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phys_output_write_mod.F90 @ 5040

Last change on this file since 5040 was 4798, checked in by nfevrier, 9 months ago
First save of N. Février's modifications
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: 101.3 KB

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1	!
2	! $Id: phys_output_write_mod.F90 4798 2024-02-02 16:04:42Z evignon $
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, 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_nt2mout, o_nt2moutfg, &
41	o_nq2mout, o_nq2moutfg, &
42	o_nu2mout, o_nu2moutfg, &
43	o_q2m, o_ustar, o_u10m, o_v10m, &
44	o_wind10m, o_wind10max, o_wind100m, o_gusts, o_sicf, &
45	o_loadfactor_wind_onshore, o_loadfactor_wind_offshore, &
46	o_psol, o_mass, o_qsurf, o_qsol, &
47	o_precip, o_rain_fall, o_rain_con, o_ndayrain, o_plul, o_pluc, o_plun, &
48	o_snow, o_msnow, o_fsnow, o_evap, o_ep,o_epmax_diag, & ! epmax_cape
49	o_tops, o_tops0, o_topl, o_topl0, &
50	o_SWupTOA, o_SWupTOAclr, o_SWupTOAcleanclr, o_SWdnTOA, &
51	o_SWdnTOAclr, o_nettop, o_SWup200, &
52	o_SWup200clr, o_SWdn200, o_SWdn200clr, &
53	o_LWup200, o_LWup200clr, o_LWdn200, &
54	o_LWdn200clr, o_sols, o_sols0, &
55	o_soll, o_radsol, o_soll0, o_SWupSFC, &
56	o_SWupSFCclr, o_SWupSFCcleanclr, o_SWdnSFC, o_SWdnSFCclr, o_SWdnSFCcleanclr, &
57	o_LWupSFC, o_LWdnSFC, o_LWupSFCclr, &
58	o_LWdnSFCclr, o_LWupTOAcleanclr, o_LWdnSFCcleanclr, o_bils, o_bils_diss, &
59	o_bils_ec,o_bils_ech, o_bils_tke, o_bils_kinetic, &
60	o_bils_latent, o_bils_enthalp, o_sens, &
61	o_fder, o_ffonte, o_fqcalving, o_fqfonte, o_mrroli, o_runofflic, &
62	o_taux, o_tauy, o_snowsrf, o_qsnow, &
63	o_snowhgt, o_toice, o_sissnow, o_runoff, &
64	o_albslw3, o_pourc_srf, o_fract_srf, &
65	o_taux_srf, o_tauy_srf, o_tsol_srf, &
66	o_evappot_srf, o_ustar_srf, o_u10m_srf, &
67	o_v10m_srf, o_t2m_srf, o_evap_srf, &
68	o_sens_srf, o_lat_srf, o_flw_srf, &
69	o_fsw_srf, o_wbils_srf, o_wbilo_srf, &
70	o_wevap_srf, o_wrain_srf, o_wsnow_srf, &
71	o_tke_srf, o_tke_max_srf,o_dltpbltke_srf, o_wstar, &
72	o_l_mixmin,o_l_mix, &
73	o_cdrm, o_cdrh, o_cldl, o_cldm, o_cldh, &
74	o_cldt, o_JrNt, o_cldljn, o_cldmjn, &
75	o_cldhjn, o_cldtjn, o_cldq, o_lwp, o_iwp, &
76	o_ue, o_ve, o_uq, o_vq, o_cape, o_pbase, &
77	o_uwat, o_vwat, &
78	o_ptop, o_fbase, o_plcl, o_plfc, &
79	o_wbeff, o_convoccur, o_cape_max, o_upwd, o_ep,o_epmax_diag, &
80	o_Mipsh, o_Ma, &
81	o_dnwd, o_dnwd0, o_ftime_deepcv, o_ftime_con, o_mc, &
82	o_prw, o_prlw, o_prsw, o_s_pblh, o_s_pblt, o_s_lcl, &
83	o_s_therm, o_uSTDlevs, o_vSTDlevs, &
84	o_wSTDlevs, o_zSTDlevs, o_qSTDlevs, &
85	o_tSTDlevs, epsfra, o_t_oce_sic, &
86	o_ale_bl, o_alp_bl, o_ale_wk, o_alp_wk, &
87	o_dtvdf_x , o_dtvdf_w , o_dqvdf_x , o_dqvdf_w , &
88	o_sens_x , o_sens_w , o_flat_x , o_flat_w , &
89	o_delta_tsurf, &
90	o_cdragh_x , o_cdragh_w , o_cdragm_x , o_cdragm_w , &
91	o_kh , o_kh_x , o_kh_w , &
92	o_ale, o_alp, o_cin, o_WAPE, o_wake_h, o_cv_gen, o_wake_dens, &
93	o_wake_s, o_wake_deltat, o_wake_deltaq, &
94	o_wake_omg, o_dtwak, o_dqwak, o_dqwak2d, o_Vprecip, &
95	o_qtaa, o_Clwaa, &
96	o_ftd, o_fqd, o_wdtrainA, o_wdtrainS, o_wdtrainM, &
97	o_n2, o_s2, o_proba_notrig, &
98	o_random_notrig, o_ale_bl_stat, &
99	o_ale_bl_trig, o_alp_bl_det, &
100	o_alp_bl_fluct_m, o_alp_bl_fluct_tke, &
101	o_alp_bl_conv, o_alp_bl_stat, &
102	o_slab_qflux, o_tslab, o_slab_bils, &
103	o_slab_bilg, o_slab_sic, o_slab_tice, &
104	o_slab_hdiff, o_slab_ekman, o_slab_gm, &
105	o_weakinv, o_dthmin, o_cldtau, &
106	o_cldemi, o_pr_con_l, o_pr_con_i, &
107	o_pr_lsc_l, o_pr_lsc_i, o_re, o_fl, &
108	o_rh2m, &
109	o_qsat2m, o_tpot, o_tpote, o_SWnetOR, &
110	o_LWdownOR, o_snowl, &
111	o_solldown, o_dtsvdfo, o_dtsvdft, &
112	o_dtsvdfg, o_dtsvdfi, o_z0m, o_z0h, o_od443aer, o_od550aer, &
113	o_dryod550aer, o_od865aer, o_abs550aer, o_od550lt1aer, &
114	o_sconcso4, o_sconcno3, o_sconcoa, o_sconcbc, &
115	o_sconcss, o_sconcdust, o_concso4, o_concno3, &
116	o_concoa, o_concbc, o_concss, o_concdust, &
117	o_loadso4, o_loadoa, o_loadbc, o_loadss, &
118	o_loaddust, o_loadno3, o_tausumaero, &
119	o_drytausumaero, o_tausumaero_lw, &
120	o_topswad, o_topswad0, o_solswad, o_solswad0, &
121	o_toplwad, o_toplwad0, o_sollwad, o_sollwad0, &
122	o_swtoaas_nat, o_swsrfas_nat, &
123	o_swtoacs_nat, o_swtoaas_ant, &
124	o_swsrfas_ant, o_swtoacs_ant, &
125	o_swsrfcs_ant, o_swtoacf_nat, &
126	o_swsrfcf_nat, o_swtoacf_ant, &
127	o_swsrfcs_nat, o_swsrfcf_ant, &
128	o_swtoacf_zero, o_swsrfcf_zero, &
129	o_topswai, o_solswai, o_toplwai, o_sollwai, o_scdnc, &
130	o_cldncl, o_reffclws, o_reffclwc, o_solbnd, o_stratomask,&
131	o_cldnvi, o_lcc, o_lcc3d, o_lcc3dcon, &
132	o_lcc3dstra, o_icc3dcon, o_icc3dstra, &
133	o_cldicemxrat, o_cldwatmxrat, o_reffclwtop, o_ec550aer, &
134	o_lwcon, o_iwcon, o_temp, o_theta, &
135	o_ovapinit, o_ovap, o_oliq, o_ocond, o_geop, &
136	o_vitu, o_vitv, o_vitw, o_pres, o_paprs, &
137	o_zfull, o_zhalf, o_rneb, o_rnebjn, o_rnebcon, &
138	o_rnebls, o_rneblsvol, o_rhum, o_ozone, o_ozone_light, &
139	o_duphy, o_dtphy, o_dqphy, o_dqphy2d, o_dqlphy, o_dqlphy2d, &
140	o_dqsphy, o_dqsphy2d, o_albe_srf, o_z0m_srf, o_z0h_srf, &
141	o_ages_srf, o_snow_srf, o_alb1, o_alb2, o_tke, &
142	o_tke_max, o_kz, o_kz_max, o_clwcon, &
143	o_dtdyn, o_dqdyn, o_dqdyn2d, o_dqldyn, o_dqldyn2d, &
144	o_dqsdyn, o_dqsdyn2d, o_dudyn, o_dvdyn, &
145	o_dtcon, o_tntc, o_ducon, o_dvcon, &
146	o_dqcon, o_dqcon2d, o_tnhusc, o_tnhusc, o_dtlsc, &
147	o_dtlschr, o_dqlsc, o_dqlsc2d, o_beta_prec, &
148	o_dtlscth, o_dtlscst, o_dqlscth, o_dqlscth2d, &
149	o_dqlscst, o_dqlscst2d, o_plulth, o_plulst, &
150	o_ptconvth, o_lmaxth, o_dtvdf, &
151	o_dtdis, o_dqvdf, o_dqvdf2d, o_dteva, o_dqeva, o_dqeva2d, &
152	o_ptconv, o_ratqs, o_dtthe, &
153	o_duthe, o_dvthe, o_ftime_th, &
154	o_f_th, o_e_th, o_w_th, o_q_th, &
155	o_a_th, o_cloudth_sth, o_cloudth_senv, &
156	o_cloudth_sigmath, o_cloudth_sigmaenv, &
157	o_d_th, o_f0_th, o_zmax_th, &
158	o_dqthe, o_dqthe2d, o_dtajs, o_dqajs, o_dqajs2d, o_dtswr, &
159	o_dtsw0, o_dtlwr, o_dtlw0, o_dtec, &
160	o_duvdf, o_dvvdf, o_duoro, o_dvoro, &
161	o_dtoro, o_dulif, o_dvlif, o_dtlif, &
162	o_du_gwd_hines, o_dv_gwd_hines, o_dthin, o_dqch4, o_rsu, &
163	o_du_gwd_front, o_dv_gwd_front, &
164	o_east_gwstress, o_west_gwstress, &
165	o_rsd, o_rlu, o_rld, o_rsucs, o_rsdcs, o_rsucsaf, o_rsdcsaf, &
166	o_rlucs, o_rldcs, o_tnt, o_tntr, &
167	o_tntscpbl, o_tnhus, o_tnhusscpbl, &
168	o_evu, o_h2o, o_mcd, o_dmc, o_ref_liq, &
169	o_ref_ice, o_rsut4co2, o_rlut4co2, &
170	o_rsutcs4co2, o_rlutcs4co2, o_rsu4co2, &
171	o_rlu4co2, o_rsucs4co2, o_rlucs4co2, &
172	o_rsd4co2, o_rld4co2, o_rsdcs4co2, &
173	o_rldcs4co2, o_tnondef, o_ta, o_zg, &
174	o_hus, o_hur, o_ua, o_va, o_wap, &
175	o_psbg, o_tro3, o_tro3_daylight, &
176	o_uxv, o_vxq, o_vxT, o_wxq, o_vxphi, &
177	o_wxT, o_uxu, o_vxv, o_TxT, o_trac, &
178	o_dtr_vdf, o_dtr_the, o_dtr_con, &
179	o_dtr_lessi_impa, o_dtr_lessi_nucl, &
180	o_dtr_insc, o_dtr_bcscav, o_dtr_evapls, &
181	o_dtr_ls, o_dtr_trsp, o_dtr_sscav, o_dtr_dry, &
182	o_dtr_sat, o_dtr_uscav, o_trac_cum, o_du_gwd_rando, o_dv_gwd_rando, &
183	o_ustr_gwd_hines,o_vstr_gwd_hines,o_ustr_gwd_rando,o_vstr_gwd_rando, &
184	o_ustr_gwd_front,o_vstr_gwd_front, &
185	o_sens_prec_liq_oce, o_sens_prec_liq_sic, &
186	o_sens_prec_sol_oce, o_sens_prec_sol_sic, &
187	o_lat_prec_liq_oce, o_lat_prec_liq_sic, &
188	o_lat_prec_sol_oce, o_lat_prec_sol_sic, &
189	o_sza, &
190	! Marine
191	o_map_prop_hc, o_map_prop_hist, o_map_emis_hc, o_map_iwp_hc, &
192	o_map_deltaz_hc, o_map_pcld_hc, o_map_tcld_hc, &
193	o_map_emis_hist, o_map_iwp_hist, o_map_deltaz_hist, &
194	o_map_rad_hist, &
195	o_map_emis_Cb, o_map_pcld_Cb, o_map_tcld_Cb, &
196	o_map_emis_ThCi, o_map_pcld_ThCi, o_map_tcld_ThCi, &
197	o_map_emis_Anv, o_map_pcld_Anv, o_map_tcld_Anv, &
198	o_map_ntot, o_map_hc,o_map_hist,o_map_Cb,o_map_ThCi,o_map_Anv, &
199	o_alt_tropo, &
200	! Tropopause
201	o_p_tropopause, o_z_tropopause, o_t_tropopause, &
202	o_col_O3_strato, o_col_O3_tropo, &
203	!--interactive CO2
204	o_flx_co2_ocean, o_flx_co2_land, o_flx_co2_ff, o_flx_co2_bb
205
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
252
253	USE phys_local_var_mod, ONLY: zxfluxlat, slp, ptstar, pt0, zxtsol, zt2m, &
254	zn2mout, t2m_min_mon, t2m_max_mon, evap, &
255	l_mixmin,l_mix, &
256	zu10m, zv10m, zq2m, zustar, zxqsurf, &
257	rain_lsc, rain_num, snow_lsc, bils, sens, fder, &
258	zxffonte, zxfqcalving, zxfqfonte, zxrunofflic, fluxu, &
259	fluxv, zxsnow, qsnow, snowhgt, to_ice, &
260	sissnow, runoff, albsol3_lic, evap_pot, &
261	t2m, fluxt, fluxlat, fsollw, fsolsw, &
262	wfbils, wfbilo, wfevap, wfrain, wfsnow, &
263	cdragm, cdragh, cldl, cldm, &
264	cldh, cldt, JrNt, cldljn, cldmjn, cldhjn, &
265	cldtjn, cldq, flwp, fiwp, ue, ve, uq, vq, &
266	uwat, vwat, &
267	plcl, plfc, wbeff, convoccur, upwd, dnwd, dnwd0, prw, prlw, prsw, &
268	s_pblh, s_pblt, s_lcl, s_therm, uwriteSTD, &
269	vwriteSTD, wwriteSTD, phiwriteSTD, qwriteSTD, &
270	twriteSTD, alp_wake, &
271	!! dtvdf_x ,dtvdf_w ,dqvdf_x ,dqvdf_w , &
272	d_t_vdf_x ,d_t_vdf_w ,d_q_vdf_x ,d_q_vdf_w , &
273	sens_x ,sens_w ,zxfluxlat_x,zxfluxlat_w, &
274	cdragh_x ,cdragh_w ,cdragm_x ,cdragm_w , &
275	kh ,kh_x ,kh_w , &
276	cv_gen, wake_h, &
277	wake_omg, d_t_wake, d_q_wake, Vprecip, qtaa, Clw, &
278	wdtrainA, wdtrainS, wdtrainM, n2, s2, proba_notrig, &
279	random_notrig, &
280	alp_bl_det, alp_bl_fluct_m, alp_bl_conv, &
281	alp_bl_stat, alp_bl_fluct_tke, slab_wfbils, &
282	weak_inversion, dthmin, cldtau, cldemi, &
283	pmflxr, pmflxs, prfl, psfl, re, fl, rh2m, &
284	qsat2m, tpote, tpot, d_ts, od443aer, od550aer, dryod550aer, &
285	od865aer, abs550aer, od550lt1aer, sconcso4, sconcno3, &
286	sconcoa, sconcbc, sconcss, sconcdust, concso4, concno3, &
287	concoa, concbc, concss, concdust, loadso4, &
288	loadoa, loadbc, loadss, loaddust, loadno3, tausum_aero, drytausum_aero, &
289	topswad_aero, topswad0_aero, solswad_aero, &
290	solswad0_aero, topsw_aero, solsw_aero, &
291	topsw0_aero, solsw0_aero, topswcf_aero, &
292	solswcf_aero, topswai_aero, solswai_aero, &
293	toplwad_aero, toplwad0_aero, sollwad_aero, &
294	sollwad0_aero, toplwai_aero, sollwai_aero, &
295	scdnc, cldncl, reffclws, reffclwc, cldnvi, stratomask,&
296	lcc, lcc3d, lcc3dcon, lcc3dstra, &
297	icc3dcon, icc3dstra, zfice, reffclwtop, &
298	ec550aer, flwc, fiwc, t_seri, theta, q_seri, &
299	ql_seri, qs_seri, tr_seri, &
300	zphi, u_seri, v_seri, omega, cldfra, &
301	rneb, rnebjn, rneblsvol, zx_rh, d_t_dyn, &
302	d_q_dyn, d_ql_dyn, d_qs_dyn, &
303	d_q_dyn2d, d_ql_dyn2d, d_qs_dyn2d, &
304	d_u_dyn, d_v_dyn, d_t_con, d_t_ajsb, d_t_ajs, &
305	d_u_ajs, d_v_ajs, &
306	d_u_con, d_v_con, d_q_con, d_q_ajs, d_t_lsc, &
307	d_t_lwr,d_t_lw0,d_t_swr,d_t_sw0, &
308	d_t_eva, d_q_lsc, beta_prec, d_t_lscth, &
309	d_t_lscst, d_q_lscth, d_q_lscst, plul_th, &
310	plul_st, d_t_vdf, d_t_diss, d_q_vdf, d_q_eva, &
311	zw2, fraca, zmax_th, d_q_ajsb, d_t_ec, d_u_vdf, &
312	d_v_vdf, d_u_oro, d_v_oro, d_t_oro, d_u_lif, &
313	d_v_lif, d_t_lif, du_gwd_hines, dv_gwd_hines, d_t_hin, &
314	dv_gwd_rando, dv_gwd_front, &
315	east_gwstress, west_gwstress, &
316	d_q_ch4, pmfd, pmfu, ref_liq, ref_ice, rhwriteSTD, &
317	ep, epmax_diag, & ! epmax_cape
318	p_tropopause, t_tropopause, z_tropopause
319
320	#ifdef CPP_StratAer
321	USE phys_local_var_mod, ONLY: &
322	budg_3D_nucl, budg_3D_cond_evap, budg_3D_ocs_to_so2, budg_3D_so2_to_h2so4, &
323	budg_sed_part, R2SO4, OCS_lifetime, SO2_lifetime, &
324	budg_3D_backgr_ocs, budg_3D_backgr_so2, &
325	budg_dep_dry_ocs, budg_dep_wet_ocs, &
326	budg_dep_dry_so2, budg_dep_wet_so2, &
327	budg_dep_dry_h2so4, budg_dep_wet_h2so4, &
328	budg_dep_dry_part, budg_dep_wet_part, &
329	budg_emi_ocs, budg_emi_so2, budg_emi_h2so4, budg_emi_part, &
330	budg_ocs_to_so2, budg_so2_to_h2so4, budg_h2so4_to_part, &
331	surf_PM25_sulf, tau_strat_550, tausum_strat, &
332	vsed_aer, tau_strat_1020, f_r_wet
333	#endif
334
335	USE carbon_cycle_mod, ONLY: fco2_ff, fco2_bb, fco2_land, fco2_ocean
336
337	USE phys_output_var_mod, ONLY: vars_defined, snow_o, zfra_o, bils_diss, &
338	bils_ec,bils_ech, bils_tke, bils_kinetic, bils_latent, bils_enthalp, &
339	itau_con, nfiles, clef_files, nid_files, dryaod_diag, &
340	zustr_gwd_hines, zvstr_gwd_hines,zustr_gwd_rando, zvstr_gwd_rando, &
341	zustr_gwd_front, zvstr_gwd_front, sza_o, &
342	sens_prec_liq_o, sens_prec_sol_o, lat_prec_liq_o, lat_prec_sol_o, &
343	cloudth_sth,cloudth_senv,cloudth_sigmath,cloudth_sigmaenv, &
344	! Marine
345	map_prop_hc, map_prop_hist, &
346	map_emis_hc,map_iwp_hc,map_deltaz_hc,&
347	map_pcld_hc,map_tcld_hc,&
348	map_emis_hist,map_iwp_hist,map_deltaz_hist,&
349	map_rad_hist,&
350	map_ntot,map_hc,map_hist,&
351	map_Cb,map_ThCi,map_Anv,&
352	map_emis_Cb,map_pcld_Cb,map_tcld_Cb,&
353	map_emis_ThCi,map_pcld_ThCi,map_tcld_ThCi,&
354	map_emis_Anv,map_pcld_Anv,map_tcld_Anv, &
355	alt_tropo, &
356	!Ionela
357	ok_4xCO2atm
358
359	USE ocean_slab_mod, ONLY: nslay, tslab, slab_bilg, tice, seaice, &
360	slab_ekman,slab_hdiff,slab_gm,dt_ekman, dt_hdiff, dt_gm, dt_qflux
361	USE pbl_surface_mod, ONLY: snow
362	USE indice_sol_mod, ONLY: nbsrf
363	USE infotrac_phy, ONLY: nqtot, nqo, type_trac, tname, niadv
364	USE geometry_mod, ONLY: cell_area, latitude_deg, longitude_deg
365	USE surface_data, ONLY: type_ocean, version_ocean, ok_veget, ok_snow
366	USE aero_mod, ONLY: naero_tot, id_STRAT_phy
367	USE ioipsl, ONLY: histend, histsync
368	USE iophy, ONLY: set_itau_iophy, histwrite_phy
369	USE netcdf, ONLY: nf90_fill_real
370	USE print_control_mod, ONLY: prt_level,lunout
371
372
373	#ifdef CPP_XIOS
374	! ug Pour les sorties XIOS
375	USE xios
376	USE wxios, ONLY: wxios_closedef, missing_val, wxios_set_context
377	#endif
378	USE phys_cal_mod, ONLY : mth_len
379
380	#ifdef CPP_RRTM
381	USE YOESW, ONLY : RSUN
382	#endif
383	USE tracinca_mod, ONLY: config_inca
384
385	USE vertical_layers_mod, ONLY: presnivs
386
387	IMPLICIT NONE
388
389	INCLUDE "clesphys.h"
390	INCLUDE "thermcell.h"
391	INCLUDE "compbl.h"
392	INCLUDE "YOMCST.h"
393
394	! Input
395	INTEGER :: itap, ivap, iliq, isol, read_climoz
396	INTEGER, DIMENSION(klon) :: lmax_th
397	LOGICAL :: aerosol_couple, ok_sync
398	LOGICAL :: ok_ade, ok_aie, ok_volcan
399	LOGICAL, DIMENSION(klon, klev) :: ptconv, ptconvth
400	REAL :: pdtphys
401	CHARACTER (LEN=4), DIMENSION(nlevSTD) :: clevSTD
402	REAL, DIMENSION(klon,nlevSTD) :: zx_tmp_fi3d_STD
403	REAL, DIMENSION(klon) :: pphis
404	REAL, DIMENSION(klon, klev) :: pplay, d_u, d_t
405	REAL, DIMENSION(klon, klev+1) :: paprs
406	REAL, DIMENSION(klon,klev,nqtot) :: qx, d_qx
407	REAL, DIMENSION(klon, klev) :: zmasse
408	INTEGER :: flag_aerosol_strat
409	INTEGER :: flag_aerosol
410	LOGICAL :: ok_cdnc
411	REAL, DIMENSION(3) :: freq_moyNMC
412
413	! Local
414	INTEGER :: itau_w
415	INTEGER :: i, iinit, iinitend=1, iff, iq, iiq, nsrf, k, ll, naero, j
416	REAL, DIMENSION (klon) :: zx_tmp_fi2d, zpt_conv2d, wind100m
417	REAL, DIMENSION (klon,klev) :: zx_tmp_fi3d, zpt_conv
418	REAL, DIMENSION (klon,klev+1) :: zx_tmp_fi3d1
419	REAL, DIMENSION (klon,NSW) :: zx_tmp_fi3dsp
420	CHARACTER (LEN=4) :: bb2
421	INTEGER, DIMENSION(nbp_lon*nbp_lat) :: ndex2d
422	INTEGER, DIMENSION(nbp_lonnbp_latklev) :: ndex3d
423	REAL, PARAMETER :: dobson_u = 2.1415e-05 ! Dobson unit, in kg m-2
424	! REAL, PARAMETER :: missing_val=nf90_fill_real
425	REAL, DIMENSION(klev+1,2) :: Ahyb_bounds, Bhyb_bounds
426	REAL, DIMENSION(klev,2) :: Ahyb_mid_bounds, Bhyb_mid_bounds
427	INTEGER :: ilev
428	INTEGER, SAVE :: kmax_100m
429	!$OMP THREADPRIVATE(kmax_100m)
430	REAL :: x
431	#ifndef CPP_XIOS
432	REAL :: missing_val
433	#endif
434	REAL, PARAMETER :: un_jour=86400.
435	INTEGER ISW
436	CHARACTER*1 ch1
437	CHARACTER*20 varname
438
439	#ifdef CPP_XIOS
440	TYPE(xios_fieldgroup) :: group_handle
441	TYPE(xios_field) :: child
442	#endif
443	#ifdef CPP_StratAer
444	LOGICAL, PARAMETER :: debug_strataer=.FALSE.
445	#endif
446	REAL,DIMENSION(klon,klev) :: z, dz
447	REAL,DIMENSION(klon) :: zrho, zt
448
449	! Nicolas Février
450	INTEGER,DIMENSION(2) :: index_bc=[106,116]
451
452	! On calcul le nouveau tau:
453	itau_w = itau_phy + itap
454	! On le donne à iophy pour que les histwrite y aient accès:
455	CALL set_itau_iophy(itau_w)
456
457	! IF (.NOT.vars_defined) THEN
458	iinitend = 1
459	! ELSE
460	! iinitend = 1
461	! ENDIF
462
463	#ifdef CPP_XIOS
464	CALL wxios_set_context
465	#endif
466
467	#ifndef CPP_XIOS
468	missing_val=missing_val_nf90
469	#endif
470
471	IF (.NOT.vars_defined) THEN
472	kmax_100m=1
473	DO k=1, klev-1
474	IF (presnivs(k).GT.0.97*101325.) kmax_100m = k !--finding out max level for 100 m with a good margin
475	ENDDO
476	ENDIF
477
478	Ahyb_bounds(1,1) = 0.
479	Ahyb_bounds(1,2) = aps(1)
480	Bhyb_bounds(1,1) = 1.
481	Bhyb_bounds(1,2) = bps(1)
482	DO ilev=2,klev
483	Ahyb_bounds(ilev,1) = aps(ilev-1)
484	Ahyb_bounds(ilev,2) = aps(ilev)
485	Bhyb_bounds(ilev,1) = bps(ilev-1)
486	Bhyb_bounds(ilev,2) = bps(ilev)
487	ENDDO
488	Ahyb_bounds(klev+1,1) = aps(klev)
489	Ahyb_bounds(klev+1,2) = 0.
490	Bhyb_bounds(klev+1,1) = bps(klev)
491	Bhyb_bounds(klev+1,2) = 0.
492
493	DO ilev=1, klev
494	Ahyb_mid_bounds(ilev,1) = ap(ilev)
495	Ahyb_mid_bounds(ilev,2) = ap(ilev+1)
496	Bhyb_mid_bounds(ilev,1) = bp(ilev)
497	Bhyb_mid_bounds(ilev,2) = bp(ilev+1)
498	END DO
499
500	#ifdef CPP_XIOS
501	#ifdef CPP_StratAer
502	!$OMP MASTER
503	IF (.NOT.vars_defined) THEN
504	!On ajoute les variables 3D traceurs par l interface fortran
505	CALL xios_get_handle("fields_strataer_trac_3D", group_handle)
506	! On boucle sur les traceurs pour les ajouter au groupe puis fixer les attributs
507	DO iq=nqo+1, nqtot
508	iiq=niadv(iq)
509	varname=trim(tname(iiq))
510	WRITE (lunout,*) 'XIOS var=', nqo, iq, nqtot, varname
511	CALL xios_add_child(group_handle, child, varname)
512	CALL xios_set_attr(child, name=varname, unit="kg kg-1")
513	varname='d'//trim(tname(iiq))//'_vdf'
514	CALL xios_add_child(group_handle, child, varname)
515	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
516	varname='d'//trim(tname(iiq))//'_the'
517	CALL xios_add_child(group_handle, child, varname)
518	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
519	varname='d'//trim(tname(iiq))//'_con'
520	CALL xios_add_child(group_handle, child, varname)
521	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
522	varname='d'//trim(tname(iiq))//'_lessi_impa'
523	CALL xios_add_child(group_handle, child, varname)
524	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
525	varname='d'//trim(tname(iiq))//'_lessi_nucl'
526	CALL xios_add_child(group_handle, child, varname)
527	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
528	varname='d'//trim(tname(iiq))//'_insc'
529	CALL xios_add_child(group_handle, child, varname)
530	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
531	varname='d'//trim(tname(iiq))//'_bcscav'
532	CALL xios_add_child(group_handle, child, varname)
533	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
534	varname='d'//trim(tname(iiq))//'_evapls'
535	CALL xios_add_child(group_handle, child, varname)
536	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
537	varname='d'//trim(tname(iiq))//'_ls'
538	CALL xios_add_child(group_handle, child, varname)
539	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
540	varname='d'//trim(tname(iiq))//'_trsp'
541	CALL xios_add_child(group_handle, child, varname)
542	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
543	varname='d'//trim(tname(iiq))//'_sscav'
544	CALL xios_add_child(group_handle, child, varname)
545	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
546	varname='d'//trim(tname(iiq))//'_sat'
547	CALL xios_add_child(group_handle, child, varname)
548	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
549	varname='d'//trim(tname(iiq))//'_uscav'
550	CALL xios_add_child(group_handle, child, varname)
551	CALL xios_set_attr(child, name=varname, unit="kg kg-1 s-1")
552	ENDDO
553	!On ajoute les variables 2D traceurs par l interface fortran
554	CALL xios_get_handle("fields_strataer_trac_2D", group_handle)
555	! On boucle sur les traceurs pour les ajouter au groupe puis fixer les attributs
556	DO iq=nqo+1, nqtot
557	iiq=niadv(iq)
558	varname='cum'//trim(tname(iiq))
559	WRITE (lunout,*) 'XIOS var=', iq, nqtot, varname
560	CALL xios_add_child(group_handle, child, varname)
561	CALL xios_set_attr(child, name=varname, unit="kg m-2")
562	varname='cumd'//trim(tname(iiq))//'_dry'
563	CALL xios_add_child(group_handle, child, varname)
564	CALL xios_set_attr(child, name=varname, unit="kg m-2 s-1")
565	ENDDO
566	ENDIF
567	!$OMP END MASTER
568	#endif
569	#endif
570	! ug la boucle qui suit ne sert qu'une fois, pour l'initialisation, sinon il n'y a toujours qu'un seul passage:
571	DO iinit=1, iinitend
572	! print *,'IFF iinit=', iinit, iinitend
573	#ifdef CPP_XIOS
574	!$OMP MASTER
575	IF (vars_defined) THEN
576	IF (prt_level >= 10) then
577	write(lunout,*)"phys_output_write: call xios_update_calendar, itau_w=",itau_w
578	ENDIF
579	! CALL xios_update_calendar(itau_w)
580	CALL xios_update_calendar(itap)
581	ENDIF
582	!$OMP END MASTER
583	!$OMP BARRIER
584	#endif
585	! On procède à l'écriture ou à la définition des nombreuses variables:
586	!!! Champs 1D !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
587	CALL histwrite_phy(o_phis, pphis)
588
589	zx_tmp_fi2d = cell_area
590	IF (is_north_pole_phy) then
591	zx_tmp_fi2d(1) = cell_area(1)/nbp_lon
592	ENDIF
593	IF (is_south_pole_phy) then
594	zx_tmp_fi2d(klon) = cell_area(klon)/nbp_lon
595	ENDIf
596	CALL histwrite_phy(o_aire, zx_tmp_fi2d)
597
598	IF (vars_defined) THEN
599	DO i=1, klon
600	zx_tmp_fi2d(i)=pctsrf(i,is_ter)+pctsrf(i,is_lic)
601	ENDDO
602	ENDIF
603
604	CALL histwrite_phy(o_contfracATM, zx_tmp_fi2d)
605	CALL histwrite_phy(o_contfracOR, pctsrf(:,is_ter))
606	!
607	#ifdef CPP_XIOS
608	CALL histwrite_phy("R_ecc",R_ecc)
609	CALL histwrite_phy("R_peri",R_peri)
610	CALL histwrite_phy("R_incl",R_incl)
611	CALL histwrite_phy("solaire",solaire)
612	CALL histwrite_phy(o_Ahyb, ap)
613	CALL histwrite_phy(o_Bhyb, bp)
614	CALL histwrite_phy(o_Ahyb_bounds, Ahyb_bounds)
615	CALL histwrite_phy(o_Bhyb_bounds, Bhyb_bounds)
616	CALL histwrite_phy(o_Ahyb_mid, aps)
617	CALL histwrite_phy(o_Bhyb_mid, bps)
618	CALL histwrite_phy(o_Ahyb_mid_bounds, Ahyb_mid_bounds)
619	CALL histwrite_phy(o_Bhyb_mid_bounds, Bhyb_mid_bounds)
620	CALL histwrite_phy(o_longitude, longitude_deg)
621	CALL histwrite_phy(o_latitude, latitude_deg)
622	!
623	#ifdef CPP_RRTM
624	IF (iflag_rrtm.EQ.1) THEN
625	DO ISW=1, NSW
626	WRITE(ch1,'(i1)') ISW
627	! zx_tmp_0d=RSUN(ISW)
628	! CALL histwrite_phy("rsun"//ch1,zx_tmp_0d)
629	CALL histwrite_phy("rsun"//ch1,RSUN(ISW))
630	ENDDO
631	ENDIF
632	#endif
633	!
634	CALL histwrite_phy("co2_ppm",co2_ppm)
635	CALL histwrite_phy("CH4_ppb",CH4_ppb)
636	CALL histwrite_phy("N2O_ppb",N2O_ppb)
637	CALL histwrite_phy("CFC11_ppt",CFC11_ppt)
638	CALL histwrite_phy("CFC12_ppt",CFC12_ppt)
639	!
640	#endif
641
642	!!! Champs 2D !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
643	! Simulateur AIRS
644	IF (ok_airs) then
645	CALL histwrite_phy(o_alt_tropo,alt_tropo)
646
647	CALL histwrite_phy(o_map_prop_hc,map_prop_hc)
648	CALL histwrite_phy(o_map_prop_hist,map_prop_hist)
649
650	CALL histwrite_phy(o_map_emis_hc,map_emis_hc)
651	CALL histwrite_phy(o_map_iwp_hc,map_iwp_hc)
652	CALL histwrite_phy(o_map_deltaz_hc,map_deltaz_hc)
653	CALL histwrite_phy(o_map_pcld_hc,map_pcld_hc)
654	CALL histwrite_phy(o_map_tcld_hc,map_tcld_hc)
655
656	CALL histwrite_phy(o_map_emis_hist,map_emis_hist)
657	CALL histwrite_phy(o_map_iwp_hist,map_iwp_hist)
658	CALL histwrite_phy(o_map_deltaz_hist,map_deltaz_hist)
659
660	CALL histwrite_phy(o_map_ntot,map_ntot)
661	CALL histwrite_phy(o_map_hc,map_hc)
662	CALL histwrite_phy(o_map_hist,map_hist)
663
664	CALL histwrite_phy(o_map_Cb,map_Cb)
665	CALL histwrite_phy(o_map_ThCi,map_ThCi)
666	CALL histwrite_phy(o_map_Anv,map_Anv)
667
668	CALL histwrite_phy(o_map_emis_Cb,map_emis_Cb)
669	CALL histwrite_phy(o_map_pcld_Cb,map_pcld_Cb)
670	CALL histwrite_phy(o_map_tcld_Cb,map_tcld_Cb)
671
672	CALL histwrite_phy(o_map_emis_ThCi,map_emis_ThCi)
673	CALL histwrite_phy(o_map_pcld_ThCi,map_pcld_ThCi)
674	CALL histwrite_phy(o_map_tcld_ThCi,map_tcld_ThCi)
675
676	CALL histwrite_phy(o_map_emis_Anv,map_emis_Anv)
677	CALL histwrite_phy(o_map_pcld_Anv,map_pcld_Anv)
678	CALL histwrite_phy(o_map_tcld_Anv,map_tcld_Anv)
679	ENDIF
680
681	CALL histwrite_phy(o_sza, sza_o)
682	CALL histwrite_phy(o_flat, zxfluxlat)
683	CALL histwrite_phy(o_ptstar, ptstar)
684	CALL histwrite_phy(o_pt0, pt0)
685	CALL histwrite_phy(o_slp, slp)
686	CALL histwrite_phy(o_tsol, zxtsol)
687	CALL histwrite_phy(o_t2m, zt2m)
688	CALL histwrite_phy(o_t2m_min, zt2m)
689	CALL histwrite_phy(o_t2m_max, zt2m)
690	CALL histwrite_phy(o_t2m_max_mon, t2m_max_mon)
691	CALL histwrite_phy(o_t2m_min_mon, t2m_min_mon)
692
693	IF (vars_defined) THEN
694	DO i=1, klon
695	zx_tmp_fi2d(i)=real(zn2mout(i,1))
696	ENDDO
697	ENDIF
698	CALL histwrite_phy(o_nt2mout, zx_tmp_fi2d)
699
700	IF (vars_defined) THEN
701	DO i=1, klon
702	zx_tmp_fi2d(i)=real(zn2mout(i,2))
703	ENDDO
704	ENDIF
705	CALL histwrite_phy(o_nt2moutfg, zx_tmp_fi2d)
706
707	IF (vars_defined) THEN
708	DO i=1, klon
709	zx_tmp_fi2d(i)=real(zn2mout(i,3))
710	ENDDO
711	ENDIF
712	CALL histwrite_phy(o_nq2mout, zx_tmp_fi2d)
713
714	IF (vars_defined) THEN
715	DO i=1, klon
716	zx_tmp_fi2d(i)=real(zn2mout(i,4))
717	ENDDO
718	ENDIF
719	CALL histwrite_phy(o_nq2moutfg, zx_tmp_fi2d)
720
721	IF (vars_defined) THEN
722	DO i=1, klon
723	zx_tmp_fi2d(i)=real(zn2mout(i,5))
724	ENDDO
725	ENDIF
726	CALL histwrite_phy(o_nu2mout, zx_tmp_fi2d)
727
728	IF (vars_defined) THEN
729	DO i=1, klon
730	zx_tmp_fi2d(i)=real(zn2mout(i,6))
731	ENDDO
732	ENDIF
733	CALL histwrite_phy(o_nu2moutfg, zx_tmp_fi2d)
734
735	IF (vars_defined) THEN
736	DO i=1, klon
737	zx_tmp_fi2d(i)=SQRT(zu10m(i)zu10m(i)+zv10m(i)zv10m(i))
738	ENDDO
739	ENDIF
740	CALL histwrite_phy(o_wind10m, zx_tmp_fi2d)
741
742	IF (vars_defined) THEN
743	DO i=1, klon
744	zx_tmp_fi2d(i)=SQRT(zu10m(i)zu10m(i)+zv10m(i)zv10m(i))
745	ENDDO
746	ENDIF
747	CALL histwrite_phy(o_wind10max, zx_tmp_fi2d)
748
749	CALL histwrite_phy(o_gusts, gustiness)
750
751	IF (vars_defined) THEN
752	DO k = 1, kmax_100m !--we could stop much lower
753	zrho(:) = pplay(:,k)/t_seri(:,k)/RD ! air density in kg/m3
754	dz(:,k) = (paprs(:,k)-paprs(:,k+1))/zrho(:)/RG ! layer thickness in m
755	IF (k==1) THEN
756	z(:,1) = (paprs(:,1)-pplay(:,1))/zrho(:)/RG ! altitude middle of first layer in m
757	zt(:) = dz(:,1) ! altitude top of first layer in m
758	ELSE
759	z(:,k) = zt(:) + (paprs(:,k)-pplay(:,k))/zrho(:)/RG ! altitude middle of layer k in m
760	zt(:) = zt(:) + dz(:,k) ! altitude top of layer k in m
761	ENDIF
762	ENDDO
763	wind100m(:)=missing_val
764	DO k=1, kmax_100m-1 !--we could stop much lower
765	DO i=1,klon
766	IF (z(i,k).LT.100..AND.z(i,k+1).GE.100.) THEN
767	wind100m(i)=SQRT( (u_seri(i,k)+(100.-z(i,k))/(z(i,k+1)-z(i,k))(u_seri(i,k+1)-u_seri(i,k)))*2.0 + &
768	(v_seri(i,k)+(100.-z(i,k))/(z(i,k+1)-z(i,k))(v_seri(i,k+1)-v_seri(i,k)))*2.0 )
769	ENDIF
770	ENDDO
771	ENDDO
772	ENDIF
773	CALL histwrite_phy(o_wind100m, wind100m)
774
775	IF (vars_defined) THEN
776	!--polynomial fit for 14,Vestas,1074,V136/3450 kW windmill - Olivier
777	DO i=1,klon
778	IF (pctsrf(i,is_ter).GT.0.05 .AND. wind100m(i).NE.missing_val) THEN
779	x=wind100m(i)
780	IF (x.LE.3.0 .OR. x.GE.22.5) THEN
781	zx_tmp_fi2d(i)=0.0
782	ELSE IF (x.GE.10.0) THEN
783	zx_tmp_fi2d(i)=1.0
784	ELSE
785	zx_tmp_fi2d(i)= 10.73 + x(-14.69 + x(8.339 + x(-2.59 + x(0.4893 + x(-0.05898 + x(0.004627 + &
786	x(-0.0002352 + x(7.478e-06 + x(-1.351e-07 + x(1.059e-09))))))))))
787	zx_tmp_fi2d(i)=MIN(MAX(zx_tmp_fi2d(i),0.0),1.0)
788	ENDIF
789	ELSE
790	zx_tmp_fi2d(i)=missing_val
791	ENDIF
792	ENDDO
793	ENDIF
794	CALL histwrite_phy(o_loadfactor_wind_onshore, zx_tmp_fi2d)
795
796	IF (vars_defined) THEN
797	!--polynomial fit for 14,Vestas,867,V164/8000 kW - Olivier
798	DO i=1,klon
799	IF (pctsrf(i,is_oce).GT.0.05 .AND. wind100m(i).NE.missing_val) THEN
800	x=wind100m(i)
801	IF (x.LE.3.0 .OR. x.GE.25.5) THEN
802	zx_tmp_fi2d(i)=0.0
803	ELSE IF (x.GE.12.5) THEN
804	zx_tmp_fi2d(i)=1.0
805	ELSE
806	zx_tmp_fi2d(i)= 20.59 + x(-22.39 + x(10.25 + x(-2.601 + x(0.4065 + x(-0.04099 + x(0.002716 + &
807	x(-0.0001175 + x(3.195e-06 + x(-4.959e-08 + x(3.352e-10))))))))))
808	zx_tmp_fi2d(i)=MIN(MAX(zx_tmp_fi2d(i),0.0),1.0)
809	ENDIF
810	ELSE
811	zx_tmp_fi2d(i)=missing_val
812	ENDIF
813	ENDDO
814	ENDIF
815	CALL histwrite_phy(o_loadfactor_wind_offshore, zx_tmp_fi2d)
816
817	IF (vars_defined) THEN
818	DO i = 1, klon
819	zx_tmp_fi2d(i) = pctsrf(i,is_sic)
820	ENDDO
821	ENDIF
822	CALL histwrite_phy(o_sicf, zx_tmp_fi2d)
823	CALL histwrite_phy(o_q2m, zq2m)
824	IF (vars_defined) zx_tmp_fi2d = zustar
825	CALL histwrite_phy(o_ustar, zx_tmp_fi2d)
826	CALL histwrite_phy(o_u10m, zu10m)
827	CALL histwrite_phy(o_v10m, zv10m)
828
829	IF (vars_defined) THEN
830	DO i = 1, klon
831	zx_tmp_fi2d(i) = paprs(i,1)
832	ENDDO
833	ENDIF
834	CALL histwrite_phy(o_psol, zx_tmp_fi2d)
835	CALL histwrite_phy(o_mass, zmasse)
836	CALL histwrite_phy(o_qsurf, zxqsurf)
837
838	IF (.NOT. ok_veget) THEN
839	CALL histwrite_phy(o_qsol, qsol)
840	ENDIF
841
842	IF (vars_defined) THEN
843	DO i = 1, klon
844	zx_tmp_fi2d(i) = rain_fall(i) + snow_fall(i)
845	ENDDO
846	ENDIF
847
848	CALL histwrite_phy(o_precip, zx_tmp_fi2d)
849	CALL histwrite_phy(o_rain_fall, rain_fall)
850	CALL histwrite_phy(o_ndayrain, nday_rain)
851
852	! epmax_cape:
853	! CALL histwrite_phy(o_epmax_diag, epmax_diag)
854	CALL histwrite_phy(o_ep, ep)
855
856	IF (vars_defined) THEN
857	DO i = 1, klon
858	zx_tmp_fi2d(i) = rain_lsc(i) + snow_lsc(i)
859	ENDDO
860	ENDIF
861	CALL histwrite_phy(o_plul, zx_tmp_fi2d)
862	CALL histwrite_phy(o_plun, rain_num)
863
864	IF (vars_defined) THEN
865	DO i = 1, klon
866	zx_tmp_fi2d(i) = rain_con(i) + snow_con(i)
867	ENDDO
868	ENDIF
869	CALL histwrite_phy(o_pluc, zx_tmp_fi2d)
870	CALL histwrite_phy(o_rain_con, rain_con)
871	CALL histwrite_phy(o_snow, snow_fall)
872	CALL histwrite_phy(o_msnow, zxsnow)
873	CALL histwrite_phy(o_fsnow, zfra_o)
874	CALL histwrite_phy(o_evap, evap)
875
876	IF (vars_defined) THEN
877	zx_tmp_fi2d = topsw*swradcorr
878	ENDIF
879	CALL histwrite_phy(o_tops, zx_tmp_fi2d)
880
881	IF (vars_defined) THEN
882	zx_tmp_fi2d = topsw0*swradcorr
883	ENDIF
884	CALL histwrite_phy(o_tops0, zx_tmp_fi2d)
885
886	CALL histwrite_phy(o_topl, toplw)
887	CALL histwrite_phy(o_topl0, toplw0)
888
889	IF (vars_defined) THEN
890	zx_tmp_fi2d(:) = swup(:,klevp1)*swradcorr(:)
891	ENDIF
892	CALL histwrite_phy(o_SWupTOA, zx_tmp_fi2d)
893
894	IF (vars_defined) THEN
895	zx_tmp_fi2d(:) = swup0(:,klevp1)*swradcorr(:)
896	ENDIF
897	CALL histwrite_phy(o_SWupTOAclr, zx_tmp_fi2d)
898
899	IF (vars_defined) THEN
900	zx_tmp_fi2d(:) = swupc0(:,klevp1)*swradcorr(:)
901	ENDIF
902	CALL histwrite_phy(o_SWupTOAcleanclr, zx_tmp_fi2d)
903
904	IF (vars_defined) THEN
905	zx_tmp_fi2d(:) = swdn(:,klevp1)*swradcorr(:)
906	ENDIF
907	CALL histwrite_phy(o_SWdnTOA, zx_tmp_fi2d)
908
909	IF (vars_defined) THEN
910	zx_tmp_fi2d(:) = swdn0(:,klevp1)*swradcorr(:)
911	ENDIF
912	CALL histwrite_phy(o_SWdnTOAclr, zx_tmp_fi2d)
913
914	IF (vars_defined) THEN
915	zx_tmp_fi2d(:) = topsw(:)*swradcorr(:)-toplw(:)
916	ENDIF
917	CALL histwrite_phy(o_nettop, zx_tmp_fi2d)
918
919	IF (vars_defined) THEN
920	zx_tmp_fi2d = SWup200*swradcorr
921	ENDIF
922	CALL histwrite_phy(o_SWup200, zx_tmp_fi2d)
923
924	IF (vars_defined) THEN
925	zx_tmp_fi2d = SWup200clr*swradcorr
926	ENDIF
927	CALL histwrite_phy(o_SWup200clr, zx_tmp_fi2d)
928
929	IF (vars_defined) THEN
930	zx_tmp_fi2d = SWdn200*swradcorr
931	ENDIF
932	CALL histwrite_phy(o_SWdn200, zx_tmp_fi2d)
933
934
935	IF (vars_defined) THEN
936	zx_tmp_fi2d = SWdn200clr*swradcorr
937	ENDIF
938	CALL histwrite_phy(o_SWdn200clr, zx_tmp_fi2d)
939
940	CALL histwrite_phy(o_LWup200, LWup200)
941	CALL histwrite_phy(o_LWup200clr, LWup200clr)
942	CALL histwrite_phy(o_LWdn200, LWdn200)
943	CALL histwrite_phy(o_LWdn200clr, LWdn200clr)
944
945	IF (vars_defined) THEN
946	zx_tmp_fi2d = solsw*swradcorr
947	ENDIF
948	CALL histwrite_phy(o_sols, zx_tmp_fi2d)
949
950
951	IF (vars_defined) THEN
952	zx_tmp_fi2d = solsw0*swradcorr
953	ENDIF
954	CALL histwrite_phy(o_sols0, zx_tmp_fi2d)
955	CALL histwrite_phy(o_soll, sollw)
956	CALL histwrite_phy(o_soll0, sollw0)
957	CALL histwrite_phy(o_radsol, radsol)
958
959	IF (vars_defined) THEN
960	zx_tmp_fi2d(:) = swup(:,1)*swradcorr(:)
961	ENDIF
962	CALL histwrite_phy(o_SWupSFC, zx_tmp_fi2d)
963
964	IF (vars_defined) THEN
965	zx_tmp_fi2d(:) = swup0(:,1)*swradcorr(:)
966	ENDIF
967	CALL histwrite_phy(o_SWupSFCclr, zx_tmp_fi2d)
968
969	IF (vars_defined) THEN
970	zx_tmp_fi2d(:) = swupc0(:,1)*swradcorr(:)
971	ENDIF
972	CALL histwrite_phy(o_SWupSFCcleanclr, zx_tmp_fi2d)
973
974	IF (vars_defined) THEN
975	zx_tmp_fi2d(:) = swdn(:,1)*swradcorr(:)
976	ENDIF
977	CALL histwrite_phy(o_SWdnSFC, zx_tmp_fi2d)
978
979	IF (vars_defined) THEN
980	zx_tmp_fi2d(:) = swdn0(:,1)*swradcorr(:)
981	ENDIF
982	CALL histwrite_phy(o_SWdnSFCclr, zx_tmp_fi2d)
983
984	IF (vars_defined) THEN
985	zx_tmp_fi2d(:) = swdnc0(:,1)*swradcorr(:)
986	ENDIF
987	CALL histwrite_phy(o_SWdnSFCcleanclr, zx_tmp_fi2d)
988
989	IF (vars_defined) THEN
990	zx_tmp_fi2d(:)=sollwdown(:)-sollw(:)
991	ENDIF
992	CALL histwrite_phy(o_LWupSFC, zx_tmp_fi2d)
993	CALL histwrite_phy(o_LWdnSFC, sollwdown)
994
995	IF (vars_defined) THEN
996	sollwdownclr(1:klon) = -1.*lwdn0(1:klon,1)
997	zx_tmp_fi2d(1:klon)=sollwdownclr(1:klon)-sollw0(1:klon)
998	ENDIF
999	CALL histwrite_phy(o_LWupSFCclr, zx_tmp_fi2d)
1000	CALL histwrite_phy(o_LWdnSFCclr, sollwdownclr)
1001
1002	IF (vars_defined) THEN
1003	zx_tmp_fi2d(:) = lwupc0(:,klevp1)
1004	ENDIF
1005	CALL histwrite_phy(o_LWupTOAcleanclr, zx_tmp_fi2d)
1006	IF (vars_defined) THEN
1007	zx_tmp_fi2d(:) = -1.*lwdnc0(:,1)
1008	ENDIF
1009	CALL histwrite_phy(o_LWdnSFCcleanclr, zx_tmp_fi2d)
1010
1011	CALL histwrite_phy(o_bils, bils)
1012	CALL histwrite_phy(o_bils_diss, bils_diss)
1013	CALL histwrite_phy(o_bils_ec, bils_ec)
1014	CALL histwrite_phy(o_bils_ech, bils_ech)
1015	CALL histwrite_phy(o_bils_tke, bils_tke)
1016	CALL histwrite_phy(o_bils_kinetic, bils_kinetic)
1017	CALL histwrite_phy(o_bils_latent, bils_latent)
1018	CALL histwrite_phy(o_bils_enthalp, bils_enthalp)
1019
1020	IF (vars_defined) THEN
1021	zx_tmp_fi2d(1:klon)=-1*sens(1:klon)
1022	ENDIF
1023	CALL histwrite_phy(o_sens, zx_tmp_fi2d)
1024	CALL histwrite_phy(o_fder, fder)
1025	CALL histwrite_phy(o_ffonte, zxffonte)
1026	CALL histwrite_phy(o_fqcalving, zxfqcalving)
1027	CALL histwrite_phy(o_fqfonte, zxfqfonte)
1028	IF (vars_defined) THEN
1029	zx_tmp_fi2d(1:klon)=(zxfqfonte(1:klon)+rain_fall(1:klon))*pctsrf(1:klon,is_lic)
1030	ENDIF
1031	CALL histwrite_phy(o_mrroli, zx_tmp_fi2d)
1032	CALL histwrite_phy(o_runofflic, zxrunofflic)
1033	IF (vars_defined) THEN
1034	zx_tmp_fi2d=0.
1035	DO nsrf=1,nbsrf
1036	zx_tmp_fi2d(:)=zx_tmp_fi2d(:)+pctsrf(:,nsrf)*fluxu(:,1,nsrf)
1037	ENDDO
1038	ENDIF
1039	CALL histwrite_phy(o_taux, zx_tmp_fi2d)
1040
1041	IF (vars_defined) THEN
1042	zx_tmp_fi2d=0.
1043	DO nsrf=1,nbsrf
1044	zx_tmp_fi2d(:)=zx_tmp_fi2d(:)+pctsrf(:,nsrf)*fluxv(:,1,nsrf)
1045	ENDDO
1046	ENDIF
1047	CALL histwrite_phy(o_tauy, zx_tmp_fi2d)
1048
1049	IF (ok_snow) THEN
1050	CALL histwrite_phy(o_snowsrf, snow_o)
1051	CALL histwrite_phy(o_qsnow, qsnow)
1052	CALL histwrite_phy(o_snowhgt,snowhgt)
1053	CALL histwrite_phy(o_toice,to_ice)
1054	CALL histwrite_phy(o_sissnow,sissnow)
1055	CALL histwrite_phy(o_runoff,runoff)
1056	CALL histwrite_phy(o_albslw3,albsol3_lic)
1057	ENDIF
1058
1059	DO nsrf = 1, nbsrf
1060
1061	IF (vars_defined) zx_tmp_fi2d(1 : klon) = pctsrf( 1 : klon, nsrf)*100.
1062	CALL histwrite_phy(o_pourc_srf(nsrf), zx_tmp_fi2d)
1063	IF (vars_defined) zx_tmp_fi2d(1 : klon) = pctsrf( 1 : klon, nsrf)
1064	CALL histwrite_phy(o_fract_srf(nsrf), zx_tmp_fi2d)
1065	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fluxu( 1 : klon, 1, nsrf)
1066	CALL histwrite_phy(o_taux_srf(nsrf), zx_tmp_fi2d)
1067	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fluxv( 1 : klon, 1, nsrf)
1068	CALL histwrite_phy(o_tauy_srf(nsrf), zx_tmp_fi2d)
1069	IF (vars_defined) zx_tmp_fi2d(1 : klon) = ftsol( 1 : klon, nsrf)
1070	CALL histwrite_phy(o_tsol_srf(nsrf), zx_tmp_fi2d)
1071	IF (vars_defined) zx_tmp_fi2d(1 : klon) = evap_pot( 1 : klon, nsrf)
1072	CALL histwrite_phy(o_evappot_srf(nsrf), zx_tmp_fi2d)
1073	IF (vars_defined) zx_tmp_fi2d(1 : klon) = ustar(1 : klon, nsrf)
1074	CALL histwrite_phy(o_ustar_srf(nsrf), zx_tmp_fi2d)
1075	IF (vars_defined) zx_tmp_fi2d(1 : klon) = u10m(1 : klon, nsrf)
1076	CALL histwrite_phy(o_u10m_srf(nsrf), zx_tmp_fi2d)
1077	IF (vars_defined) zx_tmp_fi2d(1 : klon) = v10m(1 : klon, nsrf)
1078	CALL histwrite_phy(o_v10m_srf(nsrf), zx_tmp_fi2d)
1079	IF (vars_defined) zx_tmp_fi2d(1 : klon) = t2m(1 : klon, nsrf)
1080	CALL histwrite_phy(o_t2m_srf(nsrf), zx_tmp_fi2d)
1081	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fevap(1 : klon, nsrf)
1082	CALL histwrite_phy(o_evap_srf(nsrf), zx_tmp_fi2d)
1083	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fluxt( 1 : klon, 1, nsrf)
1084	CALL histwrite_phy(o_sens_srf(nsrf), zx_tmp_fi2d)
1085	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fluxlat( 1 : klon, nsrf)
1086	CALL histwrite_phy(o_lat_srf(nsrf), zx_tmp_fi2d)
1087	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fsollw( 1 : klon, nsrf)
1088	CALL histwrite_phy(o_flw_srf(nsrf), zx_tmp_fi2d)
1089	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fsolsw( 1 : klon, nsrf)
1090	CALL histwrite_phy(o_fsw_srf(nsrf), zx_tmp_fi2d)
1091	IF (vars_defined) zx_tmp_fi2d(1 : klon) = wfbils( 1 : klon, nsrf)
1092	CALL histwrite_phy(o_wbils_srf(nsrf), zx_tmp_fi2d)
1093	IF (vars_defined) zx_tmp_fi2d(1 : klon) = wfbilo( 1 : klon, nsrf)
1094	CALL histwrite_phy(o_wbilo_srf(nsrf), zx_tmp_fi2d)
1095	IF (vars_defined) zx_tmp_fi2d(1 : klon) = wfevap( 1 : klon, nsrf)
1096	CALL histwrite_phy(o_wevap_srf(nsrf), zx_tmp_fi2d)
1097	IF (vars_defined) zx_tmp_fi2d(1 : klon) = wfrain( 1 : klon, nsrf)
1098	CALL histwrite_phy(o_wrain_srf(nsrf), zx_tmp_fi2d)
1099	IF (vars_defined) zx_tmp_fi2d(1 : klon) = wfsnow( 1 : klon, nsrf)
1100	CALL histwrite_phy(o_wsnow_srf(nsrf), zx_tmp_fi2d)
1101
1102	IF (iflag_pbl > 1) THEN
1103	CALL histwrite_phy(o_tke_srf(nsrf), pbl_tke(:,1:klev,nsrf))
1104	!CALL histwrite_phy(o_l_mix(nsrf), l_mix(:,1:klev,nsrf))
1105	CALL histwrite_phy(o_l_mixmin(nsrf), l_mixmin(:,1:klev,nsrf))
1106	CALL histwrite_phy(o_tke_max_srf(nsrf), pbl_tke(:,1:klev,nsrf))
1107	ENDIF
1108	!jyg<
1109	IF (iflag_pbl > 1 .AND. iflag_wake>=1 .AND. iflag_pbl_split >=1) THEN
1110	CALL histwrite_phy(o_dltpbltke_srf(nsrf), wake_delta_pbl_TKE(:,1:klev,nsrf))
1111	ENDIF
1112	!>jyg
1113	! IF (iflag_pbl > 1 .AND. ifl_pbltree >=1 ) THEN
1114	! CALL histwrite_phy(o_treedrg_srf(nsrf), treedrg(:,1:klev,nsrf))
1115	! ENDIF
1116
1117
1118	ENDDO
1119
1120	IF (vars_defined) zx_tmp_fi2d(1 : klon) = sens_prec_liq_o(1 : klon, 1)
1121	CALL histwrite_phy(o_sens_prec_liq_oce, zx_tmp_fi2d)
1122	IF (vars_defined) zx_tmp_fi2d(1 : klon) = sens_prec_liq_o(1 : klon, 2)
1123	CALL histwrite_phy(o_sens_prec_liq_sic, zx_tmp_fi2d)
1124	IF (vars_defined) zx_tmp_fi2d(1 : klon) = sens_prec_sol_o(1 : klon, 1)
1125	CALL histwrite_phy(o_sens_prec_sol_oce, zx_tmp_fi2d)
1126	IF (vars_defined) zx_tmp_fi2d(1 : klon) = sens_prec_sol_o(1 : klon, 2)
1127	CALL histwrite_phy(o_sens_prec_sol_sic, zx_tmp_fi2d)
1128
1129	IF (vars_defined) zx_tmp_fi2d(1 : klon) = lat_prec_liq_o(1 : klon, 1)
1130	CALL histwrite_phy(o_lat_prec_liq_oce, zx_tmp_fi2d)
1131	IF (vars_defined) zx_tmp_fi2d(1 : klon) = lat_prec_liq_o(1 : klon, 2)
1132	CALL histwrite_phy(o_lat_prec_liq_sic, zx_tmp_fi2d)
1133	IF (vars_defined) zx_tmp_fi2d(1 : klon) = lat_prec_sol_o(1 : klon, 1)
1134	CALL histwrite_phy(o_lat_prec_sol_oce, zx_tmp_fi2d)
1135	IF (vars_defined) zx_tmp_fi2d(1 : klon) = lat_prec_sol_o(1 : klon, 2)
1136	CALL histwrite_phy(o_lat_prec_sol_sic, zx_tmp_fi2d)
1137
1138	DO nsrf=1,nbsrf+1
1139	CALL histwrite_phy(o_wstar(nsrf), wstar(1 : klon, nsrf))
1140	ENDDO
1141
1142	CALL histwrite_phy(o_cdrm, cdragm)
1143	CALL histwrite_phy(o_cdrh, cdragh)
1144	CALL histwrite_phy(o_cldl, cldl)
1145	CALL histwrite_phy(o_cldm, cldm)
1146	CALL histwrite_phy(o_cldh, cldh)
1147	CALL histwrite_phy(o_cldt, cldt)
1148	CALL histwrite_phy(o_JrNt, JrNt)
1149
1150	IF (vars_defined) zx_tmp_fi2d=cldl*JrNt
1151	CALL histwrite_phy(o_cldljn, zx_tmp_fi2d)
1152
1153	IF (vars_defined) zx_tmp_fi2d=cldm*JrNt
1154	CALL histwrite_phy(o_cldmjn, zx_tmp_fi2d)
1155
1156	IF (vars_defined) zx_tmp_fi2d=cldh*JrNt
1157	CALL histwrite_phy(o_cldhjn, zx_tmp_fi2d)
1158
1159	IF (vars_defined) zx_tmp_fi2d=cldt*JrNt
1160	CALL histwrite_phy(o_cldtjn, zx_tmp_fi2d)
1161
1162	CALL histwrite_phy(o_cldq, cldq)
1163	IF (vars_defined) zx_tmp_fi2d(1:klon) = flwp(1:klon)
1164	CALL histwrite_phy(o_lwp, zx_tmp_fi2d)
1165	IF (vars_defined) zx_tmp_fi2d(1:klon) = fiwp(1:klon)
1166	CALL histwrite_phy(o_iwp, zx_tmp_fi2d)
1167	CALL histwrite_phy(o_ue, ue)
1168	CALL histwrite_phy(o_ve, ve)
1169	CALL histwrite_phy(o_uq, uq)
1170	CALL histwrite_phy(o_vq, vq)
1171	CALL histwrite_phy(o_uwat, uwat)
1172	CALL histwrite_phy(o_vwat, vwat)
1173	IF (iflag_con.GE.3) THEN ! sb
1174	CALL histwrite_phy(o_cape, cape)
1175	CALL histwrite_phy(o_pbase, ema_pcb)
1176	CALL histwrite_phy(o_ptop, ema_pct)
1177	CALL histwrite_phy(o_fbase, ema_cbmf)
1178	IF (iflag_con /= 30) THEN
1179	CALL histwrite_phy(o_plcl, plcl)
1180	CALL histwrite_phy(o_plfc, plfc)
1181	CALL histwrite_phy(o_wbeff, wbeff)
1182	CALL histwrite_phy(o_convoccur, convoccur)
1183	ENDIF
1184
1185	CALL histwrite_phy(o_cape_max, cape)
1186
1187	CALL histwrite_phy(o_upwd, upwd)
1188	CALL histwrite_phy(o_Ma, Ma)
1189	CALL histwrite_phy(o_dnwd, dnwd)
1190	CALL histwrite_phy(o_dnwd0, dnwd0)
1191	!! The part relative to the frequency of occurence of convection
1192	!! is now grouped with the part relative to thermals and shallow
1193	!! convection (output of the 3 fields: ftime_deepcv, ftime_th and
1194	!! ftime_con).
1195	IF (vars_defined) THEN
1196	IF (iflag_thermals>=1)THEN
1197	zx_tmp_fi3d=-dnwd+dnwd0+upwd+fm_therm(:,1:klev)
1198	ELSE
1199	zx_tmp_fi3d=-dnwd+dnwd0+upwd
1200	ENDIF
1201	ENDIF
1202	CALL histwrite_phy(o_mc, zx_tmp_fi3d)
1203	ENDIF !iflag_con .GE. 3
1204	CALL histwrite_phy(o_prw, prw)
1205	CALL histwrite_phy(o_prlw, prlw)
1206	CALL histwrite_phy(o_prsw, prsw)
1207	CALL histwrite_phy(o_s_pblh, s_pblh)
1208	CALL histwrite_phy(o_s_pblt, s_pblt)
1209	CALL histwrite_phy(o_s_lcl, s_lcl)
1210	CALL histwrite_phy(o_s_therm, s_therm)
1211	!IM : Les champs suivants (s_capCL, s_oliqCL, s_cteiCL, s_trmb1, s_trmb2, s_trmb3) ne sont pas definis dans HBTM.F
1212	! IF (o_s_capCL%flag(iff)<=lev_files(iff)) THEN
1213	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
1214	! $o_s_capCL%name,itau_w,s_capCL)
1215	! ENDIF
1216	! IF (o_s_oliqCL%flag(iff)<=lev_files(iff)) THEN
1217	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
1218	! $o_s_oliqCL%name,itau_w,s_oliqCL)
1219	! ENDIF
1220	! IF (o_s_cteiCL%flag(iff)<=lev_files(iff)) THEN
1221	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
1222	! $o_s_cteiCL%name,itau_w,s_cteiCL)
1223	! ENDIF
1224	! IF (o_s_trmb1%flag(iff)<=lev_files(iff)) THEN
1225	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
1226	! $o_s_trmb1%name,itau_w,s_trmb1)
1227	! ENDIF
1228	! IF (o_s_trmb2%flag(iff)<=lev_files(iff)) THEN
1229	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
1230	! $o_s_trmb2%name,itau_w,s_trmb2)
1231	! ENDIF
1232	! IF (o_s_trmb3%flag(iff)<=lev_files(iff)) THEN
1233	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
1234	! $o_s_trmb3%name,itau_w,s_trmb3)
1235	! ENDIF
1236
1237	#ifdef CPP_IOIPSL
1238	#ifndef CPP_XIOS
1239	IF (.NOT.ok_all_xml) THEN
1240	! ATTENTION, LES ANCIENS HISTWRITE ONT ETES CONSERVES EN ATTENDANT MIEUX:
1241	! Champs interpolles sur des niveaux de pression
1242	DO iff=1, nfiles
1243	ll=0
1244	DO k=1, nlevSTD
1245	bb2=clevSTD(k)
1246	IF (bb2.EQ."850".OR.bb2.EQ."700".OR. &
1247	bb2.EQ."500".OR.bb2.EQ."200".OR. &
1248	bb2.EQ."100".OR. &
1249	bb2.EQ."50".OR.bb2.EQ."10") THEN
1250
1251	! a refaire correctement !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1252	ll=ll+1
1253	CALL histwrite_phy(o_uSTDlevs(ll),uwriteSTD(:,k,iff), iff)
1254	CALL histwrite_phy(o_vSTDlevs(ll),vwriteSTD(:,k,iff), iff)
1255	CALL histwrite_phy(o_wSTDlevs(ll),wwriteSTD(:,k,iff), iff)
1256	CALL histwrite_phy(o_zSTDlevs(ll),phiwriteSTD(:,k,iff), iff)
1257	CALL histwrite_phy(o_qSTDlevs(ll),qwriteSTD(:,k,iff), iff)
1258	CALL histwrite_phy(o_tSTDlevs(ll),twriteSTD(:,k,iff), iff)
1259
1260	ENDIF !(bb2.EQ."850".OR.bb2.EQ."700".OR.
1261	ENDDO
1262	ENDDO
1263	ENDIF
1264	#endif
1265	#endif
1266	#ifdef CPP_XIOS
1267	IF (ok_all_xml) THEN
1268	!XIOS CALL xios_get_field_attr("u850",default_value=missing_val)
1269	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1270	ll=0
1271	DO k=1, nlevSTD
1272	bb2=clevSTD(k)
1273	IF (bb2.EQ."850".OR.bb2.EQ."700".OR. &
1274	bb2.EQ."500".OR.bb2.EQ."200".OR. &
1275	bb2.EQ."100".OR. &
1276	bb2.EQ."50".OR.bb2.EQ."10") THEN
1277	ll=ll+1
1278	CALL histwrite_phy(o_uSTDlevs(ll),ulevSTD(:,k))
1279	CALL histwrite_phy(o_vSTDlevs(ll),vlevSTD(:,k))
1280	CALL histwrite_phy(o_wSTDlevs(ll),wlevSTD(:,k))
1281	CALL histwrite_phy(o_zSTDlevs(ll),philevSTD(:,k))
1282	CALL histwrite_phy(o_qSTDlevs(ll),qlevSTD(:,k))
1283	CALL histwrite_phy(o_tSTDlevs(ll),tlevSTD(:,k))
1284	ENDIF !(bb2.EQ."850".OR.bb2.EQ."700".OR.
1285	ENDDO
1286	ENDIF
1287	#endif
1288	IF (vars_defined) THEN
1289	DO i=1, klon
1290	IF (pctsrf(i,is_oce).GT.epsfra.OR. &
1291	pctsrf(i,is_sic).GT.epsfra) THEN
1292	zx_tmp_fi2d(i) = (ftsol(i, is_oce) * pctsrf(i,is_oce)+ &
1293	ftsol(i, is_sic) * pctsrf(i,is_sic))/ &
1294	(pctsrf(i,is_oce)+pctsrf(i,is_sic))
1295	ELSE
1296	zx_tmp_fi2d(i) = 273.15
1297	ENDIF
1298	ENDDO
1299	ENDIF
1300	CALL histwrite_phy(o_t_oce_sic, zx_tmp_fi2d)
1301
1302	! Couplage convection-couche limite
1303	IF (iflag_con.GE.3) THEN
1304	IF (iflag_coupl>=1) THEN
1305	CALL histwrite_phy(o_ale_bl, ale_bl)
1306	CALL histwrite_phy(o_alp_bl, alp_bl)
1307	ENDIF !iflag_coupl>=1
1308	ENDIF !(iflag_con.GE.3)
1309	! Wakes
1310	IF (iflag_con.EQ.3) THEN
1311	CALL histwrite_phy(o_Mipsh, Mipsh)
1312	IF (iflag_wake>=1) THEN
1313	CALL histwrite_phy(o_ale_wk, ale_wake)
1314	CALL histwrite_phy(o_alp_wk, alp_wake)
1315	IF (iflag_pbl_split>=1) THEN
1316	!! IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=dtvdf_x(1:klon,1:klev)/pdtphys
1317	!! CALL histwrite_phy(o_dtvdf_x ,zx_tmp_fi3d)
1318	!! IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=dtvdf_w(1:klon,1:klev)/pdtphys
1319	!! CALL histwrite_phy(o_dtvdf_w ,zx_tmp_fi3d)
1320	!! IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=dqvdf_x(1:klon,1:klev)/pdtphys
1321	!! CALL histwrite_phy(o_dqvdf_x ,zx_tmp_fi3d)
1322	!! IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=dqvdf_w(1:klon,1:klev)/pdtphys
1323	!
1324	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_vdf_x(1:klon,1:klev)/pdtphys
1325	CALL histwrite_phy(o_dtvdf_x ,zx_tmp_fi3d)
1326	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_vdf_w(1:klon,1:klev)/pdtphys
1327	CALL histwrite_phy(o_dtvdf_w ,zx_tmp_fi3d)
1328	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_vdf_x(1:klon,1:klev)/pdtphys
1329	CALL histwrite_phy(o_dqvdf_x ,zx_tmp_fi3d)
1330	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_vdf_w(1:klon,1:klev)/pdtphys
1331	!
1332	CALL histwrite_phy(o_dqvdf_w ,zx_tmp_fi3d)
1333	CALL histwrite_phy(o_sens_x ,sens_x )
1334	CALL histwrite_phy(o_sens_w ,sens_w )
1335	CALL histwrite_phy(o_flat_x ,zxfluxlat_x)
1336	CALL histwrite_phy(o_flat_w ,zxfluxlat_w)
1337	CALL histwrite_phy(o_delta_tsurf,delta_tsurf)
1338	CALL histwrite_phy(o_cdragh_x ,cdragh_x )
1339	CALL histwrite_phy(o_cdragh_w ,cdragh_w )
1340	CALL histwrite_phy(o_cdragm_x ,cdragm_x )
1341	CALL histwrite_phy(o_cdragm_w ,cdragm_w )
1342	CALL histwrite_phy(o_kh ,kh )
1343	CALL histwrite_phy(o_kh_x ,kh_x )
1344	CALL histwrite_phy(o_kh_w ,kh_w )
1345	ENDIF ! (iflag_pbl_split>=1)
1346	CALL histwrite_phy(o_ale, ale)
1347	CALL histwrite_phy(o_alp, alp)
1348	CALL histwrite_phy(o_cin, cin)
1349	CALL histwrite_phy(o_WAPE, wake_pe)
1350	CALL histwrite_phy(o_cv_gen, cv_gen)
1351	CALL histwrite_phy(o_wake_h, wake_h)
1352	CALL histwrite_phy(o_wake_dens, wake_dens)
1353	CALL histwrite_phy(o_wake_s, wake_s)
1354	CALL histwrite_phy(o_wake_deltat, wake_deltat)
1355	CALL histwrite_phy(o_wake_deltaq, wake_deltaq)
1356	CALL histwrite_phy(o_wake_omg, wake_omg)
1357	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_wake(1:klon,1:klev) &
1358	/pdtphys
1359	CALL histwrite_phy(o_dtwak, zx_tmp_fi3d)
1360	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_wake(1:klon,1:klev)/pdtphys
1361	CALL histwrite_phy(o_dqwak, zx_tmp_fi3d)
1362	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1363	CALL histwrite_phy(o_dqwak2d, zx_tmp_fi2d)
1364	ENDIF ! iflag_wake>=1
1365	CALL histwrite_phy(o_ftd, ftd)
1366	CALL histwrite_phy(o_fqd, fqd)
1367	ENDIF !(iflag_con.EQ.3)
1368	IF (iflag_con.EQ.3.OR.iflag_con.EQ.30) THEN
1369	! sortie RomP convection descente insaturee iflag_con=30
1370	! etendue a iflag_con=3 (jyg)
1371	CALL histwrite_phy(o_Vprecip, Vprecip)
1372	CALL histwrite_phy(o_qtaa, qtaa)
1373	CALL histwrite_phy(o_clwaa, clw)
1374	CALL histwrite_phy(o_wdtrainA, wdtrainA)
1375	CALL histwrite_phy(o_wdtrainS, wdtrainS)
1376	CALL histwrite_phy(o_wdtrainM, wdtrainM)
1377	ENDIF !(iflag_con.EQ.3.or.iflag_con.EQ.30)
1378	!!! nrlmd le 10/04/2012
1379	IF (iflag_trig_bl>=1) THEN
1380	CALL histwrite_phy(o_n2, n2)
1381	CALL histwrite_phy(o_s2, s2)
1382	CALL histwrite_phy(o_proba_notrig, proba_notrig)
1383	CALL histwrite_phy(o_random_notrig, random_notrig)
1384	CALL histwrite_phy(o_ale_bl_stat, ale_bl_stat)
1385	CALL histwrite_phy(o_ale_bl_trig, ale_bl_trig)
1386	ENDIF !(iflag_trig_bl>=1)
1387	IF (iflag_clos_bl>=1) THEN
1388	CALL histwrite_phy(o_alp_bl_det, alp_bl_det)
1389	CALL histwrite_phy(o_alp_bl_fluct_m, alp_bl_fluct_m)
1390	CALL histwrite_phy(o_alp_bl_fluct_tke, &
1391	alp_bl_fluct_tke)
1392	CALL histwrite_phy(o_alp_bl_conv, alp_bl_conv)
1393	CALL histwrite_phy(o_alp_bl_stat, alp_bl_stat)
1394	ENDIF !(iflag_clos_bl>=1)
1395	!!! fin nrlmd le 10/04/2012
1396	! Output of slab ocean variables
1397	IF (type_ocean=='slab ') THEN
1398	CALL histwrite_phy(o_slab_bils, slab_wfbils)
1399	IF (nslay.EQ.1) THEN
1400	zx_tmp_fi2d(:)=tslab(:,1)
1401	CALL histwrite_phy(o_tslab, zx_tmp_fi2d)
1402	zx_tmp_fi2d(:)=dt_qflux(:,1)
1403	CALL histwrite_phy(o_slab_qflux, zx_tmp_fi2d)
1404	ELSE
1405	CALL histwrite_phy(o_tslab, tslab(:,1:nslay))
1406	CALL histwrite_phy(o_slab_qflux, dt_qflux(:,1:nslay))
1407	ENDIF
1408	IF (version_ocean=='sicINT') THEN
1409	CALL histwrite_phy(o_slab_bilg, slab_bilg)
1410	CALL histwrite_phy(o_slab_tice, tice)
1411	CALL histwrite_phy(o_slab_sic, seaice)
1412	ENDIF
1413	IF (slab_gm) THEN
1414	CALL histwrite_phy(o_slab_gm, dt_gm(:,1:nslay))
1415	ENDIF
1416	IF (slab_hdiff) THEN
1417	IF (nslay.EQ.1) THEN
1418	zx_tmp_fi2d(:)=dt_hdiff(:,1)
1419	CALL histwrite_phy(o_slab_hdiff, zx_tmp_fi2d)
1420	ELSE
1421	CALL histwrite_phy(o_slab_hdiff, dt_hdiff(:,1:nslay))
1422	ENDIF
1423	ENDIF
1424	IF (slab_ekman.GT.0) THEN
1425	IF (nslay.EQ.1) THEN
1426	zx_tmp_fi2d(:)=dt_ekman(:,1)
1427	CALL histwrite_phy(o_slab_ekman, zx_tmp_fi2d)
1428	ELSE
1429	CALL histwrite_phy(o_slab_ekman, dt_ekman(:,1:nslay))
1430	ENDIF
1431	ENDIF
1432	ENDIF !type_ocean == force/slab
1433	CALL histwrite_phy(o_weakinv, weak_inversion)
1434	CALL histwrite_phy(o_dthmin, dthmin)
1435	CALL histwrite_phy(o_cldtau, cldtau)
1436	CALL histwrite_phy(o_cldemi, cldemi)
1437	CALL histwrite_phy(o_pr_con_l, pmflxr(:,1:klev))
1438	CALL histwrite_phy(o_pr_con_i, pmflxs(:,1:klev))
1439	CALL histwrite_phy(o_pr_lsc_l, prfl(:,1:klev))
1440	CALL histwrite_phy(o_pr_lsc_i, psfl(:,1:klev))
1441	CALL histwrite_phy(o_re, re)
1442	CALL histwrite_phy(o_fl, fl)
1443	IF (vars_defined) THEN
1444	DO i=1, klon
1445	zx_tmp_fi2d(i)=MIN(100.,rh2m(i)*100.)
1446	ENDDO
1447	ENDIF
1448	CALL histwrite_phy(o_rh2m, zx_tmp_fi2d)
1449
1450	! IF (vars_defined) THEN
1451	! DO i=1, klon
1452	! zx_tmp_fi2d(i)=MIN(100.,rh2m(i)*100.)
1453	! ENDDO
1454	! ENDIF
1455	! CALL histwrite_phy(o_rh2m_min, zx_tmp_fi2d)
1456
1457	! IF (vars_defined) THEN
1458	! DO i=1, klon
1459	! zx_tmp_fi2d(i)=MIN(100.,rh2m(i)*100.)
1460	! ENDDO
1461	! ENDIF
1462	! CALL histwrite_phy(o_rh2m_max, zx_tmp_fi2d)
1463
1464	CALL histwrite_phy(o_qsat2m, qsat2m)
1465	CALL histwrite_phy(o_tpot, tpot)
1466	CALL histwrite_phy(o_tpote, tpote)
1467	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fsolsw( 1 : klon, is_ter)
1468	CALL histwrite_phy(o_SWnetOR, zx_tmp_fi2d)
1469	CALL histwrite_phy(o_LWdownOR, sollwdown)
1470	CALL histwrite_phy(o_snowl, snow_lsc)
1471	CALL histwrite_phy(o_solldown, sollwdown)
1472	CALL histwrite_phy(o_dtsvdfo, d_ts(:,is_oce))
1473	CALL histwrite_phy(o_dtsvdft, d_ts(:,is_ter))
1474	CALL histwrite_phy(o_dtsvdfg, d_ts(:,is_lic))
1475	CALL histwrite_phy(o_dtsvdfi, d_ts(:,is_sic))
1476	CALL histwrite_phy(o_z0m, z0m(:,nbsrf+1))
1477	CALL histwrite_phy(o_z0h, z0h(:,nbsrf+1))
1478
1479	! od550 per species
1480	!--OLIVIER
1481	!This is warranted by treating INCA aerosols as offline aerosols
1482	IF (flag_aerosol.GT.0) THEN
1483	CALL histwrite_phy(o_od443aer, od443aer)
1484	CALL histwrite_phy(o_od550aer, od550aer)
1485	CALL histwrite_phy(o_od865aer, od865aer)
1486	CALL histwrite_phy(o_abs550aer, abs550aer)
1487	CALL histwrite_phy(o_od550lt1aer, od550lt1aer)
1488	CALL histwrite_phy(o_sconcso4, sconcso4)
1489	CALL histwrite_phy(o_sconcno3, sconcno3)
1490	CALL histwrite_phy(o_sconcoa, sconcoa)
1491	CALL histwrite_phy(o_sconcbc, sconcbc)
1492	CALL histwrite_phy(o_sconcss, sconcss)
1493	CALL histwrite_phy(o_sconcdust, sconcdust)
1494	CALL histwrite_phy(o_concso4, concso4)
1495	CALL histwrite_phy(o_concno3, concno3)
1496	CALL histwrite_phy(o_concoa, concoa)
1497	CALL histwrite_phy(o_concbc, concbc)
1498	CALL histwrite_phy(o_concss, concss)
1499	CALL histwrite_phy(o_concdust, concdust)
1500	CALL histwrite_phy(o_loadso4, loadso4)
1501	CALL histwrite_phy(o_loadoa, loadoa)
1502	CALL histwrite_phy(o_loadbc, loadbc)
1503	CALL histwrite_phy(o_loadss, loadss)
1504	CALL histwrite_phy(o_loaddust, loaddust)
1505	CALL histwrite_phy(o_loadno3, loadno3)
1506	CALL histwrite_phy(o_dryod550aer, dryod550aer)
1507	DO naero = 1, naero_tot-1
1508	CALL histwrite_phy(o_drytausumaero(naero),drytausum_aero(:,naero))
1509	END DO
1510	ENDIF
1511	!--STRAT AER
1512	IF (flag_aerosol.GT.0.OR.flag_aerosol_strat.GT.0) THEN
1513	DO naero = 1, naero_tot
1514	CALL histwrite_phy(o_tausumaero(naero),tausum_aero(:,2,naero))
1515	END DO
1516	ENDIF
1517	IF (flag_aerosol_strat.GT.0) THEN
1518	CALL histwrite_phy(o_tausumaero_lw,tausum_aero(:,6,id_STRAT_phy))
1519	ENDIF
1520
1521	CALL histwrite_phy(o_p_tropopause, p_tropopause)
1522	CALL histwrite_phy(o_t_tropopause, t_tropopause)
1523	CALL histwrite_phy(o_z_tropopause, z_tropopause)
1524
1525	! ThL -- In the following, we assume read_climoz == 1
1526	IF (vars_defined) THEN
1527	zx_tmp_fi2d = 0.0 ! Computation for strato, added ThL
1528	DO k=1, klev
1529	zx_tmp_fi2d(:) = zx_tmp_fi2d(:) + wo(:,k,1) * stratomask(:,k) * 1.e3
1530	END DO
1531	ENDIF
1532	CALL histwrite_phy(o_col_O3_strato, zx_tmp_fi2d) ! Added ThL
1533
1534	IF (vars_defined) THEN
1535	zx_tmp_fi2d = 0.0 ! Computation for tropo, added ThL
1536	DO k=1, klev
1537	zx_tmp_fi2d(:) = zx_tmp_fi2d(:) + wo(:,k,1) * (1.0-stratomask(:,k)) * 1.e3
1538	END DO
1539	ENDIF
1540	CALL histwrite_phy(o_col_O3_tropo, zx_tmp_fi2d) ! Added ThL
1541	! end add ThL
1542
1543	#ifdef CPP_StratAer
1544	IF (type_trac=='coag') THEN
1545	CALL histwrite_phy(o_R2SO4, R2SO4)
1546	CALL histwrite_phy(o_OCS_lifetime, OCS_lifetime)
1547	CALL histwrite_phy(o_SO2_lifetime, SO2_lifetime)
1548	CALL histwrite_phy(o_budg_3D_backgr_ocs, budg_3D_backgr_ocs)
1549	CALL histwrite_phy(o_budg_3D_backgr_so2, budg_3D_backgr_so2)
1550	CALL histwrite_phy(o_budg_3D_ocs_to_so2, budg_3D_ocs_to_so2)
1551	CALL histwrite_phy(o_budg_3D_so2_to_h2so4, budg_3D_so2_to_h2so4)
1552	CALL histwrite_phy(o_budg_3D_nucl, budg_3D_nucl)
1553	CALL histwrite_phy(o_budg_3D_cond_evap, budg_3D_cond_evap)
1554	CALL histwrite_phy(o_budg_dep_dry_ocs, budg_dep_dry_ocs)
1555	CALL histwrite_phy(o_budg_dep_wet_ocs, budg_dep_wet_ocs)
1556	CALL histwrite_phy(o_budg_dep_dry_so2, budg_dep_dry_so2)
1557	CALL histwrite_phy(o_budg_dep_wet_so2, budg_dep_wet_so2)
1558	CALL histwrite_phy(o_budg_dep_dry_h2so4, budg_dep_dry_h2so4)
1559	CALL histwrite_phy(o_budg_dep_wet_h2so4, budg_dep_wet_h2so4)
1560	CALL histwrite_phy(o_budg_dep_dry_part, budg_dep_dry_part)
1561	CALL histwrite_phy(o_budg_dep_wet_part, budg_dep_wet_part)
1562	CALL histwrite_phy(o_budg_emi_ocs, budg_emi_ocs)
1563	CALL histwrite_phy(o_budg_emi_so2, budg_emi_so2)
1564	CALL histwrite_phy(o_budg_emi_h2so4, budg_emi_h2so4)
1565	CALL histwrite_phy(o_budg_emi_part, budg_emi_part)
1566	CALL histwrite_phy(o_budg_ocs_to_so2, budg_ocs_to_so2)
1567	CALL histwrite_phy(o_budg_so2_to_h2so4, budg_so2_to_h2so4)
1568	CALL histwrite_phy(o_budg_h2so4_to_part, budg_h2so4_to_part)
1569	CALL histwrite_phy(o_budg_sed_part, budg_sed_part)
1570	CALL histwrite_phy(o_surf_PM25_sulf, surf_PM25_sulf)
1571	CALL histwrite_phy(o_vsed_aer, vsed_aer)
1572	CALL histwrite_phy(o_f_r_wet, f_r_wet)
1573	CALL histwrite_phy(o_ext_strat_550, tau_strat_550)
1574	CALL histwrite_phy(o_ext_strat_1020, tau_strat_1020)
1575	CALL histwrite_phy(o_tau_strat_550, tausum_strat(:,1))
1576	CALL histwrite_phy(o_tau_strat_1020, tausum_strat(:,2))
1577	ENDIF
1578	#endif
1579	!NL
1580	IF (ok_volcan .AND. ok_ade) THEN
1581	DO k=1, klev
1582	IF (vars_defined) zx_tmp_fi3d(:,k)=heat_volc(:,k)*swradcorr(:)
1583	ENDDO
1584	CALL histwrite_phy(o_heat_volc, zx_tmp_fi3d)
1585	DO k=1, klev
1586	IF (vars_defined) zx_tmp_fi3d(:,k)=cool_volc(:,k)
1587	ENDDO
1588	CALL histwrite_phy(o_cool_volc, zx_tmp_fi3d)
1589	ENDIF
1590	IF (ok_ade) THEN
1591	IF (vars_defined) zx_tmp_fi2d(:)=topswad_aero*swradcorr
1592	CALL histwrite_phy(o_topswad, zx_tmp_fi2d)
1593
1594	IF (vars_defined) zx_tmp_fi2d(:)=topswad0_aero*swradcorr
1595	CALL histwrite_phy(o_topswad0, zx_tmp_fi2d)
1596
1597	IF (vars_defined) zx_tmp_fi2d(:)=solswad_aero*swradcorr
1598	CALL histwrite_phy(o_solswad, zx_tmp_fi2d)
1599
1600	IF (vars_defined) zx_tmp_fi2d(:)=solswad0_aero*swradcorr
1601	CALL histwrite_phy(o_solswad0, zx_tmp_fi2d)
1602
1603	CALL histwrite_phy(o_toplwad, toplwad_aero)
1604	CALL histwrite_phy(o_toplwad0, toplwad0_aero)
1605	CALL histwrite_phy(o_sollwad, sollwad_aero)
1606	CALL histwrite_phy(o_sollwad0, sollwad0_aero)
1607	!====MS forcing diagnostics
1608	!ym warning : topsw_aero, solsw_aero, topsw0_aero, solsw0_aero are not defined by model
1609	!ym => init to 0 in radlwsw_m.F90 ztopsw_aero, zsolsw_aero, ztopsw0_aero, zsolsw0_aero
1610
1611	IF (vars_defined) zx_tmp_fi2d(:)=topsw_aero(:,1)*swradcorr(:)
1612	CALL histwrite_phy(o_swtoaas_nat,zx_tmp_fi2d)
1613	IF (vars_defined) zx_tmp_fi2d(:)=solsw_aero(:,1)*swradcorr(:)
1614	CALL histwrite_phy(o_swsrfas_nat,zx_tmp_fi2d)
1615	IF (vars_defined) zx_tmp_fi2d(:)=topsw0_aero(:,1)*swradcorr(:)
1616	CALL histwrite_phy(o_swtoacs_nat,zx_tmp_fi2d)
1617	IF (vars_defined) zx_tmp_fi2d(:)=solsw0_aero(:,1)*swradcorr(:)
1618	CALL histwrite_phy(o_swsrfcs_nat,zx_tmp_fi2d)
1619	!ant
1620	IF (vars_defined) zx_tmp_fi2d(:)=topsw_aero(:,2)*swradcorr(:)
1621	CALL histwrite_phy(o_swtoaas_ant,zx_tmp_fi2d)
1622	IF (vars_defined) zx_tmp_fi2d(:)=solsw_aero(:,2)*swradcorr(:)
1623	CALL histwrite_phy(o_swsrfas_ant,zx_tmp_fi2d)
1624	IF (vars_defined) zx_tmp_fi2d(:)=topsw0_aero(:,2)*swradcorr(:)
1625	CALL histwrite_phy(o_swtoacs_ant,zx_tmp_fi2d)
1626	IF (vars_defined) zx_tmp_fi2d(:)=solsw0_aero(:,2)*swradcorr(:)
1627	CALL histwrite_phy(o_swsrfcs_ant,zx_tmp_fi2d)
1628	!cf
1629	IF (.not. aerosol_couple) THEN
1630	IF (vars_defined) zx_tmp_fi2d(:)=topswcf_aero(:,1)*swradcorr(:)
1631	CALL histwrite_phy(o_swtoacf_nat,zx_tmp_fi2d)
1632	IF (vars_defined) zx_tmp_fi2d(:)=solswcf_aero(:,1)*swradcorr(:)
1633	CALL histwrite_phy(o_swsrfcf_nat,zx_tmp_fi2d)
1634	IF (vars_defined) zx_tmp_fi2d(:)=topswcf_aero(:,2)*swradcorr(:)
1635	CALL histwrite_phy(o_swtoacf_ant,zx_tmp_fi2d)
1636	IF (vars_defined) zx_tmp_fi2d(:)=solswcf_aero(:,2)*swradcorr(:)
1637	CALL histwrite_phy(o_swsrfcf_ant,zx_tmp_fi2d)
1638	IF (vars_defined) zx_tmp_fi2d(:)=topswcf_aero(:,3)*swradcorr(:)
1639	CALL histwrite_phy(o_swtoacf_zero,zx_tmp_fi2d)
1640	IF (vars_defined) zx_tmp_fi2d(:)=solswcf_aero(:,3)*swradcorr(:)
1641	CALL histwrite_phy(o_swsrfcf_zero,zx_tmp_fi2d)
1642	ENDIF
1643	!====MS forcing diagnostics
1644	ENDIF
1645	IF (ok_aie) THEN
1646	IF (vars_defined) zx_tmp_fi2d(:)= topswai_aero*swradcorr
1647	CALL histwrite_phy(o_topswai, zx_tmp_fi2d)
1648
1649	IF (vars_defined) zx_tmp_fi2d(:)=toplwai_aero*swradcorr
1650	CALL histwrite_phy(o_toplwai, zx_tmp_fi2d)
1651
1652	IF (vars_defined) zx_tmp_fi2d(:)=solswai_aero*swradcorr
1653	CALL histwrite_phy(o_solswai, zx_tmp_fi2d)
1654
1655	IF (vars_defined) zx_tmp_fi2d(:)=sollwai_aero*swradcorr
1656	CALL histwrite_phy(o_sollwai, zx_tmp_fi2d)
1657	ENDIF
1658	IF (flag_aerosol.GT.0.AND.ok_cdnc) THEN
1659	CALL histwrite_phy(o_scdnc, scdnc)
1660	CALL histwrite_phy(o_cldncl, cldncl)
1661	CALL histwrite_phy(o_reffclws, reffclws)
1662	CALL histwrite_phy(o_reffclwc, reffclwc)
1663	CALL histwrite_phy(o_cldnvi, cldnvi)
1664	CALL histwrite_phy(o_lcc, lcc)
1665	CALL histwrite_phy(o_lcc3d, lcc3d)
1666	CALL histwrite_phy(o_lcc3dcon, lcc3dcon)
1667	CALL histwrite_phy(o_lcc3dstra, lcc3dstra)
1668	CALL histwrite_phy(o_icc3dcon, icc3dcon)
1669	CALL histwrite_phy(o_icc3dstra, icc3dstra)
1670	CALL histwrite_phy(o_cldicemxrat, zfice)
1671	IF (vars_defined) zx_tmp_fi3d(:,:)=1-zfice(:,:)
1672	CALL histwrite_phy(o_cldwatmxrat, zx_tmp_fi3d)
1673	CALL histwrite_phy(o_reffclwtop, reffclwtop)
1674	ENDIF
1675	! Champs 3D:
1676	IF (ok_ade .OR. ok_aie) then
1677	CALL histwrite_phy(o_ec550aer, ec550aer)
1678	ENDIF
1679	CALL histwrite_phy(o_lwcon, flwc)
1680	CALL histwrite_phy(o_iwcon, fiwc)
1681	CALL histwrite_phy(o_temp, t_seri)
1682	CALL histwrite_phy(o_theta, theta)
1683	CALL histwrite_phy(o_ovapinit, qx(:,:,ivap))
1684	CALL histwrite_phy(o_ovap, q_seri)
1685	CALL histwrite_phy(o_oliq, ql_seri)
1686
1687	IF (vars_defined) zx_tmp_fi3d = ql_seri+qs_seri
1688	CALL histwrite_phy(o_ocond, zx_tmp_fi3d)
1689
1690	CALL histwrite_phy(o_geop, zphi)
1691	CALL histwrite_phy(o_vitu, u_seri)
1692	CALL histwrite_phy(o_vitv, v_seri)
1693	CALL histwrite_phy(o_vitw, omega)
1694	CALL histwrite_phy(o_pres, pplay)
1695	CALL histwrite_phy(o_paprs, paprs(:,1:klev))
1696
1697	IF (vars_defined) zx_tmp_fi3d = zphi/RG
1698	CALL histwrite_phy(o_zfull,zx_tmp_fi3d)
1699
1700	#ifdef CPP_XIOS
1701	!solbnd begin
1702	#ifdef CPP_RRTM
1703	IF (iflag_rrtm.EQ.1) THEN
1704	IF (vars_defined) THEN
1705	DO ISW=1, NSW
1706	zx_tmp_fi3dsp(:,ISW) = swdn(:,klevp1)swradcorr(:)RSUN(ISW)
1707	ENDDO
1708	CALL histwrite_phy(o_solbnd, zx_tmp_fi3dsp)
1709	ENDIF
1710	ENDIF
1711	#endif
1712	!solbnd end
1713	#endif
1714
1715	IF (flag_aerosol_strat.EQ.2) THEN
1716	CALL histwrite_phy(o_stratomask, stratomask)
1717	ENDIF
1718
1719	IF (vars_defined) THEN
1720	zx_tmp_fi3d(:,1)= pphis(:)/RG
1721	DO k = 2, klev
1722	DO i = 1, klon
1723	zx_tmp_fi3d(i,k) = zphi(i,k-1)/RG + &
1724	(zphi(i,k)-zphi(i,k-1))/RG * &
1725	(paprs(i,k)-pplay(i,k-1))/(pplay(i,k)-pplay(i,k-1))
1726	ENDDO
1727	ENDDO
1728	ENDIF
1729	CALL histwrite_phy(o_zhalf, zx_tmp_fi3d)
1730	CALL histwrite_phy(o_rneb, cldfra)
1731	CALL histwrite_phy(o_rnebcon, rnebcon)
1732	CALL histwrite_phy(o_rnebls, rneb)
1733	CALL histwrite_phy(o_rneblsvol, rneblsvol)
1734	IF (vars_defined) THEN
1735	DO k=1, klev
1736	DO i=1, klon
1737	zx_tmp_fi3d(i,k)=cldfra(i,k)*JrNt(i)
1738	ENDDO
1739	ENDDO
1740	ENDIF
1741	CALL histwrite_phy(o_rnebjn, zx_tmp_fi3d)
1742	CALL histwrite_phy(o_rhum, zx_rh)
1743
1744	IF (vars_defined) zx_tmp_fi3d = wo(:, :, 1) * dobson_u * 1e3 / zmasse / rmo3 * rmd
1745	CALL histwrite_phy(o_ozone, zx_tmp_fi3d)
1746
1747	IF (read_climoz == 2) THEN
1748	IF (vars_defined) zx_tmp_fi3d = wo(:, :, 2) * dobson_u * 1e3 / zmasse / rmo3 * rmd
1749	CALL histwrite_phy(o_ozone_light, zx_tmp_fi3d)
1750	ENDIF
1751
1752	CALL histwrite_phy(o_duphy, d_u)
1753
1754	CALL histwrite_phy(o_dtphy, d_t)
1755
1756	CALL histwrite_phy(o_dqphy, d_qx(:,:,ivap))
1757	IF (vars_defined) CALL water_int(klon,klev,d_qx(:,:,ivap),zmasse,zx_tmp_fi2d)
1758	CALL histwrite_phy(o_dqphy2d, zx_tmp_fi2d)
1759
1760	CALL histwrite_phy(o_dqlphy, d_qx(:,:,iliq))
1761	IF (vars_defined) CALL water_int(klon,klev,d_qx(:,:,iliq),zmasse,zx_tmp_fi2d)
1762	CALL histwrite_phy(o_dqlphy2d, zx_tmp_fi2d)
1763
1764	IF (nqo.EQ.3) THEN
1765	CALL histwrite_phy(o_dqsphy, d_qx(:,:,isol))
1766	IF (vars_defined) CALL water_int(klon,klev,d_qx(:,:,isol),zmasse,zx_tmp_fi2d)
1767	CALL histwrite_phy(o_dqsphy2d, zx_tmp_fi2d)
1768	ELSE
1769	zx_tmp_fi3d=0.0
1770	CALL histwrite_phy(o_dqsphy, zx_tmp_fi3d)
1771	zx_tmp_fi2d=0.0
1772	CALL histwrite_phy(o_dqsphy2d, zx_tmp_fi2d)
1773	ENDIF
1774
1775	DO nsrf=1, nbsrf
1776	IF (vars_defined) zx_tmp_fi2d(1 : klon) = falb1( 1 : klon, nsrf)
1777	CALL histwrite_phy(o_albe_srf(nsrf), zx_tmp_fi2d)
1778	IF (vars_defined) zx_tmp_fi2d(1 : klon) = z0m( 1 : klon, nsrf)
1779	CALL histwrite_phy(o_z0m_srf(nsrf), zx_tmp_fi2d)
1780	IF (vars_defined) zx_tmp_fi2d(1 : klon) = z0h( 1 : klon, nsrf)
1781	CALL histwrite_phy(o_z0h_srf(nsrf), zx_tmp_fi2d)
1782	IF (vars_defined) zx_tmp_fi2d(1 : klon) = agesno( 1 : klon, nsrf)
1783	CALL histwrite_phy(o_ages_srf(nsrf), zx_tmp_fi2d)
1784	IF (vars_defined) zx_tmp_fi2d(1 : klon) = snow( 1 : klon, nsrf)
1785	CALL histwrite_phy(o_snow_srf(nsrf), zx_tmp_fi2d)
1786	ENDDO !nsrf=1, nbsrf
1787	CALL histwrite_phy(o_alb1, albsol1)
1788	CALL histwrite_phy(o_alb2, albsol2)
1789	!FH Sorties pour la couche limite
1790	IF (iflag_pbl>1) THEN
1791	zx_tmp_fi3d=0.
1792	IF (vars_defined) THEN
1793	DO nsrf=1,nbsrf
1794	DO k=1,klev
1795	zx_tmp_fi3d(:,k)=zx_tmp_fi3d(:,k) &
1796	+pctsrf(:,nsrf)*pbl_tke(:,k,nsrf)
1797	ENDDO
1798	ENDDO
1799	ENDIF
1800	CALL histwrite_phy(o_tke, zx_tmp_fi3d)
1801
1802	CALL histwrite_phy(o_tke_max, zx_tmp_fi3d)
1803	ENDIF
1804
1805	CALL histwrite_phy(o_kz, coefh(:,:,is_ave))
1806
1807	CALL histwrite_phy(o_kz_max, coefh(:,:,is_ave))
1808
1809	CALL histwrite_phy(o_clwcon, clwcon0)
1810	CALL histwrite_phy(o_dtdyn, d_t_dyn)
1811
1812	CALL histwrite_phy(o_dqdyn, d_q_dyn)
1813
1814	CALL histwrite_phy(o_dqdyn2d,d_q_dyn2d)
1815
1816	CALL histwrite_phy(o_dqldyn, d_ql_dyn)
1817
1818	CALL histwrite_phy(o_dqldyn2d, d_ql_dyn2d)
1819
1820	CALL histwrite_phy(o_dqsdyn, d_qs_dyn)
1821
1822	CALL histwrite_phy(o_dqsdyn2d, d_qs_dyn2d)
1823
1824	CALL histwrite_phy(o_dudyn, d_u_dyn)
1825	CALL histwrite_phy(o_dvdyn, d_v_dyn)
1826
1827	IF (vars_defined) THEN
1828	zx_tmp_fi3d(1:klon,1:klev)=d_t_con(1:klon,1:klev)/pdtphys
1829	ENDIF
1830	CALL histwrite_phy(o_dtcon, zx_tmp_fi3d)
1831	IF (iflag_thermals.EQ.0) THEN
1832	IF (vars_defined) THEN
1833	zx_tmp_fi3d(1:klon,1:klev)=d_t_con(1:klon,1:klev)/pdtphys + &
1834	d_t_ajsb(1:klon,1:klev)/pdtphys
1835	ENDIF
1836	CALL histwrite_phy(o_tntc, zx_tmp_fi3d)
1837	ELSE IF(iflag_thermals.GE.1.AND.iflag_wake.EQ.1) THEN
1838	IF (vars_defined) THEN
1839	zx_tmp_fi3d(1:klon,1:klev)=d_t_con(1:klon,1:klev)/pdtphys + &
1840	d_t_ajs(1:klon,1:klev)/pdtphys + &
1841	d_t_wake(1:klon,1:klev)/pdtphys
1842	ENDIF
1843	CALL histwrite_phy(o_tntc, zx_tmp_fi3d)
1844	ENDIF
1845	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_con(1:klon,1:klev)/pdtphys
1846	CALL histwrite_phy(o_ducon, zx_tmp_fi3d)
1847	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_con(1:klon,1:klev)/pdtphys
1848	CALL histwrite_phy(o_dvcon, zx_tmp_fi3d)
1849	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_con(1:klon,1:klev)/pdtphys
1850	CALL histwrite_phy(o_dqcon, zx_tmp_fi3d)
1851	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1852	CALL histwrite_phy(o_dqcon2d, zx_tmp_fi2d)
1853
1854	IF (iflag_thermals.EQ.0) THEN
1855	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_con(1:klon,1:klev)/pdtphys
1856	CALL histwrite_phy(o_tnhusc, zx_tmp_fi3d)
1857	ELSE IF (iflag_thermals.GE.1.AND.iflag_wake.EQ.1) THEN
1858	IF (vars_defined) THEN
1859	zx_tmp_fi3d(1:klon,1:klev)=d_q_con(1:klon,1:klev)/pdtphys + &
1860	d_q_ajs(1:klon,1:klev)/pdtphys + &
1861	d_q_wake(1:klon,1:klev)/pdtphys
1862	ENDIF
1863	CALL histwrite_phy(o_tnhusc, zx_tmp_fi3d)
1864	ENDIF
1865
1866	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lsc(1:klon,1:klev)/pdtphys
1867	CALL histwrite_phy(o_dtlsc, zx_tmp_fi3d)
1868	IF (vars_defined) zx_tmp_fi3d(1:klon, 1:klev)=(d_t_lsc(1:klon,1:klev)+ &
1869	d_t_eva(1:klon,1:klev))/pdtphys
1870	CALL histwrite_phy(o_dtlschr, zx_tmp_fi3d)
1871	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_lsc(1:klon,1:klev)/pdtphys
1872	CALL histwrite_phy(o_dqlsc, zx_tmp_fi3d)
1873	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1874	CALL histwrite_phy(o_dqlsc2d, zx_tmp_fi2d)
1875	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=beta_prec(1:klon,1:klev)
1876	CALL histwrite_phy(o_beta_prec, zx_tmp_fi3d)
1877	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1878	! Sorties specifiques a la separation thermiques/non thermiques
1879	IF (iflag_thermals>=1) THEN
1880	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lscth(1:klon,1:klev)/pdtphys
1881	CALL histwrite_phy(o_dtlscth, zx_tmp_fi3d)
1882	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lscst(1:klon,1:klev)/pdtphys
1883	CALL histwrite_phy(o_dtlscst, zx_tmp_fi3d)
1884	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_lscth(1:klon,1:klev)/pdtphys
1885	CALL histwrite_phy(o_dqlscth, zx_tmp_fi3d)
1886	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1887	CALL histwrite_phy(o_dqlscth2d, zx_tmp_fi2d)
1888	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_lscst(1:klon,1:klev)/pdtphys
1889	CALL histwrite_phy(o_dqlscst, zx_tmp_fi3d)
1890	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1891	CALL histwrite_phy(o_dqlscst2d, zx_tmp_fi2d)
1892	CALL histwrite_phy(o_plulth, plul_th)
1893	CALL histwrite_phy(o_plulst, plul_st)
1894	IF (vars_defined) THEN
1895	DO i=1,klon
1896	zx_tmp_fi2d(1:klon)=lmax_th(:)
1897	ENDDO
1898	ENDIF
1899	CALL histwrite_phy(o_lmaxth, zx_tmp_fi2d)
1900	IF (vars_defined) THEN
1901	DO k=1,klev
1902	DO i=1,klon
1903	IF (ptconvth(i,k)) THEN
1904	zx_tmp_fi3d(i,k)=1.
1905	ELSE
1906	zx_tmp_fi3d(i,k)=0.
1907	ENDIF
1908	ENDDO
1909	ENDDO
1910	ENDIF
1911	CALL histwrite_phy(o_ptconvth, zx_tmp_fi3d)
1912	ENDIF ! iflag_thermals>=1
1913	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1914	zpt_conv = 0.
1915	WHERE (ptconv) zpt_conv = 1.
1916	CALL histwrite_phy(o_ptconv, zpt_conv)
1917	!! IF (vars_defined) zx_tmp_fi2d=float(itau_con)/float(itap)
1918	!! CALL histwrite_phy(o_ftime_con, zx_tmp_fi2d)
1919	IF (vars_defined) THEN
1920	zpt_conv2d(:) = 0.
1921	DO k=1,klev
1922	WHERE (ptconv(:,k)) zpt_conv2d(:) = 1.
1923	ENDDO
1924	ENDIF
1925	CALL histwrite_phy(o_ftime_deepcv, zpt_conv2d)
1926	IF (vars_defined) THEN
1927	zx_tmp_fi2d(:) = 0.
1928	DO k=1,klev
1929	WHERE (ptconvth(:,k)) zx_tmp_fi2d(:) = 1.
1930	ENDDO
1931	ENDIF
1932	CALL histwrite_phy(o_ftime_th, zx_tmp_fi2d)
1933	IF (vars_defined) THEN
1934	zx_tmp_fi2d(:) = max(zx_tmp_fi2d(:),zpt_conv2d(:))
1935	ENDIF
1936	CALL histwrite_phy(o_ftime_con, zx_tmp_fi2d)
1937	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1938	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_vdf(1:klon,1:klev)/pdtphys
1939	CALL histwrite_phy(o_dtvdf, zx_tmp_fi3d)
1940	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_diss(1:klon,1:klev)/pdtphys
1941	CALL histwrite_phy(o_dtdis, zx_tmp_fi3d)
1942	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_vdf(1:klon,1:klev)/pdtphys
1943	CALL histwrite_phy(o_dqvdf, zx_tmp_fi3d)
1944	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1945	CALL histwrite_phy(o_dqvdf2d, zx_tmp_fi2d)
1946	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_eva(1:klon,1:klev)/pdtphys
1947	CALL histwrite_phy(o_dteva, zx_tmp_fi3d)
1948	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_eva(1:klon,1:klev)/pdtphys
1949	CALL histwrite_phy(o_dqeva, zx_tmp_fi3d)
1950	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1951	CALL histwrite_phy(o_dqeva2d, zx_tmp_fi2d)
1952	CALL histwrite_phy(o_ratqs, ratqs)
1953	IF (vars_defined) THEN
1954	zx_tmp_fi3d(1:klon,1:klev)=d_t_ajs(1:klon,1:klev)/pdtphys - &
1955	d_t_ajsb(1:klon,1:klev)/pdtphys
1956	ENDIF
1957	CALL histwrite_phy(o_dtthe, zx_tmp_fi3d)
1958	IF (vars_defined) THEN
1959	zx_tmp_fi3d(1:klon,1:klev)=d_u_ajs(1:klon,1:klev)/pdtphys
1960	ENDIF
1961	CALL histwrite_phy(o_duthe, zx_tmp_fi3d)
1962	IF (vars_defined) THEN
1963	zx_tmp_fi3d(1:klon,1:klev)=d_v_ajs(1:klon,1:klev)/pdtphys
1964	ENDIF
1965	CALL histwrite_phy(o_dvthe, zx_tmp_fi3d)
1966
1967	IF (iflag_thermals>=1) THEN
1968	! Pour l instant 0 a y reflichir pour les thermiques
1969	! regroupe avec ftime_deepcv et ftime_con
1970	!!zx_tmp_fi2d=0.
1971	!!CALL histwrite_phy(o_ftime_th, zx_tmp_fi2d)
1972	CALL histwrite_phy(o_f_th, fm_therm)
1973	CALL histwrite_phy(o_e_th, entr_therm)
1974	CALL histwrite_phy(o_w_th, zw2)
1975	CALL histwrite_phy(o_q_th, zqasc)
1976	CALL histwrite_phy(o_a_th, fraca)
1977	CALL histwrite_phy(o_cloudth_sth, cloudth_sth)
1978	CALL histwrite_phy(o_cloudth_senv, cloudth_senv)
1979	CALL histwrite_phy(o_cloudth_sigmath, cloudth_sigmath)
1980	CALL histwrite_phy(o_cloudth_sigmaenv, cloudth_sigmaenv)
1981	CALL histwrite_phy(o_d_th, detr_therm)
1982	CALL histwrite_phy(o_f0_th, f0)
1983	CALL histwrite_phy(o_zmax_th, zmax_th)
1984	IF (vars_defined) THEN
1985	zx_tmp_fi3d(1:klon,1:klev)=d_q_ajs(1:klon,1:klev)/pdtphys - &
1986	d_q_ajsb(1:klon,1:klev)/pdtphys
1987	ENDIF
1988	CALL histwrite_phy(o_dqthe, zx_tmp_fi3d)
1989	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1990	CALL histwrite_phy(o_dqthe2d, zx_tmp_fi2d)
1991	ENDIF !iflag_thermals
1992	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_ajsb(1:klon,1:klev)/pdtphys
1993	CALL histwrite_phy(o_dtajs, zx_tmp_fi3d)
1994	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_ajsb(1:klon,1:klev)/pdtphys
1995	CALL histwrite_phy(o_dqajs, zx_tmp_fi3d)
1996	IF (vars_defined) CALL water_int(klon,klev,zx_tmp_fi3d,zmasse,zx_tmp_fi2d)
1997	CALL histwrite_phy(o_dqajs2d, zx_tmp_fi2d)
1998	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_swr(1:klon,1:klev)/pdtphys
1999	CALL histwrite_phy(o_dtswr, zx_tmp_fi3d)
2000	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_sw0(1:klon,1:klev)/pdtphys
2001	CALL histwrite_phy(o_dtsw0, zx_tmp_fi3d)
2002	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lwr(1:klon,1:klev)/pdtphys
2003	CALL histwrite_phy(o_dtlwr, zx_tmp_fi3d)
2004	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lw0(1:klon,1:klev)/pdtphys
2005	CALL histwrite_phy(o_dtlw0, zx_tmp_fi3d)
2006	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_ec(1:klon,1:klev)/pdtphys
2007	CALL histwrite_phy(o_dtec, zx_tmp_fi3d)
2008	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_vdf(1:klon,1:klev)/pdtphys
2009	CALL histwrite_phy(o_duvdf, zx_tmp_fi3d)
2010	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_vdf(1:klon,1:klev)/pdtphys
2011	CALL histwrite_phy(o_dvvdf, zx_tmp_fi3d)
2012	IF (ok_orodr) THEN
2013	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_oro(1:klon,1:klev)/pdtphys
2014	CALL histwrite_phy(o_duoro, zx_tmp_fi3d)
2015	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_oro(1:klon,1:klev)/pdtphys
2016	CALL histwrite_phy(o_dvoro, zx_tmp_fi3d)
2017	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_oro(1:klon,1:klev)/pdtphys
2018	CALL histwrite_phy(o_dtoro, zx_tmp_fi3d)
2019	ENDIF
2020	IF (ok_orolf) THEN
2021	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_lif(1:klon,1:klev)/pdtphys
2022	CALL histwrite_phy(o_dulif, zx_tmp_fi3d)
2023
2024	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_lif(1:klon,1:klev)/pdtphys
2025	CALL histwrite_phy(o_dvlif, zx_tmp_fi3d)
2026
2027	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lif(1:klon,1:klev)/pdtphys
2028	CALL histwrite_phy(o_dtlif, zx_tmp_fi3d)
2029	ENDIF
2030
2031	IF (ok_hines) THEN
2032	IF (vars_defined) zx_tmp_fi3d=du_gwd_hines/pdtphys
2033	CALL histwrite_phy(o_du_gwd_hines, zx_tmp_fi3d)
2034
2035	IF (vars_defined) zx_tmp_fi3d= dv_gwd_hines/pdtphys
2036	CALL histwrite_phy(o_dv_gwd_hines, zx_tmp_fi3d)
2037
2038	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_hin(1:klon,1:klev)/pdtphys
2039	CALL histwrite_phy(o_dthin, zx_tmp_fi3d)
2040	CALL histwrite_phy(o_ustr_gwd_hines, zustr_gwd_hines)
2041	CALL histwrite_phy(o_vstr_gwd_hines, zvstr_gwd_hines)
2042	ENDIF
2043
2044	IF (.not. ok_hines .and. ok_gwd_rando) THEN
2045	IF (vars_defined) zx_tmp_fi3d=du_gwd_front / pdtphys
2046	CALL histwrite_phy(o_du_gwd_front, zx_tmp_fi3d)
2047
2048	IF (vars_defined) zx_tmp_fi3d=dv_gwd_front / pdtphys
2049	CALL histwrite_phy(o_dv_gwd_front, zx_tmp_fi3d)
2050
2051	CALL histwrite_phy(o_ustr_gwd_front, zustr_gwd_front)
2052	CALL histwrite_phy(o_vstr_gwd_front, zvstr_gwd_front)
2053	ENDIF
2054
2055	IF (ok_gwd_rando) THEN
2056	IF (vars_defined) zx_tmp_fi3d=du_gwd_rando / pdtphys
2057	CALL histwrite_phy(o_du_gwd_rando, zx_tmp_fi3d)
2058
2059	IF (vars_defined) zx_tmp_fi3d=dv_gwd_rando / pdtphys
2060	CALL histwrite_phy(o_dv_gwd_rando, zx_tmp_fi3d)
2061	CALL histwrite_phy(o_ustr_gwd_rando, zustr_gwd_rando)
2062	CALL histwrite_phy(o_vstr_gwd_rando, zvstr_gwd_rando)
2063	CALL histwrite_phy(o_east_gwstress, east_gwstress )
2064	CALL histwrite_phy(o_west_gwstress, west_gwstress )
2065	ENDIF
2066
2067	IF (ok_qch4) THEN
2068	IF (vars_defined) zx_tmp_fi3d=d_q_ch4 / pdtphys
2069	CALL histwrite_phy(o_dqch4, zx_tmp_fi3d)
2070	ENDIF
2071
2072	IF (vars_defined) THEN
2073	DO k=1, klevp1
2074	zx_tmp_fi3d1(:,k)=swup(:,k)*swradcorr(:)
2075	ENDDO
2076	ENDIF
2077
2078	CALL histwrite_phy(o_rsu, zx_tmp_fi3d1)
2079
2080
2081	IF (vars_defined) THEN
2082	DO k=1, klevp1
2083	zx_tmp_fi3d1(:,k)=swdn(:,k)*swradcorr(:)
2084	ENDDO
2085	ENDIF
2086
2087	CALL histwrite_phy(o_rsd, zx_tmp_fi3d1)
2088
2089	IF (vars_defined) THEN
2090	DO k=1, klevp1
2091	zx_tmp_fi3d1(:,k)=swup0(:,k)*swradcorr(:)
2092	ENDDO
2093	ENDIF
2094
2095	CALL histwrite_phy(o_rsucs, zx_tmp_fi3d1)
2096
2097	IF (vars_defined) THEN
2098	DO k=1, klevp1
2099	zx_tmp_fi3d1(:,k)=swupc0(:,k)*swradcorr(:)
2100	ENDDO
2101	ENDIF
2102	CALL histwrite_phy(o_rsucsaf, zx_tmp_fi3d1)
2103
2104	IF (vars_defined) THEN
2105	DO k=1, klevp1
2106	zx_tmp_fi3d1(:,k)=swdn0(:,k)*swradcorr(:)
2107	ENDDO
2108	ENDIF
2109	CALL histwrite_phy(o_rsdcs, zx_tmp_fi3d1)
2110
2111
2112	IF (vars_defined) THEN
2113	DO k=1, klevp1
2114	zx_tmp_fi3d1(:,k)=swdnc0(:,k)*swradcorr(:)
2115	ENDDO
2116	ENDIF
2117	CALL histwrite_phy(o_rsdcsaf, zx_tmp_fi3d1)
2118
2119	CALL histwrite_phy(o_rlu, lwup)
2120	CALL histwrite_phy(o_rld, lwdn)
2121	CALL histwrite_phy(o_rlucs, lwup0)
2122	CALL histwrite_phy(o_rldcs, lwdn0)
2123
2124	IF (vars_defined) THEN
2125	zx_tmp_fi3d(1:klon,1:klev)=d_t(1:klon,1:klev)+ &
2126	d_t_dyn(1:klon,1:klev)
2127	ENDIF
2128	CALL histwrite_phy(o_tnt, zx_tmp_fi3d)
2129
2130	IF (vars_defined) THEN
2131	zx_tmp_fi3d(1:klon,1:klev)=d_t_swr(1:klon,1:klev)/pdtphys + &
2132	d_t_lwr(1:klon,1:klev)/pdtphys
2133	ENDIF
2134	CALL histwrite_phy(o_tntr, zx_tmp_fi3d)
2135	IF (vars_defined) THEN
2136	zx_tmp_fi3d(1:klon,1:klev)= (d_t_lsc(1:klon,1:klev)+ &
2137	d_t_eva(1:klon,1:klev)+ &
2138	d_t_vdf(1:klon,1:klev))/pdtphys
2139	ENDIF
2140	CALL histwrite_phy(o_tntscpbl, zx_tmp_fi3d)
2141	IF (vars_defined) THEN
2142	zx_tmp_fi3d(1:klon,1:klev)=d_qx(1:klon,1:klev,ivap)+ &
2143	d_q_dyn(1:klon,1:klev)
2144	ENDIF
2145	CALL histwrite_phy(o_tnhus, zx_tmp_fi3d)
2146	IF (vars_defined) THEN
2147	zx_tmp_fi3d(1:klon,1:klev)=d_q_lsc(1:klon,1:klev)/pdtphys+ &
2148	d_q_eva(1:klon,1:klev)/pdtphys
2149	ENDIF
2150	CALL histwrite_phy(o_tnhusscpbl, zx_tmp_fi3d)
2151	CALL histwrite_phy(o_evu, coefm(:,:,is_ave))
2152	IF (vars_defined) THEN
2153	zx_tmp_fi3d(1:klon,1:klev)=q_seri(1:klon,1:klev)+ &
2154	ql_seri(1:klon,1:klev)
2155	ENDIF
2156	CALL histwrite_phy(o_h2o, zx_tmp_fi3d)
2157	IF (iflag_con >= 3) THEN
2158	IF (vars_defined) THEN
2159	zx_tmp_fi3d(1:klon,1:klev)=-1 * (dnwd(1:klon,1:klev)+ &
2160	dnwd0(1:klon,1:klev))
2161	ENDIF
2162	CALL histwrite_phy(o_mcd, zx_tmp_fi3d)
2163	IF (vars_defined) THEN
2164	zx_tmp_fi3d(1:klon,1:klev)=upwd(1:klon,1:klev) + &
2165	dnwd(1:klon,1:klev)+ dnwd0(1:klon,1:klev)
2166	ENDIF
2167	CALL histwrite_phy(o_dmc, zx_tmp_fi3d)
2168	ELSE IF (iflag_con == 2) THEN
2169	CALL histwrite_phy(o_mcd, pmfd)
2170	IF (vars_defined) zx_tmp_fi3d = pmfu + pmfd
2171	CALL histwrite_phy(o_dmc, zx_tmp_fi3d)
2172	ENDIF
2173	CALL histwrite_phy(o_ref_liq, ref_liq)
2174	CALL histwrite_phy(o_ref_ice, ref_ice)
2175	!
2176	IF (ok_4xCO2atm) THEN
2177	IF (vars_defined) zx_tmp_fi2d(:) = swupp(:,klevp1)*swradcorr(:)
2178	CALL histwrite_phy(o_rsut4co2, zx_tmp_fi2d)
2179	IF (vars_defined) zx_tmp_fi2d(:) = lwupp(:,klevp1)
2180	CALL histwrite_phy(o_rlut4co2, zx_tmp_fi2d)
2181	IF (vars_defined) zx_tmp_fi2d(:) = swup0p(:,klevp1)*swradcorr(:)
2182	CALL histwrite_phy(o_rsutcs4co2, zx_tmp_fi2d)
2183	IF (vars_defined) zx_tmp_fi2d(:) = lwup0p(:,klevp1)
2184	CALL histwrite_phy(o_rlutcs4co2, zx_tmp_fi2d)
2185	IF (vars_defined) THEN
2186	DO k=1, klevp1
2187	zx_tmp_fi3d1(:,k)=swupp(:,k)*swradcorr(:)
2188	ENDDO
2189	ENDIF
2190	CALL histwrite_phy(o_rsu4co2, zx_tmp_fi3d1)
2191	IF (vars_defined) THEN
2192	DO k=1, klevp1
2193	zx_tmp_fi3d1(:,k)=swup0p(:,k)*swradcorr(:)
2194	ENDDO
2195	ENDIF
2196	CALL histwrite_phy(o_rsucs4co2, zx_tmp_fi3d1)
2197	IF (vars_defined) THEN
2198	DO k=1, klevp1
2199	zx_tmp_fi3d1(:,k)=swdnp(:,k)*swradcorr(:)
2200	ENDDO
2201	ENDIF
2202	CALL histwrite_phy(o_rsd4co2, zx_tmp_fi3d1)
2203	IF (vars_defined) THEN
2204	DO k=1, klevp1
2205	zx_tmp_fi3d1(:,k)=swdn0p(:,k)*swradcorr(:)
2206	ENDDO
2207	ENDIF
2208	CALL histwrite_phy(o_rsdcs4co2, zx_tmp_fi3d1)
2209	CALL histwrite_phy(o_rlu4co2, lwupp)
2210	CALL histwrite_phy(o_rlucs4co2, lwup0p)
2211	CALL histwrite_phy(o_rld4co2, lwdnp)
2212	CALL histwrite_phy(o_rldcs4co2, lwdn0p)
2213	ENDIF !ok_4xCO2atm
2214	!!!!!!!!!!!! Sorties niveaux de pression NMC !!!!!!!!!!!!!!!!!!!!
2215	#ifdef CPP_IOIPSL
2216	#ifndef CPP_XIOS
2217	IF (.NOT.ok_all_xml) THEN
2218	! ATTENTION, LES ANCIENS HISTWRITE ONT ETES CONSERVES EN ATTENDANT MIEUX:
2219	! Champs interpolles sur des niveaux de pression
2220	DO iff=7, nfiles-1 !--OB: here we deal with files 7,8,9
2221
2222	CALL histwrite_phy(o_tnondef,tnondef(:,:,iff-6),iff)
2223	CALL histwrite_phy(o_ta,twriteSTD(:,:,iff-6),iff)
2224	CALL histwrite_phy(o_zg,phiwriteSTD(:,:,iff-6),iff)
2225	CALL histwrite_phy(o_hus,qwriteSTD(:,:,iff-6),iff)
2226	CALL histwrite_phy(o_hur,rhwriteSTD(:,:,iff-6),iff)
2227	CALL histwrite_phy(o_ua,uwriteSTD(:,:,iff-6),iff)
2228	CALL histwrite_phy(o_va,vwriteSTD(:,:,iff-6),iff)
2229	CALL histwrite_phy(o_wap,wwriteSTD(:,:,iff-6),iff)
2230	IF (vars_defined) THEN
2231	DO k=1, nlevSTD
2232	DO i=1, klon
2233	IF (tnondef(i,k,iff-6).NE.missing_val) THEN
2234	IF (freq_outNMC(iff-6).LT.0) THEN
2235	freq_moyNMC(iff-6)=(mth_len*un_jour)/freq_calNMC(iff-6)
2236	ELSE
2237	freq_moyNMC(iff-6)=freq_outNMC(iff-6)/freq_calNMC(iff-6)
2238	ENDIF
2239	zx_tmp_fi3d_STD(i,k) = (100.*tnondef(i,k,iff-6))/freq_moyNMC(iff-6)
2240	ELSE
2241	zx_tmp_fi3d_STD(i,k) = missing_val
2242	ENDIF
2243	ENDDO
2244	ENDDO
2245	ENDIF
2246	CALL histwrite_phy(o_psbg,zx_tmp_fi3d_STD,iff)
2247	IF (vars_defined) THEN
2248	DO k=1, nlevSTD
2249	DO i=1, klon
2250	IF (O3sumSTD(i,k,iff-6).NE.missing_val) THEN
2251	zx_tmp_fi3d_STD(i,k) = O3sumSTD(i,k,iff-6) * 1.e+9
2252	ELSE
2253	zx_tmp_fi3d_STD(i,k) = missing_val
2254	ENDIF
2255	ENDDO
2256	ENDDO !k=1, nlevSTD
2257	ENDIF
2258	CALL histwrite_phy(o_tro3,zx_tmp_fi3d_STD,iff)
2259	IF (read_climoz == 2) THEN
2260	IF (vars_defined) THEN
2261	DO k=1, nlevSTD
2262	DO i=1, klon
2263	IF (O3daysumSTD(i,k,iff-6).NE.missing_val) THEN
2264	zx_tmp_fi3d_STD(i,k) = O3daysumSTD(i,k,iff-6) * 1.e+9
2265	ELSE
2266	zx_tmp_fi3d_STD(i,k) = missing_val
2267	ENDIF
2268	ENDDO
2269	ENDDO !k=1, nlevSTD
2270	ENDIF
2271	CALL histwrite_phy(o_tro3_daylight,zx_tmp_fi3d_STD,iff)
2272	endif
2273	CALL histwrite_phy(o_uxv,uvsumSTD(:,:,iff-6),iff)
2274	CALL histwrite_phy(o_vxq,vqsumSTD(:,:,iff-6),iff)
2275	CALL histwrite_phy(o_vxT,vTsumSTD(:,:,iff-6),iff)
2276	CALL histwrite_phy(o_wxq,wqsumSTD(:,:,iff-6),iff)
2277	CALL histwrite_phy(o_vxphi,vphisumSTD(:,:,iff-6),iff)
2278	CALL histwrite_phy(o_wxT,wTsumSTD(:,:,iff-6),iff)
2279	CALL histwrite_phy(o_uxu,u2sumSTD(:,:,iff-6),iff)
2280	CALL histwrite_phy(o_vxv,v2sumSTD(:,:,iff-6),iff)
2281	CALL histwrite_phy(o_TxT,T2sumSTD(:,:,iff-6),iff)
2282	ENDDO !nfiles
2283	ENDIF
2284	#endif
2285	#endif
2286	#ifdef CPP_XIOS
2287	IF (ok_all_xml) THEN
2288	! DO iff=7, nfiles
2289
2290	! CALL histwrite_phy(o_tnondef,tnondef(:,:,3))
2291	CALL histwrite_phy(o_ta,tlevSTD(:,:))
2292	CALL histwrite_phy(o_zg,philevSTD(:,:))
2293	CALL histwrite_phy(o_hus,qlevSTD(:,:))
2294	CALL histwrite_phy(o_hur,rhlevSTD(:,:))
2295	CALL histwrite_phy(o_ua,ulevSTD(:,:))
2296	CALL histwrite_phy(o_va,vlevSTD(:,:))
2297	CALL histwrite_phy(o_wap,wlevSTD(:,:))
2298	! IF (vars_defined) THEN
2299	! DO k=1, nlevSTD
2300	! DO i=1, klon
2301	! IF (tnondef(i,k,3).NE.missing_val) THEN
2302	! IF (freq_outNMC(iff-6).LT.0) THEN
2303	! freq_moyNMC(iff-6)=(mth_len*un_jour)/freq_calNMC(iff-6)
2304	! ELSE
2305	! freq_moyNMC(iff-6)=freq_outNMC(iff-6)/freq_calNMC(iff-6)
2306	! ENDIF
2307	! zx_tmp_fi3d_STD(i,k) = (100.*tnondef(i,k,3))/freq_moyNMC(iff-6)
2308	! ELSE
2309	! zx_tmp_fi3d_STD(i,k) = missing_val
2310	! ENDIF
2311	! ENDDO
2312	! ENDDO
2313	! ENDIF
2314	! CALL histwrite_phy(o_psbg,zx_tmp_fi3d_STD)
2315	IF (vars_defined) THEN
2316	DO k=1, nlevSTD
2317	DO i=1, klon
2318	IF (O3STD(i,k).NE.missing_val) THEN
2319	zx_tmp_fi3d_STD(i,k) = O3STD(i,k) * 1.e+9
2320	ELSE
2321	zx_tmp_fi3d_STD(i,k) = missing_val
2322	ENDIF
2323	ENDDO
2324	ENDDO !k=1, nlevSTD
2325	ENDIF
2326	CALL histwrite_phy(o_tro3,zx_tmp_fi3d_STD)
2327	IF (read_climoz == 2) THEN
2328	IF (vars_defined) THEN
2329	DO k=1, nlevSTD
2330	DO i=1, klon
2331	IF (O3daySTD(i,k).NE.missing_val) THEN
2332	zx_tmp_fi3d_STD(i,k) = O3daySTD(i,k) * 1.e+9
2333	ELSE
2334	zx_tmp_fi3d_STD(i,k) = missing_val
2335	ENDIF
2336	ENDDO
2337	ENDDO !k=1, nlevSTD
2338	ENDIF
2339	CALL histwrite_phy(o_tro3_daylight,zx_tmp_fi3d_STD)
2340	ENDIF
2341	CALL histwrite_phy(o_uxv,uvSTD(:,:))
2342	CALL histwrite_phy(o_vxq,vqSTD(:,:))
2343	CALL histwrite_phy(o_vxT,vTSTD(:,:))
2344	CALL histwrite_phy(o_wxq,wqSTD(:,:))
2345	CALL histwrite_phy(o_vxphi,vphiSTD(:,:))
2346	CALL histwrite_phy(o_wxT,wTSTD(:,:))
2347	CALL histwrite_phy(o_uxu,u2STD(:,:))
2348	CALL histwrite_phy(o_vxv,v2STD(:,:))
2349	CALL histwrite_phy(o_TxT,T2STD(:,:))
2350	! ENDDO !nfiles
2351	ENDIF
2352	#endif
2353	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
2354	IF (iflag_phytrac == 1 ) then
2355	IF (type_trac == 'lmdz' .OR. type_trac == 'coag') THEN
2356	DO iq=nqo+1, nqtot
2357	!--3D fields
2358	CALL histwrite_phy(o_trac(iq-nqo), tr_seri(:,:,iq-nqo))
2359	CALL histwrite_phy(o_dtr_vdf(iq-nqo),d_tr_cl(:,:,iq-nqo))
2360	CALL histwrite_phy(o_dtr_the(iq-nqo),d_tr_th(:,:,iq-nqo))
2361	CALL histwrite_phy(o_dtr_con(iq-nqo),d_tr_cv(:,:,iq-nqo))
2362	CALL histwrite_phy(o_dtr_lessi_impa(iq-nqo),d_tr_lessi_impa(:,:,iq-nqo))
2363	CALL histwrite_phy(o_dtr_lessi_nucl(iq-nqo),d_tr_lessi_nucl(:,:,iq-nqo))
2364	CALL histwrite_phy(o_dtr_insc(iq-nqo),d_tr_insc(:,:,iq-nqo))
2365	CALL histwrite_phy(o_dtr_bcscav(iq-nqo),d_tr_bcscav(:,:,iq-nqo))
2366	CALL histwrite_phy(o_dtr_evapls(iq-nqo),d_tr_evapls(:,:,iq-nqo))
2367	CALL histwrite_phy(o_dtr_ls(iq-nqo),d_tr_ls(:,:,iq-nqo))
2368	CALL histwrite_phy(o_dtr_trsp(iq-nqo),d_tr_trsp(:,:,iq-nqo))
2369	CALL histwrite_phy(o_dtr_sscav(iq-nqo),d_tr_sscav(:,:,iq-nqo))
2370	CALL histwrite_phy(o_dtr_sat(iq-nqo),d_tr_sat(:,:,iq-nqo))
2371	CALL histwrite_phy(o_dtr_uscav(iq-nqo),d_tr_uscav(:,:,iq-nqo))
2372	!--2D fields
2373	CALL histwrite_phy(o_dtr_dry(iq-nqo), flux_tr_dry(:,iq-nqo))
2374	zx_tmp_fi2d=0.
2375	IF (vars_defined) THEN
2376	DO k=1,klev
2377	zx_tmp_fi2d(:)=zx_tmp_fi2d(:)+zmasse(:,k)*tr_seri(:,k,iq-nqo)
2378	ENDDO
2379	ENDIF
2380	CALL histwrite_phy(o_trac_cum(iq-nqo), zx_tmp_fi2d)
2381	ENDDO !--iq
2382	ENDIF !--type_trac
2383
2384	! Pour bilan
2385	DO j=1,size(index_bc)
2386	iq=index_bc(j)
2387	!WRITE(lunout,*) "WRITE_TEST_1"," / iq=",iq
2388	CALL histwrite_phy(o_dtr_vdf(iq-nqo),d_tr_cl(:,:,iq-nqo))
2389	!WRITE(lunout,*) "WRITE_TEST_2"
2390	END DO
2391	!
2392	IF (type_trac == 'co2i') THEN
2393	DO iq=nqo+1, nqtot
2394	!--3D fields
2395	CALL histwrite_phy(o_trac(iq-nqo), tr_seri(:,:,iq-nqo))
2396	CALL histwrite_phy(o_dtr_vdf(iq-nqo),d_tr_cl(:,:,iq-nqo))
2397	CALL histwrite_phy(o_dtr_the(iq-nqo),d_tr_th(:,:,iq-nqo))
2398	CALL histwrite_phy(o_dtr_con(iq-nqo),d_tr_cv(:,:,iq-nqo))
2399	!--2D fields
2400	!--CO2 burden
2401	zx_tmp_fi2d=0.
2402	IF (vars_defined) THEN
2403	DO k=1,klev
2404	zx_tmp_fi2d(:)=zx_tmp_fi2d(:)+zmasse(:,k)*tr_seri(:,k,iq-nqo)
2405	ENDDO
2406	ENDIF
2407	CALL histwrite_phy(o_trac_cum(iq-nqo), zx_tmp_fi2d)
2408	ENDDO !--iq
2409	!--CO2 net fluxes
2410	CALL histwrite_phy(o_flx_co2_land, fco2_land)
2411	CALL histwrite_phy(o_flx_co2_ocean, fco2_ocean)
2412	CALL histwrite_phy(o_flx_co2_ff, fco2_ff)
2413	CALL histwrite_phy(o_flx_co2_bb, fco2_bb)
2414	ENDIF !--type_trac co2i
2415
2416	ENDIF !(iflag_phytrac==1)
2417
2418	IF (.NOT.vars_defined) THEN
2419	!$OMP MASTER
2420	#ifndef CPP_IOIPSL_NO_OUTPUT
2421	DO iff=1,nfiles
2422	IF (clef_files(iff)) THEN
2423	CALL histend(nid_files(iff))
2424	ndex2d = 0
2425	ndex3d = 0
2426	ENDIF ! clef_files
2427	ENDDO ! iff
2428	#endif
2429	#ifdef CPP_XIOS
2430	!On finalise l'initialisation:
2431	CALL wxios_closedef()
2432	#endif
2433	!$OMP END MASTER
2434	!$OMP BARRIER
2435	vars_defined = .TRUE.
2436
2437	ENDIF !--.NOT.vars_defined
2438
2439	ENDDO
2440
2441	IF (vars_defined) THEN
2442	! On synchronise les fichiers pour IOIPSL
2443	#ifndef CPP_IOIPSL_NO_OUTPUT
2444	!$OMP MASTER
2445	DO iff=1,nfiles
2446	IF (ok_sync .AND. clef_files(iff)) THEN
2447	CALL histsync(nid_files(iff))
2448	ENDIF
2449	END DO
2450	!$OMP END MASTER
2451	#endif
2452	ENDIF
2453
2454	END SUBROUTINE phys_output_write
2455
2456	END MODULE phys_output_write_mod

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