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phys_output_write_mod.F90 @ 2241

Last change on this file since 2241 was 2196, checked in by jescribano, 10 years ago
Dust emission scheme changes: (1) Included possibility of use previous dust emission scheme (with 2 dust bins). (2) Parameter of Marticorena and Bergametti 1995 set to it's original value (2.61) for testing purposes with pdtphys=15min. (3) Cleaning ustar calculation.
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
File size: 60.6 KB

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1	!
2	! $Header$
3	!
4	MODULE phys_output_write_mod
5	!JE20141213<
6	!!JE20140507<<
7	!! USE phytrac_mod, ONLY : d_tr_cl, d_tr_th, d_tr_cv, d_tr_lessi_impa, &
8	!! d_tr_lessi_nucl, d_tr_insc, d_tr_bcscav, d_tr_evapls, d_tr_ls, &
9	!! d_tr_trsp, d_tr_sscav, d_tr_sat, d_tr_uscav
10	! USE phytracr_spl_mod, ONLY : d_tr_cl, d_tr_th, d_tr_cv, d_tr_lessi_impa, &
11	! d_tr_lessi_nucl, d_tr_insc, d_tr_bcscav, d_tr_evapls, d_tr_ls, &
12	! d_tr_trsp, d_tr_sscav, d_tr_sat, d_tr_uscav
13	!!JE20140507>>
14
15	USE phytracr_spl_mod, ONLY : ok_chimeredust, id_prec, id_fine, id_coss, &
16	id_codu, id_scdu , &
17	d_tr_cl, d_tr_th, d_tr_cv, d_tr_lessi_impa, &
18	d_tr_lessi_nucl, d_tr_insc, d_tr_bcscav, d_tr_evapls, d_tr_ls, &
19	d_tr_trsp, d_tr_sscav, d_tr_sat, d_tr_uscav ,&
20	diff_aod550_tot,&
21	diag_aod670_tot, diag_aod865_tot, &
22	diff_aod550_tr2, diag_aod670_tr2, diag_aod865_tr2, &
23	diag_aod550_ss, diag_aod670_ss, diag_aod865_ss, &
24	diag_aod550_dust, diag_aod670_dust, diag_aod865_dust , &
25	diag_aod550_dustsco, diag_aod670_dustsco, diag_aod865_dustsco, &
26	aod550_aqua, aod670_aqua, aod865_aqua, &
27	aod550_terra, aod670_terra, aod865_terra, &
28	trm01,trm02,trm03,trm04,trm05, &
29	sconc01,sconc02,sconc03,sconc04,sconc05, &
30	flux01,flux02,flux03,flux04,flux05,&
31	ds01,ds02,ds03,ds04,ds05, &
32	dh01,dh02,dh03,dh04,dh05, &
33	dtrconv01,dtrconv02,dtrconv03,dtrconv04,dtrconv05, &
34	dtherm01,dtherm02,dtherm03,dtherm04,dtherm05, &
35	dhkecv01,dhkecv02,dhkecv03,dhkecv04,dhkecv05, &
36	dhkelsc01,dhkelsc02,dhkelsc03,dhkelsc04,dhkelsc05, &
37	d_tr_cv01,d_tr_cv02,d_tr_cv03,d_tr_cv04,d_tr_cv05, &
38	d_tr_trsp01,d_tr_trsp02,d_tr_trsp03,d_tr_trsp04,d_tr_trsp05, &
39	d_tr_sscav01,d_tr_sscav02,d_tr_sscav03,d_tr_sscav04,d_tr_sscav05, &
40	d_tr_sat01,d_tr_sat02,d_tr_sat03,d_tr_sat04,d_tr_sat05, &
41	d_tr_uscav01,d_tr_uscav02,d_tr_uscav03,d_tr_uscav04,d_tr_uscav05, &
42	sed_ss,sed_dust,sed_dustsco,his_g2pgas,his_g2paer, &
43	fluxbb, &
44	fluxff,fluxbcbb,fluxbcff,fluxbcnff, &
45	fluxbcba,fluxbc,fluxombb,fluxomff,fluxomnff, &
46	fluxomba,fluxomnat,fluxom,fluxh2sff,fluxh2snff, &
47	fluxso2ff,fluxso2nff,fluxso2bb,fluxso2vol,fluxso2ba, &
48	fluxso2,fluxso4ff,fluxso4nff,fluxso4ba,fluxso4bb, &
49	fluxso4,fluxdms,fluxh2sbio,fluxdustec,&
50	fluxddfine, &
51	fluxddcoa,fluxddsco,fluxdd, &
52	fluxssfine,fluxsscoa, &
53	fluxss,flux_sparam_ind,flux_sparam_bb,flux_sparam_ff, &
54	flux_sparam_ddfine,flux_sparam_ddcoa, &
55	flux_sparam_ddsco,flux_sparam_ssfine, &
56	flux_sparam_sscoa,u10m_ss,v10m_ss
57
58	USE dustemission_mod, ONLY : m1dflux, m2dflux, m3dflux
59
60	!JE20141213>
61
62	! Author: Abderrahmane IDELKADI (original include file)
63	! Author: Laurent FAIRHEAD (transformation to module/subroutine)
64	! Author: Ulysse GERARD (effective implementation)
65
66	CONTAINS
67
68	! ug Routine pour définir (los du premier passageà) ET sortir les variables
69	SUBROUTINE phys_output_write(itap, pdtphys, paprs, pphis, &
70	pplay, lmax_th, aerosol_couple, &
71	ok_ade, ok_aie, ivap, new_aod, ok_sync, &
72	ptconv, read_climoz, clevSTD, ptconvth, &
73	d_t, qx, d_qx, zmasse, flag_aerosol, flag_aerosol_strat, ok_cdnc)
74
75	! This subroutine does the actual writing of diagnostics that were
76	! defined and initialised in phys_output_mod.F90
77
78	USE dimphy, only: klon, klev, klevp1
79	USE control_mod, only: day_step, iphysiq
80	USE phys_output_ctrlout_mod, only: o_phis, o_aire, is_ter, is_lic, is_oce, &
81	is_ave, is_sic, o_contfracATM, o_contfracOR, &
82	o_aireTER, o_flat, o_slp, o_tsol, &
83	o_t2m, o_t2m_min, o_t2m_max, &
84	o_q2m, o_ustar, o_u10m, o_v10m, &
85	o_wind10m, o_wind10max, o_sicf, &
86	o_psol, o_mass, o_qsurf, o_qsol, &
87	o_precip, o_ndayrain, o_plul, o_pluc, &
88	o_snow, o_msnow, o_fsnow, o_evap, &
89	o_tops, o_tops0, o_topl, o_topl0, &
90	o_SWupTOA, o_SWupTOAclr, o_SWdnTOA, &
91	o_SWdnTOAclr, o_nettop, o_SWup200, &
92	o_SWup200clr, o_SWdn200, o_SWdn200clr, &
93	o_LWup200, o_LWup200clr, o_LWdn200, &
94	o_LWdn200clr, o_sols, o_sols0, &
95	o_soll, o_radsol, o_soll0, o_SWupSFC, &
96	o_SWupSFCclr, o_SWdnSFC, o_SWdnSFCclr, &
97	o_LWupSFC, o_LWdnSFC, o_LWupSFCclr, &
98	o_LWdnSFCclr, o_bils, o_bils_diss, &
99	o_bils_ec, o_bils_tke, o_bils_kinetic, &
100	o_bils_latent, o_bils_enthalp, o_sens, &
101	o_fder, o_ffonte, o_fqcalving, o_fqfonte, &
102	o_taux, o_tauy, o_snowsrf, o_qsnow, &
103	o_snowhgt, o_toice, o_sissnow, o_runoff, &
104	o_albslw3, o_pourc_srf, o_fract_srf, &
105	o_taux_srf, o_tauy_srf, o_tsol_srf, &
106	o_evappot_srf, o_ustar_srf, o_u10m_srf, &
107	o_v10m_srf, o_t2m_srf, o_evap_srf, &
108	o_sens_srf, o_lat_srf, o_flw_srf, &
109	o_fsw_srf, o_wbils_srf, o_wbilo_srf, &
110	o_tke_srf, o_tke_max_srf, o_wstar, &
111	o_cdrm, o_cdrh, o_cldl, o_cldm, o_cldh, &
112	o_cldt, o_JrNt, o_cldljn, o_cldmjn, &
113	o_cldhjn, o_cldtjn, o_cldq, o_lwp, o_iwp, &
114	o_ue, o_ve, o_uq, o_vq, o_cape, o_pbase, &
115	o_ptop, o_fbase, o_plcl, o_plfc, &
116	o_wbeff, o_cape_max, o_upwd, o_Ma, &
117	o_dnwd, o_dnwd0, o_ftime_con, o_mc, &
118	o_prw, o_s_pblh, o_s_pblt, o_s_lcl, &
119	o_s_therm, o_uSTDlevs, o_vSTDlevs, &
120	o_wSTDlevs, o_zSTDlevs, o_qSTDlevs, &
121	o_tSTDlevs, epsfra, o_t_oce_sic, &
122	o_ale_bl, o_alp_bl, o_ale_wk, o_alp_wk, &
123	o_ale, o_alp, o_cin, o_WAPE, o_wake_h, &
124	o_wake_s, o_wake_deltat, o_wake_deltaq, &
125	o_wake_omg, o_dtwak, o_dqwak, o_Vprecip, &
126	o_ftd, o_fqd, o_wdtrainA, o_wdtrainM, &
127	o_n2, o_s2, o_proba_notrig, &
128	o_random_notrig, o_ale_bl_stat, &
129	o_ale_bl_trig, o_alp_bl_det, &
130	o_alp_bl_fluct_m, o_alp_bl_fluct_tke, &
131	o_alp_bl_conv, o_alp_bl_stat, o_slab_bils, &
132	o_weakinv, o_dthmin, o_cldtau, &
133	o_cldemi, o_pr_con_l, o_pr_con_i, &
134	o_pr_lsc_l, o_pr_lsc_i, o_re, o_fl, &
135	o_rh2m, o_rh2m_min, o_rh2m_max, &
136	o_qsat2m, o_tpot, o_tpote, o_SWnetOR, &
137	o_SWdownOR, o_LWdownOR, o_snowl, &
138	o_solldown, o_dtsvdfo, o_dtsvdft, &
139	o_dtsvdfg, o_dtsvdfi, o_rugs, o_od550aer, &
140	o_od865aer, o_absvisaer, o_od550lt1aer, &
141	o_sconcso4, o_sconcoa, o_sconcbc, &
142	o_sconcss, o_sconcdust, o_concso4, &
143	o_concoa, o_concbc, o_concss, o_concdust, &
144	o_loadso4, o_loadoa, o_loadbc, o_loadss, &
145	o_loaddust, o_tausumaero, o_topswad, &
146	o_topswad0, o_solswad, o_solswad0, &
147	o_swtoaas_nat, o_swsrfas_nat, &
148	o_swtoacs_nat, o_swtoaas_ant, &
149	o_swsrfas_ant, o_swtoacs_ant, &
150	o_swsrfcs_ant, o_swtoacf_nat, &
151	o_swsrfcf_nat, o_swtoacf_ant, &
152	o_swsrfcs_nat, o_swsrfcf_ant, &
153	o_swtoacf_zero, o_swsrfcf_zero, &
154	o_topswai, o_solswai, o_scdnc, &
155	o_cldncl, o_reffclws, o_reffclwc, &
156	o_cldnvi, o_lcc, o_lcc3d, o_lcc3dcon, &
157	o_lcc3dstra, o_reffclwtop, o_ec550aer, &
158	o_lwcon, o_iwcon, o_temp, o_theta, &
159	o_ovapinit, o_ovap, o_oliq, o_geop, &
160	o_vitu, o_vitv, o_vitw, o_pres, o_paprs, &
161	o_zfull, o_zhalf, o_rneb, o_rnebjn, o_rnebcon, &
162	o_rnebls, o_rhum, o_ozone, o_ozone_light, &
163	o_dtphy, o_dqphy, o_albe_srf, o_rugs_srf, &
164	o_ages_srf, o_alb1, o_alb2, o_tke, &
165	o_tke_max, o_kz, o_kz_max, o_clwcon, &
166	o_dtdyn, o_dqdyn, o_dudyn, o_dvdyn, &
167	o_dtcon, o_tntc, o_ducon, o_dvcon, &
168	o_dqcon, o_tnhusc, o_tnhusc, o_dtlsc, &
169	o_dtlschr, o_dqlsc, o_beta_prec, &
170	o_dtlscth, o_dtlscst, o_dqlscth, &
171	o_dqlscst, o_plulth, o_plulst, &
172	o_ptconvth, o_lmaxth, o_dtvdf, &
173	o_dtdis, o_dqvdf, o_dteva, o_dqeva, &
174	o_ptconv, o_ratqs, o_dtthe, &
175	o_duthe, o_dvthe, o_ftime_th, &
176	o_f_th, o_e_th, o_w_th, o_q_th, &
177	o_a_th, o_d_th, o_f0_th, o_zmax_th, &
178	o_dqthe, o_dtajs, o_dqajs, o_dtswr, &
179	o_dtsw0, o_dtlwr, o_dtlw0, o_dtec, &
180	o_duvdf, o_dvvdf, o_duoro, o_dvoro, &
181	o_dtoro, o_dulif, o_dvlif, o_dtlif, &
182	o_duhin, o_dvhin, o_dthin, o_rsu, &
183	o_rsd, o_rlu, o_rld, o_rsucs, o_rsdcs, &
184	o_rlucs, o_rldcs, o_tnt, o_tntr, &
185	o_tntscpbl, o_tnhus, o_tnhusscpbl, &
186	o_evu, o_h2o, o_mcd, o_dmc, o_ref_liq, &
187	o_ref_ice, o_rsut4co2, o_rlut4co2, &
188	o_rsutcs4co2, o_rlutcs4co2, o_rsu4co2, &
189	o_rlu4co2, o_rsucs4co2, o_rlucs4co2, &
190	o_rsd4co2, o_rld4co2, o_rsdcs4co2, &
191	o_rldcs4co2, o_tnondef, o_ta, o_zg, &
192	o_hus, o_hur, o_ua, o_va, o_wap, &
193	o_psbg, o_tro3, o_tro3_daylight, &
194	o_uxv, o_vxq, o_vxT, o_wxq, o_vxphi, &
195	o_wxT, o_uxu, o_vxv, o_TxT, o_trac, &
196	o_dtr_vdf, o_dtr_the, o_dtr_con, &
197	o_dtr_lessi_impa, o_dtr_lessi_nucl, &
198	o_dtr_insc, o_dtr_bcscav, o_dtr_evapls, &
199	o_dtr_ls, o_dtr_trsp, o_dtr_sscav, &
200	o_dtr_sat, o_dtr_uscav, o_trac_cum, o_du_gwd_rando, o_dv_gwd_rando, &
201	!JE o_vstr_gwd_rando
202	o_vstr_gwd_rando, &
203	! JE20141223 spla outputs
204	o_m1dflux,o_m2dflux,o_m3dflux, &
205	o_taue550, &
206	o_taue670,o_taue865, &
207	o_taue550_tr2, o_taue670_tr2, o_taue865_tr2, &
208	o_taue550_ss,o_taue670_ss, o_taue865_ss, &
209	o_taue550_dust, o_taue670_dust, o_taue865_dust, &
210	o_taue550_dustsco, o_taue670_dustsco, o_taue865_dustsco, &
211	o_taue550_aqua, o_taue670_aqua, o_taue865_aqua, &
212	o_taue550_terra, o_taue670_terra, o_taue865_terra, &
213	o_trm01,o_trm02,o_trm03,o_trm04,o_trm05,&
214	o_sconc01,o_sconc02,o_sconc03,o_sconc04,o_sconc05, &
215	o_flux01,o_flux02,o_flux03,o_flux04,o_flux05, &
216	o_ds01,o_ds02,o_ds03,o_ds04,o_ds05, &
217	o_dh01,o_dh02,o_dh03,o_dh04,o_dh05, &
218	o_dtrconv01,o_dtrconv02,o_dtrconv03,o_dtrconv04,o_dtrconv05, &
219	o_dtherm01,o_dtherm02,o_dtherm03,o_dtherm04,o_dtherm05, &
220	o_dhkecv01,o_dhkecv02,o_dhkecv03,o_dhkecv04,o_dhkecv05, &
221	o_dhkelsc01,o_dhkelsc02,o_dhkelsc03,o_dhkelsc04,o_dhkelsc05, &
222	o_d_tr_sat01,o_d_tr_cv01,o_d_tr_cv02,o_d_tr_cv03,o_d_tr_cv04,o_d_tr_cv05, &
223	o_d_tr_trsp01,o_d_tr_trsp02,o_d_tr_trsp03,o_d_tr_trsp04,o_d_tr_trsp05, &
224	o_d_tr_sscav01,o_d_tr_sscav02,o_d_tr_sscav03,o_d_tr_sscav04,o_d_tr_sscav05, &
225	o_d_tr_sat02,o_d_tr_sat03,o_d_tr_sat04,o_d_tr_sat05, &
226	o_d_tr_uscav01,o_d_tr_uscav02,o_d_tr_uscav03,o_d_tr_uscav04,o_d_tr_uscav05, &
227	o_sed_ss,o_sed_dust,o_sed_dustsco,o_g2p_gas,o_g2p_aer, &
228	o_fluxbb, &
229	o_fluxff ,o_fluxbcbb ,o_fluxbcff ,o_fluxbcnff , &
230	o_fluxbcba ,o_fluxbc ,o_fluxombb ,o_fluxomff , &
231	o_fluxomnff ,o_fluxomba ,o_fluxomnat ,o_fluxom , &
232	o_fluxh2sff ,o_fluxh2snff,o_fluxso2ff ,o_fluxso2nff, &
233	o_fluxso2bb ,o_fluxso2vol,o_fluxso2ba ,o_fluxso2 , &
234	o_fluxso4ff ,o_fluxso4nff,o_fluxso4bb ,o_fluxso4ba , &
235	o_fluxso4 ,o_fluxdms ,o_fluxh2sbio,o_fluxdustec, &
236	o_fluxddfine,o_fluxddcoa ,o_fluxddsco ,o_fluxdd ,&
237	o_fluxssfine,o_fluxsscoa, o_fluxss, &
238	o_flux_sparam_ind,o_flux_sparam_bb, &
239	o_flux_sparam_ff ,o_flux_sparam_ddfine ,o_flux_sparam_ddcoa, &
240	o_flux_sparam_ddsco,o_flux_sparam_ssfine,o_flux_sparam_sscoa, &
241	o_u10m_ss,o_v10m_ss
242
243
244
245	USE phys_state_var_mod, only: pctsrf, paire_ter, rain_fall, snow_fall, &
246	nday_rain, rain_con, snow_con, &
247	topsw, toplw, toplw0, swup, swdn, &
248	topsw0, swup0, swdn0, SWup200, SWup200clr, &
249	SWdn200, SWdn200clr, LWup200, LWup200clr, &
250	LWdn200, LWdn200clr, solsw, solsw0, sollw, &
251	radsol, sollw0, sollwdown, sollw, &
252	sollwdownclr, lwdn0, ftsol, ustar, u10m, &
253	v10m, pbl_tke, wstar, cape, ema_pcb, ema_pct, &
254	ema_cbmf, Ma, fm_therm, ale_bl, alp_bl, ale, &
255	alp, cin, wake_pe, wake_s, wake_deltat, &
256	wake_deltaq, ftd, fqd, ale_bl_trig, albsol1, &
257	rnebcon, wo, falb1, albsol2, coefh, clwcon0, &
258	ratqs, entr_therm, zqasc, detr_therm, f0, heat, &
259	heat0, cool, cool0, lwup, lwdn, lwup0, coefm, &
260	swupp, lwupp, swup0p, lwup0p, swdnp, lwdnp, &
261	swdn0p, lwdn0p, tnondef, O3sumSTD, uvsumSTD, &
262	vqsumSTD, vTsumSTD, O3daysumSTD, wqsumSTD, &
263	vphisumSTD, wTsumSTD, u2sumSTD, v2sumSTD, &
264	T2sumSTD, nlevSTD, du_gwd_rando, dv_gwd_rando
265
266	USE phys_local_var_mod, only: zxfluxlat, slp, zxtsol, zt2m, &
267	zu10m, zv10m, zq2m, zustar, zxqsurf, qsol, &
268	rain_lsc, snow_lsc, evap, bils, sens, fder, &
269	zxffonte, zxfqcalving, zxfqfonte, fluxu, &
270	fluxv, zxsnow, qsnow, snowhgt, to_ice, &
271	sissnow, runoff, albsol3_lic, evap_pot, &
272	t2m, fevap, fluxt, fluxlat, fsollw, fsolsw, &
273	wfbils, wfbilo, cdragm, cdragh, cldl, cldm, &
274	cldh, cldt, JrNt, cldljn, cldmjn, cldhjn, &
275	cldtjn, cldq, flwp, fiwp, ue, ve, uq, vq, &
276	plcl, plfc, wbeff, upwd, dnwd, dnwd0, prw, &
277	s_pblh, s_pblt, s_lcl, s_therm, uwriteSTD, &
278	vwriteSTD, wwriteSTD, phiwriteSTD, qwriteSTD, &
279	twriteSTD, ale_wake, alp_wake, wake_h, &
280	wake_omg, d_t_wake, d_q_wake, Vprecip, &
281	wdtrainA, wdtrainM, n2, s2, proba_notrig, &
282	random_notrig, ale_bl_stat, &
283	alp_bl_det, alp_bl_fluct_m, alp_bl_conv, &
284	alp_bl_stat, alp_bl_fluct_tke, slab_wfbils, &
285	weak_inversion, dthmin, cldtau, cldemi, &
286	pmflxr, pmflxs, prfl, psfl, re, fl, rh2m, &
287	qsat2m, tpote, tpot, d_ts, zxrugs, od550aer, &
288	od865aer, absvisaer, od550lt1aer, sconcso4, &
289	sconcoa, sconcbc, sconcss, sconcdust, concso4, &
290	concoa, concbc, concss, concdust, loadso4, &
291	loadoa, loadbc, loadss, loaddust, tausum_aero, &
292	topswad_aero, topswad0_aero, solswad_aero, &
293	solswad0_aero, topsw_aero, solsw_aero, &
294	topsw0_aero, solsw0_aero, topswcf_aero, &
295	solswcf_aero, topswai_aero, solswai_aero, &
296	scdnc, cldncl, reffclws, reffclwc, cldnvi, &
297	lcc, lcc3d, lcc3dcon, lcc3dstra, reffclwtop, &
298	ec550aer, flwc, fiwc, t_seri, theta, q_seri, &
299	ql_seri, zphi, u_seri, v_seri, omega, cldfra, &
300	rneb, rnebjn, zx_rh, frugs, agesno, d_t_dyn, d_q_dyn, &
301	d_u_dyn, d_v_dyn, d_t_con, d_t_ajsb, d_t_ajs, &
302	d_u_ajs, d_v_ajs, &
303	d_u_con, d_v_con, d_q_con, d_q_ajs, d_t_lsc, &
304	d_t_eva, d_q_lsc, beta_prec, d_t_lscth, &
305	d_t_lscst, d_q_lscth, d_q_lscst, plul_th, &
306	plul_st, d_t_vdf, d_t_diss, d_q_vdf, d_q_eva, &
307	zw2, fraca, zmax_th, d_q_ajsb, d_t_ec, d_u_vdf, &
308	d_v_vdf, d_u_oro, d_v_oro, d_t_oro, d_u_lif, &
309	d_v_lif, d_t_lif, d_u_hin, d_v_hin, d_t_hin, &
310	pmfd, pmfu, ref_liq, ref_ice, rhwriteSTD
311
312	USE phys_output_var_mod, only: vars_defined, snow_o, zfra_o, bils_diss, &
313	bils_ec, bils_tke, bils_kinetic, bils_latent, bils_enthalp, &
314	itau_con, nfiles, clef_files, nid_files, zvstr_gwd_rando
315	USE indice_sol_mod, only: nbsrf
316	USE infotrac, only: nqtot
317	USE comgeomphy, only: airephy
318	USE surface_data, only: type_ocean, ok_veget, ok_snow
319	! USE aero_mod, only: naero_spc
320	USE aero_mod, only: naero_tot
321	USE ioipsl, only: histend, histsync
322	USE iophy, only: set_itau_iophy, histwrite_phy
323	USE netcdf, only: nf90_fill_real
324
325	#ifdef CPP_XIOS
326	! ug Pour les sorties XIOS
327	USE xios, ONLY: xios_update_calendar
328	USE wxios, only: wxios_closedef
329	#endif
330	USE phys_cal_mod, only : mth_len
331
332	IMPLICIT NONE
333
334	INCLUDE "temps.h"
335	INCLUDE "clesphys.h"
336	INCLUDE "thermcell.h"
337	INCLUDE "compbl.h"
338	INCLUDE "YOMCST.h"
339	INCLUDE "dimensions.h"
340	include "iniprint.h"
341
342	! Input
343	INTEGER :: itap, ivap, read_climoz
344	INTEGER, DIMENSION(klon) :: lmax_th
345	LOGICAL :: aerosol_couple, ok_sync
346	LOGICAL :: ok_ade, ok_aie, new_aod
347	LOGICAL, DIMENSION(klon, klev) :: ptconv, ptconvth
348	REAL :: pdtphys
349	CHARACTER (LEN=4), DIMENSION(nlevSTD) :: clevSTD
350	REAL, DIMENSION(klon,nlevSTD) :: zx_tmp_fi3d_STD
351	REAL, DIMENSION(klon) :: pphis
352	REAL, DIMENSION(klon, klev) :: pplay, d_t
353	REAL, DIMENSION(klon, klev+1) :: paprs
354	REAL, DIMENSION(klon,klev,nqtot) :: qx, d_qx
355	REAL, DIMENSION(klon, llm) :: zmasse
356	LOGICAL :: flag_aerosol_strat
357	INTEGER :: flag_aerosol
358	LOGICAL :: ok_cdnc
359	REAL, DIMENSION(3) :: freq_moyNMC
360
361	! Local
362	INTEGER, PARAMETER :: jjmp1=jjm+1-1/jjm
363	INTEGER :: itau_w
364	INTEGER :: i, iinit, iinitend=1, iff, iq, nsrf, k, ll, naero
365	REAL, DIMENSION (klon) :: zx_tmp_fi2d
366	REAL, DIMENSION (klon,klev) :: zx_tmp_fi3d, zpt_conv
367	REAL, DIMENSION (klon,klev+1) :: zx_tmp_fi3d1
368	CHARACTER (LEN=4) :: bb2
369	INTEGER, DIMENSION(iim*jjmp1) :: ndex2d
370	INTEGER, DIMENSION(iimjjmp1klev) :: ndex3d
371	REAL, PARAMETER :: dobson_u = 2.1415e-05 ! Dobson unit, in kg m-2
372	REAL, PARAMETER :: missing_val=nf90_fill_real
373	REAL, PARAMETER :: un_jour=86400.
374
375	! On calcul le nouveau tau:
376	itau_w = itau_phy + itap + start_time * day_step / iphysiq
377	! On le donne à iophy pour que les histwrite y aient accès:
378	CALL set_itau_iophy(itau_w)
379
380	IF(.NOT.vars_defined) THEN
381	iinitend = 2
382	ELSE
383	iinitend = 1
384	ENDIF
385
386	! ug la boucle qui suit ne sert qu'une fois, pour l'initialisation, sinon il n'y a toujours qu'un seul passage:
387	DO iinit=1, iinitend
388	#ifdef CPP_XIOS
389	!$OMP MASTER
390	IF (vars_defined) THEN
391	if (prt_level >= 10) then
392	write(lunout,*)"phys_output_write: call xios_update_calendar, itau_w=",itau_w
393	endif
394	CALL xios_update_calendar(itau_w)
395	END IF
396	!$OMP END MASTER
397	!$OMP BARRIER
398	#endif
399	! On procède à l'écriture ou à la définition des nombreuses variables:
400	!!! Champs 1D !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
401	CALL histwrite_phy(o_phis, pphis)
402	CALL histwrite_phy(o_aire, airephy)
403
404	IF (vars_defined) THEN
405	DO i=1, klon
406	zx_tmp_fi2d(i)=pctsrf(i,is_ter)+pctsrf(i,is_lic)
407	ENDDO
408	ENDIF
409
410	CALL histwrite_phy(o_contfracATM, zx_tmp_fi2d)
411	CALL histwrite_phy(o_contfracOR, pctsrf(:,is_ter))
412	CALL histwrite_phy(o_aireTER, paire_ter)
413	!!! Champs 2D !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
414	! JE20141223 <<
415	#include "spla_output_write.h"
416	! JE20141223 >>
417
418	CALL histwrite_phy(o_flat, zxfluxlat)
419	CALL histwrite_phy(o_slp, slp)
420	CALL histwrite_phy(o_tsol, zxtsol)
421	CALL histwrite_phy(o_t2m, zt2m)
422	CALL histwrite_phy(o_t2m_min, zt2m)
423	CALL histwrite_phy(o_t2m_max, zt2m)
424
425	IF (vars_defined) THEN
426	DO i=1, klon
427	zx_tmp_fi2d(i)=SQRT(zu10m(i)zu10m(i)+zv10m(i)zv10m(i))
428	ENDDO
429	ENDIF
430	CALL histwrite_phy(o_wind10m, zx_tmp_fi2d)
431
432	IF (vars_defined) THEN
433	DO i=1, klon
434	zx_tmp_fi2d(i)=SQRT(zu10m(i)zu10m(i)+zv10m(i)zv10m(i))
435	ENDDO
436	ENDIF
437	CALL histwrite_phy(o_wind10max, zx_tmp_fi2d)
438
439	IF (vars_defined) THEN
440	DO i = 1, klon
441	zx_tmp_fi2d(i) = pctsrf(i,is_sic)
442	ENDDO
443	ENDIF
444	CALL histwrite_phy(o_sicf, zx_tmp_fi2d)
445	CALL histwrite_phy(o_q2m, zq2m)
446	CALL histwrite_phy(o_ustar, zustar)
447	CALL histwrite_phy(o_u10m, zu10m)
448	CALL histwrite_phy(o_v10m, zv10m)
449
450	IF (vars_defined) THEN
451	DO i = 1, klon
452	zx_tmp_fi2d(i) = paprs(i,1)
453	ENDDO
454	ENDIF
455	CALL histwrite_phy(o_psol, zx_tmp_fi2d)
456	CALL histwrite_phy(o_mass, zmasse)
457	CALL histwrite_phy(o_qsurf, zxqsurf)
458
459	IF (.NOT. ok_veget) THEN
460	CALL histwrite_phy(o_qsol, qsol)
461	ENDIF
462
463	IF (vars_defined) THEN
464	DO i = 1, klon
465	zx_tmp_fi2d(i) = rain_fall(i) + snow_fall(i)
466	ENDDO
467	ENDIF
468
469	CALL histwrite_phy(o_precip, zx_tmp_fi2d)
470	CALL histwrite_phy(o_ndayrain, nday_rain)
471
472	IF (vars_defined) THEN
473	DO i = 1, klon
474	zx_tmp_fi2d(i) = rain_lsc(i) + snow_lsc(i)
475	ENDDO
476	ENDIF
477	CALL histwrite_phy(o_plul, zx_tmp_fi2d)
478
479	IF (vars_defined) THEN
480	DO i = 1, klon
481	zx_tmp_fi2d(i) = rain_con(i) + snow_con(i)
482	ENDDO
483	ENDIF
484	CALL histwrite_phy(o_pluc, zx_tmp_fi2d)
485	CALL histwrite_phy(o_snow, snow_fall)
486	CALL histwrite_phy(o_msnow, snow_o)
487	CALL histwrite_phy(o_fsnow, zfra_o)
488	CALL histwrite_phy(o_evap, evap)
489	CALL histwrite_phy(o_tops, topsw)
490	CALL histwrite_phy(o_tops0, topsw0)
491	CALL histwrite_phy(o_topl, toplw)
492	CALL histwrite_phy(o_topl0, toplw0)
493
494	IF (vars_defined) THEN
495	zx_tmp_fi2d(1 : klon) = swup ( 1 : klon, klevp1 )
496	ENDIF
497	CALL histwrite_phy(o_SWupTOA, zx_tmp_fi2d)
498
499	IF (vars_defined) THEN
500	zx_tmp_fi2d(1 : klon) = swup0 ( 1 : klon, klevp1 )
501	ENDIF
502	CALL histwrite_phy(o_SWupTOAclr, zx_tmp_fi2d)
503
504	IF (vars_defined) THEN
505	zx_tmp_fi2d(1 : klon) = swdn ( 1 : klon, klevp1 )
506	ENDIF
507	CALL histwrite_phy(o_SWdnTOA, zx_tmp_fi2d)
508
509	IF (vars_defined) THEN
510	zx_tmp_fi2d(1 : klon) = swdn0 ( 1 : klon, klevp1 )
511	ENDIF
512	CALL histwrite_phy(o_SWdnTOAclr, zx_tmp_fi2d)
513
514	IF (vars_defined) THEN
515	zx_tmp_fi2d(:) = topsw(:)-toplw(:)
516	ENDIF
517	CALL histwrite_phy(o_nettop, zx_tmp_fi2d)
518	CALL histwrite_phy(o_SWup200, SWup200)
519	CALL histwrite_phy(o_SWup200clr, SWup200clr)
520	CALL histwrite_phy(o_SWdn200, SWdn200)
521	CALL histwrite_phy(o_SWdn200clr, SWdn200clr)
522	CALL histwrite_phy(o_LWup200, LWup200)
523	CALL histwrite_phy(o_LWup200clr, LWup200clr)
524	CALL histwrite_phy(o_LWdn200, LWdn200)
525	CALL histwrite_phy(o_LWdn200clr, LWdn200clr)
526	CALL histwrite_phy(o_sols, solsw)
527	CALL histwrite_phy(o_sols0, solsw0)
528	CALL histwrite_phy(o_soll, sollw)
529	CALL histwrite_phy(o_radsol, radsol)
530	CALL histwrite_phy(o_soll0, sollw0)
531
532	IF (vars_defined) THEN
533	zx_tmp_fi2d(1 : klon) = swup ( 1 : klon, 1 )
534	ENDIF
535	CALL histwrite_phy(o_SWupSFC, zx_tmp_fi2d)
536
537	IF (vars_defined) THEN
538	zx_tmp_fi2d(1 : klon) = swup0 ( 1 : klon, 1 )
539	ENDIF
540	CALL histwrite_phy(o_SWupSFCclr, zx_tmp_fi2d)
541
542	IF (vars_defined) THEN
543	zx_tmp_fi2d(1 : klon) = swdn ( 1 : klon, 1 )
544	ENDIF
545	CALL histwrite_phy(o_SWdnSFC, zx_tmp_fi2d)
546
547	IF (vars_defined) THEN
548	zx_tmp_fi2d(1 : klon) = swdn0 ( 1 : klon, 1 )
549	ENDIF
550	CALL histwrite_phy(o_SWdnSFCclr, zx_tmp_fi2d)
551
552	IF (vars_defined) THEN
553	zx_tmp_fi2d(1:klon)=sollwdown(1:klon)-sollw(1:klon)
554	ENDIF
555	CALL histwrite_phy(o_LWupSFC, zx_tmp_fi2d)
556	CALL histwrite_phy(o_LWdnSFC, sollwdown)
557
558	IF (vars_defined) THEN
559	sollwdownclr(1:klon) = -1.*lwdn0(1:klon,1)
560	zx_tmp_fi2d(1:klon)=sollwdownclr(1:klon)-sollw0(1:klon)
561	ENDIF
562	CALL histwrite_phy(o_LWupSFCclr, zx_tmp_fi2d)
563	CALL histwrite_phy(o_LWdnSFCclr, sollwdownclr)
564	CALL histwrite_phy(o_bils, bils)
565	CALL histwrite_phy(o_bils_diss, bils_diss)
566	CALL histwrite_phy(o_bils_ec, bils_ec)
567	CALL histwrite_phy(o_bils_tke, bils_tke)
568	CALL histwrite_phy(o_bils_kinetic, bils_kinetic)
569	CALL histwrite_phy(o_bils_latent, bils_latent)
570	CALL histwrite_phy(o_bils_enthalp, bils_enthalp)
571
572	IF (vars_defined) THEN
573	zx_tmp_fi2d(1:klon)=-1*sens(1:klon)
574	ENDIF
575	CALL histwrite_phy(o_sens, zx_tmp_fi2d)
576	CALL histwrite_phy(o_fder, fder)
577	CALL histwrite_phy(o_ffonte, zxffonte)
578	CALL histwrite_phy(o_fqcalving, zxfqcalving)
579	CALL histwrite_phy(o_fqfonte, zxfqfonte)
580	IF (vars_defined) THEN
581	zx_tmp_fi2d=0.
582	DO nsrf=1,nbsrf
583	zx_tmp_fi2d(:)=zx_tmp_fi2d(:)+pctsrf(:,nsrf)*fluxu(:,1,nsrf)
584	ENDDO
585	ENDIF
586	CALL histwrite_phy(o_taux, zx_tmp_fi2d)
587
588	IF (vars_defined) THEN
589	zx_tmp_fi2d=0.
590	DO nsrf=1,nbsrf
591	zx_tmp_fi2d(:)=zx_tmp_fi2d(:)+pctsrf(:,nsrf)*fluxv(:,1,nsrf)
592	ENDDO
593	ENDIF
594	CALL histwrite_phy(o_tauy, zx_tmp_fi2d)
595
596	IF (ok_snow) THEN
597	CALL histwrite_phy(o_snowsrf, zxsnow)
598	CALL histwrite_phy(o_qsnow, qsnow)
599	CALL histwrite_phy(o_snowhgt,snowhgt)
600	CALL histwrite_phy(o_toice,to_ice)
601	CALL histwrite_phy(o_sissnow,sissnow)
602	CALL histwrite_phy(o_runoff,runoff)
603	CALL histwrite_phy(o_albslw3,albsol3_lic)
604	ENDIF
605
606	DO nsrf = 1, nbsrf
607	IF (vars_defined) zx_tmp_fi2d(1 : klon) = pctsrf( 1 : klon, nsrf)*100.
608	CALL histwrite_phy(o_pourc_srf(nsrf), zx_tmp_fi2d)
609	IF (vars_defined) zx_tmp_fi2d(1 : klon) = pctsrf( 1 : klon, nsrf)
610	CALL histwrite_phy(o_fract_srf(nsrf), zx_tmp_fi2d)
611	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fluxu( 1 : klon, 1, nsrf)
612	CALL histwrite_phy(o_taux_srf(nsrf), zx_tmp_fi2d)
613	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fluxv( 1 : klon, 1, nsrf)
614	CALL histwrite_phy(o_tauy_srf(nsrf), zx_tmp_fi2d)
615	IF (vars_defined) zx_tmp_fi2d(1 : klon) = ftsol( 1 : klon, nsrf)
616	CALL histwrite_phy(o_tsol_srf(nsrf), zx_tmp_fi2d)
617	IF (vars_defined) zx_tmp_fi2d(1 : klon) = evap_pot( 1 : klon, nsrf)
618	CALL histwrite_phy(o_evappot_srf(nsrf), zx_tmp_fi2d)
619	IF (vars_defined) zx_tmp_fi2d(1 : klon) = ustar(1 : klon, nsrf)
620	CALL histwrite_phy(o_ustar_srf(nsrf), zx_tmp_fi2d)
621	IF (vars_defined) zx_tmp_fi2d(1 : klon) = u10m(1 : klon, nsrf)
622	CALL histwrite_phy(o_u10m_srf(nsrf), zx_tmp_fi2d)
623	IF (vars_defined) zx_tmp_fi2d(1 : klon) = v10m(1 : klon, nsrf)
624	CALL histwrite_phy(o_v10m_srf(nsrf), zx_tmp_fi2d)
625	IF (vars_defined) zx_tmp_fi2d(1 : klon) = t2m(1 : klon, nsrf)
626	CALL histwrite_phy(o_t2m_srf(nsrf), zx_tmp_fi2d)
627	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fevap(1 : klon, nsrf)
628	CALL histwrite_phy(o_evap_srf(nsrf), zx_tmp_fi2d)
629	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fluxt( 1 : klon, 1, nsrf)
630	CALL histwrite_phy(o_sens_srf(nsrf), zx_tmp_fi2d)
631	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fluxlat( 1 : klon, nsrf)
632	CALL histwrite_phy(o_lat_srf(nsrf), zx_tmp_fi2d)
633	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fsollw( 1 : klon, nsrf)
634	CALL histwrite_phy(o_flw_srf(nsrf), zx_tmp_fi2d)
635	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fsolsw( 1 : klon, nsrf)
636	CALL histwrite_phy(o_fsw_srf(nsrf), zx_tmp_fi2d)
637	IF (vars_defined) zx_tmp_fi2d(1 : klon) = wfbils( 1 : klon, nsrf)
638	CALL histwrite_phy(o_wbils_srf(nsrf), zx_tmp_fi2d)
639	IF (vars_defined) zx_tmp_fi2d(1 : klon) = wfbilo( 1 : klon, nsrf)
640	CALL histwrite_phy(o_wbilo_srf(nsrf), zx_tmp_fi2d)
641
642	IF (iflag_pbl > 1) THEN
643	CALL histwrite_phy(o_tke_srf(nsrf), pbl_tke(:,1:klev,nsrf))
644	CALL histwrite_phy(o_tke_max_srf(nsrf), pbl_tke(:,1:klev,nsrf))
645	ENDIF
646
647	ENDDO
648	DO nsrf=1,nbsrf+1
649	CALL histwrite_phy(o_wstar(nsrf), wstar(1 : klon, nsrf))
650	ENDDO
651
652	CALL histwrite_phy(o_cdrm, cdragm)
653	CALL histwrite_phy(o_cdrh, cdragh)
654	CALL histwrite_phy(o_cldl, cldl)
655	CALL histwrite_phy(o_cldm, cldm)
656	CALL histwrite_phy(o_cldh, cldh)
657	CALL histwrite_phy(o_cldt, cldt)
658	CALL histwrite_phy(o_JrNt, JrNt)
659	CALL histwrite_phy(o_cldljn, cldl*JrNt)
660	CALL histwrite_phy(o_cldmjn, cldm*JrNt)
661	CALL histwrite_phy(o_cldhjn, cldh*JrNt)
662	CALL histwrite_phy(o_cldtjn, cldt*JrNt)
663	CALL histwrite_phy(o_cldq, cldq)
664	IF (vars_defined) zx_tmp_fi2d(1:klon) = flwp(1:klon)
665	CALL histwrite_phy(o_lwp, zx_tmp_fi2d)
666	IF (vars_defined) zx_tmp_fi2d(1:klon) = fiwp(1:klon)
667	CALL histwrite_phy(o_iwp, zx_tmp_fi2d)
668	CALL histwrite_phy(o_ue, ue)
669	CALL histwrite_phy(o_ve, ve)
670	CALL histwrite_phy(o_uq, uq)
671	CALL histwrite_phy(o_vq, vq)
672	IF(iflag_con.GE.3) THEN ! sb
673	CALL histwrite_phy(o_cape, cape)
674	CALL histwrite_phy(o_pbase, ema_pcb)
675	CALL histwrite_phy(o_ptop, ema_pct)
676	CALL histwrite_phy(o_fbase, ema_cbmf)
677	if (iflag_con /= 30) then
678	CALL histwrite_phy(o_plcl, plcl)
679	CALL histwrite_phy(o_plfc, plfc)
680	CALL histwrite_phy(o_wbeff, wbeff)
681	end if
682
683	CALL histwrite_phy(o_cape_max, cape)
684
685	CALL histwrite_phy(o_upwd, upwd)
686	CALL histwrite_phy(o_Ma, Ma)
687	CALL histwrite_phy(o_dnwd, dnwd)
688	CALL histwrite_phy(o_dnwd0, dnwd0)
689	IF (vars_defined) zx_tmp_fi2d=float(itau_con)/float(itap)
690	CALL histwrite_phy(o_ftime_con, zx_tmp_fi2d)
691	IF (vars_defined) THEN
692	IF(iflag_thermals>=1)THEN
693	zx_tmp_fi3d=dnwd+dnwd0+upwd+fm_therm(:,1:klev)
694	ELSE
695	zx_tmp_fi3d=dnwd+dnwd0+upwd
696	ENDIF
697	ENDIF
698	CALL histwrite_phy(o_mc, zx_tmp_fi3d)
699	ENDIF !iflag_con .GE. 3
700	CALL histwrite_phy(o_prw, prw)
701	CALL histwrite_phy(o_s_pblh, s_pblh)
702	CALL histwrite_phy(o_s_pblt, s_pblt)
703	CALL histwrite_phy(o_s_lcl, s_lcl)
704	CALL histwrite_phy(o_s_therm, s_therm)
705	!IM : Les champs suivants (s_capCL, s_oliqCL, s_cteiCL, s_trmb1, s_trmb2, s_trmb3) ne sont pas definis dans HBTM.F
706	! IF (o_s_capCL%flag(iff)<=lev_files(iff)) THEN
707	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
708	! $o_s_capCL%name,itau_w,s_capCL)
709	! ENDIF
710	! IF (o_s_oliqCL%flag(iff)<=lev_files(iff)) THEN
711	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
712	! $o_s_oliqCL%name,itau_w,s_oliqCL)
713	! ENDIF
714	! IF (o_s_cteiCL%flag(iff)<=lev_files(iff)) THEN
715	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
716	! $o_s_cteiCL%name,itau_w,s_cteiCL)
717	! ENDIF
718	! IF (o_s_trmb1%flag(iff)<=lev_files(iff)) THEN
719	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
720	! $o_s_trmb1%name,itau_w,s_trmb1)
721	! ENDIF
722	! IF (o_s_trmb2%flag(iff)<=lev_files(iff)) THEN
723	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
724	! $o_s_trmb2%name,itau_w,s_trmb2)
725	! ENDIF
726	! IF (o_s_trmb3%flag(iff)<=lev_files(iff)) THEN
727	! CALL histwrite_phy(nid_files(iff),clef_stations(iff),
728	! $o_s_trmb3%name,itau_w,s_trmb3)
729	! ENDIF
730
731	! ATTENTION, LES ANCIENS HISTWRITE ONT ETES CONSERVES EN ATTENDANT MIEUX:
732	! Champs interpolles sur des niveaux de pression
733	DO iff=1, nfiles
734	ll=0
735	DO k=1, nlevSTD
736	bb2=clevSTD(k)
737	IF(bb2.EQ."850".OR.bb2.EQ."700".OR. &
738	bb2.EQ."500".OR.bb2.EQ."200".OR. &
739	bb2.EQ."100".OR. &
740	bb2.EQ."50".OR.bb2.EQ."10") THEN
741
742	! a refaire correctement !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
743	ll=ll+1
744	CALL histwrite_phy(o_uSTDlevs(ll),uwriteSTD(:,k,iff), iff)
745	CALL histwrite_phy(o_vSTDlevs(ll),vwriteSTD(:,k,iff), iff)
746	CALL histwrite_phy(o_wSTDlevs(ll),wwriteSTD(:,k,iff), iff)
747	CALL histwrite_phy(o_zSTDlevs(ll),phiwriteSTD(:,k,iff), iff)
748	CALL histwrite_phy(o_qSTDlevs(ll),qwriteSTD(:,k,iff), iff)
749	CALL histwrite_phy(o_tSTDlevs(ll),twriteSTD(:,k,iff), iff)
750
751	ENDIF !(bb2.EQ."850".OR.bb2.EQ."700".OR.
752	ENDDO
753	ENDDO
754
755	IF (vars_defined) THEN
756	DO i=1, klon
757	IF (pctsrf(i,is_oce).GT.epsfra.OR. &
758	pctsrf(i,is_sic).GT.epsfra) THEN
759	zx_tmp_fi2d(i) = (ftsol(i, is_oce) * pctsrf(i,is_oce)+ &
760	ftsol(i, is_sic) * pctsrf(i,is_sic))/ &
761	(pctsrf(i,is_oce)+pctsrf(i,is_sic))
762	ELSE
763	zx_tmp_fi2d(i) = 273.15
764	ENDIF
765	ENDDO
766	ENDIF
767	CALL histwrite_phy(o_t_oce_sic, zx_tmp_fi2d)
768
769	! Couplage convection-couche limite
770	IF (iflag_con.GE.3) THEN
771	IF (iflag_coupl>=1) THEN
772	CALL histwrite_phy(o_ale_bl, ale_bl)
773	CALL histwrite_phy(o_alp_bl, alp_bl)
774	ENDIF !iflag_coupl>=1
775	ENDIF !(iflag_con.GE.3)
776	! Wakes
777	IF (iflag_con.EQ.3) THEN
778	IF (iflag_wake>=1) THEN
779	CALL histwrite_phy(o_ale_wk, ale_wake)
780	CALL histwrite_phy(o_alp_wk, alp_wake)
781	CALL histwrite_phy(o_ale, ale)
782	CALL histwrite_phy(o_alp, alp)
783	CALL histwrite_phy(o_cin, cin)
784	CALL histwrite_phy(o_WAPE, wake_pe)
785	CALL histwrite_phy(o_wake_h, wake_h)
786	CALL histwrite_phy(o_wake_s, wake_s)
787	CALL histwrite_phy(o_wake_deltat, wake_deltat)
788	CALL histwrite_phy(o_wake_deltaq, wake_deltaq)
789	CALL histwrite_phy(o_wake_omg, wake_omg)
790	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_wake(1:klon,1:klev) &
791	/pdtphys
792	CALL histwrite_phy(o_dtwak, zx_tmp_fi3d)
793	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_wake(1:klon,1:klev)/pdtphys
794	CALL histwrite_phy(o_dqwak, zx_tmp_fi3d)
795	ENDIF ! iflag_wake>=1
796	CALL histwrite_phy(o_Vprecip, Vprecip)
797	CALL histwrite_phy(o_ftd, ftd)
798	CALL histwrite_phy(o_fqd, fqd)
799	ELSEIF (iflag_con.EQ.30) THEN
800	! sortie RomP convection descente insaturee iflag_con=30
801	CALL histwrite_phy(o_Vprecip, Vprecip)
802	CALL histwrite_phy(o_wdtrainA, wdtrainA)
803	CALL histwrite_phy(o_wdtrainM, wdtrainM)
804	ENDIF !(iflag_con.EQ.3.or.iflag_con.EQ.30)
805	!!! nrlmd le 10/04/2012
806	IF (iflag_trig_bl>=1) THEN
807	CALL histwrite_phy(o_n2, n2)
808	CALL histwrite_phy(o_s2, s2)
809	CALL histwrite_phy(o_proba_notrig, proba_notrig)
810	CALL histwrite_phy(o_random_notrig, random_notrig)
811	CALL histwrite_phy(o_ale_bl_stat, ale_bl_stat)
812	CALL histwrite_phy(o_ale_bl_trig, ale_bl_trig)
813	ENDIF !(iflag_trig_bl>=1)
814	IF (iflag_clos_bl>=1) THEN
815	CALL histwrite_phy(o_alp_bl_det, alp_bl_det)
816	CALL histwrite_phy(o_alp_bl_fluct_m, alp_bl_fluct_m)
817	CALL histwrite_phy(o_alp_bl_fluct_tke, &
818	alp_bl_fluct_tke)
819	CALL histwrite_phy(o_alp_bl_conv, alp_bl_conv)
820	CALL histwrite_phy(o_alp_bl_stat, alp_bl_stat)
821	ENDIF !(iflag_clos_bl>=1)
822	!!! fin nrlmd le 10/04/2012
823	IF (type_ocean=='slab ') THEN
824	CALL histwrite_phy(o_slab_bils, slab_wfbils)
825	ENDIF !type_ocean == force/slab
826	CALL histwrite_phy(o_weakinv, weak_inversion)
827	CALL histwrite_phy(o_dthmin, dthmin)
828	CALL histwrite_phy(o_cldtau, cldtau)
829	CALL histwrite_phy(o_cldemi, cldemi)
830	CALL histwrite_phy(o_pr_con_l, pmflxr(:,1:klev))
831	CALL histwrite_phy(o_pr_con_i, pmflxs(:,1:klev))
832	CALL histwrite_phy(o_pr_lsc_l, prfl(:,1:klev))
833	CALL histwrite_phy(o_pr_lsc_i, psfl(:,1:klev))
834	CALL histwrite_phy(o_re, re)
835	CALL histwrite_phy(o_fl, fl)
836	IF (vars_defined) THEN
837	DO i=1, klon
838	zx_tmp_fi2d(i)=MIN(100.,rh2m(i)*100.)
839	ENDDO
840	ENDIF
841	CALL histwrite_phy(o_rh2m, zx_tmp_fi2d)
842
843	IF (vars_defined) THEN
844	DO i=1, klon
845	zx_tmp_fi2d(i)=MIN(100.,rh2m(i)*100.)
846	ENDDO
847	ENDIF
848	CALL histwrite_phy(o_rh2m_min, zx_tmp_fi2d)
849
850	IF (vars_defined) THEN
851	DO i=1, klon
852	zx_tmp_fi2d(i)=MIN(100.,rh2m(i)*100.)
853	ENDDO
854	ENDIF
855	CALL histwrite_phy(o_rh2m_max, zx_tmp_fi2d)
856
857	CALL histwrite_phy(o_qsat2m, qsat2m)
858	CALL histwrite_phy(o_tpot, tpot)
859	CALL histwrite_phy(o_tpote, tpote)
860	IF (vars_defined) zx_tmp_fi2d(1 : klon) = fsolsw( 1 : klon, is_ter)
861	CALL histwrite_phy(o_SWnetOR, zx_tmp_fi2d)
862	IF (vars_defined) zx_tmp_fi2d(1:klon) = solsw(1:klon)/(1.-albsol1(1:klon))
863	CALL histwrite_phy(o_SWdownOR, zx_tmp_fi2d)
864	CALL histwrite_phy(o_LWdownOR, sollwdown)
865	CALL histwrite_phy(o_snowl, snow_lsc)
866	CALL histwrite_phy(o_solldown, sollwdown)
867	CALL histwrite_phy(o_dtsvdfo, d_ts(:,is_oce))
868	CALL histwrite_phy(o_dtsvdft, d_ts(:,is_ter))
869	CALL histwrite_phy(o_dtsvdfg, d_ts(:,is_lic))
870	CALL histwrite_phy(o_dtsvdfi, d_ts(:,is_sic))
871	CALL histwrite_phy(o_rugs, zxrugs)
872	! OD550 per species
873	IF (new_aod .and. (.not. aerosol_couple)) THEN
874	IF (flag_aerosol.GT.0) THEN
875	CALL histwrite_phy(o_od550aer, od550aer)
876	CALL histwrite_phy(o_od865aer, od865aer)
877	CALL histwrite_phy(o_absvisaer, absvisaer)
878	CALL histwrite_phy(o_od550lt1aer, od550lt1aer)
879	CALL histwrite_phy(o_sconcso4, sconcso4)
880	CALL histwrite_phy(o_sconcoa, sconcoa)
881	CALL histwrite_phy(o_sconcbc, sconcbc)
882	CALL histwrite_phy(o_sconcss, sconcss)
883	CALL histwrite_phy(o_sconcdust, sconcdust)
884	CALL histwrite_phy(o_concso4, concso4)
885	CALL histwrite_phy(o_concoa, concoa)
886	CALL histwrite_phy(o_concbc, concbc)
887	CALL histwrite_phy(o_concss, concss)
888	CALL histwrite_phy(o_concdust, concdust)
889	CALL histwrite_phy(o_loadso4, loadso4)
890	CALL histwrite_phy(o_loadoa, loadoa)
891	CALL histwrite_phy(o_loadbc, loadbc)
892	CALL histwrite_phy(o_loadss, loadss)
893	CALL histwrite_phy(o_loaddust, loaddust)
894	!--STRAT AER
895	ENDIF
896	IF (flag_aerosol.GT.0.OR.flag_aerosol_strat) THEN
897	! DO naero = 1, naero_spc
898	!--correction mini bug OB
899	DO naero = 1, naero_tot
900	CALL histwrite_phy(o_tausumaero(naero), &
901	tausum_aero(:,2,naero) )
902	END DO
903	ENDIF
904	ENDIF
905	IF (ok_ade) THEN
906	CALL histwrite_phy(o_topswad, topswad_aero)
907	CALL histwrite_phy(o_topswad0, topswad0_aero)
908	CALL histwrite_phy(o_solswad, solswad_aero)
909	CALL histwrite_phy(o_solswad0, solswad0_aero)
910	!====MS forcing diagnostics
911	if (new_aod) then
912	CALL histwrite_phy(o_swtoaas_nat, topsw_aero(:,1))
913	CALL histwrite_phy(o_swsrfas_nat, solsw_aero(:,1))
914	CALL histwrite_phy(o_swtoacs_nat, topsw0_aero(:,1))
915	CALL histwrite_phy(o_swsrfcs_nat, solsw0_aero(:,1))
916	!ant
917	CALL histwrite_phy(o_swtoaas_ant, topsw_aero(:,2))
918	CALL histwrite_phy(o_swsrfas_ant, solsw_aero(:,2))
919	CALL histwrite_phy(o_swtoacs_ant, topsw0_aero(:,2))
920	CALL histwrite_phy(o_swsrfcs_ant, solsw0_aero(:,2))
921	!cf
922	if (.not. aerosol_couple) then
923	CALL histwrite_phy(o_swtoacf_nat, topswcf_aero(:,1))
924	CALL histwrite_phy(o_swsrfcf_nat, solswcf_aero(:,1))
925	CALL histwrite_phy(o_swtoacf_ant, topswcf_aero(:,2))
926	CALL histwrite_phy(o_swsrfcf_ant, solswcf_aero(:,2))
927	CALL histwrite_phy(o_swtoacf_zero,topswcf_aero(:,3))
928	CALL histwrite_phy(o_swsrfcf_zero,solswcf_aero(:,3))
929	endif
930	endif ! new_aod
931	!====MS forcing diagnostics
932	ENDIF
933	IF (ok_aie) THEN
934	CALL histwrite_phy(o_topswai, topswai_aero)
935	CALL histwrite_phy(o_solswai, solswai_aero)
936	ENDIF
937	IF (flag_aerosol.GT.0.AND.ok_cdnc) THEN
938	CALL histwrite_phy(o_scdnc, scdnc)
939	CALL histwrite_phy(o_cldncl, cldncl)
940	CALL histwrite_phy(o_reffclws, reffclws)
941	CALL histwrite_phy(o_reffclwc, reffclwc)
942	CALL histwrite_phy(o_cldnvi, cldnvi)
943	CALL histwrite_phy(o_lcc, lcc)
944	CALL histwrite_phy(o_lcc3d, lcc3d)
945	CALL histwrite_phy(o_lcc3dcon, lcc3dcon)
946	CALL histwrite_phy(o_lcc3dstra, lcc3dstra)
947	CALL histwrite_phy(o_reffclwtop, reffclwtop)
948	ENDIF
949	! Champs 3D:
950	IF (ok_ade .OR. ok_aie) then
951	CALL histwrite_phy(o_ec550aer, ec550aer)
952	ENDIF
953	CALL histwrite_phy(o_lwcon, flwc)
954	CALL histwrite_phy(o_iwcon, fiwc)
955	CALL histwrite_phy(o_temp, t_seri)
956	CALL histwrite_phy(o_theta, theta)
957	CALL histwrite_phy(o_ovapinit, qx(:,:,ivap))
958	CALL histwrite_phy(o_ovap, q_seri)
959	CALL histwrite_phy(o_oliq, ql_seri)
960	CALL histwrite_phy(o_geop, zphi)
961	CALL histwrite_phy(o_vitu, u_seri)
962	CALL histwrite_phy(o_vitv, v_seri)
963	CALL histwrite_phy(o_vitw, omega)
964	CALL histwrite_phy(o_pres, pplay)
965	CALL histwrite_phy(o_paprs, paprs(:,1:klev))
966	IF (vars_defined) THEN
967	DO i=1, klon
968	zx_tmp_fi3d1(i,1)= pphis(i)/RG
969	!020611 zx_tmp_fi3d(i,1)= pphis(i)/RG
970	ENDDO
971	DO k=1, klev
972	!020611 DO k=1, klev-1
973	DO i=1, klon
974	!020611 zx_tmp_fi3d(i,k+1)= zx_tmp_fi3d(i,k) - (t_seri(i,k) RD
975	zx_tmp_fi3d1(i,k+1)= zx_tmp_fi3d1(i,k) - (t_seri(i,k) RD &
976	(paprs(i,k+1) - paprs(i,k))) / ( pplay(i,k) * RG )
977	ENDDO
978	ENDDO
979	ENDIF
980	CALL histwrite_phy(o_zfull,zx_tmp_fi3d1(:,2:klevp1))
981	!020611 $o_zfull%name,itau_w,zx_tmp_fi3d)
982
983	IF (vars_defined) THEN
984	DO i=1, klon
985	zx_tmp_fi3d(i,1)= pphis(i)/RG - ( &
986	(t_seri(i,1)+zxtsol(i))/2. RD &
987	(pplay(i,1) - paprs(i,1)))/( (paprs(i,1)+pplay(i,1))/2.* RG)
988	ENDDO
989	DO k=1, klev-1
990	DO i=1, klon
991	zx_tmp_fi3d(i,k+1)= zx_tmp_fi3d(i,k) - ( &
992	(t_seri(i,k)+t_seri(i,k+1))/2. RD &
993	(pplay(i,k+1) - pplay(i,k))) / ( paprs(i,k) * RG )
994	ENDDO
995	ENDDO
996	ENDIF
997	CALL histwrite_phy(o_zhalf, zx_tmp_fi3d)
998	CALL histwrite_phy(o_rneb, cldfra)
999	CALL histwrite_phy(o_rnebcon, rnebcon)
1000	CALL histwrite_phy(o_rnebls, rneb)
1001	IF (vars_defined) THEN
1002	DO k=1, klev
1003	DO i=1, klon
1004	zx_tmp_fi3d(i,k)=cldfra(i,k)*JrNt(i)
1005	ENDDO
1006	ENDDO
1007	ENDIF
1008	CALL histwrite_phy(o_rnebjn, zx_tmp_fi3d)
1009	CALL histwrite_phy(o_rhum, zx_rh)
1010	CALL histwrite_phy(o_ozone, &
1011	wo(:, :, 1) * dobson_u * 1e3 / zmasse / rmo3 * rmd)
1012
1013	IF (read_climoz == 2) THEN
1014	CALL histwrite_phy(o_ozone_light, &
1015	wo(:, :, 2) * dobson_u * 1e3 / zmasse / rmo3 * rmd)
1016	ENDIF
1017
1018	CALL histwrite_phy(o_dtphy, d_t)
1019	CALL histwrite_phy(o_dqphy, d_qx(:,:,ivap))
1020	DO nsrf=1, nbsrf
1021	IF (vars_defined) zx_tmp_fi2d(1 : klon) = falb1( 1 : klon, nsrf)
1022	CALL histwrite_phy(o_albe_srf(nsrf), zx_tmp_fi2d)
1023	IF (vars_defined) zx_tmp_fi2d(1 : klon) = frugs( 1 : klon, nsrf)
1024	CALL histwrite_phy(o_rugs_srf(nsrf), zx_tmp_fi2d)
1025	IF (vars_defined) zx_tmp_fi2d(1 : klon) = agesno( 1 : klon, nsrf)
1026	CALL histwrite_phy(o_ages_srf(nsrf), zx_tmp_fi2d)
1027	ENDDO !nsrf=1, nbsrf
1028	CALL histwrite_phy(o_alb1, albsol1)
1029	CALL histwrite_phy(o_alb2, albsol2)
1030	!FH Sorties pour la couche limite
1031	if (iflag_pbl>1) then
1032	zx_tmp_fi3d=0.
1033	IF (vars_defined) THEN
1034	do nsrf=1,nbsrf
1035	do k=1,klev
1036	zx_tmp_fi3d(:,k)=zx_tmp_fi3d(:,k) &
1037	+pctsrf(:,nsrf)*pbl_tke(:,k,nsrf)
1038	enddo
1039	enddo
1040	ENDIF
1041	CALL histwrite_phy(o_tke, zx_tmp_fi3d)
1042
1043	CALL histwrite_phy(o_tke_max, zx_tmp_fi3d)
1044	ENDIF
1045
1046	CALL histwrite_phy(o_kz, coefh(:,:,is_ave))
1047
1048	CALL histwrite_phy(o_kz_max, coefh(:,:,is_ave))
1049
1050	CALL histwrite_phy(o_clwcon, clwcon0)
1051	CALL histwrite_phy(o_dtdyn, d_t_dyn)
1052	CALL histwrite_phy(o_dqdyn, d_q_dyn)
1053	CALL histwrite_phy(o_dudyn, d_u_dyn)
1054	CALL histwrite_phy(o_dvdyn, d_v_dyn)
1055
1056	IF (vars_defined) THEN
1057	zx_tmp_fi3d(1:klon,1:klev)=d_t_con(1:klon,1:klev)/pdtphys
1058	ENDIF
1059	CALL histwrite_phy(o_dtcon, zx_tmp_fi3d)
1060	if(iflag_thermals.eq.1)then
1061	IF (vars_defined) THEN
1062	zx_tmp_fi3d(1:klon,1:klev)=d_t_con(1:klon,1:klev)/pdtphys + &
1063	d_t_ajsb(1:klon,1:klev)/pdtphys
1064	ENDIF
1065	CALL histwrite_phy(o_tntc, zx_tmp_fi3d)
1066	else if(iflag_thermals.gt.1.and.iflag_wake.EQ.1)then
1067	IF (vars_defined) THEN
1068	zx_tmp_fi3d(1:klon,1:klev)=d_t_con(1:klon,1:klev)/pdtphys + &
1069	d_t_ajs(1:klon,1:klev)/pdtphys + &
1070	d_t_wake(1:klon,1:klev)/pdtphys
1071	ENDIF
1072	CALL histwrite_phy(o_tntc, zx_tmp_fi3d)
1073	endif
1074	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_con(1:klon,1:klev)/pdtphys
1075	CALL histwrite_phy(o_ducon, zx_tmp_fi3d)
1076	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_con(1:klon,1:klev)/pdtphys
1077	CALL histwrite_phy(o_dvcon, zx_tmp_fi3d)
1078	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_con(1:klon,1:klev)/pdtphys
1079	CALL histwrite_phy(o_dqcon, zx_tmp_fi3d)
1080
1081	IF(iflag_thermals.EQ.1) THEN
1082	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_con(1:klon,1:klev)/pdtphys
1083	CALL histwrite_phy(o_tnhusc, zx_tmp_fi3d)
1084	ELSE IF(iflag_thermals.GT.1.AND.iflag_wake.EQ.1) THEN
1085	IF (vars_defined) THEN
1086	zx_tmp_fi3d(1:klon,1:klev)=d_q_con(1:klon,1:klev)/pdtphys + &
1087	d_q_ajs(1:klon,1:klev)/pdtphys + &
1088	d_q_wake(1:klon,1:klev)/pdtphys
1089	ENDIF
1090	CALL histwrite_phy(o_tnhusc, zx_tmp_fi3d)
1091	ENDIF
1092
1093	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lsc(1:klon,1:klev)/pdtphys
1094	CALL histwrite_phy(o_dtlsc, zx_tmp_fi3d)
1095	IF (vars_defined) zx_tmp_fi3d(1:klon, 1:klev)=(d_t_lsc(1:klon,1:klev)+ &
1096	d_t_eva(1:klon,1:klev))/pdtphys
1097	CALL histwrite_phy(o_dtlschr, zx_tmp_fi3d)
1098	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_lsc(1:klon,1:klev)/pdtphys
1099	CALL histwrite_phy(o_dqlsc, zx_tmp_fi3d)
1100	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=beta_prec(1:klon,1:klev)
1101	CALL histwrite_phy(o_beta_prec, zx_tmp_fi3d)
1102	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1103	! Sorties specifiques a la separation thermiques/non thermiques
1104	if (iflag_thermals>=1) then
1105	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lscth(1:klon,1:klev)/pdtphys
1106	CALL histwrite_phy(o_dtlscth, zx_tmp_fi3d)
1107	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lscst(1:klon,1:klev)/pdtphys
1108	CALL histwrite_phy(o_dtlscst, zx_tmp_fi3d)
1109	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_lscth(1:klon,1:klev)/pdtphys
1110	CALL histwrite_phy(o_dqlscth, zx_tmp_fi3d)
1111	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_lscst(1:klon,1:klev)/pdtphys
1112	CALL histwrite_phy(o_dqlscst, zx_tmp_fi3d)
1113	CALL histwrite_phy(o_plulth, plul_th)
1114	CALL histwrite_phy(o_plulst, plul_st)
1115	IF (vars_defined) THEN
1116	do k=1,klev
1117	do i=1,klon
1118	if (ptconvth(i,k)) then
1119	zx_tmp_fi3d(i,k)=1.
1120	else
1121	zx_tmp_fi3d(i,k)=0.
1122	endif
1123	enddo
1124	enddo
1125	ENDIF
1126	CALL histwrite_phy(o_ptconvth, zx_tmp_fi3d)
1127	IF (vars_defined) THEN
1128	do i=1,klon
1129	zx_tmp_fi2d(1:klon)=lmax_th(:)
1130	enddo
1131	ENDIF
1132	CALL histwrite_phy(o_lmaxth, zx_tmp_fi2d)
1133	endif ! iflag_thermals>=1
1134	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1135	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_vdf(1:klon,1:klev)/pdtphys
1136	CALL histwrite_phy(o_dtvdf, zx_tmp_fi3d)
1137	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_diss(1:klon,1:klev)/pdtphys
1138	CALL histwrite_phy(o_dtdis, zx_tmp_fi3d)
1139	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_vdf(1:klon,1:klev)/pdtphys
1140	CALL histwrite_phy(o_dqvdf, zx_tmp_fi3d)
1141	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_eva(1:klon,1:klev)/pdtphys
1142	CALL histwrite_phy(o_dteva, zx_tmp_fi3d)
1143	IF (vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_eva(1:klon,1:klev)/pdtphys
1144	CALL histwrite_phy(o_dqeva, zx_tmp_fi3d)
1145	zpt_conv = 0.
1146	WHERE (ptconv) zpt_conv = 1.
1147	CALL histwrite_phy(o_ptconv, zpt_conv)
1148	CALL histwrite_phy(o_ratqs, ratqs)
1149	IF (vars_defined) THEN
1150	zx_tmp_fi3d(1:klon,1:klev)=d_t_ajs(1:klon,1:klev)/pdtphys - &
1151	d_t_ajsb(1:klon,1:klev)/pdtphys
1152	ENDIF
1153	CALL histwrite_phy(o_dtthe, zx_tmp_fi3d)
1154	IF (vars_defined) THEN
1155	zx_tmp_fi3d(1:klon,1:klev)=d_u_ajs(1:klon,1:klev)/pdtphys
1156	ENDIF
1157	CALL histwrite_phy(o_duthe, zx_tmp_fi3d)
1158	IF (vars_defined) THEN
1159	zx_tmp_fi3d(1:klon,1:klev)=d_v_ajs(1:klon,1:klev)/pdtphys
1160	ENDIF
1161	CALL histwrite_phy(o_dvthe, zx_tmp_fi3d)
1162
1163	IF (iflag_thermals>=1) THEN
1164	! Pour l instant 0 a y reflichir pour les thermiques
1165	zx_tmp_fi2d=0.
1166	CALL histwrite_phy(o_ftime_th, zx_tmp_fi2d)
1167	CALL histwrite_phy(o_f_th, fm_therm)
1168	CALL histwrite_phy(o_e_th, entr_therm)
1169	CALL histwrite_phy(o_w_th, zw2)
1170	CALL histwrite_phy(o_q_th, zqasc)
1171	CALL histwrite_phy(o_a_th, fraca)
1172	CALL histwrite_phy(o_d_th, detr_therm)
1173	CALL histwrite_phy(o_f0_th, f0)
1174	CALL histwrite_phy(o_zmax_th, zmax_th)
1175	IF (vars_defined) THEN
1176	zx_tmp_fi3d(1:klon,1:klev)=d_q_ajs(1:klon,1:klev)/pdtphys - &
1177	d_q_ajsb(1:klon,1:klev)/pdtphys
1178	ENDIF
1179	CALL histwrite_phy(o_dqthe, zx_tmp_fi3d)
1180	ENDIF !iflag_thermals
1181	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_ajsb(1:klon,1:klev)/pdtphys
1182	CALL histwrite_phy(o_dtajs, zx_tmp_fi3d)
1183	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_q_ajsb(1:klon,1:klev)/pdtphys
1184	CALL histwrite_phy(o_dqajs, zx_tmp_fi3d)
1185	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=heat(1:klon,1:klev)/RDAY
1186	CALL histwrite_phy(o_dtswr, zx_tmp_fi3d)
1187	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=heat0(1:klon,1:klev)/RDAY
1188	CALL histwrite_phy(o_dtsw0, zx_tmp_fi3d)
1189	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=-1.*cool(1:klon,1:klev)/RDAY
1190	CALL histwrite_phy(o_dtlwr, zx_tmp_fi3d)
1191	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=-1.*cool0(1:klon,1:klev)/RDAY
1192	CALL histwrite_phy(o_dtlw0, zx_tmp_fi3d)
1193	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_ec(1:klon,1:klev)/pdtphys
1194	CALL histwrite_phy(o_dtec, zx_tmp_fi3d)
1195	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_vdf(1:klon,1:klev)/pdtphys
1196	CALL histwrite_phy(o_duvdf, zx_tmp_fi3d)
1197	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_vdf(1:klon,1:klev)/pdtphys
1198	CALL histwrite_phy(o_dvvdf, zx_tmp_fi3d)
1199	IF (ok_orodr) THEN
1200	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_oro(1:klon,1:klev)/pdtphys
1201	CALL histwrite_phy(o_duoro, zx_tmp_fi3d)
1202	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_oro(1:klon,1:klev)/pdtphys
1203	CALL histwrite_phy(o_dvoro, zx_tmp_fi3d)
1204	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_oro(1:klon,1:klev)/pdtphys
1205	CALL histwrite_phy(o_dtoro, zx_tmp_fi3d)
1206	ENDIF
1207	IF (ok_orolf) THEN
1208	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_lif(1:klon,1:klev)/pdtphys
1209	CALL histwrite_phy(o_dulif, zx_tmp_fi3d)
1210
1211	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_lif(1:klon,1:klev)/pdtphys
1212	CALL histwrite_phy(o_dvlif, zx_tmp_fi3d)
1213
1214	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_lif(1:klon,1:klev)/pdtphys
1215	CALL histwrite_phy(o_dtlif, zx_tmp_fi3d)
1216	ENDIF
1217
1218	IF (ok_hines) THEN
1219	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_u_hin(1:klon,1:klev)/pdtphys
1220	CALL histwrite_phy(o_duhin, zx_tmp_fi3d)
1221	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_v_hin(1:klon,1:klev)/pdtphys
1222	CALL histwrite_phy(o_dvhin, zx_tmp_fi3d)
1223	IF(vars_defined) zx_tmp_fi3d(1:klon,1:klev)=d_t_hin(1:klon,1:klev)/pdtphys
1224	CALL histwrite_phy(o_dthin, zx_tmp_fi3d)
1225	ENDIF
1226
1227	IF (ok_gwd_rando) then
1228	CALL histwrite_phy(o_du_gwd_rando, du_gwd_rando / pdtphys)
1229	CALL histwrite_phy(o_dv_gwd_rando, dv_gwd_rando / pdtphys)
1230	CALL histwrite_phy(o_vstr_gwd_rando, zvstr_gwd_rando)
1231	end IF
1232
1233	CALL histwrite_phy(o_rsu, swup)
1234	CALL histwrite_phy(o_rsd, swdn)
1235	CALL histwrite_phy(o_rlu, lwup)
1236	CALL histwrite_phy(o_rld, lwdn)
1237	CALL histwrite_phy(o_rsucs, swup0)
1238	CALL histwrite_phy(o_rsdcs, swdn0)
1239	CALL histwrite_phy(o_rlucs, lwup0)
1240	CALL histwrite_phy(o_rldcs, lwdn0)
1241	IF(vars_defined) THEN
1242	zx_tmp_fi3d(1:klon,1:klev)=d_t(1:klon,1:klev)+ &
1243	d_t_dyn(1:klon,1:klev)
1244	ENDIF
1245	CALL histwrite_phy(o_tnt, zx_tmp_fi3d)
1246	IF(vars_defined) THEN
1247	zx_tmp_fi3d(1:klon,1:klev)=heat(1:klon,1:klev)/RDAY - &
1248	cool(1:klon,1:klev)/RDAY
1249	ENDIF
1250	CALL histwrite_phy(o_tntr, zx_tmp_fi3d)
1251	IF(vars_defined) THEN
1252	zx_tmp_fi3d(1:klon,1:klev)= (d_t_lsc(1:klon,1:klev)+ &
1253	d_t_eva(1:klon,1:klev)+ &
1254	d_t_vdf(1:klon,1:klev))/pdtphys
1255	ENDIF
1256	CALL histwrite_phy(o_tntscpbl, zx_tmp_fi3d)
1257	IF(vars_defined) THEN
1258	zx_tmp_fi3d(1:klon,1:klev)=d_qx(1:klon,1:klev,ivap)+ &
1259	d_q_dyn(1:klon,1:klev)
1260	ENDIF
1261	CALL histwrite_phy(o_tnhus, zx_tmp_fi3d)
1262	IF(vars_defined) THEN
1263	zx_tmp_fi3d(1:klon,1:klev)=d_q_lsc(1:klon,1:klev)/pdtphys+ &
1264	d_q_eva(1:klon,1:klev)/pdtphys
1265	ENDIF
1266	CALL histwrite_phy(o_tnhusscpbl, zx_tmp_fi3d)
1267	CALL histwrite_phy(o_evu, coefm(:,:,is_ave))
1268	IF(vars_defined) THEN
1269	zx_tmp_fi3d(1:klon,1:klev)=q_seri(1:klon,1:klev)+ &
1270	ql_seri(1:klon,1:klev)
1271	ENDIF
1272	CALL histwrite_phy(o_h2o, zx_tmp_fi3d)
1273	if (iflag_con >= 3) then
1274	IF(vars_defined) THEN
1275	zx_tmp_fi3d(1:klon,1:klev)=-1 * (dnwd(1:klon,1:klev)+ &
1276	dnwd0(1:klon,1:klev))
1277	ENDIF
1278	CALL histwrite_phy(o_mcd, zx_tmp_fi3d)
1279	IF(vars_defined) THEN
1280	zx_tmp_fi3d(1:klon,1:klev)=upwd(1:klon,1:klev) + &
1281	dnwd(1:klon,1:klev)+ dnwd0(1:klon,1:klev)
1282	ENDIF
1283	CALL histwrite_phy(o_dmc, zx_tmp_fi3d)
1284	else if (iflag_con == 2) then
1285	CALL histwrite_phy(o_mcd, pmfd)
1286	CALL histwrite_phy(o_dmc, pmfu + pmfd)
1287	end if
1288	CALL histwrite_phy(o_ref_liq, ref_liq)
1289	CALL histwrite_phy(o_ref_ice, ref_ice)
1290	if (RCO2_per.NE.RCO2_act.OR.RCH4_per.NE.RCH4_act.OR. &
1291	RN2O_per.NE.RN2O_act.OR.RCFC11_per.NE.RCFC11_act.OR. &
1292	RCFC12_per.NE.RCFC12_act) THEN
1293	IF(vars_defined) zx_tmp_fi2d(1 : klon) = swupp ( 1 : klon, klevp1 )
1294	CALL histwrite_phy(o_rsut4co2, zx_tmp_fi2d)
1295	IF(vars_defined) zx_tmp_fi2d(1 : klon) = lwupp ( 1 : klon, klevp1 )
1296	CALL histwrite_phy(o_rlut4co2, zx_tmp_fi2d)
1297	IF(vars_defined) zx_tmp_fi2d(1 : klon) = swup0p ( 1 : klon, klevp1 )
1298	CALL histwrite_phy(o_rsutcs4co2, zx_tmp_fi2d)
1299	IF(vars_defined) zx_tmp_fi2d(1 : klon) = lwup0p ( 1 : klon, klevp1 )
1300	CALL histwrite_phy(o_rlutcs4co2, zx_tmp_fi2d)
1301	CALL histwrite_phy(o_rsu4co2, swupp)
1302	CALL histwrite_phy(o_rlu4co2, lwupp)
1303	CALL histwrite_phy(o_rsucs4co2, swup0p)
1304	CALL histwrite_phy(o_rlucs4co2, lwup0p)
1305	CALL histwrite_phy(o_rsd4co2, swdnp)
1306	CALL histwrite_phy(o_rld4co2, lwdnp)
1307	CALL histwrite_phy(o_rsdcs4co2, swdn0p)
1308	CALL histwrite_phy(o_rldcs4co2, lwdn0p)
1309	ENDIF
1310	!!!!!!!!!!!! Sorties niveaux de pression NMC !!!!!!!!!!!!!!!!!!!!
1311	DO iff=7, nfiles
1312
1313	CALL histwrite_phy(o_tnondef,tnondef(:,:,iff-6),iff)
1314	CALL histwrite_phy(o_ta,twriteSTD(:,:,iff-6),iff)
1315	CALL histwrite_phy(o_zg,phiwriteSTD(:,:,iff-6),iff)
1316	CALL histwrite_phy(o_hus,qwriteSTD(:,:,iff-6),iff)
1317	CALL histwrite_phy(o_hur,rhwriteSTD(:,:,iff-6),iff)
1318	CALL histwrite_phy(o_ua,uwriteSTD(:,:,iff-6),iff)
1319	CALL histwrite_phy(o_va,vwriteSTD(:,:,iff-6),iff)
1320	CALL histwrite_phy(o_wap,wwriteSTD(:,:,iff-6),iff)
1321	IF(vars_defined) THEN
1322	DO k=1, nlevSTD
1323	DO i=1, klon
1324	IF(tnondef(i,k,iff-6).NE.missing_val) THEN
1325	IF(freq_outNMC(iff-6).LT.0) THEN
1326	freq_moyNMC(iff-6)=(mth_len*un_jour)/freq_calNMC(iff-6)
1327	ELSE
1328	freq_moyNMC(iff-6)=freq_outNMC(iff-6)/freq_calNMC(iff-6)
1329	ENDIF
1330	zx_tmp_fi3d_STD(i,k) = (100.*tnondef(i,k,iff-6))/freq_moyNMC(iff-6)
1331	ELSE
1332	zx_tmp_fi3d_STD(i,k) = missing_val
1333	ENDIF
1334	ENDDO
1335	ENDDO
1336	ENDIF
1337	CALL histwrite_phy(o_psbg,zx_tmp_fi3d_STD,iff)
1338	IF(vars_defined) THEN
1339	DO k=1, nlevSTD
1340	DO i=1, klon
1341	IF(O3sumSTD(i,k,iff-6).NE.missing_val) THEN
1342	zx_tmp_fi3d_STD(i,k) = O3sumSTD(i,k,iff-6) * 1.e+9
1343	ELSE
1344	zx_tmp_fi3d_STD(i,k) = missing_val
1345	ENDIF
1346	ENDDO
1347	ENDDO !k=1, nlevSTD
1348	ENDIF
1349	CALL histwrite_phy(o_tro3,zx_tmp_fi3d_STD,iff)
1350	if (read_climoz == 2) THEN
1351	IF(vars_defined) THEN
1352	DO k=1, nlevSTD
1353	DO i=1, klon
1354	IF(O3daysumSTD(i,k,iff-6).NE.missing_val) THEN
1355	zx_tmp_fi3d_STD(i,k) = O3daysumSTD(i,k,iff-6) * 1.e+9
1356	ELSE
1357	zx_tmp_fi3d_STD(i,k) = missing_val
1358	ENDIF
1359	ENDDO
1360	ENDDO !k=1, nlevSTD
1361	ENDIF
1362	CALL histwrite_phy(o_tro3_daylight,zx_tmp_fi3d_STD,iff)
1363	endif
1364	CALL histwrite_phy(o_uxv,uvsumSTD(:,:,iff-6),iff)
1365	CALL histwrite_phy(o_vxq,vqsumSTD(:,:,iff-6),iff)
1366	CALL histwrite_phy(o_vxT,vTsumSTD(:,:,iff-6),iff)
1367	CALL histwrite_phy(o_wxq,wqsumSTD(:,:,iff-6),iff)
1368	CALL histwrite_phy(o_vxphi,vphisumSTD(:,:,iff-6),iff)
1369	CALL histwrite_phy(o_wxT,wTsumSTD(:,:,iff-6),iff)
1370	CALL histwrite_phy(o_uxu,u2sumSTD(:,:,iff-6),iff)
1371	CALL histwrite_phy(o_vxv,v2sumSTD(:,:,iff-6),iff)
1372	CALL histwrite_phy(o_TxT,T2sumSTD(:,:,iff-6),iff)
1373	ENDDO !nfiles
1374	!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
1375	IF (nqtot.GE.3) THEN
1376	DO iq=3,nqtot
1377	CALL histwrite_phy(o_trac(iq-2), qx(:,:,iq))
1378	CALL histwrite_phy(o_dtr_vdf(iq-2),d_tr_cl(:,:,iq-2))
1379	CALL histwrite_phy(o_dtr_the(iq-2),d_tr_th(:,:,iq-2))
1380	CALL histwrite_phy(o_dtr_con(iq-2),d_tr_cv(:,:,iq-2))
1381	CALL histwrite_phy(o_dtr_lessi_impa(iq-2),d_tr_lessi_impa(:,:,iq-2))
1382	CALL histwrite_phy(o_dtr_lessi_nucl(iq-2),d_tr_lessi_nucl(:,:,iq-2))
1383	CALL histwrite_phy(o_dtr_insc(iq-2),d_tr_insc(:,:,iq-2))
1384	CALL histwrite_phy(o_dtr_bcscav(iq-2),d_tr_bcscav(:,:,iq-2))
1385	CALL histwrite_phy(o_dtr_evapls(iq-2),d_tr_evapls(:,:,iq-2))
1386	CALL histwrite_phy(o_dtr_ls(iq-2),d_tr_ls(:,:,iq-2))
1387	CALL histwrite_phy(o_dtr_trsp(iq-2),d_tr_trsp(:,:,iq-2))
1388	CALL histwrite_phy(o_dtr_sscav(iq-2),d_tr_sscav(:,:,iq-2))
1389	CALL histwrite_phy(o_dtr_sat(iq-2),d_tr_sat(:,:,iq-2))
1390	CALL histwrite_phy(o_dtr_uscav(iq-2),d_tr_uscav(:,:,iq-2))
1391	zx_tmp_fi2d=0.
1392	IF(vars_defined) THEN
1393	DO k=1,klev
1394	zx_tmp_fi2d(:)=zx_tmp_fi2d(:)+zmasse(:,k)*qx(:,k,iq)
1395	ENDDO
1396	ENDIF
1397	CALL histwrite_phy(o_trac_cum(iq-2), zx_tmp_fi2d)
1398	ENDDO
1399	ENDIF
1400
1401	IF(.NOT.vars_defined) THEN
1402	!$OMP MASTER
1403	#ifndef CPP_NO_IOIPSL
1404	DO iff=1,nfiles
1405	IF (clef_files(iff)) THEN
1406	CALL histend(nid_files(iff))
1407	ndex2d = 0
1408	ndex3d = 0
1409
1410	ENDIF ! clef_files
1411	ENDDO ! iff
1412	#endif
1413	#ifdef CPP_XIOS
1414	!On finalise l'initialisation:
1415	CALL wxios_closedef()
1416	#endif
1417
1418	!$OMP END MASTER
1419	!$OMP BARRIER
1420	vars_defined = .TRUE.
1421
1422	END IF
1423
1424	END DO
1425
1426	IF(vars_defined) THEN
1427	! On synchronise les fichiers pour IOIPSL
1428	#ifndef CPP_NO_IOIPSL
1429	!$OMP MASTER
1430	DO iff=1,nfiles
1431	IF (ok_sync .AND. clef_files(iff)) THEN
1432	CALL histsync(nid_files(iff))
1433	ENDIF
1434	END DO
1435	!$OMP END MASTER
1436	#endif
1437	ENDIF
1438
1439	END SUBROUTINE phys_output_write
1440
1441	END MODULE phys_output_write_mod

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