- Timestamp:
- 2016-04-07T16:32:24+02:00 (8 years ago)
- Location:
- branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC
- Files:
-
- 32 edited
Legend:
- Unmodified
- Added
- Removed
-
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P2Z/p2zbio.F90
r6439 r6440 599 599 600 600 !!====================================================================== 601 END MODULE 601 END MODULE p2zbio -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P2Z/p2zsms.F90
r6439 r6440 84 84 85 85 !!====================================================================== 86 END MODULE 86 END MODULE p2zsms -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zbio.F90
r6439 r6440 109 109 110 110 !!====================================================================== 111 END MODULE p4zbio 112 111 END MODULE p4zbio -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zche.F90
r6439 r6440 31 31 REAL(wp), PUBLIC, ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: sio3eq ! chemistry of Si 32 32 REAL(wp), PUBLIC, ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: fekeq ! chemistry of Fe 33 REAL(wp), PUBLIC, ALLOCATABLE, SAVE, DIMENSION(:,: ,:):: chemc ! Solubilities of O2 and CO234 REAL(wp), PUBLIC, ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: chemo2 33 REAL(wp), PUBLIC, ALLOCATABLE, SAVE, DIMENSION(:,:) :: chemc ! Solubilities of O2 and CO2 34 REAL(wp), PUBLIC, ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: chemo2 ! Solubilities of O2 and CO2 35 35 36 36 REAL(wp), PUBLIC :: atcox = 0.20946 ! units atm … … 76 76 REAL(wp) :: st1 = 0.14 ! constants for calculate concentrations for sulfate 77 77 REAL(wp) :: st2 = 1./96.062 ! (Morris & Riley 1966) 78 REAL(wp) :: ks0 = 141.32879 REAL(wp) :: ks1 = -4276.180 REAL(wp) :: ks2 = -23.09381 REAL(wp) :: ks3 = -13856.82 REAL(wp) :: ks4 = 324.5783 REAL(wp) :: ks5 = -47.98684 REAL(wp) :: ks6 = 35474.85 REAL(wp) :: ks7 = -771.5486 REAL(wp) :: ks8 = 114.72387 REAL(wp) :: ks9 = -2698.88 REAL(wp) :: ks10 = 1776.89 REAL(wp) :: ks11 = 1.90 REAL(wp) :: ks12 = -0.00100591 78 92 79 REAL(wp) :: ft1 = 0.000067 ! constants for calculate concentrations for fluorides 93 80 REAL(wp) :: ft2 = 1./18.9984 ! (Dickson & Riley 1979 ) 94 REAL(wp) :: kf0 = -12.64195 REAL(wp) :: kf1 = 1590.296 REAL(wp) :: kf2 = 1.52597 REAL(wp) :: kf3 = 1.098 REAL(wp) :: kf4 = -0.00100599 100 REAL(wp) :: cb0 = -8966.90 ! Coeff. for 1. dissoc. of boric acid101 REAL(wp) :: cb1 = -2890.53 ! (Dickson and Goyet, 1994)102 REAL(wp) :: cb2 = -77.942103 REAL(wp) :: cb3 = 1.728104 REAL(wp) :: cb4 = -0.0996105 REAL(wp) :: cb5 = 148.0248106 REAL(wp) :: cb6 = 137.1942107 REAL(wp) :: cb7 = 1.62142108 REAL(wp) :: cb8 = -24.4344109 REAL(wp) :: cb9 = -25.085110 REAL(wp) :: cb10 = -0.2474111 REAL(wp) :: cb11 = 0.053105112 113 REAL(wp) :: cw0 = -13847.26 ! Coeff. for dissoc. of water (Dickson and Riley, 1979 )114 REAL(wp) :: cw1 = 148.9652115 REAL(wp) :: cw2 = -23.6521116 REAL(wp) :: cw3 = 118.67117 REAL(wp) :: cw4 = -5.977118 REAL(wp) :: cw5 = 1.0495119 REAL(wp) :: cw6 = -0.01615120 81 121 82 ! ! volumetric solubility constants for o2 in ml/L … … 200 161 DO ji = 1, jpi 201 162 ! ! SET ABSOLUTE TEMPERATURE 202 ztkel = tsn(ji,jj,1,jp_tem) + 273.1 6163 ztkel = tsn(ji,jj,1,jp_tem) + 273.15 203 164 zt = ztkel * 0.01 204 165 zt2 = zt * zt … … 209 170 ! ! AND FOR THE ATMOSPHERE FOR NON IDEAL GAS 210 171 zcek1 = ca0 + ca1 / zt + ca2 * zlogt + ca3 * zt2 + zsal * ( ca4 + ca5 * zt + ca6 * zt2 ) 211 ! ! LN(K0) OF SOLUBILITY OF O2 and N2 in ml/L (EQ. 8, GARCIA AND GORDON, 1992)212 ztgg = LOG( ( 298.15 - tsn(ji,jj,1,jp_tem) ) / ztkel ) ! Set the GORDON & GARCIA scaled temperature213 ztgg2 = ztgg * ztgg214 ztgg3 = ztgg2 * ztgg215 ztgg4 = ztgg3 * ztgg216 ztgg5 = ztgg4 * ztgg217 zoxy = ox0 + ox1 * ztgg + ox2 * ztgg2 + ox3 * ztgg3 + ox4 * ztgg4 + ox5 * ztgg5 &218 + zsal * ( ox6 + ox7 * ztgg + ox8 * ztgg2 + ox9 * ztgg3 ) + ox10 * zsal2219 220 172 ! ! SET SOLUBILITIES OF O2 AND CO2 221 chemc(ji,jj,1) = EXP( zcek1 ) * 1.e-6 * rhop(ji,jj,1) / 1000. ! mol/(L uatm) 222 chemc(ji,jj,2) = ( EXP( zoxy ) * o2atm ) * oxyco ! mol/(L atm) 173 chemc(ji,jj) = EXP( zcek1 ) * 1.e-6 * rhop(ji,jj,1) / 1000. ! mol/(L uatm) 223 174 ! 224 175 END DO … … 233 184 !CDIR NOVERRCHK 234 185 DO ji = 1, jpi 235 ztkel = tsn(ji,jj,jk,jp_tem) + 273.1 6186 ztkel = tsn(ji,jj,jk,jp_tem) + 273.15 236 187 zsal = tsn(ji,jj,jk,jp_sal) + ( 1.- tmask(ji,jj,jk) ) * 35. 237 188 zsal2 = zsal * zsal … … 263 214 264 215 ! SET ABSOLUTE TEMPERATURE 265 ztkel = tsn(ji,jj,jk,jp_tem) + 273.1 6216 ztkel = tsn(ji,jj,jk,jp_tem) + 273.15 266 217 zsal = tsn(ji,jj,jk,jp_sal) + ( 1.-tmask(ji,jj,jk) ) * 35. 267 218 zsqrt = SQRT( zsal ) … … 284 235 285 236 ! DISSOCIATION CONSTANT FOR SULFATES on free H scale (Dickson 1990) 286 zcks = EXP( ks1 * ztr + ks0 + ks2 * zlogt & 287 & + ( ks3 * ztr + ks4 + ks5 * zlogt ) * zisqrt & 288 & + ( ks6 * ztr + ks7 + ks8 * zlogt ) * zis & 289 & + ks9 * ztr * zis * zisqrt + ks10 * ztr *zis2 + LOG( ks11 + ks12 *zsal ) ) 237 zcks = EXP(-4276.1 * ztr + 141.328 - 23.093 * zlogt & 238 & + (-13856. * ztr + 324.57 - 47.986 * zlogt) * zisqrt & 239 & + (35474. * ztr - 771.54 + 114.723 * zlogt) * zis & 240 & - 2698. * ztr * zis**1.5 + 1776.* ztr * zis2 & 241 & + LOG(1.0 - 0.001005 * zsal)) 242 ! 243 aphscale(ji,jj,jk) = ( 1. + zst / zcks ) 290 244 291 245 ! DISSOCIATION CONSTANT FOR FLUORIDES on free H scale (Dickson and Riley 79) 292 zckf = EXP( kf1 * ztr + kf0 + kf2 * zisqrt + LOG( kf3 + kf4 * zsal ) ) 246 zckf = EXP( 1590.2*ztr - 12.641 + 1.525*zisqrt & 247 & + LOG(1.0d0 - 0.001005d0*zsal) & 248 & + LOG(1.0d0 + zst/zcks)) 293 249 294 250 ! DISSOCIATION CONSTANT FOR CARBONATE AND BORATE 295 zckb = ( cb0 + cb1 * zsqrt + cb2 * zsal + cb3 * zsal15 + cb4 * zsal * zsal ) * ztr & 296 & + ( cb5 + cb6 * zsqrt + cb7 * zsal ) & 297 & + ( cb8 + cb9 * zsqrt + cb10 * zsal ) * zlogt + cb11 * zsqrt * ztkel & 298 & + LOG( ( 1.+ zst / zcks + zft / zckf ) / ( 1.+ zst / zcks ) ) 251 zckb= (-8966.90 - 2890.53*zsqrt - 77.942*zsal & 252 & + 1.728*zsal15 - 0.0996*zsal*zsal)*ztr & 253 & + (148.0248 + 137.1942*zsqrt + 1.62142*zsal) & 254 & + (-24.4344 - 25.085*zsqrt - 0.2474*zsal) & 255 & * zlogt + 0.053105*zsqrt*ztkel 256 299 257 300 258 zck1 = c10 * ztr + c11 + c12 * zlogt + c13 * zsal + c14 * zsal * zsal … … 302 260 303 261 ! PKW (H2O) (DICKSON AND RILEY, 1979) 304 zckw = cw0 * ztr + cw1 + cw2 * zlogt + ( cw3 * ztr + cw4 + cw5 * zlogt ) * zsqrt + cw6 * zsal 305 262 zckw = -13847.26*ztr + 148.9652 - 23.6521 * zlogt & 263 & + (118.67*ztr - 5.977 + 1.0495 * zlogt) & 264 & * zsqrt - 0.01615 * zsal 306 265 307 266 ! APPARENT SOLUBILITY PRODUCT K'SP OF CALCITE IN SEAWATER … … 378 337 !! *** ROUTINE p4z_che_alloc *** 379 338 !!---------------------------------------------------------------------- 380 ALLOCATE( sio3eq(jpi,jpj,jpk), fekeq(jpi,jpj,jpk), chemc(jpi,jpj,2), chemo2(jpi,jpj,jpk), STAT=p4z_che_alloc ) 339 ALLOCATE( sio3eq(jpi,jpj,jpk), fekeq(jpi,jpj,jpk), chemc(jpi,jpj), chemo2(jpi,jpj,jpk), & 340 & STAT=p4z_che_alloc ) 381 341 ! 382 342 IF( p4z_che_alloc /= 0 ) CALL ctl_warn('p4z_che_alloc : failed to allocate arrays.') … … 396 356 397 357 !!====================================================================== 398 END MODULE 358 END MODULE p4zche -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zflx.F90
r6439 r6440 84 84 ! 85 85 INTEGER :: ji, jj, jm, iind, iindm1 86 REAL(wp) :: ztc, ztc2, ztc3, z ws, zkgwan86 REAL(wp) :: ztc, ztc2, ztc3, ztc4, zws, zkgwan 87 87 REAL(wp) :: zfld, zflu, zfld16, zflu16, zfact 88 88 REAL(wp) :: zph, zah2, zbot, zdic, zalk, zsch_o2, zalka, zsch_co2 … … 135 135 136 136 ! CALCULATE [ALK]([CO3--], [HCO3-]) 137 zalk = zalka - ( akw3(ji,jj,1) / zph - zph + zbot / ( 1.+ zph / akb3(ji,jj,1) ) ) 137 zalk = zalka - ( akw3(ji,jj,1) / zph - zph / aphscale(ji,jj,1) & 138 & + zbot / ( 1.+ zph / akb3(ji,jj,1) ) ) 138 139 139 140 ! CALCULATE [H+] AND [H2CO3] … … 162 163 ztc2 = ztc * ztc 163 164 ztc3 = ztc * ztc2 165 ztc4 = ztc2 * ztc2 164 166 ! Compute the schmidt Number both O2 and CO2 165 zsch_co2 = 2 073.1 - 125.62 * ztc + 3.6276 * ztc2 - 0.043126 * ztc3166 zsch_o2 = 19 53.4 - 128.0 * ztc + 3.9918 * ztc2 - 0.050091 * ztc3167 zsch_co2 = 2116.8 - 136.25 * ztc + 4.7353 * ztc2 - 0.092307 * ztc3 + 0.0007555 * ztc4 168 zsch_o2 = 1920.4 - 135.6 * ztc + 5.2122 * ztc2 - 0.109390 * ztc3 + 0.0009377 * ztc4 167 169 ! wind speed 168 170 zws = wndm(ji,jj) * wndm(ji,jj) 169 171 ! Compute the piston velocity for O2 and CO2 170 zkgwan = 0. 3 * zws + 2.5 * ( 0.5246 + 0.016256 * ztc + 0.00049946 * ztc2 )172 zkgwan = 0.251 * zws 171 173 zkgwan = zkgwan * xconv * ( 1.- fr_i(ji,jj) ) * tmask(ji,jj,1) 172 174 # if defined key_degrad … … 182 184 DO ji = 1, jpi 183 185 ! Compute CO2 flux for the sea and air 184 zfld = satmco2(ji,jj) * patm(ji,jj) * tmask(ji,jj,1) * chemc(ji,jj ,1) * zkgco2(ji,jj) ! (mol/L) * (m/s)186 zfld = satmco2(ji,jj) * patm(ji,jj) * tmask(ji,jj,1) * chemc(ji,jj) * zkgco2(ji,jj) ! (mol/L) * (m/s) 185 187 zflu = zh2co3(ji,jj) * tmask(ji,jj,1) * zkgco2(ji,jj) ! (mol/L) (m/s) ? 186 188 oce_co2(ji,jj) = ( zfld - zflu ) * rfact2 * e1e2t(ji,jj) * tmask(ji,jj,1) * 1000. … … 189 191 190 192 ! Compute O2 flux 191 zfld16 = atcox * patm(ji,jj) * chemc(ji,jj,2) * tmask(ji,jj,1) * zkgo2(ji,jj) ! (mol/L) * (m/s)193 zfld16 = patm(ji,jj) * chemo2(ji,jj,1) * tmask(ji,jj,1) * zkgo2(ji,jj) ! (mol/L) * (m/s) 192 194 zflu16 = trb(ji,jj,1,jpoxy) * tmask(ji,jj,1) * zkgo2(ji,jj) 193 195 zoflx(ji,jj) = zfld16 - zflu16 … … 222 224 ENDIF 223 225 IF( iom_use( "Dpco2" ) ) THEN 224 zw2d(:,:) = ( satmco2(:,:) * patm(:,:) - zh2co3(:,:) / ( chemc(:,: ,1) + rtrn ) ) * tmask(:,:,1)226 zw2d(:,:) = ( satmco2(:,:) * patm(:,:) - zh2co3(:,:) / ( chemc(:,:) + rtrn ) ) * tmask(:,:,1) 225 227 CALL iom_put( "Dpco2" , zw2d ) 226 228 ENDIF 227 229 IF( iom_use( "Dpo2" ) ) THEN 228 zw2d(:,:) = ( atcox * patm(:,:) - trb(:,:,1,jpoxy) / ( chemc(:,:,2) + rtrn ) ) * tmask(:,:,1)230 zw2d(:,:) = ( atcox * patm(:,:) - atcox * trn(:,:,1,jpoxy) / ( chemo2(:,:,1) + rtrn ) ) * tmask(:,:,1) 229 231 CALL iom_put( "Dpo2" , zw2d ) 230 232 ENDIF … … 238 240 trc2d(:,:,jp_pcs0_2d + 1) = zoflx(:,:) * 1000 * tmask(:,:,1) 239 241 trc2d(:,:,jp_pcs0_2d + 2) = zkgco2(:,:) * tmask(:,:,1) 240 trc2d(:,:,jp_pcs0_2d + 3) = ( satmco2(:,:) * patm(:,:) - zh2co3(:,:) / ( chemc(:,: ,1) + rtrn ) ) * tmask(:,:,1)242 trc2d(:,:,jp_pcs0_2d + 3) = ( satmco2(:,:) * patm(:,:) - zh2co3(:,:) / ( chemc(:,:) + rtrn ) ) * tmask(:,:,1) 241 243 ENDIF 242 244 ENDIF … … 400 402 401 403 !!====================================================================== 402 END MODULE 404 END MODULE p4zflx -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zint.F90
r6439 r6440 81 81 82 82 !!====================================================================== 83 END MODULE 83 END MODULE p4zint -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zlim.F90
r6439 r6440 265 265 266 266 !!====================================================================== 267 END MODULE 267 END MODULE p4zlim -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zlys.F90
r6439 r6440 91 91 zalka = trb(ji,jj,jk,jptal) / zfact 92 92 ! CALCULATE [ALK]([CO3--], [HCO3-]) 93 zalk = zalka - ( akw3(ji,jj,jk) / zph - zph + borat(ji,jj,jk) / ( 1. + zph / akb3(ji,jj,jk) ) ) 93 zalk = zalka - ( akw3(ji,jj,jk) / zph - zph / ( aphscale(ji,jj,jk) + rtrn ) & 94 & + borat(ji,jj,jk) / ( 1. + zph / akb3(ji,jj,jk) ) ) 94 95 ! CALCULATE [H+] and [CO3--] 95 96 zaldi = zdic - zalk … … 152 153 IF( iom_use( "DCAL" ) ) CALL iom_put( "DCAL" , zcaldiss(:,:,:) * 1.e+3 * rfact2r * tmask(:,:,:) ) 153 154 ELSE 154 trc3d(:,:,:,jp_pcs0_3d ) = -1. * LOG10( hi(:,:,:) ) * tmask(:,:,:) 155 trc3d(:,:,:,jp_pcs0_3d + 1) = zco3(:,:,:) * tmask(:,:,:) 156 trc3d(:,:,:,jp_pcs0_3d + 2) = aksp(:,:,:) / calcon * tmask(:,:,:) 155 IF( ln_diatrc ) THEN 156 trc3d(:,:,:,jp_pcs0_3d ) = -1. * LOG10( hi(:,:,:) ) * tmask(:,:,:) 157 trc3d(:,:,:,jp_pcs0_3d + 1) = zco3(:,:,:) * tmask(:,:,:) 158 trc3d(:,:,:,jp_pcs0_3d + 2) = aksp(:,:,:) / calcon * tmask(:,:,:) 159 ENDIF 157 160 ENDIF 158 161 ! … … 223 226 #endif 224 227 !!====================================================================== 225 END MODULE 228 END MODULE p4zlys -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zmeso.F90
r6439 r6440 340 340 341 341 !!====================================================================== 342 END MODULE 342 END MODULE p4zmeso -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zmicro.F90
r6439 r6440 273 273 274 274 !!====================================================================== 275 END MODULE 275 END MODULE p4zmicro -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zmort.F90
r6439 r6440 277 277 278 278 !!====================================================================== 279 END MODULE 279 END MODULE p4zmort -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zopt.F90
r6439 r6440 439 439 440 440 !!====================================================================== 441 END MODULE 441 END MODULE p4zopt -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zprod.F90
r6439 r6440 629 629 630 630 !!====================================================================== 631 END MODULE 631 END MODULE p4zprod -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zsbc.F90
r6439 r6440 519 519 520 520 !!====================================================================== 521 END MODULE 521 END MODULE p4zsbc -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zsed.F90
r6439 r6440 72 72 CHARACTER (len=25) :: charout 73 73 REAL(wp), POINTER, DIMENSION(:,: ) :: zpdep, zsidep, zwork1, zwork2, zwork3 74 REAL(wp), POINTER, DIMENSION(:,:) :: zsedcal, zsedsi, zsedc 74 75 REAL(wp), POINTER, DIMENSION(:,: ) :: zdenit2d, zironice, zbureff 75 76 REAL(wp), POINTER, DIMENSION(:,: ) :: zwsbio3, zwsbio4, zwscal … … 83 84 ! Allocate temporary workspace 84 85 CALL wrk_alloc( jpi, jpj, zdenit2d, zwork1, zwork2, zwork3, zbureff ) 86 CALL wrk_alloc( jpi, jpj, zsedcal, zsedsi, zsedc ) 85 87 CALL wrk_alloc( jpi, jpj, zwsbio3, zwsbio4, zwscal ) 86 88 CALL wrk_alloc( jpi, jpj, jpk, zsoufer ) … … 91 93 zwork2 (:,:) = 0.e0 92 94 zwork3 (:,:) = 0.e0 95 zsedsi (:,:) = 0.e0 96 zsedcal (:,:) = 0.e0 97 zsedc (:,:) = 0.e0 93 98 94 99 ! Iron input/uptake due to sea ice : Crude parameterization based on Lancelot et al. … … 298 303 tra(ji,jj,ikt,jptal) = tra(ji,jj,ikt,jptal) + zcaloss * zrivalk * 2.0 299 304 tra(ji,jj,ikt,jpdic) = tra(ji,jj,ikt,jpdic) + zcaloss * zrivalk 305 zsedcal(ji,jj) = (1.0 - zrivalk) * zcaloss / zdep 306 zsedsi (ji,jj) = (1.0 - zrivsil) * zsiloss / zdep 300 307 #endif 301 308 END DO … … 336 343 tra(ji,jj,ikt,jptal) = tra(ji,jj,ikt,jptal) + rno3 * (zolimit + (1.+rdenit) * (zpdenit + zdenitt) ) 337 344 tra(ji,jj,ikt,jpdic) = tra(ji,jj,ikt,jpdic) + zpdenit + zolimit + zdenitt 338 sdenit(ji,jj) = rdenit * zpdenit * fse3t(ji,jj,ikt) 345 sdenit(ji,jj) = rdenit * zpdenit / zdep 346 zsedc(ji,jj) = (1. - zrivno3) * zwstpoc / zdep 339 347 #endif 340 348 END DO … … 392 400 CALL iom_put( "INTNFIX" , zwork1 ) 393 401 ENDIF 402 IF( iom_use("SedCal" ) ) CALL iom_put( "SedCal", zsedcal(:,:) * 1.e+3 ) 403 IF( iom_use("SedSi" ) ) CALL iom_put( "SedSi", zsedsi (:,:) * 1.e+3 ) 404 IF( iom_use("SedC" ) ) CALL iom_put( "SedC", zsedc (:,:) * 1.e+3 ) 405 IF( iom_use("Sdenit" ) ) CALL iom_put( "Sdenit", sdenit (:,:) * 1.e+3 * rno3 ) 394 406 ENDIF 395 407 ELSE … … 405 417 ! 406 418 CALL wrk_dealloc( jpi, jpj, zdenit2d, zwork1, zwork2, zwork3, zbureff ) 419 CALL wrk_dealloc( jpi, jpj, zsedcal , zsedsi, zsedc ) 407 420 CALL wrk_dealloc( jpi, jpj, zwsbio3, zwsbio4, zwscal ) 408 421 CALL wrk_dealloc( jpi, jpj, jpk, zsoufer ) … … 436 449 437 450 !!====================================================================== 438 END MODULE 451 END MODULE p4zsed -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zsink.F90
r6439 r6440 913 913 914 914 !!====================================================================== 915 END MODULE 915 END MODULE p4zsink -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/P4Z/p4zsms.F90
r6439 r6440 38 38 39 39 REAL(wp) :: alkbudget, no3budget, silbudget, ferbudget, po4budget 40 REAL(wp) :: xfact1, xfact2 40 REAL(wp) :: xfact1, xfact2, xfact3 41 41 INTEGER :: numco2, numnut, numnit !: logical unit for co2 budget 42 42 … … 133 133 ! 134 134 CALL p4z_bio( kt, jnt ) ! Biology 135 CALL p4z_sed( kt, jnt ) ! Sedimentation136 135 CALL p4z_lys( kt, jnt ) ! Compute CaCO3 saturation 136 CALL p4z_sed( kt, jnt ) ! Surface and Bottom boundary conditions 137 137 CALL p4z_flx( kt, jnt ) ! Compute surface fluxes 138 138 ! … … 474 474 !!--------------------------------------------------------------------- 475 475 ! 476 INTEGER , INTENT( in ) :: kt ! ocean time-step index 477 REAL(wp) :: zfact 478 REAL(wp) :: zrdenittot, zsdenittot, znitrpottot 476 INTEGER, INTENT( in ) :: kt ! ocean time-step index 477 REAL(wp) :: zrdenittot, zsdenittot, znitrpottot 479 478 CHARACTER(LEN=100) :: cltxt 480 479 REAL(wp), DIMENSION(jpi,jpj,jpk) :: zvol … … 492 491 xfact1 = rfact2r * 12. / 1.e15 * ryyss ! conversion molC/kt --> PgC/yr 493 492 xfact2 = 1.e+3 * rno3 * 14. / 1.e12 * ryyss ! conversion molC/l/s ----> TgN/m3/yr 493 xfact3 = 1.e+3 * rfact2r * rno3 ! conversion molC/l/kt ----> molN/m3/s 494 494 cltxt='time-step Alkalinity Nitrate Phosphorus Silicate Iron' 495 495 IF( lwp ) WRITE(numnut,*) TRIM(cltxt) … … 574 574 IF( iom_use( "Sdenit" ) .OR. ( ln_check_mass .AND. kt == nitend ) ) THEN 575 575 zsdenittot = glob_sum ( sdenit(:,:) * e1e2t(:,:) ) 576 CALL iom_put( "Sdenit", sdenit(:,:) * zfact* tmask(:,:,1) ) ! Nitrate reduction in the sediments576 CALL iom_put( "Sdenit", sdenit(:,:) * xfact3 * tmask(:,:,1) ) ! Nitrate reduction in the sediments 577 577 ENDIF 578 578 -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/sms_pisces.F90
r6439 r6440 101 101 REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: hi !: ??? 102 102 REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: excess !: ??? 103 REAL(wp), ALLOCATABLE, SAVE, DIMENSION(:,:,:) :: aphscale !: 104 103 105 104 106 !!* Temperature dependancy of SMS terms … … 154 156 & ak23(jpi,jpj,jpk) , aksp (jpi,jpj,jpk) , & 155 157 & akw3(jpi,jpj,jpk) , borat (jpi,jpj,jpk) , & 156 & hi (jpi,jpj,jpk) , excess(jpi,jpj,jpk) , STAT=ierr(4) ) 158 & hi (jpi,jpj,jpk) , excess(jpi,jpj,jpk) , & 159 & aphscale(jpi,jpj,jpk), STAT=ierr(4) ) 157 160 ! 158 161 !* Temperature dependancy of SMS terms -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/trcice_pisces.F90
r5385 r6440 29 29 CONTAINS 30 30 31 31 32 SUBROUTINE trc_ice_ini_pisces 32 33 !!---------------------------------------------------------------------- 33 !! *** ROUTINE trc_ice_ini_pisces *** 34 !! *** ROUTINE trc_ini_pisces *** 35 !! 36 !! ** Purpose : Initialisation of the PISCES biochemical model 37 !!---------------------------------------------------------------------- 38 39 IF( lk_p4z ) THEN ; CALL p4z_ice_ini ! PISCES 40 ELSE ; CALL p2z_ice_ini ! LOBSTER 41 ENDIF 42 43 END SUBROUTINE trc_ice_ini_pisces 44 45 46 SUBROUTINE p4z_ice_ini 47 48 #if defined key_pisces 49 !!---------------------------------------------------------------------- 50 !! *** ROUTINE p4z_ice_ini *** 34 51 !! 35 52 !! ** Purpose : PISCES fake sea ice model setting … … 58 75 59 76 !--- Dummy variables 60 REAL(wp), DIMENSION(jptra,2) & 61 :: zratio ! effective ice-ocean tracer cc ratio 77 REAL(wp), DIMENSION(jp_pisces,2) :: zratio ! effective ice-ocean tracer cc ratio 78 REAL(wp), DIMENSION(jp_pisces,4) :: zpisc ! prescribes concentration 79 ! ! 1:global, 2:Arctic, 3:Antarctic, 4:Baltic 80 62 81 REAL(wp), DIMENSION(2) :: zrs ! ice-ocean salinity ratio, 1 - global, 2- Baltic 63 82 REAL(wp) :: zsice_bal ! prescribed ice salinity in the Baltic … … 80 99 ! fluxes 81 100 82 !--- Global case83 IF ( cn_trc_o(jpdic) == 'GL ' ) trc_o(:,:,jpdic) = 1.99e-3_wp84 IF ( cn_trc_o(jpdoc) == 'GL ' ) trc_o(:,:,jpdoc) = 2.04e-5_wp85 IF ( cn_trc_o(jptal) == 'GL ' ) trc_o(:,:,jptal) = 2.31e-3_wp86 IF ( cn_trc_o(jpoxy) == 'GL ' ) trc_o(:,:,jpoxy) = 2.47e-4_wp87 IF ( cn_trc_o(jpcal) == 'GL ' ) trc_o(:,:,jpcal) = 1.04e-8_wp88 IF ( cn_trc_o(jppo4) == 'GL ' ) trc_o(:,:,jppo4) = 5.77e-7_wp / po4r89 IF ( cn_trc_o(jppoc) == 'GL ' ) trc_o(:,:,jppoc) = 1.27e-6_wp101 !--- Global values 102 zpisc(jpdic,1) = 1.99e-3_wp 103 zpisc(jpdoc,1) = 2.04e-5_wp 104 zpisc(jptal,1) = 2.31e-3_wp 105 zpisc(jpoxy,1) = 2.47e-4_wp 106 zpisc(jpcal,1) = 1.04e-8_wp 107 zpisc(jppo4,1) = 5.77e-7_wp / po4r 108 zpisc(jppoc,1) = 1.27e-6_wp 90 109 # if ! defined key_kriest 91 IF ( cn_trc_o(jpgoc) == 'GL ' ) trc_o(:,:,jpgoc) = 5.23e-8_wp92 IF ( cn_trc_o(jpbfe) == 'GL ' ) trc_o(:,:,jpbfe) = 9.84e-13_wp110 zpisc(jpgoc,1) = 5.23e-8_wp 111 zpisc(jpbfe,1) = 9.84e-13_wp 93 112 # else 94 IF ( cn_trc_o(jpnum) == 'GL ' ) trc_o(:,:,jpnum) = 0. ! could not get this value since did not use it113 zpisc(jpnum,1) = 0. ! could not get this value since did not use it 95 114 # endif 96 IF ( cn_trc_o(jpsil) == 'GL ' ) trc_o(:,:,jpsil) = 7.36e-6_wp97 IF ( cn_trc_o(jpdsi) == 'GL ' ) trc_o(:,:,jpdsi) = 1.07e-7_wp98 IF ( cn_trc_o(jpgsi) == 'GL ' ) trc_o(:,:,jpgsi) = 1.53e-8_wp99 IF ( cn_trc_o(jpphy) == 'GL ' ) trc_o(:,:,jpphy) = 9.57e-8_wp100 IF ( cn_trc_o(jpdia) == 'GL ' ) trc_o(:,:,jpdia) = 4.24e-7_wp101 IF ( cn_trc_o(jpzoo) == 'GL ' ) trc_o(:,:,jpzoo) = 6.07e-7_wp102 IF ( cn_trc_o(jpmes) == 'GL ' ) trc_o(:,:,jpmes) = 3.44e-7_wp103 IF ( cn_trc_o(jpfer) == 'GL ' ) trc_o(:,:,jpfer) = 4.06e-10_wp104 IF ( cn_trc_o(jpsfe) == 'GL ' ) trc_o(:,:,jpsfe) = 2.51e-11_wp105 IF ( cn_trc_o(jpdfe) == 'GL ' ) trc_o(:,:,jpdfe) = 6.57e-12_wp106 IF ( cn_trc_o(jpnfe) == 'GL ' ) trc_o(:,:,jpnfe) = 1.76e-11_wp107 IF ( cn_trc_o(jpnch) == 'GL ' ) trc_o(:,:,jpnch) = 1.67e-7_wp108 IF ( cn_trc_o(jpdch) == 'GL ' ) trc_o(:,:,jpdch) = 1.02e-7_wp109 IF ( cn_trc_o(jpno3) == 'GL ' ) trc_o(:,:,jpno3) = 5.79e-6_wp / rno3110 IF ( cn_trc_o(jpnh4) == 'GL ' ) trc_o(:,:,jpnh4) = 3.22e-7_wp / rno3115 zpisc(jpsil,1) = 7.36e-6_wp 116 zpisc(jpdsi,1) = 1.07e-7_wp 117 zpisc(jpgsi,1) = 1.53e-8_wp 118 zpisc(jpphy,1) = 9.57e-8_wp 119 zpisc(jpdia,1) = 4.24e-7_wp 120 zpisc(jpzoo,1) = 6.07e-7_wp 121 zpisc(jpmes,1) = 3.44e-7_wp 122 zpisc(jpfer,1) = 4.06e-10_wp 123 zpisc(jpsfe,1) = 2.51e-11_wp 124 zpisc(jpdfe,1) = 6.57e-12_wp 125 zpisc(jpnfe,1) = 1.76e-11_wp 126 zpisc(jpnch,1) = 1.67e-7_wp 127 zpisc(jpdch,1) = 1.02e-7_wp 128 zpisc(jpno3,1) = 5.79e-6_wp / rno3 129 zpisc(jpnh4,1) = 3.22e-7_wp / rno3 111 130 112 131 !--- Arctic specificities (dissolved inorganic & DOM) 113 IF ( cn_trc_o(jpdic) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpdic) = 1.98e-3_wp ; END WHERE ; ENDIF114 IF ( cn_trc_o(jpdoc) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpdoc) = 6.00e-6_wp ; END WHERE ; ENDIF115 IF ( cn_trc_o(jptal) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jptal) = 2.13e-3_wp ; END WHERE ; ENDIF116 IF ( cn_trc_o(jpoxy) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpoxy) = 3.65e-4_wp ; END WHERE ; ENDIF117 IF ( cn_trc_o(jpcal) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpcal) = 1.50e-9_wp ; END WHERE ; ENDIF118 IF ( cn_trc_o(jppo4) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jppo4) = 4.09e-7_wp / po4r ; END WHERE ; ENDIF119 IF ( cn_trc_o(jppoc) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jppoc) = 4.05e-7_wp ; END WHERE ; ENDIF132 zpisc(jpdic,2) = 1.98e-3_wp 133 zpisc(jpdoc,2) = 6.00e-6_wp 134 zpisc(jptal,2) = 2.13e-3_wp 135 zpisc(jpoxy,2) = 3.65e-4_wp 136 zpisc(jpcal,2) = 1.50e-9_wp 137 zpisc(jppo4,2) = 4.09e-7_wp / po4r 138 zpisc(jppoc,2) = 4.05e-7_wp 120 139 # if ! defined key_kriest 121 IF ( cn_trc_o(jpgoc) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpgoc) = 2.84e-8_wp ; END WHERE ; ENDIF122 IF ( cn_trc_o(jpbfe) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpbfe) = 7.03e-13_wp ; END WHERE ; ENDIF140 zpisc(jpgoc,2) = 2.84e-8_wp 141 zpisc(jpbfe,2) = 7.03e-13_wp 123 142 # else 124 IF ( cn_trc_o(jpnum) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpnum) = 0.00e-00_wp ; END WHERE ; ENDIF143 zpisc(jpnum,2) = 0.00e-00_wp 125 144 # endif 126 IF ( cn_trc_o(jpsil) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpsil) = 6.87e-6_wp ; END WHERE ; ENDIF127 IF ( cn_trc_o(jpdsi) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpdsi) = 1.73e-7_wp ; END WHERE ; ENDIF128 IF ( cn_trc_o(jpgsi) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpgsi) = 7.93e-9_wp ; END WHERE ; ENDIF129 IF ( cn_trc_o(jpphy) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpphy) = 5.25e-7_wp ; END WHERE ; ENDIF130 IF ( cn_trc_o(jpdia) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpdia) = 7.75e-7_wp ; END WHERE ; ENDIF131 IF ( cn_trc_o(jpzoo) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpzoo) = 3.34e-7_wp ; END WHERE ; ENDIF132 IF ( cn_trc_o(jpmes) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpmes) = 2.49e-7_wp ; END WHERE ; ENDIF133 IF ( cn_trc_o(jpfer) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpfer) = 1.43e-9_wp ; END WHERE ; ENDIF134 IF ( cn_trc_o(jpsfe) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpsfe) = 2.21e-11_wp ; END WHERE ; ENDIF135 IF ( cn_trc_o(jpdfe) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpdfe) = 2.04e-11_wp ; END WHERE ; ENDIF136 IF ( cn_trc_o(jpnfe) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpnfe) = 1.75e-11_wp ; END WHERE ; ENDIF137 IF ( cn_trc_o(jpnch) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpnch) = 1.46e-07_wp ; END WHERE ; ENDIF138 IF ( cn_trc_o(jpdch) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpdch) = 2.36e-07_wp ; END WHERE ; ENDIF139 IF ( cn_trc_o(jpno3) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpno3) = 3.51e-06_wp / rno3 ; END WHERE ; ENDIF140 IF ( cn_trc_o(jpnh4) == 'AA ' ) THEN ; WHERE( gphit(:,:) >= 00._wp ) ; trc_o(:,:,jpnh4) = 6.15e-08_wp / rno3 ; END WHERE ; ENDIF145 zpisc(jpsil,2) = 6.87e-6_wp 146 zpisc(jpdsi,2) = 1.73e-7_wp 147 zpisc(jpgsi,2) = 7.93e-9_wp 148 zpisc(jpphy,2) = 5.25e-7_wp 149 zpisc(jpdia,2) = 7.75e-7_wp 150 zpisc(jpzoo,2) = 3.34e-7_wp 151 zpisc(jpmes,2) = 2.49e-7_wp 152 zpisc(jpfer,2) = 1.43e-9_wp 153 zpisc(jpsfe,2) = 2.21e-11_wp 154 zpisc(jpdfe,2) = 2.04e-11_wp 155 zpisc(jpnfe,2) = 1.75e-11_wp 156 zpisc(jpnch,2) = 1.46e-07_wp 157 zpisc(jpdch,2) = 2.36e-07_wp 158 zpisc(jpno3,2) = 3.51e-06_wp / rno3 159 zpisc(jpnh4,2) = 6.15e-08_wp / rno3 141 160 142 161 !--- Antarctic specificities (dissolved inorganic & DOM) 143 IF ( cn_trc_o(jpdic) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpdic) = 2.20e-3_wp ; END WHERE ; ENDIF144 IF ( cn_trc_o(jpdoc) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpdoc) = 7.02e-6_wp ; END WHERE ; ENDIF145 IF ( cn_trc_o(jptal) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jptal) = 2.37e-3_wp ; END WHERE ; ENDIF146 IF ( cn_trc_o(jpoxy) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpoxy) = 3.42e-4_wp ; END WHERE ; ENDIF147 IF ( cn_trc_o(jpcal) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpcal) = 3.17e-9_wp ; END WHERE ; ENDIF148 IF ( cn_trc_o(jppo4) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jppo4) = 1.88e-6_wp / po4r ; END WHERE ; ENDIF149 IF ( cn_trc_o(jppoc) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jppoc) = 1.13e-6_wp ; END WHERE ; ENDIF162 zpisc(jpdic,3) = 2.20e-3_wp 163 zpisc(jpdoc,3) = 7.02e-6_wp 164 zpisc(jptal,3) = 2.37e-3_wp 165 zpisc(jpoxy,3) = 3.42e-4_wp 166 zpisc(jpcal,3) = 3.17e-9_wp 167 zpisc(jppo4,3) = 1.88e-6_wp / po4r 168 zpisc(jppoc,3) = 1.13e-6_wp 150 169 # if ! defined key_kriest 151 IF ( cn_trc_o(jpgoc) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpgoc) = 2.89e-8_wp ; END WHERE ; ENDIF152 IF ( cn_trc_o(jpbfe) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpbfe) = 5.63e-13_wp ; END WHERE ; ENDIF170 zpisc(jpgoc,3) = 2.89e-8_wp 171 zpisc(jpbfe,3) = 5.63e-13_wp 153 172 # else 154 IF ( cn_trc_o(jpnum) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpnum) = 0.00e-00_wp ; END WHERE ; ENDIF173 zpisc(jpnum,3) = 0.00e-00_wp 155 174 # endif 156 IF ( cn_trc_o(jpsil) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpsil) = 4.96e-5_wp ; END WHERE ; ENDIF157 IF ( cn_trc_o(jpdsi) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpdsi) = 5.63e-7_wp ; END WHERE ; ENDIF158 IF ( cn_trc_o(jpgsi) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpgsi) = 5.35e-8_wp ; END WHERE ; ENDIF159 IF ( cn_trc_o(jpphy) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpphy) = 8.10e-7_wp ; END WHERE ; ENDIF160 IF ( cn_trc_o(jpdia) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpdia) = 5.77e-7_wp ; END WHERE ; ENDIF161 IF ( cn_trc_o(jpzoo) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpzoo) = 6.68e-7_wp ; END WHERE ; ENDIF162 IF ( cn_trc_o(jpmes) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpmes) = 3.55e-7_wp ; END WHERE ; ENDIF163 IF ( cn_trc_o(jpfer) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpfer) = 1.62e-10_wp ; END WHERE ; ENDIF164 IF ( cn_trc_o(jpsfe) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpsfe) = 2.29e-11_wp ; END WHERE ; ENDIF165 IF ( cn_trc_o(jpdfe) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpdfe) = 8.75e-12_wp ; END WHERE ; ENDIF166 IF ( cn_trc_o(jpnfe) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpnfe) = 1.48e-11_wp ; END WHERE ; ENDIF167 IF ( cn_trc_o(jpnch) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpnch) = 2.02e-7_wp ; END WHERE ; ENDIF168 IF ( cn_trc_o(jpdch) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpdch) = 1.60e-7_wp ; END WHERE ; ENDIF169 IF ( cn_trc_o(jpno3) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpno3) = 2.64e-5_wp / rno3 ; END WHERE ; ENDIF170 IF ( cn_trc_o(jpnh4) == 'AA ' ) THEN ; WHERE( gphit(:,:) < 00._wp ) ; trc_o(:,:,jpnh4) = 3.39e-7_wp / rno3 ; END WHERE ; ENDIF175 zpisc(jpsil,3) = 4.96e-5_wp 176 zpisc(jpdsi,3) = 5.63e-7_wp 177 zpisc(jpgsi,3) = 5.35e-8_wp 178 zpisc(jpphy,3) = 8.10e-7_wp 179 zpisc(jpdia,3) = 5.77e-7_wp 180 zpisc(jpzoo,3) = 6.68e-7_wp 181 zpisc(jpmes,3) = 3.55e-7_wp 182 zpisc(jpfer,3) = 1.62e-10_wp 183 zpisc(jpsfe,3) = 2.29e-11_wp 184 zpisc(jpdfe,3) = 8.75e-12_wp 185 zpisc(jpnfe,3) = 1.48e-11_wp 186 zpisc(jpnch,3) = 2.02e-7_wp 187 zpisc(jpdch,3) = 1.60e-7_wp 188 zpisc(jpno3,3) = 2.64e-5_wp / rno3 189 zpisc(jpnh4,3) = 3.39e-7_wp / rno3 171 190 172 191 !--- Baltic Sea particular case for ORCA configurations 173 IF( cp_cfg == "orca" ) THEN ! Baltic mask 174 WHERE( 14._wp <= glamt(:,:) .AND. glamt(:,:) <= 32._wp .AND. & 175 54._wp <= gphit(:,:) .AND. gphit(:,:) <= 66._wp ) 176 trc_o(:,:,jpdic) = 1.14e-3_wp 177 trc_o(:,:,jpdoc) = 1.06e-5_wp 178 trc_o(:,:,jptal) = 1.16e-3_wp 179 trc_o(:,:,jpoxy) = 3.71e-4_wp 180 trc_o(:,:,jpcal) = 1.51e-9_wp 181 trc_o(:,:,jppo4) = 2.85e-9_wp / po4r 182 trc_o(:,:,jppoc) = 4.84e-7_wp 192 zpisc(jpdic,4) = 1.14e-3_wp 193 zpisc(jpdoc,4) = 1.06e-5_wp 194 zpisc(jptal,4) = 1.16e-3_wp 195 zpisc(jpoxy,4) = 3.71e-4_wp 196 zpisc(jpcal,4) = 1.51e-9_wp 197 zpisc(jppo4,4) = 2.85e-9_wp / po4r 198 zpisc(jppoc,4) = 4.84e-7_wp 183 199 # if ! defined key_kriest 184 trc_o(:,:,jpgoc) = 1.05e-8_wp185 trc_o(:,:,jpbfe) = 4.97e-13_wp200 zpisc(jpgoc,4) = 1.05e-8_wp 201 zpisc(jpbfe,4) = 4.97e-13_wp 186 202 # else 187 trc_o(:,:,jpnum) = 0. ! could not get this value203 zpisc(jpnum,4) = 0. ! could not get this value 188 204 # endif 189 trc_o(:,:,jpsil) = 4.91e-5_wp 190 trc_o(:,:,jpdsi) = 3.25e-7_wp 191 trc_o(:,:,jpgsi) = 1.93e-8_wp 192 trc_o(:,:,jpphy) = 6.64e-7_wp 193 trc_o(:,:,jpdia) = 3.41e-7_wp 194 trc_o(:,:,jpzoo) = 3.83e-7_wp 195 trc_o(:,:,jpmes) = 0.225e-6_wp 196 trc_o(:,:,jpfer) = 2.45e-9_wp 197 trc_o(:,:,jpsfe) = 3.89e-11_wp 198 trc_o(:,:,jpdfe) = 1.33e-11_wp 199 trc_o(:,:,jpnfe) = 2.62e-11_wp 200 trc_o(:,:,jpnch) = 1.17e-7_wp 201 trc_o(:,:,jpdch) = 9.69e-8_wp 202 trc_o(:,:,jpno3) = 5.36e-5_wp / rno3 203 trc_o(:,:,jpnh4) = 7.18e-7_wp / rno3 204 END WHERE 205 ENDIF ! cfg 205 zpisc(jpsil,4) = 4.91e-5_wp 206 zpisc(jpdsi,4) = 3.25e-7_wp 207 zpisc(jpgsi,4) = 1.93e-8_wp 208 zpisc(jpphy,4) = 6.64e-7_wp 209 zpisc(jpdia,4) = 3.41e-7_wp 210 zpisc(jpzoo,4) = 3.83e-7_wp 211 zpisc(jpmes,4) = 0.225e-6_wp 212 zpisc(jpfer,4) = 2.45e-9_wp 213 zpisc(jpsfe,4) = 3.89e-11_wp 214 zpisc(jpdfe,4) = 1.33e-11_wp 215 zpisc(jpnfe,4) = 2.62e-11_wp 216 zpisc(jpnch,4) = 1.17e-7_wp 217 zpisc(jpdch,4) = 9.69e-8_wp 218 zpisc(jpno3,4) = 5.36e-5_wp / rno3 219 zpisc(jpnh4,4) = 7.18e-7_wp / rno3 220 221 DO jn = jp_pcs0, jp_pcs1 222 IF( cn_trc_o(jn) == 'GL ' ) trc_o(:,:,jn) = zpisc(jn,1) ! Global case 223 IF( cn_trc_o(jn) == 'AA ' ) THEN 224 WHERE( gphit(:,:) >= 0._wp ) ; trc_o(:,:,jn) = zpisc(jn,2) ; END WHERE ! Arctic 225 WHERE( gphit(:,:) < 0._wp ) ; trc_o(:,:,jn) = zpisc(jn,3) ; END WHERE ! Antarctic 226 ENDIF 227 IF( cp_cfg == "orca" ) THEN ! Baltic Sea particular case for ORCA configurations 228 WHERE( 14._wp <= glamt(:,:) .AND. glamt(:,:) <= 32._wp .AND. & 229 54._wp <= gphit(:,:) .AND. gphit(:,:) <= 66._wp ) 230 trc_o(:,:,jn) = zpisc(jn,4) 231 END WHERE 232 ENDIF 233 ENDDO 234 235 206 236 207 237 !----------------------------- … … 217 247 218 248 DO jn = jp_pcs0, jp_pcs1 219 IF 220 IF 221 IF 249 IF( trc_ice_ratio(jn) >= 0._wp ) zratio(jn,:) = trc_ice_ratio(jn) 250 IF( trc_ice_ratio(jn) == -1._wp ) zratio(jn,:) = zrs(:) 251 IF( trc_ice_ratio(jn) == -2._wp ) zratio(jn,:) = -9999.99_wp 222 252 END DO 223 253 … … 227 257 DO jn = jp_pcs0, jp_pcs1 228 258 !-- Everywhere but in the Baltic 229 IF ( trc_ice_ratio(jn) >= -1._wp ) THEN !! no prescribed concentration 230 !! (typically everything but iron) 259 IF ( trc_ice_ratio(jn) >= -1._wp ) THEN ! no prescribed conc. ; typically everything but iron) 231 260 trc_i(:,:,jn) = zratio(jn,1) * trc_o(:,:,jn) 232 ELSE !! prescribed concentration261 ELSE ! prescribed concentration 233 262 trc_i(:,:,jn) = trc_ice_prescr(jn) 234 263 ENDIF 235 264 236 265 !-- Baltic 237 IF( cp_cfg == "orca" ) THEN !! Baltic treated seperately for ORCA configs 238 IF ( trc_ice_ratio(jn) >= - 1._wp ) THEN !! no prescribed concentration 239 !! (typically everything but iron) 266 IF( cp_cfg == "orca" ) THEN ! Baltic treated seperately for ORCA configs 267 IF ( trc_ice_ratio(jn) >= - 1._wp ) THEN ! no prescribed conc. ; typically everything but iron) 240 268 WHERE( 14._wp <= glamt(:,:) .AND. glamt(:,:) <= 32._wp .AND. & 241 269 54._wp <= gphit(:,:) .AND. gphit(:,:) <= 66._wp ) 242 270 trc_i(:,:,jn) = zratio(jn,2) * trc_o(:,:,jn) 243 271 END WHERE 244 ELSE ! !prescribed tracer concentration in ice272 ELSE ! prescribed tracer concentration in ice 245 273 WHERE( 14._wp <= glamt(:,:) .AND. glamt(:,:) <= 32._wp .AND. & 246 274 54._wp <= gphit(:,:) .AND. gphit(:,:) <= 66._wp ) … … 251 279 ! 252 280 END DO ! jn 253 254 END SUBROUTINE trc_ice_ini_pisces 281 #endif 282 283 END SUBROUTINE p4z_ice_ini 284 285 SUBROUTINE p2z_ice_ini 286 #if defined key_pisces_reduced 287 !!---------------------------------------------------------------------- 288 !! *** ROUTINE p2z_ice_ini *** 289 !! 290 !! ** Purpose : Initialisation of the LOBSTER biochemical model 291 !!---------------------------------------------------------------------- 292 #endif 293 END SUBROUTINE p2z_ice_ini 294 255 295 256 296 #else -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/PISCES/trcini_pisces.F90
r6439 r6440 115 115 po4r = 1._wp / 122._wp 116 116 o2nit = 32._wp / 122._wp 117 rdenit = 105._wp / 16._wp 117 o2ut = 133._wp / 122._wp 118 rdenit = ( ( o2ut + o2nit ) * 0.80 - rno3 - rno3 * 0.60 ) / rno3 118 119 rdenita = 3._wp / 5._wp 119 o2ut = 133._wp / 122._wp 120 120 121 121 122 ! Initialization of tracer concentration in case of no restart -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/TRP/trcdmp.F90
r6439 r6440 107 107 108 108 jl = n_trc_index(jn) 109 CALL trc_dta( kt, sf_trcdta(jl) ,rf_trfac(jl)) ! read tracer data at nit000110 ztrcdta(:,:,:) = sf_trcdta(jl)%fnow(:,:,:) 109 CALL trc_dta( kt, sf_trcdta(jl) ) ! read tracer data at nit000 110 ztrcdta(:,:,:) = sf_trcdta(jl)%fnow(:,:,:) * tmask(:,:,:) * rf_trfac(jl) 111 111 112 112 SELECT CASE ( nn_zdmp_tr ) … … 187 187 INTEGER :: ji , jj, jk, jn, jl, jc ! dummy loop indicesa 188 188 INTEGER :: isrow ! local index 189 REAL(wp), POINTER, DIMENSION(:,:,:) :: ztrcdta ! 3D workspace190 189 191 190 !!---------------------------------------------------------------------- … … 278 277 IF(lwp) WRITE(numout,*) 279 278 ! 280 CALL wrk_alloc( jpi, jpj, jpk, ztrcdta ) ! Memory allocation281 !282 279 DO jn = 1, jptra 283 280 IF( ln_trc_ini(jn) ) THEN ! update passive tracers arrays with input data read from file 284 281 jl = n_trc_index(jn) 285 CALL trc_dta( kt, sf_trcdta(jl),rf_trfac(jl) ) ! read tracer data at nit000 286 ztrcdta(:,:,:) = sf_trcdta(jl)%fnow(:,:,:) 282 CALL trc_dta( kt, sf_trcdta(jl) ) ! read tracer data at nit000 287 283 DO jc = 1, npncts 288 284 DO jk = 1, jpkm1 289 285 DO jj = nctsj1(jc), nctsj2(jc) 290 286 DO ji = nctsi1(jc), nctsi2(jc) 291 trn(ji,jj,jk,jn) = ztrcdta(ji,jj,jk) * tmask(ji,jj,jk)287 trn(ji,jj,jk,jn) = sf_trcdta(jl)%fnow(ji,jj,jk) * tmask(ji,jj,jk) * rf_trfac(jl) 292 288 trb(ji,jj,jk,jn) = trn(ji,jj,jk,jn) 293 289 ENDDO … … 297 293 ENDIF 298 294 ENDDO 299 CALL wrk_dealloc( jpi, jpj, jpk, ztrcdta )295 ! 300 296 ENDIF 301 297 ! -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/TRP/trcldf.F90
r6439 r6440 56 56 INTEGER, INTENT( in ) :: kt ! ocean time-step index 57 57 !! 58 INTEGER :: jn 58 INTEGER :: ji, jj, jk, jn 59 REAL(wp) :: zdep 59 60 CHARACTER (len=22) :: charout 60 61 REAL(wp), POINTER, DIMENSION(:,:,:,:) :: ztrtrd … … 66 67 67 68 rldf = rldf_rat 68 69 ! 70 r_fact_lap(:,:,:) = 1. 71 DO jk= 1, jpk 72 DO jj = 1, jpj 73 DO ji = 1, jpi 74 IF( fsdept(ji,jj,jk) > 200. .AND. gphit(ji,jj) < 5. .AND. gphit(ji,jj) > -5. ) THEN 75 zdep = MAX( fsdept(ji,jj,jk) - 1000., 0. ) / 1000. 76 r_fact_lap(ji,jj,jk) = MAX( 1., rn_fact_lap * EXP( -zdep ) ) 77 ENDIF 78 END DO 79 END DO 80 END DO 81 ! 69 82 IF( l_trdtrc ) THEN 70 83 CALL wrk_alloc( jpi, jpj, jpk, jptra, ztrtrd ) -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/TRP/trcnam_trp.F90
r6439 r6440 40 40 REAL(wp), PUBLIC :: rn_ahtrc_0 !: diffusivity coefficient for passive tracer (m2/s) 41 41 REAL(wp), PUBLIC :: rn_ahtrb_0 !: background diffusivity coefficient for passive tracer (m2/s) 42 REAL(wp), PUBLIC :: rn_fact_lap !: Enhanced zonal diffusivity coefficent in the equatorial domain 42 43 43 44 ! !!: ** Treatment of Negative concentrations ( nam_trcrad ) … … 74 75 NAMELIST/namtrc_ldf/ ln_trcldf_lap , & 75 76 & ln_trcldf_bilap, ln_trcldf_level, & 76 & ln_trcldf_hor , ln_trcldf_iso , rn_ahtrc_0, rn_ahtrb_0 77 & ln_trcldf_hor , ln_trcldf_iso , rn_ahtrc_0, rn_ahtrb_0, & 78 & rn_fact_lap 79 77 80 NAMELIST/namtrc_zdf/ ln_trczdf_exp , nn_trczdf_exp 78 81 NAMELIST/namtrc_rad/ ln_trcrad … … 127 130 WRITE(numout,*) ' diffusivity coefficient rn_ahtrc_0 = ', rn_ahtrc_0 128 131 WRITE(numout,*) ' background hor. diffusivity rn_ahtrb_0 = ', rn_ahtrb_0 132 WRITE(numout,*) ' enhanced zonal diffusivity rn_fact_lap = ', rn_fact_lap 129 133 ENDIF 130 134 -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/TRP/trcnxt.F90
r6439 r6440 102 102 ENDIF 103 103 104 #if defined key_agrif 105 CALL Agrif_trc ! AGRIF zoom boundaries 106 #endif 104 107 ! Update after tracer on domain lateral boundaries 105 108 DO jn = 1, jptra … … 110 113 #if defined key_bdy 111 114 !! CALL bdy_trc( kt ) ! BDY open boundaries 112 #endif113 #if defined key_agrif114 CALL Agrif_trc ! AGRIF zoom boundaries115 115 #endif 116 116 -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/TRP/trcsbc.F90
r6439 r6440 170 170 END DO 171 171 ENDIF 172 ! 173 CALL lbc_lnk( sbc_trc(:,:,jn), 'T', 1. ) 172 174 ! Concentration dilution effect on tracers due to evaporation & precipitation 173 175 DO jj = 2, jpj -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/TRP/trctrp.F90
r6439 r6440 67 67 IF( lk_trabbl ) CALL trc_bbl( kstp ) ! advective (and/or diffusive) bottom boundary layer scheme 68 68 IF( ln_trcdmp ) CALL trc_dmp( kstp ) ! internal damping trends 69 IF( ln_trcdmp_clo ) CALL trc_dmp_clo( kstp ) ! internal damping trends on closed seas only70 69 CALL trc_adv( kstp ) ! horizontal & vertical advection 71 70 CALL trc_ldf( kstp ) ! lateral mixing … … 78 77 CALL trc_nxt( kstp ) ! tracer fields at next time step 79 78 IF( ln_trcrad ) CALL trc_rad( kstp ) ! Correct artificial negative concentrations 79 IF( ln_trcdmp_clo ) CALL trc_dmp_clo( kstp ) ! internal damping trends on closed seas only 80 80 81 81 #if defined key_agrif -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/oce_trc.F90
r6439 r6440 116 116 USE ldftra_oce , ONLY : aeiw => aeiw !: eddy induced velocity coef. at w-points (m2/s) 117 117 USE ldftra_oce , ONLY : lk_traldf_eiv => lk_traldf_eiv !: eddy induced velocity flag 118 USE ldftra_oce , ONLY : r_fact_lap => r_fact_lap !: enhanced zonal diffusivity coefficient 118 119 119 120 !* vertical diffusion * -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/trcdta.F90
r6439 r6440 151 151 152 152 153 SUBROUTINE trc_dta( kt, sf_dta , zrf_trfac)153 SUBROUTINE trc_dta( kt, sf_dta ) 154 154 !!---------------------------------------------------------------------- 155 155 !! *** ROUTINE trc_dta *** … … 165 165 INTEGER , INTENT(in ) :: kt ! ocean time-step 166 166 TYPE(FLD), DIMENSION(1) , INTENT(inout) :: sf_dta ! array of information on the field to read 167 REAL(wp) , INTENT(in ) :: zrf_trfac ! multiplication factor168 167 ! 169 168 INTEGER :: ji, jj, jk, jl, jkk, ik ! dummy loop indices … … 234 233 ENDIF 235 234 ! 236 sf_dta(1)%fnow(:,:,:) = sf_dta(1)%fnow(:,:,:) * zrf_trfac ! multiplicative factor237 !238 235 IF( lwp .AND. kt == nit000 ) THEN 239 236 clndta = TRIM( sf_dta(1)%clvar ) -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/trcini.F90
r6439 r6440 61 61 INTEGER :: jk, jn, jl ! dummy loop indices 62 62 CHARACTER (len=25) :: charout 63 REAL(wp), POINTER, DIMENSION(:,:,:) :: ztrcdta ! 4D workspace64 63 !!--------------------------------------------------------------------- 65 64 ! … … 121 120 IF( ln_trcdta .AND. nb_trcdta > 0 ) THEN ! Initialisation of tracer from a file that may also be used for damping 122 121 ! 123 CALL wrk_alloc( jpi, jpj, jpk, ztrcdta ) ! Memory allocation124 !125 122 DO jn = 1, jptra 126 123 IF( ln_trc_ini(jn) ) THEN ! update passive tracers arrays with input data read from file 127 124 jl = n_trc_index(jn) 128 CALL trc_dta( nit000, sf_trcdta(jl) ,rf_trfac(jl)) ! read tracer data at nit000129 ztrcdta(:,:,:) = sf_trcdta(jl)%fnow(:,:,:)130 trn(:,:,:,jn) = ztrcdta(:,:,:) * tmask(:,:,:)125 CALL trc_dta( nit000, sf_trcdta(jl) ) ! read tracer data at nit000 126 trn(:,:,:,jn) = sf_trcdta(jl)%fnow(:,:,:) * tmask(:,:,:) * rf_trfac(jl) 127 ! 131 128 IF( .NOT.ln_trcdmp .AND. .NOT.ln_trcdmp_clo ) THEN !== deallocate data structure ==! 132 129 ! (data used only for initialisation) … … 138 135 ENDIF 139 136 ENDDO 140 CALL wrk_dealloc( jpi, jpj, jpk, ztrcdta )137 ! 141 138 ENDIF 142 139 ! -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/trcnam.F90
r6439 r6440 397 397 !! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt) 398 398 !!====================================================================== 399 END MODULE 399 END MODULE trcnam -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/trcsms.F90
r6439 r6440 75 75 76 76 !!====================================================================== 77 END MODULE 77 END MODULE trcsms -
branches/UKMO/dev_r5518_GC3p0_package/NEMOGCM/NEMO/TOP_SRC/trcstp.F90
r6439 r6440 32 32 REAL(wp), DIMENSION(:,:,:), SAVE, ALLOCATABLE :: qsr_arr ! save qsr during TOP time-step 33 33 REAL(wp) :: rdt_sampl 34 INTEGER :: nb_rec_per_day s34 INTEGER :: nb_rec_per_day 35 35 INTEGER :: isecfst, iseclast 36 36 LOGICAL :: llnew … … 123 123 !! of diurnal cycle 124 124 !! 125 !! ** Method : store in TOP the qsr every hour ( or every time-step the latter125 !! ** Method : store in TOP the qsr every hour ( or every time-step if the latter 126 126 !! is greater than 1 hour ) and then, compute the mean with 127 127 !! a moving average over 24 hours. … … 134 134 IF( ln_cpl ) THEN 135 135 rdt_sampl = 86400. / ncpl_qsr_freq 136 nb_rec_per_day s= ncpl_qsr_freq136 nb_rec_per_day = ncpl_qsr_freq 137 137 ELSE 138 138 rdt_sampl = MAX( 3600., rdt * nn_dttrc ) 139 nb_rec_per_day s= INT( 86400 / rdt_sampl )139 nb_rec_per_day = INT( 86400 / rdt_sampl ) 140 140 ENDIF 141 141 ! 142 142 IF( lwp ) THEN 143 143 WRITE(numout,*) 144 WRITE(numout,*) ' Sampling frequency dt = ', rdt_sampl, 's',' Number of sampling per day nrec = ', nb_rec_per_day s144 WRITE(numout,*) ' Sampling frequency dt = ', rdt_sampl, 's',' Number of sampling per day nrec = ', nb_rec_per_day 145 145 WRITE(numout,*) 146 146 ENDIF 147 147 ! 148 ALLOCATE( qsr_arr(jpi,jpj,nb_rec_per_days ) ) 149 DO jn = 1, nb_rec_per_days 150 qsr_arr(:,:,jn) = qsr(:,:) 148 ! !* Restart: read in restart file 149 IF( ln_rsttr .AND. iom_varid( numrtr, 'qsr_mean', ldstop = .FALSE. ) > 0 ) THEN 150 IF(lwp) WRITE(numout,*) 'trc_qsr_mean: qsr_mean read in the restart file' 151 CALL iom_get( numrtr, jpdom_autoglo, 'qsr_mean', qsr_mean ) ! A mean of qsr 152 ELSE !* no restart: set from nit000 values 153 IF(lwp) WRITE(numout,*) 'trc_qsr_mean: qsr_mean set to nit000 values' 154 qsr_mean(:,:) = qsr(:,:) 155 ENDIF 156 ! 157 ALLOCATE( qsr_arr(jpi,jpj,nb_rec_per_day ) ) 158 DO jn = 1, nb_rec_per_day 159 qsr_arr(:,:,jn) = qsr_mean(:,:) 151 160 ENDDO 152 qsr_mean(:,:) = qsr(:,:)153 161 ! 154 162 isecfst = nsec_year + nsec1jan000 ! number of seconds between Jan. 1st 00h of nit000 year and the middle of time step … … 163 171 & ' time = ', (iseclast+rdt*nn_dttrc/2.)/3600.,'hours ' 164 172 isecfst = iseclast 165 DO jn = 1, nb_rec_per_day s- 1173 DO jn = 1, nb_rec_per_day - 1 166 174 qsr_arr(:,:,jn) = qsr_arr(:,:,jn+1) 167 175 ENDDO 168 qsr_arr (:,:,nb_rec_per_days) = qsr(:,:) 169 qsr_mean(:,: ) = SUM( qsr_arr(:,:,:), 3 ) / nb_rec_per_days 170 ENDIF 171 ! 176 qsr_arr (:,:,nb_rec_per_day) = qsr(:,:) 177 qsr_mean(:,: ) = SUM( qsr_arr(:,:,:), 3 ) / nb_rec_per_day 178 ENDIF 179 ! 180 IF( lrst_trc ) THEN !* Write the mean of qsr in restart file 181 IF(lwp) WRITE(numout,*) 182 IF(lwp) WRITE(numout,*) 'trc_mean_qsr : write qsr_mean in restart file kt =', kt 183 IF(lwp) WRITE(numout,*) '~~~~~~~' 184 CALL iom_rstput( kt, nitrst, numrtw, 'qsr_mean', qsr_mean(:,:) ) 185 ENDIF 186 ! 172 187 END SUBROUTINE trc_mean_qsr 173 188
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