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sedini.F90 in NEMO/branches/2019/dev_r11078_OSMOSIS_IMMERSE_Nurser/src/TOP/PISCES/SED – NEMO

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source: NEMO/branches/2019/dev_r11078_OSMOSIS_IMMERSE_Nurser/src/TOP/PISCES/SED/sedini.F90 @ 12928

Last change on this file since 12928 was 12928, checked in by smueller, 4 years ago
Synchronizing with ^{/NEMO/trunk@12925 (ticket #2170)}
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File size: 28.2 KB

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1	MODULE sedini
2	!!======================================================================
3	!! * MODULE sedini *
4	!! Sediment : define sediment variables
5	!!=====================================================================
6
7	!!----------------------------------------------------------------------
8	!! sed_init : initialization, namelist read, and parameters control
9	!!----------------------------------------------------------------------
10	!! * Modules used
11	USE sed ! sediment global variable
12	USE sed_oce
13	USE sedarr
14	USE sedadv
15	USE trcdmp_sed
16	USE trcdta
17	USE iom
18	USE lib_mpp ! distribued memory computing library
19
20
21	IMPLICIT NONE
22	PRIVATE
23
24	!! * Substitutions
25	# include "do_loop_substitute.h90"
26	!! Module variables
27	REAL(wp) :: &
28	sedzmin = 0.3 , & !: Minimum vertical spacing
29	sedhmax = 10.0 , & !: Maximum depth of the sediment
30	sedkth = 5.0 , & !: Default parameters
31	sedacr = 3.0 !: Default parameters
32
33	REAL(wp) :: &
34	porsurf = 0.95 , & !: Porosity at the surface
35	porinf = 0.75 , & !: Porosity at infinite depth
36	rhox = 2.0 !: Vertical length scale of porosity variation
37
38	REAL(wp) :: &
39	rcopal = 40. , & !: reactivity for si [l.mol-1.an-1]
40	dcoef = 8.e-6 !: diffusion coefficient (por) [cm*2/s]
41
42	REAL(wp), PUBLIC :: &
43	redO2 = 172. , & !: Redfield coef for Oxygen
44	redNo3 = 16. , & !: Redfield coef for Nitrate
45	redPo4 = 1. , & !: Redfield coef for Phosphate
46	redC = 122. , & !: Redfield coef for Carbon
47	redfep = 0.175 , & !: Ratio for iron bound phosphorus
48	rcorgl = 50. , & !: reactivity for POC/O2 [l.mol-1.an-1]
49	rcorgs = 0.5 , & !: reactivity of the semi-labile component
50	rcorgr = 1E-4 , & !: reactivity of the refractory component
51	rcnh4 = 10E6 , & !: reactivity for O2/NH4 [l.mol-1.an-1]
52	rch2s = 1.E5 , & !: reactivity for O2/ODU [l.mol-1.an-1]
53	rcfe2 = 5.E8 , & !: reactivity for O2/Fe2+ [l.mol-1.an-1]
54	rcfeh2s = 1.E4 , & !: Reactivity for FEOH/H2S [l.mol-1.an-1]
55	rcfes = 1.E5 , & !: Reactivity for FE2+/H2S [l.mol-1.an-1]
56	rcfeso = 3.E5 , & !: Reactivity for FES/O2 [l.mol-1.an-1]
57	xksedo2 = 5E-6 , & !: half-sturation constant for oxic remin.
58	xksedno3 = 5E-6 , & !: half-saturation constant for denitrification
59	xksedfeo = 0.6 , & !: half-saturation constant for iron remin
60	xksedso4 = 2E-3 !: half-saturation constant for SO4 remin
61
62	REAL(wp) :: &
63	rccal = 1000., & !: reactivity for calcite [l.mol-1.an-1]
64	rcligc = 1.E-4 !: L/C ratio in POC
65
66	REAL(wp), PUBLIC :: dbiot = 15. , & !: coefficient for bioturbation [cm**2.(n-1)]
67	dbtbzsc = 10.0 , & !: Vertical scale of variation. If no variation, mixed layer in the sed [cm]
68	xirrzsc = 2.0 !: Vertical scale of irrigation variation.
69	REAL(wp) :: &
70	ryear = 365. * 24. * 3600. !: 1 year converted in second
71
72	REAL(wp), DIMENSION(jpwat), PUBLIC :: diff1
73	DATA diff1/4.59E-6, 1.104E-5, 4.81E-6 , 9.78E-6, 3.58E-6, 4.01E-6, 9.8E-6, 9.73E-6, 5.0E-6, 3.31E-6 /
74
75	REAL(wp), DIMENSION(jpwat), PUBLIC :: diff2
76	DATA diff2/1.74E-7, 4.47E-7, 2.51E-7, 3.89E-7, 1.77E-7, 2.5E-7, 3.89E-7, 3.06E-7, 2.5E-7, 1.5E-7 /
77
78
79
80	!! * Routine accessibility
81	PUBLIC sed_init ! routine called by opa.F90
82
83	!! $Id$
84	CONTAINS
85
86
87	SUBROUTINE sed_init
88	!!----------------------------------------------------------------------
89	!! * ROUTINE sed_init *
90	!!
91	!! ** Purpose : Initialization of sediment module
92	!! - Reading namelist
93	!! - Read the deepest water layer thickness
94	!! ( using as mask ) in Netcdf file
95	!! - Convert unity if necessary
96	!! - sets initial sediment composition
97	!! ( only clay or reading restart file )
98	!! - sets sediment grid, porosity and others constants
99	!!
100	!! History :
101	!! ! 04-10 (N. Emprin, M. Gehlen ) Original code
102	!! ! 06-07 (C. Ethe) Re-organization
103	!!----------------------------------------------------------------------
104	INTEGER :: ji, jj, ikt, ierr
105	!!----------------------------------------------------------------------
106
107
108	! Reading namelist.sed variables
109	!---------------------------------------
110
111	CALL ctl_opn( numsed, 'sediment.output', 'REPLACE', 'FORMATTED', 'SEQUENTIAL', -1, numout, .FALSE. )
112
113	IF (lwp) THEN
114	WRITE(numsed,*)
115	WRITE(numsed,*) ' PISCES framework'
116	WRITE(numsed,*) ' SEDIMENT model'
117	WRITE(numsed,*) ' version 3.0 (2018) '
118	WRITE(numsed,*)
119	WRITE(numsed,*)
120	ENDIF
121
122	IF(lwp) WRITE(numsed,*) ' sed_init : Initialization of sediment module '
123	IF(lwp) WRITE(numsed,*) ' '
124
125	! Read sediment Namelist
126	!-------------------------
127	CALL sed_init_nam
128
129	! Allocate SEDIMENT arrays
130	ierr = sed_alloc()
131	ierr = ierr + sed_oce_alloc()
132	ierr = ierr + sed_adv_alloc()
133	IF( ierr /= 0 ) CALL ctl_stop( 'STOP', 'sed_ini: unable to allocate sediment model arrays' )
134
135	! Determination of sediments number of points and allocate global variables
136	epkbot(:,:) = 0.
137	DO_2D_11_11
138	ikt = mbkt(ji,jj)
139	IF( tmask(ji,jj,ikt) == 1 ) epkbot(ji,jj) = e3t_1d(ikt)
140	gdepbot(ji,jj) = gdepw_0(ji,jj,ikt)
141	END_2D
142
143	! computation of total number of ocean points
144	!--------------------------------------------
145	sedmask = 0.
146	IF ( COUNT( epkbot(:,:) > 0. ) == 0 ) THEN
147	sedmask = 0.
148	ELSE
149	sedmask = 1.
150	ENDIF
151	jpoce = MAX( COUNT( epkbot(:,:) > 0. ) , 1 )
152
153	! Allocate memory size of global variables
154	ALLOCATE( pwcp (jpoce,jpksed,jpwat) ) ; ALLOCATE( pwcp0 (jpoce,jpksed,jpwat) ) ; ALLOCATE( pwcp_dta (jpoce,jpwat) )
155	ALLOCATE( solcp(jpoce,jpksed,jpsol) ) ; ALLOCATE( solcp0(jpoce,jpksed,jpsol) ) ; ALLOCATE( rainrm_dta(jpoce,jpsol) )
156	ALLOCATE( rainrm(jpoce,jpsol) ) ; ALLOCATE( rainrg(jpoce,jpsol) ) ; ALLOCATE( raintg(jpoce) )
157	ALLOCATE( dzdep(jpoce) ) ; ALLOCATE( iarroce(jpoce) ) ; ALLOCATE( dzkbot(jpoce) )
158	ALLOCATE( zkbot(jpoce) ) ; ALLOCATE( db(jpoce,jpksed) )
159	ALLOCATE( temp(jpoce) ) ; ALLOCATE( salt(jpoce) )
160	ALLOCATE( diff(jpoce,jpksed,jpwat ) ) ; ALLOCATE( irrig(jpoce, jpksed) )
161	ALLOCATE( wacc(jpoce) ) ; ALLOCATE( fecratio(jpoce) )
162	ALLOCATE( press(jpoce) ) ; ALLOCATE( densSW(jpoce) )
163	ALLOCATE( hipor(jpoce,jpksed) ) ; ALLOCATE( co3por(jpoce,jpksed) )
164	ALLOCATE( dz3d(jpoce,jpksed) ) ; ALLOCATE( volw3d(jpoce,jpksed) ) ; ALLOCATE( vols3d(jpoce,jpksed) )
165	ALLOCATE( sedligand(jpoce, jpksed) )
166
167	! Initialization of global variables
168	pwcp (:,:,:) = 0. ; pwcp0 (:,:,:) = 0. ; pwcp_dta (:,:) = 0.
169	solcp (:,:,:) = 0. ; solcp0(:,:,:) = 0. ; rainrm_dta(:,:) = 0.
170	rainrm(:,: ) = 0. ; rainrg(:,: ) = 0. ; raintg (: ) = 0.
171	dzdep (: ) = 0. ; iarroce(: ) = 0 ; dzkbot (: ) = 0.
172	temp (: ) = 0. ; salt (: ) = 0. ; zkbot (: ) = 0.
173	press (: ) = 0. ; densSW (: ) = 0. ; db (:,:) = 0.
174	hipor (:,: ) = 0. ; co3por (:,: ) = 0. ; irrig (:,:) = 0.
175	dz3d (:,: ) = 0. ; volw3d (:,: ) = 0. ; vols3d (:,:) = 0.
176	fecratio(:) = 1E-5
177	sedligand(:,:) = 0.6E-9
178
179	! Chemical variables
180	ALLOCATE( akbs (jpoce) ) ; ALLOCATE( ak1s (jpoce) ) ; ALLOCATE( ak2s (jpoce) ) ; ALLOCATE( akws (jpoce) )
181	ALLOCATE( ak1ps (jpoce) ) ; ALLOCATE( ak2ps (jpoce) ) ; ALLOCATE( ak3ps (jpoce) ) ; ALLOCATE( aksis (jpoce) )
182	ALLOCATE( aksps (jpoce) ) ; ALLOCATE( ak12s (jpoce) ) ; ALLOCATE( ak12ps(jpoce) ) ; ALLOCATE( ak123ps(jpoce) )
183	ALLOCATE( borats(jpoce) ) ; ALLOCATE( calcon2(jpoce) ) ; ALLOCATE( sieqs (jpoce) )
184	ALLOCATE( aks3s(jpoce) ) ; ALLOCATE( akf3s(jpoce) ) ; ALLOCATE( sulfats(jpoce) )
185	ALLOCATE( fluorids(jpoce) )
186
187	akbs (:) = 0. ; ak1s (:) = 0. ; ak2s (:) = 0. ; akws (:) = 0.
188	ak1ps (:) = 0. ; ak2ps (:) = 0. ; ak3ps (:) = 0. ; aksis (:) = 0.
189	aksps (:) = 0. ; ak12s (:) = 0. ; ak12ps(:) = 0. ; ak123ps(:) = 0.
190	borats(:) = 0. ; calcon2(:) = 0. ; sieqs (:) = 0.
191	aks3s(:) = 0. ; akf3s(:) = 0. ; sulfats(:) = 0. ; fluorids(:) = 0.
192
193	! Mass balance calculation
194	ALLOCATE( fromsed(jpoce, jpsol) ) ; ALLOCATE( tosed(jpoce, jpsol) ) ; ALLOCATE( rloss(jpoce, jpsol) )
195	ALLOCATE( tokbot (jpoce, jpwat) )
196
197	fromsed(:,:) = 0. ; tosed(:,:) = 0. ; rloss(:,:) = 0. ; tokbot(:,:) = 0.
198
199	! Initialization of sediment geometry
200	!------------------------------------
201	CALL sed_init_geom
202
203	! Offline specific mode
204	! ---------------------
205	ln_sediment_offline = .FALSE.
206
207	#if defined key_sed_off
208	ln_sediment_offline = .TRUE.
209	IF (lwp) write(numsed,*) 'Sediment module is run in offline mode'
210	IF (lwp) write(numsed,*) 'key_sed_off is activated at compilation time'
211	IF (lwp) write(numsed,*) 'ln_sed_2way is forced to false'
212	IF (lwp) write(numsed,*) '--------------------------------------------'
213	ln_sed_2way = .FALSE.
214	#endif
215	! Initialisation of tracer damping
216	! --------------------------------
217	IF (ln_sediment_offline) THEN
218	CALL trc_dta_ini(jptra)
219	CALL trc_dmp_sed_ini
220	ENDIF
221
222	END SUBROUTINE sed_init
223
224	SUBROUTINE sed_init_geom
225	!!----------------------------------------------------------------------
226	!! * ROUTINE sed_init_geom *
227	!!
228	!! ** Purpose : Initialization of sediment geometry
229	!! - Read the deepest water layer thickness
230	!! ( using as mask ) in Netcdf file
231	!! - sets sediment grid, porosity and molecular weight
232	!! and others constants
233	!!
234	!! History :
235	!! ! 06-07 (C. Ethe) Original
236	!!----------------------------------------------------------------------
237	!! * Modules used
238	!! * local declarations
239	INTEGER :: ji, jj, jk, jn
240	REAL(wp) :: za0, za1, zt, zw, zsum, zsur, zprof, zprofw
241	REAL(wp) :: ztmp1, ztmp2
242	!----------------------------------------------------------
243
244	IF(lwp) WRITE(numsed,*) ' sed_init_geom : Initialization of sediment geometry '
245	IF(lwp) WRITE(numsed,*) ' '
246
247	! Computation of 1D array of sediments points
248	indoce = 0
249	DO_2D_11_11
250	IF ( epkbot(ji,jj) > 0. ) THEN
251	indoce = indoce + 1
252	iarroce(indoce) = (jj - 1) * jpi + ji
253	ENDIF
254	END_2D
255
256	IF ( indoce .EQ. 0 ) THEN
257	indoce = 1
258	iarroce(indoce) = 1
259	ENDIF
260
261	IF( indoce .NE. jpoce ) THEN
262	CALL ctl_stop( 'STOP', 'sed_ini: number of ocean points indoce doesn''t match number of point' )
263	ELSE
264	IF (lwp) WRITE(numsed,*) ' '
265	IF (lwp) WRITE(numsed,*) ' total number of ocean points jpoce = ',jpoce
266	IF (lwp) WRITE(numsed,*) ' '
267	ENDIF
268
269	! initialization of dzkbot in [cm]
270	!------------------------------------------------
271	CALL pack_arr ( jpoce, dzkbot(1:jpoce), epkbot(1:jpi,1:jpj), iarroce(1:jpoce) )
272	dzkbot(1:jpoce) = dzkbot(1:jpoce) * 1.e+2
273	CALL pack_arr ( jpoce, zkbot(1:jpoce), gdepbot(1:jpi,1:jpj), iarroce(1:jpoce) )
274
275	! Geometry and constants
276	! sediment layer thickness [cm]
277	! (1st layer= diffusive layer = pur water)
278	!------------------------------------------
279	za1 = ( sedzmin - sedhmax / FLOAT(jpksed-1) ) &
280	& / ( TANH((1-sedkth)/sedacr) - sedacr/FLOAT(jpksed-1) * ( LOG( COSH( (jpksed - sedkth) / sedacr) ) &
281	& - LOG( COSH( ( 1 - sedkth) / sedacr) ) ) )
282	za0 = sedzmin - za1 * TANH( (1-sedkth) / sedacr )
283	zsur = - za0 - za1 * sedacr * LOG( COSH( (1-sedkth) / sedacr ) )
284
285	profsedw(1) = 0.0
286	profsed(1) = -dz(1) / 2.
287	DO jk = 2, jpksed
288	zw = REAL( jk , wp )
289	zt = REAL( jk , wp ) - 0.5_wp
290	profsed(jk) = ( zsur + za0 * zt + za1 * sedacr * LOG ( COSH( (zt-sedkth) / sedacr ) ) )
291	profsedw(jk) = ( zsur + za0 * zw + za1 * sedacr * LOG ( COSH( (zw-sedkth) / sedacr ) ) )
292	END DO
293
294	dz(1) = 0.1
295	DO jk = 2, jpksed
296	dz(jk) = profsedw(jk) - profsedw(jk-1)
297	END DO
298
299	DO jk = 1, jpksed
300	DO ji = 1, jpoce
301	dz3d(ji,jk) = dz(jk)
302	END DO
303	ENDDO
304
305	! Porosity profile [0]
306	!---------------------
307	por(1) = 1.0
308	DO jk = 2, jpksed
309	por(jk) = porinf + ( porsurf-porinf) * exp(-rhox * (profsed(jk) ) )
310	END DO
311
312	! inverse of Porosity profile
313	!-----------------------------
314	por1(:) = 1. - por(:)
315
316	! Volumes of pore water and solid fractions (vector and array)
317	! WARNING : volw(1) and vols(1) are sublayer volums
318	volw(:) = dz(:) * por(:)
319	vols(:) = dz(:) * por1(:)
320
321	! temporary new value for dz3d(:,1)
322	dz3d(1:jpoce,1) = dzkbot(1:jpoce)
323
324	! WARNING : volw3d(:,1) and vols3d(:,1) are deepest water column volums
325	DO jk = 1, jpksed
326	volw3d(1:jpoce,jk) = dz3d(1:jpoce,jk) * por (jk)
327	vols3d(1:jpoce,jk) = dz3d(1:jpoce,jk) * por1(jk)
328	ENDDO
329
330	! Back to the old sublayer vlaue for dz3d(:,1)
331	dz3d(1:jpoce,1) = dz(1)
332
333	!---------------------------------------------
334	! Molecular weight [g/mol] for solid species
335	!---------------------------------------------
336
337	! opal=sio20.4(h20)=28+216+0.4*(2+16)
338	!---------------------------------------
339	mol_wgt(jsopal) = 28. + 2. * 16. + 0.4 * ( 2. + 16. )
340
341	! clay
342	! some kind of Illit (according to Pape)
343	! K0.58(Al 1.38 Fe(III)0.37Fe(II)0.04Mg0.34)[(OH)2\|(Si3.41Al0.59)O10]
344	!--------------------------------------------------------------------
345	mol_wgt(jsclay) = 0.58 * 39. + 1.38 * 27. + ( 0.37 + 0.04 ) * 56.+ &
346	& 0.34 * 24. + 2. * ( 16. + 1. ) + 3.41 * 38. + &
347	& 0.59 * 27. + 10. * 16.
348
349	mol_wgt(jsfeo) = 55.0 + 3.0 * ( 16.0 + 1.0)
350
351	mol_wgt(jsfes) = 55.0 + 32.0
352
353	! for chemistry Poc : C(122)H(244)O(86)N(16)P(1)
354	! But den sity of Poc is an Hydrated material (= POC + 30H2O)
355	! So C(122)H(355)O(120)N(16)P(1)
356	!------------------------------------------------------------
357	mol_wgt(jspoc) = ( 122. * 12. + 355. + 120. * 16.+ &
358	& 16. * 14. + 31. ) / 122.
359	mol_wgt(jspos) = mol_wgt(jspoc)
360	mol_wgt(jspor) = mol_wgt(jspoc)
361
362	! CaCO3
363	!---------
364	mol_wgt(jscal) = 40. + 12. + 3. * 16.
365
366	! Density of solid material in sediment [g/cm**3]
367	!------------------------------------------------
368	denssol = 2.6
369
370	! Initialization of diffusion coefficient as function of porosity [cm**2/s]
371	!--------------------------------------------------------------------
372	! DO jn = 1, jpsol
373	! DO jk = 1, jpksed
374	! DO ji = 1, jpoce
375	! diff(ji,jk,jn) = dcoef / ( 1.0 - 2.0 * log(por(jk)) )
376	! END DO
377	! END DO
378	! END DO
379
380	! Accumulation rate from Burwicz et al. (2011). This is used to
381	! compute the flux of clays and minerals
382	! --------------------------------------------------------------
383	DO ji = 1, jpoce
384	ztmp1 = 0.117 / ( 1.0 + ( zkbot(ji) / 200.)**3 )
385	ztmp2 = 0.006 / ( 1.0 + ( zkbot(ji) / 4000.)**10 )
386	wacc(ji) = ztmp1 + ztmp2
387	END DO
388
389
390	! Initialization of time step as function of porosity [cm**2/s]
391	!------------------------------------------------------------------
392	END SUBROUTINE sed_init_geom
393
394	SUBROUTINE sed_init_nam
395	!!----------------------------------------------------------------------
396	!! * ROUTINE sed_init_nam *
397	!!
398	!! ** Purpose : Initialization of sediment geometry
399	!! - Reading namelist and defines constants variables
400	!!
401	!! History :
402	!! ! 06-07 (C. Ethe) Original
403	!!----------------------------------------------------------------------
404
405	CHARACTER(:), ALLOCATABLE :: numnamsed_ref !! Character buffer for reference namelist sediment
406	CHARACTER(:), ALLOCATABLE :: numnamsed_cfg !! Character buffer for configuration namelist sediment
407	INTEGER :: ios ! Local integer output status for namelist read
408	CHARACTER(LEN=20) :: clname
409
410	TYPE PSED
411	CHARACTER(len = 20) :: snamesed !: short name
412	CHARACTER(len = 80 ) :: lnamesed !: long name
413	CHARACTER(len = 20 ) :: unitsed !: unit
414	END TYPE PSED
415
416	TYPE(PSED) , DIMENSION(jpsol ) :: sedsol
417	TYPE(PSED) , DIMENSION(jpwat ) :: sedwat
418	TYPE(PSED) , DIMENSION(jpdia3dsed) :: seddiag3d
419	TYPE(PSED) , DIMENSION(jpdia2dsed) :: seddiag2d
420
421	NAMELIST/nam_run/nrseddt,ln_sed_2way
422	NAMELIST/nam_geom/jpksed, sedzmin, sedhmax, sedkth, sedacr, porsurf, porinf, rhox
423	NAMELIST/nam_trased/sedsol, sedwat
424	NAMELIST/nam_diased/seddiag3d, seddiag2d
425	NAMELIST/nam_inorg/rcopal, dcoef, rccal, ratligc, rcligc
426	NAMELIST/nam_poc/redO2, redNo3, redPo4, redC, redfep, rcorgl, rcorgs, &
427	& rcorgr, rcnh4, rch2s, rcfe2, rcfeh2s, rcfes, rcfeso, &
428	& xksedo2, xksedno3, xksedfeo, xksedso4
429	NAMELIST/nam_btb/dbiot, ln_btbz, dbtbzsc, adsnh4, ln_irrig, xirrzsc
430	NAMELIST/nam_rst/ln_rst_sed, cn_sedrst_indir, cn_sedrst_outdir, cn_sedrst_in, cn_sedrst_out
431
432	INTEGER :: ji, jn, jn1
433	!-------------------------------------------------------
434
435	IF(lwp) WRITE(numsed,*) ' sed_init_nam : Read namelists '
436	IF(lwp) WRITE(numsed,*) ' '
437
438	! ryear = 1 year converted in second
439	!------------------------------------
440	IF (lwp) THEN
441	WRITE(numsed,*) ' '
442	WRITE(numsed,*) 'number of seconds in one year : ryear = ', ryear
443	WRITE(numsed,*) ' '
444	ENDIF
445
446	! Reading namelist.sed variables
447	!---------------------------------
448	clname = 'namelist_sediment'
449	IF(lwp) WRITE(numsed,*) ' sed_init_nam : read SEDIMENT namelist'
450	IF(lwp) WRITE(numsed,*) ' ~~~~~~~~~~~~~~'
451	CALL load_nml( numnamsed_ref, TRIM( clname )//'_ref', numout, lwm )
452	CALL load_nml( numnamsed_cfg, TRIM( clname )//'_cfg', numout, lwm )
453
454	nitsed000 = nittrc000
455	nitsedend = nitend
456	! Namelist nam_run
457	READ ( numnamsed_ref, nam_run, IOSTAT = ios, ERR = 901)
458	901 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_run in reference namelist' )
459
460	READ ( numnamsed_cfg, nam_run, IOSTAT = ios, ERR = 902)
461	902 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_run in configuration namelist' )
462
463	IF (lwp) THEN
464	WRITE(numsed,*) ' namelist nam_run'
465	WRITE(numsed,*) ' Nb of iterations for fast species nrseddt = ', nrseddt
466	WRITE(numsed,*) ' 2-way coupling between PISCES and Sed ln_sed_2way = ', ln_sed_2way
467	ENDIF
468
469	IF ( ln_p5z .AND. ln_sed_2way ) CALL ctl_stop( '2 ways coupling with sediment cannot be activated with PISCES-QUOTA' )
470
471	READ ( numnamsed_ref, nam_geom, IOSTAT = ios, ERR = 903)
472	903 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_geom in reference namelist' )
473
474	READ ( numnamsed_cfg, nam_geom, IOSTAT = ios, ERR = 904)
475	904 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_geom in configuration namelist' )
476
477	IF (lwp) THEN
478	WRITE(numsed,*) ' namelist nam_geom'
479	WRITE(numsed,*) ' Number of vertical layers jpksed = ', jpksed
480	WRITE(numsed,*) ' Minimum vertical spacing sedzmin = ', sedzmin
481	WRITE(numsed,*) ' Maximum depth of the sediment sedhmax = ', sedhmax
482	WRITE(numsed,*) ' Default parameter sedkth = ', sedkth
483	WRITE(numsed,*) ' Default parameter sedacr = ', sedacr
484	WRITE(numsed,*) ' Sediment porosity at the surface porsurf = ', porsurf
485	WRITE(numsed,*) ' Sediment porosity at infinite depth porinf = ', porinf
486	WRITE(numsed,*) ' Length scale of porosity variation rhox = ', rhox
487	ENDIF
488
489	jpksedm1 = jpksed - 1
490	dtsed = rDt_trc
491
492	READ ( numnamsed_ref, nam_trased, IOSTAT = ios, ERR = 905)
493	905 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_trased in reference namelist' )
494
495	READ ( numnamsed_cfg, nam_trased, IOSTAT = ios, ERR = 906)
496	906 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_trased in configuration namelist' )
497
498	DO jn = 1, jpsol
499	sedtrcd(jn) = sedsol(jn)%snamesed
500	sedtrcl(jn) = sedsol(jn)%lnamesed
501	sedtrcu(jn) = sedsol(jn)%unitsed
502	END DO
503
504	DO jn = 1, jpwat
505	jn1 = jn + jpsol
506	sedtrcd(jn1) = sedwat(jn)%snamesed
507	sedtrcl(jn1) = sedwat(jn)%lnamesed
508	sedtrcu(jn1) = sedwat(jn)%unitsed
509	END DO
510
511	IF (lwp) THEN
512	WRITE(numsed,*) ' namelist nam_trased'
513	WRITE(numsed,*) ' '
514	DO jn = 1, jptrased
515	WRITE(numsed,*) 'name of 3d output sediment field number :',jn,' : ',TRIM(sedtrcd(jn))
516	WRITE(numsed,*) 'long name ', TRIM(sedtrcl(jn))
517	WRITE(numsed,*) ' in unit = ', TRIM(sedtrcu(jn))
518	WRITE(numsed,*) ' '
519	END DO
520	WRITE(numsed,*) ' '
521	ENDIF
522
523	READ ( numnamsed_ref, nam_diased, IOSTAT = ios, ERR = 907)
524	907 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_diased in reference namelist' )
525
526	READ ( numnamsed_cfg, nam_diased, IOSTAT = ios, ERR = 908)
527	908 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_diased in configuration namelist' )
528
529	DO jn = 1, jpdia3dsed
530	seddia3d(jn) = seddiag3d(jn)%snamesed
531	seddia3l(jn) = seddiag3d(jn)%lnamesed
532	seddia3u(jn) = seddiag3d(jn)%unitsed
533	END DO
534
535	DO jn = 1, jpdia2dsed
536	seddia2d(jn) = seddiag2d(jn)%snamesed
537	seddia2l(jn) = seddiag2d(jn)%lnamesed
538	seddia2u(jn) = seddiag2d(jn)%unitsed
539	END DO
540
541	IF (lwp) THEN
542	WRITE(numsed,*) ' namelist nam_diased'
543	WRITE(numsed,*) ' '
544	DO jn = 1, jpdia3dsed
545	WRITE(numsed,*) 'name of 3D output diag number :',jn, ' : ', TRIM(seddia3d(jn))
546	WRITE(numsed,*) 'long name ', TRIM(seddia3l(jn))
547	WRITE(numsed,*) ' in unit = ',TRIM(seddia3u(jn))
548	WRITE(numsed,*) ' '
549	END DO
550
551	DO jn = 1, jpdia2dsed
552	WRITE(numsed,*) 'name of 2D output diag number :',jn, ' : ', TRIM(seddia2d(jn))
553	WRITE(numsed,*) 'long name ', TRIM(seddia2l(jn))
554	WRITE(numsed,*) ' in unit = ',TRIM(seddia2u(jn))
555	WRITE(numsed,*) ' '
556	END DO
557
558	WRITE(numsed,*) ' '
559	ENDIF
560
561	! Inorganic chemistry parameters
562	!----------------------------------
563	READ ( numnamsed_ref, nam_inorg, IOSTAT = ios, ERR = 909)
564	909 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_inorg in reference namelist' )
565
566	READ ( numnamsed_cfg, nam_inorg, IOSTAT = ios, ERR = 910)
567	910 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_inorg in configuration namelist' )
568
569	IF (lwp) THEN
570	WRITE(numsed,*) ' namelist nam_inorg'
571	WRITE(numsed,*) ' reactivity for Si rcopal = ', rcopal
572	WRITE(numsed,*) ' diff. coef for por. dcoef = ', dcoef
573	WRITE(numsed,*) ' reactivity for calcite rccal = ', rccal
574	WRITE(numsed,*) ' L/C ratio in POC ratligc = ', ratligc
575	WRITE(numsed,*) ' reactivity for ligands rcligc = ', rcligc
576	WRITE(numsed,*) ' '
577	ENDIF
578
579	! Unity conversion to get saturation conc. psat in [mol.l-1]
580	! and reactivity rc in [l.mol-1.s-1]
581	!----------------------------------------------------------
582	reac_sil = rcopal / ryear
583	reac_ligc = rcligc / ryear
584
585	! Additional parameter linked to POC/O2/No3/Po4
586	!----------------------------------------------
587	READ ( numnamsed_ref, nam_poc, IOSTAT = ios, ERR = 911)
588	911 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_poc in reference namelist' )
589
590	READ ( numnamsed_cfg, nam_poc, IOSTAT = ios, ERR = 912)
591	912 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_poc in configuration namelist' )
592
593	IF (lwp) THEN
594	WRITE(numsed,*) ' namelist nam_poc'
595	WRITE(numsed,*) ' Redfield coef for oxy redO2 = ', redO2
596	WRITE(numsed,*) ' Redfield coef for no3 redNo3 = ', redNo3
597	WRITE(numsed,*) ' Redfield coef for po4 redPo4 = ', redPo4
598	WRITE(numsed,*) ' Redfield coef for carbon redC = ', redC
599	WRITE(numsed,*) ' Ration for iron bound P redfep = ', redfep
600	WRITE(numsed,*) ' reactivity for labile POC rcorgl = ', rcorgl
601	WRITE(numsed,*) ' reactivity for semi-refract. POC rcorgs = ', rcorgs
602	WRITE(numsed,*) ' reactivity for refractory POC rcorgr = ', rcorgr
603	WRITE(numsed,*) ' reactivity for NH4 rcnh4 = ', rcnh4
604	WRITE(numsed,*) ' reactivity for H2S rch2s = ', rch2s
605	WRITE(numsed,*) ' reactivity for Fe2+ rcfe2 = ', rcfe2
606	WRITE(numsed,*) ' reactivity for FeOH/H2S rcfeh2s = ', rcfeh2s
607	WRITE(numsed,*) ' reactivity for Fe2+/H2S rcfes = ', rcfes
608	WRITE(numsed,*) ' reactivity for FeS/O2 rcfeso = ', rcfeso
609	WRITE(numsed,*) ' Half-sat. cste for oxic remin xksedo2 = ', xksedo2
610	WRITE(numsed,*) ' Half-sat. cste for denit. xksedno3 = ', xksedno3
611	WRITE(numsed,*) ' Half-sat. cste for iron remin xksedfeo = ', xksedfeo
612	WRITE(numsed,*) ' Half-sat. cste for SO4 remin xksedso4 = ', xksedso4
613	WRITE(numsed,*) ' '
614	ENDIF
615
616
617	so2ut = redO2 / redC
618	srno3 = redNo3 / redC
619	spo4r = redPo4 / redC
620	srDnit = ( (redO2 + 32. ) * 0.8 - redNo3 - redNo3 * 0.6 ) / redC
621	! reactivity rc in [l.mol-1.s-1]
622	reac_pocl = rcorgl / ryear
623	reac_pocs = rcorgs / ryear
624	reac_pocr = rcorgr / ryear
625	reac_nh4 = rcnh4 / ryear
626	reac_h2s = rch2s / ryear
627	reac_fe2 = rcfe2 / ryear
628	reac_feh2s = rcfeh2s/ ryear
629	reac_fes = rcfes / ryear
630	reac_feso = rcfeso / ryear
631
632	! reactivity rc in [l.mol-1.s-1]
633	reac_cal = rccal / ryear
634
635	! Bioturbation parameter
636	!------------------------
637	READ ( numnamsed_ref, nam_btb, IOSTAT = ios, ERR = 913)
638	913 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_btb in reference namelist' )
639
640	READ ( numnamsed_cfg, nam_btb, IOSTAT = ios, ERR = 914)
641	914 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_btb in configuration namelist' )
642
643	IF (lwp) THEN
644	WRITE(numsed,*) ' namelist nam_btb '
645	WRITE(numsed,*) ' coefficient for bioturbation dbiot = ', dbiot
646	WRITE(numsed,*) ' Depth varying bioturbation ln_btbz = ', ln_btbz
647	WRITE(numsed,*) ' coefficient for btb attenuation dbtbzsc = ', dbtbzsc
648	WRITE(numsed,*) ' Adsorption coefficient of NH4 adsnh4 = ', adsnh4
649	WRITE(numsed,*) ' Bioirrigation in sediment ln_irrig = ', ln_irrig
650	WRITE(numsed,*) ' coefficient for irrig attenuation xirrzsc = ', xirrzsc
651	WRITE(numsed,*) ' '
652	ENDIF
653
654	! Initial value (t=0) for sediment pore water and solid components
655	!----------------------------------------------------------------
656	READ ( numnamsed_ref, nam_rst, IOSTAT = ios, ERR = 915)
657	915 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_rst in reference namelist' )
658
659	READ ( numnamsed_cfg, nam_rst, IOSTAT = ios, ERR = 916)
660	916 IF( ios /= 0 ) CALL ctl_nam ( ios , 'nam_rst in configuration namelist' )
661
662	IF (lwp) THEN
663	WRITE(numsed,*) ' namelist nam_rst '
664	WRITE(numsed,*) ' boolean term for restart (T or F) ln_rst_sed = ', ln_rst_sed
665	WRITE(numsed,*) ' '
666	ENDIF
667	nn_dtsed = 1
668
669
670	END SUBROUTINE sed_init_nam
671
672	END MODULE sedini

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