source: LMDZ5/branches/LMDZ5V2.0-dev/libf/phylmd/readaerosol_interp.F90 @ 3498

Last change on this file since 3498 was 1485, checked in by Laurent Fairhead, 14 years ago

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1! $Id$
2!
3SUBROUTINE readaerosol_interp(id_aero, itap, pdtphys, r_day, first, pplay, paprs, t_seri, mass_out, pi_mass_out, load_src)
4!
5! This routine will return the mass concentration at actual day(mass_out) and
6! the pre-industrial values(pi_mass_out) for aerosol corresponding to "id_aero".
7! The mass concentrations for all aerosols are saved in this routine but each
8! call to this routine only treats the aerosol "id_aero".
9!
10! 1) Read in data for the whole year, only at first time step
11! 2) Interpolate to the actual day, only at new day
12! 3) Interpolate to the model vertical grid (target grid), only at new day
13! 4) Test for negative mass values
14
15  USE ioipsl
16  USE dimphy, ONLY : klev,klon
17  USE mod_phys_lmdz_para, ONLY : mpi_rank 
18  USE readaerosol_mod
19  USE aero_mod, ONLY : naero_spc, name_aero
20  USE write_field_phy
21  USE phys_cal_mod
22
23  IMPLICIT NONE
24
25  INCLUDE "YOMCST.h"
26  INCLUDE "chem.h"     
27  INCLUDE "temps.h"     
28  INCLUDE "clesphys.h"
29  INCLUDE "iniprint.h"
30  INCLUDE "dimensions.h"
31  INCLUDE "comvert.h"
32!
33! Input:
34!****************************************************************************************
35  INTEGER, INTENT(IN)                    :: id_aero! Identity number for the aerosol to treat
36  INTEGER, INTENT(IN)                    :: itap   ! Physic step count
37  REAL, INTENT(IN)                       :: pdtphys! Physic day step
38  REAL, INTENT(IN)                       :: r_day  ! Day of integration
39  LOGICAL, INTENT(IN)                    :: first  ! First model timestep
40  REAL, DIMENSION(klon,klev), INTENT(IN) :: pplay  ! pression at model mid-layers
41  REAL, DIMENSION(klon,klev+1),INTENT(IN):: paprs  ! pression between model layers
42  REAL, DIMENSION(klon,klev), INTENT(IN) :: t_seri ! air temperature
43!     
44! Output:     
45!****************************************************************************************
46  REAL, INTENT(OUT) :: mass_out(klon,klev)    ! Mass of aerosol (monthly mean data,from file) [ug AIBCM/m3]
47  REAL, INTENT(OUT) :: pi_mass_out(klon,klev) ! Mass of preindustrial aerosol (monthly mean data,from file) [ug AIBCM/m3]
48  REAL, INTENT(OUT) :: load_src(klon) ! Load of aerosol (monthly mean data,from file) [kg/m3]
49!     
50! Local Variables:
51!****************************************************************************************
52  INTEGER                         :: i, k, ierr
53  INTEGER                         :: iday, iyr, lmt_pas
54!  INTEGER                         :: im, day1, day2, im2
55  INTEGER                         :: im, im2
56  REAL                            :: day1, day2
57  INTEGER                         :: pi_klev_src ! Only for testing purpose
58  INTEGER, SAVE                   :: klev_src    ! Number of vertical levles in source field
59!$OMP THREADPRIVATE(klev_src)
60
61  REAL                              :: zrho      ! Air density [kg/m3]
62  REAL                              :: volm      ! Volyme de melange [kg/kg]
63  REAL, DIMENSION(klon)             :: psurf_day, pi_psurf_day
64  REAL, DIMENSION(klon)             :: pi_load_src  ! Mass load at source grid
65  REAL, DIMENSION(klon)             :: load_tgt, load_tgt_test
66  REAL, DIMENSION(klon,klev)        :: delp ! pressure difference in each model layer
67
68  REAL, ALLOCATABLE, DIMENSION(:,:)            :: pplay_src ! pression mid-layer at source levels
69  REAL, ALLOCATABLE, DIMENSION(:,:)            :: tmp1, tmp2  ! Temporary variables
70  REAL, ALLOCATABLE, DIMENSION(:,:,:,:), SAVE  :: var_year    ! VAR in right dimension for the total year
71  REAL, ALLOCATABLE, DIMENSION(:,:,:,:), SAVE  :: pi_var_year ! pre-industrial VAR, -"-
72!$OMP THREADPRIVATE(var_year,pi_var_year)
73  REAL, ALLOCATABLE, DIMENSION(:,:,:),SAVE     :: var_day     ! VAR interpolated to the actual day and model grid
74  REAL, ALLOCATABLE, DIMENSION(:,:,:),SAVE     :: pi_var_day  ! pre-industrial VAR, -"-
75!$OMP THREADPRIVATE(var_day,pi_var_day)
76  REAL, ALLOCATABLE, DIMENSION(:,:,:), SAVE    :: psurf_year, pi_psurf_year ! surface pressure for the total year
77!$OMP THREADPRIVATE(psurf_year, pi_psurf_year)
78  REAL, ALLOCATABLE, DIMENSION(:,:,:), SAVE    :: load_year, pi_load_year   ! load in the column for the total year
79!$OMP THREADPRIVATE(load_year, pi_load_year)
80
81  REAL, DIMENSION(:,:,:), POINTER   :: pt_tmp      ! Pointer allocated in readaerosol
82  REAL, POINTER, DIMENSION(:), SAVE :: pt_ap, pt_b ! Pointer for describing the vertical levels
83!$OMP THREADPRIVATE(pt_ap, pt_b)
84  INTEGER, SAVE                     :: nbr_tsteps ! number of time steps in file read
85  REAL, DIMENSION(14), SAVE         :: month_len, month_start, month_mid
86!$OMP THREADPRIVATE(nbr_tsteps, month_len, month_start, month_mid)
87  REAL                              :: jDay
88
89  LOGICAL            :: lnewday      ! Indicates if first time step at a new day
90  LOGICAL            :: OLDNEWDAY
91  LOGICAL,SAVE       :: vert_interp  ! Indicates if vertical interpolation will be done
92  LOGICAL,SAVE       :: debug=.FALSE.! Debugging in this subroutine
93!$OMP THREADPRIVATE(vert_interp, debug)
94  CHARACTER(len=8)      :: type
95  CHARACTER(len=8)      :: filename
96
97
98!****************************************************************************************
99! Initialization
100!
101!****************************************************************************************
102
103! Calculation to find if it is a new day
104
105  IF(mpi_rank == 0 .AND. debug )then
106     PRINT*,'CONTROL PANEL REGARDING TIME STEPING'
107  ENDIF
108
109  ! Use phys_cal_mod
110  iday= day_cur
111  iyr = year_cur
112  im  = mth_cur
113
114!  iday = INT(r_day)
115!  iyr  = iday/360
116!  iday = iday-iyr*360         ! day of the actual year
117!  iyr  = iyr + annee_ref      ! year of the run   
118!  im   = iday/30 +1           ! the actual month
119  CALL ymds2ju(iyr, im, iday, 0., jDay)
120!   CALL ymds2ju(iyr, im, iday-(im-1)*30, 0., jDay)
121
122
123  IF(MOD(itap-1,NINT(86400./pdtphys)) == 0)THEN
124     lnewday=.TRUE.
125  ELSE
126     lnewday=.FALSE.
127  ENDIF
128
129  IF(mpi_rank == 0 .AND. debug)then
130     ! 0.02 is about 0.5/24, namly less than half an hour
131     OLDNEWDAY = (r_day-REAL(iday) < 0.02)
132     ! Once per day, update aerosol fields
133     lmt_pas = NINT(86400./pdtphys)
134     PRINT*,'r_day-REAL(iday) =',r_day-REAL(iday)
135     PRINT*,'itap =',itap
136     PRINT*,'pdtphys =',pdtphys
137     PRINT*,'lmt_pas =',lmt_pas
138     PRINT*,'iday =',iday
139     PRINT*,'r_day =',r_day
140     PRINT*,'day_cur =',day_cur
141     PRINT*,'mth_cur =',mth_cur
142     PRINT*,'year_cur =',year_cur
143     PRINT*,'NINT(86400./pdtphys) =',NINT(86400./pdtphys)
144     PRINT*,'MOD(0,1) =',MOD(0,1)
145     PRINT*,'lnewday =',lnewday
146     PRINT*,'OLDNEWDAY =',OLDNEWDAY
147  ENDIF
148
149  IF (.NOT. ALLOCATED(var_day)) THEN
150     ALLOCATE( var_day(klon, klev, naero_spc), stat=ierr)
151     IF (ierr /= 0) CALL abort_gcm('readaerosol_interp', 'pb in allocation 1',1)
152     ALLOCATE( pi_var_day(klon, klev, naero_spc), stat=ierr)
153     IF (ierr /= 0) CALL abort_gcm('readaerosol_interp', 'pb in allocation 2',1)
154
155     ALLOCATE( psurf_year(klon, 12, naero_spc), pi_psurf_year(klon, 12, naero_spc), stat=ierr)
156     IF (ierr /= 0) CALL abort_gcm('readaerosol_interp', 'pb in allocation 3',1)
157
158     ALLOCATE( load_year(klon, 12, naero_spc), pi_load_year(klon, 12, naero_spc), stat=ierr)
159     IF (ierr /= 0) CALL abort_gcm('readaerosol_interp', 'pb in allocation 4',1)
160
161     lnewday=.TRUE.
162
163     NULLIFY(pt_ap)
164     NULLIFY(pt_b)
165  END IF
166
167!****************************************************************************************
168! 1) Read in data : corresponding to the actual year and preindustrial data.
169!    Only for the first day of the year.
170!
171!****************************************************************************************
172  IF ( (first .OR. iday==0) .AND. lnewday ) THEN
173     NULLIFY(pt_tmp)
174
175     ! Reading values corresponding to the closest year taking into count the choice of aer_type.
176     ! For aer_type=scenario interpolation between 2 data sets is done in readaerosol.
177     ! If aer_type=mix1 or mix2, the run type and file name depends on the aerosol.
178     IF (aer_type=='preind' .OR. aer_type=='actuel' .OR. aer_type=='annuel' .OR. aer_type=='scenario') THEN
179        ! Standard case
180        filename='aerosols'
181        type=aer_type
182     ELSE IF (aer_type == 'mix1') THEN
183        ! Special case using a mix of decenal sulfate file and annual aerosols(all aerosols except sulfate)
184        IF (name_aero(id_aero) == 'SO4') THEN
185           filename='so4.run '
186           type='scenario'
187        ELSE
188           filename='aerosols'
189           type='annuel'
190        END IF
191     ELSE  IF (aer_type == 'mix2') THEN
192        ! Special case using a mix of decenal sulfate file and natrual aerosols
193        IF (name_aero(id_aero) == 'SO4') THEN
194           filename='so4.run '
195           type='scenario'
196        ELSE
197           filename='aerosols'
198           type='preind'
199        END IF
200     ELSE
201        CALL abort_gcm('readaerosol_interp', 'this aer_type not supported',1)
202     END IF
203
204     CALL readaerosol(name_aero(id_aero), type, filename, iyr, klev_src, pt_ap, pt_b, pt_tmp, &
205          psurf_year(:,:,id_aero), load_year(:,:,id_aero))
206     IF (.NOT. ALLOCATED(var_year)) THEN
207        ALLOCATE(var_year(klon, klev_src, 12, naero_spc), stat=ierr)
208        IF (ierr /= 0) CALL abort_gcm('readaerosol_interp', 'pb in allocation 5',1)
209     END IF
210     var_year(:,:,:,id_aero) = pt_tmp(:,:,:)
211
212     ! Reading values corresponding to the preindustrial concentrations.
213     type='preind'
214     CALL readaerosol(name_aero(id_aero), type, filename, iyr, pi_klev_src, pt_ap, pt_b, pt_tmp, &
215          pi_psurf_year(:,:,id_aero), pi_load_year(:,:,id_aero))
216
217     ! klev_src must be the same in both files.
218     ! Also supposing pt_ap and pt_b to be the same in the 2 files without testing.
219     IF (pi_klev_src /= klev_src) THEN
220        WRITE(lunout,*) 'Error! All forcing files for the same aerosol must have the same vertical dimension'
221        WRITE(lunout,*) 'Aerosol : ', name_aero(id_aero)
222        CALL abort_gcm('readaerosol_interp','Differnt vertical axes in aerosol forcing files',1)
223     END IF
224
225     IF (.NOT. ALLOCATED(pi_var_year)) THEN
226        ALLOCATE(pi_var_year(klon, klev_src, 12, naero_spc), stat=ierr)
227        IF (ierr /= 0) CALL abort_gcm('readaerosol_interp', 'pb in allocation 6',1)
228     END IF
229     pi_var_year(:,:,:,id_aero) = pt_tmp(:,:,:)
230   
231     IF (debug) THEN
232        CALL writefield_phy('var_year_jan',var_year(:,:,1,id_aero),klev_src)
233        CALL writefield_phy('var_year_dec',var_year(:,:,12,id_aero),klev_src)
234        CALL writefield_phy('psurf_src',psurf_year(:,:,id_aero),1)
235        CALL writefield_phy('pi_psurf_src',pi_psurf_year(:,:,id_aero),1)
236        CALL writefield_phy('load_year_src',load_year(:,:,id_aero),1)
237        CALL writefield_phy('pi_load_year_src',pi_load_year(:,:,id_aero),1)
238     END IF
239
240     ! Pointer no more useful, deallocate.
241     DEALLOCATE(pt_tmp)
242
243     ! Test if vertical interpolation will be needed.
244     IF (psurf_year(1,1,id_aero)==not_valid .OR. pi_psurf_year(1,1,id_aero)==not_valid ) THEN
245        ! Pressure=not_valid indicates old file format, see module readaerosol
246        vert_interp = .FALSE.
247
248        ! If old file format, both psurf_year and pi_psurf_year must be not_valid
249        IF (  psurf_year(1,1,id_aero) /= pi_psurf_year(1,1,id_aero) ) THEN
250           WRITE(lunout,*) 'Warning! All forcing files for the same aerosol must have the same structure'
251           CALL abort_gcm('readaerosol_interp', 'The aerosol files have not the same format',1)
252        END IF
253       
254        IF (klev /= klev_src) THEN
255           WRITE(lunout,*) 'Old format of aerosol file do not allowed vertical interpolation'
256           CALL abort_gcm('readaerosol_interp', 'Old aerosol file not possible',1)
257        END IF
258
259     ELSE
260        vert_interp = .TRUE.
261     END IF
262
263!    Calendar initialisation
264!
265     DO i = 2, 13
266       month_len(i) = REAL(ioget_mon_len(year_cur, i-1))
267       CALL ymds2ju(year_cur, i-1, 1, 0.0, month_start(i))
268     ENDDO
269     month_len(1) = REAL(ioget_mon_len(year_cur-1, 12))
270     CALL ymds2ju(year_cur-1, 12, 1, 0.0, month_start(1))
271     month_len(14) = REAL(ioget_mon_len(year_cur+1, 1))
272     CALL ymds2ju(year_cur+1, 1, 1, 0.0, month_start(14))
273     month_mid(:) = month_start (:) + month_len(:)/2.
274     
275     if (debug) then
276       write(lunout,*)' month_len = ',month_len
277       write(lunout,*)' month_mid = ',month_mid
278     endif
279
280  END IF  ! IF ( (first .OR. iday==0) .AND. lnewday ) THEN
281 
282!****************************************************************************************
283! - 2) Interpolate to the actual day.
284! - 3) Interpolate to the model vertical grid.
285!
286!****************************************************************************************
287
288  IF (lnewday) THEN ! only if new day
289!****************************************************************************************
290! 2) Interpolate to the actual day
291!
292!****************************************************************************************
293    ! Find which months and days to use for time interpolation
294     nbr_tsteps = 12
295     IF (nbr_tsteps == 12) then
296       IF (jDay < month_mid(im+1)) THEN
297          im2=im-1
298          day2 = month_mid(im2+1)
299          day1 = month_mid(im+1)
300          IF (im2 <= 0) THEN
301             ! the month is january, thus the month before december
302             im2=12
303          END IF
304       ELSE
305          ! the second half of the month
306          im2=im+1
307          day2 = month_mid(im+1)
308          day1 = month_mid(im2+1)
309          IF (im2 > 12) THEN
310             ! the month is december, the following thus january
311             im2=1
312          ENDIF
313       END IF
314     ELSE IF (nbr_tsteps == 14) then
315       im = im + 1
316       IF (jDay < month_mid(im)) THEN
317          ! in the first half of the month use month before and actual month
318          im2=im-1
319          day2 = month_mid(im2)
320          day1 = month_mid(im)
321       ELSE
322          ! the second half of the month
323          im2=im+1
324          day2 = month_mid(im)
325          day1 = month_mid(im2)
326       END IF
327     ELSE
328       CALL abort_gcm('readaerosol_interp', 'number of months undefined',1)
329     ENDIF
330     if (debug) then
331       write(lunout,*)' jDay, day1, day2, im, im2 = ', jDay, day1, day2, im, im2
332     endif
333
334 
335     ! Time interpolation, still on vertical source grid
336     ALLOCATE(tmp1(klon,klev_src), tmp2(klon,klev_src),stat=ierr)
337     IF (ierr /= 0) CALL abort_gcm('readaerosol_interp', 'pb in allocation 7',1)
338
339     ALLOCATE(pplay_src(klon,klev_src), stat=ierr)
340     IF (ierr /= 0) CALL abort_gcm('readaerosol_interp', 'pb in allocation 8',1)
341     
342
343     DO k=1,klev_src
344        DO i=1,klon
345           tmp1(i,k) = &
346                var_year(i,k,im2,id_aero) - (jDay-day2)/(day1-day2) * &
347                (var_year(i,k,im2,id_aero) - var_year(i,k,im,id_aero))
348           
349           tmp2(i,k) = &
350                pi_var_year(i,k,im2,id_aero) - (jDay-day2)/(day1-day2) * &
351                (pi_var_year(i,k,im2,id_aero) - pi_var_year(i,k,im,id_aero))
352        END DO
353     END DO
354
355     ! Time interpolation for pressure at surface, still on vertical source grid
356     DO i=1,klon
357        psurf_day(i) = &
358             psurf_year(i,im2,id_aero) - (jDay-day2)/(day1-day2) * &
359             (psurf_year(i,im2,id_aero) - psurf_year(i,im,id_aero))
360       
361        pi_psurf_day(i) = &
362             pi_psurf_year(i,im2,id_aero) - (jDay-day2)/(day1-day2) * &
363             (pi_psurf_year(i,im2,id_aero) - pi_psurf_year(i,im,id_aero))
364     END DO
365
366     ! Time interpolation for the load, still on vertical source grid
367     DO i=1,klon
368        load_src(i) = &
369             load_year(i,im2,id_aero) - (jDay-day2)/(day1-day2) * &
370             (load_year(i,im2,id_aero) - load_year(i,im,id_aero))
371       
372        pi_load_src(i) = &
373             pi_load_year(i,im2,id_aero) - (jDay-day2)/(day1-day2) * &
374             (pi_load_year(i,im2,id_aero) - pi_load_year(i,im,id_aero))
375     END DO
376
377!****************************************************************************************
378! 3) Interpolate to the model vertical grid (target grid)
379!
380!****************************************************************************************
381
382     IF (vert_interp) THEN
383
384        ! - Interpolate variable tmp1 (on source grid) to var_day (on target grid)
385        !********************************************************************************
386        ! a) calculate pression at vertical levels for the source grid using the
387        !    hybrid-sigma coordinates ap and b and the surface pressure, variables from file.
388        DO k = 1, klev_src
389           DO i = 1, klon
390              pplay_src(i,k)= pt_ap(k) + pt_b(k)*psurf_day(i)
391           END DO
392        END DO
393       
394        IF (debug) THEN
395           CALL writefield_phy('psurf_day_src',psurf_day(:),1)
396           CALL writefield_phy('pplay_src',pplay_src(:,:),klev_src)
397           CALL writefield_phy('pplay',pplay(:,:),klev)
398           CALL writefield_phy('day_src',tmp1,klev_src)
399           CALL writefield_phy('pi_day_src',tmp2,klev_src)
400        END IF
401
402        ! b) vertical interpolation on pressure leveles
403        CALL pres2lev(tmp1(:,:), var_day(:,:,id_aero), klev_src, klev, pplay_src, pplay, &
404             1, klon, .FALSE.)
405       
406        IF (debug) CALL writefield_phy('day_tgt',var_day(:,:,id_aero),klev)
407       
408        ! c) adjust to conserve total aerosol mass load in the vertical pillar
409        !    Calculate the load in the actual pillar and compare with the load
410        !    read from aerosol file.
411       
412        ! Find the pressure difference in each model layer
413        DO k = 1, klev
414           DO i = 1, klon
415              delp(i,k) = paprs(i,k) - paprs (i,k+1)
416           END DO
417        END DO
418
419        ! Find the mass load in the actual pillar, on target grid
420        load_tgt(:) = 0.
421        DO k= 1, klev
422           DO i = 1, klon
423              zrho = pplay(i,k)/t_seri(i,k)/RD       ! [kg/m3]
424              volm = var_day(i,k,id_aero)*1.E-9/zrho ! [kg/kg]
425              load_tgt(i) = load_tgt(i) + 1/RG * volm *delp(i,k)
426           END DO
427        END DO
428       
429        ! Adjust, uniform
430        DO k = 1, klev
431           DO i = 1, klon
432              var_day(i,k,id_aero) = var_day(i,k,id_aero)*load_src(i)/load_tgt(i)
433           END DO
434        END DO
435       
436        IF (debug) THEN
437           load_tgt_test(:) = 0.
438           DO k= 1, klev
439              DO i = 1, klon
440                 zrho = pplay(i,k)/t_seri(i,k)/RD       ! [kg/m3]
441                 volm = var_day(i,k,id_aero)*1.E-9/zrho ! [kg/kg]
442                 load_tgt_test(i) = load_tgt_test(i) + 1/RG * volm*delp(i,k)
443              END DO
444           END DO
445           
446           CALL writefield_phy('day_tgt2',var_day(:,:,id_aero),klev)
447           CALL writefield_phy('load_tgt',load_tgt(:),1)
448           CALL writefield_phy('load_tgt_test',load_tgt_test(:),1)
449           CALL writefield_phy('load_src',load_src(:),1)
450        END IF
451
452        ! - Interpolate variable tmp2 (source grid) to pi_var_day (target grid)
453        !********************************************************************************
454        ! a) calculate pression at vertical levels at source grid   
455        DO k = 1, klev_src
456           DO i = 1, klon
457              pplay_src(i,k)= pt_ap(k) + pt_b(k)*pi_psurf_day(i)
458           END DO
459        END DO
460
461        IF (debug) THEN
462           CALL writefield_phy('pi_psurf_day_src',pi_psurf_day(:),1)
463           CALL writefield_phy('pi_pplay_src',pplay_src(:,:),klev_src)
464        END IF
465
466        ! b) vertical interpolation on pressure leveles
467        CALL pres2lev(tmp2(:,:), pi_var_day(:,:,id_aero), klev_src, klev, pplay_src, pplay, &
468             1, klon, .FALSE.)
469
470        IF (debug) CALL writefield_phy('pi_day_tgt',pi_var_day(:,:,id_aero),klev)
471
472        ! c) adjust to conserve total aerosol mass load in the vertical pillar
473        !    Calculate the load in the actual pillar and compare with the load
474        !    read from aerosol file.
475
476        ! Find the load in the actual pillar, on target grid
477        load_tgt(:) = 0.
478        DO k = 1, klev
479           DO i = 1, klon
480              zrho = pplay(i,k)/t_seri(i,k)/RD          ! [kg/m3]
481              volm = pi_var_day(i,k,id_aero)*1.E-9/zrho ! [kg/kg]
482              load_tgt(i) = load_tgt(i) + 1/RG * volm * delp(i,k)
483           END DO
484        END DO
485
486        DO k = 1, klev
487           DO i = 1, klon
488              pi_var_day(i,k,id_aero) = pi_var_day(i,k,id_aero)*pi_load_src(i)/load_tgt(i)
489           END DO
490        END DO
491
492        IF (debug) THEN
493           load_tgt_test(:) = 0.
494           DO k = 1, klev
495              DO i = 1, klon
496                 zrho = pplay(i,k)/t_seri(i,k)/RD          ! [kg/m3]
497                 volm = pi_var_day(i,k,id_aero)*1.E-9/zrho ! [kg/kg]
498                 load_tgt_test(i) = load_tgt_test(i) + 1/RG * volm * delp(i,k)
499              END DO
500           END DO
501           CALL writefield_phy('pi_day_tgt2',pi_var_day(:,:,id_aero),klev)
502           CALL writefield_phy('pi_load_tgt',load_tgt(:),1)
503           CALL writefield_phy('pi_load_tgt_test',load_tgt_test(:),1)
504           CALL writefield_phy('pi_load_src',pi_load_src(:),1)
505        END IF
506
507
508     ELSE   ! No vertical interpolation done
509
510        var_day(:,:,id_aero)    = tmp1(:,:)
511        pi_var_day(:,:,id_aero) = tmp2(:,:)
512
513     END IF ! vert_interp
514
515
516     ! Deallocation
517     DEALLOCATE(tmp1, tmp2, pplay_src, stat=ierr)
518
519!****************************************************************************************
520! 4) Test for negative mass values
521!
522!****************************************************************************************
523     IF (MINVAL(var_day(:,:,id_aero)) < 0.) THEN
524        DO k=1,klev
525           DO i=1,klon
526              ! Test for var_day
527              IF (var_day(i,k,id_aero) < 0.) THEN
528                 IF (jDay-day2 < 0.) WRITE(lunout,*) 'jDay-day2=',jDay-day2
529                 IF (var_year(i,k,im2,id_aero) - var_year(i,k,im,id_aero) < 0.) THEN
530                    WRITE(lunout,*) trim(name_aero(id_aero)),'(i,k,im2)-', &
531                         trim(name_aero(id_aero)),'(i,k,im)=',           &
532                         var_year(i,k,im2,id_aero) - var_year(i,k,im,id_aero)
533                 END IF
534                 WRITE(lunout,*) 'stop for aerosol : ',name_aero(id_aero)
535                 WRITE(lunout,*) 'day1, day2, jDay = ', day1, day2, jDay
536                 CALL abort_gcm('readaerosol_interp','Error in interpolation 1',1)
537              END IF
538           END DO
539        END DO
540     END IF
541
542     IF (MINVAL(pi_var_day(:,:,id_aero)) < 0. ) THEN
543        DO k=1, klev
544           DO i=1,klon
545              ! Test for pi_var_day
546              IF (pi_var_day(i,k,id_aero) < 0.) THEN
547                 IF (jDay-day2 < 0.) WRITE(lunout,*) 'jDay-day2=',jDay-day2
548                 IF (pi_var_year(i,k,im2,id_aero) - pi_var_year(i,k,im,id_aero) < 0.) THEN
549                    WRITE(lunout,*) trim(name_aero(id_aero)),'(i,k,im2)-', &
550                         trim(name_aero(id_aero)),'(i,k,im)=',           &
551                         pi_var_year(i,k,im2,id_aero) - pi_var_year(i,k,im,id_aero)
552                 END IF
553                 
554                 WRITE(lunout,*) 'stop for aerosol : ',name_aero(id_aero)
555                 CALL abort_gcm('readaerosol_interp','Error in interpolation 2',1)
556              END IF
557           END DO
558        END DO
559     END IF
560
561  END IF ! lnewday
562
563!****************************************************************************************
564! Copy output from saved variables
565!
566!****************************************************************************************
567
568  mass_out(:,:)    = var_day(:,:,id_aero)
569  pi_mass_out(:,:) = pi_var_day(:,:,id_aero)
570 
571END SUBROUTINE readaerosol_interp
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