source: LMDZ5/branches/LMDZ5V2.0-dev/libf/phylmd/readaerosol.F90 @ 5423

Last change on this file since 5423 was 1484, checked in by jghattas, 14 years ago
  • Added option aer_type=mix1 and mix2

mix1: as aer_type=scenario for SO4 and aer_type=annuel for the other aerosols.
mix2: as aer_type=scenario for SO4 and aer_type=preind for the other aerosols.
For these 2 options 2 files are read : so4.runxxxx.nc for SO4 and aerosolsxxxx.nc the other aerosols.

  • Bug fix for using old sulfate data(files AR4 from O Boucher) : moved test for number of time steps read from file but not available in old file format.

These modifications are already done in rev 1483 at branche LMDZ4_AR5

  • Property svn:eol-style set to native
  • Property svn:keywords set to Author Date Id Revision
File size: 23.8 KB
RevLine 
[1179]1! $Id: readaerosol.F90 1484 2011-02-09 15:44:57Z evignon $
[524]2!
[1179]3MODULE readaerosol_mod
4
5  REAL, SAVE :: not_valid=-333.
6
7CONTAINS
8
[1484]9SUBROUTINE readaerosol(name_aero, type, filename, iyr_in, klev_src, pt_ap, pt_b, pt_out, psurf, load)
[1179]10
11!****************************************************************************************
12! This routine will read the aersosol from file.
[524]13!
[1179]14! Read a year data with get_aero_fromfile depending on aer_type :
15! - actuel   : read year 1980
16! - preind   : read natural data
17! - scenario : read one or two years and do eventually linare time interpolation
[1150]18!
[1179]19! Return pointer, pt_out, to the year read or result from interpolation
20!****************************************************************************************
21  USE dimphy
[524]22
[1179]23  IMPLICIT NONE
[766]24
[1179]25 INCLUDE "iniprint.h"
[1143]26
[1179]27  ! Input arguments
28  CHARACTER(len=7), INTENT(IN) :: name_aero
[1484]29  CHARACTER(len=*), INTENT(IN) :: type  ! actuel, annuel, scenario or preind
30  CHARACTER(len=8), INTENT(IN) :: filename
[1179]31  INTEGER, INTENT(IN)          :: iyr_in
[1150]32
[1179]33  ! Output
34  INTEGER, INTENT(OUT)            :: klev_src
35  REAL, POINTER, DIMENSION(:)     :: pt_ap        ! Pointer for describing the vertical levels     
36  REAL, POINTER, DIMENSION(:)     :: pt_b         ! Pointer for describing the vertical levels     
[1270]37  REAL, POINTER, DIMENSION(:,:,:) :: pt_out       ! The massvar distributions, DIMENSION(klon, klev_src, 12)
38  REAL, DIMENSION(klon,12), INTENT(OUT) :: psurf  ! Surface pression for 12 months
39  REAL, DIMENSION(klon,12), INTENT(OUT) :: load   ! Aerosol mass load in each column for 12 months
[1150]40
[1179]41  ! Local variables
[1270]42  CHARACTER(len=4)                :: cyear
43  REAL, POINTER, DIMENSION(:,:,:) :: pt_2
44  REAL, DIMENSION(klon,12)        :: psurf2, load2
45  REAL                            :: p0           ! Reference pressure
46  INTEGER                         :: iyr1, iyr2, klev_src2
47  INTEGER                         :: it, k, i
48  LOGICAL, PARAMETER              :: lonlyone=.FALSE.
[1150]49
[1179]50!****************************************************************************************
51! Read data depending on aer_type
52!
53!****************************************************************************************
[524]54
[1179]55  IF (type == 'actuel') THEN
56! Read and return data for year 1980
57!****************************************************************************************
58     cyear='1980'
[1270]59     ! get_aero_fromfile returns pt_out allocated and initialized with data for 12 month
60     ! pt_out has dimensions (klon, klev_src, 12)
[1484]61     CALL get_aero_fromfile(name_aero, cyear, filename, klev_src, pt_ap, pt_b, p0, pt_out, psurf, load)
[1179]62     
[640]63
[1179]64  ELSE IF (type == 'preind') THEN
65! Read and return data from file with suffix .nat
66!****************************************************************************************     
67     cyear='.nat'
[1270]68     ! get_aero_fromfile returns pt_out allocated and initialized with data for 12 month
69     ! pt_out has dimensions (klon, klev_src, 12)
[1484]70     CALL get_aero_fromfile(name_aero, cyear, filename, klev_src, pt_ap, pt_b, p0, pt_out, psurf, load)
[1179]71     
[1321]72  ELSE IF (type == 'annuel') THEN
73! Read and return data from scenario annual files
74!****************************************************************************************     
75     WRITE(cyear,'(I4)') iyr_in
76     WRITE(lunout,*) 'get_aero 3 iyr_in=', iyr_in,'   ',cyear
77     ! get_aero_fromfile returns pt_out allocated and initialized with data for nbr_tsteps month
78     ! pt_out has dimensions (klon, klev_src, 12)
[1484]79     CALL get_aero_fromfile(name_aero, cyear, filename, klev_src, pt_ap, pt_b, p0, pt_out, psurf, load)
[1321]80     
[1179]81  ELSE IF (type == 'scenario') THEN
82! Read data depending on actual year and interpolate if necessary
83!****************************************************************************************
84     IF (iyr_in .LT. 1850) THEN
85        cyear='.nat'
86        WRITE(lunout,*) 'get_aero 1 iyr_in=', iyr_in,'   ',cyear
[1270]87        ! get_aero_fromfile returns pt_out allocated and initialized with data for 12 month
88        ! pt_out has dimensions (klon, klev_src, 12)
[1484]89        CALL get_aero_fromfile(name_aero, cyear, filename, klev_src, pt_ap, pt_b, p0, pt_out, psurf, load)
[1179]90       
91     ELSE IF (iyr_in .GE. 2100) THEN
92        cyear='2100'
93        WRITE(lunout,*) 'get_aero 2 iyr_in=', iyr_in,'   ',cyear
[1270]94        ! get_aero_fromfile returns pt_out allocated and initialized with data for 12 month
95        ! pt_out has dimensions (klon, klev_src, 12)
[1484]96        CALL get_aero_fromfile(name_aero, cyear, filename, klev_src, pt_ap, pt_b, p0, pt_out, psurf, load)
[1179]97       
98     ELSE
99        ! Read data from 2 decades and interpolate to actual year
100        ! a) from actual 10-yr-period
101        IF (iyr_in.LT.1900) THEN
102           iyr1 = 1850
103           iyr2 = 1900
104        ELSE IF (iyr_in.GE.1900.AND.iyr_in.LT.1920) THEN
105           iyr1 = 1900
106           iyr2 = 1920
107        ELSE
108           iyr1 = INT(iyr_in/10)*10
109           iyr2 = INT(1+iyr_in/10)*10
110        ENDIF
111       
112        WRITE(cyear,'(I4)') iyr1
113        WRITE(lunout,*) 'get_aero 3 iyr_in=', iyr_in,'   ',cyear
[1270]114        ! get_aero_fromfile returns pt_out allocated and initialized with data for 12 month
115        ! pt_out has dimensions (klon, klev_src, 12)
[1484]116        CALL get_aero_fromfile(name_aero, cyear, filename, klev_src, pt_ap, pt_b, p0, pt_out, psurf, load)
[1179]117       
118        ! If to read two decades:
119        IF (.NOT.lonlyone) THEN
120           
121           ! b) from the next following one
122           WRITE(cyear,'(I4)') iyr2
123           WRITE(lunout,*) 'get_aero 4 iyr_in=', iyr_in,'   ',cyear
124           
125           NULLIFY(pt_2)
[1270]126           ! get_aero_fromfile returns pt_2 allocated and initialized with data for 12 month
127           ! pt_2 has dimensions (klon, klev_src, 12)
[1484]128           CALL get_aero_fromfile(name_aero, cyear, filename, klev_src2, pt_ap, pt_b, p0, pt_2, psurf2, load2)
[1179]129           ! Test for same number of vertical levels
130           IF (klev_src /= klev_src2) THEN
131              WRITE(lunout,*) 'Two aerosols files with different number of vertical levels is not allowded'
132              CALL abort_gcm('readaersosol','Error in number of vertical levels',1)
133           END IF
134           
135           ! Linare interpolate to the actual year:
[1270]136           DO it=1,12
[1179]137              DO k=1,klev_src
138                 DO i = 1, klon
139                    pt_out(i,k,it) = &
[1403]140                         pt_out(i,k,it) - REAL(iyr_in-iyr1)/REAL(iyr2-iyr1) * &
[1179]141                         (pt_out(i,k,it) - pt_2(i,k,it))
142                 END DO
143              END DO
[1143]144
[1179]145              DO i = 1, klon
[1270]146                 psurf(i,it) = &
[1403]147                      psurf(i,it) - REAL(iyr_in-iyr1)/REAL(iyr2-iyr1) * &
[1270]148                      (psurf(i,it) - psurf2(i,it))
[640]149
[1270]150                 load(i,it) = &
[1403]151                      load(i,it) - REAL(iyr_in-iyr1)/REAL(iyr2-iyr1) * &
[1270]152                      (load(i,it) - load2(i,it))
[1179]153              END DO
154           END DO
[524]155
[1179]156           ! Deallocate pt_2 no more needed
157           DEALLOCATE(pt_2)
158           
159        END IF ! lonlyone
160     END IF ! iyr_in .LT. 1850
[524]161
[1179]162  ELSE
[1484]163     WRITE(lunout,*)'This option is not implemented : aer_type = ', type,' name_aero=',name_aero
[1179]164     CALL abort_gcm('readaerosol','Error : aer_type parameter not accepted',1)
165  END IF ! type
[640]166
[1151]167
[1179]168END SUBROUTINE readaerosol
[1143]169
170
[1484]171  SUBROUTINE get_aero_fromfile(varname, cyr, filename, klev_src, pt_ap, pt_b, p0, pt_year, psurf_out, load_out)
[1179]172!****************************************************************************************
[1270]173! Read 12 month aerosol from file and distribute to local process on physical grid.
[1179]174! Vertical levels, klev_src, may differ from model levels if new file format.
175!
176! For mpi_root and master thread :
177! 1) Open file
178! 2) Find vertical dimension klev_src
179! 3) Read field month by month
180! 4) Close file 
181! 5) Transform the global field from 2D(iim, jjp+1) to 1D(klon_glo)
182!     - Also the levels and the latitudes have to be inversed
183!
184! For all processes and threads :
185! 6) Scatter global field(klon_glo) to local process domain(klon)
186! 7) Test for negative values
187!****************************************************************************************
[1150]188
[1179]189    USE netcdf
190    USE dimphy
191    USE mod_grid_phy_lmdz
192    USE mod_phys_lmdz_para
[1183]193    USE iophy, ONLY : io_lon, io_lat
[1179]194
195    IMPLICIT NONE
[524]196     
[1179]197    INCLUDE "dimensions.h"     
198    INCLUDE "iniprint.h"
[524]199
[1179]200! Input argumets
201    CHARACTER(len=7), INTENT(IN)          :: varname
202    CHARACTER(len=4), INTENT(IN)          :: cyr
[1484]203    CHARACTER(len=8), INTENT(IN)          :: filename
[1150]204
[1179]205! Output arguments
206    INTEGER, INTENT(OUT)                  :: klev_src     ! Number of vertical levels in file
207    REAL, POINTER, DIMENSION(:)           :: pt_ap        ! Pointer for describing the vertical levels     
208    REAL, POINTER, DIMENSION(:)           :: pt_b         ! Pointer for describing the vertical levels     
209    REAL                                  :: p0           ! Reference pressure value
[1270]210    REAL, POINTER, DIMENSION(:,:,:)       :: pt_year      ! Pointer-variabale from file, 12 month, grid : klon,klev_src
211    REAL, DIMENSION(klon,12), INTENT(OUT) :: psurf_out    ! Surface pression for 12 months
212    REAL, DIMENSION(klon,12), INTENT(OUT) :: load_out     ! Aerosol mass load in each column
[1319]213    INTEGER                               :: nbr_tsteps   ! number of month in file read
[1150]214
[1179]215! Local variables
216    CHARACTER(len=30)     :: fname
217    CHARACTER(len=30)     :: cvar
218    INTEGER               :: ncid, dimid, varid
219    INTEGER               :: imth, i, j, k, ierr
220    REAL                  :: npole, spole
221    REAL, ALLOCATABLE, DIMENSION(:,:,:)   :: varmth
[1270]222    REAL, ALLOCATABLE, DIMENSION(:,:,:,:) :: varyear       ! Global variable read from file, 12 month
223    REAL, ALLOCATABLE, DIMENSION(:,:,:)   :: varyear_glo1D !(klon_glo, klev_src, 12)
[1179]224    REAL, ALLOCATABLE, DIMENSION(:)       :: varktmp
[524]225
[1270]226    REAL, DIMENSION(iim,jjm+1,12)         :: psurf_glo2D   ! Surface pression for 12 months on dynamics global grid
227    REAL, DIMENSION(klon_glo,12)          :: psurf_glo1D   ! -"- on physical global grid
228    REAL, DIMENSION(iim,jjm+1,12)         :: load_glo2D    ! Load for 12 months on dynamics global grid
229    REAL, DIMENSION(klon_glo,12)          :: load_glo1D    ! -"- on physical global grid
[1179]230    REAL, DIMENSION(iim,jjm+1)            :: vartmp
[1183]231    REAL, DIMENSION(iim)                  :: lon_src              ! longitudes in file
232    REAL, DIMENSION(jjm+1)                :: lat_src, lat_src_inv ! latitudes in file
233    LOGICAL                               :: new_file             ! true if new file format detected
234    LOGICAL                               :: invert_lat           ! true if the field has to be inverted for latitudes
[766]235
[524]236
[1179]237    ! Deallocate pointers
238    IF (ASSOCIATED(pt_ap)) DEALLOCATE(pt_ap)
239    IF (ASSOCIATED(pt_b))  DEALLOCATE(pt_b)
[766]240
[1249]241    IF (is_mpi_root .AND. is_omp_root) THEN
[524]242
[1179]243! 1) Open file
244!****************************************************************************************
[1484]245! Add suffix to filename
246       fname = trim(filename)//cyr//'.nc'
[1150]247 
[1484]248       WRITE(lunout,*) 'reading variable ',TRIM(varname),' in file ', TRIM(fname)
[1179]249       CALL check_err( nf90_open(TRIM(fname), NF90_NOWRITE, ncid) )
[1150]250
[1183]251! Test for equal longitudes and latitudes in file and model
252!****************************************************************************************
253       ! Read and test longitudes
254       CALL check_err( nf90_inq_varid(ncid, 'lon', varid) )
255       CALL check_err( nf90_get_var(ncid, varid, lon_src(:)) )
256       
[1202]257       IF (maxval(ABS(lon_src - io_lon)) > 0.001) THEN
[1183]258          WRITE(lunout,*) 'Problem in longitudes read from file : ',TRIM(fname)
259          WRITE(lunout,*) 'longitudes in file ', TRIM(fname),' : ', lon_src
260          WRITE(lunout,*) 'longitudes in model :', io_lon
261         
262          CALL abort_gcm('get_aero_fromfile', 'longitudes are not the same in file and model',1)
263       END IF
264
265       ! Read and test latitudes
266       CALL check_err( nf90_inq_varid(ncid, 'lat', varid) )
267       CALL check_err( nf90_get_var(ncid, varid, lat_src(:)) )
268
269       ! Invert source latitudes
270       DO j = 1, jjm+1
271          lat_src_inv(j) = lat_src(jjm+1 +1 -j)
272       END DO
273
[1202]274       IF (maxval(ABS(lat_src - io_lat)) < 0.001) THEN
[1183]275          ! Latitudes are the same
276          invert_lat=.FALSE.
[1202]277       ELSE IF (maxval(ABS(lat_src_inv - io_lat)) < 0.001) THEN
[1183]278          ! Inverted source latitudes correspond to model latitudes
279          WRITE(lunout,*) 'latitudes will be inverted for file : ',TRIM(fname)
280          invert_lat=.TRUE.
281       ELSE
282          WRITE(lunout,*) 'Problem in latitudes read from file : ',TRIM(fname)
283          WRITE(lunout,*) 'latitudes in file ', TRIM(fname),' : ', lat_src     
284          WRITE(lunout,*) 'latitudes in model :', io_lat
285          CALL abort_gcm('get_aero_fromfile', 'latitudes do not correspond between file and model',1)
286       END IF
287
[1319]288
[1179]289! 2) Check if old or new file is avalabale.
290!    New type of file should contain the dimension 'lev'
291!    Old type of file should contain the dimension 'PRESNIVS'
292!****************************************************************************************
293       ierr = nf90_inq_dimid(ncid, 'lev', dimid)
294       IF (ierr /= NF90_NOERR) THEN
295          ! Coordinate axe lev not found. Check for presnivs.
296          ierr = nf90_inq_dimid(ncid, 'PRESNIVS', dimid)
297          IF (ierr /= NF90_NOERR) THEN
298             ! Dimension PRESNIVS not found either
299             CALL abort_gcm('get_aero_fromfile', 'dimension lev or presnivs not in file',1)
300          ELSE
301             ! Old file found
302             new_file=.FALSE.
303             WRITE(lunout,*) 'Vertical interpolation for ',TRIM(varname),' will not be done'
304          END IF
305       ELSE
306          ! New file found
307          new_file=.TRUE.
308          WRITE(lunout,*) 'Vertical interpolation for ',TRIM(varname),' will be done'
309       END IF
310       
311! 2) Find vertical dimension klev_src
312!****************************************************************************************
313       CALL check_err( nf90_inquire_dimension(ncid, dimid, len = klev_src) )
314       
315     ! Allocate variables depending on the number of vertical levels
[1270]316       ALLOCATE(varmth(iim, jjm+1, klev_src), varyear(iim, jjm+1, klev_src, 12), stat=ierr)
[1179]317       IF (ierr /= 0) CALL abort_gcm('get_aero_fromfile', 'pb in allocation 1',1)
[1150]318
[1179]319       ALLOCATE(pt_ap(klev_src), pt_b(klev_src), varktmp(klev_src), stat=ierr)
320       IF (ierr /= 0) CALL abort_gcm('get_aero_fromfile', 'pb in allocation 2',1)
[1150]321
[1179]322! 3) Read all variables from file
323!    There is 2 options for the file structure :
324!    new_file=TRUE  : read varyear, ps, pt_ap and pt_b
325!    new_file=FALSE : read varyear month by month
326!****************************************************************************************
[1150]327
[1179]328       IF (new_file) THEN
[1484]329! ++) Check number of month in file opened
330!**************************************************************************************************
331       ierr = nf90_inq_dimid(ncid, 'TIME',dimid)
332       CALL check_err( nf90_inquire_dimension(ncid, dimid, len = nbr_tsteps) )
333!       IF (nbr_tsteps /= 12 .AND. nbr_tsteps /= 14) THEN
334       IF (nbr_tsteps /= 12 ) THEN
335         CALL abort_gcm('get_aero_fromfile', 'not the right number of months in aerosol file read (should be 12 for the moment)',1)
336       ENDIF
[1150]337
[1179]338! ++) Read the aerosol concentration month by month and concatenate to total variable varyear
339!****************************************************************************************
340          ! Get variable id
341          CALL check_err( nf90_inq_varid(ncid, TRIM(varname), varid) )
342         
343          ! Get the variable
344          CALL check_err( nf90_get_var(ncid, varid, varyear(:,:,:,:)) )
345         
[1270]346! ++) Read surface pression, 12 month in one variable
[1179]347!****************************************************************************************
348          ! Get variable id
349          CALL check_err( nf90_inq_varid(ncid, "ps", varid) )
350          ! Get the variable
351          CALL check_err( nf90_get_var(ncid, varid, psurf_glo2D) )
352         
353! ++) Read mass load, 12 month in one variable
354!****************************************************************************************
355          ! Get variable id
356          CALL check_err( nf90_inq_varid(ncid, "load_"//TRIM(varname), varid) )
357          ! Get the variable
358          CALL check_err( nf90_get_var(ncid, varid, load_glo2D) )
359         
360! ++) Read ap
361!****************************************************************************************
362          ! Get variable id
363          CALL check_err( nf90_inq_varid(ncid, "ap", varid) )
364          ! Get the variable
365          CALL check_err( nf90_get_var(ncid, varid, pt_ap) )
[1150]366
[1179]367! ++) Read b
368!****************************************************************************************
369          ! Get variable id
370          CALL check_err( nf90_inq_varid(ncid, "b", varid) )
371          ! Get the variable
372          CALL check_err( nf90_get_var(ncid, varid, pt_b) )
[1150]373
[1179]374! ++) Read p0 : reference pressure
375!****************************************************************************************
376          ! Get variable id
377          CALL check_err( nf90_inq_varid(ncid, "p0", varid) )
378          ! Get the variable
379          CALL check_err( nf90_get_var(ncid, varid, p0) )
[1150]380         
[524]381
[1179]382       ELSE  ! old file
[524]383
[1179]384! ++) Read the aerosol concentration month by month and concatenate to total variable varyear
385!****************************************************************************************
[1270]386          DO imth=1, 12
[1179]387             IF (imth.EQ.1) THEN
388                cvar=TRIM(varname)//'JAN'
389             ELSE IF (imth.EQ.2) THEN
390                cvar=TRIM(varname)//'FEB'
391             ELSE IF (imth.EQ.3) THEN
392                cvar=TRIM(varname)//'MAR'
393             ELSE IF (imth.EQ.4) THEN
394                cvar=TRIM(varname)//'APR'
395             ELSE IF (imth.EQ.5) THEN
396                cvar=TRIM(varname)//'MAY'
397             ELSE IF (imth.EQ.6) THEN
398                cvar=TRIM(varname)//'JUN'
399             ELSE IF (imth.EQ.7) THEN
400                cvar=TRIM(varname)//'JUL'
401             ELSE IF (imth.EQ.8) THEN
402                cvar=TRIM(varname)//'AUG'
403             ELSE IF (imth.EQ.9) THEN
404                cvar=TRIM(varname)//'SEP'
405             ELSE IF (imth.EQ.10) THEN
406                cvar=TRIM(varname)//'OCT'
407             ELSE IF (imth.EQ.11) THEN
408                cvar=TRIM(varname)//'NOV'
409             ELSE IF (imth.EQ.12) THEN
410                cvar=TRIM(varname)//'DEC'
411             END IF
412             
413             ! Get variable id
414             CALL check_err( nf90_inq_varid(ncid, TRIM(cvar), varid) )
415             
416             ! Get the variable
417             CALL check_err( nf90_get_var(ncid, varid, varmth) )
418             
419             ! Store in variable for the whole year
420             varyear(:,:,:,imth)=varmth(:,:,:)
421             
422          END DO
[1150]423         
[1179]424          ! Putting dummy
425          psurf_glo2D(:,:,:) = not_valid
426          load_glo2D(:,:,:)  = not_valid
427          pt_ap(:) = not_valid
428          pt_b(:)  = not_valid
[524]429
[1179]430       END IF
[524]431
[1179]432! 4) Close file 
433!****************************************************************************************
434       CALL check_err( nf90_close(ncid) )
435     
[524]436
[1179]437! 5) Transform the global field from 2D(iim, jjp+1) to 1D(klon_glo)
438!****************************************************************************************
439! Test if vertical levels have to be inversed
[782]440
[1179]441       IF ((pt_b(1) < pt_b(klev_src)) .OR. .NOT. new_file) THEN
[1321]442!          WRITE(lunout,*) 'Vertical axis in file ',TRIM(fname), ' needs to be inverted'
443!          WRITE(lunout,*) 'before pt_ap = ', pt_ap
444!          WRITE(lunout,*) 'before pt_b = ', pt_b
[1179]445         
446          ! Inverse vertical levels for varyear
[1270]447          DO imth=1, 12
[1179]448             varmth(:,:,:) = varyear(:,:,:,imth) ! use varmth temporarly
449             DO k=1, klev_src
450                DO j=1, jjm+1
451                   DO i=1,iim
452                      varyear(i,j,k,imth) = varmth(i,j,klev_src+1-k)
453                   END DO
454                END DO
455             END DO
456          END DO
457           
458          ! Inverte vertical axes for pt_ap and pt_b
459          varktmp(:) = pt_ap(:)
460          DO k=1, klev_src
461             pt_ap(k) = varktmp(klev_src+1-k)
462          END DO
[782]463
[1179]464          varktmp(:) = pt_b(:)
465          DO k=1, klev_src
466             pt_b(k) = varktmp(klev_src+1-k)
467          END DO
468          WRITE(lunout,*) 'after pt_ap = ', pt_ap
469          WRITE(lunout,*) 'after pt_b = ', pt_b
[524]470
[1179]471       ELSE
472          WRITE(lunout,*) 'Vertical axis in file ',TRIM(fname), ' is ok, no vertical inversion is done'
473          WRITE(lunout,*) 'pt_ap = ', pt_ap
474          WRITE(lunout,*) 'pt_b = ', pt_b
475       END IF
[524]476
[1183]477!     - Invert latitudes if necessary
[1270]478       DO imth=1, 12
[1183]479          IF (invert_lat) THEN
480
481             ! Invert latitudes for the variable
482             varmth(:,:,:) = varyear(:,:,:,imth) ! use varmth temporarly
483             DO k=1,klev_src
484                DO j=1,jjm+1
485                   DO i=1,iim
486                      varyear(i,j,k,imth) = varmth(i,jjm+1+1-j,k)
487                   END DO
488                END DO
489             END DO
490             
491             ! Invert latitudes for surface pressure
492             vartmp(:,:) = psurf_glo2D(:,:,imth)
493             DO j=1, jjm+1
[1179]494                DO i=1,iim
[1183]495                   psurf_glo2D(i,j,imth)= vartmp(i,jjm+1+1-j)
[1179]496                END DO
497             END DO
[1183]498             
499             ! Invert latitudes for the load
500             vartmp(:,:) = load_glo2D(:,:,imth)
501             DO j=1, jjm+1
502                DO i=1,iim
503                   load_glo2D(i,j,imth)= vartmp(i,jjm+1+1-j)
504                END DO
[1179]505             END DO
[1183]506          END IF ! invert_lat
507             
[1179]508          ! Do zonal mead at poles and distribut at whole first and last latitude
509          DO k=1, klev_src
510             npole=0.  ! North pole, j=1
511             spole=0.  ! South pole, j=jjm+1         
512             DO i=1,iim
513                npole = npole + varyear(i,1,k,imth)
514                spole = spole + varyear(i,jjm+1,k,imth)
515             END DO
[1403]516             npole = npole/REAL(iim)
517             spole = spole/REAL(iim)
[1179]518             varyear(:,1,    k,imth) = npole
519             varyear(:,jjm+1,k,imth) = spole
520          END DO
521       END DO ! imth
[1183]522       
[1270]523       ALLOCATE(varyear_glo1D(klon_glo, klev_src, 12), stat=ierr)
[1179]524       IF (ierr /= 0) CALL abort_gcm('get_aero_fromfile', 'pb in allocation 3',1)
525       
526       ! Transform from 2D to 1D field
527       CALL grid2Dto1D_glo(varyear,varyear_glo1D)
528       CALL grid2Dto1D_glo(psurf_glo2D,psurf_glo1D)
529       CALL grid2Dto1D_glo(load_glo2D,load_glo1D)
[1249]530
531    ELSE
532      ALLOCATE(varyear_glo1D(0,0,0))       
533    END IF ! is_mpi_root .AND. is_omp_root
534
[1189]535!$OMP BARRIER
[1179]536 
537! 6) Distribute to all processes
538!    Scatter global field(klon_glo) to local process domain(klon)
539!    and distribute klev_src to all processes
540!****************************************************************************************
[524]541
[1179]542    ! Distribute klev_src
543    CALL bcast(klev_src)
[524]544
[1179]545    ! Allocate and distribute pt_ap and pt_b
546    IF (.NOT. ASSOCIATED(pt_ap)) THEN  ! if pt_ap is allocated also pt_b is allocated
547       ALLOCATE(pt_ap(klev_src), pt_b(klev_src), stat=ierr)
548       IF (ierr /= 0) CALL abort_gcm('get_aero_fromfile', 'pb in allocation 4',1)
549    END IF
550    CALL bcast(pt_ap)
551    CALL bcast(pt_b)
[524]552
[1179]553    ! Allocate space for output pointer variable at local process
554    IF (ASSOCIATED(pt_year)) DEALLOCATE(pt_year)
[1270]555    ALLOCATE(pt_year(klon, klev_src, 12), stat=ierr)
556    IF (ierr /= 0) CALL abort_gcm('get_aero_fromfile', 'pb in allocation 5',1)
[524]557
[1179]558    ! Scatter global field to local domain at local process
559    CALL scatter(varyear_glo1D, pt_year)
[1270]560    CALL scatter(psurf_glo1D, psurf_out)
561    CALL scatter(load_glo1D,  load_out)
[524]562
[1179]563! 7) Test for negative values
564!****************************************************************************************
565    IF (MINVAL(pt_year) < 0.) THEN
566       WRITE(lunout,*) 'Warning! Negative values read from file :', fname
567    END IF
[524]568
[1179]569  END SUBROUTINE get_aero_fromfile
[524]570
571
[1179]572  SUBROUTINE check_err(status)
573    USE netcdf
574    IMPLICIT NONE
[524]575
[1179]576    INCLUDE "iniprint.h"
577    INTEGER, INTENT (IN) :: status
[524]578
[1179]579    IF (status /= NF90_NOERR) THEN
580       WRITE(lunout,*) 'Error in get_aero_fromfile ',status
581       CALL abort_gcm('get_aero_fromfile',trim(nf90_strerror(status)),1)
582    END IF
[524]583
[1179]584  END SUBROUTINE check_err
585
586
587END MODULE readaerosol_mod
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