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PHY_SISVAT_ALLOC.f90 @ 3981

Last change on this file since 3981 was 2089, checked in by Laurent Fairhead, 10 years ago

Inclusion de la physique de MAR

Integration of MAR physics

File size: 27.8 KB

Line
1	subroutine PHY_SISVAT_ALLOC
2
3	!------------------------------------------------------------------------------+
4	! Thu 27-Jun-2013 MAR \|
5	! \|
6	! subroutine PHY_SISVAT_ALLOC allocates prognostic variables of \|
7	! Soil/Ice Snow Vegetation Atmosphere Transfer Scheme \|
8	! \|
9	! version 3.p.4.1 created by H. Gallee, Tue 26-Feb-2013 \|
10	! Last Modification by H. Gallee, Thu 27-Jun-2013 \|
11	! \|
12	!------------------------------------------------------------------------------+
13
14
15	use Mod_Real
16	use Mod_PHY____grd
17	use Mod_SISVAT_dim
18	use Mod_SISVAT_grd
19	use Mod_SISVAT_kkl
20	use Mod_SISVAT_loc
21	use Mod_SISVAT_dzS
22	use Mod_SISVAT_cdf
23	use Mod_SISVAT_gpt
24
25	use Mod_SISVAT_flx
26	! #AW use Mod_SISVAT_xAW
27	! #AH use Mod_SISVAT_xAH
28	! #ZM use Mod_SISVAT_xZM
29	! #WL use Mod_SISVAT_xWL
30
31
32	IMPLICIT NONE
33
34
35	integer :: ikl ,i ,j ,n !
36
37
38
39
40	! ================================
41	! Initialization of Mod_SISVAT_grd
42	! ================================
43
44	n2 = min(2,mwp) !
45	kcolv =(mxpp-ixp1+1)(mypp-jyp1+1)mwp !
46
47	nvege = nvgt ! Nb of Vegetation Types
48	nsnow = nsno ! MAX Nb of Snow Layers
49	nsoil = nsol ! Nb of Soil Layers
50	nbPts = nb_Pts !
51	nbwri = nb_wri !
52	ntave = ntaver ! Nb of Time Steps used in V & dT(a-s) Time Moving Average
53	ntavz = ntavez ! Nb of Time Steps used in z0, r0, ... Time Moving Average
54	nLimi = nLimit ! Nb of Time Steps used in Water Vapor Flux Limit. Average
55
56
57
58	! VERIFICATION: a BAD SET-UP WILL LEAD to an EMERGENCY STOP
59	! ---------------------------------------------------------
60
61	IF (nbwri.gt.mzp) THEN
62	write(6,600) nbwri,mzp
63	600 format(/,'### MAR_SISVAT CRASH, nbwri =',i6, &
64	& ' .GT. mzp =',i3,' ',2x,' ###',&
65	& /,' ?!&~@\|@[#@#]=!!!',23x,'EMERGENCY STOP')
66	stop
67	END IF
68
69	IF (nbwri.gt.mwp*NbPts) THEN
70	write(6,601) nb_wri,mwp,Nb_Pts
71	601 format(/,'### MAR_SISVAT CRASH, nbwri =',i6, &
72	& ' .GT. mwpNbPts =',i3,'',i2,' ###',&
73	& /,' ?!&~@\|@[#@#]=!!!',23x,'EMERGENCY STOP')
74	stop
75	END IF
76
77
78
79
80
81	! =================================
82	! ALLOCATION Mod_SISVAT_kkl - BEGIN
83	! =================================
84
85	! SISVAT INPUT Variables
86	! -----------------------------
87
88	allocate ( LSmask(kcolp,mwp) ) ! Land-Sea Mask
89	allocate ( isotSV(kcolp,mwp) ) ! Soil Type
90	allocate ( iWaFSV(kcolp,mwp) ) ! Soil Drainage:(1,0)=(y,n)
91	allocate ( ivgtSV(kcolp,mwp) ) ! Vegetation Type
92
93	allocate ( FracSV(kcolp,mwp) ) ! Grid Cell Fraction (Mosaic) [-]
94
95	allocate ( coszSV(kcolp,mwp) ) ! Cosine of Sun zenithal Angle
96	allocate ( sol_SV(kcolp,mwp) ) ! Downward Solar Radiation
97	allocate ( IRd_SV(kcolp,mwp) ) ! Downward Longwave Radiation
98
99	allocate ( drr_SV(kcolp,mwp) ) ! Rain Intensity [kg/m2/s]
100	allocate ( dsn_SV(kcolp,mwp) ) ! Snow Intensity [kg/m2/s]
101	allocate ( dsnbSV(kcolp,mwp) ) ! Idem, fraction, from Drift [-]
102	allocate ( esnbSV(kcolp,mwp) ) ! Idem, fraction, from Drift [-]
103	allocate ( dbs_SV(kcolp,mwp) ) ! Drift Amount [kg/m2]
104	allocate ( BrosSV(kcolp,mwp) ) ! Buffer Snow Layer Density
105	allocate ( BG1sSV(kcolp,mwp) ) ! Buffer Snow Layer Dendr/Sphe [-]
106	allocate ( BG2sSV(kcolp,mwp) ) ! Buffer Snow Layer Spher/Size [-] [0.0001 m]
107	allocate ( dz0_SV(kcolp,mwp) ) ! dz0(Sastrugi dh) [m]
108
109	allocate ( cld_SV(kcolp,mwp) ) ! Cloudiness (seen from SBL)
110	allocate ( za__SV(kcolp,mwp) ) ! SBL Height
111	allocate ( VV__SV(kcolp,mwp) ) !(SBL Top) Wind Velocity
112	allocate ( Ua__SV(kcolp,mwp) ) !(SBL Top) Wind Velocity, x-Direction, t [m/s]
113	allocate ( Ua0_SV(kcolp,mwp) ) !(SBL Top) Wind Velocity, x-Direction, t -dt [m/s]
114	allocate ( Va__SV(kcolp,mwp) ) !(SBL Top) Wind Velocity, y-Direction, t [m/s]
115	allocate ( Va0_SV(kcolp,mwp) ) !(SBL Top) Wind Velocity, y-Direction, t -dt [m/s]
116	allocate ( VV10SV(kcolp,mwp) ) ! 10-m Wind Velocity
117	allocate ( VVs_SV(kcolp,mwp) ) !(Sastr,V) Relevance
118	allocate ( RRsxSV(kcolp,mwp) ) !(Sastr,V) Counter
119	allocate ( DDsxSV(kcolp,mwp) ) !(Sastr,V) Angle
120	allocate ( DDs_SV(kcolp,mwp) ) !(Sastr,V) Angle
121	allocate ( rhT_SV(kcolp,mwp) ) ! SBL Top Air Density
122	allocate ( TaT_SV(kcolp,mwp) ) ! SBL Top Temperature [K]
123	allocate ( Ts__SV(kcolp,mwp) ) ! Surface Air Temperature (Mosaic) [K]
124	allocate ( pkPaSV(kcolp,mwp) ) ! Surface Pressure [kPa]
125	allocate ( WindSV(kcolp,mwp,mzp) ) ! Wind Speed [m/s]
126	allocate ( zza_SV(kcolp,mwp,mzp) ) ! Atmospheric Levels HEIGHTS [m]
127	allocate ( roa_SV(kcolp,mwp,mzp) ) ! Air Volumic Mass [T/m3]
128	allocate ( Kz__SV(kcolp,mwp,mzp) ) ! Turbulent Diffusion Coefficients [m2/s]
129	allocate ( pktaSV(kcolp,mwp,mzp) ) ! Temperature / Exner Potential (Current Value in (PHY_)SISVAT)
130	allocate ( pkt0SV(kcolp,mwp,mzp) ) ! Temperature / Exner Potential (INPUT Value of (PHY_)SISVAT)
131	allocate ( ExnrSV(kcolp,mwp) ) ! Surface Exner Potential
132	allocate ( qv__SV(kcolp,mwp,mzp) ) ! Atmosph. Specific Humidity [kg/kg]
133	allocate ( QaT_SV(kcolp,mwp) ) ! SBL Top Specific Humidity [kg/kg]
134	allocate ( dQa_SV(kcolp,mwp) ) ! SBL Flux Limitation of Qa
135	allocate ( SHumSV(kcolp,mwp) ) ! Surface Specific Humidity [kg/kg]
136	allocate ( dSdTSV(kcolp,mwp) ) ! Sensible Heat Flux T Derivat.
137	allocate ( dLdTSV(kcolp,mwp) ) ! Latent Heat Flux T Derivat.
138	allocate ( qsnoSV(kcolp,mwp) ) ! SBL Mean Snow Content [kg/kg]
139
140	allocate ( LAI0SV(kcolp,mwp) ) ! Nominal Leaf Area Index
141	allocate ( glf0SV(kcolp,mwp) ) ! Green Leaf Fraction
142
143	allocate ( alb0SV(kcolp,mwp) ) ! Soil Albedo
144	allocate ( slopSV(kcolp,mwp) ) ! Snow/Ice/Soil-Water Surf. Slope [-]
145	allocate ( slorSV(kcolp,mwp) ) ! Snow/Ice/Soil-Water Surf. Slope [radian]
146	allocate ( z0__SV(kcolp,mwp) ) ! Roughness Length Momentum (Mosaic) [m]
147	allocate ( ROF_SV(kcolp,mwp) ) ! Cumulative Run-Off (Mosaic) [mm w.e.]
148
149
150	! SISVAT INPUT/OUTPUT Variables
151	! -----------------------------
152
153	allocate ( isnoSV(kcolp,mwp) ) ! Nb of Ice/Snow Layers
154	allocate ( ispiSV(kcolp,mwp) ) ! Uppermost superimposed ice
155	allocate ( iiceSV(kcolp,mwp) ) ! Nb of Ice Layers
156	allocate ( istoSV(kcolp,mwp, 0:nsnow) ) ! Snow Layer History
157
158	allocate ( albcSV(kcolp,mwp) ) ! Coupl. Surface Albedo (Surface-Canopy / Ocean)
159	allocate ( alb_SV(kcolp,mwp) ) ! Surface-Canopy Albedo
160	allocate ( emi_SV(kcolp,mwp) ) ! Surface-Canopy Emissivity
161	allocate ( IRs_SV(kcolp,mwp) ) ! Soil IR Flux
162	allocate ( LMO_SV(kcolp,mwp) ) ! Monin-Obukhov Scale
163	allocate ( us__SV(kcolp,mwp) ) ! Friction Velocity
164	allocate ( uts_SV(kcolp,mwp) ) ! Temperature Turbulent Scale
165	allocate ( cutsSV(kcolp,mwp) ) ! Temperature Turbulent Scale C.
166	allocate ( uqs_SV(kcolp,mwp) ) ! Spec.Humid. Turbulent Scale
167	allocate ( ussbSV(kcolp,mwp) ) ! Blowing Snow Eroded Buffer [mm w.e.]
168	allocate ( uss_SV(kcolp,mwp) ) ! Blowing Snow Turbulent Scale
169	! #BS allocate ( ussxSV(kcolp,mwp) ) ! Blowing Snow Turbulent Scale (modified)
170	! #BD allocate ( uds_SV(kcolp,mwp) ) ! Blowing Dust Flux Turbulent Scale [kg/kg m/s]
171	allocate ( usthSV(kcolp,mwp) ) ! Blowing Snow Erosion Thresh.
172	allocate ( rCDmSV(kcolp,mwp) ) ! Square Root Contribut. Drag_m
173	allocate ( rCDhSV(kcolp,mwp) ) ! Square Root Contribut. Drag_h
174	allocate ( Z0m_SV(kcolp,mwp) ) ! Momentum Roughness Length
175	allocate ( Z0mmSV(kcolp,mwp) ) ! z0(Momentum, Time Mean) [m]
176	allocate ( Z0mnSV(kcolp,mwp) ) ! z0(Momentum, instanta.) [m]
177	allocate ( Z0roSV(kcolp,mwp) ) ! Subgrid Topo Roughness Length
178	allocate ( Z0SaSV(kcolp,mwp) ) ! z0(Sastrugi h) [m]
179	allocate ( Z0e_SV(kcolp,mwp) ) ! z0(Snow eroded) [m]
180	allocate ( Z0emSV(kcolp,mwp) ) ! z0(Snow eroded, Time Mean) [m]
181	allocate ( Z0enSV(kcolp,mwp) ) ! z0(Snow eroded, instanta.) [m]
182	allocate ( Z0h_SV(kcolp,mwp) ) ! Heat Roughness Length
183	allocate ( Z0hmSV(kcolp,mwp) ) ! z0(Heat, Time Mean) [m]
184	allocate ( Z0hnSV(kcolp,mwp) ) ! z0(Heat, instanta.) [m]
185
186	allocate ( snCaSV(kcolp,mwp) ) ! Canopy Snow Thickness
187	allocate ( rrCaSV(kcolp,mwp) ) ! Canopy Water Content
188	allocate ( psivSV(kcolp,mwp) ) ! Leaf Water Potential
189	allocate ( TvegSV(kcolp,mwp) ) ! Vegetation Temperature
190
191	allocate ( TsisSV(kcolp,mwp,-nsoil:nsnow) ) ! Snow/Ice/Soil-Water Temperature
192	allocate ( ro__SV(kcolp,mwp,-nsoil:nsnow) ) ! Snow/Ice/Soil-Water VolumicMass
193	allocate ( eta_SV(kcolp,mwp,-nsoil:nsnow) ) ! Snow/Ice/Soil Water Content
194	allocate ( G1snSV(kcolp,mwp, 0:nsnow) ) ! Snow Dendricity/Sphericity
195	allocate ( G2snSV(kcolp,mwp, 0:nsnow) ) ! Snow Sphericity/Size
196	allocate ( dzsnSV(kcolp,mwp, 0:nsnow) ) ! Snow Layer Thickness
197	allocate ( agsnSV(kcolp,mwp, 0:nsnow) ) ! Snow Age
198	allocate ( BufsSV(kcolp,mwp) ) ! Snow Buffer Layer
199	allocate ( rusnSV(kcolp,mwp) ) ! Surficial Water
200	allocate ( SWf_SV(kcolp,mwp) ) ! Normalized Decay
201	allocate ( SWS_SV(kcolp,mwp) ) ! Surficial Water Status
202	allocate ( HFraSV(kcolp,mwp) ) ! Frazil Thickness
203
204	allocate ( zWE_SV(kcolp,mwp) ) ! Current Snow Thickness [mm w.e.]
205	allocate ( zWEcSV(kcolp,mwp) ) ! Compacted Snow Thickness [mm w.e.]
206	allocate ( dwemSV(kcolp,mwp) ) ! Only Melting over dt__SV (Mosaic) [mm w.e.]
207	allocate ( dwerSV(kcolp,mwp) ) ! Refreezing over dt__SV (Mosaic) [mm w.e.]
208	allocate ( dwesSV(kcolp,mwp) ) ! Sublimation over dt__SV (Mosaic) [mm w.e.]
209	allocate ( wem0SV(kcolp,mwp) ) ! Only Melting Budget (Mosaic) [mm w.e.]
210	allocate ( wem_SV(kcolp,mwp) ) ! Only Melting Budget (Mosaic) [mm w.e.]
211	allocate ( wer0SV(kcolp,mwp) ) ! Refreezing Budget (Mosaic) [mm w.e.]
212	allocate ( wer_SV(kcolp,mwp) ) ! Refreezing Budget (Mosaic) [mm w.e.]
213	allocate ( wes0SV(kcolp,mwp) ) ! Sublimation Budget (Mosaic) [mm w.e.]
214	allocate ( wes_SV(kcolp,mwp) ) ! Sublimation Budget (Mosaic) [mm w.e.]
215	allocate ( wee_SV(kcolp,mwp) ) ! Evapotranspiration Budget (Mosaic) [mm w.e.]
216
217
218	! SISVAT OUTPUT Variables
219	! -----------------------------
220
221	allocate ( no__SV(nbwri) ) ! OUTPUT file Unit Number
222	allocate ( IOi_SV(NbPts) ) ! OUTPUT point i Coordinate (independant txt file)
223	allocate ( IOj_SV(NbPts) ) ! OUTPUT point j Coordinate (independant txt file)
224	allocate ( i___SV(nbwri) ) ! OUTPUT point i Coordinate
225	allocate ( j___SV(nbwri) ) ! OUTPUT point j Coordinate
226	allocate ( n___SV(nbwri) ) ! OUTPUT point n Coordinate
227	allocate ( lwriSV(kcolp,mwp) ) ! OUTPUT point vec Index
228
229	allocate ( IRu_SV(kcolp,mwp) ) ! UPward IR Flux (effective)
230	allocate ( hSalSV(kcolp,mwp) ) ! Saltating Layer Height
231	allocate ( qSalSV(kcolp,mwp) ) ! Saltating Snow Concentration
232	allocate ( RnofSV(kcolp,mwp) ) ! RunOFF Intensity
233
234	! =================================
235	! ALLOCATION Mod_SISVAT_kkl - END
236	! =================================
237
238
239
240	! =================================
241	! ALLOCATION Mod_SISVAT_grd - BEGIN
242	! =================================
243
244	allocate ( ii__SV(kcolv) ) ! Mosaic point i Coordinate
245	allocate ( jj__SV(kcolv) ) ! Mosaic point j Coordinate
246	allocate ( nn__SV(kcolv) ) ! Mosaic point n Coordinate
247	allocate ( ikp_SV(kcolv) ) ! Grid Cell Column Index of a SISVAT Column
248	allocate ( ikl_SV(mxp,myp,mwp) ) ! SISVAT Column Index
249
250	! =================================
251	! ALLOCATION Mod_SISVAT_grd - END
252	! =================================
253
254
255
256	! =================================
257	! ALLOCATION Mod_SISVAT_loc - BEGIN
258	! =================================
259
260
261	allocate ( NLaysv(kcolp,mwp) ) ! New Snow Layer Switch
262	allocate ( i_thin(kcolp,mwp) ) ! Index of the thinest Layer
263	allocate ( LIndsv(kcolp,mwp) ) ! Contiguous Layer relative Index
264
265	allocate ( albisv(kcolp,mwp) ) ! Integrated Surface Albedo
266	allocate ( albssv(kcolp,mwp) ) ! Soil Albedo [-]
267	allocate ( SoCasv(kcolp,mwp) ) ! Canopy Absorbed Solar Radiat.
268	allocate ( SoSosv(kcolp,mwp) ) ! Surface Absorbed Solar Radiat.
269	allocate ( IRv_sv(kcolp,mwp) ) ! Vegetation IR Flux [W/m2]
270	allocate ( Evg_sv(kcolp,mwp) ) ! Emissivity of Vegetation+Snow
271	allocate ( Eso_sv(kcolp,mwp) ) ! Emissivity of Soil+Snow
272	allocate ( tau_sv(kcolp,mwp) ) ! Transmited Radiation Fraction
273	allocate ( rrMxsv(kcolp,mwp) ) ! Canopy Maximum Intercepted Rain
274	allocate ( LAIesv(kcolp,mwp) ) ! effective LAI for transpirati.
275	allocate ( LAI_sv(kcolp,mwp) ) ! corrected LAI in case of snow
276	allocate ( glf_sv(kcolp,mwp) ) ! Green Leaf Fraction
277	allocate ( Sigmsv(kcolp,mwp) ) ! Canopy Ventilation Factor
278	allocate ( HSv_sv(kcolp,mwp) ) ! Sensible Heat Flux [W/m2]
279	allocate ( HLv_sv(kcolp,mwp) ) ! Latent Heat Flux [W/m2]
280	allocate ( HSs_sv(kcolp,mwp) ) ! Sensible Heat Flux (t)
281	allocate ( HLs_sv(kcolp,mwp) ) ! Latent Heat Flux (t)
282	allocate ( sqrCm0(kcolp,mwp) ) ! in Neutral Drag Coef.Moment.
283	allocate ( sqrCh0(kcolp,mwp) ) ! in Neutral Drag Coef.Heat
284	allocate ( Lx_H2O(kcolp,mwp) ) ! Latent Heat of Vaporiz./Sublim.
285	allocate ( ram_sv(kcolp,mwp) ) ! Aerodyn.Resistance (Moment.)
286	allocate ( rah_sv(kcolp,mwp) ) ! Aerodyn.Resistance (Heat)
287	allocate ( Fh__sv(kcolp,mwp) ) ! Stability Function
288	allocate ( dFh_sv(kcolp,mwp) ) ! Stability Function (Deriv.)
289	allocate ( Evp_sv(kcolp,mwp) ) ! Evaporation [kg/m2]
290	allocate ( EvT_sv(kcolp,mwp) ) ! Evapotranspiration [kg/m2]
291	allocate ( LSdzsv(kcolp,mwp) ) ! Land/Sea Vert. Discretiz. Fact.
292	allocate ( Tsrfsv(kcolp,mwp) ) ! Surface Temperature
293	allocate ( sEX_sv(kcolp,mwp,-nsoil:nsnow+1) )! Verticaly Integr.Extinct.Coef.
294	allocate ( zzsnsv(kcolp,mwp, 0:nsnow) )! Snow Pack Thickness [m]
295	allocate ( psi_sv(kcolp,mwp,-nsoil:0 ) ) ! Soil Water Potential
296	allocate ( Khydsv(kcolp,mwp,-nsoil:0 ) ) ! Soil Hydraulic Conductiv.
297	allocate ( Rootsv(kcolp,mwp,-nsoil:0) ) ! Root Water Pump [kg/m2/s]
298	allocate ( EExcsv(kcolp,mwp) ) ! Energy in Excess, current
299
300
301	! =================================
302	! ALLOCATION Mod_SISVAT_loc - END
303	! =================================
304
305
306
307	! =================================
308	! ALLOCATION Mod_SISVAT_dzS - BEGIN
309	! =================================
310
311
312	allocate ( islpSV( -nsoil:0) ) !
313	allocate ( isnpSV( nsnow) ) !
314	allocate ( islmSV( -nsoil:0) ) !
315
316	allocate ( dzmiSV( -nsoil:0) ) ! dz_(i-1/2)
317	allocate ( dzi_SV( -nsoil:0) ) ! dz_(i-1)/(dz_(i)+dz_(i-1))
318	allocate ( dziiSV( -nsoil:0) ) ! dz_(i) /(dz_(i)+dz_(i-1))
319	allocate ( dtz_SV( -nsoil:0) ) ! dt / dz
320	allocate ( dz78SV( -nsoil:0) ) ! 7/8 (dz)
321	allocate ( dz34SV( -nsoil:0) ) ! 3/4 (dz)
322	allocate ( dz_8SV( -nsoil:0) ) ! 1/8 (dz)
323	allocate ( dzAvSV( -nsoil:0) ) ! 1/8dz_(-1)+3/4dz+1/8dz_(+1)
324	allocate ( RF__SV( 0:nvege,-nsoil:0) ) ! Root Fraction
325
326
327	! =================================
328	! ALLOCATION Mod_SISVAT_dzS - END
329	! =================================
330
331
332
333	! =================================
334	! ALLOCATION Mod_SISVAT_gpt - BEGIN
335	! =================================
336
337	allocate ( sst_SB (kcolp) ) ! Ocean FORCING (SST) [K]
338	allocate ( sif_SB (kcolp) ) ! Ocean FORCING (Sea-Ice Fraction) [-]
339	allocate ( MaskSV_gpt(kcolp) ) ! Land(1)-Sea(0) Mask (Cell value) [-]
340	allocate ( Alb_SV_gpt(kcolp) ) ! Surface Albedo (Cell average) [-]
341	allocate ( EmisSV_gpt(kcolp) ) ! Surface LongWave Emissivity(Cell average) [-]
342	allocate ( Tas_SV_gpt(kcolp) ) ! Surface Air Temperature (Cell average) [K]
343	allocate ( HSenSV_gpt(kcolp) ) ! Sensible Heat Flux (+ => Upward) [W/m2]
344	allocate ( HLatSV_gpt(kcolp) ) ! Latent Heat Flux (+ => Upward) [W/m2]
345	allocate ( LMO_SV_gpt(kcolp) ) ! Obukhov Length (Cell average) [m]
346	allocate ( us__SV_gpt(kcolp) ) ! Friction Velocity [m/s]
347	allocate ( uts_SV_gpt(kcolp) ) ! Sensible Heat Flux Turbulent Scale [K m/s]
348	allocate ( uqs_SV_gpt(kcolp) ) ! Latent Heat Flux Turbulent Scale [kg/kg m/s]
349	allocate ( WE2aSV_gpt(kcolp) ) ! Cumulative H2O Flux from the Surface [mm w.e.]
350	allocate ( hFraSV_gpt(kcolp) ) ! Frazil Thickness [m]
351	allocate ( dpktSV_gpt(kcolp,mzp) ) ! Reduced Potential Temperature Tendency [KX/s]
352
353
354	! =================================
355	! ALLOCATION Mod_SISVAT_gpt - END
356	! =================================
357
358
359
360	! =================================
361	! ALLOCATION Mod_SISVAT_flx - BEGIN
362	! =================================
363
364	! OUTPUT for Stand Alone NetCDF File
365	! ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
366	allocate ( SOsoKL(kcolp,mwp) ) ! Absorbed Solar Radiation [W/m2]
367	allocate ( IRsoKL(kcolp,mwp) ) ! Absorbed IR Radiation [W/m2]
368	allocate ( HSsoKL(kcolp,mwp) ) ! Absorbed Sensible Heat Flux [W/m2]
369	allocate ( HLsoKL(kcolp,mwp) ) ! Absorbed Latent Heat Flux [W/m2]
370	allocate ( HLs_KL(kcolp,mwp) ) ! Evaporation [mm w.e./s]
371	allocate ( HLv_KL(kcolp,mwp) ) ! Transpiration [W/m2]
372
373
374	! =================================
375	! ALLOCATION Mod_SISVAT_flx - END
376	! =================================
377
378
379
380	! =================================
381	! ALLOCATION Mod_SISVAT_cdf - BEGIN
382	! =================================
383
384	! OUTPUT for Stand Alone NetCDF File
385	! ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
386	allocate ( SOsoNC_xyn(ixp1:mxpp,jyp1:mypp,mwp) ) ! Absorbed Solar Radiation [W/m2]
387	allocate ( IRsoNC_xyn(ixp1:mxpp,jyp1:mypp,mwp) ) ! Absorbed IR Radiation [W/m2]
388	allocate ( HSsoNC_xyn(ixp1:mxpp,jyp1:mypp,mwp) ) ! Absorbed Sensible Heat Flux [W/m2]
389	allocate ( HLsoNC_xyn(ixp1:mxpp,jyp1:mypp,mwp) ) ! Absorbed Latent Heat Flux [W/m2]
390	allocate ( HLs_NC_xyn(ixp1:mxpp,jyp1:mypp,mwp) ) ! Evaporation [mm w.e./s]
391	allocate ( HLv_NC_xyn(ixp1:mxpp,jyp1:mypp,mwp) ) ! Transpiration [W/m2]
392	allocate ( eta_NC_xyn(ixp1:mxpp,jyp1:mypp,mwp) ) ! Soil Humidity [kg/kg]
393
394
395	! =================================
396	! ALLOCATION Mod_SISVAT_cdf - END
397	! =================================
398
399
400
401	! =================================
402	! ALLOCATION Mod_SISVAT_xAW - BEGIN
403	! =================================
404
405	! #AW allocate ( V__mem(kcolp,mwp,ntave) ) ! V Time Steps
406	! #AW allocate ( VVmmem(kcolp,mwp ) ) ! V Time Moving Averages
407
408
409	! =================================
410	! ALLOCATION Mod_SISVAT_xAW - END
411	! =================================
412
413
414
415	! =================================
416	! ALLOCATION Mod_SISVAT_xAH - BEGIN
417	! =================================
418
419	! #AH allocate ( T__mem(kcolp,mwp,ntave) ) ! dT(a-s) Time Steps
420	! #AH allocate ( dTmmem(kcolp,mwp ) ) ! dT(a-s) Time Moving Averages
421
422
423	! =================================
424	! ALLOCATION Mod_SISVAT_xAH - END
425	! =================================
426
427
428
429	! =================================
430	! ALLOCATION Mod_SISVAT_xZM - BEGIN
431	! =================================
432
433	! #ZM allocate ( z0_mem(kcolp,mwp,ntavz) ) ! z0 Time Steps
434	! #ZM allocate ( r0_mem(kcolp,mwp,ntavz) ) ! r0 Time Steps
435	! #ZM allocate ( b0_mem(kcolp,mwp,ntavz) ) ! b0 Time Steps
436
437
438	! =================================
439	! ALLOCATION Mod_SISVAT_xZM - END
440	! =================================
441
442
443
444	! =================================
445	! ALLOCATION Mod_SISVAT_xWL - BEGIN
446	! =================================
447
448	! #WL allocate ( WL_mem(kcolp,mwp,nLimi) ) ! WVLimit Time Steps
449	! #WL allocate ( WLmmem(kcolp,mwp) ) ! WVLimit Time moving Averages
450
451
452	! =================================
453	! ALLOCATION Mod_SISVAT_xWL - END
454	! =================================
455
456
457
458	! ============================================================================================
459	! Initialization of the Correspondance between 1-D Hor.SISVAT Grid and the 3-D Horizontal Grid
460	! ============================================================================================
461
462	DO i=ixp1,mxpp
463	DO j=jyp1,mypp
464	DO n=1,mwp
465
466	ikl = ((n-1)(mypp-jyp1+1)+j-jyp1) (mxpp-ixp1+1) + i -ixp1+1
467	ii__SV(ikl) = i
468	jj__SV(ikl) = j
469	nn__SV(ikl) = n
470	ikl_SV(i,j,n) = ikl
471
472
473
474	! ============================================================================================
475	! Initialization of the Correspondance between 1-D Hor.SISVAT Grid and the 1-D Hor.AtmPHY Grid
476	! ============================================================================================
477
478	ikp_SV(ikl) = ikl_AP(i,j)
479
480	ENDDO
481	ENDDO
482	ENDDO
483
484	return
485	end subroutine PHY_SISVAT_ALLOC

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