1 | ! $Id$ |
---|
2 | MODULE regr_pr_time_av_m |
---|
3 | |
---|
4 | USE write_field_phy |
---|
5 | USE mod_phys_lmdz_transfert_para, ONLY: bcast |
---|
6 | USE mod_phys_lmdz_para, ONLY: mpi_rank, omp_rank |
---|
7 | USE print_control_mod, ONLY: prt_level |
---|
8 | IMPLICIT NONE |
---|
9 | |
---|
10 | !------------------------------------------------------------------------------- |
---|
11 | ! Purpose: Regrid pressure with an averaging method. Operations done: |
---|
12 | ! * on the root process: read a NetCDF 3D or 4D field at a given day. |
---|
13 | ! * pack the fields to the LMDZ "horizontal "physics" grid and scatter |
---|
14 | ! to all threads of all processes; |
---|
15 | ! * in all the threads of all the processes, regrid the fields in pressure |
---|
16 | ! to the LMDZ vertical grid. |
---|
17 | ! * the forcing fields are stretched if the following arguments are present: |
---|
18 | ! - "lat_in": input file latitudes. |
---|
19 | ! - "Ptrp_ou": target grid (LMDZ) tropopause pressure. |
---|
20 | ! so that the tropopause is shifted to the position of the one of LMDZ. |
---|
21 | ! Note that the ozone quantity conservation is not ensured. |
---|
22 | !------------------------------------------------------------------------------- |
---|
23 | ! Initial routine: regr_pr_av_m module (L. Guez). |
---|
24 | ! Present version: David Cugnet ; corresponding additions: |
---|
25 | ! - time interpolation |
---|
26 | ! - 3D compliant |
---|
27 | ! - vertical stretching of the field to allow tropopause matching between |
---|
28 | ! input field and current lmdz field. |
---|
29 | !------------------------------------------------------------------------------- |
---|
30 | ! Remarks: |
---|
31 | ! * 3D fields are zonal means, with dimensions (latitude, pressure, julian day) |
---|
32 | ! * 4D fields have the dimensions: (longitude, latitude, pressure, julian day) |
---|
33 | ! * All the fields are already on the horizontal grid (rlatu) or (rlatu,rlonv), |
---|
34 | ! except that the latitudes are in ascending order in the input file. |
---|
35 | ! * We assume that all the input fields have the same coordinates. |
---|
36 | ! * The target vertical LMDZ grid is the grid of layer centers. |
---|
37 | ! * Regridding in pressure can be: |
---|
38 | ! - Ploc=='I': pressures provided at Interfaces => conservative 2nd order |
---|
39 | ! OK for ozone coefficients regridding in Cariolle routines. |
---|
40 | ! - Ploc=='C': pressures provides at cells Centers => classical linear |
---|
41 | ! OK for ozone vertical regridding, especially when torpopause |
---|
42 | ! adjustment is activated, to avoid "strairs shape effect" on profiles. |
---|
43 | ! * All the fields are regridded as a single multi-dimensional array, so it |
---|
44 | ! saves CPU time to call this procedure once for several NetCDF variables |
---|
45 | ! rather than several times, each time for a single NetCDF variable. |
---|
46 | ! * The input file pressure at tropopause can be (in decreasing priority): |
---|
47 | ! 1) read from the file if "tropopause_air_pressure" field is available. |
---|
48 | ! 2) computed using "tro3" and "tro3_at_tropopause' (if available). |
---|
49 | ! 3) computed using "tro3" and a fixed threshold otherwise, constant or |
---|
50 | ! determined using an empirical three parameters law: |
---|
51 | ! o3t(ppbV)=co1+co2*SIN(PI*(month-2)/6)*TANH(lat_deg/co3) |
---|
52 | ! => co1 and co2 are in ppbV, and co3 in degrees. |
---|
53 | ! => co3 allow a smooth transition between north and south hemispheres. |
---|
54 | ! * If available, the field "ps" (input file pressure at surface) is used. |
---|
55 | ! If not, the current LMDZ ground pressure is taken instead. |
---|
56 | ! * Fields with suffix "m"/"p" are at the closest records earlier/later than |
---|
57 | ! the mid-julian day "julien", on the global "dynamics" horizontal grid. |
---|
58 | ! * Fields(i,j,k,l) are at longitude-latitude-name "rlonv(i)-rlatu(j)-nam(l)", |
---|
59 | ! pressure level/interval (Ploc=="C"/"I") "pcen_in(k)"/"pcen_in(k:k+1)]". |
---|
60 | ! * In the 2D file case, the values are the same for all longitudes. |
---|
61 | ! * The tropopause correction works like this: the input fields (file) are |
---|
62 | ! interpolated on output (LMDZ) pressure field, which is streched using a power |
---|
63 | ! law in a limited zone made of 2 layers: |
---|
64 | ! 1) between lower bound (lower than lowest tropopause) and LMDZ tropopause |
---|
65 | ! 2) between LMDZ tropopause and upper bound (higher thzn highest tropopause) |
---|
66 | ! The stretching function has the following form: |
---|
67 | ! Sigma_str = Sigma^(1+alpha*phi(Sigma)), where: |
---|
68 | ! * alpha=LOG(SigT_in/SigT_ou)/LOG(SigT_ou) |
---|
69 | ! This value shifts the file tropopause to the height of the one of LMDZ. |
---|
70 | ! * phi is quasi-linear (sections of 1/log function) in the adjacent intervals: |
---|
71 | ! - from 0 to 1 in [Sig_top,SigT_ou] |
---|
72 | ! - from 1 to 0 in [SigT_ou,Sig_bot] |
---|
73 | ! This quasi-triangular localization function ponderates alpha-law from one near |
---|
74 | ! the tropopause to zero each side apart. |
---|
75 | ! |
---|
76 | ! * The following fields are on the global "dynamics" grid, as read from files: |
---|
77 | REAL, SAVE, ALLOCATABLE :: v1 (:,:,:,:) !--- Current time ozone fields |
---|
78 | ! v1: Field read/interpol at time "julien" on the global "dynamics" horiz. grid. |
---|
79 | REAL, SAVE, ALLOCATABLE :: v1m(:,:,:,:) !--- Previous time ozone fields |
---|
80 | REAL, SAVE, ALLOCATABLE :: v1p(:,:,:,:) !--- Next time ozone fields |
---|
81 | REAL, SAVE, ALLOCATABLE :: pgm(:,:), pgp(:,:) !--- Ground pressure |
---|
82 | REAL, SAVE, ALLOCATABLE :: ptm(:,:), ptp(:,:) !--- Tropopause pressure |
---|
83 | REAL, SAVE, ALLOCATABLE :: otm(:,:), otp(:,:) !--- Tropopause o3 mix. ratio |
---|
84 | INTEGER, SAVE :: ntim_in !--- Records nb in input file |
---|
85 | INTEGER, SAVE :: itrp0 !--- idx above chem tropop. |
---|
86 | INTEGER, SAVE :: irec !--- Current time index |
---|
87 | ! * for daily input files: current julian day number |
---|
88 | ! * for monthly input files: julien is in [time_in(irec),time_in(irec+1)] |
---|
89 | LOGICAL, SAVE :: linterp !--- Interpolation in time |
---|
90 | LOGICAL, SAVE :: lPrSfile !--- Surface pressure flag |
---|
91 | LOGICAL, SAVE :: lPrTfile !--- Tropopause pressure flag |
---|
92 | LOGICAL, SAVE :: lO3Tfile !--- Tropopause ozone flag |
---|
93 | LOGICAL, SAVE :: lfirst=.TRUE. !--- First call flag |
---|
94 | !$OMP THREADPRIVATE(lfirst) |
---|
95 | REAL, PARAMETER :: pTropUp=9.E+3 !--- Value < tropopause pressure (Pa) |
---|
96 | REAL, PARAMETER :: gamm =0.4 !--- Max. stretched layer sigma ratio |
---|
97 | REAL, PARAMETER :: rho =1.4 !--- Max tropopauses sigma ratio |
---|
98 | REAL, PARAMETER :: o3t0 =1.E-7 !--- Nominal O3 vmr at tropopause |
---|
99 | LOGICAL, PARAMETER :: lO3Tpara=.FALSE. !--- Parametrized O3 vmr at tropopause |
---|
100 | LOGICAL, PARAMETER :: ldebug=.FALSE.!--- Force writefield_phy multiple outputs |
---|
101 | REAL, PARAMETER :: ChemPTrMin=9.E+3 !--- Thresholds for minimum and maximum |
---|
102 | REAL, PARAMETER :: ChemPTrMax=4.E+4 ! chemical tropopause pressure (Pa). |
---|
103 | REAL, PARAMETER :: DynPTrMin =8.E+3 !--- Thresholds for minimum and maximum |
---|
104 | REAL, PARAMETER :: DynPTrMax =4.E+4 ! dynamical tropopause pressure (Pa). |
---|
105 | |
---|
106 | CONTAINS |
---|
107 | |
---|
108 | !------------------------------------------------------------------------------- |
---|
109 | ! |
---|
110 | SUBROUTINE regr_pr_time_av(fID, nam, julien, Ploc, Pre_in, Pre_ou, v3, Pgnd_ou,& |
---|
111 | time_in, lon_in, lat_in, Ptrp_ou) |
---|
112 | ! |
---|
113 | !------------------------------------------------------------------------------- |
---|
114 | USE dimphy, ONLY: klon |
---|
115 | USE netcdf95, ONLY: NF95_INQ_VARID, NF95_INQUIRE_VARIABLE, handle_err, & |
---|
116 | NF95_INQ_DIMID, NF95_INQUIRE_DIMENSION |
---|
117 | USE netcdf, ONLY: NF90_INQ_VARID, NF90_GET_VAR, NF90_NOERR |
---|
118 | USE assert_m, ONLY: assert |
---|
119 | USE assert_eq_m, ONLY: assert_eq |
---|
120 | !! USE comvert_mod, ONLY: scaleheight |
---|
121 | USE interpolation, ONLY: locate |
---|
122 | USE regr_conserv_m, ONLY: regr_conserv |
---|
123 | USE regr_lint_m, ONLY: regr_lint |
---|
124 | USE slopes_m, ONLY: slopes |
---|
125 | USE mod_phys_lmdz_para, ONLY: is_mpi_root,is_master |
---|
126 | USE mod_grid_phy_lmdz, ONLY: nlon=>nbp_lon, nlat=>nbp_lat, nlev_ou=>nbp_lev, klon_glo, grid_type, unstructured |
---|
127 | USE mod_phys_lmdz_transfert_para, ONLY: scatter2d, scatter, gather |
---|
128 | USE phys_cal_mod, ONLY: calend, year_len, days_elapsed, jH_cur |
---|
129 | USE geometry_mod, ONLY: ind_cell_glo |
---|
130 | !------------------------------------------------------------------------------- |
---|
131 | ! Arguments: |
---|
132 | INTEGER, INTENT(IN) :: fID !--- NetCDF file ID |
---|
133 | CHARACTER(LEN=13), INTENT(IN) :: nam(:) !--- NetCDF variables names |
---|
134 | REAL, INTENT(IN) :: julien !--- Days since Jan 1st |
---|
135 | CHARACTER(LEN=1), INTENT(IN) :: Ploc !--- Pressures locations |
---|
136 | !--- File/LMDZ (resp. decreasing & increasing order) pressure, Pa |
---|
137 | ! At cells centers or interfaces depending on "Ploc" keyword (C/I) |
---|
138 | REAL, INTENT(IN) :: Pre_in(:) !--- in: file (nlev_in[+1]) |
---|
139 | REAL, INTENT(IN) :: Pre_ou(:,:) !--- out: LMDZ (klon,nlev_ou[+1]) |
---|
140 | REAL, INTENT(OUT) :: v3(:,:,:) !--- Regr. fld (klon,nlev_ou,n_var) |
---|
141 | REAL, INTENT(IN), OPTIONAL :: Pgnd_ou(:) !--- LMDZ ground pressure (klon) |
---|
142 | REAL, INTENT(IN), OPTIONAL :: time_in(:) !--- Records times, in days |
---|
143 | ! since Jan 1 of current year |
---|
144 | REAL, INTENT(IN), OPTIONAL :: lon_in(:) !--- File longitudes vector (klon) |
---|
145 | REAL, INTENT(IN), OPTIONAL :: lat_in(:) !--- File latitudes vector (klon) |
---|
146 | REAL, INTENT(IN), OPTIONAL :: Ptrp_ou(:) !--- LMDZ tropopause pres (klon) |
---|
147 | !------------------------------------------------------------------------------- |
---|
148 | ! Local variables: |
---|
149 | include "clesphys.h" |
---|
150 | include "YOMCST.h" |
---|
151 | CHARACTER(LEN=80) :: sub |
---|
152 | CHARACTER(LEN=320) :: str |
---|
153 | INTEGER :: vID, ncerr, n_var, ibot, iout, nn |
---|
154 | INTEGER :: i, nlev_in, n_dim, itop, itrp, i0 |
---|
155 | LOGICAL :: lAdjTro !--- Need to adjust tropopause |
---|
156 | REAL :: y_frac !--- Elapsed year fraction |
---|
157 | REAL :: alpha, beta, al !--- For stretching/interpolation |
---|
158 | REAL :: SigT_in, SigT_ou !--- Input and output tropopauses |
---|
159 | REAL :: Sig_bot, Sig_top !--- Bounds of quasi-hat function |
---|
160 | REAL :: Sig_bo0, Sig_to0 !--- Lower/upper tropopauses |
---|
161 | REAL :: Sig_in (SIZE(Pre_in)) !--- Input field sigma levels |
---|
162 | REAL :: Sig_ou (SIZE(Pre_ou,2)) !--- Output LMDZ sigma levels |
---|
163 | REAL :: phi (SIZE(Pre_ou,2)) !--- Stretching exponent anomaly |
---|
164 | REAL :: Pstr_ou(SIZE(Pre_ou,2)) !--- Stretched pressure levels |
---|
165 | REAL :: Pres_ou(SIZE(Pre_ou,2)) !--- Pre_ou(i,:), reversed order |
---|
166 | REAL, DIMENSION(nlon, nlat) :: pg1, pt1, ot1 |
---|
167 | REAL, DIMENSION(klon) :: Pgnd_in, Ptrp_in, Otrp_in |
---|
168 | REAL, DIMENSION(klon) :: Ptrop_ou, Pgrnd_ou |
---|
169 | ! * The following fields are scattered to the partial "physics" horizontal grid. |
---|
170 | REAL, POINTER :: v2(:,:,:) !--- Current time ozone fields |
---|
171 | ! In the 2D file case, the values are the same for all longitudes. |
---|
172 | ! "v2(i, k, l)" is at longitude-latitude "xlon(i)-xlat(i)" and name "nam(l)" |
---|
173 | ! Both are: * if Ploc=='I' in pressure interval "press_in_edg(k:k+1)" |
---|
174 | ! * if Ploc=='C' at pressure "press_in_cen(k)" |
---|
175 | REAL, TARGET :: & |
---|
176 | v2i(klon,SIZE(Pre_in)-1,SIZE(nam)), & !--- v2 in Ploc=='I' case |
---|
177 | v2c(klon,SIZE(Pre_in) ,SIZE(nam)) !--- v2 in Ploc=='C' case |
---|
178 | INTEGER,ALLOCATABLE :: ind_cell_glo_glo(:) |
---|
179 | LOGICAL :: ll |
---|
180 | !--- For debug |
---|
181 | REAL, DIMENSION(klon) :: Ptrop_in, Ptrop_ef |
---|
182 | REAL, DIMENSION(klon) :: dzStrain, dzStrain0 |
---|
183 | REAL, DIMENSION(klon,SIZE(Pre_ou,2)) :: Pstrn_ou, phii |
---|
184 | !------------------------------------------------------------------------------- |
---|
185 | sub="regr_pr_time_av" |
---|
186 | nlev_in=SIZE(Pre_in); IF(Ploc=='I') nlev_in=nlev_in-1 |
---|
187 | IF(Ploc=='I') THEN; v2 => v2i; ELSE; v2 => v2c; END IF |
---|
188 | CALL assert(SIZE(Pre_ou,1)==klon,TRIM(sub)//" Pre_ou klon") |
---|
189 | CALL assert(SIZE(v3,1)==klon, TRIM(sub)//" v3 klon") |
---|
190 | CALL assert(SIZE(v3,2)==nlev_ou, TRIM(sub)//" v3 nlev_ou") |
---|
191 | IF(Ploc=='I') CALL assert(SIZE(Pre_ou,2)==nlev_ou+1,TRIM(sub)//" Pre_ou nlev_ou+1") |
---|
192 | IF(Ploc=='C') CALL assert(SIZE(Pre_ou,2)==nlev_ou ,TRIM(sub)//" Pre_ou nlev_ou") |
---|
193 | n_var = assert_eq(SIZE(nam),SIZE(v3,3),TRIM(sub)//" v3 n_var") |
---|
194 | IF(PRESENT(Pgnd_ou)) CALL assert(SIZE(Pgnd_ou)==klon,TRIM(sub)//" Pgnd_ou klon") |
---|
195 | IF(PRESENT(lon_in)) CALL assert(SIZE(lon_in )==klon,TRIM(sub)//" lon_in klon") |
---|
196 | IF(PRESENT(lat_in)) CALL assert(SIZE(lat_in )==klon,TRIM(sub)//" lat_in klon") |
---|
197 | IF(PRESENT(Ptrp_ou)) CALL assert(SIZE(Ptrp_ou)==klon,TRIM(sub)//" Ptrp_ou klon") |
---|
198 | lAdjTro=PRESENT(Ptrp_ou) |
---|
199 | IF(lAdjTro) THEN |
---|
200 | IF(.NOT.PRESENT(lat_in)) & |
---|
201 | CALL abort_physic(sub, 'Missing lat_in (required if adjust_tropopause=T)', 1) |
---|
202 | IF(.NOT.PRESENT(Pgnd_ou).AND.Ploc=='C') & |
---|
203 | CALL abort_physic(sub, 'Missing ground Pr(required if adjust_tropopause=T)', 1) |
---|
204 | IF(PRESENT(Pgnd_ou)) THEN; Pgrnd_ou=Pgnd_ou; ELSE; Pgrnd_ou=Pre_ou(:,1); END IF |
---|
205 | END IF |
---|
206 | |
---|
207 | !$OMP MASTER |
---|
208 | IF(is_mpi_root) THEN |
---|
209 | |
---|
210 | !=== CHECK WHICH FIELDS ARE AVAILABLE IN THE INPUT FILE |
---|
211 | IF(lfirst) THEN |
---|
212 | lPrSfile=lAdjTro.AND.NF90_INQ_VARID(fID,"ps" ,vID)==NF90_NOERR |
---|
213 | lPrTfile=lAdjTro.AND.NF90_INQ_VARID(fID,"tropopause_air_pressure",vID)==NF90_NOERR |
---|
214 | lO3Tfile=lAdjTro.AND.NF90_INQ_VARID(fID,"tro3_at_tropopause" ,vID)==NF90_NOERR |
---|
215 | CALL NF95_INQ_DIMID(fID,"time",vID) |
---|
216 | CALL NF95_INQUIRE_DIMENSION(fID,vID,nclen=ntim_in) |
---|
217 | linterp=PRESENT(time_in).AND.ntim_in==14 |
---|
218 | ALLOCATE(v1(nlon,nlat,nlev_in,n_var)) |
---|
219 | IF(linterp) THEN |
---|
220 | ALLOCATE(v1m(nlon,nlat,nlev_in,n_var),v1p(nlon,nlat,nlev_in,n_var)) |
---|
221 | IF(lPrSfile) ALLOCATE(pgm(nlon,nlat),pgp(nlon,nlat)) |
---|
222 | IF(lPrTfile) ALLOCATE(ptm(nlon,nlat),ptp(nlon,nlat)) |
---|
223 | IF(lO3Tfile) ALLOCATE(otm(nlon,nlat),otp(nlon,nlat)) |
---|
224 | END IF |
---|
225 | !--- INITIAL INDEX: LOCATE A LAYER WELL ABOVE TROPOPAUSE (50hPa) |
---|
226 | IF(lAdjTro) itrp0=locate(Pre_in,pTropUp) |
---|
227 | CALL msg(linterp,'Monthly O3 files => ONLINE TIME INTERPOLATION.' ,sub) |
---|
228 | CALL msg(lPrSfile,'Using GROUND PRESSURE from input O3 forcing file.',sub) |
---|
229 | CALL msg(lAdjTro ,'o3 forcing file tropopause location uses:' ,sub) |
---|
230 | IF(lPrTfile) THEN; str=' INPUT FILE PRESSURE' |
---|
231 | ELSE IF(lO3Tfile) THEN; str=' INPUT FILE O3 CONCENTRATION' |
---|
232 | ELSE IF(lO3Tpara) THEN; str=' PARAMETRIZED O3 concentration' |
---|
233 | ELSE; str=' CONSTANT O3 concentration'; END IF |
---|
234 | CALL msg(lAdjTro,TRIM(str)//' at tropopause') |
---|
235 | END IF |
---|
236 | |
---|
237 | !=== UPDATE (ALWAYS FOR DAILY FILES, EACH MONTH FOR MONTHLY FILES) |
---|
238 | CALL update_fields() |
---|
239 | |
---|
240 | !=== TIME INTERPOLATION FOR MONTHLY INPUT FILES |
---|
241 | IF(linterp) THEN |
---|
242 | WRITE(str,'(a,f12.8,2(a,f5.1))')'Interpolating O3 at julian day ',julien,& |
---|
243 | ' from fields at times ',time_in(irec),' and ', time_in(irec+1) |
---|
244 | CALL msg(.TRUE.,str,sub) |
---|
245 | al=(time_in(irec+1)-julien)/(time_in(irec+1)-time_in(irec)) |
---|
246 | v1=al*v1m+(1.-al)*v1p |
---|
247 | IF(lPrSfile) pg1=al*pgm+(1.-al)*pgp |
---|
248 | IF(lPrTfile) pt1=al*ptm+(1.-al)*ptp |
---|
249 | IF(lO3Tfile) ot1=al*otm+(1.-al)*otp |
---|
250 | END IF |
---|
251 | END IF |
---|
252 | !$OMP END MASTER |
---|
253 | !$OMP BARRIER |
---|
254 | IF(lfirst) THEN |
---|
255 | lfirst=.FALSE.; CALL bcast(lfirst) |
---|
256 | IF(lAdjTro) CALL bcast(itrp0) |
---|
257 | CALL bcast(lPrSfile); CALL bcast(lPrTfile) |
---|
258 | CALL bcast(lO3Tfile); CALL bcast(linterp) |
---|
259 | END IF |
---|
260 | |
---|
261 | IF (is_master) THEN |
---|
262 | ALLOCATE(ind_cell_glo_glo(klon_glo)) |
---|
263 | ELSE |
---|
264 | ALLOCATE(ind_cell_glo_glo(0)) |
---|
265 | ENDIF |
---|
266 | CALL gather(ind_cell_glo,ind_cell_glo_glo) |
---|
267 | IF (is_master .AND. grid_type==unstructured) v1(:,:,:,:)=v1(:,ind_cell_glo_glo(:),:,:) |
---|
268 | |
---|
269 | CALL scatter2d(v1,v2) |
---|
270 | |
---|
271 | !--- No "ps" in input file => assumed to be equal to current LMDZ ground press |
---|
272 | IF(lPrSfile) THEN |
---|
273 | IF (is_master .AND. grid_type==unstructured) pg1(:,:)=pg1(:,ind_cell_glo_glo(:)) |
---|
274 | CALL scatter2d(pg1,Pgnd_in) |
---|
275 | ELSE |
---|
276 | Pgnd_in=Pre_ou(:,1) |
---|
277 | END IF |
---|
278 | |
---|
279 | IF(lPrTfile) THEN |
---|
280 | IF (is_master .AND. grid_type==unstructured) pt1(:,:)=pt1(:,ind_cell_glo_glo(:)) |
---|
281 | CALL scatter2d(pt1,Ptrp_in) |
---|
282 | ENDIF |
---|
283 | |
---|
284 | IF(lO3Tfile) THEN |
---|
285 | IF (is_master .AND. grid_type==unstructured) ot1(:,:)=ot1(:,ind_cell_glo_glo(:)) |
---|
286 | CALL scatter2d(ot1,Otrp_in) |
---|
287 | ENDIF |
---|
288 | !--- No ground pressure in input file => choose it to be the one of LMDZ |
---|
289 | IF(lAdjTro.AND..NOT.lPrSfile) Pgnd_in(:)=Pgrnd_ou(:) |
---|
290 | |
---|
291 | !--- REGRID IN PRESSURE ; 3rd index inverted because "paprs" is decreasing |
---|
292 | IF(.NOT.lAdjTro) THEN |
---|
293 | DO i=1,klon |
---|
294 | Pres_ou=Pre_ou(i,SIZE(Pre_ou,2):1:-1) !--- pplay & paprs are decreasing |
---|
295 | IF(Ploc=='C') CALL regr_lint (1,v2(i,:,:), LOG(Pre_in(:)), & |
---|
296 | LOG(Pres_ou(:)), v3(i,nlev_ou:1:-1,:)) |
---|
297 | IF(Ploc=='I') CALL regr_conserv(1,v2(i,:,:), Pre_in(:) , & |
---|
298 | Pres_ou(:) , v3(i,nlev_ou:1:-1,:), slopes(1,v2(i,:,:), Pre_in(:))) |
---|
299 | END DO |
---|
300 | !------------------------------------------------------------------------------- |
---|
301 | ELSE !--- REGRID IN PRESSURE ; TROPOPAUSE ADJUSTMENT |
---|
302 | !------------------------------------------------------------------------------- |
---|
303 | y_frac=(REAL(days_elapsed)+jH_cur)/year_len |
---|
304 | |
---|
305 | !--- OUTPUT SIGMA LEVELS |
---|
306 | DO i=1,klon |
---|
307 | |
---|
308 | !--- INPUT/OUTPUT (FILE/LMDZ) SIGMA LEVELS IN CURRENT COLUMN |
---|
309 | Pres_ou = Pre_ou(i,SIZE(Pre_ou,2):1:-1)!--- pplay & paprs are decreasing |
---|
310 | Sig_in(:) = Pre_in (:)/Pgnd_in(i) !--- increasing values |
---|
311 | Sig_ou(:) = Pres_ou(:)/Pgnd_ou(i) !--- increasing values |
---|
312 | |
---|
313 | !--- INPUT (FILE) SIGMA LEVEL AT TROPOPAUSE ; extreme values are filtered |
---|
314 | ! to keep tropopause pressure realistic ; high values are usually due to |
---|
315 | ! ozone hole fooling the crude chemical tropopause detection algorithm. |
---|
316 | SigT_in = get_SigTrop(i,itrp) |
---|
317 | SigT_in=MIN(SigT_in,ChemPTrMax/Pgnd_in(i)) !--- too low value filtered |
---|
318 | SigT_in=MAX(SigT_in,ChemPTrMin/Pgnd_ou(i)) !--- too high value filtered |
---|
319 | |
---|
320 | !--- OUTPUT (LMDZ) SIGMA LEVEL AT TROPOPAUSE ; too high variations of the |
---|
321 | ! dynamical tropopause (especially in filaments) are conterbalanced with |
---|
322 | ! a filter ensuring it stays within a certain distance around input (file) |
---|
323 | ! tropopause, hence avoiding avoid a too thick stretched region ; a final |
---|
324 | ! extra-safety filter keeps the tropopause pressure value realistic. |
---|
325 | SigT_ou = Ptrp_ou(i)/Pgnd_ou(i) |
---|
326 | IF(SigT_ou<SigT_in/rho) SigT_ou=SigT_in/rho !--- too low value w/r input |
---|
327 | IF(SigT_ou>SigT_in*rho) SigT_ou=SigT_in*rho !--- too high value w/r input |
---|
328 | SigT_ou=MIN(SigT_ou,DynPTrMax/Pgnd_ou(i)) !--- too low value filtered |
---|
329 | SigT_ou=MAX(SigT_ou,DynPTrMin/Pgnd_ou(i)) !--- too high value filtered |
---|
330 | Ptrop_ou(i)=SigT_ou*Pgnd_ou(i) |
---|
331 | iout = locate(Sig_ou(:),SigT_ou) |
---|
332 | |
---|
333 | !--- POWER LAW COEFFICIENT FOR TROPOPAUSES MATCHING |
---|
334 | alpha = LOG(SigT_in/SigT_ou)/LOG(SigT_ou) |
---|
335 | |
---|
336 | !--- DETERMINE STRETCHING DOMAIN UPPER AND LOWER BOUNDS |
---|
337 | Sig_bo0 = MAX(SigT_in,SigT_ou) !--- lowest tropopause |
---|
338 | Sig_to0 = MIN(SigT_in,SigT_ou) !--- highest tropopause |
---|
339 | beta = (Sig_bo0/Sig_to0)**gamm !--- stretching exponent |
---|
340 | Sig_bot = MIN(Sig_bo0*beta,0.1*(9.+Sig_bo0)) !--- must be <1 |
---|
341 | ibot = locate(Sig_ou(:),Sig_bot) !--- layer index |
---|
342 | IF(ibot-iout<2) THEN !--- at least one layer thick |
---|
343 | ibot=MIN(iout+2,nlev_ou); Sig_bot=Sig_ou(ibot) |
---|
344 | END IF |
---|
345 | Sig_top = Sig_to0/beta !--- upper bound |
---|
346 | itop = locate(Sig_ou(:),Sig_top) !--- layer index |
---|
347 | IF(iout-itop<2) THEN !--- at least one layer thick |
---|
348 | itop=MAX(iout-2,1); Sig_top=Sig_ou(itop) |
---|
349 | END IF |
---|
350 | |
---|
351 | !--- STRETCHING POWER LAW LOCALIZATION FUNCTION: |
---|
352 | ! 0 in [0,Sig_top] 0->1 in [Sig_top,SigT_ou] |
---|
353 | ! 0 in [Sig_bot,1] 1->0 in [SigT_ou, Sig_bot] |
---|
354 | phi(:)=0. |
---|
355 | phi(itop+1:iout) = (1.-LOG(Sig_top)/LOG(Sig_ou(itop+1:iout)))& |
---|
356 | *LOG(SigT_ou)/LOG(SigT_ou/Sig_top) |
---|
357 | phi(iout+1:ibot) = (1.-LOG(Sig_bot)/LOG(Sig_ou(iout+1:ibot)))& |
---|
358 | *LOG(SigT_ou)/LOG(SigT_ou/Sig_bot) |
---|
359 | |
---|
360 | !--- LOCALY STRECHED OUTPUT (LMDZ) PRESSURE PROFILES (INCREASING ORDER) |
---|
361 | Pstr_ou(:) = Pres_ou(:) * Sig_ou(:)**(alpha*phi(:)) |
---|
362 | |
---|
363 | !--- REGRID INPUT PROFILE ON STRAINED VERTICAL OUTPUT LEVELS |
---|
364 | IF(Ploc=='C') CALL regr_lint (1, v2(i,:,:), LOG(Pre_in(:)), & |
---|
365 | LOG(Pstr_ou(:)), v3(i,nlev_ou:1:-1,:)) |
---|
366 | IF(Ploc=='I') CALL regr_conserv(1, v2(i,:,:), Pre_in(:) , & |
---|
367 | Pstr_ou(:) , v3(i,nlev_ou:1:-1,:), slopes(1,v2(i,:,:), Pre_in(:))) |
---|
368 | |
---|
369 | !--- CHECK CONCENTRATIONS. strato: 50ppbV-15ppmV ; tropo: 5ppbV-300ppbV. |
---|
370 | i0=nlev_ou-locate(Pres_ou(:),Ptrop_ou(i))+1 |
---|
371 | ll=check_ozone(v3(i, 1:i0-1 ,1),lon_in(i),lat_in(i),1 ,'troposphere', & |
---|
372 | 5.E-9,3.0E-7) |
---|
373 | ! IF(ll) CALL abort_physic(sub, 'Inconsistent O3 values in troposphere', 1) |
---|
374 | ll=check_ozone(v3(i,i0:nlev_ou,1),lon_in(i),lat_in(i),i0,'stratosphere', & |
---|
375 | 5.E-8,1.5E-5) |
---|
376 | ! IF(ll) CALL abort_physic(sub, 'Inconsistent O3 values in stratosphere', 1) |
---|
377 | |
---|
378 | IF(ldebug) THEN |
---|
379 | dzStrain0(i) = SIGN(7.*LOG(Sig_bo0/Sig_to0),SigT_in-SigT_ou) |
---|
380 | dzStrain (i) = SIGN(7.*LOG(Sig_bot/Sig_top),SigT_in-SigT_ou) |
---|
381 | Ptrop_in (i) = SigT_in*Pgnd_in(i) |
---|
382 | Pstrn_ou(i,:)= Pstr_ou |
---|
383 | phii(i,:) = phi(:) |
---|
384 | Ptrop_ef(i) = PTrop_chem(i, itrp, locate(Pres_ou(:),PTropUp), & |
---|
385 | Pres_ou(:), v3(:,nlev_ou:1:-1,1),o3trop=o3t0) |
---|
386 | END IF |
---|
387 | END DO |
---|
388 | END IF |
---|
389 | IF(ldebug.AND.lAdjTro) THEN |
---|
390 | CALL writefield_phy('PreSt_ou' ,Pstrn_ou,SIZE(Pre_ou,2)) !--- Strained Pres |
---|
391 | CALL writefield_phy('dzStrain' ,dzStrain ,1) !--- Strained thickness |
---|
392 | CALL writefield_phy('dzStrain0',dzStrain0,1) !--- Tropopauses distance |
---|
393 | CALL writefield_phy('phi',phii,nlev_ou) !--- Localization function |
---|
394 | !--- Tropopauses pressures: |
---|
395 | CALL writefield_phy('PreTr_in',Ptrop_in,1) !--- Input and effective |
---|
396 | CALL writefield_phy('PreTr_ou',Ptrop_ou,1) !--- LMDz dyn tropopause |
---|
397 | CALL writefield_phy('PreTr_ef',Ptrop_ef,1) !--- Effective chem tropop |
---|
398 | END IF |
---|
399 | IF(ldebug) THEN |
---|
400 | CALL writefield_phy('Ozone_in',v2(:,:,1),nlev_in)!--- Raw input O3 field |
---|
401 | CALL writefield_phy('Ozone_ou',v3(:,:,1),nlev_ou)!--- Output ozone field |
---|
402 | CALL writefield_phy('Pres_ou' ,Pre_ou,SIZE(Pre_ou,2))!--- LMDZ Pressure |
---|
403 | END IF |
---|
404 | |
---|
405 | CONTAINS |
---|
406 | |
---|
407 | |
---|
408 | !------------------------------------------------------------------------------- |
---|
409 | ! |
---|
410 | SUBROUTINE update_fields() |
---|
411 | ! |
---|
412 | !------------------------------------------------------------------------------- |
---|
413 | IF(.NOT.linterp) THEN !=== DAILY FILES: NO TIME INTERPOLATION |
---|
414 | CALL msg(.TRUE.,sub,'Updating Ozone forcing field: read from file.') |
---|
415 | irec=MIN(INT(julien)+1,ntim_in) !--- irec is just the julian day number |
---|
416 | !--- MIN -> Security in the unlikely case of roundup errors. |
---|
417 | CALL get_3Dfields(v1) !--- Read ozone field(s) |
---|
418 | IF(lAdjTro) THEN !--- Additional files for fields strain |
---|
419 | IF(lPrSfile) CALL get_2Dfield(pg1,"ps") |
---|
420 | IF(lPrTfile) CALL get_2Dfield(pt1,"tropopause_air_pressure") |
---|
421 | IF(lO3Tfile) CALL get_2Dfield(ot1,"tro3_at_tropopause") |
---|
422 | END IF |
---|
423 | ELSE !=== MONTHLY FILES: GET 2 NEAREST RECS |
---|
424 | IF(lfirst) irec=locate(time_in,julien) !--- Need to locate surrounding times |
---|
425 | IF(.NOT.lfirst.AND.julien<time_in(irec+1)) RETURN |
---|
426 | CALL msg(.TRUE.,'Refreshing adjacent Ozone forcing fields.',sub) |
---|
427 | IF(lfirst) THEN !=== READ EARLIEST TIME FIELDS |
---|
428 | WRITE(str,'(a,i3,a,f12.8,a)')'Previous available field update (step 1): '& |
---|
429 | //'reading record ',irec,' (time ',time_in(irec),')' |
---|
430 | CALL msg(.TRUE.,str,sub) |
---|
431 | CALL get_3Dfields(v1m) !--- Read ozone field(s) |
---|
432 | IF(lAdjTro) THEN !--- Additional files for fields strain |
---|
433 | IF(lPrSfile) CALL get_2Dfield(pgm,"ps") |
---|
434 | IF(lPrTfile) CALL get_2Dfield(ptm,"tropopause_air_pressure") |
---|
435 | IF(lO3Tfile) CALL get_2Dfield(otm,"tro3_at_tropopause") |
---|
436 | END IF |
---|
437 | ELSE !=== SHIFT FIELDS |
---|
438 | irec=irec+1 |
---|
439 | WRITE(str,'(a,i3,a,f12.8,a)')'Previous available field update: shifting'& |
---|
440 | //' current next one (',irec,', time ',time_in(irec),')' |
---|
441 | CALL msg(.TRUE.,str,sub) |
---|
442 | v1m=v1p !--- Ozone fields |
---|
443 | IF(lAdjTro) THEN !--- Additional files for fields strain |
---|
444 | IF(lPrSfile) pgm=pgp !--- Surface pressure |
---|
445 | IF(lPrTfile) ptm=ptp !--- Tropopause pressure |
---|
446 | IF(lO3Tfile) otm=otp !--- Tropopause ozone |
---|
447 | END IF |
---|
448 | END IF |
---|
449 | irec=irec+1 |
---|
450 | WRITE(str,'(a,i3,a,f12.8,a)')'Next available field update: reading record'& |
---|
451 | ,irec,' (time ',time_in(irec),')' |
---|
452 | CALL msg(.TRUE.,str,sub) |
---|
453 | CALL get_3Dfields(v1p) !--- Read ozone field(s) |
---|
454 | IF(lAdjTro) THEN !--- Additional files for fields strain |
---|
455 | IF(lPrSfile) CALL get_2Dfield(pgp,"ps") |
---|
456 | IF(lPrTfile) CALL get_2Dfield(ptp,"tropopause_air_pressure") |
---|
457 | IF(lO3Tfile) CALL get_2Dfield(otp,"tro3_at_tropopause") |
---|
458 | END IF |
---|
459 | irec=irec-1 |
---|
460 | END IF |
---|
461 | |
---|
462 | END SUBROUTINE update_fields |
---|
463 | ! |
---|
464 | !------------------------------------------------------------------------------- |
---|
465 | |
---|
466 | |
---|
467 | !------------------------------------------------------------------------------- |
---|
468 | ! |
---|
469 | SUBROUTINE get_2Dfield(v,var) |
---|
470 | ! |
---|
471 | !------------------------------------------------------------------------------- |
---|
472 | ! Purpose: Shortcut to get the "irec"th record of the surface field named "var" |
---|
473 | ! from the input file. |
---|
474 | ! Remark: In case the field is zonal, it is duplicated along first dimension. |
---|
475 | !------------------------------------------------------------------------------- |
---|
476 | ! Arguments: |
---|
477 | REAL, INTENT(INOUT) :: v(:,:) |
---|
478 | CHARACTER(LEN=*), INTENT(IN) :: var |
---|
479 | !------------------------------------------------------------------------------- |
---|
480 | CALL NF95_INQ_VARID(fID, TRIM(var), vID) |
---|
481 | CALL NF95_INQUIRE_VARIABLE(fID, vID, ndims=n_dim) |
---|
482 | IF(n_dim==2) ncerr=NF90_GET_VAR(fID,vID,v(1,:), start=[ 1,irec]) |
---|
483 | IF(n_dim==3) ncerr=NF90_GET_VAR(fID,vID,v(:,:), start=[1,1,irec]) |
---|
484 | CALL handle_err(TRIM(sub)//" NF90_GET_VAR "//TRIM(var),ncerr,fID) |
---|
485 | |
---|
486 | !--- Flip latitudes: ascending in input file, descending in "rlatu". |
---|
487 | IF(n_dim==3) THEN |
---|
488 | v(1,:) = v(1,nlat:1:-1) |
---|
489 | v(2:,:)= SPREAD(v(1,:),DIM=1,ncopies=nlon-1) !--- Duplication |
---|
490 | ELSE |
---|
491 | v(:,:) = v(:,nlat:1:-1) |
---|
492 | END IF |
---|
493 | |
---|
494 | END SUBROUTINE get_2Dfield |
---|
495 | ! |
---|
496 | !------------------------------------------------------------------------------- |
---|
497 | |
---|
498 | |
---|
499 | !------------------------------------------------------------------------------- |
---|
500 | ! |
---|
501 | SUBROUTINE get_3Dfields(v) |
---|
502 | ! |
---|
503 | !------------------------------------------------------------------------------- |
---|
504 | ! Purpose: Shortcut to get the "irec"th record of the 3D fields named "nam" |
---|
505 | ! from the input file. Fields are stacked on fourth dimension. |
---|
506 | ! Remark: In case the field is zonal, it is duplicated along first dimension. |
---|
507 | !------------------------------------------------------------------------------- |
---|
508 | ! Arguments: |
---|
509 | REAL, INTENT(INOUT) :: v(:,:,:,:) |
---|
510 | !------------------------------------------------------------------------------- |
---|
511 | DO i=1,SIZE(nam) |
---|
512 | CALL NF95_INQ_VARID(fID, TRIM(nam(i)), vID) |
---|
513 | CALL NF95_INQUIRE_VARIABLE(fID, vID, ndims=n_dim) |
---|
514 | IF(n_dim==3) ncerr=NF90_GET_VAR(fID,vID,v(1,:,:,i), start=[ 1,1,irec]) |
---|
515 | IF(n_dim==4) ncerr=NF90_GET_VAR(fID,vID,v(:,:,:,i), start=[1,1,1,irec]) |
---|
516 | CALL handle_err(TRIM(sub)//" NF90_GET_VAR "//TRIM(nam(i)),ncerr,fID) |
---|
517 | END DO |
---|
518 | |
---|
519 | !--- Flip latitudes: ascending in input file, descending in "rlatu". |
---|
520 | IF(n_dim==3) THEN |
---|
521 | v(1,:,:,:) = v(1,nlat:1:-1,:,:) |
---|
522 | v(2:,:,:,:)= SPREAD(v(1,:,:,:),DIM=1,ncopies=nlon-1) !--- Duplication |
---|
523 | ELSE |
---|
524 | v(:,:,:,:) = v(:,nlat:1:-1,:,:) |
---|
525 | END IF |
---|
526 | |
---|
527 | END SUBROUTINE get_3Dfields |
---|
528 | ! |
---|
529 | !------------------------------------------------------------------------------- |
---|
530 | |
---|
531 | |
---|
532 | |
---|
533 | !------------------------------------------------------------------------------- |
---|
534 | ! |
---|
535 | FUNCTION get_SigTrop(ih,it) RESULT(out) |
---|
536 | ! |
---|
537 | !------------------------------------------------------------------------------- |
---|
538 | ! Arguments: |
---|
539 | REAL :: out |
---|
540 | INTEGER, INTENT(IN) :: ih |
---|
541 | INTEGER, INTENT(OUT) :: it |
---|
542 | !------------------------------------------------------------------------------- |
---|
543 | !--- Pressure at tropopause read from the forcing file |
---|
544 | IF(lPrTfile) THEN; out=Ptrp_in(ih)/Pgnd_in(ih); RETURN; END IF |
---|
545 | |
---|
546 | !--- Chemical tropopause definition based on a particular threshold |
---|
547 | IF(lO3Tfile) THEN; out=PTrop_chem(ih,it,itrp0,Pre_in,v2(:,:,1),Otrp_in(ih)) |
---|
548 | ELSE IF(lO3Tpara) THEN; out=PTrop_chem(ih,it,itrp0,Pre_in,v2(:,:,1)) |
---|
549 | ELSE ; out=PTrop_chem(ih,it,itrp0,Pre_in,v2(:,:,1),o3t0); END IF |
---|
550 | out=out/Pgnd_in(ih) |
---|
551 | |
---|
552 | END FUNCTION get_SigTrop |
---|
553 | ! |
---|
554 | !------------------------------------------------------------------------------- |
---|
555 | |
---|
556 | |
---|
557 | !------------------------------------------------------------------------------- |
---|
558 | ! |
---|
559 | FUNCTION PTrop_chem(ih,it,it0,pres,o3,o3trop) RESULT(out) |
---|
560 | ! |
---|
561 | !------------------------------------------------------------------------------- |
---|
562 | ! Purpose: Determine the tropopause using chemical criterium, ie the pressure |
---|
563 | ! at which the ozone concentration reaches a certain level. |
---|
564 | !------------------------------------------------------------------------------- |
---|
565 | ! Remarks: |
---|
566 | ! * Input field is upside down (increasing pressure // increasing vertical idx) |
---|
567 | ! The sweep is done from top to ground, starting at the 50hPa layer (idx it0), |
---|
568 | ! where O3 is about 1,5 ppmV, until the first layer where o3<o3t is reached: |
---|
569 | ! the O3 profile in this zone is decreasing with pressure. |
---|
570 | ! * Threshold o3t can be given as an input argument ("o3trop", in ppmV) or |
---|
571 | ! determined using an empirical law roughly derived from ... & al. |
---|
572 | !------------------------------------------------------------------------------- |
---|
573 | ! Arguments: |
---|
574 | REAL :: out !--- Pressure at tropopause |
---|
575 | INTEGER, INTENT(IN) :: ih !--- Horizontal index |
---|
576 | INTEGER, INTENT(OUT) :: it !--- Index of tropopause layer |
---|
577 | INTEGER, INTENT(IN) :: it0 !--- Idx: higher than tropopause |
---|
578 | REAL, INTENT(IN) :: pres(:) !--- Pressure profile, increasing |
---|
579 | REAL, INTENT(IN) :: o3(:,:) !--- Ozone field (pptV) |
---|
580 | REAL, OPTIONAL, INTENT(IN) :: o3trop !--- Ozone at tropopause |
---|
581 | !------------------------------------------------------------------------------- |
---|
582 | ! Local variables: |
---|
583 | REAL :: o3t !--- Ozone concent. at tropopause |
---|
584 | REAL :: al !--- Interpolation coefficient |
---|
585 | REAL :: coef !--- Coeff of latitude modulation |
---|
586 | REAL, PARAMETER :: co3(3)=[91.,28.,20.] !--- Coeff for o3 at tropopause |
---|
587 | !------------------------------------------------------------------------------- |
---|
588 | !--- DETERMINE THE OZONE CONCENTRATION AT TROPOPAUSE IN THE CURRENT COLUMN |
---|
589 | IF(PRESENT(o3trop)) THEN !=== THRESHOLD FROM ARGUMENTS |
---|
590 | o3t=o3trop |
---|
591 | ELSE !=== EMPIRICAL LAW |
---|
592 | coef = TANH(lat_in(ih)/co3(3)) !--- Latitude modulation |
---|
593 | coef = SIN (2.*RPI*(y_frac-1./6.)) * coef !--- Seasonal modulation |
---|
594 | o3t = 1.E-9 * (co3(1)+co3(2)*coef) !--- Value from parametrization |
---|
595 | END IF |
---|
596 | |
---|
597 | !--- FROM 50hPa, GO DOWN UNTIL "it" IS SUCH THAT o3(ih,it)>o3t>o3(ih,it+1) |
---|
598 | it=it0; DO WHILE(o3(ih,it+1)>=o3t); it=it+1; END DO |
---|
599 | al=(o3(ih,it)-o3t)/(o3(ih,it)-o3(ih,it+1)) |
---|
600 | IF(Ploc=='C') out = pres(it)**(1.-al) * pres(it+1)**al |
---|
601 | IF(Ploc=='I') out = SQRT(pres(it)**(1.-al) * pres(it+2)**al *pres(it+1)) |
---|
602 | it = locate(pres(:), out) !--- pres(it)<Ptrop<pres(it+1) |
---|
603 | |
---|
604 | END FUNCTION PTrop_chem |
---|
605 | ! |
---|
606 | !------------------------------------------------------------------------------- |
---|
607 | |
---|
608 | |
---|
609 | !------------------------------------------------------------------------------- |
---|
610 | ! |
---|
611 | FUNCTION check_ozone(o3col, lon, lat, ilev0, layer, vmin, vmax) RESULT(out) |
---|
612 | ! |
---|
613 | !------------------------------------------------------------------------------- |
---|
614 | IMPLICIT NONE |
---|
615 | !------------------------------------------------------------------------------- |
---|
616 | ! Arguments: |
---|
617 | LOGICAL :: out !--- .T. => some wrong values |
---|
618 | REAL, INTENT(IN) :: o3col(:), lon, lat |
---|
619 | INTEGER, INTENT(IN) :: ilev0 |
---|
620 | CHARACTER(LEN=*), INTENT(IN) :: layer |
---|
621 | REAL, OPTIONAL, INTENT(IN) :: vmin |
---|
622 | REAL, OPTIONAL, INTENT(IN) :: vmax |
---|
623 | !------------------------------------------------------------------------------- |
---|
624 | ! Local variables: |
---|
625 | INTEGER :: k |
---|
626 | LOGICAL :: lmin, lmax |
---|
627 | REAL :: fac |
---|
628 | CHARACTER(LEN=6) :: unt |
---|
629 | !------------------------------------------------------------------------------- |
---|
630 | !--- NOTHING TO DO |
---|
631 | lmin=.FALSE.; IF(PRESENT(vmin)) lmin=COUNT(o3col<vmin)/=0 |
---|
632 | lmax=.FALSE.; IF(PRESENT(vmax)) lmax=COUNT(o3col>vmax)/=0 |
---|
633 | out=lmin.OR.lmax; IF(.NOT.out.OR.prt_level>100) RETURN |
---|
634 | |
---|
635 | !--- SOME TOO LOW VALUES FOUND |
---|
636 | IF(lmin) THEN |
---|
637 | CALL unitc(vmin,unt,fac) |
---|
638 | DO k=1,SIZE(o3col); IF(o3col(k)>vmin) CYCLE |
---|
639 | WRITE(*,'(a,2f7.1,i3,a,2(f8.3,a))')'WARNING: inconsistent value in ' & |
---|
640 | //TRIM(layer)//': O3(',lon,lat,k+ilev0-1,')=',fac*o3col(k),unt//' < ', & |
---|
641 | fac*vmin,unt//' in '//TRIM(layer) |
---|
642 | END DO |
---|
643 | END IF |
---|
644 | |
---|
645 | !--- SOME TOO HIGH VALUES FOUND |
---|
646 | IF(lmax) THEN |
---|
647 | CALL unitc(vmax,unt,fac) |
---|
648 | DO k=1,SIZE(o3col); IF(o3col(k)<vmax) CYCLE |
---|
649 | WRITE(*,'(a,2f7.1,i3,a,2(f8.3,a))')'WARNING: inconsistent value in ' & |
---|
650 | //TRIM(layer)//': O3(',lon,lat,k+ilev0-1,')=',fac*o3col(k),unt//' > ', & |
---|
651 | fac*vmax,unt//' in '//TRIM(layer) |
---|
652 | END DO |
---|
653 | END IF |
---|
654 | |
---|
655 | END FUNCTION check_ozone |
---|
656 | ! |
---|
657 | !------------------------------------------------------------------------------- |
---|
658 | |
---|
659 | |
---|
660 | !------------------------------------------------------------------------------- |
---|
661 | ! |
---|
662 | SUBROUTINE unitc(val,unt,fac) |
---|
663 | ! |
---|
664 | !------------------------------------------------------------------------------- |
---|
665 | IMPLICIT NONE |
---|
666 | !------------------------------------------------------------------------------- |
---|
667 | ! Arguments: |
---|
668 | REAL, INTENT(IN) :: val |
---|
669 | CHARACTER(LEN=6), INTENT(OUT) :: unt |
---|
670 | REAL, INTENT(OUT) :: fac |
---|
671 | !------------------------------------------------------------------------------- |
---|
672 | ! Local variables: |
---|
673 | INTEGER :: ndgt |
---|
674 | !------------------------------------------------------------------------------- |
---|
675 | ndgt=3*FLOOR(LOG10(val)/3.) |
---|
676 | SELECT CASE(ndgt) |
---|
677 | CASE(-6); unt=' ppmV '; fac=1.E6 |
---|
678 | CASE(-9); unt=' ppbV '; fac=1.E9 |
---|
679 | CASE DEFAULT; unt=' vmr '; fac=1.0 |
---|
680 | END SELECT |
---|
681 | |
---|
682 | END SUBROUTINE unitc |
---|
683 | ! |
---|
684 | !------------------------------------------------------------------------------- |
---|
685 | |
---|
686 | |
---|
687 | !------------------------------------------------------------------------------- |
---|
688 | ! |
---|
689 | SUBROUTINE msg(ll,str,sub) |
---|
690 | ! |
---|
691 | !------------------------------------------------------------------------------- |
---|
692 | USE print_control_mod, ONLY: lunout |
---|
693 | IMPLICIT NONE |
---|
694 | !------------------------------------------------------------------------------- |
---|
695 | ! Arguments: |
---|
696 | LOGICAL, INTENT(IN) :: ll |
---|
697 | CHARACTER(LEN=*), INTENT(IN) :: str |
---|
698 | CHARACTER(LEN=*), OPTIONAL, INTENT(IN) :: sub |
---|
699 | !------------------------------------------------------------------------------- |
---|
700 | IF(.NOT.ll) RETURN |
---|
701 | IF(PRESENT(sub)) THEN |
---|
702 | WRITE(lunout,*)TRIM(sub)//': '//TRIM(str) |
---|
703 | ELSE |
---|
704 | WRITE(lunout,*)TRIM(str) |
---|
705 | END IF |
---|
706 | |
---|
707 | END SUBROUTINE msg |
---|
708 | ! |
---|
709 | !------------------------------------------------------------------------------- |
---|
710 | |
---|
711 | END SUBROUTINE regr_pr_time_av |
---|
712 | ! |
---|
713 | !------------------------------------------------------------------------------- |
---|
714 | |
---|
715 | END MODULE regr_pr_time_av_m |
---|