New URL for NEMO forge! http://forge.nemo-ocean.eu

Since March 2022 along with NEMO 4.2 release, the code development moved to a self-hosted GitLab.
This present forge is now archived and remained online for history.

trcnam_medusa.F90 in branches/NERC/dev_r5518_NOC_MEDUSA_Stable/NEMOGCM/NEMO/TOP_SRC/MEDUSA – NEMO

Context Navigation

source: branches/NERC/dev_r5518_NOC_MEDUSA_Stable/NEMOGCM/NEMO/TOP_SRC/MEDUSA/trcnam_medusa.F90 @ 5937

Last change on this file since 5937 was 5937, checked in by jpalmier, 8 years ago
JPALM --27-11-2015 -- MEDUSA-TOP debugg in MEDUSA iom_use adapt
File size: 86.8 KB

Line
1	MODULE trcnam_medusa
2	!!======================================================================
3	!! * MODULE trcnam_medusa *
4	!! TOP : initialisation of some run parameters for MEDUSA bio-model
5	!!======================================================================
6	!! History : 2.0 ! 2007-12 (C. Ethe, G. Madec) Original code
7	!! - ! 2008-08 (K. Popova) adaptation for MEDUSA
8	!! - ! 2008-11 (A. Yool) continuing adaptation for MEDUSA
9	!! - ! 2010-03 (A. Yool) updated for branch inclusion
10	!! - ! 2011-04 (A. Yool) updated for ROAM project
11	!! - ! 2013-05 (A. Yool) renamed (from trclsm) for v3.5
12	!!----------------------------------------------------------------------
13	#if defined key_medusa
14	!!----------------------------------------------------------------------
15	!! 'key_medusa' : MEDUSA model
16	!!----------------------------------------------------------------------
17	!! trc_nam_medusa : MEDUSA model initialisation
18	!!----------------------------------------------------------------------
19	USE oce_trc ! Ocean variables
20	USE par_trc ! TOP parameters
21	USE trc ! TOP variables
22	USE sms_medusa ! sms trends
23	USE iom ! I/O manager
24	!!USE trc_nam_dia ! JPALM 13-11-2015 -- if iom_use for diag
25
26	!! AXY (04/02/14): necessary to find NaNs on HECTOR
27	USE, INTRINSIC :: ieee_arithmetic
28
29	IMPLICIT NONE
30	PRIVATE
31
32	PUBLIC trc_nam_medusa ! called by trcnam.F90 module
33	PUBLIC trc_nam_iom_medusa ! called by trcnam.F90 module
34
35	!!* Substitution
36	# include "domzgr_substitute.h90"
37	!!----------------------------------------------------------------------
38	!! NEMO/TOP 2.0 , LOCEAN-IPSL (2007)
39	!! $Id$
40	!! Software governed by the CeCILL licence (modipsl/doc/NEMO_CeCILL.txt)
41	!!----------------------------------------------------------------------
42
43	CONTAINS
44
45	SUBROUTINE trc_nam_medusa
46	!!----------------------------------------------------------------------
47	!! * trc_nam_medusa *
48	!!
49	!! ** Purpose : read MEDUSA namelist
50	!!
51	!! ** input : file 'namelist.trc.sms' containing the following
52	!! namelist: natbio, natopt, and natdbi ("key_trc_diabio")
53	!!
54	!! ekp: namelist nabio contains ALL parameters of the ecosystem
55	!! point sourses and sinks PLUS sediment exchange
56	!! dia_bio - used by Lobster to output all point terms
57	!! (sourses and sinks of bio)
58	!! dia_add - additional diagnostics for biology such as
59	!! primary production (2d depth integrated field or 3d)
60	!!----------------------------------------------------------------------
61	!!
62	INTEGER :: ji,jj,jk
63	REAL(wp) :: fthk, fdep, fdep1
64	REAL(wp) :: q1, q2, q3
65	!
66	NAMELIST/natbio/ xxi,xaln,xald,jphy,xvpn,xvpd, &
67	& xsin0,xnsi0,xuif,jliebig, &
68	& xthetam,xthetamd,xnln,xnld,xsld,xfln,xfld, &
69	& xgmi,xgme,xkmi,xkme,xphi,xbetan,xbetac,xkc, &
70	& xpmipn,xpmid,xpmepn,xpmepd,xpmezmi,xpmed, &
71	& xmetapn,xmetapd,xmetazmi,xmetazme, &
72	& jmpn,xmpn,xkphn,jmpd,xmpd,xkphd,jmzmi,xmzmi,xkzmi, &
73	& jmzme,xmzme,xkzme,jmd,jsfd,xmd,xmdc, &
74	& xthetapn,xthetapd,xthetazmi,xthetazme,xthetad, &
75	& xrfn,xrsn,vsed,xhr, &
76	& jiron,xfe_mass,xfe_sol,xfe_sed,xLgT,xk_FeL,xk_sc_Fe, &
77	& jexport,jfdfate,jrratio,jocalccd,xridg_r0, &
78	& xfdfrac1,xfdfrac2,xfdfrac3, &
79	& xcaco3a,xcaco3b,xmassc,xmassca,xmasssi,xprotca, &
80	& xprotsi,xfastc,xfastca,xfastsi, &
81	& jorgben,jinorgben,xsedn,xsedfe,xsedsi,xsedc,xsedca, &
82	& xburial, &
83	& jriver_n,jriver_si,jriver_c,jriver_alk,jriver_dep, &
84	& friver_dep, &
85	& xsdiss, &
86	& vsed,xhr, &
87	& sedlam,sedlostpoc,jpkb,jdms,jdms_input,jdms_model
88	#if defined key_roam
89	NAMELIST/natroam/ xthetaphy,xthetazoo,xthetanit, &
90	& xthetarem,xo2min, &
91	& f3_pH,f3_h2co3,f3_hco3,f3_co3,f3_omcal,f3_omarg, &
92	& f2_ccd_cal,f2_ccd_arg
93	#endif
94	NAMELIST/natopt/xkg0,xkr0,xkgp,xkrp,xlg,xlr,rpig
95	INTEGER :: jl, jn
96	INTEGER :: ios ! Local integer output status for namelist read
97	TYPE(DIAG), DIMENSION(jp_medusa_2d) :: meddia2d
98	TYPE(DIAG), DIMENSION(jp_medusa_3d) :: meddia3d
99	TYPE(DIAG), DIMENSION(jp_medusa_trd) :: meddiabio
100	CHARACTER(LEN=32) :: clname
101	!!
102	NAMELIST/nammeddia/ meddia3d, meddia2d ! additional diagnostics
103
104	!!----------------------------------------------------------------------
105
106	IF(lwp) WRITE(numout,*)
107	clname = 'namelist_medusa'
108	IF(lwp) WRITE(numout,*) ' trc_nam_medusa: read MEDUSA namelist'
109	IF(lwp) WRITE(numout,*) ' ~~~~~~~~~~~~~~'
110	# if defined key_debug_medusa
111	CALL flush(numout)
112	# endif
113
114
115	CALL ctl_opn( numnatp_ref, TRIM( clname )//'_ref', 'OLD', 'FORMATTED', 'SEQUENTIAL', -1, numout, .FALSE. )
116	CALL ctl_opn( numnatp_cfg, TRIM( clname )//'_cfg', 'OLD', 'FORMATTED', 'SEQUENTIAL', -1, numout, .FALSE. )
117	IF(lwm) CALL ctl_opn( numonp , 'output.namelist.pis' , 'UNKNOWN', 'FORMATTED', 'SEQUENTIAL', -1, numout, .FALSE. )
118
119	# if defined key_debug_medusa
120	CALL flush(numout)
121	IF (lwp) write (numout,*) '------------------------------'
122	IF (lwp) write (numout,*) 'Jpalm - debug'
123	IF (lwp) write (numout,*) 'open namelist_medusa -- OK'
124	IF (lwp) write (numout,*) 'Now, read namilists inside :'
125	IF (lwp) write (numout,*) ' '
126	# endif
127	!
128	# if defined key_debug_medusa
129	CALL flush(numout)
130	# endif
131	!
132	# if defined key_debug_medusa
133	IF (lwp) write (numout,*) '------------------------------'
134	IF (lwp) write (numout,*) 'Jpalm - debug'
135	IF (lwp) write (numout,*) 'Just before reading namelist_medusa :: nammeddia'
136	IF (lwp) write (numout,*) ' '
137	CALL flush(numout)
138	# endif
139
140	IF( ( .NOT.lk_iomput .AND. ln_diatrc ) .OR. ( ln_diatrc .AND. lk_medusa ) ) THEN
141	!
142	! Namelist nammeddia
143	! -------------------
144	REWIND( numnatp_ref ) ! Namelist nammeddia in reference namelist : MEDUSA diagnostics
145	READ ( numnatp_ref, nammeddia, IOSTAT = ios, ERR = 901)
146	901 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nammeddia in reference namelist', lwp )
147
148	REWIND( numnatp_cfg ) ! Namelist nammeddia in configuration namelist : MEDUSA diagnostics
149	READ ( numnatp_cfg, nammeddia, IOSTAT = ios, ERR = 902 )
150	902 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nammeddia in configuration namelist', lwp )
151	IF(lwm) WRITE ( numonp, nammeddia )
152
153	# if defined key_debug_medusa
154	IF (lwp) write (numout,*) '------------------------------'
155	IF (lwp) write (numout,*) 'Jpalm - debug'
156	IF (lwp) write (numout,*) 'reading namelist_medusa :: nammeddia OK'
157	IF (lwp) write (numout,*) 'Check number of variable in nammeddia:'
158	IF (lwp) write (numout,*) 'jp_medusa_2d: ',jp_medusa_2d ,'jp_medusa_3d: ',jp_medusa_3d
159	IF (lwp) write (numout,*) ' '
160	CALL flush(numout)
161	# endif
162	DO jl = 1, jp_medusa_2d
163	jn = jp_msa0_2d + jl - 1
164	# if defined key_debug_medusa
165	IF (lwp) write (numout,*) 'Check what is readden in nammeddia: -- 2D'
166	IF (lwp) write (numout,*) jl,'meddia2d-sname: ',meddia2d(jl)%sname
167	IF (lwp) write (numout,*) jl,'meddia2d-lname: ',meddia2d(jl)%lname
168	IF (lwp) write (numout,*) jl,'meddia2d-units: ',meddia2d(jl)%units
169	CALL flush(numout)
170	# endif
171	ctrc2d(jn) = meddia2d(jl)%sname
172	ctrc2l(jn) = meddia2d(jl)%lname
173	ctrc2u(jn) = meddia2d(jl)%units
174	END DO
175
176	DO jl = 1, jp_medusa_3d
177	jn = jp_msa0_3d + jl - 1
178	# if defined key_debug_medusa
179	IF (lwp) write (numout,*) 'Check what is readden in nammeddia: -- 3D'
180	IF (lwp) write (numout,*) jl,'meddia3d-sname: ',meddia3d(jl)%sname
181	IF (lwp) write (numout,*) jl,'meddia3d-lname: ',meddia3d(jl)%lname
182	IF (lwp) write (numout,*) jl,'meddia3d-units: ',meddia3d(jl)%units
183	CALL flush(numout)
184	# endif
185	ctrc3d(jn) = meddia3d(jl)%sname
186	ctrc3l(jn) = meddia3d(jl)%lname
187	ctrc3u(jn) = meddia3d(jl)%units
188	END DO
189
190	IF(lwp) THEN ! control print
191	# if defined key_debug_medusa
192	IF (lwp) write (numout,*) '------------------------------'
193	IF (lwp) write (numout,*) 'Jpalm - debug'
194	IF (lwp) write (numout,*) 'Var name assignation OK'
195	IF (lwp) write (numout,*) 'next check var names'
196	IF (lwp) write (numout,*) ' '
197	CALL flush(numout)
198	# endif
199	WRITE(numout,*)
200	WRITE(numout,*) ' Namelist : natadd'
201	DO jl = 1, jp_medusa_3d
202	jn = jp_msa0_3d + jl - 1
203	WRITE(numout,*) ' 3d diag nb : ', jn, ' short name : ', ctrc3d(jn), &
204	& ' long name : ', ctrc3l(jn), ' unit : ', ctrc3u(jn)
205	END DO
206	WRITE(numout,*) ' '
207
208	DO jl = 1, jp_medusa_2d
209	jn = jp_msa0_2d + jl - 1
210	WRITE(numout,*) ' 2d diag nb : ', jn, ' short name : ', ctrc2d(jn), &
211	& ' long name : ', ctrc2l(jn), ' unit : ', ctrc2u(jn)
212	END DO
213	WRITE(numout,*) ' '
214	ENDIF
215	!
216	ENDIF
217	!
218	# if defined key_debug_medusa
219	CALL flush(numout)
220	# endif
221
222	! 1.4 namelist natbio : biological parameters
223	! -------------------------------------------
224
225	xxi = 0.
226	xaln = 0.
227	xald = 0.
228	jphy = 0
229	xvpn = 0.
230	xvpd = 0.
231	xthetam = 0.
232	xthetamd = 0.
233	!!
234	xsin0 = 0.
235	xnsi0 = 0.
236	xuif = 0.
237	!!
238	jliebig = 0
239	xnln = 0.
240	xnld = 0.
241	xsld = 0.
242	xfln = 0.
243	xfld = 0.
244	!!
245	xgmi = 0.
246	xgme = 0.
247	xkmi = 0.
248	xkme = 0.
249	xphi = 0.
250	xbetan = 0.
251	xbetac = 0.
252	xkc = 0.
253	xpmipn = 0.
254	xpmid = 0.
255	xpmepn = 0.
256	xpmepd = 0.
257	xpmezmi = 0.
258	xpmed = 0.
259	!!
260	xmetapn = 0.
261	xmetapd = 0.
262	xmetazmi = 0.
263	xmetazme = 0.
264	!!
265	jmpn = 0
266	xmpn = 0.
267	xkphn = 0.
268	jmpd = 0
269	xmpd = 0.
270	xkphd = 0.
271	jmzmi = 0
272	xmzmi = 0.
273	xkzmi = 0.
274	jmzme = 0
275	xmzme = 0.
276	xkzme = 0.
277	!!
278	jmd = 0
279	jsfd = 0
280	xmd = 0.
281	xmdc = 0.
282	!!
283	xthetapn = 0.
284	xthetapd = 0.
285	xthetazmi = 0.
286	xthetazme = 0.
287	xthetad = 0.
288	xrfn = 0.
289	xrsn = 0. !: (NOT USED HERE; RETAINED FOR LOBSTER)
290	!!
291	jiron = 0
292	xfe_mass = 0.
293	xfe_sol = 0.
294	xfe_sed = 0.
295	xLgT = 0.
296	xk_FeL = 0.
297	xk_sc_Fe = 0.
298	!!
299	jexport = 0
300	jfdfate = 0
301	jrratio = 0
302	jocalccd = 0
303	xridg_r0 = 0.
304	xfdfrac1 = 0.
305	xfdfrac2 = 0.
306	xfdfrac3 = 0.
307	xcaco3a = 0.
308	xcaco3b = 0.
309	xmassc = 0.
310	xmassca = 0.
311	xmasssi = 0.
312	xprotca = 0.
313	xprotsi = 0.
314	xfastc = 0.
315	xfastca = 0.
316	xfastsi = 0.
317	!!
318	jorgben = 0
319	jinorgben = 0
320	xsedn = 0.
321	xsedfe = 0.
322	xsedsi = 0.
323	xsedc = 0.
324	xsedca = 0.
325	xburial = 0.
326	!!
327	jriver_n = 0
328	jriver_si = 0
329	jriver_c = 0
330	jriver_alk = 0
331	jriver_dep = 1
332	!!
333	xsdiss = 0.
334	!!
335	vsed = 0.
336	xhr = 0.
337	!!
338	sedlam = 0.
339	sedlostpoc = 0.
340	jpkb = 0.
341	jdms = 0
342	jdms_input = 0
343	jdms_input = 3
344
345	!REWIND(numnatm)
346	!READ(numnatm,natbio)
347	! Namelist natbio
348	! -------------------
349	REWIND( numnatp_ref ) ! Namelist natbio in reference namelist : MEDUSA diagnostics
350	READ ( numnatp_ref, natbio, IOSTAT = ios, ERR = 903)
351	903 IF( ios /= 0 ) CALL ctl_nam ( ios , 'natbio in reference namelist', lwp )
352
353	REWIND( numnatp_cfg ) ! Namelist natbio in configuration namelist : MEDUSA diagnostics
354	READ ( numnatp_cfg, natbio, IOSTAT = ios, ERR = 904 )
355	904 IF( ios /= 0 ) CALL ctl_nam ( ios , 'natbio in configuration namelist', lwp )
356	IF(lwm) WRITE ( numonp, natbio )
357
358	!! Primary production and chl related quantities
359	!! xxi : conversion factor from gC to mmolN
360	!! xaln : Chl-a specific initial slope of P-I curve for non-diatoms
361	!! xald : Chl-a specific initial slope of P-I curve for diatoms
362	!! jphy : phytoplankton T-dependent growth switch
363	!! xvpn : maximum growth rate for non-diatoms
364	!! xvpd : maximum growth rate for diatoms
365	!! xthetam : maximum Chl to C ratio for non-diatoms
366	!! xthetamd : maximum Chl to C ratio for diatoms
367	!!
368	!! Diatom silicon parameters
369	!! xsin0 : minimum diatom Si:N ratio
370	!! xnsi0 : minimum diatom N:Si ratio
371	!! xuif : hypothetical growth ratio at infinite Si:N ratio
372	!!
373	!! Nutrient limitation
374	!! jliebig : Liebig nutrient uptake switch
375	!! xnln : half-sat constant for DIN uptake by non-diatoms
376	!! xnld : half-sat constant for DIN uptake by diatoms
377	!! xsl : half-sat constant for Si uptake by diatoms
378	!! xfld : half-sat constant for Fe uptake by diatoms
379	!! xfln : half-sat constant for Fe uptake by non-datoms
380	!!
381	!! Grazing
382	!! xgmi : microzoo maximum growth rate
383	!! xgme : mesozoo maximum growth rate
384	!! xkmi : microzoo grazing half-sat parameter
385	!! xkme : mesozoo grazing half-sat parameter
386	!! xphi : micro/mesozoo grazing inefficiency
387	!! xbetan : micro/mesozoo N assimilation efficiency
388	!! xbetac : micro/mesozoo C assimilation efficiency
389	!! xkc : micro/mesozoo net C growth efficiency
390	!! xpmipn : grazing preference of microzoo for non-diatoms
391	!! xpmid : grazing preference of microzoo for diatoms
392	!! xpmepn : grazing preference of mesozoo for non-diatoms
393	!! xpmepd : grazing preference of mesozoo for diatoms
394	!! xpmezmi : grazing preference of mesozoo for microzoo
395	!! xpmed : grazing preference of mesozoo for detritus
396	!!
397	!! Metabolic losses
398	!! xmetapn : non-diatom metabolic loss rate
399	!! xmetapd : diatom metabolic loss rate
400	!! xmetazmi : microzoo metabolic loss rate
401	!! xmetazme : mesozoo metabolic loss rate
402	!!
403	!! Mortality/Remineralisation
404	!! jmpn : non-diatom mortality functional form
405	!! xmpn : non-diatom mortality rate
406	!! xkphn : non-diatom mortality half-sat constant
407	!! jmpd : diatom mortality functional form
408	!! xmpd : diatom mortality rate
409	!! xkphd : diatom mortality half-sat constant
410	!! jmzmi : microzoo mortality functional form
411	!! xmzmi : microzoo mortality rate
412	!! xkzmi : microzoo mortality half-sat constant
413	!! jmzme : mesozoo mortality functional form
414	!! xmzme : mesozoo mortality rate
415	!! xkzme : mesozoo mortality half-sat constant
416	!!
417	!! Remineralisation
418	!! jmd : detritus T-dependent remineralisation switch
419	!! jsfd : accelerate seafloor detritus remin. switch
420	!! xmd : detrital nitrogen remineralisation rate
421	!! xmdc : detrital carbon remineralisation rate
422	!!
423	!! Stochiometric ratios
424	!! xthetapn : non-diatom C:N ratio
425	!! xthetapd : diatom C:N ratio
426	!! xthetazmi : microzoo C:N ratio
427	!! xthetazme : mesozoo C:N ratio
428	!! xthetad : detritus C:N ratio
429	!! xrfn : phytoplankton Fe:N ratio
430	!! xrsn : diatom Si:N ratio (NOT used)
431	!!
432	!! Iron parameters
433	!! jiron : iron scavenging submodel switch
434	!! xfe_mass : iron atomic mass
435	!! xfe_sol : aeolian iron solubility
436	!! xfe_sed : sediment iron input
437	!! xLgT : total ligand concentration (umol/m3)
438	!! xk_FeL : dissociation constant for (Fe + L)
439	!! xk_sc_Fe : scavenging rate of "free" iron
440	!!
441	!! Fast-sinking detritus parameters
442	!! jexport : fast detritus remineralisation switch
443	!! jfdfate : fate of fast detritus at seafloor switch
444	!! jrratio : rain ratio switch
445	!! jocalccd : CCD switch
446	!! xridg_r0 : Ridgwell rain ratio coefficient
447	!! xfdfrac1 : fast-sinking fraction of diatom nat. mort. losses
448	!! xfdfrac2 : fast-sinking fraction of meszooplankton mort. losses
449	!! xfdfrac3 : fast-sinking fraction of diatom silicon grazing losses
450	!! xcaco3a : polar (high latitude) CaCO3 fraction
451	!! xcaco3b : equatorial (low latitude) CaCO3 fraction
452	!! xmassc : organic C mass:mole ratio, C106 H175 O40 N16 P1
453	!! xmassca : calcium carbonate mass:mole ratio, CaCO3
454	!! xmasssi : biogenic silicon mass:mole ratio, (H2SiO3)n
455	!! xprotca : calcium carbonate protection ratio
456	!! xprotsi : biogenic silicon protection ratio
457	!! xfastc : organic C remineralisation length scale
458	!! xfastca : calcium carbonate dissolution length scale
459	!! xfastsi : biogenic silicon dissolution length scale
460	!!
461	!! Benthic
462	!! jorgben : does organic detritus go to the benthos?
463	!! jinorgben : does inorganic detritus go to the benthos?
464	!! xsedn : organic nitrogen sediment remineralisation rate
465	!! xsedfe : organic iron sediment remineralisation rate
466	!! xsedsi : inorganic silicon sediment dissolution rate
467	!! xsedc : organic carbon sediment remineralisation rate
468	!! xsedca : inorganic carbon sediment dissolution rate
469	!! xburial : burial rate of seafloor detritus
470	!!
471	!! Riverine inputs
472	!! jriver_n : riverine N input?
473	!! jriver_si : riverine Si input?
474	!! jriver_c : riverine C input?
475	!! jriver_alk : riverine alkalinity input?
476	!! jriver_dep : depth of riverine input?
477	!!
478	!! Miscellaneous
479	!! xsdiss : diatom frustule dissolution rate
480	!!
481	!! Gravitational sinking
482	!! vsed : detritus gravitational sinking rate
483	!! xhr : coeff for Martin's remineralisation profile
484	!!
485	!! Additional parameters
486	!! sedlam : time coeff of POC in sediments
487	!! sedlostpoc : sediment geol loss for POC
488	!! jpkb : vertical layer for diagnostic of the vertical flux
489	!! NOTE that in LOBSTER it is a first vertical layers where
490	!! biology is active
491	!!
492	!! UKESM1 - new diagnostics !! Jpalm
493	!! jdms : include dms diagnostics
494	!! jdms_input : use instant (0) or diel-avg (1) inputs
495	!! jdms_model : choice of DMS model passed to atmosphere
496	!! 1 = ANDR, 2 = SIMO, 3 = ARAN, 4 = HALL
497	!!
498	IF(lwp) THEN
499	!!
500	!! AXY (08/11/13): compilation key notification
501	WRITE(numout,*) '=== Compilation keys'
502	#if defined key_roam
503	WRITE(numout,*) &
504	& ' key_roam = ACTIVE'
505	#else
506	WRITE(numout,*) &
507	& ' key_roam = INACTIVE'
508	#endif
509	#if defined key_axy_carbchem
510	WRITE(numout,*) &
511	& ' key_axy_carbchem = ACTIVE'
512	#else
513	WRITE(numout,*) &
514	& ' key_axy_carbchem = INACTIVE'
515	#endif
516	#if defined key_mocsy
517	WRITE(numout,*) &
518	& ' key_mocsy = ACTIVE'
519	#else
520	WRITE(numout,*) &
521	& ' key_mocsy = INACTIVE'
522	#endif
523	#if defined key_avgqsr_medusa
524	WRITE(numout,*) &
525	& ' key_avgqsr_medusa = ACTIVE'
526	#else
527	WRITE(numout,*) &
528	& ' key_avgqsr_medusa = INACTIVE'
529	#endif
530	#if defined key_bs_axy_zforce
531	WRITE(numout,*) &
532	& ' key_bs_axy_zforce = ACTIVE'
533	#else
534	WRITE(numout,*) &
535	& ' key_bs_axy_zforce = INACTIVE'
536	#endif
537	#if defined key_bs_axy_yrlen
538	WRITE(numout,*) &
539	& ' key_bs_axy_yrlen = ACTIVE'
540	#else
541	WRITE(numout,*) &
542	& ' key_bs_axy_yrlen = INACTIVE'
543	#endif
544	#if defined key_deep_fe_fix
545	WRITE(numout,*) &
546	& ' key_deep_fe_fix = ACTIVE'
547	#else
548	WRITE(numout,*) &
549	& ' key_deep_fe_fix = INACTIVE'
550	#endif
551	#if defined key_axy_nancheck
552	WRITE(numout,*) &
553	& ' key_axy_nancheck = ACTIVE'
554	#else
555	WRITE(numout,*) &
556	& ' key_axy_nancheck = INACTIVE'
557	#endif
558	# if defined key_axy_pi_co2
559	WRITE(numout,*) &
560	& ' key_axy_pi_co2 = ACTIVE'
561	#else
562	WRITE(numout,*) &
563	& ' key_axy_pi_co2 = INACTIVE'
564	# endif
565	# if defined key_debug_medusa
566	WRITE(numout,*) &
567	& ' key_debug_medusa = ACTIVE'
568	#else
569	WRITE(numout,*) &
570	& ' key_debug_medusa = INACTIVE'
571	# endif
572	WRITE(numout,*) ' '
573
574	WRITE(numout,*) 'natbio'
575	WRITE(numout,*) ' '
576	!!
577	!! Primary production and chl related quantities
578	WRITE(numout,*) '=== Primary production'
579	WRITE(numout,*) &
580	& ' conversion factor from gC to mmolN, xxi =', xxi
581	WRITE(numout,*) &
582	& ' Chl-a specific initial slope of P-I curve for non-diatoms, xaln = ', xaln
583	WRITE(numout,*) &
584	& ' Chl-a specific initial slope of P-I curve for diatoms, xald = ', xald
585	if (jphy.eq.1) then
586	WRITE(numout,*) &
587	& ' phytoplankton growth is temperature-dependent jphy = ', jphy
588	elseif (jphy.eq.0) then
589	WRITE(numout,*) &
590	& ' phytoplankton growth is temperature-independent jphy = ', jphy
591	endif
592	WRITE(numout,*) &
593	& ' maximum growth rate for non-diatoms, xvpn = ', xvpn
594	WRITE(numout,*) &
595	& ' maximum growth rate for diatoms, xvpn = ', xvpd
596	WRITE(numout,*) &
597	& ' maximum Chl to C ratio for non-diatoms, xthetam = ', xthetam
598	WRITE(numout,*) &
599	& ' maximum Chl to C ratio for diatoms, xthetamd = ', xthetamd
600	!!
601	!! Diatom silicon parameters
602	WRITE(numout,*) '=== Diatom silicon parameters'
603	WRITE(numout,*) &
604	& ' minimum diatom Si:N ratio, xsin0 = ', xsin0
605	WRITE(numout,*) &
606	& ' minimum diatom N:Si ratio, xnsi0 = ', xnsi0
607	WRITE(numout,*) &
608	& ' hypothetical growth ratio at infinite Si:N ratio, xuif = ', xuif
609	!!
610	!! Nutrient limitation
611	WRITE(numout,*) '=== Nutrient limitation'
612	if (jliebig.eq.1) then
613	WRITE(numout,*) &
614	& ' nutrient uptake is a Liebig Law (= most limiting) function jliebig = ', jliebig
615	elseif (jliebig.eq.0) then
616	WRITE(numout,*) &
617	& ' nutrient uptake is a multiplicative function jliebig = ', jliebig
618	endif
619	WRITE(numout,*) &
620	& ' half-sat constant for DIN uptake by non-diatoms, xnln = ', xnln
621	WRITE(numout,*) &
622	& ' half-sat constant for DIN uptake by diatoms, xnld = ', xnld
623	WRITE(numout,*) &
624	& ' half-sat constant for Si uptake by diatoms, xsld = ', xsld
625	WRITE(numout,*) &
626	& ' half-sat constant for Fe uptake by non-diatoms, xfln = ', xfln
627	WRITE(numout,*) &
628	& ' half-sat constant for Fe uptake by diatoms, xfld = ', xfld
629	!!
630	!! Grazing
631	WRITE(numout,*) '=== Zooplankton grazing'
632	WRITE(numout,*) &
633	& ' microzoo maximum growth rate, xgmi = ', xgmi
634	WRITE(numout,*) &
635	& ' mesozoo maximum growth rate, xgme = ', xgme
636	WRITE(numout,*) &
637	& ' microzoo grazing half-sat parameter, xkmi = ', xkmi
638	WRITE(numout,*) &
639	& ' mesozoo grazing half-sat parameter, xkme = ', xkme
640	WRITE(numout,*) &
641	& ' micro/mesozoo grazing inefficiency, xphi = ', xphi
642	WRITE(numout,*) &
643	& ' micro/mesozoo N assimilation efficiency, xbetan = ', xbetan
644	WRITE(numout,*) &
645	& ' micro/mesozoo C assimilation efficiency, xbetac = ', xbetan
646	WRITE(numout,*) &
647	& ' micro/mesozoo net C growth efficiency, xkc = ', xkc
648	WRITE(numout,*) &
649	& ' grazing preference of microzoo for non-diatoms, xpmipn = ', xpmipn
650	WRITE(numout,*) &
651	& ' grazing preference of microzoo for detritus, xpmid = ', xpmid
652	WRITE(numout,*) &
653	& ' grazing preference of mesozoo for non-diatoms, xpmepn = ', xpmepn
654	WRITE(numout,*) &
655	& ' grazing preference of mesozoo for diatoms, xpmepd = ', xpmepd
656	WRITE(numout,*) &
657	& ' grazing preference of mesozoo for microzoo, xpmezmi = ', xpmezmi
658	WRITE(numout,*) &
659	& ' grazing preference of mesozoo for detritus, xpmed = ', xpmed
660	!!
661	!! Metabolic losses
662	WRITE(numout,*) '=== Metabolic losses'
663	WRITE(numout,*) &
664	& ' non-diatom metabolic loss rate, xmetapn = ', xmetapn
665	WRITE(numout,*) &
666	& ' diatom metabolic loss rate, xmetapd = ', xmetapd
667	WRITE(numout,*) &
668	& ' microzoo metabolic loss rate, xmetazmi = ', xmetazmi
669	WRITE(numout,*) &
670	& ' mesozoo metabolic loss rate, xmetazme = ', xmetazme
671	!!
672	!! Mortality losses
673	WRITE(numout,*) '=== Mortality losses'
674	if (jmpn.eq.1) then
675	WRITE(numout,*) &
676	& ' non-diatom mortality functional form, LINEAR jmpn = ', jmpn
677	elseif (jmpn.eq.2) then
678	WRITE(numout,*) &
679	& ' non-diatom mortality functional form, QUADRATIC jmpn = ', jmpn
680	elseif (jmpn.eq.3) then
681	WRITE(numout,*) &
682	& ' non-diatom mortality functional form, HYPERBOLIC jmpn = ', jmpn
683	elseif (jmpn.eq.4) then
684	WRITE(numout,*) &
685	& ' non-diatom mortality functional form, SIGMOID jmpn = ', jmpn
686	endif
687	WRITE(numout,*) &
688	& ' non-diatom mortality rate, xmpn = ', xmpn
689	WRITE(numout,*) &
690	& ' non-diatom mortality half-sat constant xkphn = ', xkphn
691	if (jmpd.eq.1) then
692	WRITE(numout,*) &
693	& ' diatom mortality functional form, LINEAR jmpd = ', jmpd
694	elseif (jmpd.eq.2) then
695	WRITE(numout,*) &
696	& ' diatom mortality functional form, QUADRATIC jmpd = ', jmpd
697	elseif (jmpd.eq.3) then
698	WRITE(numout,*) &
699	& ' diatom mortality functional form, HYPERBOLIC jmpd = ', jmpd
700	elseif (jmpd.eq.4) then
701	WRITE(numout,*) &
702	& ' diatom mortality functional form, SIGMOID jmpd = ', jmpd
703	endif
704	WRITE(numout,*) &
705	& ' diatom mortality rate, xmpd = ', xmpd
706	WRITE(numout,*) &
707	& ' diatom mortality half-sat constant xkphd = ', xkphd
708	if (jmzmi.eq.1) then
709	WRITE(numout,*) &
710	& ' microzoo mortality functional form, LINEAR jmzmi = ', jmzmi
711	elseif (jmzmi.eq.2) then
712	WRITE(numout,*) &
713	& ' microzoo mortality functional form, QUADRATIC jmzmi = ', jmzmi
714	elseif (jmzmi.eq.3) then
715	WRITE(numout,*) &
716	& ' microzoo mortality functional form, HYPERBOLIC jmzmi = ', jmzmi
717	elseif (jmzmi.eq.4) then
718	WRITE(numout,*) &
719	& ' microzoo mortality functional form, SIGMOID jmzmi = ', jmzmi
720	endif
721	WRITE(numout,*) &
722	& ' microzoo mortality rate, xmzmi = ', xmzmi
723	WRITE(numout,*) &
724	& ' mesozoo mortality half-sat constant, xkzmi = ', xkzmi
725	if (jmzme.eq.1) then
726	WRITE(numout,*) &
727	& ' mesozoo mortality functional form, LINEAR jmzme = ', jmzme
728	elseif (jmzme.eq.2) then
729	WRITE(numout,*) &
730	& ' mesozoo mortality functional form, QUADRATIC jmzme = ', jmzme
731	elseif (jmzme.eq.3) then
732	WRITE(numout,*) &
733	& ' mesozoo mortality functional form, HYPERBOLIC jmzme = ', jmzme
734	elseif (jmzme.eq.4) then
735	WRITE(numout,*) &
736	& ' mesozoo mortality functional form, SIGMOID jmzme = ', jmzme
737	endif
738	WRITE(numout,*) &
739	& ' mesozoo mortality rate, xmzme = ', xmzme
740	WRITE(numout,*) &
741	& ' mesozoo mortality half-sat constant, xkzme = ', xkzme
742	!!
743	!! Remineralisation
744	WRITE(numout,*) '=== Remineralisation'
745	if (jmd.eq.1) then
746	WRITE(numout,*) &
747	& ' detritus remineralisation is temperature-dependent jmd = ', jmd
748	elseif (jmd.eq.0) then
749	WRITE(numout,*) &
750	& ' detritus remineralisation is temperature-independent jmd = ', jmd
751	endif
752	if (jsfd.eq.1) then
753	WRITE(numout,*) &
754	& ' detritus seafloor remineralisation is accelerated jsfd = ', jsfd
755	else
756	WRITE(numout,*) &
757	& ' detritus seafloor remineralisation occurs at same rate jsfd = ', jsfd
758	endif
759	WRITE(numout,*) &
760	& ' detrital nitrogen remineralisation rate, xmd = ', xmd
761	WRITE(numout,*) &
762	& ' detrital carbon remineralisation rate, xmdc = ', xmdc
763	!!
764	!! Stochiometric ratios
765	WRITE(numout,*) '=== Stoichiometric ratios'
766	WRITE(numout,*) &
767	& ' non-diatom C:N ratio, xthetapn = ', xthetapn
768	WRITE(numout,*) &
769	& ' diatom C:N ratio, xthetapd = ', xthetapd
770	WRITE(numout,*) &
771	& ' microzoo C:N ratio, xthetazmi = ', xthetazmi
772	WRITE(numout,*) &
773	& ' mesozoo C:N ratio, xthetazme = ', xthetazme
774	WRITE(numout,*) &
775	& ' detritus C:N ratio, xthetad = ', xthetad
776	WRITE(numout,*) &
777	& ' phytoplankton Fe:N ratio, xrfn = ', xrfn
778	WRITE(numout,*) &
779	& ' diatom Si:N ratio, xrsn = ', xrsn
780	!!
781	!! Iron parameters
782	WRITE(numout,*) '=== Iron parameters'
783	if (jiron.eq.1) then
784	WRITE(numout,*) &
785	& ' Dutkiewicz et al. (2005) iron scavenging jiron = ', jiron
786	elseif (jiron.eq.2) then
787	WRITE(numout,*) &
788	& ' Moore et al. (2004) iron scavenging jiron = ', jiron
789	elseif (jiron.eq.3) then
790	WRITE(numout,*) &
791	& ' Moore et al. (2008) iron scavenging jiron = ', jiron
792	elseif (jiron.eq.4) then
793	WRITE(numout,*) &
794	& ' Galbraith et al. (2010) iron scavenging jiron = ', jiron
795	else
796	WRITE(numout,*) &
797	& ' There is no iron scavenging jiron = ', jiron
798	endif
799	WRITE(numout,*) &
800	& ' iron atomic mass, xfe_mass = ', xfe_mass
801	WRITE(numout,*) &
802	& ' aeolian iron solubility, xfe_sol = ', xfe_sol
803	WRITE(numout,*) &
804	& ' sediment iron input, xfe_sed = ', xfe_sed
805	WRITE(numout,*) &
806	& ' total ligand concentration (umol/m3), xLgT = ', xLgT
807	WRITE(numout,*) &
808	& ' dissociation constant for (Fe + L), xk_FeL = ', xk_FeL
809	WRITE(numout,*) &
810	& ' scavenging rate for free iron, xk_sc_Fe = ', xk_sc_Fe
811	!!
812	!! Fast-sinking detritus parameters
813	WRITE(numout,*) '=== Fast-sinking detritus'
814	if (jexport.eq.1) then
815	WRITE(numout,*) &
816	& ' fast-detritus remin. uses Dunne et al. (2007; ballast) jexport = ', jexport
817	elseif (jexport.eq.2) then
818	WRITE(numout,*) &
819	& ' fast-detritus remin. uses Martin et al. (1987) jexport = ', jexport
820	elseif (jexport.eq.2) then
821	WRITE(numout,*) &
822	& ' fast-detritus remin. uses Henson et al. (2011) jexport = ', jexport
823	endif
824	if (jfdfate.eq.1) then
825	WRITE(numout,*) &
826	& ' fast-detritus reaching seafloor becomes slow-detritus jfdfate = ', jfdfate
827	elseif (jfdfate.eq.0) then
828	WRITE(numout,*) &
829	& ' fast-detritus reaching seafloor instantly remineralised jfdfate = ', jfdfate
830	endif
831	#if defined key_roam
832	if (jrratio.eq.0) then
833	WRITE(numout,*) &
834	& ' Dunne et al. (2005) rain ratio submodel jrratio = ', jrratio
835	elseif (jrratio.eq.1) then
836	WRITE(numout,*) &
837	& ' Ridgwell et al. (2007) rain ratio submodel (surface omega) jrratio = ', jrratio
838	elseif (jrratio.eq.2) then
839	WRITE(numout,*) &
840	& ' Ridgwell et al. (2007) rain ratio submodel (3D omega) jrratio = ', jrratio
841	endif
842	#else
843	jrratio = 0
844	WRITE(numout,*) &
845	& ' Dunne et al. (2005) rain ratio submodel jrratio = ', jrratio
846	#endif
847	#if defined key_roam
848	if (jocalccd.eq.0) then
849	WRITE(numout,*) &
850	& ' Default, fixed CCD used jocalccd = ', jocalccd
851	elseif (jocalccd.eq.1) then
852	WRITE(numout,*) &
853	& ' Calculated, dynamic CCD used jocalccd = ', jocalccd
854	endif
855	#else
856	jocalccd = 0
857	WRITE(numout,*) &
858	& ' Default, fixed CCD used jocalccd = ', jocalccd
859	#endif
860	WRITE(numout,*) &
861	& ' Ridgwell rain ratio coefficient, xridg_r0 = ', xridg_r0
862	WRITE(numout,*) &
863	& ' fast-sinking fraction of diatom nat. mort. losses, xfdfrac1 = ', xfdfrac1
864	WRITE(numout,*) &
865	& ' fast-sinking fraction of mesozooplankton mort. losses, xfdfrac2 = ', xfdfrac2
866	WRITE(numout,*) &
867	& ' fast-sinking fraction of diatom silicon grazing losses, xfdfrac3 = ', xfdfrac3
868	WRITE(numout,*) &
869	& ' polar (high latitude) CaCO3 fraction, xcaco3a = ', xcaco3a
870	WRITE(numout,*) &
871	& ' equatorial (low latitude) CaCO3 fraction, xcaco3b = ', xcaco3b
872	WRITE(numout,*) &
873	& ' organic C mass:mole ratio, C106 H175 O40 N16 P1, xmassc = ', xmassc
874	WRITE(numout,*) &
875	& ' calcium carbonate mass:mole ratio, CaCO3, xmassca = ', xmassca
876	WRITE(numout,*) &
877	& ' biogenic silicon mass:mole ratio, (H2SiO3)n, xmasssi = ', xmasssi
878	WRITE(numout,*) &
879	& ' calcium carbonate protection ratio, xprotca = ', xprotca
880	WRITE(numout,*) &
881	& ' biogenic silicon protection ratio, xprotsi = ', xprotsi
882	WRITE(numout,*) &
883	& ' organic C remineralisation length scale, xfastc = ', xfastc
884	WRITE(numout,*) &
885	& ' calcium carbonate dissolution length scale, xfastca = ', xfastca
886	WRITE(numout,*) &
887	& ' biogenic silicon dissolution length scale, xfastsi = ', xfastsi
888	!!
889	!! Benthos parameters
890	WRITE(numout,*) '=== Benthos parameters'
891	WRITE(numout,*) &
892	& ' does organic detritus go to the benthos?, jorgben = ', jorgben
893	WRITE(numout,*) &
894	& ' does inorganic detritus go to the benthos?, jinorgben = ', jinorgben
895	!!
896	!! Some checks on parameters related to benthos parameters
897	if (jorgben.eq.1 .and. jsfd.eq.1) then
898	!! slow detritus going to benthos at an accelerated rate
899	WRITE(numout,*) ' === WARNING! ==='
900	WRITE(numout,) ' jsfd and* jorgben are active - please check that you wish this'
901	WRITE(numout,*) ' === WARNING! ==='
902	endif
903	if (jorgben.eq.1 .and. jfdfate.eq.1) then
904	!! fast detritus going to benthos but via slow detritus
905	WRITE(numout,*) ' === WARNING! ==='
906	WRITE(numout,) ' jfdfate and* jorgben are active - please check that you wish this'
907	WRITE(numout,*) ' === WARNING! ==='
908	endif
909	if (jorgben.eq.0 .and. jinorgben.eq.1) then
910	!! inorganic fast detritus going to benthos but organic fast detritus is not
911	WRITE(numout,*) ' === WARNING! ==='
912	WRITE(numout,*) ' jinorgben is active but jorgben is not - please check that you wish this'
913	WRITE(numout,*) ' === WARNING! ==='
914	endif
915	WRITE(numout,*) &
916	& ' organic nitrogen sediment remineralisation rate, xsedn = ', xsedn
917	WRITE(numout,*) &
918	& ' organic iron sediment remineralisation rate, xsedfe = ', xsedfe
919	WRITE(numout,*) &
920	& ' inorganic silicon sediment remineralisation rate, xsedsi = ', xsedsi
921	WRITE(numout,*) &
922	& ' organic carbon sediment remineralisation rate, xsedc = ', xsedc
923	WRITE(numout,*) &
924	& ' inorganic carbon sediment remineralisation rate, xsedca = ', xsedca
925	WRITE(numout,*) &
926	& ' burial rate of seafloor detritus, xburial = ', xburial
927	!!
928	!! Riverine inputs
929	WRITE(numout,*) '=== Riverine inputs'
930	if (jriver_n.eq.0) then
931	WRITE(numout,*) &
932	& ' no riverine N input, jriver_n = ', jriver_n
933	elseif (jriver_n.eq.1) then
934	WRITE(numout,*) &
935	& ' riverine N concentrations specified, jriver_n = ', jriver_n
936	elseif (jriver_n.eq.2) then
937	WRITE(numout,*) &
938	& ' riverine N inputs specified, jriver_n = ', jriver_n
939	endif
940	if (jriver_si.eq.0) then
941	WRITE(numout,*) &
942	& ' no riverine Si input, jriver_si = ', jriver_si
943	elseif (jriver_si.eq.1) then
944	WRITE(numout,*) &
945	& ' riverine Si concentrations specified, jriver_si = ', jriver_si
946	elseif (jriver_si.eq.2) then
947	WRITE(numout,*) &
948	& ' riverine Si inputs specified, jriver_si = ', jriver_si
949	endif
950	if (jriver_c.eq.0) then
951	WRITE(numout,*) &
952	& ' no riverine C input, jriver_c = ', jriver_c
953	elseif (jriver_c.eq.1) then
954	WRITE(numout,*) &
955	& ' riverine C concentrations specified, jriver_c = ', jriver_c
956	elseif (jriver_c.eq.2) then
957	WRITE(numout,*) &
958	& ' riverine C inputs specified, jriver_c = ', jriver_c
959	endif
960	if (jriver_alk.eq.0) then
961	WRITE(numout,*) &
962	& ' no riverine alkalinity input, jriver_alk = ', jriver_alk
963	elseif (jriver_alk.eq.1) then
964	WRITE(numout,*) &
965	& ' riverine alkalinity concentrations specified, jriver_alk = ', jriver_alk
966	elseif (jriver_alk.eq.2) then
967	WRITE(numout,*) &
968	& ' riverine alkalinity inputs specified, jriver_alk = ', jriver_alk
969	endif
970	!! AXY (19/07/12): prevent (gross) stupidity on part of user
971	if (jriver_dep.lt.1.or.jriver_dep.ge.jpk) then
972	jriver_dep = 1
973	endif
974	WRITE(numout,*) &
975	& ' riverine input applied to down to depth k = ... jriver_dep = ', jriver_dep
976	!!
977	!! Miscellaneous
978	WRITE(numout,*) '=== Miscellaneous'
979	WRITE(numout,*) &
980	& ' diatom frustule dissolution rate, xsdiss = ', xsdiss
981	!!
982	!! Gravitational sinking
983	WRITE(numout,*) '=== Gravitational sinking'
984	WRITE(numout,*) &
985	& ' detritus gravitational sinking rate, vsed = ', vsed
986	WRITE(numout,*) &
987	& ' coefficient for Martin et al. (1987) remineralisation, xhr = ', xhr
988	!!
989	!! Non-Medusa parameters
990	WRITE(numout,*) '=== Non-Medusa parameters'
991	WRITE(numout,*) &
992	& ' time coeff of POC in sediments, sedlam = ', sedlam
993	WRITE(numout,*) &
994	& ' Sediment geol loss for POC, sedlostpoc = ', sedlostpoc
995	WRITE(numout,*) &
996	& ' Vert layer for diagnostic of vertical flux, jpkp = ', jpkb
997	!!
998	!! UKESM1 - new diagnostics !! Jpalm; AXY (08/07/15)
999	WRITE(numout,*) '=== UKESM1-related parameters'
1000	WRITE(numout,*) &
1001	& ' include DMS diagnostic?, jdms = ', jdms
1002	if (jdms_input .eq. 0) then
1003	WRITE(numout,*) &
1004	& ' use instant (0) or diel-avg (1) inputs, jdms_input = instantaneous'
1005	else
1006	WRITE(numout,*) &
1007	& ' use instant (0) or diel-avg (1) inputs, jdms_input = diel-average'
1008	endif
1009	if (jdms_model .eq. 1) then
1010	WRITE(numout,*) &
1011	& ' choice of DMS model passed to atmosphere, jdms_model = Anderson et al. (2001)'
1012	elseif (jdms_model .eq. 2) then
1013	WRITE(numout,*) &
1014	& ' choice of DMS model passed to atmosphere, jdms_model = Simo & Dachs (2002)'
1015	elseif (jdms_model .eq. 3) then
1016	WRITE(numout,*) &
1017	& ' choice of DMS model passed to atmosphere, jdms_model = Aranami & Tsunogai (2004)'
1018	elseif (jdms_model .eq. 4) then
1019	WRITE(numout,*) &
1020	& ' choice of DMS model passed to atmosphere, jdms_model = Halloran et al. (2010)'
1021	endif
1022	!!
1023	ENDIF
1024	!!
1025	!! Key depth positions (with thanks to Andrew Coward for bug-fixing this bit)
1026	DO jk = 1,jpk
1027	!! level thickness
1028	fthk = e3t_1d(jk)
1029	!! level depth (top of level)
1030	fdep = gdepw_1d(jk)
1031	!! level depth (bottom of level)
1032	fdep1 = fdep + fthk
1033	!!
1034	if (fdep.lt.100.0.AND.fdep1.gt.100.0) then ! 100 m
1035	i0100 = jk
1036	elseif (fdep.lt.150.0.AND.fdep1.gt.150.0) then ! 150 m (for BASIN)
1037	i0150 = jk
1038	elseif (fdep.lt.200.0.AND.fdep1.gt.200.0) then ! 200 m
1039	i0200 = jk
1040	elseif (fdep.lt.500.0.AND.fdep1.gt.500.0) then ! 500 m
1041	i0500 = jk
1042	elseif (fdep.lt.1000.0.AND.fdep1.gt.1000.0) then ! 1000 m
1043	i1000 = jk
1044	elseif (fdep1.lt.1100.0) then ! 1100 m (for Moore et al. sedimentary iron)
1045	i1100 = jk
1046	endif
1047	enddo
1048	!!
1049	IF(lwp) THEN
1050	WRITE(numout,*) '=== Position of key depths'
1051	WRITE(numout,*) &
1052	& ' jk position of 100 m horizon i0100 = ', i0100
1053	WRITE(numout,*) &
1054	& ' jk position of 150 m horizon i0150 = ', i0150
1055	WRITE(numout,*) &
1056	& ' jk position of 200 m horizon i0200 = ', i0200
1057	WRITE(numout,*) &
1058	& ' jk position of 500 m horizon i0500 = ', i0500
1059	WRITE(numout,*) &
1060	& ' jk position of 1000 m horizon i1000 = ', i1000
1061	WRITE(numout,*) &
1062	& ' jk position of 1100 m horizon [*] i1100 = ', i1100
1063	WRITE(numout,*) 'Got here ' , SIZE(friver_dep)
1064	CALL flush(numout)
1065	ENDIF
1066
1067	#if defined key_roam
1068
1069	! 1.4b namelist natroam : ROAM parameters
1070	! ---------------------------------------
1071
1072	xthetaphy = 0.
1073	xthetazoo = 0.
1074	xthetanit = 0.
1075	xthetarem = 0.
1076	xo2min = 0.
1077
1078	!READ(numnatm,natroam)
1079	! Namelist natroam
1080	! -------------------
1081	REWIND( numnatp_ref ) ! Namelist natroam in reference namelist : MEDUSA diagnostics
1082	READ ( numnatp_ref, natroam, IOSTAT = ios, ERR = 905)
1083	905 IF( ios /= 0 ) CALL ctl_nam ( ios , 'natroam in reference namelist', lwp )
1084
1085	REWIND( numnatp_cfg ) ! Namelist natroam in configuration namelist : MEDUSA diagnostics
1086	READ ( numnatp_cfg, natroam, IOSTAT = ios, ERR = 906 )
1087	906 IF( ios /= 0 ) CALL ctl_nam ( ios , 'natroam in configuration namelist', lwp )
1088	IF(lwm) WRITE ( numonp, natroam )
1089
1090	!! ROAM carbon, alkalinity and oxygen cycle parameters
1091	!! xthetaphy : oxygen evolution/consumption by phytoplankton
1092	!! xthetazoo : oxygen consumption by zooplankton
1093	!! xthetanit : oxygen consumption by nitrogen remineralisation
1094	!! xthetarem : oxygen consumption by carbon remineralisation
1095	!! xo2min : oxygen minimum concentration
1096
1097	IF(lwp) THEN
1098	WRITE(numout,*) 'natroam'
1099	WRITE(numout,*) ' '
1100	!!
1101	!! ROAM carbon, alkalinity and oxygen cycle parameters
1102	WRITE(numout,*) '=== ROAM carbon, alkalinity and oxygen cycle parameters'
1103	WRITE(numout,*) &
1104	& ' oxygen evolution/consumption by phytoplankton xthetaphy = ', xthetaphy
1105	WRITE(numout,*) &
1106	& ' oxygen consumption by zooplankton xthetazoo = ', xthetazoo
1107	WRITE(numout,*) &
1108	& ' oxygen consumption by nitrogen remineralisation xthetanit = ', xthetanit
1109	WRITE(numout,*) &
1110	& ' oxygen consumption by carbon remineralisation xthetarem = ', xthetarem
1111	WRITE(numout,*) &
1112	& ' oxygen minimum concentration xo2min = ', xo2min
1113	ENDIF
1114
1115	#endif
1116
1117	CALL flush(numout)
1118
1119	! 1.5 namelist natopt : parameters for optic
1120	! ------------------------------------------
1121
1122	xkg0 = 0.
1123	xkr0 = 0.
1124	xkgp = 0.
1125	xkrp = 0.
1126	xlg = 0.
1127	xlr = 0.
1128	rpig = 0.
1129
1130	!READ(numnatm,natopt)
1131	! Namelist natopt
1132	! -------------------
1133	REWIND( numnatp_ref ) ! Namelist natopt in reference namelist : MEDUSA diagnostics
1134	READ ( numnatp_ref, natopt, IOSTAT = ios, ERR = 907)
1135	907 IF( ios /= 0 ) CALL ctl_nam ( ios , 'natopt in reference namelist', lwp )
1136
1137	REWIND( numnatp_cfg ) ! Namelist natopt in configuration namelist : MEDUSA diagnostics
1138	READ ( numnatp_cfg, natopt, IOSTAT = ios, ERR = 908 )
1139	908 IF( ios /= 0 ) CALL ctl_nam ( ios , 'natopt in configuration namelist', lwp )
1140	IF(lwm) WRITE ( numonp, natopt )
1141
1142	IF(lwp) THEN
1143	WRITE(numout,*) 'natopt'
1144	WRITE(numout,*) ' '
1145	WRITE(numout,*) ' green water absorption coeff xkg0 = ',xkg0
1146	WRITE(numout,*) ' red water absorption coeff xkr0 = ',xkr0
1147	WRITE(numout,*) ' pigment red absorption coeff xkrp = ',xkrp
1148	WRITE(numout,*) ' pigment green absorption coeff xkgp = ',xkgp
1149	WRITE(numout,*) ' green chl exposant xlg = ',xlg
1150	WRITE(numout,*) ' red chl exposant xlr = ',xlr
1151	WRITE(numout,*) ' chla/chla+phea ratio rpig = ',rpig
1152	WRITE(numout,*) ' '
1153
1154	ENDIF
1155
1156	IF(lwp) THEN
1157	WRITE(numout,*) 'NaN check'
1158	WRITE(numout,*) ' '
1159	q1 = -1.
1160	q2 = 0.
1161	q3 = log(q1)
1162	write (numout,*) 'q3 = ', q3
1163	if ( ieee_is_nan( q3 ) ) then
1164	write (numout,*) 'NaN detected'
1165	else
1166	write (numout,*) 'NaN not detected'
1167	endif
1168	WRITE(numout,*) ' '
1169	ENDIF
1170
1171	END SUBROUTINE trc_nam_medusa
1172
1173	SUBROUTINE trc_nam_iom_medusa
1174	!!---------------------------------------------------------------------
1175	!! * ROUTINE trc_nam_iom_medusa *
1176	!!
1177	!! ** Purpose : read all diag requested in iodef file through iom_use
1178	!! So it is done only once
1179	!! ** All diagnostic MEDUSA could asked are registered in
1180	!! the med_diag type with a boolean value
1181	!! So if required, one diagnostic will be true.
1182	!!
1183	!!---------------------------------------------------------------------
1184	!!
1185	!!
1186	!!----------------------------------------------------------------------
1187	!! Variable conventions
1188	!!----------------------------------------------------------------------
1189	!!
1190	IF (iom_use("INVTN")) THEN
1191	med_diag%INVTN%dgsave = .TRUE.
1192	ELSE
1193	med_diag%INVTN%dgsave = .FALSE.
1194	ENDIF
1195	IF (iom_use("INVTSI")) THEN
1196	med_diag%INVTSI%dgsave = .TRUE.
1197	ELSE
1198	med_diag%INVTSI%dgsave = .FALSE.
1199	ENDIF
1200	IF (iom_use("INVTFE")) THEN
1201	med_diag%INVTFE%dgsave = .TRUE.
1202	ELSE
1203	med_diag%INVTFE%dgsave = .FALSE.
1204	ENDIF
1205	IF (iom_use("PRN")) THEN
1206	med_diag%PRN%dgsave = .TRUE.
1207	ELSE
1208	med_diag%PRN%dgsave = .FALSE.
1209	ENDIF
1210	IF (iom_use("MPN")) THEN
1211	med_diag%MPN%dgsave = .TRUE.
1212	ELSE
1213	med_diag%MPN%dgsave = .FALSE.
1214	ENDIF
1215	IF (iom_use("PRD")) THEN
1216	med_diag%PRD%dgsave = .TRUE.
1217	ELSE
1218	med_diag%PRD%dgsave = .FALSE.
1219	ENDIF
1220	IF (iom_use("MPD")) THEN
1221	med_diag%MPD%dgsave = .TRUE.
1222	ELSE
1223	med_diag%MPD%dgsave = .FALSE.
1224	ENDIF
1225	IF (iom_use("DSED")) THEN
1226	med_diag%DSED%dgsave = .TRUE.
1227	ELSE
1228	med_diag%DSED%dgsave = .FALSE.
1229	ENDIF
1230	IF (iom_use("OPAL")) THEN
1231	med_diag%OPAL%dgsave = .TRUE.
1232	ELSE
1233	med_diag%OPAL%dgsave = .FALSE.
1234	ENDIF
1235	IF (iom_use("OPALDISS")) THEN
1236	med_diag%OPALDISS%dgsave = .TRUE.
1237	ELSE
1238	med_diag%OPALDISS%dgsave = .FALSE.
1239	ENDIF
1240	IF (iom_use("GMIPn")) THEN
1241	med_diag%GMIPn%dgsave = .TRUE.
1242	ELSE
1243	med_diag%GMIPn%dgsave = .FALSE.
1244	ENDIF
1245	IF (iom_use("GMID")) THEN
1246	med_diag%GMID%dgsave = .TRUE.
1247	ELSE
1248	med_diag%GMID%dgsave = .FALSE.
1249	ENDIF
1250	IF (iom_use("MZMI")) THEN
1251	med_diag%MZMI%dgsave = .TRUE.
1252	ELSE
1253	med_diag%MZMI%dgsave = .FALSE.
1254	ENDIF
1255	IF (iom_use("GMEPN")) THEN
1256	med_diag%GMEPN%dgsave = .TRUE.
1257	ELSE
1258	med_diag%GMEPN%dgsave = .FALSE.
1259	ENDIF
1260	IF (iom_use("GMEPD")) THEN
1261	med_diag%GMEPD%dgsave = .TRUE.
1262	ELSE
1263	med_diag%GMEPD%dgsave = .FALSE.
1264	ENDIF
1265	IF (iom_use("GMEZMI")) THEN
1266	med_diag%GMEZMI%dgsave = .TRUE.
1267	ELSE
1268	med_diag%GMEZMI%dgsave = .FALSE.
1269	ENDIF
1270	IF (iom_use("GMED")) THEN
1271	med_diag%GMED%dgsave = .TRUE.
1272	ELSE
1273	med_diag%GMED%dgsave = .FALSE.
1274	ENDIF
1275	IF (iom_use("MZME")) THEN
1276	med_diag%MZME%dgsave = .TRUE.
1277	ELSE
1278	med_diag%MZME%dgsave = .FALSE.
1279	ENDIF
1280	IF (iom_use("DEXP")) THEN
1281	med_diag%DEXP%dgsave = .TRUE.
1282	ELSE
1283	med_diag%DEXP%dgsave = .FALSE.
1284	ENDIF
1285	IF (iom_use("DETN")) THEN
1286	med_diag%DETN%dgsave = .TRUE.
1287	ELSE
1288	med_diag%DETN%dgsave = .FALSE.
1289	ENDIF
1290	IF (iom_use("MDET")) THEN
1291	med_diag%MDET%dgsave = .TRUE.
1292	ELSE
1293	med_diag%MDET%dgsave = .FALSE.
1294	ENDIF
1295	IF (iom_use("AEOLIAN")) THEN
1296	med_diag%AEOLIAN%dgsave = .TRUE.
1297	ELSE
1298	med_diag%AEOLIAN%dgsave = .FALSE.
1299	ENDIF
1300	IF (iom_use("BENTHIC")) THEN
1301	med_diag%BENTHIC%dgsave = .TRUE.
1302	ELSE
1303	med_diag%BENTHIC%dgsave = .FALSE.
1304	ENDIF
1305	IF (iom_use("SCAVENGE")) THEN
1306	med_diag%SCAVENGE%dgsave = .TRUE.
1307	ELSE
1308	med_diag%SCAVENGE%dgsave = .FALSE.
1309	ENDIF
1310	IF (iom_use("PN_JLIM")) THEN
1311	med_diag%PN_JLIM%dgsave = .TRUE.
1312	ELSE
1313	med_diag%PN_JLIM%dgsave = .FALSE.
1314	ENDIF
1315	IF (iom_use("PN_NLIM")) THEN
1316	med_diag%PN_NLIM%dgsave = .TRUE.
1317	ELSE
1318	med_diag%PN_NLIM%dgsave = .FALSE.
1319	ENDIF
1320	IF (iom_use("PN_FELIM")) THEN
1321	med_diag%PN_FELIM%dgsave = .TRUE.
1322	ELSE
1323	med_diag%PN_FELIM%dgsave = .FALSE.
1324	ENDIF
1325	IF (iom_use("PD_JLIM")) THEN
1326	med_diag%PD_JLIM%dgsave = .TRUE.
1327	ELSE
1328	med_diag%PD_JLIM%dgsave = .FALSE.
1329	ENDIF
1330	IF (iom_use("PD_NLIM")) THEN
1331	med_diag%PD_NLIM%dgsave = .TRUE.
1332	ELSE
1333	med_diag%PD_NLIM%dgsave = .FALSE.
1334	ENDIF
1335	IF (iom_use("PD_FELIM")) THEN
1336	med_diag%PD_FELIM%dgsave = .TRUE.
1337	ELSE
1338	med_diag%PD_FELIM%dgsave = .FALSE.
1339	ENDIF
1340	IF (iom_use("PD_SILIM")) THEN
1341	med_diag%PD_SILIM%dgsave = .TRUE.
1342	ELSE
1343	med_diag%PD_SILIM%dgsave = .FALSE.
1344	ENDIF
1345	IF (iom_use("PDSILIM2")) THEN
1346	med_diag%PDSILIM2%dgsave = .TRUE.
1347	ELSE
1348	med_diag%PDSILIM2%dgsave = .FALSE.
1349	ENDIF
1350	IF (iom_use("SDT__100")) THEN
1351	med_diag%SDT__100%dgsave = .TRUE.
1352	ELSE
1353	med_diag%SDT__100%dgsave = .FALSE.
1354	ENDIF
1355	IF (iom_use("SDT__200")) THEN
1356	med_diag%SDT__200%dgsave = .TRUE.
1357	ELSE
1358	med_diag%SDT__200%dgsave = .FALSE.
1359	ENDIF
1360	IF (iom_use("SDT__500")) THEN
1361	med_diag%SDT__500%dgsave = .TRUE.
1362	ELSE
1363	med_diag%SDT__500%dgsave = .FALSE.
1364	ENDIF
1365	IF (iom_use("SDT_1000")) THEN
1366	med_diag%SDT_1000%dgsave = .TRUE.
1367	ELSE
1368	med_diag%SDT_1000%dgsave = .FALSE.
1369	ENDIF
1370	IF (iom_use("TOTREG_N")) THEN
1371	med_diag%TOTREG_N%dgsave = .TRUE.
1372	ELSE
1373	med_diag%TOTREG_N%dgsave = .FALSE.
1374	ENDIF
1375	IF (iom_use("TOTRG_SI")) THEN
1376	med_diag%TOTRG_SI%dgsave = .TRUE.
1377	ELSE
1378	med_diag%TOTRG_SI%dgsave = .FALSE.
1379	ENDIF
1380	IF (iom_use("REG__100")) THEN
1381	med_diag%REG__100%dgsave = .TRUE.
1382	ELSE
1383	med_diag%REG__100%dgsave = .FALSE.
1384	ENDIF
1385	IF (iom_use("REG__200")) THEN
1386	med_diag%REG__200%dgsave = .TRUE.
1387	ELSE
1388	med_diag%REG__200%dgsave = .FALSE.
1389	ENDIF
1390	IF (iom_use("REG__500")) THEN
1391	med_diag%REG__500%dgsave = .TRUE.
1392	ELSE
1393	med_diag%REG__500%dgsave = .FALSE.
1394	ENDIF
1395	IF (iom_use("REG_1000")) THEN
1396	med_diag%REG_1000%dgsave = .TRUE.
1397	ELSE
1398	med_diag%REG_1000%dgsave = .FALSE.
1399	ENDIF
1400	IF (iom_use("FASTN")) THEN
1401	med_diag%FASTN%dgsave = .TRUE.
1402	ELSE
1403	med_diag%FASTN%dgsave = .FALSE.
1404	ENDIF
1405	IF (iom_use("FASTSI")) THEN
1406	med_diag%FASTSI%dgsave = .TRUE.
1407	ELSE
1408	med_diag%FASTSI%dgsave = .FALSE.
1409	ENDIF
1410	IF (iom_use("FASTFE")) THEN
1411	med_diag%FASTFE%dgsave = .TRUE.
1412	ELSE
1413	med_diag%FASTFE%dgsave = .FALSE.
1414	ENDIF
1415	IF (iom_use("FASTC")) THEN
1416	med_diag%FASTC%dgsave = .TRUE.
1417	ELSE
1418	med_diag%FASTC%dgsave = .FALSE.
1419	ENDIF
1420	IF (iom_use("FASTCA")) THEN
1421	med_diag%FASTCA%dgsave = .TRUE.
1422	ELSE
1423	med_diag%FASTCA%dgsave = .FALSE.
1424	ENDIF
1425	IF (iom_use("FDT__100")) THEN
1426	med_diag%FDT__100%dgsave = .TRUE.
1427	ELSE
1428	med_diag%FDT__100%dgsave = .FALSE.
1429	ENDIF
1430	IF (iom_use("FDT__200")) THEN
1431	med_diag%FDT__200%dgsave = .TRUE.
1432	ELSE
1433	med_diag%FDT__200%dgsave = .FALSE.
1434	ENDIF
1435	IF (iom_use("FDT__500")) THEN
1436	med_diag%FDT__500%dgsave = .TRUE.
1437	ELSE
1438	med_diag%FDT__500%dgsave = .FALSE.
1439	ENDIF
1440	IF (iom_use("FDT_1000")) THEN
1441	med_diag%FDT_1000%dgsave = .TRUE.
1442	ELSE
1443	med_diag%FDT_1000%dgsave = .FALSE.
1444	ENDIF
1445	IF (iom_use("RG__100F")) THEN
1446	med_diag%RG__100F%dgsave = .TRUE.
1447	ELSE
1448	med_diag%RG__100F%dgsave = .FALSE.
1449	ENDIF
1450	IF (iom_use("RG__200F")) THEN
1451	med_diag%RG__200F%dgsave = .TRUE.
1452	ELSE
1453	med_diag%RG__200F%dgsave = .FALSE.
1454	ENDIF
1455	IF (iom_use("RG__500F")) THEN
1456	med_diag%RG__500F%dgsave = .TRUE.
1457	ELSE
1458	med_diag%RG__500F%dgsave = .FALSE.
1459	ENDIF
1460	IF (iom_use("RG_1000F")) THEN
1461	med_diag%RG_1000F%dgsave = .TRUE.
1462	ELSE
1463	med_diag%RG_1000F%dgsave = .FALSE.
1464	ENDIF
1465	IF (iom_use("FDS__100")) THEN
1466	med_diag%FDS__100%dgsave = .TRUE.
1467	ELSE
1468	med_diag%FDS__100%dgsave = .FALSE.
1469	ENDIF
1470	IF (iom_use("FDS__200")) THEN
1471	med_diag%FDS__200%dgsave = .TRUE.
1472	ELSE
1473	med_diag%FDS__200%dgsave = .FALSE.
1474	ENDIF
1475	IF (iom_use("FDS__500")) THEN
1476	med_diag%FDS__500%dgsave = .TRUE.
1477	ELSE
1478	med_diag%FDS__500%dgsave = .FALSE.
1479	ENDIF
1480	IF (iom_use("FDS_1000")) THEN
1481	med_diag%FDS_1000%dgsave = .TRUE.
1482	ELSE
1483	med_diag%FDS_1000%dgsave = .FALSE.
1484	ENDIF
1485	IF (iom_use("RGS_100F")) THEN
1486	med_diag%RGS_100F%dgsave = .TRUE.
1487	ELSE
1488	med_diag%RGS_100F%dgsave = .FALSE.
1489	ENDIF
1490	IF (iom_use("RGS_200F")) THEN
1491	med_diag%RGS_200F%dgsave = .TRUE.
1492	ELSE
1493	med_diag%RGS_200F%dgsave = .FALSE.
1494	ENDIF
1495	IF (iom_use("RGS_500F")) THEN
1496	med_diag%RGS_500F%dgsave = .TRUE.
1497	ELSE
1498	med_diag%RGS_500F%dgsave = .FALSE.
1499	ENDIF
1500	IF (iom_use("RGS1000F")) THEN
1501	med_diag%RGS1000F%dgsave = .TRUE.
1502	ELSE
1503	med_diag%RGS1000F%dgsave = .FALSE.
1504	ENDIF
1505	IF (iom_use("REMINN")) THEN
1506	med_diag%REMINN%dgsave = .TRUE.
1507	ELSE
1508	med_diag%REMINN%dgsave = .FALSE.
1509	ENDIF
1510	IF (iom_use("REMINSI")) THEN
1511	med_diag%REMINSI%dgsave = .TRUE.
1512	ELSE
1513	med_diag%REMINSI%dgsave = .FALSE.
1514	ENDIF
1515	IF (iom_use("REMINFE")) THEN
1516	med_diag%REMINFE%dgsave = .TRUE.
1517	ELSE
1518	med_diag%REMINFE%dgsave = .FALSE.
1519	ENDIF
1520	IF (iom_use("REMINC")) THEN
1521	med_diag%REMINC%dgsave = .TRUE.
1522	ELSE
1523	med_diag%REMINC%dgsave = .FALSE.
1524	ENDIF
1525	IF (iom_use("REMINCA")) THEN
1526	med_diag%REMINCA%dgsave = .TRUE.
1527	ELSE
1528	med_diag%REMINCA%dgsave = .FALSE.
1529	ENDIF
1530	IF (iom_use("SEAFLRN")) THEN
1531	med_diag%SEAFLRN%dgsave = .TRUE.
1532	ELSE
1533	med_diag%SEAFLRN%dgsave = .FALSE.
1534	ENDIF
1535	IF (iom_use("SEAFLRSI")) THEN
1536	med_diag%SEAFLRSI%dgsave = .TRUE.
1537	ELSE
1538	med_diag%SEAFLRSI%dgsave = .FALSE.
1539	ENDIF
1540	IF (iom_use("SEAFLRFE")) THEN
1541	med_diag%SEAFLRFE%dgsave = .TRUE.
1542	ELSE
1543	med_diag%SEAFLRFE%dgsave = .FALSE.
1544	ENDIF
1545	IF (iom_use("SEAFLRC")) THEN
1546	med_diag%SEAFLRC%dgsave = .TRUE.
1547	ELSE
1548	med_diag%SEAFLRC%dgsave = .FALSE.
1549	ENDIF
1550	IF (iom_use("SEAFLRCA")) THEN
1551	med_diag%SEAFLRCA%dgsave = .TRUE.
1552	ELSE
1553	med_diag%SEAFLRCA%dgsave = .FALSE.
1554	ENDIF
1555	IF (iom_use("MED_QSR")) THEN
1556	med_diag%MED_QSR%dgsave = .TRUE.
1557	ELSE
1558	med_diag%MED_QSR%dgsave = .FALSE.
1559	ENDIF
1560	IF (iom_use("MED_XPAR")) THEN
1561	med_diag%MED_XPAR%dgsave = .TRUE.
1562	ELSE
1563	med_diag%MED_XPAR%dgsave = .FALSE.
1564	ENDIF
1565	IF (iom_use("INTFLX_N")) THEN
1566	med_diag%INTFLX_N%dgsave = .TRUE.
1567	ELSE
1568	med_diag%INTFLX_N%dgsave = .FALSE.
1569	ENDIF
1570	IF (iom_use("INTFLX_SI")) THEN
1571	med_diag%INTFLX_SI%dgsave = .TRUE.
1572	ELSE
1573	med_diag%INTFLX_SI%dgsave = .FALSE.
1574	ENDIF
1575	IF (iom_use("INTFLX_FE")) THEN
1576	med_diag%INTFLX_FE%dgsave = .TRUE.
1577	ELSE
1578	med_diag%INTFLX_FE%dgsave = .FALSE.
1579	ENDIF
1580	IF (iom_use("INT_PN")) THEN
1581	med_diag%INT_PN%dgsave = .TRUE.
1582	ELSE
1583	med_diag%INT_PN%dgsave = .FALSE.
1584	ENDIF
1585	IF (iom_use("INT_PD")) THEN
1586	med_diag%INT_PD%dgsave = .TRUE.
1587	ELSE
1588	med_diag%INT_PD%dgsave = .FALSE.
1589	ENDIF
1590	IF (iom_use("ML_PRN")) THEN
1591	med_diag%ML_PRN%dgsave = .TRUE.
1592	ELSE
1593	med_diag%ML_PRN%dgsave = .FALSE.
1594	ENDIF
1595	IF (iom_use("ML_PRD")) THEN
1596	med_diag%ML_PRD%dgsave = .TRUE.
1597	ELSE
1598	med_diag%ML_PRD%dgsave = .FALSE.
1599	ENDIF
1600	IF (iom_use("OCAL_CCD")) THEN
1601	med_diag%OCAL_CCD%dgsave = .TRUE.
1602	ELSE
1603	med_diag%OCAL_CCD%dgsave = .FALSE.
1604	ENDIF
1605	IF (iom_use("OCAL_LVL")) THEN
1606	med_diag%OCAL_LVL%dgsave = .TRUE.
1607	ELSE
1608	med_diag%OCAL_LVL%dgsave = .FALSE.
1609	ENDIF
1610	IF (iom_use("FE_0000")) THEN
1611	med_diag%FE_0000%dgsave = .TRUE.
1612	ELSE
1613	med_diag%FE_0000%dgsave = .FALSE.
1614	ENDIF
1615	IF (iom_use("FE_0100")) THEN
1616	med_diag%FE_0100%dgsave = .TRUE.
1617	ELSE
1618	med_diag%FE_0100%dgsave = .FALSE.
1619	ENDIF
1620	IF (iom_use("FE_0200")) THEN
1621	med_diag%FE_0200%dgsave = .TRUE.
1622	ELSE
1623	med_diag%FE_0200%dgsave = .FALSE.
1624	ENDIF
1625	IF (iom_use("FE_0500")) THEN
1626	med_diag%FE_0500%dgsave = .TRUE.
1627	ELSE
1628	med_diag%FE_0500%dgsave = .FALSE.
1629	ENDIF
1630	IF (iom_use("FE_1000")) THEN
1631	med_diag%FE_1000%dgsave = .TRUE.
1632	ELSE
1633	med_diag%FE_1000%dgsave = .FALSE.
1634	ENDIF
1635	IF (iom_use("MED_XZE")) THEN
1636	med_diag%MED_XZE%dgsave = .TRUE.
1637	ELSE
1638	med_diag%MED_XZE%dgsave = .FALSE.
1639	ENDIF
1640	IF (iom_use("WIND")) THEN
1641	med_diag%WIND%dgsave = .TRUE.
1642	ELSE
1643	med_diag%WIND%dgsave = .FALSE.
1644	ENDIF
1645	IF (iom_use("ATM_PCO2")) THEN
1646	med_diag%ATM_PCO2%dgsave = .TRUE.
1647	ELSE
1648	med_diag%ATM_PCO2%dgsave = .FALSE.
1649	ENDIF
1650	IF (iom_use("OCN_PH")) THEN
1651	med_diag%OCN_PH%dgsave = .TRUE.
1652	ELSE
1653	med_diag%OCN_PH%dgsave = .FALSE.
1654	ENDIF
1655	IF (iom_use("OCN_PCO2")) THEN
1656	med_diag%OCN_PCO2%dgsave = .TRUE.
1657	ELSE
1658	med_diag%OCN_PCO2%dgsave = .FALSE.
1659	ENDIF
1660	IF (iom_use("OCNH2CO3")) THEN
1661	med_diag%OCNH2CO3%dgsave = .TRUE.
1662	ELSE
1663	med_diag%OCNH2CO3%dgsave = .FALSE.
1664	ENDIF
1665	IF (iom_use("OCN_HCO3")) THEN
1666	med_diag%OCN_HCO3%dgsave = .TRUE.
1667	ELSE
1668	med_diag%OCN_HCO3%dgsave = .FALSE.
1669	ENDIF
1670	IF (iom_use("OCN_CO3")) THEN
1671	med_diag%OCN_CO3%dgsave = .TRUE.
1672	ELSE
1673	med_diag%OCN_CO3%dgsave = .FALSE.
1674	ENDIF
1675	IF (iom_use("CO2FLUX")) THEN
1676	med_diag%CO2FLUX%dgsave = .TRUE.
1677	ELSE
1678	med_diag%CO2FLUX%dgsave = .FALSE.
1679	ENDIF
1680	IF (iom_use("OM_CAL")) THEN
1681	med_diag%OM_CAL%dgsave = .TRUE.
1682	ELSE
1683	med_diag%OM_CAL%dgsave = .FALSE.
1684	ENDIF
1685	IF (iom_use("OM_ARG")) THEN
1686	med_diag%OM_ARG%dgsave = .TRUE.
1687	ELSE
1688	med_diag%OM_ARG%dgsave = .FALSE.
1689	ENDIF
1690	IF (iom_use("TCO2")) THEN
1691	med_diag%TCO2%dgsave = .TRUE.
1692	ELSE
1693	med_diag%TCO2%dgsave = .FALSE.
1694	ENDIF
1695	IF (iom_use("TALK")) THEN
1696	med_diag%TALK%dgsave = .TRUE.
1697	ELSE
1698	med_diag%TALK%dgsave = .FALSE.
1699	ENDIF
1700	IF (iom_use("KW660")) THEN
1701	med_diag%KW660%dgsave = .TRUE.
1702	ELSE
1703	med_diag%KW660%dgsave = .FALSE.
1704	ENDIF
1705	IF (iom_use("ATM_PP0")) THEN
1706	med_diag%ATM_PP0%dgsave = .TRUE.
1707	ELSE
1708	med_diag%ATM_PP0%dgsave = .FALSE.
1709	ENDIF
1710	IF (iom_use("O2FLUX")) THEN
1711	med_diag%O2FLUX%dgsave = .TRUE.
1712	ELSE
1713	med_diag%O2FLUX%dgsave = .FALSE.
1714	ENDIF
1715	IF (iom_use("O2SAT")) THEN
1716	med_diag%O2SAT%dgsave = .TRUE.
1717	ELSE
1718	med_diag%O2SAT%dgsave = .FALSE.
1719	ENDIF
1720	IF (iom_use("CAL_CCD")) THEN
1721	med_diag%CAL_CCD%dgsave = .TRUE.
1722	ELSE
1723	med_diag%CAL_CCD%dgsave = .FALSE.
1724	ENDIF
1725	IF (iom_use("ARG_CCD")) THEN
1726	med_diag%ARG_CCD%dgsave = .TRUE.
1727	ELSE
1728	med_diag%ARG_CCD%dgsave = .FALSE.
1729	ENDIF
1730	IF (iom_use("SFR_OCAL")) THEN
1731	med_diag%SFR_OCAL%dgsave = .TRUE.
1732	ELSE
1733	med_diag%SFR_OCAL%dgsave = .FALSE.
1734	ENDIF
1735	IF (iom_use("SFR_OARG")) THEN
1736	med_diag%SFR_OARG%dgsave = .TRUE.
1737	ELSE
1738	med_diag%SFR_OARG%dgsave = .FALSE.
1739	ENDIF
1740	IF (iom_use("N_PROD")) THEN
1741	med_diag%N_PROD%dgsave = .TRUE.
1742	ELSE
1743	med_diag%N_PROD%dgsave = .FALSE.
1744	ENDIF
1745	IF (iom_use("N_CONS")) THEN
1746	med_diag%N_CONS%dgsave = .TRUE.
1747	ELSE
1748	med_diag%N_CONS%dgsave = .FALSE.
1749	ENDIF
1750	IF (iom_use("C_PROD")) THEN
1751	med_diag%C_PROD%dgsave = .TRUE.
1752	ELSE
1753	med_diag%C_PROD%dgsave = .FALSE.
1754	ENDIF
1755	IF (iom_use("C_CONS")) THEN
1756	med_diag%C_CONS%dgsave = .TRUE.
1757	ELSE
1758	med_diag%C_CONS%dgsave = .FALSE.
1759	ENDIF
1760	IF (iom_use("O2_PROD")) THEN
1761	med_diag%O2_PROD%dgsave = .TRUE.
1762	ELSE
1763	med_diag%O2_PROD%dgsave = .FALSE.
1764	ENDIF
1765	IF (iom_use("O2_CONS")) THEN
1766	med_diag%O2_CONS%dgsave = .TRUE.
1767	ELSE
1768	med_diag%O2_CONS%dgsave = .FALSE.
1769	ENDIF
1770	IF (iom_use("O2_ANOX")) THEN
1771	med_diag%O2_ANOX%dgsave = .TRUE.
1772	ELSE
1773	med_diag%O2_ANOX%dgsave = .FALSE.
1774	ENDIF
1775	IF (iom_use("RR_0100")) THEN
1776	med_diag%RR_0100%dgsave = .TRUE.
1777	ELSE
1778	med_diag%RR_0100%dgsave = .FALSE.
1779	ENDIF
1780	IF (iom_use("RR_0500")) THEN
1781	med_diag%RR_0500%dgsave = .TRUE.
1782	ELSE
1783	med_diag%RR_0500%dgsave = .FALSE.
1784	ENDIF
1785	IF (iom_use("RR_1000")) THEN
1786	med_diag%RR_1000%dgsave = .TRUE.
1787	ELSE
1788	med_diag%RR_1000%dgsave = .FALSE.
1789	ENDIF
1790	IF (iom_use("IBEN_N")) THEN
1791	med_diag%IBEN_N%dgsave = .TRUE.
1792	ELSE
1793	med_diag%IBEN_N%dgsave = .FALSE.
1794	ENDIF
1795	IF (iom_use("IBEN_FE")) THEN
1796	med_diag%IBEN_FE%dgsave = .TRUE.
1797	ELSE
1798	med_diag%IBEN_FE%dgsave = .FALSE.
1799	ENDIF
1800	IF (iom_use("IBEN_C")) THEN
1801	med_diag%IBEN_C%dgsave = .TRUE.
1802	ELSE
1803	med_diag%IBEN_C%dgsave = .FALSE.
1804	ENDIF
1805	IF (iom_use("IBEN_SI")) THEN
1806	med_diag%IBEN_SI%dgsave = .TRUE.
1807	ELSE
1808	med_diag%IBEN_SI%dgsave = .FALSE.
1809	ENDIF
1810	IF (iom_use("IBEN_CA")) THEN
1811	med_diag%IBEN_CA%dgsave = .TRUE.
1812	ELSE
1813	med_diag%IBEN_CA%dgsave = .FALSE.
1814	ENDIF
1815	IF (iom_use("OBEN_N")) THEN
1816	med_diag%OBEN_N%dgsave = .TRUE.
1817	ELSE
1818	med_diag%OBEN_N%dgsave = .FALSE.
1819	ENDIF
1820	IF (iom_use("OBEN_FE")) THEN
1821	med_diag%OBEN_FE%dgsave = .TRUE.
1822	ELSE
1823	med_diag%OBEN_FE%dgsave = .FALSE.
1824	ENDIF
1825	IF (iom_use("OBEN_C")) THEN
1826	med_diag%OBEN_C%dgsave = .TRUE.
1827	ELSE
1828	med_diag%OBEN_C%dgsave = .FALSE.
1829	ENDIF
1830	IF (iom_use("OBEN_SI")) THEN
1831	med_diag%OBEN_SI%dgsave = .TRUE.
1832	ELSE
1833	med_diag%OBEN_SI%dgsave = .FALSE.
1834	ENDIF
1835	IF (iom_use("OBEN_CA")) THEN
1836	med_diag%OBEN_CA%dgsave = .TRUE.
1837	ELSE
1838	med_diag%OBEN_CA%dgsave = .FALSE.
1839	ENDIF
1840	IF (iom_use("BEN_N")) THEN
1841	med_diag%BEN_N%dgsave = .TRUE.
1842	ELSE
1843	med_diag%BEN_N%dgsave = .FALSE.
1844	ENDIF
1845	IF (iom_use("BEN_FE")) THEN
1846	med_diag%BEN_FE%dgsave = .TRUE.
1847	ELSE
1848	med_diag%BEN_FE%dgsave = .FALSE.
1849	ENDIF
1850	IF (iom_use("BEN_C")) THEN
1851	med_diag%BEN_C%dgsave = .TRUE.
1852	ELSE
1853	med_diag%BEN_C%dgsave = .FALSE.
1854	ENDIF
1855	IF (iom_use("BEN_SI")) THEN
1856	med_diag%BEN_SI%dgsave = .TRUE.
1857	ELSE
1858	med_diag%BEN_SI%dgsave = .FALSE.
1859	ENDIF
1860	IF (iom_use("BEN_CA")) THEN
1861	med_diag%BEN_CA%dgsave = .TRUE.
1862	ELSE
1863	med_diag%BEN_CA%dgsave = .FALSE.
1864	ENDIF
1865	IF (iom_use("RUNOFF")) THEN
1866	med_diag%RUNOFF%dgsave = .TRUE.
1867	ELSE
1868	med_diag%RUNOFF%dgsave = .FALSE.
1869	ENDIF
1870	IF (iom_use("RIV_N")) THEN
1871	med_diag%RIV_N%dgsave = .TRUE.
1872	ELSE
1873	med_diag%RIV_N%dgsave = .FALSE.
1874	ENDIF
1875	IF (iom_use("RIV_SI")) THEN
1876	med_diag%RIV_SI%dgsave = .TRUE.
1877	ELSE
1878	med_diag%RIV_SI%dgsave = .FALSE.
1879	ENDIF
1880	IF (iom_use("RIV_C")) THEN
1881	med_diag%RIV_C%dgsave = .TRUE.
1882	ELSE
1883	med_diag%RIV_C%dgsave = .FALSE.
1884	ENDIF
1885	IF (iom_use("RIV_ALK")) THEN
1886	med_diag%RIV_ALK%dgsave = .TRUE.
1887	ELSE
1888	med_diag%RIV_ALK%dgsave = .FALSE.
1889	ENDIF
1890	IF (iom_use("DETC")) THEN
1891	med_diag%DETC%dgsave = .TRUE.
1892	ELSE
1893	med_diag%DETC%dgsave = .FALSE.
1894	ENDIF
1895	IF (iom_use("SDC__100")) THEN
1896	med_diag%SDC__100%dgsave = .TRUE.
1897	ELSE
1898	med_diag%SDC__100%dgsave = .FALSE.
1899	ENDIF
1900	IF (iom_use("SDC__200")) THEN
1901	med_diag%SDC__200%dgsave = .TRUE.
1902	ELSE
1903	med_diag%SDC__200%dgsave = .FALSE.
1904	ENDIF
1905	IF (iom_use("SDC__500")) THEN
1906	med_diag%SDC__500%dgsave = .TRUE.
1907	ELSE
1908	med_diag%SDC__500%dgsave = .FALSE.
1909	ENDIF
1910	IF (iom_use("SDC_1000")) THEN
1911	med_diag%SDC_1000%dgsave = .TRUE.
1912	ELSE
1913	med_diag%SDC_1000%dgsave = .FALSE.
1914	ENDIF
1915	IF (iom_use("INVTC")) THEN
1916	med_diag%INVTC%dgsave = .TRUE.
1917	ELSE
1918	med_diag%INVTC%dgsave = .FALSE.
1919	ENDIF
1920	IF (iom_use("INVTALK")) THEN
1921	med_diag%INVTALK%dgsave = .TRUE.
1922	ELSE
1923	med_diag%INVTALK%dgsave = .FALSE.
1924	ENDIF
1925	IF (iom_use("INVTO2")) THEN
1926	med_diag%INVTO2%dgsave = .TRUE.
1927	ELSE
1928	med_diag%INVTO2%dgsave = .FALSE.
1929	ENDIF
1930	IF (iom_use("LYSO_CA")) THEN
1931	med_diag%LYSO_CA%dgsave = .TRUE.
1932	ELSE
1933	med_diag%LYSO_CA%dgsave = .FALSE.
1934	ENDIF
1935	IF (iom_use("COM_RESP")) THEN
1936	med_diag%COM_RESP%dgsave = .TRUE.
1937	ELSE
1938	med_diag%COM_RESP%dgsave = .FALSE.
1939	ENDIF
1940	IF (iom_use("PN_LLOSS")) THEN
1941	med_diag%PN_LLOSS%dgsave = .TRUE.
1942	ELSE
1943	med_diag%PN_LLOSS%dgsave = .FALSE.
1944	ENDIF
1945	IF (iom_use("PD_LLOSS")) THEN
1946	med_diag%PD_LLOSS%dgsave = .TRUE.
1947	ELSE
1948	med_diag%PD_LLOSS%dgsave = .FALSE.
1949	ENDIF
1950	IF (iom_use("ZI_LLOSS")) THEN
1951	med_diag%ZI_LLOSS%dgsave = .TRUE.
1952	ELSE
1953	med_diag%ZI_LLOSS%dgsave = .FALSE.
1954	ENDIF
1955	IF (iom_use("ZE_LLOSS")) THEN
1956	med_diag%ZE_LLOSS%dgsave = .TRUE.
1957	ELSE
1958	med_diag%ZE_LLOSS%dgsave = .FALSE.
1959	ENDIF
1960	IF (iom_use("ZI_MES_N")) THEN
1961	med_diag%ZI_MES_N%dgsave = .TRUE.
1962	ELSE
1963	med_diag%ZI_MES_N%dgsave = .FALSE.
1964	ENDIF
1965	IF (iom_use("ZI_MES_D")) THEN
1966	med_diag%ZI_MES_D%dgsave = .TRUE.
1967	ELSE
1968	med_diag%ZI_MES_D%dgsave = .FALSE.
1969	ENDIF
1970	IF (iom_use("ZI_MES_C")) THEN
1971	med_diag%ZI_MES_C%dgsave = .TRUE.
1972	ELSE
1973	med_diag%ZI_MES_C%dgsave = .FALSE.
1974	ENDIF
1975	IF (iom_use("ZI_MESDC")) THEN
1976	med_diag%ZI_MESDC%dgsave = .TRUE.
1977	ELSE
1978	med_diag%ZI_MESDC%dgsave = .FALSE.
1979	ENDIF
1980	IF (iom_use("ZI_EXCR")) THEN
1981	med_diag%ZI_EXCR%dgsave = .TRUE.
1982	ELSE
1983	med_diag%ZI_EXCR%dgsave = .FALSE.
1984	ENDIF
1985	IF (iom_use("ZI_RESP")) THEN
1986	med_diag%ZI_RESP%dgsave = .TRUE.
1987	ELSE
1988	med_diag%ZI_RESP%dgsave = .FALSE.
1989	ENDIF
1990	IF (iom_use("ZI_GROW")) THEN
1991	med_diag%ZI_GROW%dgsave = .TRUE.
1992	ELSE
1993	med_diag%ZI_GROW%dgsave = .FALSE.
1994	ENDIF
1995	IF (iom_use("ZE_MES_N")) THEN
1996	med_diag%ZE_MES_N%dgsave = .TRUE.
1997	ELSE
1998	med_diag%ZE_MES_N%dgsave = .FALSE.
1999	ENDIF
2000	IF (iom_use("ZE_MES_D")) THEN
2001	med_diag%ZE_MES_D%dgsave = .TRUE.
2002	ELSE
2003	med_diag%ZE_MES_D%dgsave = .FALSE.
2004	ENDIF
2005	IF (iom_use("ZE_MES_C")) THEN
2006	med_diag%ZE_MES_C%dgsave = .TRUE.
2007	ELSE
2008	med_diag%ZE_MES_C%dgsave = .FALSE.
2009	ENDIF
2010	IF (iom_use("ZE_MESDC")) THEN
2011	med_diag%ZE_MESDC%dgsave = .TRUE.
2012	ELSE
2013	med_diag%ZE_MESDC%dgsave = .FALSE.
2014	ENDIF
2015	IF (iom_use("ZE_EXCR")) THEN
2016	med_diag%ZE_EXCR%dgsave = .TRUE.
2017	ELSE
2018	med_diag%ZE_EXCR%dgsave = .FALSE.
2019	ENDIF
2020	IF (iom_use("ZE_RESP")) THEN
2021	med_diag%ZE_RESP%dgsave = .TRUE.
2022	ELSE
2023	med_diag%ZE_RESP%dgsave = .FALSE.
2024	ENDIF
2025	IF (iom_use("ZE_GROW")) THEN
2026	med_diag%ZE_GROW%dgsave = .TRUE.
2027	ELSE
2028	med_diag%ZE_GROW%dgsave = .FALSE.
2029	ENDIF
2030	IF (iom_use("MDETC")) THEN
2031	med_diag%MDETC%dgsave = .TRUE.
2032	ELSE
2033	med_diag%MDETC%dgsave = .FALSE.
2034	ENDIF
2035	IF (iom_use("GMIDC")) THEN
2036	med_diag%GMIDC%dgsave = .TRUE.
2037	ELSE
2038	med_diag%GMIDC%dgsave = .FALSE.
2039	ENDIF
2040	IF (iom_use("GMEDC")) THEN
2041	med_diag%GMEDC%dgsave = .TRUE.
2042	ELSE
2043	med_diag%GMEDC%dgsave = .FALSE.
2044	ENDIF
2045	IF (iom_use("BASIN_01")) THEN
2046	med_diag%BASIN_01%dgsave = .TRUE.
2047	ELSE
2048	med_diag%BASIN_01%dgsave = .FALSE.
2049	ENDIF
2050	IF (iom_use("BASIN_02")) THEN
2051	med_diag%BASIN_02%dgsave = .TRUE.
2052	ELSE
2053	med_diag%BASIN_02%dgsave = .FALSE.
2054	ENDIF
2055	IF (iom_use("BASIN_03")) THEN
2056	med_diag%BASIN_03%dgsave = .TRUE.
2057	ELSE
2058	med_diag%BASIN_03%dgsave = .FALSE.
2059	ENDIF
2060	IF (iom_use("BASIN_04")) THEN
2061	med_diag%BASIN_04%dgsave = .TRUE.
2062	ELSE
2063	med_diag%BASIN_04%dgsave = .FALSE.
2064	ENDIF
2065	IF (iom_use("BASIN_05")) THEN
2066	med_diag%BASIN_05%dgsave = .TRUE.
2067	ELSE
2068	med_diag%BASIN_05%dgsave = .FALSE.
2069	ENDIF
2070	IF (iom_use("BASIN_06")) THEN
2071	med_diag%BASIN_06%dgsave = .TRUE.
2072	ELSE
2073	med_diag%BASIN_06%dgsave = .FALSE.
2074	ENDIF
2075	IF (iom_use("BASIN_07")) THEN
2076	med_diag%BASIN_07%dgsave = .TRUE.
2077	ELSE
2078	med_diag%BASIN_07%dgsave = .FALSE.
2079	ENDIF
2080	IF (iom_use("BASIN_08")) THEN
2081	med_diag%BASIN_08%dgsave = .TRUE.
2082	ELSE
2083	med_diag%BASIN_08%dgsave = .FALSE.
2084	ENDIF
2085	IF (iom_use("BASIN_09")) THEN
2086	med_diag%BASIN_09%dgsave = .TRUE.
2087	ELSE
2088	med_diag%BASIN_09%dgsave = .FALSE.
2089	ENDIF
2090	IF (iom_use("BASIN_10")) THEN
2091	med_diag%BASIN_10%dgsave = .TRUE.
2092	ELSE
2093	med_diag%BASIN_10%dgsave = .FALSE.
2094	ENDIF
2095	IF (iom_use("BASIN_11")) THEN
2096	med_diag%BASIN_11%dgsave = .TRUE.
2097	ELSE
2098	med_diag%BASIN_11%dgsave = .FALSE.
2099	ENDIF
2100	IF (iom_use("BASIN_12")) THEN
2101	med_diag%BASIN_12%dgsave = .TRUE.
2102	ELSE
2103	med_diag%BASIN_12%dgsave = .FALSE.
2104	ENDIF
2105	IF (iom_use("BASIN_13")) THEN
2106	med_diag%BASIN_13%dgsave = .TRUE.
2107	ELSE
2108	med_diag%BASIN_13%dgsave = .FALSE.
2109	ENDIF
2110	IF (iom_use("BASIN_14")) THEN
2111	med_diag%BASIN_14%dgsave = .TRUE.
2112	ELSE
2113	med_diag%BASIN_14%dgsave = .FALSE.
2114	ENDIF
2115	IF (iom_use("BASIN_15")) THEN
2116	med_diag%BASIN_15%dgsave = .TRUE.
2117	ELSE
2118	med_diag%BASIN_15%dgsave = .FALSE.
2119	ENDIF
2120	IF (iom_use("BASIN_16")) THEN
2121	med_diag%BASIN_16%dgsave = .TRUE.
2122	ELSE
2123	med_diag%BASIN_16%dgsave = .FALSE.
2124	ENDIF
2125	IF (iom_use("BASIN_17")) THEN
2126	med_diag%BASIN_17%dgsave = .TRUE.
2127	ELSE
2128	med_diag%BASIN_17%dgsave = .FALSE.
2129	ENDIF
2130	IF (iom_use("BASIN_18")) THEN
2131	med_diag%BASIN_18%dgsave = .TRUE.
2132	ELSE
2133	med_diag%BASIN_18%dgsave = .FALSE.
2134	ENDIF
2135	IF (iom_use("BASIN_19")) THEN
2136	med_diag%BASIN_19%dgsave = .TRUE.
2137	ELSE
2138	med_diag%BASIN_19%dgsave = .FALSE.
2139	ENDIF
2140	IF (iom_use("BASIN_20")) THEN
2141	med_diag%BASIN_20%dgsave = .TRUE.
2142	ELSE
2143	med_diag%BASIN_20%dgsave = .FALSE.
2144	ENDIF
2145	IF (iom_use("BASIN_21")) THEN
2146	med_diag%BASIN_21%dgsave = .TRUE.
2147	ELSE
2148	med_diag%BASIN_21%dgsave = .FALSE.
2149	ENDIF
2150	IF (iom_use("BASIN_22")) THEN
2151	med_diag%BASIN_22%dgsave = .TRUE.
2152	ELSE
2153	med_diag%BASIN_22%dgsave = .FALSE.
2154	ENDIF
2155	IF (iom_use("BASIN_23")) THEN
2156	med_diag%BASIN_23%dgsave = .TRUE.
2157	ELSE
2158	med_diag%BASIN_23%dgsave = .FALSE.
2159	ENDIF
2160	IF (iom_use("BASIN_24")) THEN
2161	med_diag%BASIN_24%dgsave = .TRUE.
2162	ELSE
2163	med_diag%BASIN_24%dgsave = .FALSE.
2164	ENDIF
2165	IF (iom_use("BASIN_25")) THEN
2166	med_diag%BASIN_25%dgsave = .TRUE.
2167	ELSE
2168	med_diag%BASIN_25%dgsave = .FALSE.
2169	ENDIF
2170	IF (iom_use("BASIN_26")) THEN
2171	med_diag%BASIN_26%dgsave = .TRUE.
2172	ELSE
2173	med_diag%BASIN_26%dgsave = .FALSE.
2174	ENDIF
2175	IF (iom_use("BASIN_27")) THEN
2176	med_diag%BASIN_27%dgsave = .TRUE.
2177	ELSE
2178	med_diag%BASIN_27%dgsave = .FALSE.
2179	ENDIF
2180	IF (iom_use("BASIN_28")) THEN
2181	med_diag%BASIN_28%dgsave = .TRUE.
2182	ELSE
2183	med_diag%BASIN_28%dgsave = .FALSE.
2184	ENDIF
2185	IF (iom_use("BASIN_29")) THEN
2186	med_diag%BASIN_29%dgsave = .TRUE.
2187	ELSE
2188	med_diag%BASIN_29%dgsave = .FALSE.
2189	ENDIF
2190	IF (iom_use("BASIN_30")) THEN
2191	med_diag%BASIN_30%dgsave = .TRUE.
2192	ELSE
2193	med_diag%BASIN_30%dgsave = .FALSE.
2194	ENDIF
2195	IF (iom_use("BASIN_31")) THEN
2196	med_diag%BASIN_31%dgsave = .TRUE.
2197	ELSE
2198	med_diag%BASIN_31%dgsave = .FALSE.
2199	ENDIF
2200	IF (iom_use("BASIN_32")) THEN
2201	med_diag%BASIN_32%dgsave = .TRUE.
2202	ELSE
2203	med_diag%BASIN_32%dgsave = .FALSE.
2204	ENDIF
2205	IF (iom_use("BASIN_33")) THEN
2206	med_diag%BASIN_33%dgsave = .TRUE.
2207	ELSE
2208	med_diag%BASIN_33%dgsave = .FALSE.
2209	ENDIF
2210	IF (iom_use("BASIN_34")) THEN
2211	med_diag%BASIN_34%dgsave = .TRUE.
2212	ELSE
2213	med_diag%BASIN_34%dgsave = .FALSE.
2214	ENDIF
2215	IF (iom_use("BASIN_35")) THEN
2216	med_diag%BASIN_35%dgsave = .TRUE.
2217	ELSE
2218	med_diag%BASIN_35%dgsave = .FALSE.
2219	ENDIF
2220	IF (iom_use("BASIN_36")) THEN
2221	med_diag%BASIN_36%dgsave = .TRUE.
2222	ELSE
2223	med_diag%BASIN_36%dgsave = .FALSE.
2224	ENDIF
2225	IF (iom_use("BASIN_37")) THEN
2226	med_diag%BASIN_37%dgsave = .TRUE.
2227	ELSE
2228	med_diag%BASIN_37%dgsave = .FALSE.
2229	ENDIF
2230	IF (iom_use("BASIN_38")) THEN
2231	med_diag%BASIN_38%dgsave = .TRUE.
2232	ELSE
2233	med_diag%BASIN_38%dgsave = .FALSE.
2234	ENDIF
2235	IF (iom_use("BASIN_39")) THEN
2236	med_diag%BASIN_39%dgsave = .TRUE.
2237	ELSE
2238	med_diag%BASIN_39%dgsave = .FALSE.
2239	ENDIF
2240	IF (iom_use("BASIN_40")) THEN
2241	med_diag%BASIN_40%dgsave = .TRUE.
2242	ELSE
2243	med_diag%BASIN_40%dgsave = .FALSE.
2244	ENDIF
2245	IF (iom_use("BASIN_41")) THEN
2246	med_diag%BASIN_41%dgsave = .TRUE.
2247	ELSE
2248	med_diag%BASIN_41%dgsave = .FALSE.
2249	ENDIF
2250	IF (iom_use("BASIN_42")) THEN
2251	med_diag%BASIN_42%dgsave = .TRUE.
2252	ELSE
2253	med_diag%BASIN_42%dgsave = .FALSE.
2254	ENDIF
2255	IF (iom_use("BASIN_43")) THEN
2256	med_diag%BASIN_43%dgsave = .TRUE.
2257	ELSE
2258	med_diag%BASIN_43%dgsave = .FALSE.
2259	ENDIF
2260	IF (iom_use("BASIN_44")) THEN
2261	med_diag%BASIN_44%dgsave = .TRUE.
2262	ELSE
2263	med_diag%BASIN_44%dgsave = .FALSE.
2264	ENDIF
2265	IF (iom_use("BASIN_45")) THEN
2266	med_diag%BASIN_45%dgsave = .TRUE.
2267	ELSE
2268	med_diag%BASIN_45%dgsave = .FALSE.
2269	ENDIF
2270	IF (iom_use("INT_ZMI")) THEN
2271	med_diag%INT_ZMI%dgsave = .TRUE.
2272	ELSE
2273	med_diag%INT_ZMI%dgsave = .FALSE.
2274	ENDIF
2275	IF (iom_use("INT_ZME")) THEN
2276	med_diag%INT_ZME%dgsave = .TRUE.
2277	ELSE
2278	med_diag%INT_ZME%dgsave = .FALSE.
2279	ENDIF
2280	IF (iom_use("INT_DET")) THEN
2281	med_diag%INT_DET%dgsave = .TRUE.
2282	ELSE
2283	med_diag%INT_DET%dgsave = .FALSE.
2284	ENDIF
2285	IF (iom_use("INT_DTC")) THEN
2286	med_diag%INT_DTC%dgsave = .TRUE.
2287	ELSE
2288	med_diag%INT_DTC%dgsave = .FALSE.
2289	ENDIF
2290	IF (iom_use("DMS_SURF")) THEN
2291	med_diag%DMS_SURF%dgsave = .TRUE.
2292	ELSE
2293	med_diag%DMS_SURF%dgsave = .FALSE.
2294	ENDIF
2295	IF (iom_use("DMS_ANDR")) THEN
2296	med_diag%DMS_ANDR%dgsave = .TRUE.
2297	ELSE
2298	med_diag%DMS_ANDR%dgsave = .FALSE.
2299	ENDIF
2300	IF (iom_use("DMS_SIMO")) THEN
2301	med_diag%DMS_SIMO%dgsave = .TRUE.
2302	ELSE
2303	med_diag%DMS_SIMO%dgsave = .FALSE.
2304	ENDIF
2305	IF (iom_use("DMS_ARAN")) THEN
2306	med_diag%DMS_ARAN%dgsave = .TRUE.
2307	ELSE
2308	med_diag%DMS_ARAN%dgsave = .FALSE.
2309	ENDIF
2310	IF (iom_use("DMS_HALL")) THEN
2311	med_diag%DMS_HALL%dgsave = .TRUE.
2312	ELSE
2313	med_diag%DMS_HALL%dgsave = .FALSE.
2314	ENDIF
2315	IF (iom_use("TPP3")) THEN
2316	med_diag%TPP3%dgsave = .TRUE.
2317	ELSE
2318	med_diag%TPP3%dgsave = .FALSE.
2319	ENDIF
2320	IF (iom_use("DETFLUX3")) THEN
2321	med_diag%DETFLUX3%dgsave = .TRUE.
2322	ELSE
2323	med_diag%DETFLUX3%dgsave = .FALSE.
2324	ENDIF
2325	IF (iom_use("REMIN3N")) THEN
2326	med_diag%REMIN3N%dgsave = .TRUE.
2327	ELSE
2328	med_diag%REMIN3N%dgsave = .FALSE.
2329	ENDIF
2330	IF (iom_use("PH3")) THEN
2331	med_diag%PH3%dgsave = .TRUE.
2332	ELSE
2333	med_diag%PH3%dgsave = .FALSE.
2334	ENDIF
2335	IF (iom_use("OM_CAL3")) THEN
2336	med_diag%OM_CAL3%dgsave = .TRUE.
2337	ELSE
2338	med_diag%OM_CAL3%dgsave = .FALSE.
2339	ENDIF
2340	!!
2341	!!
2342	END SUBROUTINE trc_nam_iom_medusa
2343
2344	#else
2345	!!----------------------------------------------------------------------
2346	!! Dummy module : No MEDUSA
2347	!!----------------------------------------------------------------------
2348	CONTAINS
2349	SUBROUTINE trc_nam_medusa ! Empty routine
2350	END SUBROUTINE trc_nam_medusa
2351	#endif
2352
2353	!!======================================================================
2354	END MODULE trcnam_medusa

Note: See TracBrowser for help on using the repository browser.

Download in other formats: