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flxrnf_ORCA_R05.h90 in trunk/NEMO/OFF_SRC/SBC – NEMO

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source: trunk/NEMO/OFF_SRC/SBC/flxrnf_ORCA_R05.h90 @ 719

Last change on this file since 719 was 719, checked in by ctlod, 17 years ago
get back to the nemo_v2_3 version for trunk
Property svn:eol-style set to `native` Property svn:keywords set to `Author Date Id Revision`
File size: 51.9 KB

Line
1	!!----------------------------------------------------------------------
2	!! * flxrnf_ORCA_R05.h90 *
3	!!----------------------------------------------------------------------
4	!! flx_rnf : update ocean runoffs for ORCA_R05 configuration
5	!!----------------------------------------------------------------------
6	!! * Modules used
7	USE dom_oce ! ocean space and time domain
8	USE phycst ! physical constants
9	USE in_out_manager ! I/O manager
10	USE daymod ! calendar
11
12	IMPLICIT NONE
13	PRIVATE
14
15	!! * Routine accessibility
16	PUBLIC flx_rnf ! routine call by step.F90
17
18	!! * Shared module variables
19	REAL(wp), PUBLIC, DIMENSION(jpi,jpj) :: & !:
20	runoff, & !: monthly runoff (kg/m2/s)
21	upsadv, & !: mixed adv scheme in straits vicinity (hori.)
22	upsrnfh !: mixed adv scheme in runoffs vicinity (hori.)
23	REAL(wp), PUBLIC, DIMENSION(jpk) :: & !:
24	upsrnfz !: mixed adv scheme in runoffs vicinity (vert.)
25	INTEGER , PUBLIC :: & !:
26	numrof = 48 , & !: logical unit for runoff data
27	nrunoff = 0 , & !: runoff option (namelist)
28	nrnf1, nrnf2 !: first and second record used
29
30	!! * Module variable
31	REAL(wp), DIMENSION(jpi,jpj,2) :: & !:
32	rnfdta !: monthly runoff data array (kg/m2/s)
33
34	!!----------------------------------------------------------------------
35	!! OPA 9.0 , LOCEAN-IPSL (2005)
36	!! $Header$
37	!! This software is governed by the CeCILL licence see modipsl/doc/NEMO_CeCILL.txt
38	!!----------------------------------------------------------------------
39
40	CONTAINS
41
42	SUBROUTINE flx_rnf( kt )
43	!!----------------------------------------------------------------------
44	!! * ROUTINE flx_rnf *
45	!!
46	!! ** Purpose : Introduce a climatological run off forcing
47	!!
48	!! ** Method : ORCA R05 configuration
49	!! Initialze each mouth of river with a monthly climatology
50	!! provided from different data.
51	!! C a u t i o n : upward water flux, runoff is negative
52	!! set at the last loop of the routine
53	!!
54	!! ** Action :
55	!!
56	!! References :
57	!! J. D. Milliman and R. H. Meade, 1983 : world-wide delivery
58	!! of river sediment to the oceans, journal of geology vol 91
59	!! pp 1-21.
60	!! G. L. Russell and J. R. Miller, 1990 : global river runoff
61	!! calculated from a global atmospheric general circulation
62	!! model, journal of hydrology, 117(1990), pp 241-254.
63	!! F. Van Der Leeden, Troise F. L., Todd D. K. : the water
64	!! encyclopedia, second edition, lewis publishers.
65	!! J. W. Weatherly, J. E. Walsh : The effects of precipitation
66	!! and river runoff in a coupled ice-ocean model of Arctic
67	!! Climate dynamics 1996 12:785,798
68	!! Jacobs et al. 1992. J. Glaciol. 38 (130) 375-387.
69	!!
70	!! History :
71	!! ! 94-10 (G.Madec, M. Pontaud, M. Imbard) Original code
72	!! ! 97-03 (G.Madec) time dependent version
73	!! ! 98-06 (J.M. Molines) exact computation of zxy
74	!! for months that are not 30 days
75	!! ! 98-07 (M. Imbard) ORCA and mpp option
76	!! ! 99-08 (J.P. Boulanger H.L.Ayina) New rivers and
77	!! values given in m3/s
78	!! ! 00-04 (G. Madec, K. Roberts) add antarctica ice discharge.
79	!! ! 00-11 (R. Hordoir, E. Durand) NetCDF FORMAT
80	!! 8.5 ! 02-09 (G. Madec) F90: Free form and module
81	!!----------------------------------------------------------------------
82	!! * Modules used
83	USE ioipsl
84
85	!! * arguments
86	INTEGER, INTENT( in ) :: kt ! ocean time step
87
88	#if defined key_coupled
89	runoff(:,:) = 0.0e0
90	#else
91	!!----------------------------------------------------------------------
92	!! ORCA_R05
93	!!----------------------------------------------------------------------
94	!! * Local declarations
95	INTEGER, PARAMETER :: &
96	jpmois=12, & ! number of month in the year !
97	jpriv=120, & ! maximum number of rivers
98	jpcoef=20 ! maximum number of gridpoints for mouth rivers
99
100	INTEGER :: ji, jj, jl, jm, jn, jr, jc
101	INTEGER :: i15, imois, iman
102	INTEGER :: inbp, idbd, idmeom
103	INTEGER :: iirnf(jpcoef,jpriv),ijrnf(jpcoef,jpriv)
104	INTEGER :: inb(jpriv)
105
106	REAL(wp) :: zconv, zxy
107	REAL(wp) :: zrup1,zrup2,zrup3
108	REAL(wp) :: zrnfm(jpmois, jpriv)
109	REAL(wp) :: zcoefr(jpi, jpj, 5)
110
111	! ====
112	! DATA
113	! ====
114
115	! I NORTH AMERICA
116	! ---------------
117
118	! 1-Saint Lawrence (Canada) 49N30 67W00 R2
119	! Old=447 km3/year=14165m3/s; CLIPPER=12430m3/s; ratio=1.14
120	! --> 13975.249m3/s
121	DATA inb(1)/3/
122	DATA (iirnf(jc,1),jc=1,jpcoef)/ 444, 444, 444, 17*0 /
123	DATA (ijrnf(jc,1),jc=1,jpcoef)/ 367, 368, 369, 17*0 /
124	DATA (zrnfm(jm,1),jm=1,jpmois)/ &
125	11718., 11971., 12466., 14980., 19257., 16913., &
126	14211., 13119., 13367., 13644., 13463., 12594./
127	! 2-Hudson River (USA) 41N00 77W00 R1
128	! Old=12 km3/year=380m3/s; UNESCO(64-83,p255)=408m3/s
129	! --> 407.416687m3/s
130	DATA inb(2)/1/
131	DATA (iirnf(jc,2),jc=1,jpcoef)/ 426, 19*0 /
132	DATA (ijrnf(jc,2),jc=1,jpcoef)/ 336, 19*0 /
133	DATA (zrnfm(jm,2),jm=1,jpmois)/ &
134	364., 404., 648., 873., 593., 301., &
135	205., 171., 205., 290., 379., 456./
136	! 3-Missisipi and Atchafalaya (USA) 29N 90W R1
137	! Old=580 km3/year=18380m3/s; CLIPPER=17599m3/s
138	! --> 17599.334m3/s
139	DATA inb(3)/2/
140	DATA (iirnf(jc,3),jc=1,jpcoef)/ 397, 398, 18*0 /
141	DATA (ijrnf(jc,3),jc=1,jpcoef)/ 312, 313, 18*0 /
142	DATA (zrnfm(jm,3),jm=1,jpmois)/ &
143	19260., 20813., 23026., 28160., 26510., 19650., &
144	14181., 10676., 9578., 10167., 11699., 17472./
145	! 4-Brazos (USA) 29N58 95W53 R1
146	! Old=7 km3/year=222m3/s; UNESCO(65-84, p298)=200m3/s
147	! --> 199.666656m3/s
148	DATA inb(4)/1/
149	DATA (iirnf(jc,4),jc=1,jpcoef)/ 386, 19*0 /
150	DATA (ijrnf(jc,4),jc=1,jpcoef)/ 311, 19*0 /
151	DATA (zrnfm(jm,4),jm=1,jpmois)/ &
152	165., 224., 200., 266., 457., 327., &
153	143., 69., 102., 132., 160., 151./
154	! 5-Colorado (Mexico) 31N54 114W57 R5
155	! Old=20 km3/year=634m3/s
156	! --> 634.m3/s
157	DATA inb(5)/2/
158	DATA (iirnf(jc,5),jc=1,jpcoef)/ 347, 348, 18*0 /
159	DATA (ijrnf(jc,5),jc=1,jpcoef)/ 316, 316, 18*0 /
160	DATA (zrnfm(jm,5),jm=1,jpmois)/12*634./
161	! 6-Columbia (USA) 45N60 121W17 R1
162	! Old=251 km3/year=7954m3/s; UNESCO(65-84, p312)=5368m3/s
163	! --> 5368.41602m3/s
164	DATA inb(6)/2/
165	DATA (iirnf(jc,6),jc=1,jpcoef)/ 326, 326, 18*0 /
166	DATA (ijrnf(jc,6),jc=1,jpcoef)/ 360, 361, 18*0 /
167	DATA (zrnfm(jm,6),jm=1,jpmois)/ &
168	4752., 5077., 5633., 6075., 8422., 9822., &
169	6350., 4112., 3273., 3251., 3548., 4106./
170	! 7-Fraser (USA) R5
171	! Old=112 km3/year=3550m3/s;not found in UNESCO
172	! --> 3549.99976m3/s
173	DATA inb(7)/2/
174	DATA (iirnf(jc,7),jc=1,jpcoef)/ 317, 317, 18*0 /
175	DATA (ijrnf(jc,7),jc=1,jpcoef)/ 378, 379, 18*0 /
176	DATA (zrnfm(jm,7),jm=1,jpmois)/12*3550./
177	! 8-Yukon (USA) 63N00 165W00 R3
178	! Old=195 km3/year=6179m3/s; UNESCO(65-77+80-84, p321)=4245; ratio=1.46
179	! --> 6017.24951m3/s
180	DATA inb(8)/2/
181	DATA (iirnf(jc,8),jc=1,jpcoef)/ 244, 244, 18*0 /
182	DATA (ijrnf(jc,8),jc=1,jpcoef)/ 413, 414, 18*0 /
183	DATA (zrnfm(jm,8),jm=1,jpmois)/ &
184	1459., 1213., 1065., 1100., 9067., 17675., &
185	10680., 11271., 8658., 5453., 2649., 1917./
186	! 9-Copper (USA) 61N47 144W45 R2
187	! Old=39 km3/year=1236m3/s; UNESCO(65-84, p317)=1052m3/s; ratio=1.18
188	! --> 1236.25m3/s
189	DATA inb(9)/1/
190	DATA (iirnf(jc,9),jc=1,jpcoef)/ 274, 19*0 /
191	DATA (ijrnf(jc,9),jc=1,jpcoef)/ 409, 19*0 /
192	DATA (zrnfm(jm,9),jm=1,jpmois)/ &
193	219., 195., 181., 214., 904., 2532., &
194	4026., 3627., 1632., 697., 354., 254./
195	! 10-Susitna (USA) R5
196	! Old=40 km3/year=1268m3/s
197	! --> 1268.m3/s
198	DATA inb(10)/2/
199	DATA (iirnf(jc,10),jc=1,jpcoef)/ 263, 264, 18*0 /
200	DATA (ijrnf(jc,10),jc=1,jpcoef)/ 405, 405, 18*0 /
201	DATA (zrnfm(jm,10),jm=1,jpmois)/12*1268./
202	! 11-McKenzie (Canada) 70N00 135W00 R3
203	! Old=306 km3/year=9697m3/s; UNESCO(67+72+7479+82-84, p168)=8343m3/s;
204	! ratio=1.16
205	! --> 9606.66797m3/s
206	DATA inb(11)/3/
207	DATA (iirnf(jc,11),jc=1,jpcoef)/ 272, 272, 272, 17*0 /
208	DATA (ijrnf(jc,11),jc=1,jpcoef)/ 451, 452, 453, 17*0 /
209	DATA (zrnfm(jm,11),jm=1,jpmois)/ &
210	3644., 3400., 3258., 3546., 14188., 21544., &
211	18954., 15487., 11284., 10169., 5901., 3905./
212	! 12-Kuksokwim (USA) 60N00 ~162W30 R4
213	! UNESCO(65-84, p318)=1112m3/s (61N87 158E10, Crooked Creek, inland)
214	! --> 1111.99988m3/s
215	DATA inb(12)/2/
216	DATA (iirnf(jc,12),jc=1,jpcoef)/ 244, 245, 18*0 /
217	DATA (ijrnf(jc,12),jc=1,jpcoef)/ 413, 414, 18*0 /
218	DATA (zrnfm(jm,12),jm=1,jpmois)/ &
219	335., 308., 295., 407., 2415., 2027., &
220	1917., 2049., 1585., 1072., 545., 389./
221
222	DATA inb(13)/0/
223	DATA inb(14)/0/
224	DATA inb(15)/0/
225
226	! Total run-offs(I)=60974.2539m3/s
227
228	! II SOUTH AMERICA
229	! -----------------
230	! 16-Chira (Peru) 4s54 81w08 R2
231	! Old=5 km3/year=158m3/s; UNESCO (65-68, p357)=80.9; ratio=1.95
232	! --> 158.000015m3/s
233	DATA inb(16)/1/
234	DATA (iirnf(jc,16),jc=1,jpcoef)/ 414, 19*0 /
235	DATA (ijrnf(jc,16),jc=1,jpcoef)/ 244, 19*0 /
236	DATA (zrnfm(jm,16),jm=1,jpmois)/ &
237	70., 105., 564., 582., 230., 94., &
238	87., 47., 35., 32., 29., 21./
239	! 17-Magdalena (Colombia) 11N06 74W51 R2
240	! Old=237 km3/year=7510m3/s; UNESCO(71-73+76-79, p348)=6973m3/s;
241	! ratio=1.08
242	! --> 7451.58301m3/s
243	DATA inb(17)/2/
244	DATA (iirnf(jc,17),jc=1,jpcoef)/ 424, 424, 18*0 /
245	DATA (ijrnf(jc,17),jc=1,jpcoef)/ 270, 271, 18*0 /
246	DATA (zrnfm(jm,17),jm=1,jpmois)/ &
247	6598., 4441., 4087., 5445., 7380., 8067., &
248	8509., 7428., 7631., 9296., 10588., 9949./
249	! 18-Orinoco (Venezuela) 8N37 62W15! R1
250	! Old=1100 km3/year=34857m3/s; UNESCO(73-75, p364)=28736m3/s;
251	! HLA=26371m3/s
252	! Data from HLA: 8.1N - 63.3W 1925/89
253	! --> 26371.416
254	DATA inb(18)/5/
255	DATA (iirnf(jc,18),jc=1,jpcoef)/ 451, 451, 452, 452, 452, 15*0 /
256	DATA (ijrnf(jc,18),jc=1,jpcoef)/ 271, 272, 271, 272, 272, 15*0 /
257	DATA (zrnfm(jm,18),jm=1,jpmois)/ &
258	10670., 7513., 6344., 6887., 13086., 26699., &
259	43938., 59957., 57435., 39951., 27410., 16567./
260	! 19-Amazon (Brazil) 0S05 50W00 R1
261	! Old=6300 km3/year=199634m3/s; CLIPPER=166192m3/s~UNESCO;
262	! HLA=184806m3/s
263	! UNESCO data are at Obidos which is far inland and therefore does not
264	! fully represent the actual discharge
265	! Data from HLA: 1.5N - 55.3W 1970/96
266	! --> 184845.484m3/s
267	DATA inb(19)/14/
268	DATA (iirnf(jc,19),jc=1,jpcoef)/ 475, 476, 476, 476, 476, &
269	477, 477, 477, 477, 477, &
270	478, 478, 478, 478, 6*0 /
271	DATA (ijrnf(jc,19),jc=1,jpcoef)/ 254, 251, 252, 253, 254, &
272	250, 251, 252, 253, 254, &
273	250, 251, 252, 253, 6*0 /
274	DATA (zrnfm(jm,19),jm=1,jpmois)/ &
275	152233., 176415., 199941., 225565., 244016., 244861., &
276	230711., 203128., 164531., 128486., 118214., 130045. /
277	! 20-Sao Francisco (Brazil) 10S30 36W24 R1
278	! Old=97 km3/year=3074m3/s; UNESCO(77-79, p338)=2645m3/s
279	! --> 2645.3335m3/s
280	DATA inb(20)/1/
281	DATA (iirnf(jc,20),jc=1,jpcoef)/ 498, 19*0 /
282	DATA (ijrnf(jc,20),jc=1,jpcoef)/ 223, 19*0 /
283	DATA (zrnfm(jm,20),jm=1,jpmois)/ &
284	3244., 4116., 5139., 4330., 2323., 1800., &
285	1587., 1511., 1593., 1740., 2190., 2171. /
286	! 21-Parana+Uruguay(Arg./Uru.) 34S12 58W18 R1
287	! Old=470 km3/year=14893m3/s; UNESCO(p323/324)=22263m3/s
288	! --> 22203.168m3/s
289	DATA inb(21)/5/
290	DATA (iirnf(jc,21),jc=1,jpcoef)/ 462, 462, 462, 462, 463, 15*0 /
291	DATA (ijrnf(jc,21),jc=1,jpcoef)/ 172, 173, 174, 175, 175, 15*0 /
292	DATA (zrnfm(jm,21),jm=1,jpmois)/ &
293	24803., 26836., 24585., 21358., 20041., 21689., &
294	22647., 20403., 19627., 21400., 21126., 21923./
295	! 22-Negro (Argentina) 41S02 62W47 R2
296	! Old=30 km3/year=951m3/s; UNESCO(65-79,p330)=765m3/s; ratio=1.24
297	! --> 907.666687m3/s
298	DATA inb(22)/2/
299	DATA (iirnf(jc,22),jc=1,jpcoef)/ 446, 447, 18*0 /
300	DATA (ijrnf(jc,22),jc=1,jpcoef)/ 160, 160, 18*0 /
301	DATA (zrnfm(jm,22),jm=1,jpmois)/ &
302	882., 587., 519., 482., 623., 984., &
303	1120., 1294., 1092., 1166., 1105., 1038./
304	! 23- Tocantins : ~48W00 ~0.5S R4
305	! UNESCO(76-77+80-81, p335)=12167m3/s (station far inland!)
306	! --> 12173.082m3/s
307	DATA inb(23)/4/
308	DATA (iirnf(jc,23),jc=1,jpcoef)/ 479, 480, 481, 482, 16*0 /
309	DATA (ijrnf(jc,23),jc=1,jpcoef)/ 249, 249, 249, 249, 16*0 /
310	DATA (zrnfm(jm,23),jm=1,jpmois)/ &
311	15507., 24855., 27854., 24257., 15860., 7861., &
312	4440., 3082., 2728., 3417., 5511., 10705. /
313
314	DATA inb(24)/0/
315	DATA inb(25)/0/
316
317	! Total run-offs(II)=256755.75
318	! Total run-offs(I+II)=317730
319
320	! III EUROPE
321	! ----------
322	! 26-Rhone (France) 43N20 4E50 R1
323	! Old=49 km3/year=1553m3/s; UNESCO(65-83, p512)=1229
324	! --> 1217.16663m3/s
325	DATA inb(26)/1/
326	DATA (iirnf(jc,26),jc=1,jpcoef)/ 584, 19*0 /
327	DATA (ijrnf(jc,26),jc=1,jpcoef)/ 347, 19*0 /
328	DATA (zrnfm(jm,26),jm=1,jpmois)/ &
329	1385., 1848., 1568., 1311., 1420., 1191., &
330	937., 796., 794., 962., 1161., 1233./
331	! 27-Po (Italy) 11N10 1W09 R1
332	! Old=46 km3/year=1458m3/s; UNESCO(65-84, p527)=1550m3/s
333	! --> 1550.08337m3/s
334	DATA inb(27)/1/
335	DATA (iirnf(jc,27),jc=1,jpcoef)/ 599, 19*0 /
336	DATA (ijrnf(jc,27),jc=1,jpcoef)/ 355, 19*0 /
337	DATA (zrnfm(jm,27),jm=1,jpmois)/ &
338	1304., 1605., 1856., 1549., 1958., 1760., &
339	1040., 1007., 1615., 1907., 1772., 1228./
340	! 28-Danube (Roumania) 45N20 29E40 R1
341	! Old=206 km3/year=6527m3/s; UNESCO(65-84, p544)=7011m3/s
342	! --> 7011.8335m3/s
343	DATA inb(28)/2/
344	DATA (iirnf(jc,28),jc=1,jpcoef)/ 632, 632, 18*0 /
345	DATA (ijrnf(jc,28),jc=1,jpcoef)/ 356, 357, 18*0 /
346	DATA (zrnfm(jm,28),jm=1,jpmois)/ &
347	6625., 7352., 7986., 9279., 9482., 8618., &
348	7586., 6001., 5210., 4989., 4921., 6093./
349
350	DATA inb(29)/0/
351	DATA inb(30)/0/
352
353	! Total run-offs(III)=9779.08301m3/s
354	! Total run-offs(I+II+III)=327509.094m3/s
355
356	! IV EURASIAN ARCTIC
357	! ------------------
358	! 31-Iana (Russia) R1
359	! Old=29 km3/year=919m3/s; UNESCO(65-72+74+76-84, p463)=936m3/s
360	! --> 0m3/s
361	DATA inb(31)/0/
362	DATA (iirnf(jc,31),jc=1,jpcoef)/ 20*0 /
363	DATA (ijrnf(jc,31),jc=1,jpcoef)/ 20*0 /
364	DATA (zrnfm(jm,31),jm=1,jpmois)/ &
365	2., 1., 0., 0., 917., 3514., &
366	2968., 2329., 1322., 178., 36., 8./
367	! 32-Ob (Russia) 66N45 69E30 R1
368	! Old=385 km3/year=12200m3/s; UNESCO(65-84, p478)=12862m3/s
369	! --> 12861.5m3/s
370	DATA inb(32)/8/
371	DATA (iirnf(jc,32),jc=1,jpcoef)/ 635, 635, 636, 636, 636,637, 637,637,12*0 /
372	DATA (ijrnf(jc,32),jc=1,jpcoef)/ 508, 509, 509, 508, 507,509, 508,507,12*0 /
373	DATA (zrnfm(jm,32),jm=1,jpmois)/ &
374	4977., 4150., 3611., 3590., 14723., 33366., &
375	30773., 22785., 14701., 9705., 6078., 5879./
376	! 33-Yenesei (Russia) 71N50 82E40 R1
377	! Old=560 km3/year=17745m3/s; UNESCO(65-84, p472)=17462m3/s
378	! --> 17461.666m3/s
379	DATA inb(33)/9/
380	DATA (iirnf(jc,33),jc=1,jpcoef)/ 114,115,115,116, 117,117,117,118,118,11*0 /
381	DATA (ijrnf(jc,33),jc=1,jpcoef)/ 504,504,503,503, 501,502,503,502,501,11*0 /
382	DATA (zrnfm(jm,33),jm=1,jpmois)/ &
383	6659., 7007., 6895., 7089., 24183., 74965., &
384	25325., 15940., 16050., 12678., 6741., 6008./
385	! 34-Severnaya Dvina(Russia)64N32 40E30 R5
386	! Old=106 km3/year=3359m3/s; not in UNESCO data base
387	! --> 3359.00024m3/s
388	DATA inb(34)/2/
389	DATA (iirnf(jc,34),jc=1,jpcoef)/ 620, 620, 18*0 /
390	DATA (ijrnf(jc,34),jc=1,jpcoef)/ 448, 449, 18*0 /
391	DATA (zrnfm(jm,34),jm=1,jpmois)/12*3359./
392	! 35-Lena (Russia) 72N25 126E40 R1
393	! --> 16192.333m3/s
394	DATA inb(35)/9/
395	DATA (iirnf(jc,35),jc=1,jpcoef)/ 142,143,148,148,149,149,150,150,150,11*0 /
396	DATA (ijrnf(jc,35),jc=1,jpcoef)/ 458,458,456,448,449,448,451,450,449,11*0 /
397	DATA (zrnfm(jm,35),jm=1,jpmois)/ &
398	2663., 2095., 1629., 1324., 7203., 64230., &
399	40810., 28310., 25995., 13299., 3673., 3077./
400	! 36-Kolyma (Russia) 69N30 161E00 R1
401	! Old=71 km3/year=2250m3/s; UNESCO(65-84)=2138m3/s
402	! --> 2138.66675m3/s
403	DATA inb(36)/2/
404	DATA (iirnf(jc,36),jc=1,jpcoef)/ 184, 185, 18*0 /
405	DATA (ijrnf(jc,36),jc=1,jpcoef)/ 429, 429, 18*0 /
406	DATA (zrnfm(jm,36),jm=1,jpmois)/ &
407	131., 92., 76., 65., 2576., 9143., &
408	4670., 3727., 3226., 1119., 630., 209./
409	! 37-Indigirka (russia) 70N48 148E54 R1
410	! Old=55 km3/year=1743m3/s; UNESCO(65-68+70+72-84)=1622.
411	! --> 1622.00012m3/s
412	DATA inb(37)/1/
413	DATA (iirnf(jc,37),jc=1,jpcoef)/ 172, 19*0 /
414	DATA (ijrnf(jc,37),jc=1,jpcoef)/ 438, 19*0 /
415	DATA (zrnfm(jm,37),jm=1,jpmois)/ &
416	32., 17., 11., 7., 354., 5629., &
417	5210., 4617., 2823., 559., 142., 63./
418
419	DATA inb(38)/0/
420	DATA inb(39)/0/
421	DATA inb(40)/0/
422
423	! Total run-offs(IV)=40773.6641m3/s
424	! Total run-offs(I+II+III+IV)=368282.75m3/s
425
426	! V ASIA
427	! ------
428	! 41-Amur (Russia) 52N56 141E10 R2
429	! Old=325 km3/year=10299m3/s; UNESCO(65-84, p451)=8792m3/s; ratio=1.17
430	! --> 10299.332m3/s
431	DATA inb(41)/2/
432	DATA (iirnf(jc,41),jc=1,jpcoef)/ 141, 141, 18*0 /
433	DATA (ijrnf(jc,41),jc=1,jpcoef)/ 381, 382, 18*0 /
434	DATA (zrnfm(jm,41),jm=1,jpmois)/ &
435	2108., 1543., 1252., 4088., 15464., 17336., &
436	16100., 20801., 21548., 15658., 5188., 2506./
437	! 42-Liaohe (China) 40N40 122E09 R5
438	! Old=6 km3/year=190m3/s; not found in UNESCO data base
439	! --> 189.999985m3/s
440	DATA inb(42)/1/
441	DATA (iirnf(jc,42),jc=1,jpcoef)/ 100, 19*0 /
442	DATA (ijrnf(jc,42),jc=1,jpcoef)/ 342, 19*0 /
443	DATA (zrnfm(jm,42),jm=1,jpmois)/12*190./
444	! 43-Daling (China) 40N56 121E43 R5
445	! Old=1 km3/year=32m3/s; not found in UNESCO data base
446	! --> 31.9999962m3/s
447	DATA inb(43)/2/
448	DATA (iirnf(jc,43),jc=1,jpcoef)/ 99, 100, 18*0 /
449	DATA (ijrnf(jc,43),jc=1,jpcoef)/ 342, 342, 18*0 /
450	DATA (zrnfm(jm,43),jm=1,jpmois)/12*32./
451	! 44-Haiho (China) 6N17 1E23
452	! Old=2 km3/year=64m3/s; not found in UNESCO data base
453	! --> 63.9999924m3/s
454	DATA inb(44)/1/
455	DATA (iirnf(jc,44),jc=1,jpcoef)/ 121, 19*0 /
456	DATA (ijrnf(jc,44),jc=1,jpcoef)/ 348, 19*0 /
457	DATA (zrnfm(jm,44),jm=1,jpmois)/12*64./
458	! 45-Yellow/Huangho (China) 37N32 118E19 R2
459	! Old=49 km3/year=1553m3/s; UNESCO(p371)=1210m3/s; ratio=1.28
460	! --> 1552.5m3/s
461	DATA inb(45)/3/
462	DATA (iirnf(jc,45),jc=1,jpcoef)/ 92, 92, 92, 17*0 /
463	DATA (ijrnf(jc,45),jc=1,jpcoef)/ 336, 337, 338, 17*0 /
464	DATA (zrnfm(jm,45),jm=1,jpmois)/ &
465	697., 674., 1282., 1206., 1109., 778., &
466	1964., 3270., 3668., 2133., 978., 871./
467	! 46-Yangtze (China) 31N48 121E10=Changjiang R2
468	! Old=900 km3/year=28520m3/s; UNESCO(p372)=25032m3/s; ratio=1.14
469	! --> 28519.584m3/s
470	DATA inb(46)/2/
471	DATA (iirnf(jc,46),jc=1,jpcoef)/ 100, 100, 18*0 /
472	DATA (ijrnf(jc,46),jc=1,jpcoef)/ 316, 317, 18*0 /
473	DATA (zrnfm(jm,46),jm=1,jpmois)/ &
474	10994., 10548., 13254., 24097., 36972., 47197., &
475	53891., 42070., 37627., 30762., 22046., 12777./
476	! 47-Pearl/Zhujiang (China) 23N36 106E34=Xijiang R2
477	! Old=302 km3/year=9570m3/s; UNESCO(76,82, p373)=6987m3/s; ratio=1.37
478	! --> 9570.75m3/s
479	DATA inb(47)/2/
480	DATA (iirnf(jc,47),jc=1,jpcoef)/ 72, 73, 18*0 /
481	DATA (ijrnf(jc,47),jc=1,jpcoef)/ 294, 294, 18*0 /
482	DATA (zrnfm(jm,47),jm=1,jpmois)/ &
483	2357., 2415., 2634., 6446., 14246., 18395., &
484	19213., 17558., 12312., 7255., 5864., 6154./
485	! 48-Red/Hungho (Vietnam) 20N17 106E34 R5
486	! Old=123 km3/year=3897m3/s; not in UNESCO data base
487	! --> 3897.m3/s
488	DATA inb(48)/3/
489	DATA (iirnf(jc,48),jc=1,jpcoef)/ 68, 68, 68, 17*0 /
490	DATA (ijrnf(jc,48),jc=1,jpcoef)/ 288, 289, 290, 17*0 /
491	DATA (zrnfm(jm,48),jm=1,jpmois)/12*3897./
492	! 49-Mekong (Vietnam) 10N33 105E24 R5
493	! Old=470 km3/year=14893m3/s; not in UNESCO data base
494	! --> 14893.0029m3/s
495	DATA inb(49)/3/
496	DATA (iirnf(jc,49),jc=1,jpcoef)/ 69, 69, 70, 17*0 /
497	DATA (ijrnf(jc,49),jc=1,jpcoef)/ 269, 270, 270, 17*0 /
498	DATA (zrnfm(jm,49),jm=1,jpmois)/12*14893./
499	! 50-Irrawady (Burma) 15N50 95E06 R5
500	! Old=428 km3/year=13563m3/s; not in UNESCO data base
501	! --> 13563.m3/s
502	DATA inb(50)/2/
503	DATA (iirnf(jc,50),jc=1,jpcoef)/ 44, 45, 18*0 /
504	DATA (ijrnf(jc,50),jc=1,jpcoef)/ 283, 282, 18*0 /
505	DATA (zrnfm(jm,50),jm=1,jpmois)/12*13563./
506	! 51-Ganges+Brahmaputra (Beng.) 22N00 91E00 R1
507	! Old=971 km3/year=30769m3/s; UNESCO(69-70+73-75, p367)=31760m3/s
508	! --> 32147.498m3/s
509	DATA inb(51)/4/
510	DATA (iirnf(jc,51),jc=1,jpcoef)/ 36, 37, 38, 39, 16*0 /
511	DATA (ijrnf(jc,51),jc=1,jpcoef)/ 295, 295, 295, 295, 16*0 /
512	DATA (zrnfm(jm,51),jm=1,jpmois)/ &
513	6623., 6315., 6432., 9410., 17263., 38302., &
514	64688., 80338., 84802., 43387., 17888., 10322./
515	! 52-Mehandi (India) R5
516	! Old=67 km3/year=2123m3/s; not in UNESCO data base
517	! --> 0m3/s
518	DATA inb(52)/0/
519	DATA (iirnf(jc,52),jc=1,jpcoef)/ 20*0 /
520	DATA (ijrnf(jc,52),jc=1,jpcoef)/ 20*0 /
521	DATA (zrnfm(jm,52),jm=1,jpmois)/12*2123./
522	! 53-Damodar (India) R2
523	! Old=10 km3/year=320m3/s; UNESCO(p386)=173m3/s; ratio=1.85
524	! --> 432.916656m3/s
525	DATA inb(53)/1/
526	DATA (iirnf(jc,53),jc=1,jpcoef)/ 30, 19*0 /
527	DATA (ijrnf(jc,53),jc=1,jpcoef)/ 294, 19*0 /
528	DATA (zrnfm(jm,53),jm=1,jpmois)/ &
529	51., 37., 42., 49., 85., 296., &
530	896., 1390., 1591., 542., 172., 44./
531	! 54-Godavari (India) 17N00 81E45 R2
532	! Old=84 km3/year=2662m3/s; UNESCO(p379)=1916m3/s; ratio=1.39
533	! --> 3670.5m3/s
534	DATA inb(54)/1/
535	DATA (iirnf(jc,54),jc=1,jpcoef)/ 19, 19*0 /
536	DATA (ijrnf(jc,54),jc=1,jpcoef)/ 283, 19*0 /
537	DATA (zrnfm(jm,54),jm=1,jpmois)/ &
538	988., 737., 280., 219., 196., 1691., &
539	8063., 14571., 11428., 3953., 1221., 699./
540	! 55-Indus (Pakistan) 24N20 67E47 R2
541	! Old=238 km3/year=7542m3/s; UNESCO (76-79, p428)=2396m3/s; ratio=3.15
542	! --> 7562.m3/s
543	DATA inb(55)/4/
544	DATA (iirnf(jc,55),jc=1,jpcoef)/ 711, 711, 712, 713, 16*0 /
545	DATA (ijrnf(jc,55),jc=1,jpcoef)/ 297, 298, 297, 297, 16*0 /
546	DATA (zrnfm(jm,55),jm=1,jpmois)/ &
547	988., 737., 1904., 1968., 3625., 6143., &
548	15969., 36656., 17173., 3215., 1251., 1115./
549	! 56-Tigris and Euphrates (Iraq) 31N00 47E25 R1
550	! Old=46 km3/year=1458m3/s; UNESCO(76-79, p428)=2396m3/s
551	! --> 2248.8335m3/s
552	DATA inb(56)/3/
553	DATA (iirnf(jc,56),jc=1,jpcoef)/ 673, 673, 674, 17*0 /
554	DATA (ijrnf(jc,56),jc=1,jpcoef)/ 312, 313, 313, 17*0 /
555	DATA (zrnfm(jm,56),jm=1,jpmois)/ &
556	1872., 2127., 2962., 4944., 5036., 3078., &
557	1362., 900., 786., 993., 1184., 1742./
558
559	DATA inb(57)/0/
560	DATA inb(58)/0/
561	DATA inb(59)/0/
562	DATA inb(60)/0/
563
564	! Total run-offs (V)=128642.922m3/s
565	! Total run-offs (I+II+III+IV+V)=496925.688m3/s
566
567	! VI AFRICA
568	! ----------
569	! 61-Nile (Egypt) 30N10 31E06 R1
570	! Old=30 km3/year=951m3/s; UNESCO(73-84)=1251m3/s
571	! --> 1251.33337m3/s
572	DATA inb(61)/3/
573	DATA (iirnf(jc,61),jc=1,jpcoef)/ 636, 636, 637, 17*0 /
574	DATA (ijrnf(jc,61),jc=1,jpcoef)/ 317, 318, 318, 17*0 /
575	DATA (zrnfm(jm,61),jm=1,jpmois)/ &
576	1239., 1035., 1126., 1110., 1170., 1542., &
577	1742., 1559., 1191., 1103., 1075., 1124./
578	! 62-Niger (Nigeria) 5N33 6E33 R1
579	! Old=192 km3/year=6084m3/s; HLA=5545m3/s;
580	! Data from HLA: 4.5N - 6 E 1950/87
581	! --> 5545.08301m3/s
582	DATA inb(62)/3/
583	DATA (iirnf(jc,62),jc=1,jpcoef)/ 591, 592, 593, 17*0 /
584	DATA (ijrnf(jc,62),jc=1,jpcoef)/ 258, 258, 258, 17*0 /
585	DATA (zrnfm(jm,62),jm=1,jpmois)/ &
586	2029., 1804., 1573., 1418., 1494., 2561., &
587	5272., 9629., 14951., 16227., 6842., 2741./
588	! 63-Zaire/Congo (Congo) 6S04 12E24 R1
589	! Old=1250 km3/year=39610m3/s; UNESCO(65-83, p149)=41941m3/s; HLA
590	! =39720m3/s
591	! Data from HLA: 6S - 12 E 1902/96
592	! --> 39719.5m3/s
593	DATA inb(63)/4/
594	DATA (iirnf(jc,63),jc=1,jpcoef)/ 599, 599, 600, 600, 16*0 /
595	DATA (ijrnf(jc,63),jc=1,jpcoef)/ 237, 238, 236, 237, 16*0 /
596	DATA (zrnfm(jm,63),jm=1,jpmois)/ &
597	47200., 37692., 34374., 36603., 37862., 35588., &
598	30966., 30774., 35981., 42825., 51455., 55314./
599	! 64-Orange (Sth Africa) 28S41 16E28 R5
600	! Old=11 km3/year=349m3/s
601	! --> 349.000031m3/s
602	DATA inb(64)/2/
603	DATA (iirnf(jc,64),jc=1,jpcoef)/ 609, 609, 18*0 /
604	DATA (ijrnf(jc,64),jc=1,jpcoef)/ 188, 189, 18*0 /
605	DATA (zrnfm(jm,64),jm=1,jpmois)/12*349./
606	! 65-Zambesi (Mozambique) 18S55 36E04 R5
607	! Old=223 km3/year=7066m3/s
608	! --> 7066.00049m3/s
609	DATA inb(65)/3/
610	DATA (iirnf(jc,65),jc=1,jpcoef)/ 646, 646, 646, 17*0 /
611	DATA (ijrnf(jc,65),jc=1,jpcoef)/ 207, 208, 209, 17*0 /
612	DATA (zrnfm(jm,65),jm=1,jpmois)/12*7066./
613	! 66-Limpopo (mozambique) 25S15 33E30 R5
614	! Old=5 km3/year=158m3/s
615	! --> 158.m3/s
616	DATA inb(66)/2/
617	DATA (iirnf(jc,66),jc=1,jpcoef)/ 642, 642, 18*0 /
618	DATA (ijrnf(jc,66),jc=1,jpcoef)/ 196, 197, 18*0 /
619	DATA (zrnfm(jm,66),jm=1,jpmois)/12*158./
620	! 67-Rufiji (tanzania) 8S00 39E20 R5
621	! Old=9 km3/year=285m3/s
622	! --> 285.m3/s
623	DATA inb(67)/1/
624	DATA (iirnf(jc,67),jc=1,jpcoef)/ 655, 19*0 /
625	DATA (ijrnf(jc,67),jc=1,jpcoef)/ 235, 19*0 /
626	DATA (zrnfm(jm,67),jm=1,jpmois)/12*285./
627	! Other rivers from the Gulf of Guinea
628	! 68-Kouilou (Congo) 4.5S-11.5E (UNESCO=p51) R1
629	! Data from HLA: 4S - 11 E 1953/86 = 919m3/s
630	! --> 924.25m3/s
631	DATA inb(68)/1/
632	DATA (iirnf(jc,68),jc=1,jpcoef)/ 599, 19*0 /
633	DATA (ijrnf(jc,68),jc=1,jpcoef)/ 241, 19*0 /
634	DATA (zrnfm(jm,68),jm=1,jpmois)/ &
635	1115., 1166., 1285., 1462., 1454., 725., &
636	480., 378., 327., 400., 1018., 1281./
637	! 69-Nyanga (Gabon) 3S-10E (UNESCO=p66) R1
638	! Data from HLA: 2.8N - 10 E 1952/82 = 264m3/s
639	! --> 264.166687m3/s
640	DATA inb(69)/1/
641	DATA (iirnf(jc,69),jc=1,jpcoef)/ 595, 19*0 /
642	DATA (ijrnf(jc,69),jc=1,jpcoef)/ 244, 19*0 /
643	DATA (zrnfm(jm,69),jm=1,jpmois)/ &
644	126., 99., 143., 253., 316., 300., &
645	156., 93., 231., 557., 592., 304./
646	! 70-Ogoue (Gabon) 1S-9E (UNESCO, p69) R1
647	! Data from HLA: .75S - 9 E 1930/90 = 4512m3/s
648	! --> 4511.83301m3/s
649	DATA inb(70)/2/
650	DATA (iirnf(jc,70),jc=1,jpcoef)/ 593, 593, 18*0 /
651	DATA (ijrnf(jc,70),jc=1,jpcoef)/ 247, 248, 18*0 /
652	DATA (zrnfm(jm,70),jm=1,jpmois)/ &
653	4514., 3988., 4622., 5403., 5790., 4145., &
654	2616., 1961., 2119., 4304., 7870., 6810./
655	! 71-Sanaga (Cameroun) 3.5N-9.5E (UNESCO, p31) R1
656	! Data from HLA: 3.9N - 9.6E 1944/80 = 1983m3/s
657	! --> 1982.58337m3/s
658	DATA inb(71)/2/
659	DATA (iirnf(jc,71),jc=1,jpcoef)/ 595, 595, 18*0 /
660	DATA (ijrnf(jc,71),jc=1,jpcoef)/ 255, 256, 18*0 /
661	DATA (zrnfm(jm,71),jm=1,jpmois)/ &
662	813., 578., 517., 633., 909., 1278., &
663	1928., 2653., 4361., 5470., 3307., 1344./
664	! 72-Nyong (Cameroun) 3.1N-9.5E (UNESCO, p36) R1
665	! Data from HLA: 3.5N - 9.8E 1951/84 = 432m3/s
666	! --> 431.166656m3/s
667	DATA inb(72)/1/
668	DATA (iirnf(jc,72),jc=1,jpcoef)/ 594, 19*0 /
669	DATA (ijrnf(jc,72),jc=1,jpcoef)/ 257, 19*0 /
670	DATA (zrnfm(jm,72),jm=1,jpmois)/ &
671	232., 128., 150., 266., 402., 459., &
672	353., 306., 604., 930., 878., 466./
673	! 73-Ntem (Cameroun) 2.5N-9.5E (UNESCO, p36) R1
674	! Data from HLA: 3N - 9.8E 1951/87 = 330m3/s
675	! --> 329.75m3/s
676	DATA inb(73)/1/
677	DATA (iirnf(jc,73),jc=1,jpcoef)/ 594, 19*0 /
678	DATA (ijrnf(jc,73),jc=1,jpcoef)/ 254, 19*0 /
679	DATA (zrnfm(jm,73),jm=1,jpmois)/ &
680	452., 455., 492., 466., 482., 251., &
681	151., 108., 87., 133., 395., 485./
682	! 74-Wouri (Cameroun) 4N-9.5E (UNESCO, p34) R1
683	! Data from HLA: 4N - 9.5E 1951/84 = 307m3/s
684	! --> 306.583374m3/s
685	DATA inb(74)/1/
686	DATA (iirnf(jc,74),jc=1,jpcoef)/ 594, 19*0 /
687	DATA (ijrnf(jc,74),jc=1,jpcoef)/ 258, 19*0 /
688	DATA (zrnfm(jm,74),jm=1,jpmois)/ &
689	88., 63., 68., 95., 139., 222., &
690	395., 633., 825., 675., 328., 148./
691	! 75-Oueme (Benin) 6.5N-2.5E (UNESCO, p27) R1
692	! Data from HLA: 6.2N - 2.5E 1951/84 =113m3/s
693	! --> 112.666664m3/s
694	DATA inb(75)/1/
695	DATA (iirnf(jc,75),jc=1,jpcoef)/ 583, 19*0 /
696	DATA (ijrnf(jc,75),jc=1,jpcoef)/ 262, 19*0 /
697	DATA (zrnfm(jm,75),jm=1,jpmois)/ &
698	0., 0., 0., 0., 1., 18., &
699	96., 324., 531., 319., 58., 5./
700	! 76-Mono(Tepetou,Benin/Togo) 6.25N-1.8E (U, p27) R1
701	! Data from HLA: 6.2N - 1 E 1951/85 = 96m3/s
702	! --> 96.4999924m3/s
703	DATA inb(76)/2/
704	DATA (iirnf(jc,76),jc=1,jpcoef)/ 578, 579, 18*0 /
705	DATA (ijrnf(jc,76),jc=1,jpcoef)/ 262, 262, 18*0 /
706	DATA (zrnfm(jm,76),jm=1,jpmois)/ &
707	2., 1., 1., 4., 8., 44., &
708	168., 274., 386., 215., 47., 8./
709	! 77-Comoe (Ivory Coast) 5N-4W (UNESCO, p56) R1
710	! Data from HLA: 5.1N - 4 W 1955/86 = 194m3/s
711	! --> 194.25m3/s
712	DATA inb(77)/1/
713	DATA (iirnf(jc,77),jc=1,jpcoef)/ 569, 19*0 /
714	DATA (ijrnf(jc,77),jc=1,jpcoef)/ 260, 19*0 /
715	DATA (zrnfm(jm,77),jm=1,jpmois)/ &
716	14., 7., 9., 17., 29., 90., &
717	145., 349., 740., 688., 198., 45./
718	! 78-Sassandra (Ivory Coast) 5N-6W (UNESCO, p58) R1
719	! Data from HLA: 5N - 6 W 1953/86 = 449m3/s
720	! --> 449.333344m3/s
721	DATA inb(78)/1/
722	DATA (iirnf(jc,78),jc=1,jpcoef)/ 564, 19*0 /
723	DATA (ijrnf(jc,78),jc=1,jpcoef)/ 260, 19*0 /
724	DATA (zrnfm(jm,78),jm=1,jpmois)/ &
725	144., 116., 119., 143., 156., 334., &
726	419., 692., 1277., 1190., 553., 249./
727
728	DATA inb(79)/0/
729	DATA inb(80)/0/
730	DATA inb(82)/0/
731	DATA inb(83)/0/
732	DATA inb(84)/0/
733	DATA inb(85)/0/
734	DATA inb(86)/0/
735	DATA inb(87)/0/
736	DATA inb(88)/0/
737	DATA inb(89)/0/
738	DATA inb(90)/0/
739
740	! Total run-offs (VI)=63977.m3/s
741	! Total run-offs (I+II+III+IV+V+VI)=560902.688m3/s
742
743	! VII OCEANIA
744	! ------------
745	! 91-Murray (Austrlia) 35S34 138E54 R5
746	! Old=22 km3/year=697m3/s
747	! --> 696.999939m3/s
748	DATA inb(91)/3/
749	DATA (iirnf(jc,91),jc=1,jpcoef)/ 129, 130, 130, 17*0 /
750	DATA (ijrnf(jc,91),jc=1,jpcoef)/ 177, 176, 177, 17*0 /
751	DATA (zrnfm(jm,91),jm=1,jpmois)/12*697./
752	! 92-Haast (N. Zeland) 43S50 169E02 R5
753	! Old=6 km3/year=190m3/s
754	! --> 189.999985m3/s
755	DATA inb(92)/1/
756	DATA (iirnf(jc,92),jc=1,jpcoef)/ 194, 19*0 /
757	DATA (ijrnf(jc,92),jc=1,jpcoef)/ 153, 19*0 /
758	DATA (zrnfm(jm,92),jm=1,jpmois)/12*190./
759	! 93-Fly (N. Guinea) 8S30 143E05 R5
760	! Old=77 km3/year=2440m3/s
761	! --> 2440.m3/s
762	DATA inb(93)/1/
763	DATA (iirnf(jc,93),jc=1,jpcoef)/ 143, 19*0 /
764	DATA (ijrnf(jc,93),jc=1,jpcoef)/ 233, 19*0 /
765	DATA (zrnfm(jm,93),jm=1,jpmois)/12*2440./
766	! 94-Purari (N. Guinea) 7S25 145E05 R4
767	! Old=77 km3/year=2440m3/s; UNESCO(77+83,p595)=2727m3/s
768	! --> 2727.33325m3/s
769	DATA inb(94)/1/
770	DATA (iirnf(jc,94),jc=1,jpcoef)/ 146, 19*0 /
771	DATA (ijrnf(jc,94),jc=1,jpcoef)/ 234, 19*0 /
772	DATA (zrnfm(jm,94),jm=1,jpmois)/ &
773	1972., 3067., 2332., 2981., 2693., 2876., &
774	2867., 3477., 2195., 2967., 2674., 2627./
775	! 95-Choshui ch''i (taiwan) 24N03 120E23 R2
776	! Old=6 km3/year=190m3/s; UNESCO(65-68, p374)=120m3/s; ratio=1.58
777	! --> 0.m3/s
778	DATA inb(95)/0/
779	DATA (iirnf(jc,95),jc=1,jpcoef)/ 20*0 /
780	DATA (ijrnf(jc,95),jc=1,jpcoef)/ 20*0 /
781	DATA (zrnfm(jm,95),jm=1,jpmois)/ &
782	65., 63., 83., 100., 177., 535., &
783	332., 313., 236., 193., 101., 84./
784	! 96-Kaoping (Taiwan) R5
785	! Old=9 km3/year=285m3/s
786	! --> 0.m3/s
787	DATA inb(96)/0/
788	DATA (iirnf(jc,96),jc=1,jpcoef)/ 20*0 /
789	DATA (ijrnf(jc,96),jc=1,jpcoef)/ 20*0 /
790	DATA (zrnfm(jm,96),jm=1,jpmois)/12*285./
791	! 97-Tsengwen (Taiwan) R5
792	! Old=2 km3/year=63m3/s
793	! --> 0.m3/s
794	DATA inb(97)/0/
795	DATA (iirnf(jc,97),jc=1,jpcoef)/ 20*0 /
796	DATA (ijrnf(jc,97),jc=1,jpcoef)/ 20*0 /
797	DATA (zrnfm(jm,97),jm=1,jpmois)/12*63./
798	! 98-Hualien (Taiwan) R5
799	! Old=4 km3/year=127m3/s
800	! --> 0.m3/s
801	DATA inb(98)/0/
802	DATA (iirnf(jc,98),jc=1,jpcoef)/ 20*0 /
803	DATA (ijrnf(jc,98),jc=1,jpcoef)/ 20*0 /
804	DATA (zrnfm(jm,98),jm=1,jpmois)/12*127./
805	! 99-Peinan (Taiwan) 22N46 121E10 R5
806	! Old=4 km3/year=127m3/s
807	! --> 127.000008m3/s
808	DATA inb(99)/1/
809	DATA (iirnf(jc,99),jc=1,jpcoef)/ 98, 19*0 /
810	DATA (ijrnf(jc,99),jc=1,jpcoef)/ 287, 19*0 /
811	DATA (zrnfm(jm,99),jm=1,jpmois)/12*127./
812	! 100-Hsiukuluan (Taiwan) R5
813	! Old=4 km3/year=127m3/s
814	! --> 0.m3/s
815	DATA inb(100)/0/
816	DATA (iirnf(jc,100),jc=1,jpcoef)/ 20*0 /
817	DATA (ijrnf(jc,100),jc=1,jpcoef)/ 20*0 /
818	DATA (zrnfm(jm,100),jm=1,jpmois)/12*127./
819
820	DATA inb(101)/0/
821	DATA inb(102)/0/
822
823	! Total run-offs(VII)=6181.33301m3/s
824	! Total run-offs(I+II+III+IV+V+VI+VII)= 567084. m3/s
825	! = 1.588668056E-6 kg/m2/s
826	! = 17883.5586 km3/Year
827	! = 0.567083955 Sverdrup
828
829	DATA (inb(jr),jr=103,jpriv)/18*0/
830
831	IF( kt == nit000 ) THEN
832	IF(lwp) WRITE(numout,*)
833	IF(lwp) WRITE(numout,*) 'flxrnf : runoff + orca05'
834	IF(lwp) WRITE(numout,*) '~~~~~~'
835	IF(lwp) WRITE(numout,*) ' nrunoff = ', nrunoff
836	IF(lwp) WRITE(numout,*)
837	ENDIF
838
839	! 0. initialization and indexes modification for zoom version
840	! --------------------------------------------------------------
841
842
843	! conversion factor m3/s --> kg/m2/s e1te2t
844
845	zconv = rauw
846
847	IF( kt == nit000 ) THEN
848	! Set runoffs and upstream coeff to zero
849	runoff (:,:) = 0.e0
850	upsrnfh(:,:) = 0.e0
851	upsrnfz(:) = 0.e0
852	upsadv (:,:) = 0.e0
853	zcoefr(:,:,:) = 0.e0
854
855	IF( nrunoff == 0 ) THEN
856	IF(lwp) WRITE(numout,*)
857	IF(lwp) WRITE(numout,*) ' NO RUNOFF in this simulation '
858	IF(lwp) WRITE(numout,*)
859	ENDIF
860	ENDIF
861
862	! 1. initialization of the runoff array
863	! -------------------------------------
864
865	IF( nrunoff == 1 .OR. nrunoff == 2) THEN
866
867	iman = jpmois
868
869	i15 = nday / 16
870
871	imois = nmonth + i15 - 1
872	IF( imois == 0) imois = iman
873	IF( nleapy == 1 .AND. MOD( nyear, 4 ) == 0 ) THEN
874	! Number of Day Between Data
875	idbd = nbiss(imois)
876	ELSEIF( nleapy > 1 ) THEN
877	idbd = nleapy
878	ELSE
879	idbd = nobis(imois)
880	END IF
881	! Number of days between imois, 15 and the end of month
882	idmeom = idbd - 15
883
884	! 1.1 Calendar computation
885
886	! nrnf1 number of the first array record used in the simulation
887	! nrnf2 number of the last array record
888
889	nrnf1 = imois
890	nrnf2 = nrnf1 + 1
891	nrnf1 = MOD( nrnf1, iman )
892	IF( nrnf1 == 0 ) nrnf1 = iman
893	nrnf2 = MOD( nrnf2, iman )
894	IF( nrnf2 == 0 ) nrnf2 = iman
895
896	IF( kt == nit000 ) THEN
897	IF(lwp) WRITE(numout,*)
898	IF(lwp) WRITE(numout,*) 'flxrnf routine'
899	IF(lwp) WRITE(numout,*) 'first array record used nrnf1 ',nrnf1
900	IF(lwp) WRITE(numout,*) 'last array record used nrnf2 ',nrnf2
901	ENDIF
902
903	zxy = FLOAT( nday + idmeom - idbd * i15 ) / idbd
904
905	DO jr = 1, jpriv-1
906	inbp = inb(jr)
907	IF( inbp /= 0 ) THEN
908	DO jl = 1, inbp
909	DO jj = mj0(ijrnf(jl,jr)), mj1(ijrnf(jl,jr))
910	DO ji = mi0(iirnf(jl,jr)), mi1(iirnf(jl,jr))
911	runoff(ji,jj) = runoff(ji,jj) &
912	& + ( (1.-zxy) * zrnfm(nrnf1,jr) &
913	& + zxy * zrnfm(nrnf2,jr) ) / FLOAT(inbp)
914	END DO
915	END DO
916	END DO
917	ENDIF
918	END DO
919
920
921	! 2. conversion in mm/day
922	! -----------------------
923	! C a u t i o n : upward water flux, runoff is negative
924
925	runoff(:,:) = -zconv * runoff(:,:) / ( e1t(:,:) * e2t(:,:) )
926
927
928	! 3. advectve coefficient
929	! -----------------------
930
931	! Creates the array coef that contains the coefficient to affect to
932	! the upstream scheme. advection scheme will be:
933	! coefr * upstream + (1- coefr) centered
934	! coefr must be between 0 and 1.
935	! 3 values are used: maximum = zrup1, between zrup2, small zrup3.
936	!
937	IF( nrunoff == 2 .AND. kt == nit000 ) THEN
938
939	zrup1 = 0.5
940	zrup2 = 0.25
941	zrup3 = 0.125
942	DO jr = 1, jpriv-1
943	inbp = inb(jr)
944	IF( inbp /= 0) THEN
945	DO jl = 1, inbp
946	! ji,jj
947	DO jj = mj0(ijrnf(jl,jr)), mj1(ijrnf(jl,jr))
948	DO ji = mi0(iirnf(jl,jr)), mi1(iirnf(jl,jr))
949	DO jn = 1, 3
950	zcoefr(ji,jj,jn) = zrup1
951	END DO
952	zcoefr(ji,jj,4) = zrup2
953	zcoefr(ji,jj,5) = zrup3
954	END DO
955	END DO
956	! --> zrup2 (originally = 0.5)
957	! ji,jj+1
958	DO jj = mj0(ijrnf(jl,jr) + 1), mj1(ijrnf(jl,jr) + 1)
959	DO ji = mi0(iirnf(jl,jr)), mi1(iirnf(jl,jr))
960	DO jn = 1, 3
961	zcoefr(ji,jj,jn) = MAX( zrup2, zcoefr(ji,jj,jn) )
962	END DO
963	zcoefr(ji,jj,4) = MAX( zrup3, zcoefr(ji,jj,4) )
964	END DO
965	END DO
966	! ji,jj-1
967	DO jj = mj0(ijrnf(jl,jr) - 1), mj1(ijrnf(jl,jr) - 1)
968	DO ji = mi0(iirnf(jl,jr)), mi1(iirnf(jl,jr))
969	DO jn = 1, 3
970	zcoefr(ji,jj,jn) = MAX( zrup2, zcoefr(ji,jj,jn) )
971	END DO
972	zcoefr(ji,jj,4) = MAX( zrup3, zcoefr(ji,jj,4) )
973	END DO
974	END DO
975	! ji+1,jj-1
976	DO jj = mj0(ijrnf(jl,jr) - 1), mj1(ijrnf(jl,jr) - 1)
977	DO ji = mi0(iirnf(jl,jr) + 1), mi1(iirnf(jl,jr) + 1)
978	DO jn = 1, 3
979	zcoefr(ji,jj,jn) = MAX( zrup2, zcoefr(ji,jj,jn) )
980	END DO
981	zcoefr(ji,jj,4) = MAX( zrup3, zcoefr(ji,jj,4) )
982	END DO
983	END DO
984	! ji+1,jj
985	DO jj = mj0(ijrnf(jl,jr)), mj1(ijrnf(jl,jr))
986	DO ji = mi0(iirnf(jl,jr) + 1), mi1(iirnf(jl,jr) + 1)
987	DO jn = 1, 3
988	zcoefr(ji,jj,jn) = MAX( zrup2, zcoefr(ji,jj,jn) )
989	END DO
990	zcoefr(ji,jj,4) = MAX( zrup3, zcoefr(ji,jj,4) )
991	END DO
992	END DO
993	! ji+1,jj+1
994	DO jj = mj0(ijrnf(jl,jr) + 1), mj1(ijrnf(jl,jr) + 1)
995	DO ji = mi0(iirnf(jl,jr) + 1), mi1(iirnf(jl,jr) + 1)
996	DO jn = 1, 3
997	zcoefr(ji,jj,jn) = MAX( zrup2, zcoefr(ji,jj,jn) )
998	END DO
999	zcoefr(ji,jj,4) = MAX( zrup3, zcoefr(ji,jj,4) )
1000	END DO
1001	END DO
1002	! ji-1,jj+1
1003	DO jj = mj0(ijrnf(jl,jr) + 1), mj1(ijrnf(jl,jr) + 1)
1004	DO ji = mi0(iirnf(jl,jr) - 1), mi1(iirnf(jl,jr) - 1)
1005	DO jn = 1, 3
1006	zcoefr(ji,jj,jn) = MAX( zrup2, zcoefr(ji,jj,jn) )
1007	END DO
1008	zcoefr(ji,jj,4) = MAX( zrup3, zcoefr(ji,jj,4) )
1009	END DO
1010	END DO
1011	! ji-1,jj
1012	DO jj = mj0(ijrnf(jl,jr)), mj1(ijrnf(jl,jr))
1013	DO ji = mi0(iirnf(jl,jr) - 1), mi1(iirnf(jl,jr) - 1)
1014	DO jn = 1, 3
1015	zcoefr(ji,jj,jn) = MAX( zrup2, zcoefr(ji,jj,jn) )
1016	END DO
1017	zcoefr(ji,jj,4) = MAX( zrup3, zcoefr(ji,jj,4) )
1018	END DO
1019	END DO
1020	! ji-1,jj-1
1021	DO jj = mj0(ijrnf(jl,jr) - 1), mj1(ijrnf(jl,jr) - 1)
1022	DO ji = mi0(iirnf(jl,jr) - 1), mi1(iirnf(jl,jr) - 1)
1023	DO jn = 1, 3
1024	zcoefr(ji,jj,jn) = MAX( zrup2, zcoefr(ji,jj,jn) )
1025	END DO
1026	zcoefr(ji,jj,4) = MAX( zrup3, zcoefr(ji,jj,4) )
1027	END DO
1028	END DO
1029	! --> zrup3 (originally = 0.25)
1030	! ji-1,jj+2
1031	DO jj = mj0(ijrnf(jl,jr) + 2), mj1(ijrnf(jl,jr) + 2)
1032	DO ji = mi0(iirnf(jl,jr) - 1), mi1(iirnf(jl,jr) - 1)
1033	DO jn = 1, 3
1034	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1035	END DO
1036	END DO
1037	END DO
1038	! ji-1,jj-2
1039	DO jj = mj0(ijrnf(jl,jr) - 2), mj1(ijrnf(jl,jr) - 2)
1040	DO ji = mi0(iirnf(jl,jr) - 1), mi1(iirnf(jl,jr) - 1)
1041	DO jn = 1, 3
1042	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1043	END DO
1044	END DO
1045	END DO
1046	! ji,jj-2
1047	DO jj = mj0(ijrnf(jl,jr) - 2), mj1(ijrnf(jl,jr) - 2)
1048	DO ji = mi0(iirnf(jl,jr) ), mi1(iirnf(jl,jr) )
1049	DO jn = 1, 3
1050	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1051	END DO
1052	END DO
1053	END DO
1054	! ji,jj+2
1055	DO jj = mj0(ijrnf(jl,jr) + 2), mj1(ijrnf(jl,jr) + 2)
1056	DO ji = mi0(iirnf(jl,jr) ), mi1(iirnf(jl,jr) )
1057	DO jn = 1, 3
1058	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1059	END DO
1060	END DO
1061	END DO
1062	! ji+1,jj-2
1063	DO jj = mj0(ijrnf(jl,jr) - 2), mj1(ijrnf(jl,jr) - 2)
1064	DO ji = mi0(iirnf(jl,jr) + 1), mi1(iirnf(jl,jr) + 1)
1065	DO jn = 1, 3
1066	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1067	END DO
1068	END DO
1069	END DO
1070	! ji+1,jj+2
1071	DO jj = mj0(ijrnf(jl,jr) + 2), mj1(ijrnf(jl,jr) + 2)
1072	DO ji = mi0(iirnf(jl,jr) + 1), mi1(iirnf(jl,jr) + 1)
1073	DO jn = 1, 3
1074	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1075	END DO
1076	END DO
1077	END DO
1078	! ji+2,jj-2
1079	DO jj = mj0(ijrnf(jl,jr) - 2), mj1(ijrnf(jl,jr) - 2)
1080	DO ji = mi0(iirnf(jl,jr) + 2), mi1(iirnf(jl,jr) + 2)
1081	DO jn = 1, 3
1082	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1083	END DO
1084	END DO
1085	END DO
1086	! ji+2,jj+2
1087	DO jj = mj0(ijrnf(jl,jr) + 2), mj1(ijrnf(jl,jr) + 2)
1088	DO ji = mi0(iirnf(jl,jr) + 1), mi1(iirnf(jl,jr) + 1)
1089	DO jn = 1, 3
1090	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1091	END DO
1092	END DO
1093	END DO
1094	! ji+2,jj-1
1095	DO jj = mj0(ijrnf(jl,jr) - 1), mj1(ijrnf(jl,jr) - 1)
1096	DO ji = mi0(iirnf(jl,jr) + 2), mi1(iirnf(jl,jr) + 2)
1097	DO jn = 1, 3
1098	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1099	END DO
1100	END DO
1101	END DO
1102	! ji+2,jj+1
1103	DO jj = mj0(ijrnf(jl,jr) + 1), mj1(ijrnf(jl,jr) + 1)
1104	DO ji = mi0(iirnf(jl,jr) + 2), mi1(iirnf(jl,jr) + 2)
1105	DO jn = 1, 3
1106	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1107	END DO
1108	END DO
1109	END DO
1110	! ji+2,jj
1111	DO jj = mj0(ijrnf(jl,jr) ), mj1(ijrnf(jl,jr) )
1112	DO ji = mi0(iirnf(jl,jr) + 2), mi1(iirnf(jl,jr) + 2)
1113	DO jn = 1, 3
1114	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1115	END DO
1116	END DO
1117	END DO
1118	! ji-2,jj
1119	DO jj = mj0(ijrnf(jl,jr) ), mj1(ijrnf(jl,jr) )
1120	DO ji = mi0(iirnf(jl,jr) - 2), mi1(iirnf(jl,jr) - 2)
1121	DO jn = 1, 3
1122	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1123	END DO
1124	END DO
1125	END DO
1126	! ji-2,jj-2
1127	DO jj = mj0(ijrnf(jl,jr) - 2), mj1(ijrnf(jl,jr) - 2)
1128	DO ji = mi0(iirnf(jl,jr) - 2), mi1(iirnf(jl,jr) - 2)
1129	DO jn = 1, 3
1130	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1131	END DO
1132	END DO
1133	END DO
1134	! ji-2,jj+2
1135	DO jj = mj0(ijrnf(jl,jr) + 2), mj1(ijrnf(jl,jr) + 2)
1136	DO ji = mi0(iirnf(jl,jr) - 2), mi1(iirnf(jl,jr) - 2)
1137	DO jn = 1, 3
1138	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1139	END DO
1140	END DO
1141	END DO
1142	! ji-2,jj-1
1143	DO jj = mj0(ijrnf(jl,jr) - 1), mj1(ijrnf(jl,jr) - 1)
1144	DO ji = mi0(iirnf(jl,jr) - 2), mi1(iirnf(jl,jr) - 2)
1145	DO jn = 1, 3
1146	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1147	END DO
1148	END DO
1149	END DO
1150	! ji-2,jj+1
1151	DO jj = mj0(ijrnf(jl,jr) + 1), mj1(ijrnf(jl,jr) + 1)
1152	DO ji = mi0(iirnf(jl,jr) - 2), mi1(iirnf(jl,jr) - 2)
1153	DO jn = 1, 3
1154	zcoefr(ji,jj,jn) = MAX( zrup3, zcoefr(ji,jj,jn) )
1155	END DO
1156	END DO
1157	END DO
1158	END DO
1159	ENDIF
1160	END DO
1161	upsrnfh(:,:) = zcoefr(:,:,1)
1162	upsrnfz(:) = 0.e0
1163	upsrnfz(1) = zrup1
1164	upsrnfz(2) = zrup1
1165	upsrnfz(3) = zrup1
1166	upsrnfz(4) = zrup2
1167	upsrnfz(5) = zrup3
1168	ENDIF
1169	ENDIF
1170
1171	#endif
1172
1173	END SUBROUTINE flx_rnf

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