trc_oce.F90 18 KB

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  1. MODULE trc_oce
  2. !!======================================================================
  3. !! *** MODULE trc_oce ***
  4. !! Ocean passive tracer : share SMS/Ocean variables
  5. !!======================================================================
  6. !! History : 1.0 ! 2004-03 (C. Ethe) Original code
  7. !!----------------------------------------------------------------------
  8. !!----------------------------------------------------------------------
  9. !! trc_oce_rgb : tabulated attenuation coefficients for RGB light penetration
  10. !!----------------------------------------------------------------------
  11. USE par_oce
  12. USE in_out_manager ! I/O manager
  13. USE dom_oce ! ocean space and time domain
  14. USE lib_mpp ! MPP library
  15. IMPLICIT NONE
  16. PRIVATE
  17. PUBLIC trc_oce_rgb ! routine called by traqsr.F90
  18. PUBLIC trc_oce_rgb_read ! routine called by traqsr.F90
  19. PUBLIC trc_oce_ext_lev ! function called by traqsr.F90 at least
  20. PUBLIC trc_oce_alloc ! function called by nemogcm.F90
  21. INTEGER , PUBLIC :: nn_dttrc = 1 !: frequency of step on passive tracers
  22. REAL(wp), PUBLIC :: r_si2 !: largest depth of extinction (blue & 0.01 mg.m-3) (RGB)
  23. REAL(wp), PUBLIC, SAVE, ALLOCATABLE, DIMENSION(:,:,:) :: etot3 !: light absortion coefficient
  24. REAL(wp), PUBLIC, SAVE, ALLOCATABLE, DIMENSION(:,:,:) :: facvol !: volume for degraded regions
  25. #if defined key_top
  26. !!----------------------------------------------------------------------
  27. !! 'key_top' bio-model
  28. !!----------------------------------------------------------------------
  29. LOGICAL, PUBLIC, PARAMETER :: lk_top = .TRUE. !: TOP model
  30. LOGICAL, PUBLIC, PARAMETER :: lk_qsr_bio = .TRUE. !: bio-model light absorption flag
  31. #else
  32. !!----------------------------------------------------------------------
  33. !! Default option No bio-model light absorption
  34. !!----------------------------------------------------------------------
  35. LOGICAL, PUBLIC, PARAMETER :: lk_top = .FALSE. !: TOP model
  36. LOGICAL, PUBLIC, PARAMETER :: lk_qsr_bio = .FALSE. !: bio-model light absorption flag
  37. #endif
  38. #if defined key_offline
  39. !!----------------------------------------------------------------------
  40. !! 'key_offline' OFFLINE mode
  41. !!----------------------------------------------------------------------
  42. LOGICAL, PUBLIC, PARAMETER :: lk_offline = .TRUE. !: offline flag
  43. #else
  44. !!----------------------------------------------------------------------
  45. !! Default option NO OFFLINE mode
  46. !!----------------------------------------------------------------------
  47. LOGICAL, PUBLIC, PARAMETER :: lk_offline = .FALSE. !: offline flag
  48. #endif
  49. #if defined key_degrad
  50. !!----------------------------------------------------------------------
  51. !! 'key_degrad' Degradation mode
  52. !!----------------------------------------------------------------------
  53. LOGICAL, PUBLIC, PARAMETER :: lk_degrad = .TRUE. !: degradation flag
  54. #else
  55. !!----------------------------------------------------------------------
  56. !! Default option NO Degradation mode
  57. !!----------------------------------------------------------------------
  58. LOGICAL, PUBLIC, PARAMETER :: lk_degrad = .FALSE. !: degradation flag
  59. #endif
  60. !! * Substitutions
  61. # include "domzgr_substitute.h90"
  62. !!----------------------------------------------------------------------
  63. !! NEMO/OPA 3.3 , NEMO Consortium (2010)
  64. !! $Id: trc_oce.F90 4623 2014-04-22 15:21:41Z acc $
  65. !! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt)
  66. !!----------------------------------------------------------------------
  67. CONTAINS
  68. INTEGER FUNCTION trc_oce_alloc()
  69. !!----------------------------------------------------------------------
  70. !! *** trc_oce_alloc ***
  71. !!----------------------------------------------------------------------
  72. INTEGER :: ierr(2) ! Local variables
  73. !!----------------------------------------------------------------------
  74. ierr(:) = 0
  75. ALLOCATE( etot3 (jpi,jpj,jpk), STAT=ierr(1) )
  76. IF( lk_degrad) ALLOCATE( facvol(jpi,jpj,jpk), STAT=ierr(2) )
  77. trc_oce_alloc = MAXVAL( ierr )
  78. !
  79. IF( trc_oce_alloc /= 0 ) CALL ctl_warn('trc_oce_alloc: failed to allocate etot3 array')
  80. END FUNCTION trc_oce_alloc
  81. SUBROUTINE trc_oce_rgb( prgb )
  82. !!---------------------------------------------------------------------
  83. !! *** ROUTINE p4z_opt_init ***
  84. !!
  85. !! ** Purpose : Initialization of of the optical scheme
  86. !!
  87. !! ** Method : Set a look up table for the optical coefficients
  88. !! i.e. the attenuation coefficient for R-G-B light
  89. !! tabulated in Chlorophyll class (from JM Andre)
  90. !!
  91. !! ** Action : prgb(3,61) tabulated R-G-B attenuation coef.
  92. !!
  93. !! Reference : Lengaigne et al. 2007, Clim. Dyn., V28, 5, 503-516.
  94. !!----------------------------------------------------------------------
  95. REAL(wp), DIMENSION(3,61), INTENT(out) :: prgb ! tabulated attenuation coefficient
  96. !!
  97. INTEGER :: jc ! dummy loop indice
  98. INTEGER :: irgb ! temporary integer
  99. REAL(wp) :: zchl ! temporary scalar
  100. REAL(wp), DIMENSION(4,61) :: zrgb ! tabulated attenuation coefficient (formerly read in 'kRGB61.txt')
  101. !!----------------------------------------------------------------------
  102. !
  103. IF(lwp) THEN
  104. WRITE(numout,*)
  105. WRITE(numout,*) 'trc_oce_rgb : Initialisation of the optical look-up table'
  106. WRITE(numout,*) '~~~~~~~~~~~ '
  107. ENDIF
  108. !
  109. ! Chlorophyll ! Blue attenuation ! Green attenuation ! Red attenuation !
  110. zrgb(1, 1) = 0.010 ; zrgb(2, 1) = 0.01618 ; zrgb(3, 1) = 0.07464 ; zrgb(4, 1) = 0.37807
  111. zrgb(1, 2) = 0.011 ; zrgb(2, 2) = 0.01654 ; zrgb(3, 2) = 0.07480 ; zrgb(4, 2) = 0.37823
  112. zrgb(1, 3) = 0.013 ; zrgb(2, 3) = 0.01693 ; zrgb(3, 3) = 0.07499 ; zrgb(4, 3) = 0.37840
  113. zrgb(1, 4) = 0.014 ; zrgb(2, 4) = 0.01736 ; zrgb(3, 4) = 0.07518 ; zrgb(4, 4) = 0.37859
  114. zrgb(1, 5) = 0.016 ; zrgb(2, 5) = 0.01782 ; zrgb(3, 5) = 0.07539 ; zrgb(4, 5) = 0.37879
  115. zrgb(1, 6) = 0.018 ; zrgb(2, 6) = 0.01831 ; zrgb(3, 6) = 0.07562 ; zrgb(4, 6) = 0.37900
  116. zrgb(1, 7) = 0.020 ; zrgb(2, 7) = 0.01885 ; zrgb(3, 7) = 0.07586 ; zrgb(4, 7) = 0.37923
  117. zrgb(1, 8) = 0.022 ; zrgb(2, 8) = 0.01943 ; zrgb(3, 8) = 0.07613 ; zrgb(4, 8) = 0.37948
  118. zrgb(1, 9) = 0.025 ; zrgb(2, 9) = 0.02005 ; zrgb(3, 9) = 0.07641 ; zrgb(4, 9) = 0.37976
  119. zrgb(1,10) = 0.028 ; zrgb(2,10) = 0.02073 ; zrgb(3,10) = 0.07672 ; zrgb(4,10) = 0.38005
  120. zrgb(1,11) = 0.032 ; zrgb(2,11) = 0.02146 ; zrgb(3,11) = 0.07705 ; zrgb(4,11) = 0.38036
  121. zrgb(1,12) = 0.035 ; zrgb(2,12) = 0.02224 ; zrgb(3,12) = 0.07741 ; zrgb(4,12) = 0.38070
  122. zrgb(1,13) = 0.040 ; zrgb(2,13) = 0.02310 ; zrgb(3,13) = 0.07780 ; zrgb(4,13) = 0.38107
  123. zrgb(1,14) = 0.045 ; zrgb(2,14) = 0.02402 ; zrgb(3,14) = 0.07821 ; zrgb(4,14) = 0.38146
  124. zrgb(1,15) = 0.050 ; zrgb(2,15) = 0.02501 ; zrgb(3,15) = 0.07866 ; zrgb(4,15) = 0.38189
  125. zrgb(1,16) = 0.056 ; zrgb(2,16) = 0.02608 ; zrgb(3,16) = 0.07914 ; zrgb(4,16) = 0.38235
  126. zrgb(1,17) = 0.063 ; zrgb(2,17) = 0.02724 ; zrgb(3,17) = 0.07967 ; zrgb(4,17) = 0.38285
  127. zrgb(1,18) = 0.071 ; zrgb(2,18) = 0.02849 ; zrgb(3,18) = 0.08023 ; zrgb(4,18) = 0.38338
  128. zrgb(1,19) = 0.079 ; zrgb(2,19) = 0.02984 ; zrgb(3,19) = 0.08083 ; zrgb(4,19) = 0.38396
  129. zrgb(1,20) = 0.089 ; zrgb(2,20) = 0.03131 ; zrgb(3,20) = 0.08149 ; zrgb(4,20) = 0.38458
  130. zrgb(1,21) = 0.100 ; zrgb(2,21) = 0.03288 ; zrgb(3,21) = 0.08219 ; zrgb(4,21) = 0.38526
  131. zrgb(1,22) = 0.112 ; zrgb(2,22) = 0.03459 ; zrgb(3,22) = 0.08295 ; zrgb(4,22) = 0.38598
  132. zrgb(1,23) = 0.126 ; zrgb(2,23) = 0.03643 ; zrgb(3,23) = 0.08377 ; zrgb(4,23) = 0.38676
  133. zrgb(1,24) = 0.141 ; zrgb(2,24) = 0.03842 ; zrgb(3,24) = 0.08466 ; zrgb(4,24) = 0.38761
  134. zrgb(1,25) = 0.158 ; zrgb(2,25) = 0.04057 ; zrgb(3,25) = 0.08561 ; zrgb(4,25) = 0.38852
  135. zrgb(1,26) = 0.178 ; zrgb(2,26) = 0.04289 ; zrgb(3,26) = 0.08664 ; zrgb(4,26) = 0.38950
  136. zrgb(1,27) = 0.200 ; zrgb(2,27) = 0.04540 ; zrgb(3,27) = 0.08775 ; zrgb(4,27) = 0.39056
  137. zrgb(1,28) = 0.224 ; zrgb(2,28) = 0.04811 ; zrgb(3,28) = 0.08894 ; zrgb(4,28) = 0.39171
  138. zrgb(1,29) = 0.251 ; zrgb(2,29) = 0.05103 ; zrgb(3,29) = 0.09023 ; zrgb(4,29) = 0.39294
  139. zrgb(1,30) = 0.282 ; zrgb(2,30) = 0.05420 ; zrgb(3,30) = 0.09162 ; zrgb(4,30) = 0.39428
  140. zrgb(1,31) = 0.316 ; zrgb(2,31) = 0.05761 ; zrgb(3,31) = 0.09312 ; zrgb(4,31) = 0.39572
  141. zrgb(1,32) = 0.355 ; zrgb(2,32) = 0.06130 ; zrgb(3,32) = 0.09474 ; zrgb(4,32) = 0.39727
  142. zrgb(1,33) = 0.398 ; zrgb(2,33) = 0.06529 ; zrgb(3,33) = 0.09649 ; zrgb(4,33) = 0.39894
  143. zrgb(1,34) = 0.447 ; zrgb(2,34) = 0.06959 ; zrgb(3,34) = 0.09837 ; zrgb(4,34) = 0.40075
  144. zrgb(1,35) = 0.501 ; zrgb(2,35) = 0.07424 ; zrgb(3,35) = 0.10040 ; zrgb(4,35) = 0.40270
  145. zrgb(1,36) = 0.562 ; zrgb(2,36) = 0.07927 ; zrgb(3,36) = 0.10259 ; zrgb(4,36) = 0.40480
  146. zrgb(1,37) = 0.631 ; zrgb(2,37) = 0.08470 ; zrgb(3,37) = 0.10495 ; zrgb(4,37) = 0.40707
  147. zrgb(1,38) = 0.708 ; zrgb(2,38) = 0.09056 ; zrgb(3,38) = 0.10749 ; zrgb(4,38) = 0.40952
  148. zrgb(1,39) = 0.794 ; zrgb(2,39) = 0.09690 ; zrgb(3,39) = 0.11024 ; zrgb(4,39) = 0.41216
  149. zrgb(1,40) = 0.891 ; zrgb(2,40) = 0.10374 ; zrgb(3,40) = 0.11320 ; zrgb(4,40) = 0.41502
  150. zrgb(1,41) = 1.000 ; zrgb(2,41) = 0.11114 ; zrgb(3,41) = 0.11639 ; zrgb(4,41) = 0.41809
  151. zrgb(1,42) = 1.122 ; zrgb(2,42) = 0.11912 ; zrgb(3,42) = 0.11984 ; zrgb(4,42) = 0.42142
  152. zrgb(1,43) = 1.259 ; zrgb(2,43) = 0.12775 ; zrgb(3,43) = 0.12356 ; zrgb(4,43) = 0.42500
  153. zrgb(1,44) = 1.413 ; zrgb(2,44) = 0.13707 ; zrgb(3,44) = 0.12757 ; zrgb(4,44) = 0.42887
  154. zrgb(1,45) = 1.585 ; zrgb(2,45) = 0.14715 ; zrgb(3,45) = 0.13189 ; zrgb(4,45) = 0.43304
  155. zrgb(1,46) = 1.778 ; zrgb(2,46) = 0.15803 ; zrgb(3,46) = 0.13655 ; zrgb(4,46) = 0.43754
  156. zrgb(1,47) = 1.995 ; zrgb(2,47) = 0.16978 ; zrgb(3,47) = 0.14158 ; zrgb(4,47) = 0.44240
  157. zrgb(1,48) = 2.239 ; zrgb(2,48) = 0.18248 ; zrgb(3,48) = 0.14701 ; zrgb(4,48) = 0.44765
  158. zrgb(1,49) = 2.512 ; zrgb(2,49) = 0.19620 ; zrgb(3,49) = 0.15286 ; zrgb(4,49) = 0.45331
  159. zrgb(1,50) = 2.818 ; zrgb(2,50) = 0.21102 ; zrgb(3,50) = 0.15918 ; zrgb(4,50) = 0.45942
  160. zrgb(1,51) = 3.162 ; zrgb(2,51) = 0.22703 ; zrgb(3,51) = 0.16599 ; zrgb(4,51) = 0.46601
  161. zrgb(1,52) = 3.548 ; zrgb(2,52) = 0.24433 ; zrgb(3,52) = 0.17334 ; zrgb(4,52) = 0.47313
  162. zrgb(1,53) = 3.981 ; zrgb(2,53) = 0.26301 ; zrgb(3,53) = 0.18126 ; zrgb(4,53) = 0.48080
  163. zrgb(1,54) = 4.467 ; zrgb(2,54) = 0.28320 ; zrgb(3,54) = 0.18981 ; zrgb(4,54) = 0.48909
  164. zrgb(1,55) = 5.012 ; zrgb(2,55) = 0.30502 ; zrgb(3,55) = 0.19903 ; zrgb(4,55) = 0.49803
  165. zrgb(1,56) = 5.623 ; zrgb(2,56) = 0.32858 ; zrgb(3,56) = 0.20898 ; zrgb(4,56) = 0.50768
  166. zrgb(1,57) = 6.310 ; zrgb(2,57) = 0.35404 ; zrgb(3,57) = 0.21971 ; zrgb(4,57) = 0.51810
  167. zrgb(1,58) = 7.079 ; zrgb(2,58) = 0.38154 ; zrgb(3,58) = 0.23129 ; zrgb(4,58) = 0.52934
  168. zrgb(1,59) = 7.943 ; zrgb(2,59) = 0.41125 ; zrgb(3,59) = 0.24378 ; zrgb(4,59) = 0.54147
  169. zrgb(1,60) = 8.912 ; zrgb(2,60) = 0.44336 ; zrgb(3,60) = 0.25725 ; zrgb(4,60) = 0.55457
  170. zrgb(1,61) = 10.000 ; zrgb(2,61) = 0.47804 ; zrgb(3,61) = 0.27178 ; zrgb(4,61) = 0.56870
  171. !
  172. prgb(:,:) = zrgb(2:4,:)
  173. !
  174. r_si2 = 1.e0 / zrgb(2, 1) ! blue with the smallest chlorophyll concentration)
  175. IF(lwp) WRITE(numout,*) ' RGB longest depth of extinction r_si2 = ', r_si2
  176. !
  177. DO jc = 1, 61 ! check
  178. zchl = zrgb(1,jc)
  179. irgb = NINT( 41 + 20.* LOG10( zchl ) + 1.e-15 )
  180. IF(lwp) WRITE(numout,*) ' jc =', jc, ' Chl = ', zchl, ' irgb = ', irgb
  181. IF( irgb /= jc ) THEN
  182. IF(lwp) WRITE(numout,*) ' jc =', jc, ' Chl = ', zchl, ' Chl class = ', irgb
  183. CALL ctl_stop( 'trc_oce_rgb : inconsistency in Chl tabulated attenuation coeff.' )
  184. ENDIF
  185. END DO
  186. !
  187. END SUBROUTINE trc_oce_rgb
  188. SUBROUTINE trc_oce_rgb_read( prgb )
  189. !!----------------------------------------------------------------------
  190. !! *** ROUTINE p4z_opt_init ***
  191. !!
  192. !! ** Purpose : Initialization of of the optical scheme
  193. !!
  194. !! ** Method : read the look up table for the optical coefficients
  195. !!
  196. !! ** input : xkrgb(61) precomputed array corresponding to the
  197. !! attenuation coefficient (from JM Andre)
  198. !!----------------------------------------------------------------------
  199. REAL(wp), DIMENSION(3,61), INTENT(out) :: prgb ! tabulated attenuation coefficient
  200. !!
  201. INTEGER :: jc, jb ! dummy loop indice
  202. INTEGER :: irgb ! temporary integer
  203. REAL(wp) :: zchl ! temporary scalar
  204. INTEGER :: numlight
  205. !!----------------------------------------------------------------------
  206. !
  207. IF(lwp) THEN ! control print
  208. WRITE(numout,*)
  209. WRITE(numout,*) ' trc_oce_rgb_read : optical look-up table read in kRGB61.txt file'
  210. WRITE(numout,*) ' ~~~~~~~~~~~~~~~~'
  211. WRITE(numout,*)
  212. ENDIF
  213. !
  214. CALL ctl_opn( numlight, 'kRGB61.txt', 'OLD', 'FORMATTED', 'SEQUENTIAL', -1, numout, lwp )
  215. DO jc = 1, 61
  216. READ(numlight,*) zchl, ( prgb(jb,jc), jb = 1, 3 )
  217. irgb = NINT( 41 + 20.* LOG10( zchl ) + 1.e-15 )
  218. IF(lwp) WRITE(numout,*) ' jc =', jc, ' Chl = ', zchl, ' irgb = ', irgb
  219. IF( irgb /= jc ) THEN
  220. IF(lwp) WRITE(numout,*) ' jc =', jc, ' Chl = ', zchl, ' Chl class = ', irgb
  221. CALL ctl_stop( 'trc_oce_rgb_read : inconsistency in Chl tabulated attenuation coeff.' )
  222. ENDIF
  223. END DO
  224. CLOSE( numlight )
  225. !
  226. r_si2 = 1.e0 / prgb(1, 1) ! blue with the smallest chlorophyll concentration)
  227. IF(lwp) WRITE(numout,*) ' RGB longest depth of extinction r_si2 = ', r_si2
  228. !
  229. END SUBROUTINE trc_oce_rgb_read
  230. FUNCTION trc_oce_ext_lev( prldex, pqsr_frc ) RESULT( pjl )
  231. !!----------------------------------------------------------------------
  232. !! *** ROUTINE trc_oce_ext_lev ***
  233. !!
  234. !! ** Purpose : compute max. level for light penetration
  235. !!
  236. !! ** Method : the function provides the level at which irradiance
  237. !! becomes negligible (i.e. = 1.e-15 W/m2) for 3 or 2 bands light
  238. !! penetration: I(z) = pqsr_frc * EXP(hext/prldex) = 1.e-15 W/m2
  239. !! # prldex is the longest depth of extinction:
  240. !! - prldex = 23 m (2 bands case)
  241. !! - prldex = 62 m (3 bands case: blue waveband & 0.01 mg/m2 for the chlorophyll)
  242. !! # pqsr_frc is the fraction of solar radiation which penetrates,
  243. !! considering Qsr=240 W/m2 and rn_abs = 0.58:
  244. !! - pqsr_frc = Qsr * (1-rn_abs) = 1.00e2 W/m2 (2 bands case)
  245. !! - pqsr_frc = Qsr * (1-rn_abs)/3 = 0.33e2 W/m2 (3 bands case & equi-partition)
  246. !!
  247. !!----------------------------------------------------------------------
  248. REAL(wp), INTENT(in) :: prldex ! longest depth of extinction
  249. REAL(wp), INTENT(in) :: pqsr_frc ! frac. solar radiation which penetrates
  250. !!
  251. INTEGER :: jk, pjl ! levels
  252. REAL(wp) :: zhext ! deepest level till which light penetrates
  253. REAL(wp) :: zprec = 15._wp ! precision to reach -LOG10(1.e-15)
  254. REAL(wp) :: zem ! temporary scalar
  255. !!----------------------------------------------------------------------
  256. !
  257. ! It is not necessary to compute anything below the following depth
  258. zhext = prldex * ( LOG(10._wp) * zprec + LOG(pqsr_frc) )
  259. !
  260. ! Level of light extinction
  261. pjl = jpkm1
  262. DO jk = jpkm1, 1, -1
  263. IF(SUM(tmask(:,:,jk)) > 0 ) THEN
  264. zem = MAXVAL( fsdepw(:,:,jk+1) * tmask(:,:,jk) )
  265. IF( zem >= zhext ) pjl = jk ! last T-level reached by Qsr
  266. ELSE
  267. pjl = jk ! or regional sea-bed depth
  268. ENDIF
  269. END DO
  270. !
  271. END FUNCTION trc_oce_ext_lev
  272. !!======================================================================
  273. END MODULE trc_oce