)
972	CALL histwrite_phy(o_wbilo_srf(nsrf), zx_tmp_fi2d)
973	IF (vars_defined) zx_tmp_fi2d(1 : klon) = wfevap( 1 : klon, nsrf)
974	CALL histwrite_phy(o_wevap_srf(nsrf), zx_tmp_fi2d)
975	IF (vars_defined) zx_tmp_fi2d(1 : klon) = wfrain( 1 : klon, nsrf)
976	CALL histwrite_phy(o_wrain_srf(nsrf), zx_tmp_fi2d)
977	IF (vars_defined) zx_tmp_fi2d(1 : klon) = wfsnow( 1 : klon, nsrf)
978	CALL histwrite_phy(o_wsnow_srf(nsrf), zx_tmp_fi2d)
979
980	IF (iflag_pbl > 1) THEN
981	CALL histwrite_phy(o_tke_srf(nsrf), pbl_tke(:,1:klev,nsrf))
982	!CALL histwrite_phy(o_l_mix(nsrf), l_mix(:,1:klev,nsrf))
983	CALL histwrite_phy(o_l_mixmin(nsrf), l_mixmin(:,1:klev,nsrf))
984	CALL histwrite_phy(o_tke_max_srf(nsrf), pbl_tke(:,1:klev,nsrf))
985	ENDIF
986	!jyg<
987	IF (iflag_pbl > 1 .AND. iflag_wake>=1 .AND. iflag_pbl_split >=1) THEN
988	CALL histwrite_phy(o_dltpbltke_srf(nsrf), wake_delta_pbl_TKE(:,1:klev,nsrf))
989	ENDIF
990	!>jyg
991	! IF (iflag_pbl > 1 .AND. ifl_pbltree >=1 ) THEN
992	! CALL histwrite_phy(o_treedrg_srf(nsrf), treedrg(:,1:klev,nsrf))
993	! ENDIF
994
995
996	ENDDO
997
998	IF (vars_defined) zx_tmp_fi2d(1 : klon) = sens_prec_liq_o(1 : klon, 1)
999	CALL histwrite_phy(o_sens_prec_liq_oce, zx_tmp_fi2d)
1000	IF (vars_defined) zx_tmp_fi2d(1 : klon) = sens_prec_liq_o(1 : klon, 2)
1001	CALL histwrite_phy(o_sens_prec_liq_sic, zx_tmp_fi2d)
1002	IF (vars_defined) zx_tmp_fi2d(1 : klon) = sens_prec_sol_o(1 : klon, 1)
1003	CALL histwrite_phy(o_sens_prec_sol_oce, zx_tmp_fi2d)
1004	IF (vars_defined) zx_tmp_fi2d(1 : klon) = sens_prec_sol_o(1 : klon, 2)
1005	CALL histwrite_phy(o_sens_prec_sol_sic, zx_tmp_fi2d)
1006
1007	IF (vars_defined) zx_tmp_fi2d(1 : klon) = lat_prec_liq_o(1 : klon, 1)
1008	CALL histwrite_phy(o_lat_prec_liq_oce, zx_tmp_fi2d)
1009	IF (vars_defined) zx_tmp_fi2d(1 : klon) = lat_prec_liq_o(1 : klon, 2)
1010	CALL histwrite_phy(o_lat_prec_liq_sic, zx_tmp_fi2d)
1011	IF (vars_defined) zx_tmp_fi2d(1 : klon) = lat_prec_sol_o(1 : klon, 1)
1012	CALL histwrite_phy(o_lat_prec_sol_oce, zx_tmp_fi2d)
1013	IF (vars_defined) zx_tmp_fi2d(1 : klon) = lat_prec_sol_o(1 : klon, 2)
1014	CALL histwrite_phy(o_lat_prec_sol_sic, zx_tmp_fi2d)
1015
1016	DO nsrf=1,nbsrf+1
1017	CALL histwrite_phy(o_wstar(nsrf), wstar(1 : klon, nsrf))
1018	ENDDO
1019
1020	CALL histwrite_phy(o_cdrm, cdragm)
1021	CALL histwrite_phy(o_cdrh, cdragh)
1022	CALL histwrite_phy(o_cldl, cldl)
1023	CALL histwrite_phy(o_cldm, cldm)
1024	CALL histwrite_phy(o_cldh, cldh)
1025	CALL histwrite_phy(o_cldt, cldt)
1026	CALL histwrite_phy(o_JrNt, JrNt)
1027
1028	IF (vars_defined) zx_tmp_fi2d=cldl*JrNt
1029	CALL histwrite_phy(o_cldljn, zx_tmp_fi2d)
1030
1031	IF (vars_defined) zx_tmp_fi2d=cldm*JrNt
1032	CALL histwrite_phy(o_cldmjn, zx_tmp_fi2d)
1033
1034	IF (vars_defined) zx_tmp_fi2d=cldh*JrNt
1035	CALL histwrite_phy(o_cldhjn, zx_tmp_fi2d)
1036
1037	IF (vars_defined) zx_tmp_fi2d=cldt*JrNt
1038	CALL histwrite_phy(o_cldtjn, zx_tmp_fi2d)
1039
1040	CALL histwrite_phy(o_cldq, cldq)
1041	IF (vars_defined) zx_tmp_fi2d(1:klon) = flwp(1:klon)
1042	CALL histwrite_phy(o_lwp, zx_tmp_fi2d)
1043	IF (vars_defined) zx_tmp_fi2d(1:klon) = fiwp(1:klon)
1044	CALL histwrite_phy(o_iwp, zx_tmp_fi2d)
1045	CALL histwrite_phy(o_ue, ue)
1046	CALL histwrite_phy(o_ve, ve)
1047	CALL histwrite_phy(o_uq, uq)
1048	CALL histwrite_phy(o_vq, vq)
1049	CALL histwrite_phy(o_uwat, uwat)
1050	CALL histwrite_phy(o_vwat, vwat)
1051	IF (iflag_con.GE.3) THEN ! sb
1052	CALL histwrite_phy(o_cape, cape)
1053	CALL histwrite_phy(o_pbase, ema_pcb)
1054	CALL histwrite_phy(o_ptop, ema_pct)
1055	CALL histwrite_phy(o_fbase, ema_cbmf)
1056	IF (iflag_con /= 30) THEN
1057	CALL histwrite_phy(o_plcl, plcl)
1058	CALL histwrite_phy(o_plfc, plfc)
1059	CALL histwrite_phy(o_wbeff, wbeff)
1060	CALL histwrite_phy(o_convoccur, convoccur)
1061	ENDIF
1062
1063	CALL histwrite_phy(o_cape_max, cape)
1064
1065	CALL histwrite_phy(o_upwd, upwd)
1066	CALL histwrite_phy(o_Ma, Ma)
1067	CALL histwrite_phy(o_dnwd, dnwd)
1068	CALL histwrite_phy(o_dnwd0, dnwd0)
1069	!! The part relative to the frequency of occurence of convection
1070	!! is now grouped with the part relative to thermals and shallow
1071	!! convection (output of the 3 fields: ftime_deepcv, ftime_th and
1072	!! ftime_con).
1073	IF (vars_defined) THEN
1074	IF (iflag_thermals>=1)THEN
1075	zx_tmp_fi3d=-dnwd+dnwd0+upwd+fm_therm(:,1:klev)
1076	ELSE
1077	zx_tmp_fi3d=-dnwd+dnwd0+upwd
1078	ENDIF
1079	ENDIF
1080	CALL histwrite_phy(o_mc, zx_tmp_fi3d)
1081	ENDIF !iflag_con .GE. 3
1082	CALL histwrite_phy(o_prw, prw)
1083	CALL histwrite_phy(o_prlw, prlw)
1084	CALL histwrite_phy(o_prsw, prsw)
1085	CALL histwrite_phy(o_s_pblh, s_pblh)
1086	CALL histwrite_phy(o_s_pblt, s_pblt)
1087	CALL histwrite_phy(o_s_lcl, s_lcl)
1088	CALL histwrite_phy(o_s_therm, s_therm)
1089	!IM : Les champs suivants (s_capCL, s_oliqCL, s_cteiCL, s_trmb1, s_trmb2, s_trmb3) ne sont pas definis dans HBTM.F
1090	! IF (o_s_capCL%flag(iff)<=lev_files(iff)) THEN
1091	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
1092	! $o_s_capCL%name,itau_w,s_capCL)
1093	! ENDIF
1094	! IF (o_s_oliqCL%flag(iff)<=lev_files(iff)) THEN
1095	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
1096	! $o_s_oliqCL%name,itau_w,s_oliqCL)
1097	! ENDIF
1098	! IF (o_s_cteiCL%flag(iff)<=lev_files(iff)) THEN
1099	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
1100	! $o_s_cteiCL%name,itau_w,s_cteiCL)
1101	! ENDIF
1102	! IF (o_s_trmb1%flag(iff)<=lev_files(iff)) THEN
1103	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
1104	! $o_s_trmb1%name,itau_w,s_trmb1)
1105	! ENDIF
1106	! IF (o_s_trmb2%flag(iff)<=lev_files(iff)) THEN
1107	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
1108	! $o_s_trmb2%name,itau_w,s_trmb2)
1109	! ENDIF
1110	! IF (o_s_trmb3%flag(iff)<=lev_files(iff)) THEN
1111	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
1112	! $o_s_trmb3%name,itau_w,s_trmb3)
1113	! ENDIF
1114
1115	#ifdef CPP_IOIPSL
1116	#ifndef CPP_XIOS
1117	IF (.NOT.ok_all_xml) THEN
1118	! ATTENTION, LES ANCIENS HISTWRITE ONT ETES CONSERVES EN ATTENDANT MIEUX:
1119	! Champs interpolles sur des niveaux de pression
1120	missing_val=missing_val_nf90
1121	DO iff=1, nfiles
1122	ll=0
1123	DO k=1, nlevSTD
1124	bb2=clevSTD(k)
1125	IF (bb2.EQ."850".OR.bb2.EQ."700".OR. &
1126	bb2.EQ."500".OR.bb2.EQ."200".OR. &
1127	bb2.EQ."100".OR. &
1128	bb2.EQ."50".OR.bb2.EQ."10") THEN
1129
1130	! a refaire correctement !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1131	ll=ll+1
1132	CALL histwrite_phy(o_uSTDlevs(ll),uwriteSTD(:,k,iff), iff)
1133	CALL histwrite_phy(o_vSTDlevs(ll),vwriteSTD(:,k,iff), iff)
1134	CALL histwrite_phy(o_wSTDlevs(ll),wwriteSTD(:,k,iff), iff)
1135	CALL histwrite_phy(o_zSTDlevs(ll),phiwriteSTD(:,k,iff), iff)
1136	CALL histwrite_phy(o_qSTDlevs(ll),qwriteSTD(:,k,iff), iff)
1137	CALL histwrite_phy(o_tSTDlevs(ll),twriteSTD(:,k,iff), iff)
1138
1139	ENDIF !(bb2.EQ."850".OR.bb2.EQ."700".OR.
1140	ENDDO
1141	ENDDO
1142	ENDIF
1143	#endif
1144	#endif
1145	#ifdef CPP_XIOS
1146	IF (ok_all_xml) THEN
1147	!XIOS CALL xios_get_field_attr("u850",default_value=missing_val)
1148	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1149	ll=0
1150	DO k=1, nlevSTD
1151	bb2=clevSTD(k)
1152	IF (bb2.EQ."850".OR.bb2.EQ."700".OR. &
1153	bb2.EQ."500".OR.bb2.EQ."200".OR. &
1154	bb2.EQ."100".OR. &
1155	bb2.EQ."50".OR.bb2.EQ."10") THEN
1156	ll=ll+1
1157	CALL histwrite_phy(o_uSTDlevs(ll),ulevSTD(:,k))
1158	CALL histwrite_phy(o_vSTDlevs(ll),vlevSTD(:,k))
1159	CALL histwrite_phy(o_wSTDlevs(ll),wlevSTD(:,k))
1160	CALL histwrite_phy(o_zSTDlevs(ll),philevSTD(:,k))
1161	CALL histwrite_phy(o_qSTDlevs(ll),qlevSTD(:,k))
1162	CALL histwrite_phy(o_tSTDlevs(ll),tlevSTD(:,k))
1163	ENDIF !(bb2.EQ."850".OR.bb2.EQ."700".OR.
1164	ENDDO
1165	ENDIF
1166	#endif
1167	IF (vars_defined) THEN
1168	DO i=1, klon
1169	IF (pctsrf(i,is_oce).GT.epsfra.OR. &
1170	pctsrf(i,is_sic).GT.epsfra) THEN
1171	zx_tmp_fi2d(i) = (ftsol(i, is_oce) * pctsrf(i,is_oce)+ &
1172	ftsol(i, is_sic) * pctsrf(i,is_sic))/ &
1173	(pctsrf(i,is_oce)+pctsrf(i,is_sic))
1174	ELSE
1175	zx_tmp_fi2d(i) = 273.15
1176	ENDIF
1177	ENDDO
1178	ENDIF
1179	CALL histwrite_phy(o_t_oce_sic, zx_tmp_fi2d)
1180
1181	! Couplage convection-couche limite
1182	IF (iflag_con.GE.3) THEN
1183	IF (iflag_coupl>=1) THEN
1184	CALL histwrite_phy(o_ale_bl, ale_bl)
1185	CALL histwrite_phy(o_alp_bl, alp_bl)
1186	ENDIF !iflag_coupl>=1
1187	ENDIF !(iflag_con.GE.3)
1188	! Wakes
1189	IF (iflag_con.EQ.3) THEN
1190	CALL histwrite_phy(o_Mipsh, Mipsh)
1191	IF (iflag_wake>=1) THEN
1192	CALL histwrite_phy(o_ale_wk, ale_wake)
1193	CALL histwrite_phy(o_alp_wk, alp_wake)
1194	IF (iflag_pbl_split>=1) THEN
1195	!! IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=dtvdf_x(1:klon,1:klev)/pdtphys
1196	!! CALL histwrite_phy(o_dtvdf_x ,zx_tmp_fi3d)
1197	!! IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=dtvdf_w(1:klon,1:klev)/pdtphys
1198	!! CALL histwrite_phy(o_dtvdf_w ,zx_tmp_fi3d)
1199	!! IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=dqvdf_x(1:klon,1:klev)/pdtphys
1200	!! CALL histwrite_phy(o_dqvdf_x ,zx_tmp_fi3d)
1201	!! IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=dqvdf_w(1:klon,1:klev)/pdtphys
1202	!
1203	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_vdf_x(1:klon,1:klev)/pdtphys
1204	CALL histwrite_phy(o_dtvdf_x ,zx_tmp_fi3d)
1205	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_vdf_w(1:klon,1:klev)/pdtphys
1206	CALL histwrite_phy(o_dtvdf_w ,zx_tmp_fi3d)
1207	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_vdf_x(1:klon,1:klev)/pdtphys
1208	CALL histwrite_phy(o_dqvdf_x ,zx_tmp_fi3d)
1209	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_vdf_w(1:klon,1:klev)/pdtphys
1210	!
1211	CALL histwrite_phy(o_dqvdf_w ,zx_tmp_fi3d)
1212	CALL histwrite_phy(o_sens_x ,sens_x )
1213	CALL histwrite_phy(o_sens_w ,sens_w )
1214	CALL histwrite_phy(o_flat_x ,zxfluxlat_x)
1215	CALL histwrite_phy(o_flat_w ,zxfluxlat_w)
1216	CALL histwrite_phy(o_delta_tsurf,delta_tsurf)
1217	CALL histwrite_phy(o_cdragh_x ,cdragh_x )
1218	CALL histwrite_phy(o_cdragh_w ,cdragh_w )
1219	CALL histwrite_phy(o_cdragm_x ,cdragm_x )
1220	CALL histwrite_phy(o_cdragm_w ,cdragm_w )
1221	CALL histwrite_phy(o_kh ,kh )
1222	CALL histwrite_phy(o_kh_x ,kh_x )
1223	CALL histwrite_phy(o_kh_w ,kh_w )
1224	ENDIF ! (iflag_pbl_split>=1)
1225	CALL histwrite_phy(o_ale, ale)
1226	CALL histwrite_phy(o_alp, alp)
1227	CALL histwrite_phy(o_cin, cin)
1228	CALL histwrite_phy(o_WAPE, wake_pe)
1229	CALL histwrite_phy(o_cv_gen, cv_gen)
1230	CALL histwrite_phy(o_wake_h, wake_h)
1231	CALL histwrite_phy(o_wake_dens, wake_dens)
1232	CALL histwrite_phy(o_wake_s, wake_s)
1233	CALL histwrite_phy(o_wake_deltat, wake_deltat)
1234	CALL histwrite_phy(o_wake_deltaq, wake_deltaq)
1235	CALL histwrite_phy(o_wake_omg, wake_omg)
1236	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_wake(1:klon,1:klev) &
1237	/pdtphys
1238	CALL histwrite_phy(o_dtwak, zx_tmp_fi3d)
1239	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_wake(1:klon,1:klev)/pdtphys
1240	CALL histwrite_phy(o_dqwak, zx_tmp_fi3d)
1241	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1242	CALL histwrite_phy(o_dqwak2d, zx_tmp_fi2d)
1243	ENDIF ! iflag_wake>=1
1244	CALL histwrite_phy(o_ftd, ftd)
1245	CALL histwrite_phy(o_fqd, fqd)
1246	ENDIF !(iflag_con.EQ.3)
1247	IF (iflag_con.EQ.3.OR.iflag_con.EQ.30) THEN
1248	! sortie RomP convection descente insaturee iflag_con=30
1249	! etendue a iflag_con=3 (jyg)
1250	CALL histwrite_phy(o_Vprecip, Vprecip)
1251	CALL histwrite_phy(o_qtaa, qtaa)
1252	CALL histwrite_phy(o_clwaa, clw)
1253	CALL histwrite_phy(o_wdtrainA, wdtrainA)
1254	CALL histwrite_phy(o_wdtrainS, wdtrainS)
1255	CALL histwrite_phy(o_wdtrainM, wdtrainM)
1256	ENDIF !(iflag_con.EQ.3.or.iflag_con.EQ.30)
1257	!!! nrlmd le 10/04/2012
1258	IF (iflag_trig_bl>=1) THEN
1259	CALL histwrite_phy(o_n2, n2)
1260	CALL histwrite_phy(o_s2, s2)
1261	CALL histwrite_phy(o_proba_notrig, proba_notrig)
1262	CALL histwrite_phy(o_random_notrig, random_notrig)
1263	CALL histwrite_phy(o_ale_bl_stat, ale_bl_stat)
1264	CALL histwrite_phy(o_ale_bl_trig, ale_bl_trig)
1265	ENDIF !(iflag_trig_bl>=1)
1266	IF (iflag_clos_bl>=1) THEN
1267	CALL histwrite_phy(o_alp_bl_det, alp_bl_det)
1268	CALL histwrite_phy(o_alp_bl_fluct_m, alp_bl_fluct_m)
1269	CALL histwrite_phy(o_alp_bl_fluct_tke, &
1270	alp_bl_fluct_tke)
1271	CALL histwrite_phy(o_alp_bl_conv, alp_bl_conv)
1272	CALL histwrite_phy(o_alp_bl_stat, alp_bl_stat)
1273	ENDIF !(iflag_clos_bl>=1)
1274	!!! fin nrlmd le 10/04/2012
1275	! Output of slab ocean variables
1276	IF (type_ocean=='slab ') THEN
1277	CALL histwrite_phy(o_slab_bils, slab_wfbils)
1278	IF (nslay.EQ.1) THEN
1279	zx_tmp_fi2d(:)=tslab(:,1)
1280	CALL histwrite_phy(o_tslab, zx_tmp_fi2d)
1281	zx_tmp_fi2d(:)=dt_qflux(:,1)
1282	CALL histwrite_phy(o_slab_qflux, zx_tmp_fi2d)
1283	ELSE
1284	CALL histwrite_phy(o_tslab, tslab(:,1:nslay))
1285	CALL histwrite_phy(o_slab_qflux, dt_qflux(:,1:nslay))
1286	ENDIF
1287	IF (version_ocean=='sicINT') THEN
1288	CALL histwrite_phy(o_slab_bilg, slab_bilg)
1289	CALL histwrite_phy(o_slab_tice, tice)
1290	CALL histwrite_phy(o_slab_sic, seaice)
1291	ENDIF
1292	IF (slab_gm) THEN
1293	CALL histwrite_phy(o_slab_gm, dt_gm(:,1:nslay))
1294	ENDIF
1295	IF (slab_hdiff) THEN
1296	IF (nslay.EQ.1) THEN
1297	zx_tmp_fi2d(:)=dt_hdiff(:,1)
1298	CALL histwrite_phy(o_slab_hdiff, zx_tmp_fi2d)
1299	ELSE
1300	CALL histwrite_phy(o_slab_hdiff, dt_hdiff(:,1:nslay))
1301	ENDIF
1302	ENDIF
1303	IF (slab_ekman.GT.0) THEN
1304	IF (nslay.EQ.1) THEN
1305	zx_tmp_fi2d(:)=dt_ekman(:,1)
1306	CALL histwrite_phy(o_slab_ekman, zx_tmp_fi2d)
1307	ELSE
1308	CALL histwrite_phy(o_slab_ekman, dt_ekman(:,1:nslay))
1309	ENDIF
1310	ENDIF
1311	ENDIF !type_ocean == force/slab
1312	CALL histwrite_phy(o_weakinv, weak_inversion)
1313	CALL histwrite_phy(o_dthmin, dthmin)
1314	CALL histwrite_phy(o_cldtau, cldtau)
1315	CALL histwrite_phy(o_cldemi, cldemi)
1316	CALL histwrite_phy(o_pr_con_l, pmflxr(:,1:klev))
1317	CALL histwrite_phy(o_pr_con_i, pmflxs(:,1:klev))
1318	CALL histwrite_phy(o_pr_lsc_l, prfl(:,1:klev))
1319	CALL histwrite_phy(o_pr_lsc_i, psfl(:,1:klev))
1320	CALL histwrite_phy(o_re, re)
1321	CALL histwrite_phy(o_fl, fl)
1322	IF (vars_defined) THEN
1323	DO i=1, klon
1324	zx_tmp_fi2d(i)=MIN(100.,rh2m(i)*100.)
1325	ENDDO
1326	ENDIF
1327	CALL histwrite_phy(o_rh2m, zx_tmp_fi2d)
1328
1329	! IF (vars_defined) THEN
1330	! DO i=1, klon
1331	! zx_tmp_fi2d(i)=MIN(100.,rh2m(i)*100.)
1332	! ENDDO
1333	! ENDIF
1334	! CALL histwrite_phy(o_rh2m_min, zx_tmp_fi2d)
1335
1336	! IF (vars_defined) THEN
1337	! DO i=1, klon
1338	! zx_tmp_fi2d(i)=MIN(100.,rh2m(i)*100.)
1339	! ENDDO
1340	! ENDIF
1341	! CALL histwrite_phy(o_rh2m_max, zx_tmp_fi2d)
1342
1343	CALL histwrite_phy(o_qsat2m, zqsat2m_cor)
1344	CALL histwrite_phy(o_tpot, tpot)
1345	CALL histwrite_phy(o_tpote, tpote)
1346	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fsolsw( 1 : klon, is_ter)
1347	CALL histwrite_phy(o_SWnetOR, zx_tmp_fi2d)
1348	CALL histwrite_phy(o_LWdownOR, sollwdown)
1349	CALL histwrite_phy(o_snowl, snow_lsc)
1350	CALL histwrite_phy(o_solldown, sollwdown)
1351	CALL histwrite_phy(o_dtsvdfo, d_ts(:,is_oce))
1352	CALL histwrite_phy(o_dtsvdft, d_ts(:,is_ter))
1353	CALL histwrite_phy(o_dtsvdfg, d_ts(:,is_lic))
1354	CALL histwrite_phy(o_dtsvdfi, d_ts(:,is_sic))
1355	CALL histwrite_phy(o_z0m, z0m(:,nbsrf+1))
1356	CALL histwrite_phy(o_z0h, z0h(:,nbsrf+1))
1357
1358	! od550 per species
1359	!--OLIVIER
1360	!This is warranted by treating INCA aerosols as offline aerosols
1361	! IF (new_aod .and. (.not. aerosol_couple)) THEN
1362	IF (new_aod) THEN
1363	IF (flag_aerosol.GT.0) THEN
1364	CALL histwrite_phy(o_od443aer, od443aer)
1365	CALL histwrite_phy(o_od550aer, od550aer)
1366	CALL histwrite_phy(o_od865aer, od865aer)
1367	CALL histwrite_phy(o_abs550aer, abs550aer)
1368	CALL histwrite_phy(o_od550lt1aer, od550lt1aer)
1369	CALL histwrite_phy(o_sconcso4, sconcso4)
1370	CALL histwrite_phy(o_sconcno3, sconcno3)
1371	CALL histwrite_phy(o_sconcoa, sconcoa)
1372	CALL histwrite_phy(o_sconcbc, sconcbc)
1373	CALL histwrite_phy(o_sconcss, sconcss)
1374	CALL histwrite_phy(o_sconcdust, sconcdust)
1375	CALL histwrite_phy(o_concso4, concso4)
1376	CALL histwrite_phy(o_concno3, concno3)
1377	CALL histwrite_phy(o_concoa, concoa)
1378	CALL histwrite_phy(o_concbc, concbc)
1379	CALL histwrite_phy(o_concss, concss)
1380	CALL histwrite_phy(o_concdust, concdust)
1381	CALL histwrite_phy(o_loadso4, loadso4)
1382	CALL histwrite_phy(o_loadoa, loadoa)
1383	CALL histwrite_phy(o_loadbc, loadbc)
1384	CALL histwrite_phy(o_loadss, loadss)
1385	CALL histwrite_phy(o_loaddust, loaddust)
1386	CALL histwrite_phy(o_loadno3, loadno3)
1387	CALL histwrite_phy(o_dryod550aer, dryod550aer)
1388	DO naero = 1, naero_tot-1
1389	CALL histwrite_phy(o_drytausumaero(naero),drytausum_aero(:,naero))
1390	END DO
1391	ENDIF
1392	!--STRAT AER
1393	IF (flag_aerosol.GT.0.OR.flag_aerosol_strat.GT.0) THEN
1394	DO naero = 1, naero_tot
1395	CALL histwrite_phy(o_tausumaero(naero),tausum_aero(:,2,naero))
1396	END DO
1397	ENDIF
1398	IF (flag_aerosol_strat.GT.0) THEN
1399	CALL histwrite_phy(o_tausumaero_lw,tausum_aero(:,6,id_STRAT_phy))
1400	ENDIF
1401	ENDIF
1402
1403	CALL histwrite_phy(o_p_tropopause, p_tropopause)
1404	CALL histwrite_phy(o_t_tropopause, t_tropopause)
1405	CALL histwrite_phy(o_z_tropopause, z_tropopause)
1406
1407	! ThL -- In the following, we assume read_climoz == 1
1408	IF (vars_defined) THEN
1409	zx_tmp_fi2d = 0.0 ! Computation for strato, added ThL
1410	DO k=1, klev
1411	zx_tmp_fi2d(:) = zx_tmp_fi2d(:) + wo(:,k,1) * stratomask(:,k) * 1.e3
1412	END DO
1413	ENDIF
1414	CALL histwrite_phy(o_col_O3_strato, zx_tmp_fi2d) ! Added ThL
1415
1416	IF (vars_defined) THEN
1417	zx_tmp_fi2d = 0.0 ! Computation for tropo, added ThL
1418	DO k=1, klev
1419	zx_tmp_fi2d(:) = zx_tmp_fi2d(:) + wo(:,k,1) * (1.0-stratomask(:,k)) * 1.e3
1420	END DO
1421	ENDIF
1422	CALL histwrite_phy(o_col_O3_tropo, zx_tmp_fi2d) ! Added ThL
1423	! end add ThL
1424
1425	#ifdef CPP_StratAer
1426	IF (type_trac=='coag') THEN
1427	CALL histwrite_phy(o_R2SO4, R2SO4)
1428	CALL histwrite_phy(o_OCS_lifetime, OCS_lifetime)
1429	CALL histwrite_phy(o_SO2_lifetime, SO2_lifetime)
1430	CALL histwrite_phy(o_budg_3D_backgr_ocs, budg_3D_backgr_ocs)
1431	CALL histwrite_phy(o_budg_3D_backgr_so2, budg_3D_backgr_so2)
1432	CALL histwrite_phy(o_budg_3D_ocs_to_so2, budg_3D_ocs_to_so2)
1433	CALL histwrite_phy(o_budg_3D_so2_to_h2so4, budg_3D_so2_to_h2so4)
1434	CALL histwrite_phy(o_budg_3D_nucl, budg_3D_nucl)
1435	CALL histwrite_phy(o_budg_3D_cond_evap, budg_3D_cond_evap)
1436	CALL histwrite_phy(o_budg_dep_dry_ocs, budg_dep_dry_ocs)
1437	CALL histwrite_phy(o_budg_dep_wet_ocs, budg_dep_wet_ocs)
1438	CALL histwrite_phy(o_budg_dep_dry_so2, budg_dep_dry_so2)
1439	CALL histwrite_phy(o_budg_dep_wet_so2, budg_dep_wet_so2)
1440	CALL histwrite_phy(o_budg_dep_dry_h2so4, budg_dep_dry_h2so4)
1441	CALL histwrite_phy(o_budg_dep_wet_h2so4, budg_dep_wet_h2so4)
1442	CALL histwrite_phy(o_budg_dep_dry_part, budg_dep_dry_part)
1443	CALL histwrite_phy(o_budg_dep_wet_part, budg_dep_wet_part)
1444	CALL histwrite_phy(o_budg_emi_ocs, budg_emi_ocs)
1445	CALL histwrite_phy(o_budg_emi_so2, budg_emi_so2)
1446	CALL histwrite_phy(o_budg_emi_h2so4, budg_emi_h2so4)
1447	CALL histwrite_phy(o_budg_emi_part, budg_emi_part)
1448	CALL histwrite_phy(o_budg_ocs_to_so2, budg_ocs_to_so2)
1449	CALL histwrite_phy(o_budg_so2_to_h2so4, budg_so2_to_h2so4)
1450	CALL histwrite_phy(o_budg_h2so4_to_part, budg_h2so4_to_part)
1451	CALL histwrite_phy(o_budg_sed_part, budg_sed_part)
1452	CALL histwrite_phy(o_surf_PM25_sulf, surf_PM25_sulf)
1453	CALL histwrite_phy(o_vsed_aer, vsed_aer)
1454	CALL histwrite_phy(o_f_r_wet, f_r_wet)
1455	CALL histwrite_phy(o_ext_strat_550, tau_strat_550)
1456	CALL histwrite_phy(o_ext_strat_1020, tau_strat_1020)
1457	CALL histwrite_phy(o_tau_strat_550, tausum_strat(:,1))
1458	CALL histwrite_phy(o_tau_strat_1020, tausum_strat(:,2))
1459	ENDIF
1460	#endif
1461	!NL
1462	IF (ok_volcan .AND. ok_ade) THEN
1463	DO k=1, klev
1464	IF (vars_defined) zx_tmp_fi3d(:,k)=heat_volc(:,k)*swradcorr(:)
1465	ENDDO
1466	CALL histwrite_phy(o_heat_volc, zx_tmp_fi3d)
1467	DO k=1, klev
1468	IF (vars_defined) zx_tmp_fi3d(:,k)=cool_volc(:,k)
1469	ENDDO
1470	CALL histwrite_phy(o_cool_volc, zx_tmp_fi3d)
1471	ENDIF
1472	IF (ok_ade) THEN
1473	IF (vars_defined) zx_tmp_fi2d(:)=topswad_aero*swradcorr
1474	CALL histwrite_phy(o_topswad, zx_tmp_fi2d)
1475
1476	IF (vars_defined) zx_tmp_fi2d(:)=topswad0_aero*swradcorr
1477	CALL histwrite_phy(o_topswad0, zx_tmp_fi2d)
1478
1479	IF (vars_defined) zx_tmp_fi2d(:)=solswad_aero*swradcorr
1480	CALL histwrite_phy(o_solswad, zx_tmp_fi2d)
1481
1482	IF (vars_defined) zx_tmp_fi2d(:)=solswad0_aero*swradcorr
1483	CALL histwrite_phy(o_solswad0, zx_tmp_fi2d)
1484
1485	CALL histwrite_phy(o_toplwad, toplwad_aero)
1486	CALL histwrite_phy(o_toplwad0, toplwad0_aero)
1487	CALL histwrite_phy(o_sollwad, sollwad_aero)
1488	CALL histwrite_phy(o_sollwad0, sollwad0_aero)
1489	!====MS forcing diagnostics
1490	IF (new_aod) THEN
1491	!ym warning : topsw_aero, solsw_aero, topsw0_aero, solsw0_aero are not defined by model
1492	!ym => init to 0 in radlwsw_m.F90 ztopsw_aero, zsolsw_aero, ztopsw0_aero, zsolsw0_aero
1493
1494	IF (vars_defined) zx_tmp_fi2d(:)=topsw_aero(:,1)*swradcorr(:)
1495	CALL histwrite_phy(o_swtoaas_nat,zx_tmp_fi2d)
1496	IF (vars_defined) zx_tmp_fi2d(:)=solsw_aero(:,1)*swradcorr(:)
1497	CALL histwrite_phy(o_swsrfas_nat,zx_tmp_fi2d)
1498	IF (vars_defined) zx_tmp_fi2d(:)=topsw0_aero(:,1)*swradcorr(:)
1499	CALL histwrite_phy(o_swtoacs_nat,zx_tmp_fi2d)
1500	IF (vars_defined) zx_tmp_fi2d(:)=solsw0_aero(:,1)*swradcorr(:)
1501	CALL histwrite_phy(o_swsrfcs_nat,zx_tmp_fi2d)
1502	!ant
1503	IF (vars_defined) zx_tmp_fi2d(:)=topsw_aero(:,2)*swradcorr(:)
1504	CALL histwrite_phy(o_swtoaas_ant,zx_tmp_fi2d)
1505	IF (vars_defined) zx_tmp_fi2d(:)=solsw_aero(:,2)*swradcorr(:)
1506	CALL histwrite_phy(o_swsrfas_ant,zx_tmp_fi2d)
1507	IF (vars_defined) zx_tmp_fi2d(:)=topsw0_aero(:,2)*swradcorr(:)
1508	CALL histwrite_phy(o_swtoacs_ant,zx_tmp_fi2d)
1509	IF (vars_defined) zx_tmp_fi2d(:)=solsw0_aero(:,2)*swradcorr(:)
1510	CALL histwrite_phy(o_swsrfcs_ant,zx_tmp_fi2d)
1511	!cf
1512	IF (.not. aerosol_couple) THEN
1513	IF (vars_defined) zx_tmp_fi2d(:)=topswcf_aero(:,1)*swradcorr(:)
1514	CALL histwrite_phy(o_swtoacf_nat,zx_tmp_fi2d)
1515	IF (vars_defined) zx_tmp_fi2d(:)=solswcf_aero(:,1)*swradcorr(:)
1516	CALL histwrite_phy(o_swsrfcf_nat,zx_tmp_fi2d)
1517	IF (vars_defined) zx_tmp_fi2d(:)=topswcf_aero(:,2)*swradcorr(:)
1518	CALL histwrite_phy(o_swtoacf_ant,zx_tmp_fi2d)
1519	IF (vars_defined) zx_tmp_fi2d(:)=solswcf_aero(:,2)*swradcorr(:)
1520	CALL histwrite_phy(o_swsrfcf_ant,zx_tmp_fi2d)
1521	IF (vars_defined) zx_tmp_fi2d(:)=topswcf_aero(:,3)*swradcorr(:)
1522	CALL histwrite_phy(o_swtoacf_zero,zx_tmp_fi2d)
1523	IF (vars_defined) zx_tmp_fi2d(:)=solswcf_aero(:,3)*swradcorr(:)
1524	CALL histwrite_phy(o_swsrfcf_zero,zx_tmp_fi2d)
1525	ENDIF
1526	ENDIF ! new_aod
1527	!====MS forcing diagnostics
1528	ENDIF
1529	IF (ok_aie) THEN
1530	IF (vars_defined) zx_tmp_fi2d(:)= topswai_aero*swradcorr
1531	CALL histwrite_phy(o_topswai, zx_tmp_fi2d)
1532
1533	IF (vars_defined) zx_tmp_fi2d(:)=toplwai_aero*swradcorr
1534	CALL histwrite_phy(o_toplwai, zx_tmp_fi2d)
1535
1536	IF (vars_defined) zx_tmp_fi2d(:)=solswai_aero*swradcorr
1537	CALL histwrite_phy(o_solswai, zx_tmp_fi2d)
1538
1539	IF (vars_defined) zx_tmp_fi2d(:)=sollwai_aero*swradcorr
1540	CALL histwrite_phy(o_sollwai, zx_tmp_fi2d)
1541	ENDIF
1542	IF (flag_aerosol.GT.0.AND.ok_cdnc) THEN
1543	CALL histwrite_phy(o_scdnc, scdnc)
1544	CALL histwrite_phy(o_cldncl, cldncl)
1545	CALL histwrite_phy(o_reffclws, reffclws)
1546	CALL histwrite_phy(o_reffclwc, reffclwc)
1547	CALL histwrite_phy(o_cldnvi, cldnvi)
1548	CALL histwrite_phy(o_lcc, lcc)
1549	CALL histwrite_phy(o_lcc3d, lcc3d)
1550	CALL histwrite_phy(o_lcc3dcon, lcc3dcon)
1551	CALL histwrite_phy(o_lcc3dstra, lcc3dstra)
1552	CALL histwrite_phy(o_icc3dcon, icc3dcon)
1553	CALL histwrite_phy(o_icc3dstra, icc3dstra)
1554	CALL histwrite_phy(o_cldicemxrat, zfice)
1555	IF (vars_defined) zx_tmp_fi3d(:,:)=1-zfice(:,:)
1556	CALL histwrite_phy(o_cldwatmxrat, zx_tmp_fi3d)
1557	CALL histwrite_phy(o_reffclwtop, reffclwtop)
1558	ENDIF
1559	! Champs 3D:
1560	IF (ok_ade .OR. ok_aie) then
1561	CALL histwrite_phy(o_ec550aer, ec550aer)
1562	ENDIF
1563	CALL histwrite_phy(o_lwcon, flwc)
1564	CALL histwrite_phy(o_iwcon, fiwc)
1565	CALL histwrite_phy(o_temp, t_seri)
1566	CALL histwrite_phy(o_theta, theta)
1567	CALL histwrite_phy(o_ovapinit, qx(:,:,ivap))
1568	CALL histwrite_phy(o_ovap, q_seri)
1569	CALL histwrite_phy(o_oliq, ql_seri)
1570
1571	IF (vars_defined) zx_tmp_fi3d = ql_seri+qs_seri
1572	CALL histwrite_phy(o_ocond, zx_tmp_fi3d)
1573
1574	CALL histwrite_phy(o_geop, zphi)
1575	CALL histwrite_phy(o_vitu, u_seri)
1576	CALL histwrite_phy(o_vitv, v_seri)
1577	CALL histwrite_phy(o_vitw, omega)
1578	CALL histwrite_phy(o_pres, pplay)
1579	CALL histwrite_phy(o_paprs, paprs(:,1:klev))
1580
1581	IF (vars_defined) zx_tmp_fi3d = zphi/RG
1582	CALL histwrite_phy(o_zfull,zx_tmp_fi3d)
1583
1584	#ifdef CPP_XIOS
1585	!solbnd begin
1586	#ifdef CPP_RRTM
1587	IF (iflag_rrtm.EQ.1) THEN
1588	IF (vars_defined) THEN
1589	DO ISW=1, NSW
1590	zx_tmp_fi3dsp(:,ISW) = swdn(:,klevp1)swradcorr(:)RSUN(ISW)
1591	ENDDO
1592	CALL histwrite_phy(o_solbnd, zx_tmp_fi3dsp)
1593	ENDIF
1594	ENDIF
1595	#endif
1596	!solbnd end
1597	#endif
1598
1599	IF (flag_aerosol_strat.EQ.2) THEN
1600	CALL histwrite_phy(o_stratomask, stratomask)
1601	ENDIF
1602
1603	IF (vars_defined) THEN
1604	zx_tmp_fi3d(:,1)= pphis(:)/RG
1605	DO k = 2, klev
1606	DO i = 1, klon
1607	zx_tmp_fi3d(i,k) = zphi(i,k-1)/RG + &
1608	(zphi(i,k)-zphi(i,k-1))/RG * &
1609	(paprs(i,k)-pplay(i,k-1))/(pplay(i,k)-pplay(i,k-1))
1610	ENDDO
1611	ENDDO
1612	ENDIF
1613	CALL histwrite_phy(o_zhalf, zx_tmp_fi3d)
1614	CALL histwrite_phy(o_rneb, cldfra)
1615	CALL histwrite_phy(o_rnebcon, rnebcon)
1616	CALL histwrite_phy(o_rnebls, rneb)
1617	CALL histwrite_phy(o_rneblsvol, rneblsvol)
1618	IF (vars_defined) THEN
1619	DO k=1, klev
1620	DO i=1, klon
1621	zx_tmp_fi3d(i,k)=cldfra(i,k)*JrNt(i)
1622	ENDDO
1623	ENDDO
1624	ENDIF
1625	CALL histwrite_phy(o_rnebjn, zx_tmp_fi3d)
1626	CALL histwrite_phy(o_rhum, zx_rh)
1627
1628	IF (vars_defined) zx_tmp_fi3d = wo(:, :, 1) * dobson_u * 1e3 / zmasse / rmo3 * rmd
1629	CALL histwrite_phy(o_ozone, zx_tmp_fi3d)
1630
1631	IF (read_climoz == 2) THEN
1632	IF (vars_defined) zx_tmp_fi3d = wo(:, :, 2) * dobson_u * 1e3 / zmasse / rmo3 * rmd
1633	CALL histwrite_phy(o_ozone_light, zx_tmp_fi3d)
1634	ENDIF
1635
1636	CALL histwrite_phy(o_duphy, d_u)
1637
1638	CALL histwrite_phy(o_dtphy, d_t)
1639
1640	CALL histwrite_phy(o_dqphy, d_qx(:,:,ivap))
1641	IF (vars_defined) CALL water_int(klon,klev,d_qx(:,:,ivap),zmasse,zx_tmp_fi2d)
1642	CALL histwrite_phy(o_dqphy2d, zx_tmp_fi2d)
1643
1644	CALL histwrite_phy(o_dqlphy, d_qx(:,:,iliq))
1645	IF (vars_defined) CALL water_int(klon,klev,d_qx(:,:,iliq),zmasse,zx_tmp_fi2d)
1646	CALL histwrite_phy(o_dqlphy2d, zx_tmp_fi2d)
1647
1648	IF (nqo.EQ.3) THEN
1649	CALL histwrite_phy(o_dqsphy, d_qx(:,:,isol))
1650	IF (vars_defined) CALL water_int(klon,klev,d_qx(:,:,isol),zmasse,zx_tmp_fi2d)
1651	CALL histwrite_phy(o_dqsphy2d, zx_tmp_fi2d)
1652	ELSE
1653	zx_tmp_fi3d=0.0
1654	CALL histwrite_phy(o_dqsphy, zx_tmp_fi3d)
1655	zx_tmp_fi2d=0.0
1656	CALL histwrite_phy(o_dqsphy2d, zx_tmp_fi2d)
1657	ENDIF
1658
1659	DO nsrf=1, nbsrf
1660	IF (vars_defined) zx_tmp_fi2d(1 : klon) = falb1( 1 : klon, nsrf)
1661	CALL histwrite_phy(o_albe_srf(nsrf), zx_tmp_fi2d)
1662	IF (vars_defined) zx_tmp_fi2d(1 : klon) = z0m( 1 : klon, nsrf)
1663	CALL histwrite_phy(o_z0m_srf(nsrf), zx_tmp_fi2d)
1664	IF (vars_defined) zx_tmp_fi2d(1 : klon) = z0h( 1 : klon, nsrf)
1665	CALL histwrite_phy(o_z0h_srf(nsrf), zx_tmp_fi2d)
1666	IF (vars_defined) zx_tmp_fi2d(1 : klon) = agesno( 1 : klon, nsrf)
1667	CALL histwrite_phy(o_ages_srf(nsrf), zx_tmp_fi2d)
1668	IF (vars_defined) zx_tmp_fi2d(1 : klon) = snow( 1 : klon, nsrf)
1669	CALL histwrite_phy(o_snow_srf(nsrf), zx_tmp_fi2d)
1670	ENDDO !nsrf=1, nbsrf
1671	CALL histwrite_phy(o_alb1, albsol1)
1672	CALL histwrite_phy(o_alb2, albsol2)
1673	!FH Sorties pour la couche limite
1674	IF (iflag_pbl>1) THEN
1675	zx_tmp_fi3d=0.
1676	IF (vars_defined) THEN
1677	DO nsrf=1,nbsrf
1678	DO k=1,klev
1679	zx_tmp_fi3d(:,k)=zx_tmp_fi3d(:,k) &
1680	+pctsrf(:,nsrf)*pbl_tke(:,k,nsrf)
1681	ENDDO
1682	ENDDO
1683	ENDIF
1684	CALL histwrite_phy(o_tke, zx_tmp_fi3d)
1685
1686	CALL histwrite_phy(o_tke_max, zx_tmp_fi3d)
1687	ENDIF
1688
1689	CALL histwrite_phy(o_kz, coefh(:,:,is_ave))
1690
1691	CALL histwrite_phy(o_kz_max, coefh(:,:,is_ave))
1692
1693	CALL histwrite_phy(o_clwcon, clwcon0)
1694	CALL histwrite_phy(o_dtdyn, d_t_dyn)
1695
1696	CALL histwrite_phy(o_dqdyn, d_q_dyn)
1697
1698	CALL histwrite_phy(o_dqdyn2d,d_q_dyn2d)
1699
1700	CALL histwrite_phy(o_dqldyn, d_ql_dyn)
1701
1702	CALL histwrite_phy(o_dqldyn2d, d_ql_dyn2d)
1703
1704	CALL histwrite_phy(o_dqsdyn, d_qs_dyn)
1705
1706	CALL histwrite_phy(o_dqsdyn2d, d_qs_dyn2d)
1707
1708	CALL histwrite_phy(o_dudyn, d_u_dyn)
1709	CALL histwrite_phy(o_dvdyn, d_v_dyn)
1710
1711	IF (vars_defined) THEN
1712	zx_tmp_fi3d(1:klon,1:klev)=d_t_con(1:klon,1:klev)/pdtphys
1713	ENDIF
1714	CALL histwrite_phy(o_dtcon, zx_tmp_fi3d)
1715	IF (iflag_thermals.EQ.0) THEN
1716	IF (vars_defined) THEN
1717	zx_tmp_fi3d(1:klon,1:klev)=d_t_con(1:klon,1:klev)/pdtphys + &
1718	d_t_ajsb(1:klon,1:klev)/pdtphys
1719	ENDIF
1720	CALL histwrite_phy(o_tntc, zx_tmp_fi3d)
1721	ELSE IF(iflag_thermals.GE.1.AND.iflag_wake.EQ.1) THEN
1722	IF (vars_defined) THEN
1723	zx_tmp_fi3d(1:klon,1:klev)=d_t_con(1:klon,1:klev)/pdtphys + &
1724	d_t_ajs(1:klon,1:klev)/pdtphys + &
1725	d_t_wake(1:klon,1:klev)/pdtphys
1726	ENDIF
1727	CALL histwrite_phy(o_tntc, zx_tmp_fi3d)
1728	ENDIF
1729	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_con(1:klon,1:klev)/pdtphys
1730	CALL histwrite_phy(o_ducon, zx_tmp_fi3d)
1731	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_con(1:klon,1:klev)/pdtphys
1732	CALL histwrite_phy(o_dvcon, zx_tmp_fi3d)
1733	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_con(1:klon,1:klev)/pdtphys
1734	CALL histwrite_phy(o_dqcon, zx_tmp_fi3d)
1735	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1736	CALL histwrite_phy(o_dqcon2d, zx_tmp_fi2d)
1737
1738	IF (iflag_thermals.EQ.0) THEN
1739	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_con(1:klon,1:klev)/pdtphys
1740	CALL histwrite_phy(o_tnhusc, zx_tmp_fi3d)
1741	ELSE IF (iflag_thermals.GE.1.AND.iflag_wake.EQ.1) THEN
1742	IF (vars_defined) THEN
1743	zx_tmp_fi3d(1:klon,1:klev)=d_q_con(1:klon,1:klev)/pdtphys + &
1744	d_q_ajs(1:klon,1:klev)/pdtphys + &
1745	d_q_wake(1:klon,1:klev)/pdtphys
1746	ENDIF
1747	CALL histwrite_phy(o_tnhusc, zx_tmp_fi3d)
1748	ENDIF
1749
1750	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lsc(1:klon,1:klev)/pdtphys
1751	CALL histwrite_phy(o_dtlsc, zx_tmp_fi3d)
1752	IF (vars_defined) zx_tmp_fi3d(1:klon, 1:klev)=(d_t_lsc(1:klon,1:klev)+ &
1753	d_t_eva(1:klon,1:klev))/pdtphys
1754	CALL histwrite_phy(o_dtlschr, zx_tmp_fi3d)
1755	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_lsc(1:klon,1:klev)/pdtphys
1756	CALL histwrite_phy(o_dqlsc, zx_tmp_fi3d)
1757	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1758	CALL histwrite_phy(o_dqlsc2d, zx_tmp_fi2d)
1759	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=beta_prec(1:klon,1:klev)
1760	CALL histwrite_phy(o_beta_prec, zx_tmp_fi3d)
1761	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1762	! Sorties specifiques a la separation thermiques/non thermiques
1763	IF (iflag_thermals>=1) THEN
1764	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lscth(1:klon,1:klev)/pdtphys
1765	CALL histwrite_phy(o_dtlscth, zx_tmp_fi3d)
1766	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lscst(1:klon,1:klev)/pdtphys
1767	CALL histwrite_phy(o_dtlscst, zx_tmp_fi3d)
1768	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_lscth(1:klon,1:klev)/pdtphys
1769	CALL histwrite_phy(o_dqlscth, zx_tmp_fi3d)
1770	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1771	CALL histwrite_phy(o_dqlscth2d, zx_tmp_fi2d)
1772	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_lscst(1:klon,1:klev)/pdtphys
1773	CALL histwrite_phy(o_dqlscst, zx_tmp_fi3d)
1774	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1775	CALL histwrite_phy(o_dqlscst2d, zx_tmp_fi2d)
1776	CALL histwrite_phy(o_plulth, plul_th)
1777	CALL histwrite_phy(o_plulst, plul_st)
1778	IF (vars_defined) THEN
1779	DO i=1,klon
1780	zx_tmp_fi2d(1:klon)=lmax_th(:)
1781	ENDDO
1782	ENDIF
1783	CALL histwrite_phy(o_lmaxth, zx_tmp_fi2d)
1784	IF (vars_defined) THEN
1785	DO k=1,klev
1786	DO i=1,klon
1787	IF (ptconvth(i,k)) THEN
1788	zx_tmp_fi3d(i,k)=1.
1789	ELSE
1790	zx_tmp_fi3d(i,k)=0.
1791	ENDIF
1792	ENDDO
1793	ENDDO
1794	ENDIF
1795	CALL histwrite_phy(o_ptconvth, zx_tmp_fi3d)
1796	ENDIF ! iflag_thermals>=1
1797	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1798	zpt_conv = 0.
1799	WHERE (ptconv) zpt_conv = 1.
1800	CALL histwrite_phy(o_ptconv, zpt_conv)
1801	!! IF (vars_defined) zx_tmp_fi2d=float(itau_con)/float(itap)
1802	!! CALL histwrite_phy(o_ftime_con, zx_tmp_fi2d)
1803	IF (vars_defined) THEN
1804	zpt_conv2d(:) = 0.
1805	DO k=1,klev
1806	WHERE (ptconv(:,k)) zpt_conv2d(:) = 1.
1807	ENDDO
1808	ENDIF
1809	CALL histwrite_phy(o_ftime_deepcv, zpt_conv2d)
1810	IF (vars_defined) THEN
1811	zx_tmp_fi2d(:) = 0.
1812	DO k=1,klev
1813	WHERE (ptconvth(:,k)) zx_tmp_fi2d(:) = 1.
1814	ENDDO
1815	ENDIF
1816	CALL histwrite_phy(o_ftime_th, zx_tmp_fi2d)
1817	IF (vars_defined) THEN
1818	zx_tmp_fi2d(:) = max(zx_tmp_fi2d(:),zpt_conv2d(:))
1819	ENDIF
1820	CALL histwrite_phy(o_ftime_con, zx_tmp_fi2d)
1821	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1822	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_vdf(1:klon,1:klev)/pdtphys
1823	CALL histwrite_phy(o_dtvdf, zx_tmp_fi3d)
1824	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_diss(1:klon,1:klev)/pdtphys
1825	CALL histwrite_phy(o_dtdis, zx_tmp_fi3d)
1826	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_vdf(1:klon,1:klev)/pdtphys
1827	CALL histwrite_phy(o_dqvdf, zx_tmp_fi3d)
1828	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1829	CALL histwrite_phy(o_dqvdf2d, zx_tmp_fi2d)
1830	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_eva(1:klon,1:klev)/pdtphys
1831	CALL histwrite_phy(o_dteva, zx_tmp_fi3d)
1832	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_eva(1:klon,1:klev)/pdtphys
1833	CALL histwrite_phy(o_dqeva, zx_tmp_fi3d)
1834	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1835	CALL histwrite_phy(o_dqeva2d, zx_tmp_fi2d)
1836	CALL histwrite_phy(o_ratqs, ratqs)
1837	IF (vars_defined) THEN
1838	zx_tmp_fi3d(1:klon,1:klev)=d_t_ajs(1:klon,1:klev)/pdtphys - &
1839	d_t_ajsb(1:klon,1:klev)/pdtphys
1840	ENDIF
1841	CALL histwrite_phy(o_dtthe, zx_tmp_fi3d)
1842	IF (vars_defined) THEN
1843	zx_tmp_fi3d(1:klon,1:klev)=d_u_ajs(1:klon,1:klev)/pdtphys
1844	ENDIF
1845	CALL histwrite_phy(o_duthe, zx_tmp_fi3d)
1846	IF (vars_defined) THEN
1847	zx_tmp_fi3d(1:klon,1:klev)=d_v_ajs(1:klon,1:klev)/pdtphys
1848	ENDIF
1849	CALL histwrite_phy(o_dvthe, zx_tmp_fi3d)
1850
1851	IF (iflag_thermals>=1) THEN
1852	! Pour l instant 0 a y reflichir pour les thermiques
1853	! regroupe avec ftime_deepcv et ftime_con
1854	!!zx_tmp_fi2d=0.
1855	!!CALL histwrite_phy(o_ftime_th, zx_tmp_fi2d)
1856	CALL histwrite_phy(o_f_th, fm_therm)
1857	CALL histwrite_phy(o_e_th, entr_therm)
1858	CALL histwrite_phy(o_w_th, zw2)
1859	CALL histwrite_phy(o_q_th, zqasc)
1860	CALL histwrite_phy(o_a_th, fraca)
1861	CALL histwrite_phy(o_cloudth_sth, cloudth_sth)
1862	CALL histwrite_phy(o_cloudth_senv, cloudth_senv)
1863	CALL histwrite_phy(o_cloudth_sigmath, cloudth_sigmath)
1864	CALL histwrite_phy(o_cloudth_sigmaenv, cloudth_sigmaenv)
1865	CALL histwrite_phy(o_d_th, detr_therm)
1866	CALL histwrite_phy(o_f0_th, f0)
1867	CALL histwrite_phy(o_zmax_th, zmax_th)
1868	IF (vars_defined) THEN
1869	zx_tmp_fi3d(1:klon,1:klev)=d_q_ajs(1:klon,1:klev)/pdtphys - &
1870	d_q_ajsb(1:klon,1:klev)/pdtphys
1871	ENDIF
1872	CALL histwrite_phy(o_dqthe, zx_tmp_fi3d)
1873	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1874	CALL histwrite_phy(o_dqthe2d, zx_tmp_fi2d)
1875	ENDIF !iflag_thermals
1876	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_ajsb(1:klon,1:klev)/pdtphys
1877	CALL histwrite_phy(o_dtajs, zx_tmp_fi3d)
1878	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_ajsb(1:klon,1:klev)/pdtphys
1879	CALL histwrite_phy(o_dqajs, zx_tmp_fi3d)
1880	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1881	CALL histwrite_phy(o_dqajs2d, zx_tmp_fi2d)
1882	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_swr(1:klon,1:klev)/pdtphys
1883	CALL histwrite_phy(o_dtswr, zx_tmp_fi3d)
1884	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_sw0(1:klon,1:klev)/pdtphys
1885	CALL histwrite_phy(o_dtsw0, zx_tmp_fi3d)
1886	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lwr(1:klon,1:klev)/pdtphys
1887	CALL histwrite_phy(o_dtlwr, zx_tmp_fi3d)
1888	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lw0(1:klon,1:klev)/pdtphys
1889	CALL histwrite_phy(o_dtlw0, zx_tmp_fi3d)
1890	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_ec(1:klon,1:klev)/pdtphys
1891	CALL histwrite_phy(o_dtec, zx_tmp_fi3d)
1892	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_vdf(1:klon,1:klev)/pdtphys
1893	CALL histwrite_phy(o_duvdf, zx_tmp_fi3d)
1894	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_vdf(1:klon,1:klev)/pdtphys
1895	CALL histwrite_phy(o_dvvdf, zx_tmp_fi3d)
1896	IF (ok_orodr) THEN
1897	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_oro(1:klon,1:klev)/pdtphys
1898	CALL histwrite_phy(o_duoro, zx_tmp_fi3d)
1899	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_oro(1:klon,1:klev)/pdtphys
1900	CALL histwrite_phy(o_dvoro, zx_tmp_fi3d)
1901	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_oro(1:klon,1:klev)/pdtphys
1902	CALL histwrite_phy(o_dtoro, zx_tmp_fi3d)
1903	ENDIF
1904	IF (ok_orolf) THEN
1905	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_lif(1:klon,1:klev)/pdtphys
1906	CALL histwrite_phy(o_dulif, zx_tmp_fi3d)
1907
1908	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_lif(1:klon,1:klev)/pdtphys
1909	CALL histwrite_phy(o_dvlif, zx_tmp_fi3d)
1910
1911	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lif(1:klon,1:klev)/pdtphys
1912	CALL histwrite_phy(o_dtlif, zx_tmp_fi3d)
1913	ENDIF
1914
1915	IF (ok_hines) THEN
1916	IF (vars_defined) zx_tmp_fi3d=du_gwd_hines/pdtphys
1917	CALL histwrite_phy(o_du_gwd_hines, zx_tmp_fi3d)
1918
1919	IF (vars_defined) zx_tmp_fi3d= dv_gwd_hines/pdtphys
1920	CALL histwrite_phy(o_dv_gwd_hines, zx_tmp_fi3d)
1921
1922	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_hin(1:klon,1:klev)/pdtphys
1923	CALL histwrite_phy(o_dthin, zx_tmp_fi3d)
1924	CALL histwrite_phy(o_ustr_gwd_hines, zustr_gwd_hines)
1925	CALL histwrite_phy(o_vstr_gwd_hines, zvstr_gwd_hines)
1926	ENDIF
1927
1928	IF (.not. ok_hines .and. ok_gwd_rando) THEN
1929	IF (vars_defined) zx_tmp_fi3d=du_gwd_front / pdtphys
1930	CALL histwrite_phy(o_du_gwd_front, zx_tmp_fi3d)
1931
1932	IF (vars_defined) zx_tmp_fi3d=dv_gwd_front / pdtphys
1933	CALL histwrite_phy(o_dv_gwd_front, zx_tmp_fi3d)
1934
1935	CALL histwrite_phy(o_ustr_gwd_front, zustr_gwd_front)
1936	CALL histwrite_phy(o_vstr_gwd_front, zvstr_gwd_front)
1937	ENDIF
1938
1939	IF (ok_gwd_rando) THEN
1940	IF (vars_defined) zx_tmp_fi3d=du_gwd_rando / pdtphys
1941	CALL histwrite_phy(o_du_gwd_rando, zx_tmp_fi3d)
1942
1943	IF (vars_defined) zx_tmp_fi3d=dv_gwd_rando / pdtphys
1944	CALL histwrite_phy(o_dv_gwd_rando, zx_tmp_fi3d)
1945	CALL histwrite_phy(o_ustr_gwd_rando, zustr_gwd_rando)
1946	CALL histwrite_phy(o_vstr_gwd_rando, zvstr_gwd_rando)
1947	CALL histwrite_phy(o_east_gwstress, east_gwstress )
1948	CALL histwrite_phy(o_west_gwstress, west_gwstress )
1949	ENDIF
1950
1951	IF (ok_qch4) THEN
1952	IF (vars_defined) zx_tmp_fi3d=d_q_ch4 / pdtphys
1953	CALL histwrite_phy(o_dqch4, zx_tmp_fi3d)
1954	ENDIF
1955
1956	IF (vars_defined) THEN
1957	DO k=1, klevp1
1958	zx_tmp_fi3d1(:,k)=swup(:,k)*swradcorr(:)
1959	ENDDO
1960	ENDIF
1961
1962	CALL histwrite_phy(o_rsu, zx_tmp_fi3d1)
1963
1964
1965	IF (vars_defined) THEN
1966	DO k=1, klevp1
1967	zx_tmp_fi3d1(:,k)=swdn(:,k)*swradcorr(:)
1968	ENDDO
1969	ENDIF
1970
1971	CALL histwrite_phy(o_rsd, zx_tmp_fi3d1)
1972
1973	IF (vars_defined) THEN
1974	DO k=1, klevp1
1975	zx_tmp_fi3d1(:,k)=swup0(:,k)*swradcorr(:)
1976	ENDDO
1977	ENDIF
1978
1979	CALL histwrite_phy(o_rsucs, zx_tmp_fi3d1)
1980
1981	IF (vars_defined) THEN
1982	DO k=1, klevp1
1983	zx_tmp_fi3d1(:,k)=swupc0(:,k)*swradcorr(:)
1984	ENDDO
1985	ENDIF
1986	CALL histwrite_phy(o_rsucsaf, zx_tmp_fi3d1)
1987
1988	IF (vars_defined) THEN
1989	DO k=1, klevp1
1990	zx_tmp_fi3d1(:,k)=swdn0(:,k)*swradcorr(:)
1991	ENDDO
1992	ENDIF
1993	CALL histwrite_phy(o_rsdcs, zx_tmp_fi3d1)
1994
1995
1996	IF (vars_defined) THEN
1997	DO k=1, klevp1
1998	zx_tmp_fi3d1(:,k)=swdnc0(:,k)*swradcorr(:)
1999	ENDDO
2000	ENDIF
2001	CALL histwrite_phy(o_rsdcsaf, zx_tmp_fi3d1)
2002
2003	CALL histwrite_phy(o_rlu, lwup)
2004	CALL histwrite_phy(o_rld, lwdn)
2005	CALL histwrite_phy(o_rlucs, lwup0)
2006	CALL histwrite_phy(o_rldcs, lwdn0)
2007
2008	IF (vars_defined) THEN
2009	zx_tmp_fi3d(1:klon,1:klev)=d_t(1:klon,1:klev)+ &
2010	d_t_dyn(1:klon,1:klev)
2011	ENDIF
2012	CALL histwrite_phy(o_tnt, zx_tmp_fi3d)
2013
2014	IF (vars_defined) THEN
2015	zx_tmp_fi3d(1:klon,1:klev)=d_t_swr(1:klon,1:klev)/pdtphys + &
2016	d_t_lwr(1:klon,1:klev)/pdtphys
2017	ENDIF
2018	CALL histwrite_phy(o_tntr, zx_tmp_fi3d)
2019	IF (vars_defined) THEN
2020	zx_tmp_fi3d(1:klon,1:klev)= (d_t_lsc(1:klon,1:klev)+ &
2021	d_t_eva(1:klon,1:klev)+ &
2022	d_t_vdf(1:klon,1:klev))/pdtphys
2023	ENDIF
2024	CALL histwrite_phy(o_tntscpbl, zx_tmp_fi3d)
2025	IF (vars_defined) THEN
2026	zx_tmp_fi3d(1:klon,1:klev)=d_qx(1:klon,1:klev,ivap)+ &
2027	d_q_dyn(1:klon,1:klev)
2028	ENDIF
2029	CALL histwrite_phy(o_tnhus, zx_tmp_fi3d)
2030	IF (vars_defined) THEN
2031	zx_tmp_fi3d(1:klon,1:klev)=d_q_lsc(1:klon,1:klev)/pdtphys+ &
2032	d_q_eva(1:klon,1:klev)/pdtphys
2033	ENDIF
2034	CALL histwrite_phy(o_tnhusscpbl, zx_tmp_fi3d)
2035	CALL histwrite_phy(o_evu, coefm(:,:,is_ave))
2036	IF (vars_defined) THEN
2037	zx_tmp_fi3d(1:klon,1:klev)=q_seri(1:klon,1:klev)+ &
2038	ql_seri(1:klon,1:klev)
2039	ENDIF
2040	CALL histwrite_phy(o_h2o, zx_tmp_fi3d)
2041	IF (iflag_con >= 3) THEN
2042	IF (vars_defined) THEN
2043	zx_tmp_fi3d(1:klon,1:klev)=-1 * (dnwd(1:klon,1:klev)+ &
2044	dnwd0(1:klon,1:klev))
2045	ENDIF
2046	CALL histwrite_phy(o_mcd, zx_tmp_fi3d)
2047	IF (vars_defined) THEN
2048	zx_tmp_fi3d(1:klon,1:klev)=upwd(1:klon,1:klev) + &
2049	dnwd(1:klon,1:klev)+ dnwd0(1:klon,1:klev)
2050	ENDIF
2051	CALL histwrite_phy(o_dmc, zx_tmp_fi3d)
2052	ELSE IF (iflag_con == 2) THEN
2053	CALL histwrite_phy(o_mcd, pmfd)
2054	IF (vars_defined) zx_tmp_fi3d = pmfu + pmfd
2055	CALL histwrite_phy(o_dmc, zx_tmp_fi3d)
2056	ENDIF
2057	CALL histwrite_phy(o_ref_liq, ref_liq)
2058	CALL histwrite_phy(o_ref_ice, ref_ice)
2059	!
2060	IF (ok_4xCO2atm) THEN
2061	IF (vars_defined) zx_tmp_fi2d(:) = swupp(:,klevp1)*swradcorr(:)
2062	CALL histwrite_phy(o_rsut4co2, zx_tmp_fi2d)
2063	IF (vars_defined) zx_tmp_fi2d(:) = lwupp(:,klevp1)
2064	CALL histwrite_phy(o_rlut4co2, zx_tmp_fi2d)
2065	IF (vars_defined) zx_tmp_fi2d(:) = swup0p(:,klevp1)*swradcorr(:)
2066	CALL histwrite_phy(o_rsutcs4co2, zx_tmp_fi2d)
2067	IF (vars_defined) zx_tmp_fi2d(:) = lwup0p(:,klevp1)
2068	CALL histwrite_phy(o_rlutcs4co2, zx_tmp_fi2d)
2069	IF (vars_defined) THEN
2070	DO k=1, klevp1
2071	zx_tmp_fi3d1(:,k)=swupp(:,k)*swradcorr(:)
2072	ENDDO
2073	ENDIF
2074	CALL histwrite_phy(o_rsu4co2, zx_tmp_fi3d1)
2075	IF (vars_defined) THEN
2076	DO k=1, klevp1
2077	zx_tmp_fi3d1(:,k)=swup0p(:,k)*swradcorr(:)
2078	ENDDO
2079	ENDIF
2080	CALL histwrite_phy(o_rsucs4co2, zx_tmp_fi3d1)
2081	IF (vars_defined) THEN
2082	DO k=1, klevp1
2083	zx_tmp_fi3d1(:,k)=swdnp(:,k)*swradcorr(:)
2084	ENDDO
2085	ENDIF
2086	CALL histwrite_phy(o_rsd4co2, zx_tmp_fi3d1)
2087	IF (vars_defined) THEN
2088	DO k=1, klevp1
2089	zx_tmp_fi3d1(:,k)=swdn0p(:,k)*swradcorr(:)
2090	ENDDO
2091	ENDIF
2092	CALL histwrite_phy(o_rsdcs4co2, zx_tmp_fi3d1)
2093	CALL histwrite_phy(o_rlu4co2, lwupp)
2094	CALL histwrite_phy(o_rlucs4co2, lwup0p)
2095	CALL histwrite_phy(o_rld4co2, lwdnp)
2096	CALL histwrite_phy(o_rldcs4co2, lwdn0p)
2097	ENDIF !ok_4xCO2atm
2098	!!!!!!!!!!!! Sorties niveaux de pression NMC !!!!!!!!!!!!!!!!!!!!
2099	#ifdef CPP_IOIPSL
2100	#ifndef CPP_XIOS
2101	IF (.NOT.ok_all_xml) THEN
2102	! ATTENTION, LES ANCIENS HISTWRITE ONT ETES CONSERVES EN ATTENDANT MIEUX:
2103	! Champs interpolles sur des niveaux de pression
2104	missing_val=missing_val_nf90
2105	DO iff=7, nfiles-1 !--OB: here we deal with files 7,8,9
2106
2107	CALL histwrite_phy(o_tnondef,tnondef(:,:,iff-6),iff)
2108	CALL histwrite_phy(o_ta,twriteSTD(:,:,iff-6),iff)
2109	CALL histwrite_phy(o_zg,phiwriteSTD(:,:,iff-6),iff)
2110	CALL histwrite_phy(o_hus,qwriteSTD(:,:,iff-6),iff)
2111	CALL histwrite_phy(o_hur,rhwriteSTD(:,:,iff-6),iff)
2112	CALL histwrite_phy(o_ua,uwriteSTD(:,:,iff-6),iff)
2113	CALL histwrite_phy(o_va,vwriteSTD(:,:,iff-6),iff)
2114	CALL histwrite_phy(o_wap,wwriteSTD(:,:,iff-6),iff)
2115	IF (vars_defined) THEN
2116	DO k=1, nlevSTD
2117	DO i=1, klon
2118	IF (tnondef(i,k,iff-6).NE.missing_val) THEN
2119	IF (freq_outNMC(iff-6).LT.0) THEN
2120	freq_moyNMC(iff-6)=(mth_len*un_jour)/freq_calNMC(iff-6)
2121	ELSE
2122	freq_moyNMC(iff-6)=freq_outNMC(iff-6)/freq_calNMC(iff-6)
2123	ENDIF
2124	zx_tmp_fi3d_STD(i,k) = (100.*tnondef(i,k,iff-6))/freq_moyNMC(iff-6)
2125	ELSE
2126	zx_tmp_fi3d_STD(i,k) = missing_val
2127	ENDIF
2128	ENDDO
2129	ENDDO
2130	ENDIF
2131	CALL histwrite_phy(o_psbg,zx_tmp_fi3d_STD,iff)
2132	IF (vars_defined) THEN
2133	DO k=1, nlevSTD
2134	DO i=1, klon
2135	IF (O3sumSTD(i,k,iff-6).NE.missing_val) THEN
2136	zx_tmp_fi3d_STD(i,k) = O3sumSTD(i,k,iff-6) * 1.e+9
2137	ELSE
2138	zx_tmp_fi3d_STD(i,k) = missing_val
2139	ENDIF
2140	ENDDO
2141	ENDDO !k=1, nlevSTD
2142	ENDIF
2143	CALL histwrite_phy(o_tro3,zx_tmp_fi3d_STD,iff)
2144	IF (read_climoz == 2) THEN
2145	IF (vars_defined) THEN
2146	DO k=1, nlevSTD
2147	DO i=1, klon
2148	IF (O3daysumSTD(i,k,iff-6).NE.missing_val) THEN
2149	zx_tmp_fi3d_STD(i,k) = O3daysumSTD(i,k,iff-6) * 1.e+9
2150	ELSE
2151	zx_tmp_fi3d_STD(i,k) = missing_val
2152	ENDIF
2153	ENDDO
2154	ENDDO !k=1, nlevSTD
2155	ENDIF
2156	CALL histwrite_phy(o_tro3_daylight,zx_tmp_fi3d_STD,iff)
2157	endif
2158	CALL histwrite_phy(o_uxv,uvsumSTD(:,:,iff-6),iff)
2159	CALL histwrite_phy(o_vxq,vqsumSTD(:,:,iff-6),iff)
2160	CALL histwrite_phy(o_vxT,vTsumSTD(:,:,iff-6),iff)
2161	CALL histwrite_phy(o_wxq,wqsumSTD(:,:,iff-6),iff)
2162	CALL histwrite_phy(o_vxphi,vphisumSTD(:,:,iff-6),iff)
2163	CALL histwrite_phy(o_wxT,wTsumSTD(:,:,iff-6),iff)
2164	CALL histwrite_phy(o_uxu,u2sumSTD(:,:,iff-6),iff)
2165	CALL histwrite_phy(o_vxv,v2sumSTD(:,:,iff-6),iff)
2166	CALL histwrite_phy(o_TxT,T2sumSTD(:,:,iff-6),iff)
2167	ENDDO !nfiles
2168	ENDIF
2169	#endif
2170	#endif
2171	#ifdef CPP_XIOS
2172	IF (ok_all_xml) THEN
2173	! DO iff=7, nfiles
2174
2175	! CALL histwrite_phy(o_tnondef,tnondef(:,:,3))
2176	CALL histwrite_phy(o_ta,tlevSTD(:,:))
2177	CALL histwrite_phy(o_zg,philevSTD(:,:))
2178	CALL histwrite_phy(o_hus,qlevSTD(:,:))
2179	CALL histwrite_phy(o_hur,rhlevSTD(:,:))
2180	CALL histwrite_phy(o_ua,ulevSTD(:,:))
2181	CALL histwrite_phy(o_va,vlevSTD(:,:))
2182	CALL histwrite_phy(o_wap,wlevSTD(:,:))
2183	! IF (vars_defined) THEN
2184	! DO k=1, nlevSTD
2185	! DO i=1, klon
2186	! IF (tnondef(i,k,3).NE.missing_val) THEN
2187	! IF (freq_outNMC(iff-6).LT.0) THEN
2188	! freq_moyNMC(iff-6)=(mth_len*un_jour)/freq_calNMC(iff-6)
2189	! ELSE
2190	! freq_moyNMC(iff-6)=freq_outNMC(iff-6)/freq_calNMC(iff-6)
2191	! ENDIF
2192	! zx_tmp_fi3d_STD(i,k) = (100.*tnondef(i,k,3))/freq_moyNMC(iff-6)
2193	! ELSE
2194	! zx_tmp_fi3d_STD(i,k) = missing_val
2195	! ENDIF
2196	! ENDDO
2197	! ENDDO
2198	! ENDIF
2199	! CALL histwrite_phy(o_psbg,zx_tmp_fi3d_STD)
2200	IF (vars_defined) THEN
2201	DO k=1, nlevSTD
2202	DO i=1, klon
2203	IF (O3STD(i,k).NE.missing_val) THEN
2204	zx_tmp_fi3d_STD(i,k) = O3STD(i,k) * 1.e+9
2205	ELSE
2206	zx_tmp_fi3d_STD(i,k) = missing_val
2207	ENDIF
2208	ENDDO
2209	ENDDO !k=1, nlevSTD
2210	ENDIF
2211	CALL histwrite_phy(o_tro3,zx_tmp_fi3d_STD)
2212	IF (read_climoz == 2) THEN
2213	IF (vars_defined) THEN
2214	DO k=1, nlevSTD
2215	DO i=1, klon
2216	IF (O3daySTD(i,k).NE.missing_val) THEN
2217	zx_tmp_fi3d_STD(i,k) = O3daySTD(i,k) * 1.e+9
2218	ELSE
2219	zx_tmp_fi3d_STD(i,k) = missing_val
2220	ENDIF
2221	ENDDO
2222	ENDDO !k=1, nlevSTD
2223	ENDIF
2224	CALL histwrite_phy(o_tro3_daylight,zx_tmp_fi3d_STD)
2225	ENDIF
2226	CALL histwrite_phy(o_uxv,uvSTD(:,:))
2227	CALL histwrite_phy(o_vxq,vqSTD(:,:))
2228	CALL histwrite_phy(o_vxT,vTSTD(:,:))
2229	CALL histwrite_phy(o_wxq,wqSTD(:,:))
2230	CALL histwrite_phy(o_vxphi,vphiSTD(:,:))
2231	CALL histwrite_phy(o_wxT,wTSTD(:,:))
2232	CALL histwrite_phy(o_uxu,u2STD(:,:))
2233	CALL histwrite_phy(o_vxv,v2STD(:,:))
2234	CALL histwrite_phy(o_TxT,T2STD(:,:))
2235	! ENDDO !nfiles
2236	ENDIF
2237	#endif
2238	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
2239	IF (iflag_phytrac == 1 ) then
2240	IF (type_trac == 'lmdz' .OR. type_trac == 'repr' .OR. type_trac == 'coag') THEN
2241	DO iq=nqo+1, nqtot
2242	!--3D fields
2243	CALL histwrite_phy(o_trac(iq-nqo), tr_seri(:,:,iq-nqo))
2244	CALL histwrite_phy(o_dtr_vdf(iq-nqo),d_tr_cl(:,:,iq-nqo))
2245	CALL histwrite_phy(o_dtr_the(iq-nqo),d_tr_th(:,:,iq-nqo))
2246	CALL histwrite_phy(o_dtr_con(iq-nqo),d_tr_cv(:,:,iq-nqo))
2247	CALL histwrite_phy(o_dtr_lessi_impa(iq-nqo),d_tr_lessi_impa(:,:,iq-nqo))
2248	CALL histwrite_phy(o_dtr_lessi_nucl(iq-nqo),d_tr_lessi_nucl(:,:,iq-nqo))
2249	CALL histwrite_phy(o_dtr_insc(iq-nqo),d_tr_insc(:,:,iq-nqo))
2250	CALL histwrite_phy(o_dtr_bcscav(iq-nqo),d_tr_bcscav(:,:,iq-nqo))
2251	CALL histwrite_phy(o_dtr_evapls(iq-nqo),d_tr_evapls(:,:,iq-nqo))
2252	CALL histwrite_phy(o_dtr_ls(iq-nqo),d_tr_ls(:,:,iq-nqo))
2253	CALL histwrite_phy(o_dtr_trsp(iq-nqo),d_tr_trsp(:,:,iq-nqo))
2254	CALL histwrite_phy(o_dtr_sscav(iq-nqo),d_tr_sscav(:,:,iq-nqo))
2255	CALL histwrite_phy(o_dtr_sat(iq-nqo),d_tr_sat(:,:,iq-nqo))
2256	CALL histwrite_phy(o_dtr_uscav(iq-nqo),d_tr_uscav(:,:,iq-nqo))
2257	!--2D fields
2258	CALL histwrite_phy(o_dtr_dry(iq-nqo), flux_tr_dry(:,iq-nqo))
2259	zx_tmp_fi2d=0.
2260	IF (vars_defined) THEN
2261	DO k=1,klev
2262	zx_tmp_fi2d(:)=zx_tmp_fi2d(:)+zmasse(:,k)*tr_seri(:,k,iq-nqo)
2263	ENDDO
2264	ENDIF
2265	#ifndef REPROBUS
2266	CALL histwrite_phy(o_trac_cum(iq-nqo), zx_tmp_fi2d)
2267	#endif
2268	ENDDO !--iq
2269	ENDIF !--type_trac
2270	!
2271	IF (type_trac == 'co2i') THEN
2272	DO iq=nqo+1, nqtot
2273	!--3D fields
2274	CALL histwrite_phy(o_trac(iq-nqo), tr_seri(:,:,iq-nqo))
2275	CALL histwrite_phy(o_dtr_vdf(iq-nqo),d_tr_cl(:,:,iq-nqo))
2276	CALL histwrite_phy(o_dtr_the(iq-nqo),d_tr_th(:,:,iq-nqo))
2277	CALL histwrite_phy(o_dtr_con(iq-nqo),d_tr_cv(:,:,iq-nqo))
2278	!--2D fields
2279	!--CO2 burden
2280	zx_tmp_fi2d=0.
2281	IF (vars_defined) THEN
2282	DO k=1,klev
2283	zx_tmp_fi2d(:)=zx_tmp_fi2d(:)+zmasse(:,k)*tr_seri(:,k,iq-nqo)
2284	ENDDO
2285	ENDIF
2286	CALL histwrite_phy(o_trac_cum(iq-nqo), zx_tmp_fi2d)
2287	ENDDO !--iq
2288	!--CO2 net fluxes
2289	CALL histwrite_phy(o_flx_co2_land, fco2_land)
2290	CALL histwrite_phy(o_flx_co2_ocean, fco2_ocean)
2291	CALL histwrite_phy(o_flx_co2_ff, fco2_ff)
2292	CALL histwrite_phy(o_flx_co2_bb, fco2_bb)
2293	ENDIF !--type_trac co2i
2294
2295	IF (type_trac == 'repr') THEN
2296	#ifdef REPROBUS
2297	DO iq=1,nbnas
2298	CALL histwrite_phy(o_nas(iq), nas(:,:,iq))
2299	ENDDO
2300	#endif
2301	ENDIF
2302
2303	ENDIF !(iflag_phytrac==1)
2304
2305	if (activate_ocean_skin >= 1) then
2306	CALL histwrite_phy(o_t_int, t_int)
2307	CALL histwrite_phy(o_s_int, s_int)
2308	CALL histwrite_phy(o_ds_ns, ds_ns)
2309	CALL histwrite_phy(o_dt_ns, dt_ns)
2310	CALL histwrite_phy(o_dter, dter)
2311	CALL histwrite_phy(o_dser, dser)
2312	CALL histwrite_phy(o_tkt, tkt)
2313	CALL histwrite_phy(o_tks, tks)
2314	CALL histwrite_phy(o_rf, rf)
2315	CALL histwrite_phy(o_taur, taur)
2316	end if
2317
2318	IF (.NOT.vars_defined) THEN
2319	!$OMP MASTER
2320	#ifndef CPP_IOIPSL_NO_OUTPUT
2321	DO iff=1,nfiles
2322	IF (clef_files(iff)) THEN
2323	CALL histend(nid_files(iff))
2324	ndex2d = 0
2325	ndex3d = 0
2326	ENDIF ! clef_files
2327	ENDDO ! iff
2328	#endif
2329	#ifdef CPP_XIOS
2330	!On finalise l'initialisation:
2331	CALL wxios_closedef()
2332	#endif
2333	!$OMP END MASTER
2334	!$OMP BARRIER
2335	vars_defined = .TRUE.
2336
2337	ENDIF !--.NOT.vars_defined
2338
2339	ENDDO
2340
2341	IF (vars_defined) THEN
2342	! On synchronise les fichiers pour IOIPSL
2343	#ifndef CPP_IOIPSL_NO_OUTPUT
2344	!$OMP MASTER
2345	DO iff=1,nfiles
2346	IF (ok_sync .AND. clef_files(iff)) THEN
2347	CALL histsync(nid_files(iff))
2348	ENDIF
2349	END DO
2350	!$OMP END MASTER
2351	#endif
2352	ENDIF
2353
2354	END SUBROUTINE phys_output_write
2355
2356	END MODULE phys_output_write_mod

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