1 | PROGRAM forcesoil |
---|
2 | !--------------------------------------------------------------------- |
---|
3 | ! This program reads a forcing file for STOMATE's soil carbon routine |
---|
4 | ! which was created with STOMATE. |
---|
5 | ! It then integrates STOMATE's soil carbon parameterizations |
---|
6 | ! for a given number of years using this forcing. |
---|
7 | !--------------------------------------------------------------------- |
---|
8 | !- IPSL (2006) |
---|
9 | !- This software is governed by the CeCILL licence see ORCHIDEE/ORCHIDEE_CeCILL.LIC |
---|
10 | USE netcdf |
---|
11 | !- |
---|
12 | USE defprec |
---|
13 | USE constantes |
---|
14 | USE constantes_mtc |
---|
15 | USE pft_parameters |
---|
16 | USE stomate_data |
---|
17 | USE ioipsl |
---|
18 | USE stomate_soilcarbon |
---|
19 | USE parallel |
---|
20 | !- |
---|
21 | IMPLICIT NONE |
---|
22 | !- |
---|
23 | CHARACTER(LEN=80) :: sto_restname_in,sto_restname_out |
---|
24 | INTEGER(i_std) :: iim,jjm |
---|
25 | |
---|
26 | INTEGER(i_std),PARAMETER :: llm = 1 |
---|
27 | INTEGER(i_std) :: kjpindex |
---|
28 | |
---|
29 | INTEGER(i_std) :: itau_dep,itau_len |
---|
30 | CHARACTER(LEN=30) :: time_str |
---|
31 | REAL(r_std) :: dt_files |
---|
32 | REAL(r_std) :: date0 |
---|
33 | INTEGER(i_std) :: rest_id_sto |
---|
34 | CHARACTER(LEN=20), SAVE :: thecalendar = 'noleap' |
---|
35 | !- |
---|
36 | CHARACTER(LEN=100) :: Cforcing_name |
---|
37 | INTEGER :: Cforcing_id |
---|
38 | INTEGER :: v_id |
---|
39 | REAL(r_std) :: dt_forcesoil |
---|
40 | INTEGER :: nparan, nbyear |
---|
41 | |
---|
42 | INTEGER(i_std),DIMENSION(:),ALLOCATABLE :: indices |
---|
43 | INTEGER(i_std),DIMENSION(:),ALLOCATABLE :: indices_g |
---|
44 | REAL(r_std),DIMENSION(:),ALLOCATABLE :: x_indices_g |
---|
45 | REAL(r_std),DIMENSION(:,:),ALLOCATABLE :: lon, lat |
---|
46 | REAL(r_std),DIMENSION(llm) :: lev |
---|
47 | |
---|
48 | |
---|
49 | INTEGER :: i,m,iatt,iv,iyear |
---|
50 | |
---|
51 | CHARACTER(LEN=80) :: var_name |
---|
52 | CHARACTER(LEN=800) :: taboo_vars |
---|
53 | REAL(r_std),DIMENSION(1) :: xtmp |
---|
54 | INTEGER(i_std),PARAMETER :: nbvarmax=300 |
---|
55 | INTEGER(i_std) :: nbvar |
---|
56 | CHARACTER(LEN=50),DIMENSION(nbvarmax) :: varnames |
---|
57 | INTEGER(i_std) :: varnbdim |
---|
58 | INTEGER(i_std),PARAMETER :: varnbdim_max=20 |
---|
59 | INTEGER,DIMENSION(varnbdim_max) :: vardims |
---|
60 | LOGICAL :: l1d |
---|
61 | REAL(r_std),DIMENSION(:,:),ALLOCATABLE :: var_3d |
---|
62 | REAL(r_std) :: x_tmp |
---|
63 | ! string suffix indicating an index |
---|
64 | CHARACTER(LEN=10) :: part_str |
---|
65 | ! |
---|
66 | ! clay fraction |
---|
67 | REAL(r_std),ALLOCATABLE,SAVE,DIMENSION(:) :: clay_g |
---|
68 | REAL(r_std),DIMENSION(:,:,:,:),ALLOCATABLE :: soilcarbon_input_g |
---|
69 | REAL(r_std),DIMENSION(:,:,:),ALLOCATABLE :: control_temp_g |
---|
70 | REAL(r_std),DIMENSION(:,:,:),ALLOCATABLE :: control_moist_g |
---|
71 | REAL(r_std),DIMENSION(:,:,:),ALLOCATABLE :: carbon_g |
---|
72 | |
---|
73 | REAL(r_std),ALLOCATABLE :: clay(:) |
---|
74 | REAL(r_std),ALLOCATABLE :: soilcarbon_input(:,:,:,:) |
---|
75 | REAL(r_std),ALLOCATABLE :: control_temp(:,:,:) |
---|
76 | REAL(r_std),ALLOCATABLE :: control_moist(:,:,:) |
---|
77 | REAL(r_std),ALLOCATABLE :: carbon(:,:,:) |
---|
78 | REAL(r_std),DIMENSION(:,:),ALLOCATABLE :: resp_hetero_soil |
---|
79 | |
---|
80 | INTEGER(i_std) :: ier,iret |
---|
81 | |
---|
82 | CHARACTER(LEN=30) :: temp_name |
---|
83 | LOGICAL :: debug |
---|
84 | LOGICAL :: l_error |
---|
85 | |
---|
86 | CALL Init_para(.FALSE.) |
---|
87 | CALL init_timer |
---|
88 | |
---|
89 | !- |
---|
90 | ! Configure the number of PFTS |
---|
91 | !- |
---|
92 | |
---|
93 | ! 1. Read the number of PFTs |
---|
94 | ! |
---|
95 | !Config Key = NVM |
---|
96 | !Config Desc = number of PFTs |
---|
97 | !Config If = OK_SECHIBA or OK_STOMATE |
---|
98 | !Config Def = 13 |
---|
99 | !Config Help = The number of vegetation types define by the user |
---|
100 | !Config Units = [-] |
---|
101 | CALL getin_p('NVM',nvm) |
---|
102 | |
---|
103 | ! 2. Allocation |
---|
104 | l_error = .FALSE. |
---|
105 | ALLOCATE(pft_to_mtc(nvm),stat=ier) |
---|
106 | l_error = l_error .OR. (ier .NE. 0) |
---|
107 | IF (l_error) THEN |
---|
108 | STOP 'pft_to_mtc (forcesoil only) : error in memory allocation' |
---|
109 | ENDIF |
---|
110 | |
---|
111 | ! 3. Initialisation of the correspondance table |
---|
112 | pft_to_mtc(:) = undef_int |
---|
113 | |
---|
114 | ! 4.Reading of the conrrespondance table in the .def file |
---|
115 | ! |
---|
116 | !Config Key = PFT_TO_MTC |
---|
117 | !Config Desc = correspondance array linking a PFT to MTC |
---|
118 | !Config if = OK_SECHIBA or OK_STOMATE |
---|
119 | !Config Def = 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 |
---|
120 | !Config Help = |
---|
121 | !Config Units = [-] |
---|
122 | CALL getin_p('PFT_TO_MTC',pft_to_mtc) |
---|
123 | |
---|
124 | ! 4.1 if nothing is found, we use the standard configuration |
---|
125 | IF(nvm .EQ. nvmc ) THEN |
---|
126 | IF(pft_to_mtc(1) .EQ. undef_int) THEN |
---|
127 | WRITE(numout,*) 'Note to the user : we will use ORCHIDEE to its standard configuration' |
---|
128 | pft_to_mtc(:) = (/ 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 /) |
---|
129 | ENDIF |
---|
130 | ELSE |
---|
131 | IF(pft_to_mtc(1) .EQ. undef_int) THEN |
---|
132 | WRITE(numout,*)' The array PFT_TO_MTC is empty : we stop' |
---|
133 | ENDIF |
---|
134 | ENDIF |
---|
135 | |
---|
136 | ! 4.2 What happened if pft_to_mtc(j) > nvmc (if the mtc doesn't exist)? |
---|
137 | DO i = 1, nvm |
---|
138 | IF(pft_to_mtc(i) .GT. nvmc) THEN |
---|
139 | WRITE(numout,*) "the MTC you chose doesn't exist" |
---|
140 | STOP 'we stop reading pft_to_mtc' |
---|
141 | ENDIF |
---|
142 | ENDDO |
---|
143 | |
---|
144 | ! 4.3 Check if pft_to_mtc(1) = 1 |
---|
145 | IF(pft_to_mtc(1) .NE. 1) THEN |
---|
146 | WRITE(numout,*) 'the first pft has to be the bare soil' |
---|
147 | STOP 'we stop reading next values of pft_to_mtc' |
---|
148 | ELSE |
---|
149 | DO i = 2,nvm |
---|
150 | IF(pft_to_mtc(i) .EQ.1) THEN |
---|
151 | WRITE(numout,*) 'only pft_to_mtc(1) has to be the bare soil' |
---|
152 | STOP 'we stop reading pft_to_mtc' |
---|
153 | ENDIF |
---|
154 | ENDDO |
---|
155 | ENDIF |
---|
156 | |
---|
157 | ! 5. Allocate and initialize natural ans is_c4 |
---|
158 | |
---|
159 | ! 5.1 Memory allocation |
---|
160 | l_error = .FALSE. |
---|
161 | ALLOCATE(natural(nvm),stat=ier) |
---|
162 | l_error = l_error .OR. (ier .NE. 0) |
---|
163 | ALLOCATE(is_c4(nvm),stat=ier) |
---|
164 | |
---|
165 | IF (l_error) THEN |
---|
166 | STOP 'natural or is_c4 (forcesoil only) : error in memory allocation' |
---|
167 | ENDIF |
---|
168 | |
---|
169 | ! 5.2 Initialisation |
---|
170 | DO i = 1, nvm |
---|
171 | natural(i) = natural_mtc(pft_to_mtc(i)) |
---|
172 | is_c4(i) = is_c4_mtc(pft_to_mtc(i)) |
---|
173 | ENDDO |
---|
174 | |
---|
175 | !- |
---|
176 | !- |
---|
177 | ! set debug to have more information |
---|
178 | !- |
---|
179 | !Config Key = DEBUG_INFO |
---|
180 | !Config Desc = Flag for debug information |
---|
181 | !Config If = |
---|
182 | !Config Def = n |
---|
183 | !Config Help = This option allows to switch on the output of debug |
---|
184 | !Config information without recompiling the code. |
---|
185 | !Config Units = [FLAG] |
---|
186 | !- |
---|
187 | debug = .FALSE. |
---|
188 | CALL getin_p('DEBUG_INFO',debug) |
---|
189 | !- |
---|
190 | ! Stomate's restart files |
---|
191 | !- |
---|
192 | IF (is_root_prc) THEN |
---|
193 | sto_restname_in = 'stomate_start.nc' |
---|
194 | CALL getin ('STOMATE_RESTART_FILEIN',sto_restname_in) |
---|
195 | WRITE(numout,*) 'STOMATE INPUT RESTART_FILE: ',TRIM(sto_restname_in) |
---|
196 | sto_restname_out = 'stomate_rest_out.nc' |
---|
197 | CALL getin ('STOMATE_RESTART_FILEOUT',sto_restname_out) |
---|
198 | WRITE(numout,*) 'STOMATE OUTPUT RESTART_FILE: ',TRIM(sto_restname_out) |
---|
199 | !- |
---|
200 | ! We need to know iim_g, jjm. |
---|
201 | ! Get them from the restart files themselves. |
---|
202 | !- |
---|
203 | iret = NF90_OPEN (sto_restname_in, NF90_NOWRITE, rest_id_sto) |
---|
204 | iret = NF90_INQUIRE_DIMENSION (rest_id_sto,1,len=iim_g) |
---|
205 | iret = NF90_INQUIRE_DIMENSION (rest_id_sto,2,len=jjm_g) |
---|
206 | iret = NF90_INQ_VARID (rest_id_sto, "time", iv) |
---|
207 | iret = NF90_GET_ATT (rest_id_sto, iv, 'calendar',thecalendar) |
---|
208 | iret = NF90_CLOSE (rest_id_sto) |
---|
209 | i=INDEX(thecalendar,ACHAR(0)) |
---|
210 | IF ( i > 0 ) THEN |
---|
211 | thecalendar(i:20)=' ' |
---|
212 | ENDIF |
---|
213 | !- |
---|
214 | ! Allocate longitudes and latitudes |
---|
215 | !- |
---|
216 | ALLOCATE (lon(iim_g,jjm_g)) |
---|
217 | ALLOCATE (lat(iim_g,jjm_g)) |
---|
218 | lon(:,:) = zero |
---|
219 | lat(:,:) = zero |
---|
220 | lev(1) = zero |
---|
221 | !- |
---|
222 | CALL restini & |
---|
223 | & (sto_restname_in, iim_g, jjm_g, lon, lat, llm, lev, & |
---|
224 | & sto_restname_out, itau_dep, date0, dt_files, rest_id_sto) |
---|
225 | ENDIF |
---|
226 | CALL bcast(date0) |
---|
227 | CALL bcast(thecalendar) |
---|
228 | WRITE(numout,*) "calendar = ",thecalendar |
---|
229 | !- |
---|
230 | ! calendar |
---|
231 | !- |
---|
232 | CALL ioconf_calendar (thecalendar) |
---|
233 | CALL ioget_calendar (one_year,one_day) |
---|
234 | CALL ioconf_startdate(date0) |
---|
235 | ! |
---|
236 | IF (is_root_prc) THEN |
---|
237 | !- |
---|
238 | ! open FORCESOIL's forcing file to read some basic info |
---|
239 | !- |
---|
240 | Cforcing_name = 'NONE' |
---|
241 | CALL getin ('STOMATE_CFORCING_NAME',Cforcing_name) |
---|
242 | !- |
---|
243 | iret = NF90_OPEN (TRIM(Cforcing_name),NF90_NOWRITE,Cforcing_id) |
---|
244 | IF (iret /= NF90_NOERR) THEN |
---|
245 | CALL ipslerr (3,'forcesoil', & |
---|
246 | & 'Could not open file : ', & |
---|
247 | & Cforcing_name,'(Do you have forget it ?)') |
---|
248 | ENDIF |
---|
249 | !- |
---|
250 | ier = NF90_GET_ATT (Cforcing_id,NF90_GLOBAL,'kjpindex',x_tmp) |
---|
251 | nbp_glo = NINT(x_tmp) |
---|
252 | ier = NF90_GET_ATT (Cforcing_id,NF90_GLOBAL,'nparan',x_tmp) |
---|
253 | nparan = NINT(x_tmp) |
---|
254 | ier = NF90_GET_ATT (Cforcing_id,NF90_GLOBAL,'nbyear',x_tmp) |
---|
255 | nbyear = NINT(x_tmp) |
---|
256 | !- |
---|
257 | ALLOCATE (indices_g(nbp_glo)) |
---|
258 | ALLOCATE (clay_g(nbp_glo)) |
---|
259 | !- |
---|
260 | ALLOCATE (x_indices_g(nbp_glo),stat=ier) |
---|
261 | ier = NF90_INQ_VARID (Cforcing_id,'index',v_id) |
---|
262 | ier = NF90_GET_VAR (Cforcing_id,v_id,x_indices_g) |
---|
263 | indices_g(:) = NINT(x_indices_g(:)) |
---|
264 | WRITE(numout,*) mpi_rank,"indices globaux : ",indices_g |
---|
265 | DEALLOCATE (x_indices_g) |
---|
266 | !- |
---|
267 | ier = NF90_INQ_VARID (Cforcing_id,'clay',v_id) |
---|
268 | ier = NF90_GET_VAR (Cforcing_id,v_id,clay_g) |
---|
269 | !- |
---|
270 | ! time step of forcesoil |
---|
271 | !- |
---|
272 | dt_forcesoil = one_year / FLOAT(nparan) |
---|
273 | WRITE(numout,*) 'time step (d): ',dt_forcesoil |
---|
274 | WRITE(numout,*) 'nparan: ',nparan |
---|
275 | WRITE(numout,*) 'nbyear: ',nbyear |
---|
276 | !- |
---|
277 | ! read (and partially write) the restart file |
---|
278 | !- |
---|
279 | ! read and write the variables we do not need |
---|
280 | !- |
---|
281 | taboo_vars ='$lon$ $lat$ $lev$ $nav_lon$ $nav_lat$ $nav_lev$ $time$ $time_steps$ '// & |
---|
282 | & '$day_counter$ $dt_days$ $date$ ' |
---|
283 | !- |
---|
284 | DO m = 1,nvm |
---|
285 | WRITE(part_str,'(I2)') m |
---|
286 | IF (m < 10) part_str(1:1) = '0' |
---|
287 | temp_name = '$carbon_'//part_str(1:LEN_TRIM(part_str))//'$' |
---|
288 | taboo_vars = TRIM(taboo_vars)//' '//TRIM(temp_name) |
---|
289 | ENDDO |
---|
290 | !- |
---|
291 | CALL ioget_vname(rest_id_sto, nbvar, varnames) |
---|
292 | !- |
---|
293 | ! read and write some special variables (1D or variables that we need) |
---|
294 | !- |
---|
295 | var_name = 'day_counter' |
---|
296 | CALL restget (rest_id_sto, var_name, 1, 1, 1, itau_dep, .TRUE., xtmp) |
---|
297 | CALL restput (rest_id_sto, var_name, 1, 1, 1, itau_dep, xtmp) |
---|
298 | !- |
---|
299 | var_name = 'dt_days' |
---|
300 | CALL restget (rest_id_sto, var_name, 1, 1, 1, itau_dep, .TRUE., xtmp) |
---|
301 | CALL restput (rest_id_sto, var_name, 1, 1, 1, itau_dep, xtmp) |
---|
302 | !- |
---|
303 | var_name = 'date' |
---|
304 | CALL restget (rest_id_sto, var_name, 1, 1, 1, itau_dep, .TRUE., xtmp) |
---|
305 | CALL restput (rest_id_sto, var_name, 1, 1, 1, itau_dep, xtmp) |
---|
306 | !- |
---|
307 | DO iv=1,nbvar |
---|
308 | !-- check if the variable is to be written here |
---|
309 | IF (INDEX(taboo_vars,'$'//TRIM(varnames(iv))//'$') == 0 ) THEN |
---|
310 | !---- get variable dimensions, especially 3rd dimension |
---|
311 | CALL ioget_vdim & |
---|
312 | & (rest_id_sto, varnames(iv), varnbdim_max, varnbdim, vardims) |
---|
313 | l1d = ALL(vardims(1:varnbdim) == 1) |
---|
314 | !---- read it |
---|
315 | IF (l1d) THEN |
---|
316 | CALL restget & |
---|
317 | & (rest_id_sto, TRIM(varnames(iv)), 1, vardims(3), & |
---|
318 | & 1, itau_dep, .TRUE., xtmp) |
---|
319 | ELSE |
---|
320 | ALLOCATE( var_3d(nbp_glo,vardims(3)), stat=ier) |
---|
321 | IF (ier /= 0) STOP 'ALLOCATION PROBLEM' |
---|
322 | !---- |
---|
323 | CALL restget & |
---|
324 | & (rest_id_sto, TRIM(varnames(iv)), nbp_glo, vardims(3), & |
---|
325 | & 1, itau_dep, .TRUE., var_3d, "gather", nbp_glo, indices_g) |
---|
326 | ENDIF |
---|
327 | !---- write it |
---|
328 | IF (l1d) THEN |
---|
329 | CALL restput & |
---|
330 | & (rest_id_sto, TRIM(varnames(iv)), 1, vardims(3), & |
---|
331 | & 1, itau_dep, xtmp) |
---|
332 | ELSE |
---|
333 | CALL restput & |
---|
334 | & (rest_id_sto, TRIM(varnames(iv)), nbp_glo, vardims(3), & |
---|
335 | & 1, itau_dep, var_3d, 'scatter', nbp_glo, indices_g) |
---|
336 | !---- |
---|
337 | DEALLOCATE(var_3d) |
---|
338 | ENDIF |
---|
339 | ENDIF |
---|
340 | ENDDO |
---|
341 | !- |
---|
342 | ! read soil carbon |
---|
343 | !- |
---|
344 | ALLOCATE(carbon_g(nbp_glo,ncarb,nvm)) |
---|
345 | carbon_g(:,:,:) = val_exp |
---|
346 | DO m = 1, nvm |
---|
347 | WRITE (part_str, '(I2)') m |
---|
348 | IF (m<10) part_str(1:1)='0' |
---|
349 | var_name = 'carbon_'//part_str(1:LEN_TRIM(part_str)) |
---|
350 | CALL restget & |
---|
351 | & (rest_id_sto, var_name, nbp_glo, ncarb , 1, itau_dep, & |
---|
352 | & .TRUE., carbon_g(:,:,m), 'gather', nbp_glo, indices_g) |
---|
353 | IF (ALL(carbon_g(:,:,m) == val_exp)) carbon_g(:,:,m) = zero |
---|
354 | !-- do not write this variable: it will be modified. |
---|
355 | ENDDO |
---|
356 | WRITE(numout,*) "date0 : ",date0, itau_dep |
---|
357 | !- |
---|
358 | ! Length of run |
---|
359 | !- |
---|
360 | WRITE(time_str,'(a)') '10000Y' |
---|
361 | CALL getin('TIME_LENGTH', time_str) |
---|
362 | write(numout,*) 'Number of years for carbon spinup : ',time_str |
---|
363 | ! transform into itau |
---|
364 | CALL tlen2itau(time_str, dt_forcesoil*one_day, date0, itau_len) |
---|
365 | write(numout,*) 'Number of time steps to do: ',itau_len |
---|
366 | !- |
---|
367 | ! read the rest of the forcing file and store forcing in an array. |
---|
368 | ! We read an average year. |
---|
369 | !- |
---|
370 | ALLOCATE(soilcarbon_input_g(nbp_glo,ncarb,nvm,nparan*nbyear)) |
---|
371 | ALLOCATE(control_temp_g(nbp_glo,nlevs,nparan*nbyear)) |
---|
372 | ALLOCATE(control_moist_g(nbp_glo,nlevs,nparan*nbyear)) |
---|
373 | !- |
---|
374 | ier = NF90_INQ_VARID (Cforcing_id,'soilcarbon_input',v_id) |
---|
375 | ier = NF90_GET_VAR (Cforcing_id,v_id,soilcarbon_input_g) |
---|
376 | ier = NF90_INQ_VARID (Cforcing_id, 'control_moist',v_id) |
---|
377 | ier = NF90_GET_VAR (Cforcing_id,v_id,control_moist_g) |
---|
378 | ier = NF90_INQ_VARID (Cforcing_id, 'control_temp',v_id) |
---|
379 | ier = NF90_GET_VAR (Cforcing_id,v_id,control_temp_g) |
---|
380 | !- |
---|
381 | ier = NF90_CLOSE (Cforcing_id) |
---|
382 | !- |
---|
383 | ENDIF |
---|
384 | CALL bcast(nparan) |
---|
385 | CALL bcast(nbyear) |
---|
386 | CALL bcast(dt_forcesoil) |
---|
387 | CALL bcast(iim_g) |
---|
388 | CALL bcast(jjm_g) |
---|
389 | CALL bcast(nbp_glo) |
---|
390 | CALL bcast(itau_dep) |
---|
391 | CALL bcast(itau_len) |
---|
392 | ! |
---|
393 | ! We must initialize data_para : |
---|
394 | ! |
---|
395 | ! |
---|
396 | CALL init_data_para(iim_g,jjm_g,nbp_glo,indices_g) |
---|
397 | |
---|
398 | kjpindex=nbp_loc |
---|
399 | jjm=jj_nb |
---|
400 | iim=iim_g |
---|
401 | IF (debug) WRITE(numout,*) "Local grid : ",kjpindex,iim,jjm |
---|
402 | |
---|
403 | !--- |
---|
404 | !--- Create the index table |
---|
405 | !--- |
---|
406 | !--- This job return a LOCAL kindex |
---|
407 | !--- |
---|
408 | ALLOCATE (indices(kjpindex),stat=ier) |
---|
409 | CALL scatter(indices_g,indices) |
---|
410 | indices(1:kjpindex)=indices(1:kjpindex)-(jj_begin-1)*iim_g |
---|
411 | IF (debug) WRITE(numout,*) mpi_rank,"indices locaux = ",indices(1:kjpindex) |
---|
412 | !- |
---|
413 | !- |
---|
414 | ! there we go: time loop |
---|
415 | !- |
---|
416 | ALLOCATE(clay(kjpindex)) |
---|
417 | ALLOCATE(soilcarbon_input(kjpindex,ncarb,nvm,nparan*nbyear)) |
---|
418 | ALLOCATE(control_temp(kjpindex,nlevs,nparan*nbyear)) |
---|
419 | ALLOCATE(control_moist(kjpindex,nlevs,nparan*nbyear)) |
---|
420 | ALLOCATE(carbon(kjpindex,ncarb,nvm)) |
---|
421 | ALLOCATE(resp_hetero_soil(kjpindex,nvm)) |
---|
422 | iatt = 0 |
---|
423 | |
---|
424 | CALL Scatter(clay_g,clay) |
---|
425 | CALL Scatter(soilcarbon_input_g,soilcarbon_input) |
---|
426 | CALL Scatter(control_temp_g,control_temp) |
---|
427 | CALL Scatter(control_moist_g,control_moist) |
---|
428 | CALL Scatter(carbon_g,carbon) |
---|
429 | |
---|
430 | !- |
---|
431 | ! Configuration of the parameters |
---|
432 | !- |
---|
433 | |
---|
434 | !Config Key = FRAC_CARB_AP |
---|
435 | !Config Desc = frac carb coefficients from active pool: depends on clay content |
---|
436 | !Config if = OK_STOMATE |
---|
437 | !Config Def = 0.004 |
---|
438 | !Config Help = fraction of the active pool going to the passive pool |
---|
439 | !Config Units = [-] |
---|
440 | CALL getin_p('FRAC_CARB_AP',frac_carb_ap) |
---|
441 | ! |
---|
442 | !Config Key = FRAC_CARB_SA |
---|
443 | !Config Desc = frac_carb_coefficients from slow pool |
---|
444 | !Config if = OK_STOMATE |
---|
445 | !Config Def = 0.42 |
---|
446 | !Config Help = fraction of the slow pool going to the active pool |
---|
447 | !Config Units = [-] |
---|
448 | CALL getin_p('FRAC_CARB_SA',frac_carb_sa) |
---|
449 | ! |
---|
450 | !Config Key = FRAC_CARB_SP |
---|
451 | !Config Desc = frac_carb_coefficients from slow pool |
---|
452 | !Config if = OK_STOMATE |
---|
453 | !Config Def = 0.03 |
---|
454 | !Config Help = fraction of the slow pool going to the passive pool |
---|
455 | !Config Units = [-] |
---|
456 | CALL getin_p('FRAC_CARB_SP',frac_carb_sp) |
---|
457 | ! |
---|
458 | !Config Key = FRAC_CARB_PA |
---|
459 | !Config Desc = frac_carb_coefficients from passive pool |
---|
460 | !Config if = OK_STOMATE |
---|
461 | !Config Def = 0.45 |
---|
462 | !Config Help = fraction of the passive pool going to the passive pool |
---|
463 | !Config Units = [-] |
---|
464 | CALL getin_p('FRAC_CARB_PA',frac_carb_pa) |
---|
465 | ! |
---|
466 | !Config Key = FRAC_CARB_PS |
---|
467 | !Config Desc = frac_carb_coefficients from passive pool |
---|
468 | !Config if = OK_STOMATE |
---|
469 | !Config Def = 0.0 |
---|
470 | !Config Help = fraction of the passive pool going to the passive pool |
---|
471 | !Config Units = [-] |
---|
472 | CALL getin_p('FRAC_CARB_PS',frac_carb_ps) |
---|
473 | ! |
---|
474 | !Config Key = ACTIVE_TO_PASS_CLAY_FRAC |
---|
475 | !Config Desc = |
---|
476 | !Config if = OK_STOMATE |
---|
477 | !Config Def = .68 |
---|
478 | !Config Help = |
---|
479 | !Config Units = [-] |
---|
480 | CALL getin_p('ACTIVE_TO_PASS_CLAY_FRAC',active_to_pass_clay_frac) |
---|
481 | ! |
---|
482 | !Config Key = CARBON_TAU_IACTIVE |
---|
483 | !Config Desc = residence times in carbon pools |
---|
484 | !Config if = OK_STOMATE |
---|
485 | !Config Def = 0.149 |
---|
486 | !Config Help = |
---|
487 | !Config Units = [days] |
---|
488 | CALL getin_p('CARBON_TAU_IACTIVE',carbon_tau_iactive) |
---|
489 | ! |
---|
490 | !Config Key = CARBON_TAU_ISLOW |
---|
491 | !Config Desc = residence times in carbon pools |
---|
492 | !Config if = OK_STOMATE |
---|
493 | !Config Def = 5.48 |
---|
494 | !Config Help = |
---|
495 | !Config Units = [days] |
---|
496 | CALL getin_p('CARBON_TAU_ISLOW',carbon_tau_islow) |
---|
497 | ! |
---|
498 | !Config Key = CARBON_TAU_IPASSIVE |
---|
499 | !Config Desc = residence times in carbon pools |
---|
500 | !Config if = OK_STOMATE |
---|
501 | !Config Def = 241. |
---|
502 | !Config Help = |
---|
503 | !Config Units = [days] |
---|
504 | CALL getin_p('CARBON_TAU_IPASSIVE',carbon_tau_ipassive) |
---|
505 | ! |
---|
506 | !Config Key = FLUX_TOT_COEFF |
---|
507 | !Config Desc = |
---|
508 | !Config if = OK_STOMATE |
---|
509 | !Config Def = 1.2, 1.4,.75 |
---|
510 | !Config Help = |
---|
511 | !Config Units = [days] |
---|
512 | CALL getin_p('FLUX_TOT_COEFF',flux_tot_coeff) |
---|
513 | |
---|
514 | iyear=1 |
---|
515 | DO i=1,itau_len |
---|
516 | iatt = iatt+1 |
---|
517 | IF (iatt > nparan*nbyear) THEN |
---|
518 | IF (debug) WRITE(numout,*) iyear |
---|
519 | iatt = 1 |
---|
520 | iyear=iyear+1 |
---|
521 | ENDIF |
---|
522 | CALL soilcarbon & |
---|
523 | & (kjpindex, dt_forcesoil, clay, & |
---|
524 | & soilcarbon_input(:,:,:,iatt), & |
---|
525 | & control_temp(:,:,iatt), control_moist(:,:,iatt), & |
---|
526 | & carbon, resp_hetero_soil) |
---|
527 | ENDDO |
---|
528 | WRITE(numout,*) "End of soilcarbon LOOP." |
---|
529 | CALL Gather(carbon,carbon_g) |
---|
530 | !- |
---|
531 | ! write new carbon into restart file |
---|
532 | !- |
---|
533 | IF (is_root_prc) THEN |
---|
534 | DO m=1,nvm |
---|
535 | WRITE (part_str, '(I2)') m |
---|
536 | IF (m<10) part_str(1:1)='0' |
---|
537 | var_name = 'carbon_'//part_str(1:LEN_TRIM(part_str)) |
---|
538 | CALL restput & |
---|
539 | & (rest_id_sto, var_name, nbp_glo, ncarb , 1, itau_dep, & |
---|
540 | & carbon_g(:,:,m), 'scatter', nbp_glo, indices_g) |
---|
541 | ENDDO |
---|
542 | !- |
---|
543 | CALL getin_dump |
---|
544 | CALL restclo |
---|
545 | ENDIF |
---|
546 | #ifdef CPP_PARA |
---|
547 | CALL MPI_FINALIZE(ier) |
---|
548 | #endif |
---|
549 | WRITE(numout,*) "End of forcesoil." |
---|
550 | !-------------------- |
---|
551 | END PROGRAM forcesoil |
---|