The NAMELIST for INT2LM contains the following values ===================================================== NAMELIST: contrl ----------------- Variable Actual Value Default Value Format yinput_model CM C* ydate_ini 2070010100 C*1 ydate_bd 2070010100 C*1 nprocx 30 1 I nprocy 24 1 I nprocio 0 0 I nboundlines 1 1 I ncomm_type 1 1 I hstart 0.0000 0.0000 R hstop 8760.0000 0.0000 R hincbound 6.0000 0.0000 R itype_calendar 0 0 I nincwait 5 0 I nmaxwait 20 0 I ytrans_in C*250 ytrans_out C*250 lante_0006 F F L lpost_0006 F F L luse_t_skin T F L luvcor T T L lvertwind_ini T T L lvertwind_bd F F L lprog_qi T F L lmixcld F F L l_smi F F L lprog_qr_qs F F L lprog_qg F F L lprog_rho_sno F F L qvmin 0.1000E-11 0.1000E-11 R qcmin 0.1000E-11 0.1000E-11 R qimin 0.1000E-11 0.1000E-11 R linitial T F L lboundaries T T L leps_bc F F L ltime_mean T F L ltime_proc F F L itype_w_so_rel 0 1 I itype_t_cl 1 0 I itype_rootdp 3 0 I itype_ndvi 0 0 I itype_aerosol 1 1 I itype_albedo 2 1 I lmulti_layer_lm T F L lmulti_layer_in T F L lbdclim T F L lforest T F L lurban F F L lsso T F L lradtopo F F L nhori 24 24 I lseaice F F L llake F F L llake_coldsta F F L lstomata F F L lemiss F F L llbc_smooth F F L nlbc_smooth 20 20 I lroutine F F L lasync_io F F L lreorder T T L ldatatypes F F L lt_cl_corr F F L lfilter_oro F F L lxso_first F F L lfilter_pp F F L lbalance_pp F F L l_topo_z F F L norder_filter 5 5 I eps_filter 10.0000 10.0000 R ilow_pass_oro 1 1 I numfilt_oro 1 1 I ilow_pass_xso 0 0 I numfilt_xso 1 1 I rxso_mask 0.0000 0.0000 R rfill_valley 0.0000 0.0000 R ifill_valley 0 0 I l_cressman F F L l_bicub_spl F F L l_art F F L l_art_nested F F L idbg_level 2 2 I lprintdeb_all F F L NAMELIST: grid_in ----------------- Variable Actual Value Default Value Format ni_gme 128 128 I i3e_gme 31 31 I kcontrol_fi -1 -1 I pcontrol_fi 30000.0000 -1.0000 R ie_in_tot 192 141 I je_in_tot 96 71 I ke_in_tot 47 60 I ke_hybrid 0 0 I nlevskip 0 0 I pollat_in 90.0000 90.0000 R pollon_in 180.0000 180.0000 R polgam_in 0.0000 0.0000 R dlat_in 0.5000 0.5000 R dlon_in 0.5000 0.5000 R startlat_in_t -88.5722 35.0000 R startlon_in_t -180.0000 -30.0000 R lushift_in F F F F L lvshift_in F F F F L east_add_in 0 0 I west_add_in 0 0 I south_add_in 0 0 I north_add_in 0 0 I ke_soil_in 4 7 I Main levels of input soil layers (m) (cm) 0: 0 1: 0.0300 3 2: 0.1900 19 3: 0.7800 78 4: 2.6800 268 5: 6.9800 698 NAMELIST: lmgrid ----------------- Variable Actual Value Default Value Format ielm_tot 450 213 I jelm_tot 438 213 I kelm_tot 40 20 I pollat 39.2500 32.5000 R pollon -162.0000 -170.0000 R polgam 0.0000 0.0000 R dlat 0.1100 0.0625 R dlon 0.1100 0.0625 R startlat_tot -24.8050 -14.3750 R startlon_tot -29.8050 -6.8750 R ivctype 2 2 I lnewVGrid F F L irefatm 2 1 I lanalyt_calc_ F F L vcflat 11430.0000 0.2200 R p0sl 100000.0000 100000.0000 R t0sl 288.1500 288.1500 R dt0lp 42.0000 42.0000 R delta_t 75.0000 75.0000 R h_scal 10000.0000 10000.0000 R 1 22700.0000 2 20800.0000 3 19100.0000 4 17550.0000 5 16150.0000 6 14900.0000 7 13800.0000 8 12785.0000 9 11875.0000 10 11020.0000 11 10205.0000 12 9440.0000 13 8710.0000 14 8015.0000 15 7355.0000 16 6725.0000 17 6130.0000 18 5565.0000 19 5035.0000 20 4530.0000 21 4060.0000 22 3615.0000 23 3200.0000 24 2815.0000 25 2455.0000 26 2125.0000 27 1820.0000 28 1545.0000 29 1295.0000 30 1070.0000 31 870.0000 32 695.0000 33 542.0000 34 412.0000 35 303.0000 36 214.0000 37 143.0000 38 89.0000 39 49.0000 40 20.0000 41 0.0000 artificial volumetric soil water content profile (0-1) 1: 0.7500 2: 0.7500 3: 0.7500 4: 0.7500 5: 0.7500 6: 0.7500 7: 0.7500 8: 0.7500 9: 0.7500 10: 0.7500 ke_soil_lm 9 7 I Main levels of the LM soil layers (m) (cm) 0: 0 1: 0.0050 1 2: 0.0250 3 3: 0.0700 7 4: 0.1600 16 5: 0.3400 34 6: 0.7000 70 7: 1.4200 142 8: 2.8600 286 9: 5.7400 574 10: 11.5000 1150 Namelist /database/ init_order ak=nix ana_tab ***** bd_tab ***** OUT_SOCKETS 0 IN_SOCKETS 0 Retry-time 300 Backup mechanism disabled NAMELIST: data ----------------- Variable Actual Value Default Value Format nlocaldefnr -1 -1 I nprocess_ini 131 -999999 I nprocess_bd 132 -999999 I ncenter 78 78 I nsubcenter 255 255 I nrbit 16 16 I nbitmap 24000 24000 I nvers 1 1 I nl_soil_lm 2 2 I nl_soil_in 2 2 I ie_ext 505 1081 I je_ext 550 1081 I npstrframe 8 8 I lbd_frame F F L l_ke_in_gds T T L ymode_read r r C*3 ymode_write w w C*3 ylmext_cat /home/acad/ucl-elic/cvillanu/CST_01100 C ylmext_lfn domain2016050711119.nc C yinext_cat /SCRATCH/acad/cclm/MPI-ESM-LR/rcp8.5/y C 2070/ yinext_lfn caf2070010100.nc C yin_hhl COSMO_HHL_xxx_yyy.g1 C ybitmap_cat C ybitmap_lfn C yin_cat /SCRATCH/acad/cclm/MPI-ESM-LR/rcp8.5/y C 2070/ ylm_cat /SCRATCH/acad/cclm/01100/BDY/INT2LM_EU C P85_2070/ ylm_hhl COSMO_HHL_xxx_yyy.g1 C yinput_type analysis C ylmext_form_read ncdf grb1 C yinext_form_read ncdf grb1 C yin_form_read ncdf grb1 C ylm_form_write ncdf grb1 C ytunit_in d C ytunit_out d C yncglob_institution - yncglob_title - yncglob_source - yncglob_project_id - yncglob_experiment_id - yncglob_contact - yncglob_references - ncglob_realiz -999 -999 I Variables for initial data yvarini( 1) HSURF C10 yvarini( 2) FR_LAND C10 yvarini( 3) Z0 C10 yvarini( 4) SOILTYP C10 yvarini( 5) PLCOV C10 yvarini( 6) LAI C10 yvarini( 7) ROOTDP C10 yvarini( 8) VIO3 C10 yvarini( 9) HMO3 C10 yvarini( 10) U C10 yvarini( 11) V C10 yvarini( 12) T C10 yvarini( 13) QV C10 yvarini( 14) QC C10 yvarini( 15) PP C10 yvarini( 16) T_SNOW C10 yvarini( 17) QV_S C10 yvarini( 18) W_I C10 yvarini( 19) W_SNOW C10 yvarini( 20) FOR_E C10 yvarini( 21) FOR_D C10 yvarini( 22) ALB_DRY C10 yvarini( 23) ALB_SAT C10 yvarini( 24) SSO_STDH C10 yvarini( 25) SSO_GAMMA C10 yvarini( 26) SSO_THETA C10 yvarini( 27) SSO_SIGMA C10 yvarini( 28) W C10 yvarini( 29) QI C10 yvarini( 30) T_SO C10 yvarini( 31) W_SO C10 yvarini( 32) FRESHSNW C10 yvarini( 33) T_S C10 Variables for boundary data yvarbd( 1) U C10 yvarbd( 2) V C10 yvarbd( 3) T C10 yvarbd( 4) QV C10 yvarbd( 5) QC C10 yvarbd( 6) PP C10 yvarbd( 7) T_SNOW C10 yvarbd( 8) QV_S C10 yvarbd( 9) W_SNOW C10 yvarbd( 10) PLCOV C10 yvarbd( 11) LAI C10 yvarbd( 12) ROOTDP C10 yvarbd( 13) VIO3 C10 yvarbd( 14) HMO3 C10 yvarbd( 15) QI C10 yvarbd( 16) T_S C10 NAMELIST: prictr ----------------- Variable Actual Value Default Value Format nlev1pr 10 10 I nlev2pr 20 20 I lprps F F L lprt F F L lpru F F L lprv F F L lprgrh F F L lprqv F F L lprqc F F L lprud F F L lprvd F F L lprdpdt F F L lprgp F F L lchkin T F L lchkout T F L Indices of selected grid points: Nr.: i-index j-index Nr.: i-index j-index 1 36 30 There are isolated points in the COSMO Domain: 193 1 6 126 6 6 18 T 89 62 0 22 6 0.00 2 5 127 6 5 19 T 89 62 0 22 6 0.00 3 6 127 6 6 19 T 89 62 0 22 6 0.00 4 4 128 6 4 20 T 89 62 0 22 6 0.00 5 5 128 6 5 20 T 89 62 0 22 6 0.00 6 5 127 7 5 1 T 89 62 0 22 6 0.00 7 6 127 7 6 1 T 89 62 0 22 6 0.00 8 4 128 7 4 2 T 89 62 0 22 6 0.00 9 5 128 7 5 2 T 89 62 0 22 6 0.00 10 167 348 258 17 18 T 94 79 182 7 7 0.00 11 165 349 258 15 19 T 94 79 182 7 7 0.00 12 166 349 258 16 19 T 94 79 182 7 7 0.00 13 167 349 258 17 19 T 94 79 182 7 7 0.00 14 166 350 258 16 20 T 94 79 182 7 7 0.00 15 167 350 258 17 20 T 94 79 182 7 7 0.00 16 165 349 259 15 1 T 94 79 182 7 7 0.00 17 166 349 259 16 1 T 94 79 182 7 7 0.00 18 167 349 259 17 1 T 94 79 182 7 7 0.00 19 166 350 259 16 2 T 94 79 182 7 7 0.00 20 167 350 259 17 2 T 94 79 182 7 7 0.00 21 167 348 282 2 18 T 94 79 182 7 7 0.00 22 166 349 282 1 19 T 94 79 182 7 7 0.00 23 167 349 282 2 19 T 94 79 182 7 7 0.00 24 166 350 282 1 20 T 94 79 182 7 7 0.00 25 167 350 282 2 20 T 94 79 182 7 7 0.00 26 166 349 283 1 1 T 94 79 182 7 7 0.00 27 167 349 283 2 1 T 94 79 182 7 7 0.00 28 166 350 283 1 2 T 94 79 182 7 7 0.00 29 167 350 283 2 2 T 94 79 182 7 7 0.00 30 271 192 418 16 11 F 106 71 341 7 7 0.00 31 271 192 442 1 11 F 106 71 341 7 7 0.00 32 273 193 442 3 12 F 106 71 341 7 7 0.00 33 344 233 540 14 14 F 114 73 511 8 7 0.00 34 344 234 540 14 15 F 114 73 511 8 7 0.00 35 344 235 540 14 16 F 114 73 511 8 7 0.00 36 344 236 540 14 17 F 114 73 511 8 7 0.00 37 361 324 569 16 12 F 114 81 476 9 1 0.00 38 362 324 569 17 12 F 114 81 476 9 1 0.00 39 361 325 569 16 13 F 114 81 476 9 1 0.00 40 362 325 569 17 13 F 114 81 476 9 1 0.00 41 361 326 569 16 14 F 114 81 476 9 1 0.00 42 362 326 569 17 14 F 114 81 476 9 1 0.00 43 370 308 592 10 14 F 114 81 476 9 1 0.00 44 368 309 592 8 15 F 114 81 476 9 1 0.00 45 369 309 592 9 15 F 114 81 476 9 1 0.00 46 370 309 592 10 15 F 114 81 476 9 1 0.00 47 371 309 592 11 15 F 114 81 476 9 1 0.00 48 372 309 592 12 15 F 114 81 476 9 1 0.00 49 367 310 592 7 16 F 114 81 476 9 1 0.00 50 368 310 592 8 16 F 114 81 476 9 1 0.00 51 369 310 592 9 16 F 114 81 476 9 1 0.00 52 370 310 592 10 16 F 114 81 476 9 1 0.00 53 371 310 592 11 16 F 114 81 476 9 1 0.00 54 372 310 592 12 16 F 114 81 476 9 1 0.00 55 367 311 592 7 17 F 114 81 476 9 1 0.00 56 368 311 592 8 17 F 114 81 476 9 1 0.00 57 369 311 592 9 17 F 114 81 476 9 1 0.00 58 370 311 592 10 17 F 114 81 476 9 1 0.00 59 371 311 592 11 17 F 114 81 476 9 1 0.00 60 372 311 592 12 17 F 114 81 476 9 1 0.00 61 364 312 592 4 18 F 114 81 476 9 1 0.00 62 368 312 592 8 18 F 114 81 476 9 1 0.00 63 369 312 592 9 18 F 114 81 476 9 1 0.00 64 370 312 592 10 18 F 114 81 476 9 1 0.00 65 371 312 592 11 18 F 114 81 476 9 1 0.00 66 368 313 592 8 19 F 114 81 476 9 1 0.00 67 369 313 592 9 19 F 114 81 476 9 1 0.00 68 367 314 592 7 20 F 114 81 476 9 1 0.00 69 368 314 592 8 20 F 114 81 476 9 1 0.00 70 368 313 593 8 1 F 114 81 476 9 1 0.00 71 369 313 593 9 1 F 114 81 476 9 1 0.00 72 367 314 593 7 2 F 114 81 476 9 1 0.00 73 368 314 593 8 2 F 114 81 476 9 1 0.00 74 366 315 593 6 3 F 114 81 476 9 1 0.00 75 367 322 593 7 10 F 114 81 476 9 1 0.00 76 372 322 593 12 10 F 119 84 525 10 3 0.00 77 371 323 593 11 11 F 119 84 525 10 3 0.00 78 361 324 593 1 12 F 114 81 476 9 1 0.00 79 362 324 593 2 12 F 114 81 476 9 1 0.00 80 363 324 593 3 12 F 114 81 476 9 1 0.00 81 361 325 593 1 13 F 114 81 476 9 1 0.00 82 362 325 593 2 13 F 114 81 476 9 1 0.00 83 363 325 593 3 13 F 114 81 476 9 1 0.00 84 361 326 593 1 14 F 114 81 476 9 1 0.00 85 362 326 593 2 14 F 114 81 476 9 1 0.00 86 363 326 593 3 14 F 114 81 476 9 1 0.00 87 367 331 593 7 19 F 119 84 525 10 3 0.00 88 367 331 594 7 1 F 119 84 525 10 3 0.00 89 364 336 594 4 6 F 119 84 525 10 3 0.00 90 364 337 594 4 7 F 119 84 525 10 3 0.00 91 398 303 640 8 9 F 120 84 527 9 1 0.00 92 397 304 640 7 10 F 120 84 527 9 1 0.00 93 395 307 640 5 13 F 120 84 527 9 1 0.00 94 395 308 640 5 14 F 120 84 527 9 1 0.00 95 395 309 640 5 15 F 120 84 527 9 1 0.00 96 416 305 664 11 11 F 123 73 660 8 3 0.00 97 417 305 664 12 11 F 123 73 660 8 3 0.00 98 415 306 664 10 12 F 120 84 527 9 1 0.00 99 431 254 685 11 16 F 123 73 660 8 3 0.00 100 429 256 685 9 18 F 123 73 660 8 3 0.00 101 429 257 685 9 19 F 123 73 660 8 3 0.00 102 430 258 685 10 20 F 123 73 660 8 3 0.00 103 430 258 686 10 1 F 123 73 660 8 3 0.00 104 428 261 686 8 4 F 123 73 660 8 3 0.00 105 428 262 686 8 5 F 123 73 660 8 3 0.00 106 428 263 686 8 6 F 123 73 660 8 3 0.00 107 429 266 686 9 9 F 123 73 660 8 3 0.00 108 429 267 686 9 10 F 123 73 660 8 3 0.00 109 436 274 686 16 17 F 123 73 660 8 3 0.00 110 436 275 686 16 18 F 123 73 660 8 3 0.00 111 436 278 686 16 21 F 123 73 660 8 3 0.00 112 436 278 687 16 2 F 123 73 660 8 3 0.00 113 436 280 687 16 4 F 123 73 660 8 3 0.00 114 436 281 687 16 5 F 123 73 660 8 3 0.00 115 437 287 687 17 11 F 123 73 660 8 3 0.00 116 435 288 687 15 12 F 123 73 660 8 3 0.00 117 435 289 687 15 13 F 123 73 660 8 3 0.00 118 435 290 687 15 14 F 123 73 660 8 3 0.00 119 432 291 687 12 15 F 123 73 660 8 3 0.00 120 433 291 687 13 15 F 123 73 660 8 3 0.00 121 435 291 687 15 15 F 123 73 660 8 3 0.00 122 431 292 687 11 16 F 123 73 660 8 3 0.00 123 436 292 687 16 16 F 123 73 660 8 3 0.00 124 430 294 687 10 18 F 123 73 660 8 3 0.00 125 431 294 687 11 18 F 123 73 660 8 3 0.00 126 430 295 687 10 19 F 123 73 660 8 3 0.00 127 431 295 687 11 19 F 123 73 660 8 3 0.00 128 431 296 687 11 20 F 123 73 660 8 3 0.00 129 430 295 688 10 1 F 123 73 660 8 3 0.00 130 431 295 688 11 1 F 123 73 660 8 3 0.00 131 431 296 688 11 2 F 123 73 660 8 3 0.00 132 431 297 688 11 3 F 123 73 660 8 3 0.00 133 431 298 688 11 4 F 123 73 660 8 3 0.00 134 431 300 688 11 6 F 123 73 660 8 3 0.00 135 432 301 688 12 7 F 123 73 660 8 3 0.00 136 431 302 688 11 8 F 123 73 660 8 3 0.00 137 432 302 688 12 8 F 123 73 660 8 3 0.00 138 433 302 688 13 8 F 123 73 660 8 3 0.00 139 430 303 688 10 9 F 123 73 660 8 3 0.00 140 432 303 688 12 9 F 123 73 660 8 3 0.00 141 433 303 688 13 9 F 123 73 660 8 3 0.00 142 433 304 688 13 10 F 124 73 662 8 1 0.00 143 434 304 688 14 10 F 124 73 662 8 1 0.00 144 426 305 688 6 11 F 123 73 660 8 3 0.00 145 434 305 688 14 11 F 124 73 662 8 1 0.00 146 435 305 688 15 11 F 124 73 662 8 1 0.00 147 436 306 688 16 12 F 124 73 662 8 1 0.00 148 436 274 710 1 17 F 123 73 660 8 3 0.00 149 436 275 710 1 18 F 123 73 660 8 3 0.00 150 436 278 710 1 21 F 123 73 660 8 3 0.00 151 436 278 711 1 2 F 123 73 660 8 3 0.00 152 436 280 711 1 4 F 123 73 660 8 3 0.00 153 436 281 711 1 5 F 123 73 660 8 3 0.00 154 437 287 711 2 11 F 123 73 660 8 3 0.00 155 438 287 711 3 11 F 123 73 660 8 3 0.00 156 436 292 711 1 16 F 123 73 660 8 3 0.00 157 436 306 712 1 12 F 124 73 662 8 1 0.00 158 444 315 713 9 3 F 124 73 662 8 1 0.00 159 445 315 713 10 3 F 124 73 662 8 1 0.00 160 446 315 713 11 3 F 124 73 662 8 1 0.00 161 447 315 713 12 3 F 124 73 662 8 1 0.00 162 447 326 713 12 14 F 124 73 662 8 1 0.00 163 447 327 713 12 15 F 124 73 662 8 1 0.00 164 448 328 713 13 16 F 124 73 662 8 1 0.00 165 449 329 713 14 17 F 124 73 662 8 1 0.00 166 450 330 713 15 18 F 124 73 662 8 1 0.00 167 448 344 714 13 14 F 127 86 599 9 4 0.00 168 448 345 714 13 15 F 127 86 599 9 4 0.00 169 448 346 714 13 16 F 127 86 599 9 4 0.00 170 447 347 714 12 17 F 127 86 599 9 4 0.00 171 448 347 714 13 17 F 127 86 599 9 4 0.00 172 452 411 718 17 9 F 132 86 647 10 5 0.00 173 451 412 718 16 10 F 132 86 647 10 5 0.00 174 452 412 718 17 10 F 132 86 647 10 5 0.00 175 448 413 718 13 11 F 132 86 647 10 5 0.00 176 449 413 718 14 11 F 132 86 647 10 5 0.00 177 450 413 718 15 11 F 132 86 647 10 5 0.00 178 451 413 718 16 11 F 132 86 647 10 5 0.00 179 452 413 718 17 11 F 132 86 647 10 5 0.00 180 447 414 718 12 12 F 132 86 647 10 5 0.00 181 448 414 718 13 12 F 132 86 647 10 5 0.00 182 449 414 718 14 12 F 132 86 647 10 5 0.00 183 450 414 718 15 12 F 132 86 647 10 5 0.00 184 451 414 718 16 12 F 132 86 647 10 5 0.00 185 446 415 718 11 13 F 132 86 647 10 5 0.00 186 447 415 718 12 13 F 132 86 647 10 5 0.00 187 448 415 718 13 13 F 132 86 647 10 5 0.00 188 449 415 718 14 13 F 132 86 647 10 5 0.00 189 450 415 718 15 13 F 132 86 647 10 5 0.00 190 451 415 718 16 13 F 132 86 647 10 5 0.00 191 447 416 718 12 14 F 132 86 647 10 5 0.00 192 448 416 718 13 14 F 132 86 647 10 5 0.00 193 451 416 718 16 14 F 132 86 647 10 5 0.00 The following external parameters have been read: COARSE LM INT2LM Height of the Orography T T F Geopotential of the surface T T F Orography transition at LB F with 20 grid points Fraction of land T T F Soiltyp F T F Surface roughness F T F Root depth F T F Plant Cover (Vegetation) F T F Plant Cover (Rest) F T F Leaf area index (Vegetation) F T F Leaf area index (Rest) F T F Evergreen Forest --- T --- Deciduous Forest --- T --- Standard deviation of SSO --- T --- Anisotropy of the orography --- T --- Angle between axis --- T --- Mean slope of SSO --- T --- Dry soil surface albedo --- T --- Sat. soil surface albedo --- T --- clim. deep soil temperature --- T --- Vertical coordinate parameters of input: k a(k) (Pa) b(k) 1 0.0000 0.0000 2 1.9892 0.0000 3 6.5721 0.0000 4 15.6739 0.0000 5 30.6243 0.0000 6 54.5457 0.0000 7 92.5588 0.0000 8 150.5047 0.0000 9 235.3275 0.0000 10 356.1003 0.0000 11 523.9194 0.0000 12 751.0430 0.0000 13 1051.1372 0.0000 14 1438.9885 0.0000 15 1930.1772 0.0000 16 2540.6970 0.0000 17 3286.5530 0.0000 18 4199.5742 0.0000 19 5303.9570 0.0000 20 6624.7031 0.0000 21 8187.1836 0.0000 22 9976.1367 0.0004 23 11820.5391 0.0029 24 13431.3906 0.0092 25 14736.3594 0.0203 26 15689.2109 0.0370 27 16266.6094 0.0595 28 16465.0000 0.0879 29 16297.6211 0.1220 30 15791.6016 0.1614 31 14985.2695 0.2057 32 13925.5195 0.2542 33 12665.2891 0.3062 34 11261.2305 0.3611 35 9771.4062 0.4182 36 8253.2109 0.4767 37 6761.3398 0.5359 38 5345.9141 0.5951 39 4050.7180 0.6536 40 2911.5691 0.7106 41 1954.8049 0.7654 42 1195.8899 0.8172 43 638.1489 0.8650 44 271.6265 0.9077 45 72.0636 0.9442 46 0.0000 0.9730 47 0.0000 0.9923 48 0.0000 1.0000 Variable has been read; number of from total levels read number of levels U T ; 47 47 V T ; 47 47 T T ; 47 47 QV T ; 47 47 PS T ; 1 1 ***T_SKIN F ; 0 1 W_SNOW T ; 1 1