512 pes participating in computation for CLM ----------------------------------- NODE# NAME ( 0) b5207.betzy.sigma2.no ( 1) b5207.betzy.sigma2.no ( 2) b5207.betzy.sigma2.no ( 3) b5207.betzy.sigma2.no ( 4) b5207.betzy.sigma2.no ( 5) b5207.betzy.sigma2.no ( 6) b5207.betzy.sigma2.no ( 7) b5207.betzy.sigma2.no ( 8) b5207.betzy.sigma2.no ( 9) b5207.betzy.sigma2.no ( 10) b5207.betzy.sigma2.no ( 11) b5207.betzy.sigma2.no ( 12) b5207.betzy.sigma2.no ( 13) b5207.betzy.sigma2.no ( 14) b5207.betzy.sigma2.no ( 15) b5207.betzy.sigma2.no ( 16) b5207.betzy.sigma2.no ( 17) b5207.betzy.sigma2.no ( 18) b5207.betzy.sigma2.no ( 19) b5207.betzy.sigma2.no ( 20) b5207.betzy.sigma2.no ( 21) b5207.betzy.sigma2.no ( 22) b5207.betzy.sigma2.no ( 23) b5207.betzy.sigma2.no ( 24) b5207.betzy.sigma2.no ( 25) b5207.betzy.sigma2.no ( 26) b5207.betzy.sigma2.no ( 27) b5207.betzy.sigma2.no ( 28) b5207.betzy.sigma2.no ( 29) b5207.betzy.sigma2.no ( 30) b5207.betzy.sigma2.no ( 31) b5207.betzy.sigma2.no ( 32) b5207.betzy.sigma2.no ( 33) b5207.betzy.sigma2.no ( 34) b5207.betzy.sigma2.no ( 35) b5207.betzy.sigma2.no ( 36) b5207.betzy.sigma2.no ( 37) b5207.betzy.sigma2.no ( 38) b5207.betzy.sigma2.no ( 39) b5207.betzy.sigma2.no ( 40) b5207.betzy.sigma2.no ( 41) b5207.betzy.sigma2.no ( 42) b5207.betzy.sigma2.no ( 43) b5207.betzy.sigma2.no ( 44) b5207.betzy.sigma2.no ( 45) b5207.betzy.sigma2.no ( 46) b5207.betzy.sigma2.no ( 47) b5207.betzy.sigma2.no ( 48) b5207.betzy.sigma2.no ( 49) b5207.betzy.sigma2.no ( 50) b5207.betzy.sigma2.no ( 51) b5207.betzy.sigma2.no ( 52) b5207.betzy.sigma2.no ( 53) b5207.betzy.sigma2.no ( 54) b5207.betzy.sigma2.no ( 55) b5207.betzy.sigma2.no ( 56) b5207.betzy.sigma2.no ( 57) b5207.betzy.sigma2.no ( 58) b5207.betzy.sigma2.no ( 59) b5207.betzy.sigma2.no ( 60) b5207.betzy.sigma2.no ( 61) b5207.betzy.sigma2.no ( 62) b5207.betzy.sigma2.no ( 63) b5207.betzy.sigma2.no ( 64) b5207.betzy.sigma2.no ( 65) b5207.betzy.sigma2.no ( 66) b5207.betzy.sigma2.no ( 67) b5207.betzy.sigma2.no ( 68) b5207.betzy.sigma2.no ( 69) b5207.betzy.sigma2.no ( 70) b5207.betzy.sigma2.no ( 71) b5207.betzy.sigma2.no ( 72) b5207.betzy.sigma2.no ( 73) b5207.betzy.sigma2.no ( 74) b5207.betzy.sigma2.no ( 75) b5207.betzy.sigma2.no ( 76) b5207.betzy.sigma2.no ( 77) b5207.betzy.sigma2.no ( 78) b5207.betzy.sigma2.no ( 79) b5207.betzy.sigma2.no ( 80) b5207.betzy.sigma2.no ( 81) b5207.betzy.sigma2.no ( 82) b5207.betzy.sigma2.no ( 83) b5207.betzy.sigma2.no ( 84) b5207.betzy.sigma2.no ( 85) b5207.betzy.sigma2.no ( 86) b5207.betzy.sigma2.no ( 87) b5207.betzy.sigma2.no ( 88) b5207.betzy.sigma2.no ( 89) b5207.betzy.sigma2.no ( 90) b5207.betzy.sigma2.no ( 91) b5207.betzy.sigma2.no ( 92) b5207.betzy.sigma2.no ( 93) b5207.betzy.sigma2.no ( 94) b5207.betzy.sigma2.no ( 95) b5207.betzy.sigma2.no ( 96) b5207.betzy.sigma2.no ( 97) b5207.betzy.sigma2.no ( 98) b5207.betzy.sigma2.no ( 99) b5207.betzy.sigma2.no ( 100) b5207.betzy.sigma2.no ( 101) b5207.betzy.sigma2.no ( 102) b5207.betzy.sigma2.no ( 103) b5207.betzy.sigma2.no ( 104) b5207.betzy.sigma2.no ( 105) b5207.betzy.sigma2.no ( 106) b5207.betzy.sigma2.no ( 107) b5207.betzy.sigma2.no ( 108) b5207.betzy.sigma2.no ( 109) b5207.betzy.sigma2.no ( 110) b5207.betzy.sigma2.no ( 111) b5207.betzy.sigma2.no ( 112) b5207.betzy.sigma2.no ( 113) b5207.betzy.sigma2.no ( 114) b5207.betzy.sigma2.no ( 115) b5207.betzy.sigma2.no ( 116) b5207.betzy.sigma2.no ( 117) b5207.betzy.sigma2.no ( 118) b5207.betzy.sigma2.no ( 119) b5207.betzy.sigma2.no ( 120) b5207.betzy.sigma2.no ( 121) b5207.betzy.sigma2.no ( 122) b5207.betzy.sigma2.no ( 123) b5207.betzy.sigma2.no ( 124) b5207.betzy.sigma2.no ( 125) b5207.betzy.sigma2.no ( 126) b5207.betzy.sigma2.no ( 127) b5207.betzy.sigma2.no ( 128) b5224.betzy.sigma2.no ( 129) b5224.betzy.sigma2.no ( 130) b5224.betzy.sigma2.no ( 131) b5224.betzy.sigma2.no ( 132) b5224.betzy.sigma2.no ( 133) b5224.betzy.sigma2.no ( 134) b5224.betzy.sigma2.no ( 135) b5224.betzy.sigma2.no ( 136) b5224.betzy.sigma2.no ( 137) b5224.betzy.sigma2.no ( 138) b5224.betzy.sigma2.no ( 139) b5224.betzy.sigma2.no ( 140) b5224.betzy.sigma2.no ( 141) b5224.betzy.sigma2.no ( 142) b5224.betzy.sigma2.no ( 143) b5224.betzy.sigma2.no ( 144) b5224.betzy.sigma2.no ( 145) b5224.betzy.sigma2.no ( 146) b5224.betzy.sigma2.no ( 147) b5224.betzy.sigma2.no ( 148) b5224.betzy.sigma2.no ( 149) b5224.betzy.sigma2.no ( 150) b5224.betzy.sigma2.no ( 151) b5224.betzy.sigma2.no ( 152) b5224.betzy.sigma2.no ( 153) b5224.betzy.sigma2.no ( 154) b5224.betzy.sigma2.no ( 155) b5224.betzy.sigma2.no ( 156) b5224.betzy.sigma2.no ( 157) b5224.betzy.sigma2.no ( 158) b5224.betzy.sigma2.no ( 159) b5224.betzy.sigma2.no ( 160) b5224.betzy.sigma2.no ( 161) b5224.betzy.sigma2.no ( 162) b5224.betzy.sigma2.no ( 163) b5224.betzy.sigma2.no ( 164) b5224.betzy.sigma2.no ( 165) b5224.betzy.sigma2.no ( 166) b5224.betzy.sigma2.no ( 167) b5224.betzy.sigma2.no ( 168) b5224.betzy.sigma2.no ( 169) b5224.betzy.sigma2.no ( 170) b5224.betzy.sigma2.no ( 171) b5224.betzy.sigma2.no ( 172) b5224.betzy.sigma2.no ( 173) b5224.betzy.sigma2.no ( 174) b5224.betzy.sigma2.no ( 175) b5224.betzy.sigma2.no ( 176) b5224.betzy.sigma2.no ( 177) b5224.betzy.sigma2.no ( 178) b5224.betzy.sigma2.no ( 179) b5224.betzy.sigma2.no ( 180) b5224.betzy.sigma2.no ( 181) b5224.betzy.sigma2.no ( 182) b5224.betzy.sigma2.no ( 183) b5224.betzy.sigma2.no ( 184) b5224.betzy.sigma2.no ( 185) b5224.betzy.sigma2.no ( 186) b5224.betzy.sigma2.no ( 187) b5224.betzy.sigma2.no ( 188) b5224.betzy.sigma2.no ( 189) b5224.betzy.sigma2.no ( 190) b5224.betzy.sigma2.no ( 191) b5224.betzy.sigma2.no ( 192) b5224.betzy.sigma2.no ( 193) b5224.betzy.sigma2.no ( 194) b5224.betzy.sigma2.no ( 195) b5224.betzy.sigma2.no ( 196) b5224.betzy.sigma2.no ( 197) b5224.betzy.sigma2.no ( 198) b5224.betzy.sigma2.no ( 199) b5224.betzy.sigma2.no ( 200) b5224.betzy.sigma2.no ( 201) b5224.betzy.sigma2.no ( 202) b5224.betzy.sigma2.no ( 203) b5224.betzy.sigma2.no ( 204) b5224.betzy.sigma2.no ( 205) b5224.betzy.sigma2.no ( 206) b5224.betzy.sigma2.no ( 207) b5224.betzy.sigma2.no ( 208) b5224.betzy.sigma2.no ( 209) b5224.betzy.sigma2.no ( 210) b5224.betzy.sigma2.no ( 211) b5224.betzy.sigma2.no ( 212) b5224.betzy.sigma2.no ( 213) b5224.betzy.sigma2.no ( 214) b5224.betzy.sigma2.no ( 215) b5224.betzy.sigma2.no ( 216) b5224.betzy.sigma2.no ( 217) b5224.betzy.sigma2.no ( 218) b5224.betzy.sigma2.no ( 219) b5224.betzy.sigma2.no ( 220) b5224.betzy.sigma2.no ( 221) b5224.betzy.sigma2.no ( 222) b5224.betzy.sigma2.no ( 223) b5224.betzy.sigma2.no ( 224) b5224.betzy.sigma2.no ( 225) b5224.betzy.sigma2.no ( 226) b5224.betzy.sigma2.no ( 227) b5224.betzy.sigma2.no ( 228) b5224.betzy.sigma2.no ( 229) b5224.betzy.sigma2.no ( 230) b5224.betzy.sigma2.no ( 231) b5224.betzy.sigma2.no ( 232) b5224.betzy.sigma2.no ( 233) b5224.betzy.sigma2.no ( 234) b5224.betzy.sigma2.no ( 235) b5224.betzy.sigma2.no ( 236) b5224.betzy.sigma2.no ( 237) b5224.betzy.sigma2.no ( 238) b5224.betzy.sigma2.no ( 239) b5224.betzy.sigma2.no ( 240) b5224.betzy.sigma2.no ( 241) b5224.betzy.sigma2.no ( 242) b5224.betzy.sigma2.no ( 243) b5224.betzy.sigma2.no ( 244) b5224.betzy.sigma2.no ( 245) b5224.betzy.sigma2.no ( 246) b5224.betzy.sigma2.no ( 247) b5224.betzy.sigma2.no ( 248) b5224.betzy.sigma2.no ( 249) b5224.betzy.sigma2.no ( 250) b5224.betzy.sigma2.no ( 251) b5224.betzy.sigma2.no ( 252) b5224.betzy.sigma2.no ( 253) b5224.betzy.sigma2.no ( 254) b5224.betzy.sigma2.no ( 255) b5224.betzy.sigma2.no ( 256) b5233.betzy.sigma2.no ( 257) b5233.betzy.sigma2.no ( 258) b5233.betzy.sigma2.no ( 259) b5233.betzy.sigma2.no ( 260) b5233.betzy.sigma2.no ( 261) b5233.betzy.sigma2.no ( 262) b5233.betzy.sigma2.no ( 263) b5233.betzy.sigma2.no ( 264) b5233.betzy.sigma2.no ( 265) b5233.betzy.sigma2.no ( 266) b5233.betzy.sigma2.no ( 267) b5233.betzy.sigma2.no ( 268) b5233.betzy.sigma2.no ( 269) b5233.betzy.sigma2.no ( 270) b5233.betzy.sigma2.no ( 271) b5233.betzy.sigma2.no ( 272) b5233.betzy.sigma2.no ( 273) b5233.betzy.sigma2.no ( 274) b5233.betzy.sigma2.no ( 275) b5233.betzy.sigma2.no ( 276) b5233.betzy.sigma2.no ( 277) b5233.betzy.sigma2.no ( 278) b5233.betzy.sigma2.no ( 279) b5233.betzy.sigma2.no ( 280) b5233.betzy.sigma2.no ( 281) b5233.betzy.sigma2.no ( 282) b5233.betzy.sigma2.no ( 283) b5233.betzy.sigma2.no ( 284) b5233.betzy.sigma2.no ( 285) b5233.betzy.sigma2.no ( 286) b5233.betzy.sigma2.no ( 287) b5233.betzy.sigma2.no ( 288) b5233.betzy.sigma2.no ( 289) b5233.betzy.sigma2.no ( 290) b5233.betzy.sigma2.no ( 291) b5233.betzy.sigma2.no ( 292) b5233.betzy.sigma2.no ( 293) b5233.betzy.sigma2.no ( 294) b5233.betzy.sigma2.no ( 295) b5233.betzy.sigma2.no ( 296) b5233.betzy.sigma2.no ( 297) b5233.betzy.sigma2.no ( 298) b5233.betzy.sigma2.no ( 299) b5233.betzy.sigma2.no ( 300) b5233.betzy.sigma2.no ( 301) b5233.betzy.sigma2.no ( 302) b5233.betzy.sigma2.no ( 303) b5233.betzy.sigma2.no ( 304) b5233.betzy.sigma2.no ( 305) b5233.betzy.sigma2.no ( 306) b5233.betzy.sigma2.no ( 307) b5233.betzy.sigma2.no ( 308) b5233.betzy.sigma2.no ( 309) b5233.betzy.sigma2.no ( 310) b5233.betzy.sigma2.no ( 311) b5233.betzy.sigma2.no ( 312) b5233.betzy.sigma2.no ( 313) b5233.betzy.sigma2.no ( 314) b5233.betzy.sigma2.no ( 315) b5233.betzy.sigma2.no ( 316) b5233.betzy.sigma2.no ( 317) b5233.betzy.sigma2.no ( 318) b5233.betzy.sigma2.no ( 319) b5233.betzy.sigma2.no ( 320) b5233.betzy.sigma2.no ( 321) b5233.betzy.sigma2.no ( 322) b5233.betzy.sigma2.no ( 323) b5233.betzy.sigma2.no ( 324) b5233.betzy.sigma2.no ( 325) b5233.betzy.sigma2.no ( 326) b5233.betzy.sigma2.no ( 327) b5233.betzy.sigma2.no ( 328) b5233.betzy.sigma2.no ( 329) b5233.betzy.sigma2.no ( 330) b5233.betzy.sigma2.no ( 331) b5233.betzy.sigma2.no ( 332) b5233.betzy.sigma2.no ( 333) b5233.betzy.sigma2.no ( 334) b5233.betzy.sigma2.no ( 335) b5233.betzy.sigma2.no ( 336) b5233.betzy.sigma2.no ( 337) b5233.betzy.sigma2.no ( 338) b5233.betzy.sigma2.no ( 339) b5233.betzy.sigma2.no ( 340) b5233.betzy.sigma2.no ( 341) b5233.betzy.sigma2.no ( 342) b5233.betzy.sigma2.no ( 343) b5233.betzy.sigma2.no ( 344) b5233.betzy.sigma2.no ( 345) b5233.betzy.sigma2.no ( 346) b5233.betzy.sigma2.no ( 347) b5233.betzy.sigma2.no ( 348) b5233.betzy.sigma2.no ( 349) b5233.betzy.sigma2.no ( 350) b5233.betzy.sigma2.no ( 351) b5233.betzy.sigma2.no ( 352) b5233.betzy.sigma2.no ( 353) b5233.betzy.sigma2.no ( 354) b5233.betzy.sigma2.no ( 355) b5233.betzy.sigma2.no ( 356) b5233.betzy.sigma2.no ( 357) b5233.betzy.sigma2.no ( 358) b5233.betzy.sigma2.no ( 359) b5233.betzy.sigma2.no ( 360) b5233.betzy.sigma2.no ( 361) b5233.betzy.sigma2.no ( 362) b5233.betzy.sigma2.no ( 363) b5233.betzy.sigma2.no ( 364) b5233.betzy.sigma2.no ( 365) b5233.betzy.sigma2.no ( 366) b5233.betzy.sigma2.no ( 367) b5233.betzy.sigma2.no ( 368) b5233.betzy.sigma2.no ( 369) b5233.betzy.sigma2.no ( 370) b5233.betzy.sigma2.no ( 371) b5233.betzy.sigma2.no ( 372) b5233.betzy.sigma2.no ( 373) b5233.betzy.sigma2.no ( 374) b5233.betzy.sigma2.no ( 375) b5233.betzy.sigma2.no ( 376) b5233.betzy.sigma2.no ( 377) b5233.betzy.sigma2.no ( 378) b5233.betzy.sigma2.no ( 379) b5233.betzy.sigma2.no ( 380) b5233.betzy.sigma2.no ( 381) b5233.betzy.sigma2.no ( 382) b5233.betzy.sigma2.no ( 383) b5233.betzy.sigma2.no ( 384) b5234.betzy.sigma2.no ( 385) b5234.betzy.sigma2.no ( 386) b5234.betzy.sigma2.no ( 387) b5234.betzy.sigma2.no ( 388) b5234.betzy.sigma2.no ( 389) b5234.betzy.sigma2.no ( 390) b5234.betzy.sigma2.no ( 391) b5234.betzy.sigma2.no ( 392) b5234.betzy.sigma2.no ( 393) b5234.betzy.sigma2.no ( 394) b5234.betzy.sigma2.no ( 395) b5234.betzy.sigma2.no ( 396) b5234.betzy.sigma2.no ( 397) b5234.betzy.sigma2.no ( 398) b5234.betzy.sigma2.no ( 399) b5234.betzy.sigma2.no ( 400) b5234.betzy.sigma2.no ( 401) b5234.betzy.sigma2.no ( 402) b5234.betzy.sigma2.no ( 403) b5234.betzy.sigma2.no ( 404) b5234.betzy.sigma2.no ( 405) b5234.betzy.sigma2.no ( 406) b5234.betzy.sigma2.no ( 407) b5234.betzy.sigma2.no ( 408) b5234.betzy.sigma2.no ( 409) b5234.betzy.sigma2.no ( 410) b5234.betzy.sigma2.no ( 411) b5234.betzy.sigma2.no ( 412) b5234.betzy.sigma2.no ( 413) b5234.betzy.sigma2.no ( 414) b5234.betzy.sigma2.no ( 415) b5234.betzy.sigma2.no ( 416) b5234.betzy.sigma2.no ( 417) b5234.betzy.sigma2.no ( 418) b5234.betzy.sigma2.no ( 419) b5234.betzy.sigma2.no ( 420) b5234.betzy.sigma2.no ( 421) b5234.betzy.sigma2.no ( 422) b5234.betzy.sigma2.no ( 423) b5234.betzy.sigma2.no ( 424) b5234.betzy.sigma2.no ( 425) b5234.betzy.sigma2.no ( 426) b5234.betzy.sigma2.no ( 427) b5234.betzy.sigma2.no ( 428) b5234.betzy.sigma2.no ( 429) b5234.betzy.sigma2.no ( 430) b5234.betzy.sigma2.no ( 431) b5234.betzy.sigma2.no ( 432) b5234.betzy.sigma2.no ( 433) b5234.betzy.sigma2.no ( 434) b5234.betzy.sigma2.no ( 435) b5234.betzy.sigma2.no ( 436) b5234.betzy.sigma2.no ( 437) b5234.betzy.sigma2.no ( 438) b5234.betzy.sigma2.no ( 439) b5234.betzy.sigma2.no ( 440) b5234.betzy.sigma2.no ( 441) b5234.betzy.sigma2.no ( 442) b5234.betzy.sigma2.no ( 443) b5234.betzy.sigma2.no ( 444) b5234.betzy.sigma2.no ( 445) b5234.betzy.sigma2.no ( 446) b5234.betzy.sigma2.no ( 447) b5234.betzy.sigma2.no ( 448) b5234.betzy.sigma2.no ( 449) b5234.betzy.sigma2.no ( 450) b5234.betzy.sigma2.no ( 451) b5234.betzy.sigma2.no ( 452) b5234.betzy.sigma2.no ( 453) b5234.betzy.sigma2.no ( 454) b5234.betzy.sigma2.no ( 455) b5234.betzy.sigma2.no ( 456) b5234.betzy.sigma2.no ( 457) b5234.betzy.sigma2.no ( 458) b5234.betzy.sigma2.no ( 459) b5234.betzy.sigma2.no ( 460) b5234.betzy.sigma2.no ( 461) b5234.betzy.sigma2.no ( 462) b5234.betzy.sigma2.no ( 463) b5234.betzy.sigma2.no ( 464) b5234.betzy.sigma2.no ( 465) b5234.betzy.sigma2.no ( 466) b5234.betzy.sigma2.no ( 467) b5234.betzy.sigma2.no ( 468) b5234.betzy.sigma2.no ( 469) b5234.betzy.sigma2.no ( 470) b5234.betzy.sigma2.no ( 471) b5234.betzy.sigma2.no ( 472) b5234.betzy.sigma2.no ( 473) b5234.betzy.sigma2.no ( 474) b5234.betzy.sigma2.no ( 475) b5234.betzy.sigma2.no ( 476) b5234.betzy.sigma2.no ( 477) b5234.betzy.sigma2.no ( 478) b5234.betzy.sigma2.no ( 479) b5234.betzy.sigma2.no ( 480) b5234.betzy.sigma2.no ( 481) b5234.betzy.sigma2.no ( 482) b5234.betzy.sigma2.no ( 483) b5234.betzy.sigma2.no ( 484) b5234.betzy.sigma2.no ( 485) b5234.betzy.sigma2.no ( 486) b5234.betzy.sigma2.no ( 487) b5234.betzy.sigma2.no ( 488) b5234.betzy.sigma2.no ( 489) b5234.betzy.sigma2.no ( 490) b5234.betzy.sigma2.no ( 491) b5234.betzy.sigma2.no ( 492) b5234.betzy.sigma2.no ( 493) b5234.betzy.sigma2.no ( 494) b5234.betzy.sigma2.no ( 495) b5234.betzy.sigma2.no ( 496) b5234.betzy.sigma2.no ( 497) b5234.betzy.sigma2.no ( 498) b5234.betzy.sigma2.no ( 499) b5234.betzy.sigma2.no ( 500) b5234.betzy.sigma2.no ( 501) b5234.betzy.sigma2.no ( 502) b5234.betzy.sigma2.no ( 503) b5234.betzy.sigma2.no ( 504) b5234.betzy.sigma2.no ( 505) b5234.betzy.sigma2.no ( 506) b5234.betzy.sigma2.no ( 507) b5234.betzy.sigma2.no ( 508) b5234.betzy.sigma2.no ( 509) b5234.betzy.sigma2.no ( 510) b5234.betzy.sigma2.no ( 511) b5234.betzy.sigma2.no atm component = cam rof component = mosart glc component = dglc atm_prognostic = T rof_prognostic = T glc_present = T cism_evolve = F flds_scalar_name = cpl_scalars flds_scalar_num = 4 flds_scalar_index_nx = 1 flds_scalar_index_ny = 2 flds_scalar_index_nextsw_cday = 3 flds_co2a= T flds_co2b= F flds_co2c= F sending co2 to atm = F receiving co2 from atm = T (shr_dust_emis_read) Read in dust_emis_inparm namelist from: drv_flds_in (shr_drydep_read) Read in drydep_inparm namelist from: drv_flds_in (shr_drydep_init) Number of dry deposition fields transfered is 4 (shr_fire_emis_readnl) Read in fire_emis_readnl namelist from: drv_flds_in (shr_megan_readnl) Read in megan_emis_readnl namelist from: drv_flds_in MEGAN entries: species : isoprene 1.0000 * isoprene species : monoterp 1.0000 * myrcene 1.0000 * sabinene 1.0000 * limonene 1.0000 * carene_3 1.0000 * ocimene_t_b 1.0000 * pinene_b 1.0000 * pinene_a (shr_carma_readnl) Read in carma_inparm namelist from: drv_flds_in shr_carma_readnl: no carma_inparm namelist found in drv_flds_in (shr_ndep_readnl) Read in ndep_inparm namelist from: drv_flds_in (shr_orb_params) ------ Computed Orbital Parameters ------ (shr_orb_params) Eccentricity = 1.670366E-02 (shr_orb_params) Obliquity (deg) = 2.343977E+01 (shr_orb_params) Obliquity (rad) = 4.091011E-01 (shr_orb_params) Long of perh(deg) = 1.028955E+02 (shr_orb_params) Long of perh(rad) = 4.937458E+00 (shr_orb_params) Long at v.e.(rad) = -3.247250E-02 (shr_orb_params) ----------------------------------------- LND: PIO numiotasks= 4 LND: PIO stride= 128 LND: PIO rearranger= 2 LND: PIO root= 1 dtime = 1800 (shr_orb_params) ------ Computed Orbital Parameters ------ (shr_orb_params) Eccentricity = 1.670366E-02 (shr_orb_params) Obliquity (deg) = 2.343977E+01 (shr_orb_params) Obliquity (rad) = 4.091011E-01 (shr_orb_params) Long of perh(deg) = 1.028955E+02 (shr_orb_params) Long of perh(rad) = 4.937458E+00 (shr_orb_params) Long at v.e.(rad) = -3.247250E-02 (shr_orb_params) ----------------------------------------- unknown Attempting to initialize the land model ..... Attempting to initialize run control settings ..... Read in clm_inparm namelist from: lnd_in interpolating initial dataset using source file /cluster/shared/noresm/inputdata/lnd/clm2/initdata_esmf/ctsm5.3/ctsm53019_f09_BNF_hist.clm2.r.2000-01-01-00000.nc Read in clm_initinterp_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 initInterp settings: &CLM_INITINTERP_INPARM INIT_INTERP_METHOD = general , INIT_INTERP_FILL_MISSING_WITH_NATVEG = F / rooting_profile settings: rooting_profile_method_water = 1 (rooting_profile_varindex_water = 1 ) rooting_profile_method_carbon = 1 (rooting_profile_varindex_carbon = 2 ) soilwater_movement settings: soilwater_movement_method = 1 upper_boundary_condition = 1 lower_boundary_condition = 2 use_bedrock = T dtmin = 60.0000000000000 verySmall = 1.000000000000000E-008 xTolerUpper = 0.100000000000000 xTolerLower = 1.000000000000000E-002 expensive = 42 inexpensive = 1 flux_calculation = 1 soil_resis settings: soil_resis_method = 1 Read in canopyfluxes_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 canopyfluxes_inparm settings: &CANOPYFLUXES_INPARM USE_UNDERCANOPY_STABILITY = F, USE_BIOMASS_HEAT_STORAGE = T, ITMAX_CANOPY_FLUXES = 40 / Read in clm_CanopyHydrology_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 canopyhydrology settings: use_clm5_fpi = T Read in surfacealbedo_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 surfacealbedo_inparm settings &SURFACEALBEDO_INPARM SNOWVEG_AFFECTS_RADIATION = T / Read in clm_SnowHydrology_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 SnowHydrology settings: &CLM_SNOWHYDROLOGY_INPARM WIND_DEPENDENT_SNOW_DENSITY = T, SNOW_OVERBURDEN_COMPACTION_METHOD = Vionnet2012 , LOTMP_SNOWDENSITY_METHOD = Slater2017 , OVERBURDEN_COMPRESS_TFACTOR = 8.000000000000000E-002, RESET_SNOW = F, RESET_SNOW_GLC = F, RESET_SNOW_GLC_ELA = 1000000000.00000 , SNOW_DZMIN_1 = 1.000000000000000E-002, SNOW_DZMAX_L_1 = 3.000000000000000E-002, SNOW_DZMAX_U_1 = 2.000000000000000E-002, SNOW_DZMIN_2 = 1.500000000000000E-002, SNOW_DZMAX_L_2 = 7.000000000000001E-002, SNOW_DZMAX_U_2 = 5.000000000000000E-002 / Read in clmu_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 urban air conditioning/heating and wasteheat = ON_WASTEHEAT urban explicit air-conditioning adoption rate = T urban traffic flux = F Read in clm_humanindex_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 Read in soilhydrology_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 soilhydrology_inparm settings: &SOILHYDROLOGY_INPARM BASEFLOW_SCALAR = 1.000000000000000E-003 / Successfully initialized run control settings Attempting to read maxsoil_patches and numcft from the surface data ..... (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc Successfully read maxsoil_patches and numcft from the surface data Attempting to read nlevurb from the surface data ..... (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc Successfully read nlevurb from the surface data soil_layerstruct_predefined varpar 20SL_8.5m soil_layerstruct_userdefined varpar -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 nlevsoi, nlevgrnd varpar 20 25 CLM varpar subsurface discretization levels nlevsoi = 20 nlevgrnd = 25 nlevdecomp = 1 nlevdecomp_full = 1 nlevlak = 10 define run: source = Community Terrestrial Systems Model model_version = unknown run type = initial case title = NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01 username = ingo hostname = betzy process control parameters: use_lch4 = F use_nitrif_denitrif = F use_extralakelayers = F use_vichydro = F use_excess_ice = T use_cn = F use_cndv = F use_crop = F flush_gdd20 = F use_fertilizer = F use_grainproduct = F crop_residue_removal_frac = 0.000000000000000E+000 o3_veg_stress_method = unset use_snicar_frc = F snicar_use_aerosol = T use_vancouver = F use_mexicocity = F use_noio = F use_SSRE = F input data files: PFT physiology and parameters file = /cluster/shared/noresm/inputdata/lnd/clm2/paramdata/ctsm60_params.c250311.nc surface data = /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30 np4.pg3_hist_2000_78pfts_c240908.nc hillslope_file, hillslope dataset not set fatmlndfrc not set, setting frac/mask to 1 Convert ocean to land = T Number of ACTIVE PFTS (0 means input pft data NOT collapsed to n_dom_pfts) = 0 Number of ACTIVE LANDUNITS (0 means input landunit data NOT collapsed to n_d om_landunits) = 0 Collapse urban landunits; done before collapsing all landunits to n_dom_land units; .false. means do nothing i.e. keep all the urban landunits, though n_dom _landunits may still remove them = F Threshold above which the model keeps the soil landunit = 0.000000000000000E+000 Threshold above which the model keeps the crop landunit = 0.000000000000000E+000 Threshold above which the model keeps the glacier landunit = 0.000000000000000E+000 Threshold above which the model keeps the lake landunit = 0.000000000000000E+000 Threshold above which the model keeps the wetland landunit = 0.000000000000000E+000 Threshold above which the model keeps the urban landunits = 0.000000000000000E+000 snow optical properties file = /cluster/shared/noresm/inputdata/lnd/clm2/snicardata/snicar_optics_5bnd_c013122.nc snow aging parameters file = /cluster/shared/noresm/inputdata/lnd/clm2/snicardata/snicar_drdt_bst_fit_60_c070416.nc SNICAR: downward solar radiation spectrum type =mid_latitude_winter SNICAR: dust optics type = sahara SNICAR: number of bands in snow albedo calculation = 5 SNICAR: snow grain shape type = hexagonal_plate SNICAR: BC-snow internal mixing = T SNICAR: dust-snow internal mixing = F SNICAR: OC in snow = F Number of snow layers = 12 Max snow depth (mm) = 0.1000000000D+05 glc number of elevation classes = 10 glc CLM glacier areas and topography WILL evolve dynamically glc snow persistence max days = 0 initial data interpolated from: /cluster/shared/noresm/inputdata/lnd/clm2/initdata_esmf/ctsm5.3/ctsm53019_f09_BNF_hist.clm2.r.2000-01-01-00000.nc atmospheric forcing data is from cesm atm model Restart parameters: restart pointer file directory = . restart pointer file name = rpointer.lnd model physics parameters: CO2 volume mixing ratio = diagnostic land-ice albedos (unitless 0-1) = 0.500000000000000 0.300000000000000 hillslope hydrology = F downscale hillslope meteorology = T hillslope routing = F hillslope_fsat_equals_zero = F pre-defined soil layer structure = 20SL_8.5m user-defined soil layer structure = -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 -9999999.00000000 user-defined number of soil layers = -9999999 plant hydraulic stress = T nsegspc = 35 perchroot (plant water stress based on unfrozen layers only) = F perchroot (plant water stress based on time-integrated active layer only) = F Lake Model Namelists: Increased mixing relative to Hostetler wind-driven eddy expression will be used for deep lakes exceeding depth 25.0000000000000 by a factor of 10.0000000000000 . Albedo over melting lakes will approach values (visible, NIR): 0.100000000000000 0.100000000000000 as compared with 0.60, 0.40 for cold frozen lakes with no snow. plant nitrogen model namelists: use_flexibleCN = F use_luna = T ED/FATES: use_fates = F dynamic_subgrid settings: &DYNAMIC_SUBGRID FLANDUSE_TIMESERIES = , DO_TRANSIENT_PFTS = F, DO_TRANSIENT_CROPS = F, DO_TRANSIENT_LAKES = F, DO_TRANSIENT_URBAN = F, DO_HARVEST = F, DO_GROSSUNREP = F, RESET_DYNBAL_BASELINES = F, FOR_TESTING_ALLOW_NON_ANNUAL_CHANGES = F, FOR_TESTING_ZERO_DYNBAL_FLUXES = F / hillslope_properties settings: hillslope_pft_distribution_method = Standard hillslope_soil_profile_method = Uniform Input land mesh file /cluster/shared/noresm/inputdata/share/meshes/ne30pg3_ESMFmesh_cdf5_c20211018.nc Input mask mesh file /cluster/shared/noresm/inputdata/share/meshes/tnx1v4_20170601_cdf5_ESMFmesh.nc Obtaining land mask and fraction from mask file /cluster/shared/noresm/inputdata/share/meshes/tnx1v4_20170601_cdf5_ESMFmesh.nc Attempting to read global dimensions from surface dataset (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc global ni,nj = 48600 1 model grid is not 2-dimensional Computing land fraction and land mask by mapping mask from mesh_mask file decomp precompute numg,nclumps,seglen1,avg_seglen,nsegspc= 15563 512 T 1.000000 30.39648 Surface Grid Characteristics longitude points = 48600 latitude points = 1 total number of land gridcells = 15563 Decomposition Characteristics clumps per process = 1 Attempting to read GLACIER_REGION... (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (OPNFIL): Successfully opened file lnd_in on unit= 69 clm_glacier_behavior settings: &CLM_GLACIER_BEHAVIOR GLACIER_REGION_BEHAVIOR = single_at_atm_topo UNSET virtual multiple UNSET UNSET UNSET UNSET UNSET UNSET UNSET , GLACIER_REGION_MELT_BEHAVIOR = remains_in_place UNSET replaced_by_ice replaced_by_ice UNSET UNSET UNSET UNSET UNSET UNSET UNSET , GLACIER_REGION_ICE_RUNOFF_BEHAVIOR = melted UNSET remains_ice remains_ice UNSET UNSET UNSET UNSET UNSET UNSET UNSET / Reading in urban input data from fsurdat file ... (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc UrbanInput /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30 np4.pg3_hist_2000_78pfts_c240908.nc Sucessfully read urban input data Attempting to read PFT physiological data ..... (GETFIL): attempting to find local file ctsm60_params.c250311.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/paramdata/ctsm60_params.c250311.nc Successfully read PFT physiological data Attempting to read surface boundary data ..... (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc check_var: variable xc is not on dataset check_domain_attributes surface lon_var = LONGXY lat_var =LATIXY domain_clean: cleaning 48600 1 ncd_inqvid: variable irrigation_method is not on dataset WARNING: irrigation_method NOT on surfdata file; using default collapse_crop_types irrigate=.F., so merging irrigated pfts with rainfed collapse_crop_types merging crops into C3 generic crops Successfully read surface boundary data Surface Grid Characteristics longitude points = 48600 latitude points = 1 total number of gridcells = 15563 total number of landunits = 39868 total number of columns = 78405 total number of patches = 132536 total number of cohorts = 0 Decomposition Characteristics clumps per process = 1 proc = 0 beg gridcell= 1 end gridcell= 31 gridcells per proc = 31 proc = 0 beg landunit= 1 end landunit= 81 landunits per proc = 81 proc = 0 beg column = 1 end column = 170 columns per proc = 170 proc = 0 beg patch = 1 end patch = 276 patches per proc = 276 proc = 0 beg cohort = 1 end cohort = 0 coh per proc = 0 proc = 0 nclumps = 1 Read in clm_canopy_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 Read in photosyns_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 photosyns_inparm settings: &PHOTOSYNS_INPARM LEAFRESP_METHOD = 0, LIGHT_INHIBIT = T, ROOTSTEM_ACC = F, STOMATALCOND_METHOD = Medlyn2011 , MODIFYPHOTO_AND_LMR_FORCROP = T / paramMod.F90::readParameters :: reading CLM parameters (GETFIL): attempting to find local file ctsm60_params.c250311.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/paramdata/ctsm60_params.c250311.nc ******** CLM Time Manager Configuration ******** Calendar type: NO_LEAP Timestep size (seconds): 1800 Start date (yr mon day tod): 1 1 1 0 Reference date (yr mon day tod): 1 1 1 0 Current step number: 1 Current date (yr mon day tod): 1 1 1 1800 ************************************************ Skip balance checking for the first 3 time steps (GETFIL): attempting to find local file ctsm60_params.c250311.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/paramdata/ctsm60_params.c250311.nc urbantv_streams settings: stream_year_first_urbantv = 2000 stream_year_last_urbantv = 2000 model_year_align_urbantv = 1 stream_fldFileName_urbantv = /cluster/shared/noresm/inputdata/lnd/clm2/urbandata/CTSM52_urbantv_Li_2024_0.9x1.25_simyr1849-2106_c20230621.nc stream_meshfile_urbantv = /cluster/shared/noresm/inputdata/lnd/clm2/urbandata/CLM50_tbuildmax_Oleson_2016_0.9x1_ESMFmesh_cdf5_100621.nc urbantv_tintalgo = linear stream_varname = tbuildmax_TBD stream_varname = tbuildmax_HD stream_varname = tbuildmax_MD stream_varname = p_ac_TBD stream_varname = p_ac_HD stream_varname = p_ac_MD (shr_stream_getCalendar) opening stream filename = /cluster/shared/noresm/inputdata/lnd/clm2/urbandata/CTSM52_urbantv_Li_2024_0.9x1.25_simyr1849-2106_c20230621.nc (shr_stream_getCalendar) closing stream filename = /cluster/shared/noresm/inputdata/lnd/clm2/urbandata/CTSM52_urbantv_Li_2024_0.9x1.25_simyr1849-2106_c20230621.nc (shr_strdata_set_stream_domain) stream_nlev = 1 (shr_sdat_init) Creating field bundle array fldbun_data of size 2 for stream 1 adding field tbuildmax_TBD to fldbun_data for stream 1 adding field tbuildmax_HD to fldbun_data for stream 1 adding field tbuildmax_MD to fldbun_data for stream 1 adding field p_ac_TBD to fldbun_data for stream 1 adding field p_ac_HD to fldbun_data for stream 1 adding field p_ac_MD to fldbun_data for stream 1 (shr_strdata_print) ---------------------------------------------------------- (shr_strdata_print) name = Urban time varying data (shr_strdata_print) calendar = NO_LEAP (shr_strdata_print) eccen = 1.000000E+36 (shr_strdata_print) mvelpp = 1.000000E+36 (shr_strdata_print) lambm0 = 1.000000E+36 (shr_strdata_print) obliqr = 1.000000E+36 (shr_strdata_print) pio_iotype = 1 (shr_strdata_print) nstreams = 1 (shr_strdata_print) Per stream information (shr_strdata_print) taxMode ( 1) = extend (shr_strdata_print) dtlimit ( 1) = 1.000000E+30 (shr_strdata_print) mapalgo ( 1) = nn (shr_strdata_print) tintalgo( 1) = linear (shr_strdata_print) readmode( 1) = single (shr_strdata_print) vectors ( 1) = null (shr_strdata_print) src_mask( 1) = 0 (shr_strdata_print) dst_mask( 1) = 0 (shr_strdata_print) (shr_strdata_print) ---------------------------------------------------------- successfully initialized sdat (shr_strdata_readstrm) opening : /cluster/shared/noresm/inputdata/lnd/clm2/urbandata/CTSM52_urbantv_Li_2024_0.9x1.25_simyr1849-2106_c20230621.nc (shr_strdata_readstrm) setting pio descriptor : /cluster/shared/noresm/inputdata/lnd/clm2/urbandata/CTSM52_urbantv_Li_2024_0.9x1.25_simyr1849-2106_c20230621.nc (shr_strdata_set_stream_iodesc) setting iodesc for : tbuildmax_TBD with dimlens(1), dimlens(2) = 288 192 variable as time dimension time (shr_strdata_readstrm) reading file lb: /cluster/shared/noresm/inputdata/lnd/clm2/urbandata/CTSM52_urbantv_Li_2024_0.9x1.25_simyr1849-2106_c20230621.nc 152 (shr_strdata_readstrm) reading file ub: /cluster/shared/noresm/inputdata/lnd/clm2/urbandata/CTSM52_urbantv_Li_2024_0.9x1.25_simyr1849-2106_c20230621.nc 152 (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc zsoi 1.000000000000000E-002 4.000000000000000E-002 9.000000000000000E-002 0.160000000000000 0.260000000000000 0.400000000000000 0.580000000000000 0.800000000000000 1.06000000000000 1.36000000000000 1.70000000000000 2.08000000000000 2.50000000000000 2.99000000000000 3.58000000000000 4.27000000000000 5.06000000000000 5.95000000000000 6.94000000000000 8.03000000000000 9.79500000000000 13.3277669529664 19.4831291701244 28.8707244343160 41.9984368640029 zisoi: 0.000000000000000E+000 2.000000000000000E-002 6.000000000000000E-002 0.120000000000000 0.200000000000000 0.320000000000000 0.480000000000000 0.680000000000000 0.920000000000000 1.20000000000000 1.52000000000000 1.88000000000000 2.28000000000000 2.72000000000000 3.26000000000000 3.90000000000000 4.64000000000000 5.48000000000000 6.42000000000000 7.46000000000000 8.60000000000000 10.9900000000000 15.6655339059327 23.3007244343160 34.4407244343160 49.5561492936897 dzsoi: 2.000000000000000E-002 4.000000000000000E-002 6.000000000000000E-002 8.000000000000000E-002 0.120000000000000 0.160000000000000 0.200000000000000 0.240000000000000 0.280000000000000 0.320000000000000 0.360000000000000 0.400000000000000 0.440000000000000 0.540000000000000 0.640000000000000 0.740000000000000 0.840000000000000 0.940000000000000 1.04000000000000 1.14000000000000 2.39000000000000 4.67553390593274 7.63519052838329 11.1400000000000 15.1154248593737 dzsoi_decomp: 2.000000000000000E-002 4.000000000000000E-002 6.000000000000000E-002 8.000000000000000E-002 0.120000000000000 0.160000000000000 0.200000000000000 0.240000000000000 0.280000000000000 0.320000000000000 0.360000000000000 0.400000000000000 0.440000000000000 0.540000000000000 0.640000000000000 0.740000000000000 0.840000000000000 0.940000000000000 1.04000000000000 1.14000000000000 2.39000000000000 4.67553390593274 7.63519052838329 11.1400000000000 15.1154248593737 jmin_bedrock: 6 dzmin = 1.000000000000000E-002 1.500000000000000E-002 2.500000000000000E-002 5.500000000000000E-002 0.115000000000000 0.235000000000000 0.475000000000000 0.955000000000000 1.91500000000000 3.83500000000000 7.67500000000000 15.3550000000000 dzmax_l = 3.000000000000000E-002 7.000000000000001E-002 0.180000000000000 0.410000000000000 0.880000000000000 1.83000000000000 3.74000000000000 7.57000000000000 15.2400000000000 30.5900000000000 61.3000000000000 1.797693134862316E+308 dzmax_u = 2.000000000000000E-002 5.000000000000000E-002 0.110000000000000 0.230000000000000 0.470000000000000 0.950000000000000 1.91000000000000 3.83000000000000 7.67000000000000 15.3500000000000 30.7100000000000 1.797693134862316E+308 (OPNFIL): Successfully opened file lnd_in on unit= 69 atm2lnd_inparm settings: repartition_rain_snow = T glcmec_downscale_longwave = T lapse_rate = 6.000000000000000E-003 lapse_rate_longwave = 3.200000000000000E-002 longwave_downscaling_limit = 0.500000000000000 precip_repartition_glc_all_snow_t = -2.00000000000000 precip_repartition_glc_all_rain_t = 0.000000000000000E+000 precip_repartition_nonglc_all_snow_t = 0.000000000000000E+000 precip_repartition_nonglc_all_rain_t = 2.00000000000000 Read in lnd2atm_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 lnd2atm_inparm settings: &LND2ATM_INPARM MELT_NON_ICESHEET_ICE_RUNOFF = T / excess ice streams are off Read in clm_temperature_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 Read in clm_soilstate_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 (GETFIL): attempting to find local file ctsm60_params.c250311.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/paramdata/ctsm60_params.c250311.nc Attempting to read soil color, sand and clay boundary data ..... (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc Attempting to read organic matter data ..... organicrd /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30 np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc Successfully read organic matter data Read in water_tracers namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 water_tracers settings &WATER_TRACERS_INPARM ENABLE_WATER_TRACER_CONSISTENCY_CHECKS = F, ENABLE_WATER_ISOTOPES = F / Read in friction_velocity namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 friction_velocity settings: &FRICTION_VELOCITY ZETAMAXSTABLE = 2.00000000000000 / (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc ncd_inqvid: variable ETALAKE is not on dataset WARNING:: ETALAKE not found on surface data set. All lake columns will have eta set equal to default value as a function of depth. ncd_inqvid: variable LAKEFETCH is not on dataset WARNING:: LAKEFETCH not found on surface data set. All lake columns will have f etch set equal to default value as a function of depth. Attempting to initialize time invariant variables for lakes Successfully initialized time invariant variables for lakes Read in clm_soilhydrology_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc Attempting to read soil colo data ..... prigentroughness stream settings: use_prigent_roughness = T stream_fldFileName_prigentroughness = /cluster/shared/noresm/inputdata/lnd/clm2/dustemisdata/Prigent_2005_roughness_0 .25x0.25_cdf5_c240127.nc stream_meshfile_prigentroughness = /cluster/shared/noresm/inputdata/lnd/clm2/dustemisdata/dust_0.25x0.25_ESMFmesh_ cdf5_c240222.nc prigentroughnessmapalgo = bilinear stream_varnames = Z0a (shr_stream_getCalendar) opening stream filename = /cluster/shared/noresm/inputdata/lnd/clm2/dustemisdata/Prigent_2005_roughness_0.25x0.25_cdf5_c240127.nc (shr_stream_getCalendar) closing stream filename = /cluster/shared/noresm/inputdata/lnd/clm2/dustemisdata/Prigent_2005_roughness_0.25x0.25_cdf5_c240127.nc (shr_strdata_set_stream_domain) stream_nlev = 1 (shr_sdat_init) Creating field bundle array fldbun_data of size 2 for stream 1 adding field Z0a to fldbun_data for stream 1 (shr_strdata_print) ---------------------------------------------------------- (shr_strdata_print) name = Prigent roughness (shr_strdata_print) calendar = NO_LEAP (shr_strdata_print) eccen = 1.000000E+36 (shr_strdata_print) mvelpp = 1.000000E+36 (shr_strdata_print) lambm0 = 1.000000E+36 (shr_strdata_print) obliqr = 1.000000E+36 (shr_strdata_print) pio_iotype = 1 (shr_strdata_print) nstreams = 1 (shr_strdata_print) Per stream information (shr_strdata_print) taxMode ( 1) = extend (shr_strdata_print) dtlimit ( 1) = 1.000000E+30 (shr_strdata_print) mapalgo ( 1) = bilinear (shr_strdata_print) tintalgo( 1) = linear (shr_strdata_print) readmode( 1) = single (shr_strdata_print) vectors ( 1) = null (shr_strdata_print) src_mask( 1) = 0 (shr_strdata_print) dst_mask( 1) = 0 (shr_strdata_print) (shr_strdata_print) ---------------------------------------------------------- successfully initialized sdat (shr_strdata_readstrm) opening : /cluster/shared/noresm/inputdata/lnd/clm2/dustemisdata/Prigent_2005_roughness_0.25x0.25_cdf5_c240127.nc (shr_strdata_readstrm) setting pio descriptor : /cluster/shared/noresm/inputdata/lnd/clm2/dustemisdata/Prigent_2005_roughness_0.25x0.25_cdf5_c240127.nc (shr_strdata_set_stream_iodesc) setting iodesc for : Z0a with dimlens(1), dimlens(2) = 1440 720 variable as time dimension time (shr_strdata_readstrm) reading file lb: /cluster/shared/noresm/inputdata/lnd/clm2/dustemisdata/Prigent_2005_roughness_0.25x0.25_cdf5_c240127.nc 1 (shr_strdata_readstrm) reading file ub: /cluster/shared/noresm/inputdata/lnd/clm2/dustemisdata/Prigent_2005_roughness_0.25x0.25_cdf5_c240127.nc 1 Read in scf_swenson_lawrence_2012_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 scf_swenson_lawrence_2012_inparm settings: &SCF_SWENSON_LAWRENCE_2012_INPARM INT_SNOW_MAX = 2000.00000000000 , N_MELT_GLCMEC = 10.0000000000000 / Read in irrigation_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 irrigation_inparm settings: irrig_min_lai = 0.000000000000000E+000 irrig_start_time = 21600 irrig_length = 14400 irrig_target_smp = -3400.00000000000 irrig_depth = 0.600000000000000 irrig_threshold_fraction = 1.00000000000000 limit_irrigation_if_rof_enabled = F use_groundwater_irrigation = F irrig_method_default = drip (GETFIL): attempting to find local file megan21_emis_factors_78pft_c20161108.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/trop_mozart/emis/megan21_emis_factors_78pft_c20161108.nc (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc Read in lifire_inparm namelist (OPNFIL): Successfully opened file lnd_in on unit= 69 lifire_inparm settings: &LIFIRE_INPARM CLI_SCALE = 3.500000000000000E-002, BOREAL_PEATFIRE_C = 4.200000000000000E-005, POT_HMN_IGN_COUNTS_ALPHA = 3.500000000000000E-003, NON_BOREAL_PEATFIRE_C = 1.000000000000000E-003, CROPFIRE_A1 = 0.300000000000000 , RH_LOW = 30.0000000000000 , RH_HGH = 80.0000000000000 , BT_MIN = 0.300000000000000 , BT_MAX = 0.700000000000000 , OCCUR_HI_GDP_TREE = 0.390000000000000 , LFUEL = 75.0000000000000 , UFUEL = 650.000000000000 , CMB_CMPLT_FACT_LITTER = 0.500000000000000 , CMB_CMPLT_FACT_CWD = 0.250000000000000 , MAX_RH30_AFFECTING_FUEL = 90.0000000000000 , DEFO_FIRE_PRECIP_THRESH_BET = 4.00000000000000 , DEFO_FIRE_PRECIP_THRESH_BDT = 1.80000000000000 , BORPEAT_FIRE_SOILMOIST_DENOM = 0.300000011920929 , NONBORPEAT_FIRE_PRECIP_DENOM = 1.00000000000000 / Initializing variables for time accumulation ..... ------------------------------------------------------------ Accumulated fields No Name Units Type Period Inival Description _______________________________________________________________________ 1 FSD24 W/m2 runmean 48 0. 24hr average of direct solar radiation 2 FSD240 W/m2 runmean 480 0. 240hr average of direct solar radiation 3 FSI24 W/m2 runmean 48 0. 24hr average of diffuse solar radiation 4 FSI240 W/m2 runmean 480 0. 240hr average of diffuse solar radiation 5 po2_240 Pa runmean 480 **** 10-day running mean of parial O2 pressur 6 pco2_240 Pa runmean 480 28. 10-day running mean of parial CO2 pressu 7 pbot240 Pa runmean 480 **** 10-day running mean of air pressure 8 T_VEG24 K runmean 48 0. 24hr average of vegetation temperature 9 T_VEG240 K runmean 480 0. 240hr average of vegetation temperature 10 TREFAV K timeavg 2 0. average over an hour of 2-m temperature 11 TREFAV_U K timeavg 2 0. average over an hour of urban 2-m temper 12 TREFAV_R K timeavg 2 0. average over an hour of rural 2-m temper 13 T10 K runmean 480 293. 10-day running mean of 2-m temperature 14 SOIL10 K runmean 480 273. 10-day running mean of 3rd layer soil te 15 TDM5 K runmean 240 273. 5-day running mean of min 2-m temperatur 16 SNOW_5D m runmean 240 0. 5-day running mean of snowdepth 17 BTRANAV - timeavg 2 0. average over an hour of btran 18 FSUN24 fraction runmean 48 0. 24hr average of diffuse solar radiation 19 FSUN240 fraction runmean 480 0. 240hr average of diffuse solar radiation 20 LAI240 m2/m2 runmean 480 0. 240hr average of leaf area index _______________________________________________________________________ ------------------------------------------------------------ Successfully initialized variables for accumulation Attempting to read snow optical properties... (GETFIL): attempting to find local file snicar_optics_5bnd_c013122.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/snicardata/snicar_optics_5bnd_c013122.nc SnowOptics_init /cluster/shared/noresm/inputdata/lnd/clm2/snicardata/snicar_optics_5bnd_c013122 .nc Successfully read snow optical properties SNICAR: Mie single scatter albedos for direct-beam ice, rds=100um: 0.999991410785448 0.999677827731424 0.997592449135091 0.986304509806403 0.863928682042656 SNICAR: Mie single scatter albedos for diffuse ice, rds=100um: 0.999991539887867 0.999704073340641 0.997636416064969 0.988262688399178 0.873690341747619 SNICAR: Excluding OC aerosols from snow radiative transfer calculations SNICAR: Mie single scatter albedos for hydrophillic BC: 0.366376509030573 0.302303681489226 0.251894063039192 0.217219831114346 0.152419774240122 SNICAR: Mie single scatter albedos for hydrophobic BC: 0.366376509030573 0.302303681489226 0.251894063039192 0.217219831114346 0.152419774240122 SNICAR: Mie single scatter albedos for dust species 1: 0.945075525957643 0.990944764158004 0.992445596757928 0.992323623093726 0.983499305401620 SNICAR: Mie single scatter albedos for dust species 2: 0.870177833008899 0.975911598929455 0.988615167568809 0.992092314397092 0.991441048682888 SNICAR: Mie single scatter albedos for dust species 3: 0.801879523640889 0.947698359322475 0.965178629809113 0.973736423492818 0.983676867341558 SNICAR: Mie single scatter albedos for dust species 4: 0.730129974893964 0.912581894159892 0.943435304619245 0.954190203397395 0.964607465293713 Attempting to read snow aging parameters ..... (GETFIL): attempting to find local file snicar_drdt_bst_fit_60_c070416.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/snicardata/snicar_drdt_bst_fit_60_c070416.nc SnowOptics_init /cluster/shared/noresm/inputdata/lnd/clm2/snicardata/snicar_drdt_bst_fit_60_c07 0416.nc Successfully read snow aging properties SNICAR: snowage tau for T=263K, dTdz = 100 K/m, rhos = 150 kg/m3: 6.32058002982679 SNICAR: snowage kappa for T=263K, dTdz = 100 K/m, rhos = 150 kg/m3: 1.56696894189530 SNICAR: snowage dr/dt_0 for T=263K, dTdz = 100 K/m, rhos = 150 kg/m3: 5.48727550274226 CLM_hist_printflds : number of history fields = 510 ******* LIST OF ALL HISTORY FIELDS ******* 1 SNO_Z m 2 SNO_Z_ICE m 3 ZII m 4 SWBGT C 5 SWBGT_U C 6 SWBGT_R C 7 HUMIDEX C 8 HUMIDEX_U C 9 HUMIDEX_R C 10 WBT C 11 WBT_U C 12 WBT_R C 13 HIA C 14 HIA_U C 15 HIA_R C 16 TBUILD_MAX K 17 P_AC a fraction betwe 18 WIND m/s 19 Wind m/s 20 UWIND m/s 21 VWIND m/s 22 ZBOT m 23 ATM_TOPO m 24 FSDS_from_atm W/m^2 25 ATM_O3 mol/mol 26 PCO2 Pa 27 SWdown W/m^2 28 Tair_from_atm K 29 FSDS W/m^2 30 TBOT K 31 Tair K 32 PBOT Pa 33 PSurf Pa 34 PBOT_NOT_DOWNSCALED Pa 35 FLDS W/m^2 36 LWdown W/m^2 37 FLDS_NOT_DOWNSCALED W/m^2 38 FLDS_ICE W/m^2 39 THBOT K 40 Thair_from_atm K 41 Rho_from_atm kg/m^3 42 BCPHIDRY kg/m^2/s 43 BCPHODRY kg/m^2/s 44 BCPHIWET kg/m^2/s 45 OCPHIDRY kg/m^2/s 46 OCPHODRY kg/m^2/s 47 OCPHIWET kg/m^2/s 48 DSTWET1 kg/m^2/s 49 DSTDRY1 kg/m^2/s 50 DSTWET2 kg/m^2/s 51 DSTDRY2 kg/m^2/s 52 DSTWET3 kg/m^2/s 53 DSTDRY3 kg/m^2/s 54 DSTWET4 kg/m^2/s 55 DSTDRY4 kg/m^2/s 56 FSI24 K 57 FSI240 K 58 FSD24 K 59 FSD240 K 60 PCO2_240 Pa 61 PO2_240 Pa 62 PBOT_240 Pa 63 FSH_TO_COUPLER W/m^2 64 FSH_RUNOFF_ICE_TO_LIQ W/m^2 65 FCO2 kgCO2/m2/s 66 Z0M_TO_COUPLER m 67 ICE_MODEL_FRACTION unitless 68 QICE_FORC mm/s 69 TSRF_FORC K 70 TOPO_FORC m 71 TH2OSFC K 72 TG_U K 73 TLAKE K 74 SNO_T K 75 SNO_T_ICE K 76 TSA K 77 TSA_ICE K 78 TSA_R K 79 TREFMNAV K 80 TREFMXAV K 81 TREFMNAV_R K 82 TREFMXAV_R K 83 TSA_U K 84 TREFMNAV_U K 85 TREFMXAV_U K 86 TSTEM K 87 TV K 88 TSKIN K 89 TG K 90 TG_ICE K 91 TG_R K 92 TSOI K 93 TSOI_ICE K 94 TSOI_10CM K 95 TSL K 96 SNOTXMASS K kg/m2 97 SNOTXMASS_ICE K kg/m2 98 T10 K 99 SOIL10 K 100 A5TMIN K 101 TBUILD K 102 TROOF_INNER K 103 TSUNW_INNER K 104 TSHDW_INNER K 105 TFLOOR K 106 HEAT_CONTENT1 J/m^2 107 HEAT_CONTENT1_VEG J/m^2 108 HEAT_CONTENT2 J/m^2 109 LIQUID_WATER_TEMP1 K 110 SNOTTOPL K 111 SNOTTOPL_ICE K 112 SNOdTdzL K/m 113 TV24 K 114 TV240 K 115 TVEGD10 Kelvin 116 TVEGN10 Kelvin 117 ALT m 118 ALTMAX m 119 ALTMAX_LASTYEAR m 120 ELAI m^2/m^2 121 ESAI m^2/m^2 122 LAISUN m^2/m^2 123 LAISHA m^2/m^2 124 AGSB kg/m^2 125 AGLB kg/m^2 126 TLAI m^2/m^2 127 TSAI m^2/m^2 128 Z0MV_DENSE m 129 FSUN24 K 130 FSUN240 K 131 LAI240 m^2/m^2 132 VEGWP mm 133 VEGWPLN mm 134 VEGWPPD mm 135 SMP mm 136 KROOT 1/s 137 KSOIL 1/s 138 SNO_TK W/m-K 139 SNO_TK_ICE W/m-K 140 HK mm/s 141 SoilAlpha unitless 142 SoilAlpha_U unitless 143 SOILRESIS s/m 144 DSL mm 145 SNO_LIQH2O kg/m2 146 SNO_ICE kg/m2 147 H2OSOI mm3/mm3 148 SOILLIQ kg/m2 149 SOILICE kg/m2 150 SNOCAN mm 151 LIQCAN mm 152 H2OSFC mm 153 EXCESS_ICE kg/m2 154 INT_SNOW mm 155 INT_SNOW_ICE mm 156 SNOW_PERSISTENCE seconds 157 SOILWATER_10CM kg/m2 158 TWS mm 159 Q2M kg/kg 160 H2OCAN mm 161 SNOWLIQ kg/m2 162 SNOWLIQ_ICE kg/m2 163 SNOWICE kg/m2 164 SNOWICE_ICE kg/m2 165 H2OSNO mm 166 H2OSNO_ICE mm 167 TOTSOILLIQ kg/m2 168 TOTSOILICE kg/m2 169 TOTEXICE_VOL m3/m3 170 SUBSIDENCE m 171 IWUELN umolCO2/molH2O 172 VPD2M Pa 173 RH2M % 174 RH2M_R % 175 RH2M_U % 176 RHAF fraction 177 RHAF10 fraction 178 FH2OSFC unitless 179 FH2OSFC_NOSNOW unitless 180 FSNO unitless 181 FSNO_ICE unitless 182 FSNO_EFF unitless 183 SNOW_DEPTH m 184 SNOW_5D m 185 SNOW_DEPTH_ICE m 186 SNOWDP m 187 SNOMELT_ACCUM m 188 H2OSNO_TOP kg/m2 189 SNORDSL m^-6 190 SNOLIQFL fraction 191 SNO_EXISTENCE unitless 192 SNO_BW kg/m3 193 SNO_BW_ICE kg/m3 194 SNO_GS Microns 195 SNO_GS_ICE Microns 196 QINTR mm/s 197 SNOW_SOURCES mm/s 198 SNOW_SINKS mm/s 199 LIQUID_CONTENT1 mm 200 LIQUID_CONTENT2 mm 201 ICE_CONTENT1 mm 202 ICE_CONTENT2 mm 203 ERRH2O mm 204 ERRH2OSNO mm 205 QDIRECT_THROUGHFALL mm/s 206 QDIRECT_THROUGHFALL_SNOW mm/s 207 QDRIP mm/s 208 QDRIP_SNOW mm/s 209 QSNOUNLOAD mm/s 210 QTOPSOIL mm/s 211 QINFL mm/s 212 QOVER mm/s 213 QRGWL mm/s 214 QDRAI mm/s 215 QDRAI_PERCH mm/s 216 QFLX_LIQ_DYNBAL mm/s 217 QFLX_ICE_DYNBAL mm/s 218 QRUNOFF mm/s 219 QRUNOFF_ICE mm/s 220 QRUNOFF_U mm/s 221 QRUNOFF_R mm/s 222 QSNOMELT mm/s 223 QSNOMELT_ICE mm/s 224 QSNOFRZ kg/m2/s 225 QSNOFRZ_ICE mm/s 226 SNO_FRZ kg/m2/s 227 SNO_FRZ_ICE mm/s 228 QFLX_SNOW_DRAIN mm/s 229 QFLX_SNOW_DRAIN_ICE mm/s 230 QSOIL mm/s 231 QSOIL_ICE mm/s 232 QVEGE mm/s 233 QVEGT mm/s 234 QSNOCPLIQ mm H2O/s 235 QSNWCPICE mm H2O/s 236 QICE mm/s 237 QICE_FRZ mm/s 238 QICE_MELT mm/s 239 QFLX_LIQ_GRND mm H2O/s 240 QFLX_SNOW_GRND mm H2O/s 241 QFLX_LIQEVAP_FROM_TOP_LAYER mm H2O/s 242 QFLX_EVAP_VEG mm H2O/s 243 QFLX_EVAP_TOT kg m-2 s-1 244 QFLX_LIQDEW_TO_TOP_LAYER mm H2O/s 245 QFLX_SOLIDEVAP_FROM_TOP_LAYER mm H2O/s 246 QFLX_SOLIDEVAP_FROM_TOP_LAYER_IC mm H2O/s 247 QFLX_SOLIDDEW_TO_TOP_LAYER mm H2O/s 248 QDRAI_XS mm/s 249 QH2OSFC_TO_ICE mm/s 250 QIRRIG_FROM_SURFACE mm/s 251 QIRRIG_FROM_GW_UNCONFINED mm/s 252 QIRRIG_FROM_GW_CONFINED mm/s 253 QIRRIG_DRIP mm/s 254 QIRRIG_SPRINKLER mm/s 255 SNO_MELT mm/s 256 SNO_MELT_ICE mm/s 257 QROOTSINK mm/s 258 QHR mm/s 259 QSNO_WINDUNLOAD mm/s 260 QSNO_TEMPUNLOAD mm/s 261 QSNOEVAP mm/s 262 QH2OSFC mm/s 263 QPHSNEG mm/s 264 AnnET mm/s 265 QRUNOFF_TO_COUPLER mm/s 266 QRUNOFF_ICE_TO_COUPLER mm/s 267 QRUNOFF_ICE_TO_LIQ mm/s 268 RAIN_FROM_ATM mm/s 269 SNOW_FROM_ATM mm/s 270 QBOT kg/kg 271 Qair kg/kg 272 QBOT_NOT_DOWNSCALED kg/kg 273 QFLOOD mm/s 274 RAIN mm/s 275 Rainf mm/s 276 RAIN_ICE mm/s 277 SNOW mm/s 278 SNOW_ICE mm/s 279 TDEPTH m 280 TDEPTHMAX m 281 VOLR m3 282 VOLRMCH m3 283 RH % 284 EFLX_DYNBAL W/m^2 285 FSM W/m^2 286 FSM_ICE W/m^2 287 FSM_R W/m^2 288 FSM_U W/m^2 289 FIRA W/m^2 290 FIRA_ICE W/m^2 291 FIRA_R W/m^2 292 FIRE W/m^2 293 LWup W/m^2 294 FIRE_ICE W/m^2 295 FIRE_R W/m^2 296 FCTR W/m^2 297 FCEV W/m^2 298 FGEV W/m^2 299 FSH W/m^2 300 FSH_ICE W/m^2 301 FSH_R W/m^2 302 Qh W/m^2 303 Qle W/m^2 304 EFLX_LH_TOT W/m^2 305 EFLX_LH_TOT_ICE W/m^2 306 EFLX_LH_TOT_R W/m^2 307 Qstor W/m^2 308 FSH_V W/m^2 309 FSH_STEM W/m^2 310 DHSDT_CANOPY W/m^2 311 FSH_G W/m^2 312 FGR W/m^2 313 FGR_ICE W/m^2 314 FGR_R W/m^2 315 FIRA_U W/m^2 316 EFLX_SOIL_GRND W/m^2 317 FIRE_U W/m^2 318 FSH_U W/m^2 319 FSH_PRECIP_CONVERSION W/m^2 320 EFLX_LH_TOT_U W/m^2 321 FGR_U W/m^2 322 Rnet W/m^2 323 EFLX_GNET W/m^2 324 EFLX_GRND_LAKE W/m^2 325 EFLXBUILD W/m^2 326 URBAN_AC W/m^2 327 URBAN_HEAT W/m^2 328 DGNETDT W/m^2/K 329 FGR12 W/m^2 330 FGR_SOIL_R watt/m^2 331 TRAFFICFLUX W/m^2 332 WASTEHEAT W/m^2 333 VENTILATION W/m^2 334 HEAT_FROM_AC W/m^2 335 TAUX kg/m/s^2 336 Qtau kg/m/s^2 337 TAUY kg/m/s^2 338 BTRANMN unitless 339 ERRSOI W/m^2 340 ERRSEB W/m^2 341 ERRSOL W/m^2 342 DSTDEP kg/m^2/s 343 BCDEP kg/m^2/s 344 OCDEP kg/m^2/s 345 SNOBCMCL kg/m2 346 SNOBCMSL kg/m2 347 SNOOCMCL kg/m2 348 SNOOCMSL kg/m2 349 SNODSTMCL kg/m2 350 SNODSTMSL kg/m2 351 Z0MG m 352 Z0HG m 353 Z0QG m 354 VA m/s 355 U10 m/s 356 U10_ICE m/s 357 U10_DUST m/s 358 FV m/s 359 RAH1 s/m 360 RAH2 s/m 361 RAW1 s/m 362 RAW2 s/m 363 USTAR s/m 364 UM m/s 365 UAF m/s 366 TAF K 367 QAF kg/kg 368 OBU m 369 ZETA unitless 370 VPD Pa 371 num_iter unitless 372 RB s/m 373 RB10 s/m 374 LAKEICEFRAC unitless 375 LAKEICEFRAC_SURF unitless 376 LAKEICETHICK m 377 TKE1 W/(mK) 378 RAM_LAKE s/m 379 UST_LAKE m/s 380 RH_LEAF fraction 381 VPD_CAN kPa 382 LNC gN leaf/m^2 383 FPSN umol m-2 s-1 384 FPSN_WC umol m-2 s-1 385 FPSN_WJ umol m-2 s-1 386 FPSN_WP umol m-2 s-1 387 RSSUN s/m 388 RSSHA s/m 389 GSSUN umol H20/m2/s 390 GSSHA umol H20/m2/s 391 GSSUNLN umol H20/m2/s 392 GSSHALN umol H20/m2/s 393 Vcmx25Z umol/m2/s 394 Jmx25Z umol electrons/m 395 PNLCZ unitless 396 VCMX25T umol/m2/s 397 JMX25T umol/m2/s 398 TPU25T umol/m2/s 399 FPSN24 umol CO2/m^2 gro 400 NSUBSTEPS unitless 401 FROST_TABLE m 402 ZWT m 403 ZWT_PERCH m 404 FCOV unitless 405 FSAT unitless 406 FSA W/m^2 407 FSA_ICE W/m^2 408 FSA_R W/m^2 409 FSA_U W/m^2 410 FSR W/m^2 411 SWup W/m^2 412 FSR_ICE W/m^2 413 SNO_ABS W/m^2 414 SNO_ABS_ICE W/m^2 415 SABV W/m^2 416 SABG W/m^2 417 SABG_PEN watt/m^2 418 FSDSND W/m^2 419 FSDSNI W/m^2 420 FSDSNDLN W/m^2 421 FSRND W/m^2 422 FSRNI W/m^2 423 FSRNDLN W/m^2 424 SNOINTABS - 425 PAR240DZ W/m^2 426 PAR240XZ W/m^2 427 AZSUN radians 428 COSZEN_GRC none 429 COSZEN none 430 ALBGRD proportion 431 ALBGRI proportion 432 ALBD proportion 433 ALBI proportion 434 FSDSVD W/m^2 435 FSDSVI W/m^2 436 FSRVD W/m^2 437 FSRVI W/m^2 438 FSDSVDLN W/m^2 439 FSDSVILN W/m^2 440 PARVEGLN W/m^2 441 FSRVDLN W/m^2 442 SNOFSDSVD W/m^2 443 SNOFSDSND W/m^2 444 SNOFSDSVI W/m^2 445 SNOFSDSNI W/m^2 446 SNOFSRVD W/m^2 447 SNOFSRND W/m^2 448 SNOFSRVI W/m^2 449 SNOFSRNI W/m^2 450 DSTFLXT kg/m2/s 451 DPVLTRB1 m/s 452 DPVLTRB2 m/s 453 DPVLTRB3 m/s 454 DPVLTRB4 m/s 455 DUST_EMIS_COEFF dimensionless 456 WND_FRC_FT m/s 457 WND_FRC_FT_DRY m/s 458 WND_FRC_IT m/s 459 WND_FRC_SOIL m/s 460 LND_FRC_MBLE dimensionless 461 GWC kg/kg 462 LIQ_FRAC dimensionless 463 U_S_MEAN m/s 464 U_S_SIGMA m/s 465 ZETAOBU 466 U_FT m/s 467 U_IT m/s 468 ALPHA_TC_RATE 469 P_FT 470 P_IT 471 ETA 472 SSR m/s 473 VAI_OKIN m/s 474 FRC_THR_RGHN_FCT dimensionless 475 WND_FRC_FT_STD m/s 476 DPFCT_ROCK m/s 477 QIRRIG_DEMAND mm/s 478 TOPO_COL m 479 TOPO_COL_ICE m 480 MEG_isoprene kg/m2/sec 481 MEG_myrcene kg/m2/sec 482 MEG_sabinene kg/m2/sec 483 MEG_limonene kg/m2/sec 484 MEG_carene_3 kg/m2/sec 485 MEG_ocimene_t_b kg/m2/sec 486 MEG_pinene_b kg/m2/sec 487 MEG_pinene_a kg/m2/sec 488 VOCFLXT moles/m2/sec 489 GAMMA non 490 GAMMAL non 491 GAMMAT non 492 GAMMAP non 493 GAMMAA non 494 GAMMAS non 495 GAMMAC non 496 EOPT non 497 TOPT non 498 ALPHA non 499 currentPatch non 500 PAR_sun umol/m2/s 501 PAR24_sun umol/m2/s 502 PAR240_sun umol/m2/s 503 PAR_shade umol/m2/s 504 PAR24_shade umol/m2/s 505 PAR240_shade umol/m2/s 506 DRYDEPV_DMS cm/sec 507 DRYDEPV_H2O2 cm/sec 508 DRYDEPV_H2SO4 cm/sec 509 DRYDEPV_SO2 cm/sec 510 RS_DRYDEP_O3 s/m Initializing Satellite Phenology Interpolating initial conditions from /cluster/shared/noresm/inputdata/lnd/clm2/initdata_esmf/ctsm5.3/ctsm53019_f09_BNF_hist.clm2.r.2000-01-01-00000.nc Creating new initial conditions file ./init_generated_files/finidat_interp_dest.nc restFile_open: writing restart dataset ./init_generated_files/finidat_interp_dest.nc at nstep = 1 Successfully wrote local restart file ./init_generated_files/finidat_interp_dest.nc ------------------------------------------------------------ (OPNFIL): Successfully opened file ./rpointer.lnd.0001-01-01-01800 on unit= 69 Successfully wrote local restart pointer file Successfully wrote out restart data at nstep = 1 ------------------------------------------------------------ (GETFIL): attempting to find local file ctsm53019_f09_BNF_hist.clm2.r.2000-01-01-00000.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/initdata_esmf/ctsm5.3/ctsm53019_f09_BNF_hist.clm2.r.2000-01-01-00000.nc **** Mapping clm initial data from input /cluster/shared/noresm/inputdata/lnd/clm2/initdata_esmf/ctsm5.3/ctsm53019_f09_BNF_hist.clm2.r.2000-01-01-00000.nc to output ./init_generated_files/finidat_interp_dest.nc **** input gridcells = 21244 output gridcells = 15563 input landuntis = 67474 output landunits = 39868 input columns = 624149 output columns = 78405 input pfts = 921565 output pfts = 132536 Glacier elevation classes same in input and output?: T ipft_not_vegetated = 0 icol_vegetated_or_bare_soil = 1 ilun_vegetated_or_bare_soil = 1 ilun_crop = 2 ilun_landice = 4 create_glacier_mec_landunits = true finding minimum distance for pfts calling set_subgrid_info for pft for input calling set_subgrid_info for pft for output calling set_mindist for pft finding minimum distance for columns calling set_subgrid_info for column for input calling set_subgrid_info for column for output calling set_mindist for column finding minimum distance for landunits calling set_subgrid_info for landunit for input calling set_subgrid_info for landunit for output calling set_mindist for landunit finding minimum distance for gridcells calling set_subgrid_info for gridcell for input calling set_subgrid_info for gridcell for output calling set_mindist for gridcell setting up interpolators for multi-level variables reading in initial dataset Skipping : timemgr_rst_nstep_rad_prev Skipping : timemgr_rst_type Skipping : timemgr_rst_step_sec Skipping : timemgr_rst_start_ymd Skipping : timemgr_rst_start_tod Skipping : timemgr_rst_ref_ymd Skipping : timemgr_rst_ref_tod Skipping : timemgr_rst_curr_ymd Skipping : timemgr_rst_curr_tod Skipping : grid1d_lon Skipping : grid1d_lat Skipping : grid1d_ixy Skipping : grid1d_jxy Skipping : land1d_lon Skipping : land1d_lat Skipping : land1d_ixy Skipping : land1d_jxy Skipping : land1d_gridcell_index Skipping : land1d_ityplun Skipping : land1d_active Skipping : cols1d_lon Skipping : cols1d_lat Skipping : cols1d_ixy Skipping : cols1d_jxy Skipping : cols1d_gridcell_index Skipping : cols1d_landunit_index Skipping : cols1d_ityplun Skipping : cols1d_ityp Skipping : cols1d_active Skipping : LEVGRND_CLASS Skipping : COL_Z Skipping : DZSOI Skipping : pfts1d_lon Skipping : pfts1d_lat Skipping : pfts1d_ixy Skipping : pfts1d_jxy Skipping : pfts1d_gridcell_index Skipping : pfts1d_landunit_index Skipping : pfts1d_column_index Skipping : pfts1d_itypveg Skipping : pfts1d_itypcol Skipping : pfts1d_ityplun Skipping : pfts1d_active Skipping : LEVGRND_CLASS_p Skipping : COL_Z_p Skipping : DZSOI_p Skipping : glc_elevclass_bounds Skipping : land1d_wtxy Skipping : cols1d_wtxy Skipping : cols1d_wtlnd Skipping : pfts1d_wtxy Skipping : pfts1d_wtlnd Skipping : pfts1d_wtcol Interpolating: SNLSNO => SNLSNO Interpolating: DZSNO => DZSNO: Copy snow-covered levels using SNLSNO Interpolating: ZSNO => ZSNO: Copy snow-covered levels using SNLSNO Interpolating: ZISNO => ZISNO: Copy snow-covered levels using SNLSNO Interpolating: FSD24_VALUE => FSD24_VALUE Interpolating: FSD24_NSTEPS => FSD24_NSTEPS Interpolating: FSD240_VALUE => FSD240_VALUE Interpolating: FSD240_NSTEPS => FSD240_NSTEPS Interpolating: FSI24_VALUE => FSI24_VALUE Interpolating: FSI24_NSTEPS => FSI24_NSTEPS Interpolating: FSI240_VALUE => FSI240_VALUE Interpolating: FSI240_NSTEPS => FSI240_NSTEPS Interpolating: po2_240_VALUE => po2_240_VALUE Interpolating: po2_240_NSTEPS => po2_240_NSTEPS Interpolating: pco2_240_VALUE => pco2_240_VALUE Interpolating: pco2_240_NSTEPS => pco2_240_NSTEPS Interpolating: pbot240_VALUE => pbot240_VALUE Interpolating: pbot240_NSTEPS => pbot240_NSTEPS Interpolating: T_VEG24_VALUE => T_VEG24_VALUE Interpolating: T_VEG24_NSTEPS => T_VEG24_NSTEPS Interpolating: T_VEG240_VALUE => T_VEG240_VALUE Interpolating: T_VEG240_NSTEPS => T_VEG240_NSTEPS Interpolating: TREFAV_VALUE => TREFAV_VALUE Interpolating: TREFAV_NSTEPS => TREFAV_NSTEPS Interpolating: TREFAV_U_VALUE => TREFAV_U_VALUE Interpolating: TREFAV_U_NSTEPS => TREFAV_U_NSTEPS Interpolating: TREFAV_R_VALUE => TREFAV_R_VALUE Interpolating: TREFAV_R_NSTEPS => TREFAV_R_NSTEPS Interpolating: T10_VALUE => T10_VALUE Interpolating: T10_NSTEPS => T10_NSTEPS Interpolating: SOIL10_VALUE => SOIL10_VALUE Interpolating: SOIL10_NSTEPS => SOIL10_NSTEPS Interpolating: TDM5_VALUE => TDM5_VALUE Interpolating: TDM5_NSTEPS => TDM5_NSTEPS Interpolating: SNOW_5D_VALUE => SNOW_5D_VALUE Interpolating: SNOW_5D_NSTEPS => SNOW_5D_NSTEPS Interpolating: BTRANAV_VALUE => BTRANAV_VALUE Interpolating: BTRANAV_NSTEPS => BTRANAV_NSTEPS Interpolating: FSUN24_VALUE => FSUN24_VALUE Interpolating: FSUN24_NSTEPS => FSUN24_NSTEPS Interpolating: FSUN240_VALUE => FSUN240_VALUE Interpolating: FSUN240_NSTEPS => FSUN240_NSTEPS Interpolating: LAI240_VALUE => LAI240_VALUE Interpolating: LAI240_NSTEPS => LAI240_NSTEPS Interpolating: altmax => altmax Interpolating: altmax_lastyear => altmax_lastyear Interpolating: altmax_indx => altmax_indx Interpolating: altmax_lastyear_indx => altmax_lastyear_indx Interpolating: pco2_240 => pco2_240 Interpolating: po2_240 => po2_240 Interpolating: pbot240 => pbot240 Interpolating: FRAC_VEG_NOSNO_ALB => FRAC_VEG_NOSNO_ALB Interpolating: tlai => tlai Interpolating: tsai => tsai Skipping : tlai_input variable is NOT on input file Skipping : tsai_input variable is NOT on input file Interpolating: elai => elai Interpolating: esai => esai Interpolating: stem_biomass => stem_biomass Interpolating: leaf_biomass => leaf_biomass Interpolating: htop => htop Skipping : htop_input variable is NOT on input file Interpolating: hbot => hbot Skipping : hbot_input variable is NOT on input file Interpolating: mlaidiff => mlaidiff Interpolating: fsun => fsun Interpolating: vegwp => vegwp: Copy levels Skipping : VEGWPLN Skipping : VEGWPPD Interpolating: EFLX_LWRAD_OUT => EFLX_LWRAD_OUT Interpolating: URBAN_AC_L => URBAN_AC_L Interpolating: URBAN_HEAT_L => URBAN_HEAT_L Interpolating: EFLX_VENTILATION => EFLX_VENTILATION Interpolating: BTRAN_MIN => BTRAN_MIN Interpolating: BTRAN_MIN_INST => BTRAN_MIN_INST Interpolating: eflx_dynbal_amt_to_dribble => eflx_dynbal_amt_to_dribble Interpolating: Z0MG => Z0MG Interpolating: OBU => OBU Interpolating: rb10 => rb10 Interpolating: LAKE_ICEFRAC => LAKE_ICEFRAC: Copy levels Interpolating: SAVEDTKE1 => SAVEDTKE1 Interpolating: USTLAKE => USTLAKE Interpolating: GSSUN => GSSUN: Copy levels Interpolating: GSSHA => GSSHA: Copy levels Interpolating: GSSUNLN => GSSUNLN: Copy levels Interpolating: GSSHALN => GSSHALN: Copy levels Interpolating: lnca => lnca Interpolating: vcmx25_z => vcmx25_z: Copy levels Interpolating: jmx25_z => jmx25_z: Copy levels Interpolating: vcmx25_z_last_valid_patch => vcmx25_z_last_valid_patch: Copy levels Interpolating: jmx25_z_last_valid_patch => jmx25_z_last_valid_patch: Copy levels Interpolating: pnlc_z => pnlc_z: Copy levels Interpolating: enzs_z => enzs_z: Copy levels Interpolating: gpp24 => gpp24 Interpolating: vcmx25t => vcmx25t Interpolating: jmx25t => jmx25t Interpolating: tpu25t => tpu25t Interpolating: VPD_CAN => VPD_CAN Interpolating: FROST_TABLE => FROST_TABLE Interpolating: ZWT => ZWT Interpolating: ZWT_PERCH => ZWT_PERCH Interpolating: sabs_roof_dir => sabs_roof_dir: Copy levels Interpolating: sabs_roof_dif => sabs_roof_dif: Copy levels Interpolating: sabs_sunwall_dir => sabs_sunwall_dir: Copy levels Interpolating: sabs_sunwall_dif => sabs_sunwall_dif: Copy levels Interpolating: sabs_shadewall_dir => sabs_shadewall_dir: Copy levels Interpolating: sabs_shadewall_dif => sabs_shadewall_dif: Copy levels Interpolating: sabs_improad_dir => sabs_improad_dir: Copy levels Interpolating: sabs_improad_dif => sabs_improad_dif: Copy levels Interpolating: sabs_perroad_dir => sabs_perroad_dir: Copy levels Interpolating: sabs_perroad_dif => sabs_perroad_dif: Copy levels Interpolating: par240d => par240d: Copy levels Interpolating: par24d => par24d: Copy levels Interpolating: par240x => par240x: Copy levels Interpolating: par24x => par24x: Copy levels Interpolating: parsun => parsun: Copy levels Interpolating: parsha => parsha: Copy levels Interpolating: T_SOISNO => T_SOISNO: Split levels: Copy snow-covered levels using SNLSNO + Interpolate using COL_Z Interpolating: T_VEG => T_VEG Interpolating: T_STEM => T_STEM Interpolating: TH2OSFC => TH2OSFC Interpolating: T_LAKE => T_LAKE: Copy levels Interpolating: T_GRND => T_GRND Interpolating: T_GRND_R => T_GRND_R Interpolating: T_GRND_U => T_GRND_U Interpolating: T_REF2M => T_REF2M Interpolating: T_REF2M_R => T_REF2M_R Interpolating: T_REF2M_U => T_REF2M_U Interpolating: T_REF2M_MIN => T_REF2M_MIN Interpolating: T_REF2M_MIN_R => T_REF2M_MIN_R Interpolating: T_REF2M_MIN_U => T_REF2M_MIN_U Interpolating: T_REF2M_MAX => T_REF2M_MAX Interpolating: T_REF2M_MAX_R => T_REF2M_MAX_R Interpolating: T_REF2M_MAX_U => T_REF2M_MAX_U Interpolating: T_REF2M_MIN_INST => T_REF2M_MIN_INST Interpolating: T_REF2M_MIN_INST_R => T_REF2M_MIN_INST_R Interpolating: T_REF2M_MIN_INST_U => T_REF2M_MIN_INST_U Interpolating: T_REF2M_MAX_INST => T_REF2M_MAX_INST Interpolating: T_REF2M_MAX_INST_R => T_REF2M_MAX_INST_R Interpolating: T_REF2M_MAX_INST_U => T_REF2M_MAX_INST_U Interpolating: taf => taf Interpolating: DYNBAL_BASELINE_HEAT => DYNBAL_BASELINE_HEAT Interpolating: tvegd10 => tvegd10 Interpolating: tvegd => tvegd Interpolating: tvegn10 => tvegn10 Interpolating: tvegn => tvegn Interpolating: tair10 => tair10 Interpolating: ndaysteps => ndaysteps Interpolating: nnightsteps => nnightsteps Interpolating: t_building => t_building Interpolating: t_roof_inner => t_roof_inner Interpolating: t_sunw_inner => t_sunw_inner Interpolating: t_shdw_inner => t_shdw_inner Interpolating: t_floor => t_floor Interpolating: DSL => DSL Interpolating: SOILRESIS => SOILRESIS Interpolating: SMP => SMP: Interpolate using COL_Z down to levgrnd Interpolating: HK => HK: Interpolate using COL_Z down to levgrnd Interpolating: qflx_snow_drain => qflx_snow_drain Interpolating: qflx_liq_dynbal_amt_to_dribble => qflx_liq_dynbal_amt_to_dribble Interpolating: qflx_ice_dynbal_amt_to_dribble => qflx_ice_dynbal_amt_to_dribble Interpolating: H2OSFC => H2OSFC Interpolating: H2OSNO_NO_LAYERS => H2OSNO_NO_LAYERS Interpolating: H2OSOI_LIQ => H2OSOI_LIQ: Split levels: Copy snow-covered levels using SNLSNO + Interpolate using COL_Z Interpolating: H2OSOI_ICE => H2OSOI_ICE: Split levels: Copy snow-covered levels using SNLSNO + Interpolate using COL_Z Interpolating: SNOCAN => SNOCAN Interpolating: LIQCAN => LIQCAN Interpolating: WA => WA Interpolating: DYNBAL_BASELINE_LIQ => DYNBAL_BASELINE_LIQ Interpolating: DYNBAL_BASELINE_ICE => DYNBAL_BASELINE_ICE Interpolating: STREAM_WATER_VOLUME => STREAM_WATER_VOLUME Interpolating: EXCESS_ICE => EXCESS_ICE: Split levels: Copy snow-covered levels using SNLSNO + Interpolate using COL_Z Interpolating: INT_SNOW => INT_SNOW Interpolating: SNOW_PERS => SNOW_PERS Interpolating: TWS => TWS Interpolating: qaf => qaf Interpolating: rh10 => rh10 Interpolating: FH2OSFC => FH2OSFC Interpolating: SNOW_DEPTH => SNOW_DEPTH Interpolating: SNOMELT_ACCUM => SNOMELT_ACCUM Interpolating: frac_sno_eff => frac_sno_eff Interpolating: frac_sno => frac_sno Interpolating: IWUELN => IWUELN Interpolating: VPD2M => VPD2M Interpolating: FWET => FWET Interpolating: FCANSNO => FCANSNO Interpolating: snw_rds => snw_rds: Copy snow-covered levels using SNLSNO Interpolating: SUBSIDENCE => SUBSIDENCE Interpolating: TOTEXICE_VOL => TOTEXICE_VOL Interpolating: n_irrig_steps_left => n_irrig_steps_left Interpolating: irrig_rate => irrig_rate Interpolating: irrig_rate_demand => irrig_rate_demand Interpolating: mss_bcpho => mss_bcpho: Copy snow-covered levels using SNLSNO Interpolating: mss_bcphi => mss_bcphi: Copy snow-covered levels using SNLSNO Interpolating: mss_ocpho => mss_ocpho: Copy snow-covered levels using SNLSNO Interpolating: mss_ocphi => mss_ocphi: Copy snow-covered levels using SNLSNO Interpolating: mss_dst1 => mss_dst1: Copy snow-covered levels using SNLSNO Interpolating: mss_dst2 => mss_dst2: Copy snow-covered levels using SNLSNO Interpolating: mss_dst3 => mss_dst3: Copy snow-covered levels using SNLSNO Interpolating: mss_dst4 => mss_dst4: Copy snow-covered levels using SNLSNO Interpolating: coszen_grc => coszen_grc Interpolating: coszen => coszen Interpolating: albd => albd: Copy levels Interpolating: albi => albi: Copy levels Interpolating: albgrd => albgrd: Copy levels Interpolating: albgri => albgri: Copy levels Interpolating: albsod => albsod: Copy levels Interpolating: albsoi => albsoi: Copy levels Interpolating: albsnd_hst => albsnd_hst: Copy levels Interpolating: albsni_hst => albsni_hst: Copy levels Interpolating: tlai_z => tlai_z: Copy levels Interpolating: tsai_z => tsai_z: Copy levels Interpolating: ncan => ncan Interpolating: nrad => nrad Interpolating: fsun_z => fsun_z: Copy levels Interpolating: vcmaxcintsun => vcmaxcintsun Interpolating: vcmaxcintsha => vcmaxcintsha Interpolating: fabd => fabd: Copy levels Interpolating: fabi => fabi: Copy levels Interpolating: fabd_sun => fabd_sun: Copy levels Interpolating: fabd_sha => fabd_sha: Copy levels Interpolating: fabi_sun => fabi_sun: Copy levels Interpolating: fabi_sha => fabi_sha: Copy levels Interpolating: fabd_sun_z => fabd_sun_z: Copy levels Interpolating: fabd_sha_z => fabd_sha_z: Copy levels Interpolating: fabi_sun_z => fabi_sun_z: Copy levels Interpolating: fabi_sha_z => fabi_sha_z: Copy levels Interpolating: ftdd => ftdd: Copy levels Interpolating: ftid => ftid: Copy levels Interpolating: ftii => ftii: Copy levels Interpolating: flx_absdv => flx_absdv: Copy snow-covered levels using SNLSNO+1 Interpolating: flx_absdn => flx_absdn: Copy snow-covered levels using SNLSNO+1 Interpolating: flx_absiv => flx_absiv: Copy snow-covered levels using SNLSNO+1 Interpolating: flx_absin => flx_absin: Copy snow-covered levels using SNLSNO+1 Skipping : cols1d_topoglc Skipping : pfts1d_topoglc Cleaning up / adjusting variables Successfully created initial condition file mapped from input IC file Reading restart dataset: ./init_generated_files/finidat_interp_dest.nc can't find rootfr in restart (or initial) file... Initialize rootfr to default finidat_consistency_checks settings: &FINIDAT_CONSISTENCY_CHECKS CHECK_FINIDAT_YEAR_CONSISTENCY = T, CHECK_FINIDAT_PCT_CONSISTENCY = T / ------------------------------------------------------------ Successfully read restart data for restart run Successfully wrote finidat status file ./init_generated_files/finidat_interp_dest.status hist_htapes_build Initializing clm2 history files ------------------------------------------------------------ htapes_fieldlist : Included fields tape 1 = 261 1 ALPHA_TC_RATE 1 A 2 ATM_TOPO 1 A 3 BCDEP 1 A 4 BTRANMN 1 A 5 DHSDT_CANOPY 1 A 6 DPFCT_ROCK 1 A 7 DSL 1 A 8 DSTDEP 1 A 9 DSTFLXT 1 A 10 DUST_EMIS_COEFF 1 A 11 EFLXBUILD 1 A 12 EFLX_DYNBAL 1 A 13 EFLX_GRND_LAKE 1 A 14 EFLX_LH_TOT 1 A 15 EFLX_LH_TOT_R 1 A 16 ELAI 1 A 17 ERRH2O 1 A 18 ERRH2OSNO 1 A 19 ERRSEB 1 A 20 ERRSOI 1 A 21 ERRSOL 1 A 22 ESAI 1 A 23 ETA 1 A 24 FCEV 1 A 25 FCOV 1 A 26 FCTR 1 A 27 FGEV 1 A 28 FGR 1 A 29 FGR12 1 A 30 FH2OSFC 1 A 31 FIRA 1 A 32 FIRA_R 1 A 33 FIRE 1 A 34 FIRE_R 1 A 35 FLDS 1 A 36 FPSN 1 A 37 FRC_THR_RGHN_FCT 1 A 38 FSA 1 A 39 FSAT 1 A 40 FSDS 1 A 41 FSDSND 1 A 42 FSDSNDLN 1 A 43 FSDSNI 1 A 44 FSDSVD 1 A 45 FSDSVDLN 1 A 46 FSDSVI 1 A 47 FSDSVILN 1 A 48 FSDS_from_atm 1 A 49 FSH 1 A 50 FSH_G 1 A 51 FSH_PRECIP_CONVERSION 1 A 52 FSH_R 1 A 53 FSH_RUNOFF_ICE_TO_LIQ 1 A 54 FSH_TO_COUPLER 1 A 55 FSH_V 1 A 56 FSM 1 A 57 FSNO 1 A 58 FSNO_EFF 1 A 59 FSR 1 A 60 FSRND 1 A 61 FSRNDLN 1 A 62 FSRNI 1 A 63 FSRVD 1 A 64 FSRVDLN 1 A 65 FSRVI 1 A 66 GSSHA 1 A 67 GSSHALN 1 A 68 GSSUN 1 A 69 GSSUNLN 1 A 70 GWC 1 A 71 H2OCAN 1 A 72 H2OSFC 1 A 73 H2OSNO 1 A 74 H2OSNO_TOP 1 A 75 HEAT_CONTENT1 1 A 76 HEAT_FROM_AC 1 A 77 HIA 1 A 78 HIA_R 1 A 79 HIA_U 1 A 80 HUMIDEX 1 A 81 HUMIDEX_R 1 A 82 HUMIDEX_U 1 A 83 ICE_CONTENT1 1 A 84 IWUELN 1 A 85 JMX25T 1 M 86 Jmx25Z 1 A 87 LAISHA 1 A 88 LAISUN 1 A 89 LAKEICEFRAC_SURF 1 A 90 LAKEICETHICK 1 A 91 LIQCAN 1 A 92 LIQUID_CONTENT1 1 A 93 LIQ_FRAC 1 A 94 LNC 1 A 95 LND_FRC_MBLE 1 A 96 MEG_carene_3 1 A 97 MEG_isoprene 1 A 98 MEG_limonene 1 A 99 MEG_myrcene 1 A 100 MEG_ocimene_t_b 1 A 101 MEG_pinene_a 1 A 102 MEG_pinene_b 1 A 103 MEG_sabinene 1 A 104 OCDEP 1 A 105 PARVEGLN 1 A 106 PBOT 1 A 107 PCO2 1 A 108 P_FT 1 A 109 P_IT 1 A 110 Q2M 1 A 111 QBOT 1 A 112 QDRAI 1 A 113 QDRAI_PERCH 1 A 114 QDRAI_XS 1 A 115 QFLOOD 1 A 116 QFLX_EVAP_TOT 1 A 117 QFLX_ICE_DYNBAL 1 A 118 QFLX_LIQDEW_TO_TOP_LAYER 1 A 119 QFLX_LIQEVAP_FROM_TOP_LAYER 1 A 120 QFLX_LIQ_DYNBAL 1 A 121 QFLX_SNOW_DRAIN 1 A 122 QFLX_SNOW_DRAIN_ICE 1 A 123 QFLX_SOLIDDEW_TO_TOP_LAYER 1 A 124 QFLX_SOLIDEVAP_FROM_TOP_LAYER 1 A 125 QH2OSFC 1 A 126 QHR 1 A 127 QICE 1 A 128 QICE_FRZ 1 A 129 QICE_MELT 1 A 130 QINFL 1 A 131 QINTR 1 A 132 QIRRIG_FROM_GW_CONFINED 1 A 133 QIRRIG_FROM_GW_UNCONFINED 1 A 134 QIRRIG_FROM_SURFACE 1 A 135 QOVER 1 A 136 QRGWL 1 A 137 QRUNOFF 1 A 138 QRUNOFF_ICE 1 A 139 QRUNOFF_ICE_TO_COUPLER 1 A 140 QRUNOFF_TO_COUPLER 1 A 141 QSNOCPLIQ 1 A 142 QSNOEVAP 1 A 143 QSNOFRZ 1 A 144 QSNOFRZ_ICE 1 A 145 QSNOMELT 1 A 146 QSNOMELT_ICE 1 A 147 QSNOUNLOAD 1 A 148 QSNO_TEMPUNLOAD 1 A 149 QSNO_WINDUNLOAD 1 A 150 QSNWCPICE 1 A 151 QSOIL 1 A 152 QSOIL_ICE 1 A 153 QVEGE 1 A 154 QVEGT 1 A 155 RAIN 1 A 156 RAIN_FROM_ATM 1 A 157 RH2M 1 A 158 RSSHA 1 M 159 RSSUN 1 M 160 SABG 1 A 161 SABG_PEN 1 A 162 SABV 1 A 163 SNOBCMCL 1 A 164 SNOBCMSL 1 A 165 SNOCAN 1 A 166 SNODSTMCL 1 A 167 SNODSTMSL 1 A 168 SNOFSRND 1 A 169 SNOFSRNI 1 A 170 SNOFSRVD 1 A 171 SNOFSRVI 1 A 172 SNOINTABS 1 A 173 SNOMELT_ACCUM 1 A 174 SNOOCMCL 1 A 175 SNOOCMSL 1 A 176 SNOTXMASS 1 A 177 SNOW 1 A 178 SNOWDP 1 A 179 SNOWICE 1 A 180 SNOWLIQ 1 A 181 SNOW_DEPTH 1 A 182 SNOW_FROM_ATM 1 A 183 SNOW_PERSISTENCE 1 I 184 SNOW_SINKS 1 A 185 SNOW_SOURCES 1 A 186 SOILRESIS 1 A 187 SOILWATER_10CM 1 A 188 SSR 1 A 189 SUBSIDENCE 1 SUM 190 SWBGT 1 A 191 SWBGT_R 1 A 192 SWBGT_U 1 A 193 TAUX 1 A 194 TAUY 1 A 195 TBOT 1 A 196 TBUILD 1 A 197 TG 1 A 198 TH2OSFC 1 A 199 THBOT 1 A 200 TKE1 1 A 201 TLAI 1 A 202 TOTEXICE_VOL 1 A 203 TOTSOILICE 1 A 204 TOTSOILLIQ 1 A 205 TPU25T 1 M 206 TREFMNAV 1 A 207 TREFMXAV 1 A 208 TSA 1 A 209 TSAI 1 A 210 TSKIN 1 A 211 TSL 1 A 212 TSOI_10CM 1 A 213 TSTEM 1 A 214 TV 1 A 215 TWS 1 A 216 U10 1 A 217 U10_DUST 1 A 218 URBAN_AC 1 A 219 URBAN_HEAT 1 A 220 U_FT 1 A 221 U_IT 1 A 222 U_S_MEAN 1 A 223 U_S_SIGMA 1 A 224 VAI_OKIN 1 A 225 VCMX25T 1 M 226 VENTILATION 1 A 227 VOLR 1 A 228 VOLRMCH 1 A 229 VPD2M 1 A 230 VPD_CAN 1 A 231 Vcmx25Z 1 A 232 WASTEHEAT 1 A 233 WBT 1 A 234 WBT_R 1 A 235 WBT_U 1 A 236 WIND 1 A 237 WND_FRC_FT 1 A 238 WND_FRC_FT_DRY 1 A 239 WND_FRC_FT_STD 1 A 240 WND_FRC_IT 1 A 241 WND_FRC_SOIL 1 A 242 ZBOT 1 A 243 ZETAOBU 1 A 244 ZWT 1 A 245 ZWT_PERCH 1 A 246 PCT_CFT 64 A 247 PCT_GLC_MEC 10 A 248 SMP 25 A 249 TSOI 25 A 250 TSOI_ICE 25 A 251 TLAKE 10 A 252 H2OSOI 20 A 253 SOILICE 20 A 254 SOILLIQ 20 A 255 PCT_LANDUNIT 9 A 256 PCT_NAT_PFT 15 A 257 ALBGRD 2 A 258 ALBGRI 2 A 259 VEGWP 4 A 260 VEGWPLN 4 A 261 VEGWPPD 4 A There will be a total of 1 history tapes History tape 1 write frequency is MONTHLY All fields on history tape 1 are grid averaged Number of time samples on history tape 1 is 1 Output precision on history tape 1 = 2 hist_htapes_build hist tape = 1 written with dov2xy= T hist_htapes_build Successfully initialized clm2 history files ------------------------------------------------------------ Attempting to read annual vegetation data ..... (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc Attempting to read monthly vegetation data ..... nstep = 1 month = 1 day = 1 (GETFIL): attempting to find local file surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc (GETFIL): using /cluster/shared/noresm/inputdata/lnd/clm2/surfdata_esmf/ctsm5.3.0/surfdata_ne30np4.pg3_hist_2000_78pfts_c240908.nc Successfully read monthly vegetation data for month 1 Successfully initialized the land model begin initial run at: nstep= 1 year= 1 month= 1 day= 1 seconds= 1800 ************************************************************ Step alb: 3 Step alb: 5 Step alb: 7 Step alb: 9 Step alb: 11 Step alb: 13 Step alb: 15 Step alb: 17 Step alb: 19 Step alb: 21 Step alb: 23 Step alb: 25 Step alb: 27 Step alb: 29 Step alb: 31 Step alb: 33 Step alb: 35 Step alb: 37 Step alb: 39 Step alb: 41 Step alb: 43 Step alb: 45 Step alb: 47 Step alb: 49 Step alb: 51 Step alb: 53 Step alb: 55 Step alb: 57 Step alb: 59 Step alb: 61 Step alb: 63 Step alb: 65 Step alb: 67 Step alb: 69 Step alb: 71 Step alb: 73 Step alb: 75 Step alb: 77 Step alb: 79 Step alb: 81 Step alb: 83 Step alb: 85 Step alb: 87 Step alb: 89 Step alb: 91 Step alb: 93 Step alb: 95 Step alb: 97 Step alb: 99 Step alb: 101 Step alb: 103 Step alb: 105 Step alb: 107 Step alb: 109 Step alb: 111 Step alb: 113 Step alb: 115 Step alb: 117 Step alb: 119 Step alb: 121 Step alb: 123 Step alb: 125 Step alb: 127 Step alb: 129 Step alb: 131 Step alb: 133 Step alb: 135 Step alb: 137 Step alb: 139 Step alb: 141 Step alb: 143 Step alb: 145 Step alb: 147 Step alb: 149 Step alb: 151 Step alb: 153 Step alb: 155 Step alb: 157 Step alb: 159 Step alb: 161 Step alb: 163 Step alb: 165 Step alb: 167 Step alb: 169 Step alb: 171 Step alb: 173 Step alb: 175 Step alb: 177 Step alb: 179 Step alb: 181 Step alb: 183 Step alb: 185 Step alb: 187 Step alb: 189 Step alb: 191 Step alb: 193 Step alb: 195 Step alb: 197 Step alb: 199 Step alb: 201 Step alb: 203 Step alb: 205 Step alb: 207 Step alb: 209 Step alb: 211 Step alb: 213 Step alb: 215 Step alb: 217 Step alb: 219 Step alb: 221 Step alb: 223 Step alb: 225 Step alb: 227 Step alb: 229 Step alb: 231 Step alb: 233 Step alb: 235 Step alb: 237 Step alb: 239 Step alb: 241 Step alb: 243 Step alb: 245 Step alb: 247 Step alb: 249 Step alb: 251 Step alb: 253 Step alb: 255 Step alb: 257 Step alb: 259 Step alb: 261 Step alb: 263 Step alb: 265 Step alb: 267 Step alb: 269 Step alb: 271 Step alb: 273 Step alb: 275 Step alb: 277 Step alb: 279 Step alb: 281 Step alb: 283 Step alb: 285 Step alb: 287 Step alb: 289 Step alb: 291 Step alb: 293 Step alb: 295 Step alb: 297 Step alb: 299 Step alb: 301 Step alb: 303 Step alb: 305 Step alb: 307 Step alb: 309 Step alb: 311 Step alb: 313 Step alb: 315 Step alb: 317 Step alb: 319 Step alb: 321 Step alb: 323 Step alb: 325 Step alb: 327 Step alb: 329 Step alb: 331 Step alb: 333 Step alb: 335 Step alb: 337 Step alb: 339 Step alb: 341 Step alb: 343 Step alb: 345 Step alb: 347 Step alb: 349 Step alb: 351 Step alb: 353 Step alb: 355 Step alb: 357