(shr_drydep_read) Read in drydep_inparm namelist from: drv_flds_in (shr_drydep_init) Number of dry deposition fields transfered is 4 (shr_megan_readnl) Read in megan_emis_readnl namelist from: drv_flds_in (shr_fire_emis_readnl) Read in fire_emis_readnl namelist from: drv_flds_in (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_lightning_coupling_readnl) Read in lightning_coupling_nl namelist from: drv_flds_in ATM: PIO numiotasks= 4 ATM: PIO stride= 128 ATM: PIO rearranger= 2 ATM: PIO root= 1 512 pes participating in computation ----------------------------------- TASK# 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 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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 ... list truncated at 256 ((atm_comp_nuopc):(InitializeRealize)) :CAM atm model initialization (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) ----------------------------------------- Initialize PIO subsystem: iotype = 1 ioformat = 32 ------------------------------------------ *********** CAM LOG OUTPUT *************** ------------------------------------------ Initial run ********** CASE = NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01 ********** NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01 ********** Time Manager Configuration ********** Calendar type: NO_LEAP Timestep size (seconds): 1800 Start date (yr mon day tod): 1 1 1 0 Stop date (yr mon day tod): 1 3 1 0 Reference date (yr mon day tod): 1 1 1 0 Current step number: 0 Current date (yr mon day tod): 1 1 1 0 ************************************************ SPMD SWAP_COMM OPTIONS: swap_comm_protocol = 4 swap_comm_maxreq = 128 SPMD FLOW CONTROL GATHER OPTION: fc_gather_flow_cntl = 64 PHYS_GRID options: Using PCOLS = 16 phys_loadbalance = (not used) phys_twin_algorithm = (not used) phys_alltoall = (not used) chunks_per_thread = (not used) **************************************************************************** *** *** Thermodynamic properties of dry air are fixed at troposphere values Thermodynamic properties of moist air are based on variable composition of the following water species: Q CLDLIQ CLDICE RAINQM SNOWQM GRAUQM *** *** **************************************************************************** vertical coordinate physics : Moist pressure/mass vertical coordinate cam_initfiles_readnl options: Initial run will start from: /cluster/shared/noresm/inputdata/atm/cam/inic/se/FLT_L58_ne30pg3_IC_c220623.nc Topography dataset is: /cluster/shared/noresm/inputdata/atm/cam/topo/se/ne30pg3_gmted2010_modis_bedmac hine_nc3000_Laplace0100_noleak_20240720.nc Maximum abs value of scale factor used to perturb initial conditions, pertlim = 0.000000000000000E+000 Initial condition dry mass will be scaled to: 98288.0000000000 Pa Summary of constituent module options: Read constituent initial values from initial file by default: T Read in cam_history_nl namelist from: atm_in History file, 3, has patch output, patches will be written to individual variables Initial conditions history files will be written yearly. chem_surfvals_readnl: Settings for control of GHG surface values scenario_ghg = CHEM_LBC_FILE GHG values time interpolated from LBC file: flbc_file = /cluster/shared/noresm/inputdata/atm/waccm/lb/LBC_2000climo_CMIP6_0p5degLat_c18 0227.nc flbc_type = CYCLICAL flbc_cycle_yr = 2000 Species from LBC file: CO2 CH4 N2O CFC11eq CFC12 ubc_readnl: tgcm_ubc_file = NONE ubc_readnl: tgcm_ubc_data_type = CYCLICAL ubc_readnl: tgcm_ubc_cycle_yr = 0 ubc_readnl: tgcm_ubc_fixed_ymd = 0 ubc_readnl: tgcm_ubc_fixed_tod = 0 ubc_readnl: snoe_ubc_file = NONE ubc_readnl: t_pert_ubc = 0.000000000000000E+000 ubc_readnl: no_xfac_ubc = 1.00000000000000 ubc_readnl: ubc_specifier : Dry adiabatic adjustment applied to top N layers; N= 3 Dry adiabatic adjustment number of iterations for convergence = 15 MG microphysics namelist: micro_mg_version = 3 micro_mg_sub_version = 0 micro_mg_do_cldice = T micro_mg_do_cldliq = T micro_mg_num_steps = 1 microp_uniform = F micro_mg_dcs = 5.000000000000000E-004 micro_mg_berg_eff_factor = 1.00000000000000 micro_mg_accre_enhan_fact = 1.00000000000000 micro_mg_autocon_fact = 1.000000000000000E-002 micro_mg_autocon_nd_exp = -1.10000000000000 micro_mg_autocon_lwp_exp = 2.47000000000000 micro_mg_homog_size = 2.500000000000000E-005 micro_mg_vtrmi_factor = 1.00000000000000 micro_mg_vtrms_factor = 1.00000000000000 micro_mg_effi_factor = 1.00000000000000 micro_mg_iaccr_factor = 1.00000000000000 micro_mg_max_nicons = 100000000.000000 micro_mg_precip_frac_method = in_cloud micro_mg_warm_rain = kk2000 micro_mg_adjust_cpt = F micro_mg_nccons = F micro_mg_nicons = F micro_mg_ncnst = 50000000.0000000 micro_mg_ninst = 50000.0000000000 micro_mg_ngcons = F micro_mg_ngnst = 500.000000000000 micro_mg_do_hail = F micro_mg_do_graupel = T micro_do_massless_droplet_destroyer = F micro_mg_nrcons = F micro_mg_nscons = F micro_mg_nrnst = 200000.000000000 micro_mg_nsnst = 5000.00000000000 micro_mg_evap_sed_off = F micro_mg_icenuc_rh_off = F micro_mg_icenuc_use_meyers = F micro_mg_evap_scl_ifs = F micro_mg_evap_rhthrsh_ifs = F micro_mg_rainfreeze_ifs = F micro_mg_ifs_sed = F micro_mg_precip_fall_corr = F micro_mg_implicit_fall = T micro_mg_accre_sees_auto = T Microphysics secondary ice namelist: rafsip_on = F hetfrz_classnuc_cam_readnl: hist_hetfrz_classnuc = F hetfrz_classnuc_cam_readnl: hetfrz_bc_scalfac = 1.000000000000000E-002 hetfrz_classnuc_cam_readnl: hetfrz_dust_scalfac = 5.000000000000000E-002 tuning parameters prognostic_cloud_water_init: icritw 1.797693134862316E+308 icritc 1.797693134862316E+308 conke 1.797693134862316E+308 r3lcrit 1.797693134862316E+308 prognostic_cloud_water_init: do_psrhmin = F tuning parameters prognostic_cloud_water_init: capnw 400.000000000000 capnc 150.000000000000 capnsi 75.0000000000000 kconst 1180000.00000000 tuning parameters prognostic_cloud_water_init: effc 0.550000000000000 alpha 1.46410000000000 capc 442304.333004786 tuning parameters prognostic_cloud_water_init: critpr 0.500000000000000 convfw 6.72508409063470 cracw 5.32849897563407 ciautb 5.000000000000000E-004 cloud_particle_sedimentation_init: cldsed_ice_stokes_fac = 1.797693134862316E+308 lunar_tides_readnl: apply_lunar_tides: F phys_debug_readnl: phys_debug_lat = 1.797693134862316E+308 phys_debug_readnl: phys_debug_lon = 1.797693134862316E+308 RRTMG radiation scheme parameters: Frequency (timesteps) of Shortwave Radiation calc: 2 Frequency (timesteps) of Longwave Radiation calc: 2 SW/LW calc done every timestep for first N steps. N= 0 Use average zenith angle: F Output spectrally resolved fluxes: F Graupel in Radiation Code: F rad_cnst_readnl: Radiation constituent lists: list_init1: namelist input for climate list rad namelist spec: A:Q:H2O rad namelist spec: N:O2:O2 rad namelist spec: N:CO2:CO2 rad namelist spec: N:ozone:O3 rad namelist spec: N:N2O:N2O rad namelist spec: N:CH4:CH4 rad namelist spec: N:CFC11:CFC11 rad namelist spec: N:CFC12:CFC12 gas list for climate calculations A:H2O has constituents name:Q N:O3 has pbuf name:ozone N:O2 has pbuf name:O2 N:CO2 has pbuf name:CO2 N:N2O has pbuf name:N2O N:CH4 has pbuf name:CH4 N:CFC11 has pbuf name:CFC11 N:CFC12 has pbuf name:CFC12 bulk aerosol list for climate calculations modal aerosol list for climate calculations bin aerosol list for climate calculations Mode Definitions Bin Definitions aerosol_optics_cam_readnl: water_refindex_file = NONE Reading aerosol tables from : /cluster/shared/noresm/inputdata/noresm-only/atm/ cam/camoslo/AeroTab_8jun17/ Reading ocean tracers from : /cluster/shared/noresm/inputdata/noresm-only/atm/c am/camoslo/Lana_ocean_1849_2006.nc DMS emission source is : lana Ocean POM emission source is : odowd hetfrz_classnuc_cam_readnl: hist_hetfrz_classnuc = F hetfrz_classnuc_cam_readnl: hetfrz_bc_scalfac = 1.000000000000000E-002 hetfrz_classnuc_cam_readnl: hetfrz_dust_scalfac = 5.000000000000000E-002 (shr_dust_emis_read) Read in dust_emis_inparm namelist from: drv_flds_in dust_readnl: Leung_2023 dust emission method is being used. mee_ion_readnl:: mee_ion_inline = F species_sums_readnl -- vmr_sums : species_sums_readnl -- mmr_sums : ocean_emis_readnl: ocean_salinity_file = /cluster/shared/noresm/inputdata/atm/c am/chem/ocnexch/SSS_climatology_f09f09_c20230110.nc ocean_emis_readnl: bubble_mediated_transfer = F lightning_readnl lght_no_prd_factor: -1.797693134862316E+308 solar_data_readnl: solar_const (W/m2) = -9999.00000000000 solar_data_readnl: solar_irrad_data_file = /cluster/shared/noresm/inputdata/atm/cam/solar/SolarForcing1995-2005avg_c160929 .nc solar_data_readnl: solar_parms_data_file = NONE solar_data_readnl: solar_euv_data_file = NONE solar_data_readnl: solar_wind_data_file = NONE solar_data_readnl: solar_data_type = FIXED solar_data_readnl: solar_data_ymd = 20000101 solar_data_readnl: solar_data_tod = 0 solar_data_readnl: solar_htng_spctrl_scl = T check_energy options: print_energy_errors = F Rayleigh friction not enabled. dyn_readnl: reading dyn_se_inparm namelist... initmpi: Number of MPI processes: 512 INITOMP: INFO: openmp not activated HOMME_POSTPROCESS_NAMELIST: omp_get_max_threads() = 1 HOMME_POSTPROCESS_NAMELIST: Mesh File:none HOMME_POSTPROCESS_NAMELIST: Reference element projection: cubed_sphere_map= 0 dyn_readnl: se_ftype = 2 dyn_readnl: se_statediag_numtrac = 3 dyn_readnl: se_hypervis_subcycle = 2 dyn_readnl: se_hypervis_subcycle_sponge = 1 dyn_readnl: se_hypervis_subcycle_q = 1 dyn_readnl: se_large_Courant_incr = T dyn_readnl: se_limiter_option = 8 dyn_readnl: se_ne = 30 dyn_readnl: se_npes = 512 dyn_readnl: se_nsplit = 2 dyn_readnl: se_nu_top = 0.12E+06 dyn_readnl: se_qsplit = 1 dyn_readnl: se_rsplit = 3 dyn_readnl: se_statefreq = 0 dyn_readnl: se_tstep_type = 4 dyn_readnl: se_vert_remap_T = thermal_energy_over_P dyn_readnl: se_vert_remap_uvTq_alg = FV3_CS dyn_readnl: se_vert_remap_tracer_alg = PPM_bc_linear_extrapolation dyn_readnl: se_fvm_supercycling = 3 dyn_readnl: se_fvm_supercycling_jet = 3 dyn_readnl: se_kmin_jet = 1 dyn_readnl: se_kmax_jet = 58 dyn_readnl: se_sponge_del4_nu_fac = -1.00000000000000 (automatically set based on model top location) dyn_readnl: se_sponge_del4_nu_div_fac = -1.00000000000000 (automatically set based on model top location) dyn_readnl: se_sponge_del4_lev = -1 (automatically set based on model top location) dyn_readnl: physics will run on FVM points; advection by CSLAM dyn_readnl: se_fv_nphys = 3 dyn_readnl: se_horz_num_threads = 1 dyn_readnl: se_vert_num_threads = 1 dyn_readnl: se_tracer_num_threads = 1 dyn_readnl: do not write grid file dyn_readnl: write gll corners to SEMapping.nc = F dyn_readnl: write restart data on unstructured grid = F dyn_readnl: se_molecular_diff = 0.00E+00 native_mapping_readnl: Check for native_mapping_nl namelist in atm_in native_mapping_readnl: No native_mapping_nl namelist found qneg_readnl : QNEG statistics will be collected and printed at the end of the run hemco_readnl: hemco data root is at = hemco_readnl: hemco config file = HEMCO_Config.rc hemco_readnl: hemco diagn file = HEMCO_Diagn.rc hemco_readnl: hemco internal grid dimensions will be 0 x 0 hemco_readnl: hemco will use emissions from the CESM clock TEM diagnostics will not be performed stream ndep settings: stream_ndep_data_filename = /cluster/shared/noresm/inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc stream_ndep_mesh_filename = /cluster/shared/noresm/inputdata/share/meshes/fv0.9x1.25_141008_polemod_ESMFmesh.nc stream_varlist_ndep = NDEP_NHx_monthNDEP_NOy_month stream_ndep_year_first = 2000 stream_ndep_year_last = 2000 stream_ndep_year_align = 1 (GETFIL): attempting to find local file FLT_L58_ne30pg3_IC_c220623.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/inic/se/FLT_L58_ne30pg3_IC_c220623.nc (GETFIL): attempting to find local file ne30pg3_gmted2010_modis_bedmachine_nc3000_Laplace0100_noleak_20240720.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/topo/se/ne30pg3_gmted2010_modis_bedmac hine_nc3000_Laplace0100_noleak_20240720.nc hycoef_read: read hyai, hybi, hyam, hybm hycoef_read: read P0 value: 100000.000000000 Registering hist coord: lev(1) with length: 58 Registering hist coord: lev(1) with length: 58 Registering hist coord: hyam(2) with length: 58 Registering hist coord: hybm(3) with length: 58 Registering hist coord: ilev(4) with length: 59 Registering hist coord: ilev(4) with length: 59 Registering hist coord: hyai(5) with length: 59 Registering hist coord: hybi(6) with length: 59 Layer Locations (*1000) 1 2.0548 0.0000 2.0548 3.0176 0.0000 3.0176 2 3.9804 0.0000 3.9804 5.4449 0.0000 5.4449 3 6.9093 0.0000 6.9093 9.0872 0.0000 9.0872 4 11.2650 0.0000 11.2650 14.2475 0.0000 14.2475 5 17.2300 0.0000 17.2300 21.0015 0.0000 21.0015 6 24.7729 0.0000 24.7729 29.2088 0.0000 29.2088 7 33.6447 0.0000 33.6447 38.5524 0.0000 38.5524 8 43.4600 0.0000 43.4600 48.6370 0.0000 48.6370 9 53.8141 0.0000 53.8141 59.0970 0.0000 59.0970 10 64.3800 0.0000 64.3800 69.6667 0.0000 69.6667 11 74.9533 0.0000 74.9533 80.2021 0.0000 80.2021 12 85.4508 0.0000 85.4508 84.9608 5.7060 90.6668 13 84.4708 11.4120 95.8828 83.9806 17.1209 101.1015 14 83.4903 22.8299 106.3202 82.9949 28.5983 111.5932 15 82.4996 34.3667 116.8663 81.9936 40.2584 122.2520 16 81.4877 46.1501 127.6378 80.9656 52.2300 133.1955 17 80.4434 58.3098 138.7533 79.8998 64.6407 144.5405 18 79.3561 70.9716 150.3277 78.7858 77.6132 156.3990 19 78.2154 84.2549 162.4703 77.6135 91.2641 168.8776 20 77.0116 98.2733 175.2849 76.3734 105.7044 182.0778 21 75.7353 113.1355 188.8708 75.0563 121.0413 196.0976 22 74.3774 128.9471 203.3245 73.6533 137.3796 211.0329 23 72.9291 145.8122 218.7413 72.1553 154.8237 226.9790 24 71.3814 163.8352 235.2166 70.5576 173.4277 243.9853 25 69.7339 183.0202 252.7541 68.8548 193.2563 262.1112 26 67.9758 203.4925 271.4683 67.0317 214.4866 281.5183 27 66.0876 225.4806 291.5682 65.0735 237.2887 302.3623 28 64.0595 249.0968 313.1563 62.9704 261.7792 324.7496 29 61.8813 274.4616 336.3429 60.7116 288.0830 348.7945 30 59.5418 301.7044 361.2462 58.2855 316.3343 374.6198 31 57.0291 330.9643 387.9934 55.6797 346.6774 402.3572 32 54.3304 362.3906 416.7209 52.8811 379.2672 432.1482 33 51.4318 396.1437 447.5755 49.8752 414.2699 464.1451 34 48.3186 432.3961 480.7147 46.6468 451.8643 498.5111 35 44.9749 471.3326 516.3075 43.1793 492.2423 535.4216 36 41.3837 513.1520 554.5356 39.5313 534.7221 574.2534 37 37.6790 556.2923 593.9712 35.9046 576.9550 612.8595 38 34.1301 597.6177 631.7478 32.4914 616.7005 649.1919 39 30.8527 635.7832 666.6359 29.3392 653.4068 682.7461 40 27.8258 671.0304 698.8562 26.4281 687.3065 713.7346 41 25.0304 703.5825 728.6129 23.7395 718.6140 742.3536 42 22.4487 733.6456 756.0943 21.2566 747.5277 768.7843 43 20.0644 761.4099 781.4743 18.9634 774.2305 793.1940 44 17.8625 787.0512 804.9136 16.8457 798.8915 815.7372 45 15.8289 810.7319 826.5607 14.8898 821.6668 836.5567 46 13.9508 832.6018 846.5526 13.0835 842.7007 855.7842 47 12.2163 852.7995 865.0158 11.4154 862.1262 873.5415 48 10.6144 871.4528 882.0673 9.8747 880.0663 889.9411 49 9.1351 888.6798 897.8149 8.4519 896.6347 905.0866 50 7.7688 904.5896 912.3584 7.1379 911.9362 919.0741 51 6.5070 919.2828 925.7898 5.9244 926.0677 931.9920 52 5.3417 932.8526 938.1943 4.8036 939.1186 943.9222 53 4.2655 945.3847 949.6502 3.7685 951.1716 954.9402 54 3.2716 956.9586 960.2302 2.8126 962.3030 965.1156 55 2.3537 967.6475 970.0011 1.9298 972.5832 974.5131 56 1.5059 977.5190 979.0250 1.1145 982.0774 983.1919 57 0.7230 986.6358 987.3588 0.3615 990.8456 991.2071 58 0.0000 995.0555 995.0555 0.0000 997.5277 997.5277 59 0.0000 1000.0000 1000.0000 reference pressures (Pa) 1 205.4808 301.7591 192.5567 2 398.0374 544.4857 292.8965 3 690.9340 908.7188 435.5696 4 1126.5036 1424.7538 596.5005 5 1723.0041 2100.1455 754.2829 6 2477.2870 2920.8793 887.1847 7 3364.4717 3855.2352 981.5271 8 4345.9988 4863.7037 1035.4099 9 5381.4087 5909.7032 1056.5891 10 6437.9978 6966.6652 1057.3347 11 7495.3325 8020.2073 1049.7495 12 8545.0820 9066.6819 1043.1997 13 9588.2817 10110.1489 1043.7344 14 10632.0161 11159.3208 1054.6094 15 11686.6255 12225.2004 1077.1499 16 12763.7754 13319.5503 1111.5498 17 13875.3252 14454.0461 1157.4419 18 15032.7671 15639.8975 1214.2607 19 16247.0278 16887.7566 1281.4575 20 17528.4854 18207.7812 1358.5918 21 18887.0771 19609.7642 1445.3740 22 20332.4512 21103.2900 1541.6777 23 21874.1289 22697.8960 1647.5342 24 23521.6631 24398.5347 1753.7432 25 25275.4063 26211.1196 1871.4268 26 27146.8330 28151.8271 2009.9883 27 29156.8213 30236.2275 2158.8125 28 31315.6338 32474.9604 2318.6533 29 33634.2871 34879.4531 2490.3320 30 36124.6191 37461.9785 2674.7188 31 38799.3379 40235.7158 2872.7559 32 41672.0938 43214.8242 3085.4609 33 44757.5547 46414.5127 3313.9160 34 48071.4707 49851.1104 3559.2793 35 51630.7500 53542.1572 3822.8145 36 55453.5645 57425.3445 3943.5601 37 59397.1246 61285.9539 3777.6586 38 63174.7832 64919.1852 3488.8039 39 66663.5871 68274.6052 3222.0361 40 69885.6233 71373.4565 2975.6665 41 72861.2898 74235.3574 2748.1353 42 75609.4250 76878.4260 2538.0020 43 78147.4270 79319.3951 2343.9363 44 80491.3633 81573.7181 2164.7096 45 82656.0729 83655.6666 1999.1874 46 84655.2602 85578.4210 1846.3216 47 86501.5818 87354.1541 1705.1445 48 88206.7263 88994.1075 1574.7624 49 89781.4887 90508.6637 1454.3498 50 91235.8386 91907.4108 1343.1445 51 92578.9831 93199.2043 1240.4423 52 93819.4254 94392.2220 1145.5932 53 94965.0186 95494.0170 1057.9966 54 96023.0153 96511.5643 977.0980 55 97000.1133 97451.3059 902.3852 56 97902.4985 98319.1911 833.3853 57 98735.8838 99120.7145 769.6613 58 99505.5451 99752.7726 494.4549 59 100000.0000 Registering hist coord: trop_pref(7) with length: 58 Registering hist coord: trop_pref(7) with length: 58 Registering hist coord: trop_prefi(8) with length: 59 Registering hist coord: trop_prefi(8) with length: 59 PRIM_INIT1: creating cube topology... ...done. PRIM_INIT1: total number of elements nelem = 5400 PRIM_INIT1: partitioning graph using SF Curve... allocating physgrid grid vars fv_nphys,nhc_phys,nhe_phys,nhr_phys,ns_phys = 3 3 0 2 3 PRIM_INIT1: init shared boundary_exchange buffers PRIM_INIT1: initializing cube elements... PRIM_INIT1: running mass_matrix PRIM_INIT1: re-initializing cube elements: area correction= 0.99999999999943145 PRIM_INIT1: re-running mass_matrix PRIM_INIT1: running global_dof PRIM_INIT1: max_num_threads= 1 |-----------------------------------------| | FVM tracer transport scheme information | |-----------------------------------------| Running consistent SE-CSLAM, Lauritzen et al. (2017, MWR). CSLAM = Conservative Semi-LAgrangian Multi-tracer scheme Lauritzen et al., (2010), J. Comput. Phys. Done Tracer transport scheme information fvm resolution is nc*nc in each element: nc = 3 ntrac,ntrac_d= 40 40 qsize,qsize_d= 6 10 ns==3: using quadratic interpolation for mapping cell averages values across ed ges Note that ns=4 is default CSLAM setting used in Lauritzen et al. (2010) so this option is slightly less accurate (but the stencil is smaller near panel edges!) PRIM_INIT1: initialize basic fvm coordinate variables PRIM_INIT1: end of prim_init dp_init: Initialized phys2fvm/fvm2phys mapping vars Grid: GLL, ID = 101, lat coord = lat_d, lon coord = lon_d, unstruct = T, block_ind = F, zonal_grid = F Attribute: area_d, long name = 'gll grid areas' dimname = ncol_d Attribute: area_weight_gll, long name = 'gll grid area weights' dimname = ncol_d Attribute: np, long name = '' value = 4 Attribute: ne, long name = '' value = 30 Grid: FVM, ID = 102, lat coord = lat_fvm, lon coord = lon_fvm, unstruct = T, block_ind = F, zonal_grid = F Attribute: area_fvm, long name = 'fvm grid areas' dimname = ncol_fvm Attribute: area_weight_fvm, long name = 'fvm grid area weights' dimname = ncol_fvm Attribute: nc, long name = '' value = 3 Attribute: ne, long name = '' value = 30 Grid: physgrid_d, ID = 103, lat coord = lat, lon coord = lon, unstruct = T, block_ind = F, zonal_grid = F Attribute: area_physgrid, long name = 'physics grid areas' dimname = ncol Attribute: area_weight_phys, long name = 'physics grid area weight' dimname = ncol Attribute: fv_nphys, long name = '' value = 3 Attribute: ne, long name = '' value = 30 Grid: physgrid, ID = 100, lat coord = lat, lon coord = lon, unstruct = T, block_ind = T, zonal_grid = F Attribute: fv_nphys, long name = '' value = 3 Attribute: ne, long name = '' value = 30 Attribute: area, long name = 'physics column areas' dimname = ncol Attribute: areawt, long name = 'physics column area weight' dimname = ncol Registering hist coord: trop_cld_lev(9) with length: 58 Registering hist coord: trop_cld_lev(9) with length: 58 srf_emis_inti: n_emis_files = 0 elevated_emissions_reg: n_emis_files = 0 Advected constituent list: 1 Q Specific humidity wet 2 CLDLIQ Grid box averaged cloud liquid amount wet 3 CLDICE Grid box averaged cloud ice amount wet 4 NUMLIQ Grid box averaged cloud liquid number wet 5 NUMICE Grid box averaged cloud ice number wet 6 RAINQM Grid box averaged rain amount wet 7 SNOWQM Grid box averaged snow amount wet 8 NUMRAI Grid box averaged rain number wet 9 NUMSNO Grid box averaged snow number wet 10 GRAUQM Grid box averaged graupel/hail amount wet 11 NUMGRA Grid box averaged graupel/hail number wet 12 SO2 SO2 dry 13 H2SO4 H2SO4 dry 14 DMS DMS dry 15 H2O2 H2O2 dry 16 SO4_NA SO4_NA dry 17 SO4_A1 SO4_A1 dry 18 SO4_A2 SO4_A2 dry 19 SO4_AC SO4_AC dry 20 SO4_PR SO4_PR dry 21 BC_N BC_N dry 22 BC_AX BC_AX dry 23 BC_NI BC_NI dry 24 BC_A BC_A dry 25 BC_AI BC_AI dry 26 BC_AC BC_AC dry 27 OM_NI OM_NI dry 28 OM_AI OM_AI dry 29 OM_AC OM_AC dry 30 DST_A2 DST_A2 dry 31 DST_A3 DST_A3 dry 32 SS_A1 SS_A1 dry 33 SS_A2 SS_A2 dry 34 SS_A3 SS_A3 dry 35 SOA_NA SOA_NA dry 36 SOA_A1 SOA_A1 dry 37 SOA_LV SOA_LV dry 38 SOA_SV SOA_SV dry 39 monoterp monoterp dry 40 isoprene isoprene dry flbc_inti: wrk_date,wrk_sec,wrk_time = 20000101 0 729635.000000000 flbc_inti: Species with specified lower boundary values CO2 CH4 N2O CFC11eq CF2CL2 flbc_inti: diagnostics lower bndy timing specs type = CYCLICAL cycle year = 2000 there are 5 species with specified lower bndy values (GETFIL): attempting to find local file LBC_2000climo_CMIP6_0p5degLat_c180227.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/waccm/lb/LBC_2000climo_CMIP6_0p5degLat_c18 0227.nc chem_surfvals_set: ncdate= 10101 co2vmr= 3.703722041654117E-004 chem_surfvals_set: ch4vmr= 1.779614189187470E-006 n2ovmr= 3.155996167201829E-007 f11vmr= 6.928766743978975E-010 f12vmr= 5.389809400200124E-010 chem_surfvals_init: Initial ghg surface values: co2 volume mixing ratio = 3.703722041654117E-004 ch4 volume mixing ratio = 1.779614189187470E-006 n2o volume mixing ratio = 3.155996167201829E-007 f11 volume mixing ratio = 6.928766743978975E-010 f12 volume mixing ratio = 5.389809400200124E-010 Dry air composition 0 -1 0.000000000000000E+000 1004.64000000000 717.597688634951 Thermodynamic active species Q global index : 1 thermodynamic_active_species_idx : 1 cp : 1810.00000000000 cv : 1384.51391946048 Thermodynamic active species CLDLIQ global index : 2 thermodynamic_active_species_idx : 2 cp : 4188.00000000000 cv : 4188.00000000000 register phase (liquid or ice) : liquid Thermodynamic active species CLDICE global index : 3 thermodynamic_active_species_idx : 3 cp : 2117.27000000000 cv : 2117.27000000000 register phase (liquid or ice) : ice Thermodynamic active species RAINQM global index : 4 thermodynamic_active_species_idx : 6 cp : 4188.00000000000 cv : 4188.00000000000 register phase (liquid or ice) : liquid Thermodynamic active species SNOWQM global index : 5 thermodynamic_active_species_idx : 7 cp : 2117.27000000000 cv : 2117.27000000000 register phase (liquid or ice) : ice Thermodynamic active species GRAUQM global index : 6 thermodynamic_active_species_idx : 10 cp : 2117.27000000000 cv : 2117.27000000000 register phase (liquid or ice) : ice Enthalpy reference state : ice dyn_init: vertical coordinate dycore : Dry pressure/mass vertical coordinate dyn_init: m,thermodynamic_active_species_idx_liq_dycore: 1 2 dyn_init: m,thermodynamic_active_species_idx_liq_dycore: 2 4 dyn_init: m,thermodynamic_active_species_idx_ice_dycore: 1 3 dyn_init: m,thermodynamic_active_species_idx_ice_dycore: 2 5 dyn_init: m,thermodynamic_active_species_idx_ice_dycore: 3 6 Reading in PHIS on GLL grid (mapped to physgrid in d_p_coupling) Creating new decomp: 16!11!!48602!!d6!i1! INFLD_REAL_1D_2D: read field PHIS_gll INFLD_REAL_1D_2D: read field lat_d INFLD_REAL_1D_2D: read field lon_d INFLD_REAL_1D_2D: read field PS Creating new decomp: 16!58!11!!48602!58!!d6!i1! INFLD_REAL_2D_3D: read field U INFLD_REAL_2D_3D: read field V INFLD_REAL_2D_3D: read field T INFLD_REAL_2D_3D: read field Q Field CLDLIQ not found on initial dataset CLDLIQ initialized by "microp_driver_init_cnst" Field CLDICE not found on initial dataset CLDICE initialized by "microp_driver_init_cnst" Field NUMLIQ not found on initial dataset NUMLIQ initialized by "microp_driver_init_cnst" Field NUMICE not found on initial dataset NUMICE initialized by "microp_driver_init_cnst" Field RAINQM not found on initial dataset RAINQM initialized by "microp_driver_init_cnst" Field SNOWQM not found on initial dataset SNOWQM initialized by "microp_driver_init_cnst" Field NUMRAI not found on initial dataset NUMRAI initialized by "microp_driver_init_cnst" Field NUMSNO not found on initial dataset NUMSNO initialized by "microp_driver_init_cnst" Field GRAUQM not found on initial dataset GRAUQM initialized by "microp_driver_init_cnst" Field NUMGRA not found on initial dataset NUMGRA initialized by "microp_driver_init_cnst" Field SO2 not found on initial dataset SO2 initialized by "chem_init_cnst" Field H2SO4 not found on initial dataset H2SO4 initialized by "chem_init_cnst" Field DMS not found on initial dataset DMS initialized by "chem_init_cnst" Field H2O2 not found on initial dataset H2O2 initialized by "chem_init_cnst" Field SO4_NA not found on initial dataset SO4_NA initialized by "chem_init_cnst" Field SO4_A1 not found on initial dataset SO4_A1 initialized by "chem_init_cnst" Field SO4_A2 not found on initial dataset SO4_A2 initialized by "chem_init_cnst" Field SO4_AC not found on initial dataset SO4_AC initialized by "chem_init_cnst" Field SO4_PR not found on initial dataset SO4_PR initialized by "chem_init_cnst" Field BC_N not found on initial dataset BC_N initialized by "chem_init_cnst" Field BC_AX not found on initial dataset BC_AX initialized by "chem_init_cnst" Field BC_NI not found on initial dataset BC_NI initialized by "chem_init_cnst" Field BC_A not found on initial dataset BC_A initialized by "chem_init_cnst" Field BC_AI not found on initial dataset BC_AI initialized by "chem_init_cnst" Field BC_AC not found on initial dataset BC_AC initialized by "chem_init_cnst" Field OM_NI not found on initial dataset OM_NI initialized by "chem_init_cnst" Field OM_AI not found on initial dataset OM_AI initialized by "chem_init_cnst" Field OM_AC not found on initial dataset OM_AC initialized by "chem_init_cnst" Field DST_A2 not found on initial dataset DST_A2 initialized by "chem_init_cnst" Field DST_A3 not found on initial dataset DST_A3 initialized by "chem_init_cnst" Field SS_A1 not found on initial dataset SS_A1 initialized by "chem_init_cnst" Field SS_A2 not found on initial dataset SS_A2 initialized by "chem_init_cnst" Field SS_A3 not found on initial dataset SS_A3 initialized by "chem_init_cnst" Field SOA_NA not found on initial dataset SOA_NA initialized by "chem_init_cnst" Field SOA_A1 not found on initial dataset SOA_A1 initialized by "chem_init_cnst" Field SOA_LV not found on initial dataset SOA_LV initialized by "chem_init_cnst" Field SOA_SV not found on initial dataset SOA_SV initialized by "chem_init_cnst" Field monoterp not found on initial dataset monoterp initialized by "chem_init_cnst" Field isoprene not found on initial dataset isoprene initialized by "chem_init_cnst" Convert specific/wet mixing ratios to dry ------ info from prim_set_dry_mass -------------------------------------------- --------------- Scaling dry surface pressure to global average of = 982.880000000000 hP a Average dry surface pressure in initial condition = 982.889150245440 hP a Average dry surface pressure change = -0.915024543966865 Pa Mixing ratios that are wet have been scaled so that total mass of tracer is con served Mixing ratios that are dry have not been changed (mass not conserved in scaling process) ------ end info from prim_set_dry_mass ---------------------------------------- --------------- Initializing dp_fvm from spectral element dp FVM tracers, FVM pressure variables and se_area_sphere initialized. dyn_init: ksponge_end = 3 dyn_init: sponge layer Laplacian damping k, p, z, nu_scale_top, nu (actual Laplacian damping coefficient) 1 0.3018E+03 0.3939E+05 0.4400E+01 0.5500E+06 2 0.5445E+03 0.3518E+05 0.1300E+01 0.1625E+06 3 0.9087E+03 0.3169E+05 0.3900E+01 0.4875E+06 4 0.1425E+04 0.2871E+05 0.0000E+00 0.0000E+00 Running Global Integral Diagnostic... Area of unit sphere is 1.00000000000000 Should be 1.0 to round off... Element area: max/min 1.377 Total Grid area: 0.510099699070762E+09 Total Grid area rad^2: 0.125663706143592E+02 Average equatorial node spacing (deg, km) = 1.000 111.20 norm of Dinv (min, max): 38.302 57.296 Max Dinv-based element distortion: 1.73 dx based on Dinv svd: ave,min,max = 91.40 74.13 110.90 dx based on sqrt element area: ave,min,max = 102.45 94.71 111.15 Automatically setting nu_p = 0.10E+16 Automatically setting nu = 0.10E+16 Automatically setting nu_div = 0.25E+16 Model top damping configuration: top_032_042km Sponge layer del4 coefficient defaults based on model top location: sponge_del4_nu_fac = 0.10E+01 sponge_del4_nu_div_fac = 0.10E+01 sponge_del4_lev = 1 z computed from barometric formula (using US std atmosphere) k,pmid_ref,z,nu_lev,nu_t_lev,nu_div_lev 1 0.3018E+03 0.3939E+05 0.1000E+16 0.1000E+16 0.2500E+16 2 0.5445E+03 0.3518E+05 0.1000E+16 0.1000E+16 0.2500E+16 3 0.9087E+03 0.3169E+05 0.1000E+16 0.1000E+16 0.2500E+16 4 0.1425E+04 0.2871E+05 0.1000E+16 0.1000E+16 0.2500E+16 5 0.2100E+04 0.2616E+05 0.1000E+16 0.1000E+16 0.2500E+16 6 0.2921E+04 0.2402E+05 0.1000E+16 0.1000E+16 0.2500E+16 7 0.3855E+04 0.2224E+05 0.1000E+16 0.1000E+16 0.2500E+16 8 0.4864E+04 0.2075E+05 0.1000E+16 0.1000E+16 0.2500E+16 9 0.5910E+04 0.1952E+05 0.1000E+16 0.1000E+16 0.2500E+16 10 0.6967E+04 0.1847E+05 0.1000E+16 0.1000E+16 0.2500E+16 11 0.8020E+04 0.1758E+05 0.1000E+16 0.1000E+16 0.2500E+16 12 0.9074E+04 0.1680E+05 0.1000E+16 0.1000E+16 0.2500E+16 13 0.1013E+05 0.1610E+05 0.1000E+16 0.1000E+16 0.2500E+16 14 0.1120E+05 0.1546E+05 0.1000E+16 0.1000E+16 0.2500E+16 15 0.1228E+05 0.1488E+05 0.1000E+16 0.1000E+16 0.2500E+16 16 0.1339E+05 0.1433E+05 0.1000E+16 0.1000E+16 0.2500E+16 17 0.1454E+05 0.1381E+05 0.1000E+16 0.1000E+16 0.2500E+16 18 0.1574E+05 0.1330E+05 0.1000E+16 0.1000E+16 0.2500E+16 19 0.1701E+05 0.1281E+05 0.1000E+16 0.1000E+16 0.2500E+16 20 0.1835E+05 0.1233E+05 0.1000E+16 0.1000E+16 0.2500E+16 21 0.1977E+05 0.1186E+05 0.1000E+16 0.1000E+16 0.2500E+16 22 0.2129E+05 0.1139E+05 0.1000E+16 0.1000E+16 0.2500E+16 23 0.2290E+05 0.1092E+05 0.1000E+16 0.1000E+16 0.2500E+16 24 0.2463E+05 0.1046E+05 0.1000E+16 0.1000E+16 0.2500E+16 25 0.2647E+05 0.9993E+04 0.1000E+16 0.1000E+16 0.2500E+16 26 0.2844E+05 0.9521E+04 0.1000E+16 0.1000E+16 0.2500E+16 27 0.3055E+05 0.9042E+04 0.1000E+16 0.1000E+16 0.2500E+16 28 0.3282E+05 0.8557E+04 0.1000E+16 0.1000E+16 0.2500E+16 29 0.3526E+05 0.8066E+04 0.1000E+16 0.1000E+16 0.2500E+16 30 0.3788E+05 0.7568E+04 0.1000E+16 0.1000E+16 0.2500E+16 31 0.4070E+05 0.7064E+04 0.1000E+16 0.1000E+16 0.2500E+16 32 0.4372E+05 0.6552E+04 0.1000E+16 0.1000E+16 0.2500E+16 33 0.4696E+05 0.6034E+04 0.1000E+16 0.1000E+16 0.2500E+16 34 0.5045E+05 0.5508E+04 0.1000E+16 0.1000E+16 0.2500E+16 35 0.5419E+05 0.4976E+04 0.1000E+16 0.1000E+16 0.2500E+16 36 0.5813E+05 0.4447E+04 0.1000E+16 0.1000E+16 0.2500E+16 37 0.6205E+05 0.3949E+04 0.1000E+16 0.1000E+16 0.2500E+16 38 0.6574E+05 0.3503E+04 0.1000E+16 0.1000E+16 0.2500E+16 39 0.6914E+05 0.3109E+04 0.1000E+16 0.1000E+16 0.2500E+16 40 0.7228E+05 0.2759E+04 0.1000E+16 0.1000E+16 0.2500E+16 41 0.7519E+05 0.2446E+04 0.1000E+16 0.1000E+16 0.2500E+16 42 0.7787E+05 0.2166E+04 0.1000E+16 0.1000E+16 0.2500E+16 43 0.8035E+05 0.1914E+04 0.1000E+16 0.1000E+16 0.2500E+16 44 0.8263E+05 0.1687E+04 0.1000E+16 0.1000E+16 0.2500E+16 45 0.8474E+05 0.1482E+04 0.1000E+16 0.1000E+16 0.2500E+16 46 0.8669E+05 0.1296E+04 0.1000E+16 0.1000E+16 0.2500E+16 47 0.8850E+05 0.1127E+04 0.1000E+16 0.1000E+16 0.2500E+16 48 0.9016E+05 0.9738E+03 0.1000E+16 0.1000E+16 0.2500E+16 49 0.9170E+05 0.8342E+03 0.1000E+16 0.1000E+16 0.2500E+16 50 0.9312E+05 0.7069E+03 0.1000E+16 0.1000E+16 0.2500E+16 51 0.9443E+05 0.5908E+03 0.1000E+16 0.1000E+16 0.2500E+16 52 0.9564E+05 0.4847E+03 0.1000E+16 0.1000E+16 0.2500E+16 53 0.9675E+05 0.3876E+03 0.1000E+16 0.1000E+16 0.2500E+16 54 0.9779E+05 0.2988E+03 0.1000E+16 0.1000E+16 0.2500E+16 55 0.9874E+05 0.2174E+03 0.1000E+16 0.1000E+16 0.2500E+16 56 0.9962E+05 0.1429E+03 0.1000E+16 0.1000E+16 0.2500E+16 57 0.1004E+06 0.7447E+02 0.1000E+16 0.1000E+16 0.2500E+16 58 0.1011E+06 0.2087E+02 0.1000E+16 0.1000E+16 0.2500E+16 : ksponge_end = 3 : sponge layer Laplacian damping k, p, z, nu_scale_top, nu (actual Laplacian damping coefficient) 1 0.3018E+03 0.3939E+05 0.4400E+01 0.5500E+06 2 0.5445E+03 0.3518E+05 0.1300E+01 0.1625E+06 3 0.9087E+03 0.3169E+05 0.3900E+01 0.4875E+06 Model top is 205.48077300Pa Timestepping methods used in dynamical core: * Kinnmark&Gray RK3 5 stage (3rd order) * Spectral-element advection uses SSP preservation RK3 * Viscosity operators use forward Euler Estimates for maximum stable and actual time-steps for different aspects of algorithm: (assume max wind is 120.00000000m/s) (assume max gravity wave speed is 342m/s) * dt_dyn (time-stepping dycore ; u,v,T,dM) < 356.00s 300.00s * dt_dyn_vis (hyperviscosity) ; u,v,T,dM) < 135.91s 150.00s WARNING: dt_dyn_vis theoretically unstable * dt_tracer_fvm (time-stepping tracers ; q ) < 1853.31s 900.00 * dt_remap (vertical remap dt) 900.00 * dt (del2 sponge ; u,v,T,dM) < 749.40s 300.00s * dt (del2 sponge ; u,v,T,dM) < 2536.44s 300.00s * dt (del2 sponge ; u,v,T,dM) < 845.48s 300.00s tstep_type = 4 CAM dtime (dt_phys): 1800.00 CAM-SE uses dry-mass vertical coordinates initial state: nstep= 0 time= 0.000000000000000E+000 [day] STATE DIAGNOSTICS MIN MAX AVE (hPa) REL. MASS. CHANGE U -0.663139952661284E+02 0.117638117422738E+03 V -0.591168039149886E+02 0.568754427469387E+02 T 0.184973566164241E+03 0.309014439877669E+03 OMEGA -0.208716507322062E+01 0.153478721938786E+01 OMEGA CN 0.000000000000000E+00 0.000000000000000E+00 PSDRY(fvm) 0.529694731235943E+05 0.104391056505350E+06 0.980825192269992E+03 0.000000000000000E+00 PS(fvm) 0.529835187688821E+05 0.103782438671472E+06 0.983169421161419E+03 0.000000000000000E+00 PSDRY(gll) 0.531590065775590E+05 0.104613307107893E+06 0.982880000000000E+03 0.000000000000000E+00 PS(gll) 0.531719725204568E+05 0.104669363246595E+06 0.985224205442889E+03 0.000000000000000E+00 Q 0.236171046704855E-06 0.215723966869583E-01 0.234422889142669E+01 0.000000000000000E+00 CLDLIQ 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 CLDICE 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 FORCING DIAGNOSTICS MIN MAX FT 0.000000000000000E+00 0.000000000000000E+00 FM 0.000000000000000E+00 0.000000000000000E+00 FQ 0.000000000000000E+00 0.000000000000000E+00 FCLDLIQ 0.000000000000000E+00 0.000000000000000E+00 FCLDICE 0.000000000000000E+00 0.000000000000000E+00 nstep= 0 time= 0.000000000000000E+000 [day] min/max of wind components in each layer k,V (min max)= 1 -66.3139952661284 117.638117422738 k,V (min max)= 2 -56.1928873876135 96.4073851004189 k,V (min max)= 3 -53.4769348121488 79.1596727139785 k,V (min max)= 4 -51.6493618074249 63.6846447699903 k,V (min max)= 5 -48.1794719045838 55.1592338789840 k,V (min max)= 6 -43.4151953953561 48.4964466596764 k,V (min max)= 7 -37.8385493493426 45.3120201153144 k,V (min max)= 8 -37.6141417992155 44.0263658105138 k,V (min max)= 9 -36.2472821922209 45.5348329500311 k,V (min max)= 10 -34.6489554459597 46.9749992747071 k,V (min max)= 11 -33.5262195443569 51.2882082249061 k,V (min max)= 12 -40.9656877089482 61.9780885647541 k,V (min max)= 13 -42.5260291817163 65.1074054138564 k,V (min max)= 14 -41.9361335579671 69.3414822478832 k,V (min max)= 15 -45.6299858401763 80.8226058521686 k,V (min max)= 16 -42.1879055699344 84.2482236578908 k,V (min max)= 17 -40.5823995668709 90.0879944593931 k,V (min max)= 18 -39.2821572966405 92.7911469611477 k,V (min max)= 19 -39.1572557632620 95.6846591107857 k,V (min max)= 20 -42.1435711362581 96.2188825857815 k,V (min max)= 21 -45.3153021272357 96.9062419087816 k,V (min max)= 22 -47.4411379240631 95.7165982286362 k,V (min max)= 23 -52.3077140090410 94.6816462854998 k,V (min max)= 24 -55.1598982034610 91.5132063407332 k,V (min max)= 25 -57.7393292717073 88.5850762763936 k,V (min max)= 26 -59.1168039149886 86.0203180016387 k,V (min max)= 27 -57.2410409706256 85.6597421053615 k,V (min max)= 28 -55.3051188374473 84.9666290219781 k,V (min max)= 29 -49.4822564418190 83.9213371539636 k,V (min max)= 30 -46.3722415455704 82.3526348617187 k,V (min max)= 31 -45.9377744151698 79.0599970227645 k,V (min max)= 32 -45.9060494824510 76.2301388946130 k,V (min max)= 33 -44.7990198906338 71.3662914635208 k,V (min max)= 34 -42.7068055792966 66.5406687437726 k,V (min max)= 35 -41.7958690598412 61.1108615520937 k,V (min max)= 36 -39.1087224754993 56.6790717778981 k,V (min max)= 37 -38.1050410598538 51.7541405388033 k,V (min max)= 38 -34.4900854978554 48.0088721250104 k,V (min max)= 39 -33.1584863522211 46.5054429827580 k,V (min max)= 40 -31.6629227291215 46.1835175251823 k,V (min max)= 41 -30.3157245776967 45.8237423150647 k,V (min max)= 42 -29.1526779554542 45.4288493798207 k,V (min max)= 43 -26.7047101662780 44.8307446966267 k,V (min max)= 44 -27.7830286472372 44.2783734659422 k,V (min max)= 45 -30.2061013296228 43.7020499615288 k,V (min max)= 46 -32.4503069370010 43.1493549861743 k,V (min max)= 47 -33.3586072382220 43.0112415280903 k,V (min max)= 48 -33.9326269163018 42.8856987663625 k,V (min max)= 49 -34.1495445492368 42.3670167216538 k,V (min max)= 50 -34.1356757470239 41.6381993036873 k,V (min max)= 51 -35.2122963935458 41.2992440813843 k,V (min max)= 52 -35.0938037377315 40.3121868109008 k,V (min max)= 53 -34.5950457831537 39.0581948280076 k,V (min max)= 54 -32.4263232103556 36.8171813975180 k,V (min max)= 55 -30.3997374207744 35.0279883095888 k,V (min max)= 56 -28.4767412839852 33.1931431438740 k,V (min max)= 57 -26.4841949925719 31.2637070470032 k,V (min max)= 58 -25.1262065800108 29.7414899399771 Creating new decomp: 16!7!!48600!!d6!i4! INFLD_REAL_1D_2D: read field SGH INFLD_REAL_1D_2D: read field SGH30 INFLD_REAL_1D_2D: read field LANDM_COSLAT CAM_PIO_CHECK_VAR INFO: variable PBLH is not on file PBLH initialized to 0. CAM_PIO_CHECK_VAR INFO: variable TPERT is not on file TPERT initialized to 0. CAM_PIO_CHECK_VAR INFO: variable QPERT is not on file QPERT initialized to 0. CAM_PIO_CHECK_VAR INFO: variable CLOUD is not on file CLOUD initialized to 0. CAM_PIO_CHECK_VAR INFO: variable CONCLD is not on file CONCLD initialized to 0. CAM_PIO_CHECK_VAR INFO: variable TKE is not on file TKE initialized to 0.01 CAM_PIO_CHECK_VAR INFO: variable KVM is not on file KVM initialized to 0. CAM_PIO_CHECK_VAR INFO: variable KVH is not on file KVH initialized to 0. *** SATURATION VAPOR PRESSURE TABLE COMPLETED *** (GETFIL): attempting to find local file SolarForcing1995-2005avg_c160929.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/solar/SolarForcing1995-2005avg_c160929 .nc (GETFIL): attempting to find local file SolarForcing1995-2005avg_c160929.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/solar/SolarForcing1995-2005avg_c160929 .nc solar_data_init: data file = /cluster/shared/noresm/inputdata/atm/cam/solar/SolarForcing1995-2005avg_c160929 .nc solar_data_init: has_ref_spectrum F rad_cnst_init: checking for radiative constituents radlw_init: ntoplw = 1 (GETFIL): attempting to find local file F_nwvl200_mu20_lam50_res64_t298_c080428.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/physprops/F_nwvl200_mu20_lam50_res64_t 298_c080428.nc reading liquid cloud optics from file /cluster/shared/noresm/inputdata/atm/cam/physprops/F_nwvl200_mu20_lam50_res64_t 298_c080428.nc (GETFIL): attempting to find local file iceoptics_c080917.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/physprops/iceoptics_c080917.nc reading ice cloud optics from file /cluster/shared/noresm/inputdata/atm/cam/physprops/iceoptics_c080917.nc sox_inti: has_sox = T ----------------------------------------- mo_setsox will do sox aerosols ----------------------------------------- Assumed droplet size and table bin number for cloud & coagulation 9.999999747378752E-006 nbin 41 binmid 9.097092478409782E-006 kcompN tables: mode 0 ok kcompN tables: mode 1 ok kcompN tables: modes 2-3 ok kcompN tables: mode 4 ok kcompN tables: modes 5-10 ok lwkcompN tables: lw mode 0 ok lwkcompN tables: lw mode 1 ok lwkcompN tables: lw mode 2-3 ok lwkcompN tables: lw mode 4 ok lwkcompN tables: lw mode 5-10 ok nlog open ok nlog mode 1-3 ok nlog mode 4 ok nlog mode 5-10 ok oslo_dms_inti: n_ocean_species = 2 trcdata_init: data type: CYCLICAL file: Lana_ocean_1849_2006.nc (GETFIL): attempting to find local file Lana_ocean_1849_2006.nc (GETFIL): using /cluster/shared/noresm/inputdata/noresm-only/atm/cam/camoslo/Lana_ocean_1849_20 06.nc open_trc_datafile: /cluster/shared/noresm/inputdata/noresm-only/atm/cam/camoslo/Lana_ocean_1849_20 06.nc trcdata_init: file%has_ps = F trcdata_init: data type: CYCLICAL file: Lana_ocean_1849_2006.nc (GETFIL): attempting to find local file Lana_ocean_1849_2006.nc (GETFIL): using /cluster/shared/noresm/inputdata/noresm-only/atm/cam/camoslo/Lana_ocean_1849_20 06.nc open_trc_datafile: /cluster/shared/noresm/inputdata/noresm-only/atm/cam/camoslo/Lana_ocean_1849_20 06.nc trcdata_init: file%has_ps = F species_sums_init -- VMR SUMS: species_sums_init -- MMR SUMS: rate_diags_init : setinv_inti: m,n2,o2,h2o ndx = 1 2 3 -1 usrrxt_inti: diagnostics -1 2 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 7 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 trcdata_init: data type: CYCLICAL file: tracer_cnst_CAM6chem_2000climo_3D_month ly_c171004.nc (GETFIL): attempting to find local file tracer_cnst_CAM6chem_2000climo_3D_monthly_c171004.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/ozone/tracer_cnst_CAM6chem_2000climo_3 D_monthly_c171004.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/ozone/tracer_cnst_CAM6chem_2000climo_3 D_monthly_c171004.nc trcdata_init: file%has_ps = T There are no offline tracer sources airpl_src: NO and CO do not have external source --> no aircraft sources will b e applied chemini: after airpl_src on node 0 srf_emis_inti: n_emis_files = 5 srf_emissions_inti m: 1 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_AX_anthrosurfALL_surface_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_AX_anthrosurfALL_surface_1849-2015_0.9x1.25_version2 0180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_AX_anthrosurfALL_surface_1849-2015_0.9x1.25_vers ion20180512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_AX_anthr osurfALL_surface_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_AX_anthrosurfALL_surface_1849-2015_0.9x1.25_version2 0180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_AX_anthrosurfALL_surface_1849-2015_0.9x1.25_vers ion20180512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_AX_anthrosurfALL_surface_1849-2015_0.9x1.25_vers ion20180512.nc trcdata_init: file%has_ps = F srf_emissions_inti m: 2 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_N_anthrosurfALL_surface_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_N_anthrosurfALL_surface_1849-2015_0.9x1.25_version20 180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_N_anthrosurfALL_surface_1849-2015_0.9x1.25_versi on20180512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_N_anthro surfALL_surface_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_N_anthrosurfALL_surface_1849-2015_0.9x1.25_version20 180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_N_anthrosurfALL_surface_1849-2015_0.9x1.25_versi on20180512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_N_anthrosurfALL_surface_1849-2015_0.9x1.25_versi on20180512.nc trcdata_init: file%has_ps = F srf_emissions_inti m: 3 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_OM_NI_anthrosurfALL_surface_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_OM_NI_anthrosurfALL_surface_1849-2015_0.9x1.25_version2 0180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_anthrosurfALL_surface_1849-2015_0.9x1.25_vers ion20180512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_OM_NI_anthr osurfALL_surface_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_OM_NI_anthrosurfALL_surface_1849-2015_0.9x1.25_version2 0180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_anthrosurfALL_surface_1849-2015_0.9x1.25_vers ion20180512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_anthrosurfALL_surface_1849-2015_0.9x1.25_vers ion20180512.nc trcdata_init: file%has_ps = F srf_emissions_inti m: 4 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO2_anthrosurfALL_surface_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO2_anthrosurfALL_surface_1849-2015_0.9x1.25_version201 80512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_anthrosurfALL_surface_1849-2015_0.9x1.25_versio n20180512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO2_anthros urfALL_surface_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO2_anthrosurfALL_surface_1849-2015_0.9x1.25_version201 80512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_anthrosurfALL_surface_1849-2015_0.9x1.25_versio n20180512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_anthrosurfALL_surface_1849-2015_0.9x1.25_versio n20180512.nc trcdata_init: file%has_ps = F srf_emissions_inti m: 5 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO4_PR_anthrosurfALL_surface_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO4_PR_anthrosurfALL_surface_1849-2015_0.9x1.25_version 20180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_anthrosurfALL_surface_1849-2015_0.9x1.25_ver sion20180512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO4_PR_anth rosurfALL_surface_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO4_PR_anthrosurfALL_surface_1849-2015_0.9x1.25_version 20180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_anthrosurfALL_surface_1849-2015_0.9x1.25_ver sion20180512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_anthrosurfALL_surface_1849-2015_0.9x1.25_ver sion20180512.nc trcdata_init: file%has_ps = F chemini: after srf_emissions_inti on node 0 setext_inti: diagnostics: co_ndx, no_ndx, xno_ndx -1 -1 -1 extfrc_inti: diagnostics extfrc timing specs type = there are 17 species with external forcing files forcing type 1 species = BC_AX frc ndx = 3 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_AX_airALL_vertical_1849-2015_0.9x1.25_version201 80512.nc forcing type 2 species = BC_AX frc ndx = 3 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_AX_anthroprofALL_vertical_1849-2015_0.9x1.25_ver sion20180512.nc forcing type 3 species = BC_NI frc ndx = 2 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_NI_bbALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc forcing type 4 species = BC_N frc ndx = 4 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_N_airALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc forcing type 5 species = BC_N frc ndx = 4 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_N_anthroprofALL_vertical_1849-2015_0.9x1.25_vers ion20180512.nc forcing type 6 species = OM_NI frc ndx = 5 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_airALL_vertical_1849-2015_0.9x1.25_version201 80512.nc forcing type 7 species = OM_NI frc ndx = 5 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_anthroprofALL_vertical_1849-2015_0.9x1.25_ver sion20180512.nc forcing type 8 species = OM_NI frc ndx = 5 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_bbALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc forcing type 9 species = SO2 frc ndx = 1 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_airALL_vertical_1849-2015_0.9x1.25_version20180 512.nc forcing type 10 species = SO2 frc ndx = 1 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_anthroprofALL_vertical_1849-2015_0.9x1.25_versi on20180512.nc forcing type 11 species = SO2 frc ndx = 1 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_bbALL_vertical_1849-2015_0.9x1.25_version201805 12.nc forcing type 12 species = SO2 frc ndx = 1 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_volcALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc forcing type 13 species = SO4_PR frc ndx = 6 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_airALL_vertical_1849-2015_0.9x1.25_version20 180512.nc forcing type 14 species = SO4_PR frc ndx = 6 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_anthroprofALL_vertical_1849-2015_0.9x1.25_ve rsion20180512.nc forcing type 15 species = SO4_PR frc ndx = 6 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_bbALL_vertical_1849-2015_0.9x1.25_version201 80512.nc forcing type 16 species = SO4_PR frc ndx = 6 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_volcALL_vertical_1849-2015_0.9x1.25_version2 0180512.nc forcing type 17 species = H2O frc ndx = 7 filename= /cluster/shared/noresm/inputdata/atm/cam/chem/emis/elev/H2O_emission_CH4_oxidat ionx2_elev_3Dmonthly_L70_2000climo_c180511.nc extfrc_inti m: 1 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_AX_airALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_AX_airALL_vertical_1849-2015_0.9x1.25_version2018051 2.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_AX_airALL_vertical_1849-2015_0.9x1.25_version201 80512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_AX_airAL L_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_AX_airALL_vertical_1849-2015_0.9x1.25_version2018051 2.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_AX_airALL_vertical_1849-2015_0.9x1.25_version201 80512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_AX_airALL_vertical_1849-2015_0.9x1.25_version201 80512.nc trcdata_init: file%has_ps = F extfrc_inti m: 2 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_AX_anthroprofALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_AX_anthroprofALL_vertical_1849-2015_0.9x1.25_version 20180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_AX_anthroprofALL_vertical_1849-2015_0.9x1.25_ver sion20180512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_AX_anthr oprofALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_AX_anthroprofALL_vertical_1849-2015_0.9x1.25_version 20180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_AX_anthroprofALL_vertical_1849-2015_0.9x1.25_ver sion20180512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_AX_anthroprofALL_vertical_1849-2015_0.9x1.25_ver sion20180512.nc trcdata_init: file%has_ps = F extfrc_inti m: 3 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_NI_bbALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_NI_bbALL_vertical_1849-2015_0.9x1.25_version20180512 .nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_NI_bbALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_NI_bbALL _vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_NI_bbALL_vertical_1849-2015_0.9x1.25_version20180512 .nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_NI_bbALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_NI_bbALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc trcdata_init: file%has_ps = F extfrc_inti m: 4 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_N_airALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_N_airALL_vertical_1849-2015_0.9x1.25_version20180512 .nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_N_airALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_N_airALL _vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_N_airALL_vertical_1849-2015_0.9x1.25_version20180512 .nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_N_airALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_N_airALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc trcdata_init: file%has_ps = F extfrc_inti m: 5 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_N_anthroprofALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_N_anthroprofALL_vertical_1849-2015_0.9x1.25_version2 0180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_N_anthroprofALL_vertical_1849-2015_0.9x1.25_vers ion20180512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_BC_N_anthro profALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_BC_N_anthroprofALL_vertical_1849-2015_0.9x1.25_version2 0180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_N_anthroprofALL_vertical_1849-2015_0.9x1.25_vers ion20180512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_BC_N_anthroprofALL_vertical_1849-2015_0.9x1.25_vers ion20180512.nc trcdata_init: file%has_ps = F extfrc_inti m: 6 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_OM_NI_airALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_OM_NI_airALL_vertical_1849-2015_0.9x1.25_version2018051 2.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_airALL_vertical_1849-2015_0.9x1.25_version201 80512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_OM_NI_airAL L_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_OM_NI_airALL_vertical_1849-2015_0.9x1.25_version2018051 2.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_airALL_vertical_1849-2015_0.9x1.25_version201 80512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_airALL_vertical_1849-2015_0.9x1.25_version201 80512.nc trcdata_init: file%has_ps = F extfrc_inti m: 7 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_OM_NI_anthroprofALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_OM_NI_anthroprofALL_vertical_1849-2015_0.9x1.25_version 20180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_anthroprofALL_vertical_1849-2015_0.9x1.25_ver sion20180512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_OM_NI_anthr oprofALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_OM_NI_anthroprofALL_vertical_1849-2015_0.9x1.25_version 20180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_anthroprofALL_vertical_1849-2015_0.9x1.25_ver sion20180512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_anthroprofALL_vertical_1849-2015_0.9x1.25_ver sion20180512.nc trcdata_init: file%has_ps = F extfrc_inti m: 8 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_OM_NI_bbALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_OM_NI_bbALL_vertical_1849-2015_0.9x1.25_version20180512 .nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_bbALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_OM_NI_bbALL _vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_OM_NI_bbALL_vertical_1849-2015_0.9x1.25_version20180512 .nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_bbALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_OM_NI_bbALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc trcdata_init: file%has_ps = F extfrc_inti m: 9 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO2_airALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO2_airALL_vertical_1849-2015_0.9x1.25_version20180512. nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_airALL_vertical_1849-2015_0.9x1.25_version20180 512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO2_airALL_ vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO2_airALL_vertical_1849-2015_0.9x1.25_version20180512. nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_airALL_vertical_1849-2015_0.9x1.25_version20180 512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_airALL_vertical_1849-2015_0.9x1.25_version20180 512.nc trcdata_init: file%has_ps = F extfrc_inti m: 10 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO2_anthroprofALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO2_anthroprofALL_vertical_1849-2015_0.9x1.25_version20 180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_anthroprofALL_vertical_1849-2015_0.9x1.25_versi on20180512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO2_anthrop rofALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO2_anthroprofALL_vertical_1849-2015_0.9x1.25_version20 180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_anthroprofALL_vertical_1849-2015_0.9x1.25_versi on20180512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_anthroprofALL_vertical_1849-2015_0.9x1.25_versi on20180512.nc trcdata_init: file%has_ps = F extfrc_inti m: 11 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO2_bbALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO2_bbALL_vertical_1849-2015_0.9x1.25_version20180512.n c (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_bbALL_vertical_1849-2015_0.9x1.25_version201805 12.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO2_bbALL_v ertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO2_bbALL_vertical_1849-2015_0.9x1.25_version20180512.n c (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_bbALL_vertical_1849-2015_0.9x1.25_version201805 12.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_bbALL_vertical_1849-2015_0.9x1.25_version201805 12.nc trcdata_init: file%has_ps = F extfrc_inti m: 12 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO2_volcALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO2_volcALL_vertical_1849-2015_0.9x1.25_version20180512 .nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_volcALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO2_volcALL _vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO2_volcALL_vertical_1849-2015_0.9x1.25_version20180512 .nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_volcALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO2_volcALL_vertical_1849-2015_0.9x1.25_version2018 0512.nc trcdata_init: file%has_ps = F extfrc_inti m: 13 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO4_PR_airALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO4_PR_airALL_vertical_1849-2015_0.9x1.25_version201805 12.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_airALL_vertical_1849-2015_0.9x1.25_version20 180512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO4_PR_airA LL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO4_PR_airALL_vertical_1849-2015_0.9x1.25_version201805 12.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_airALL_vertical_1849-2015_0.9x1.25_version20 180512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_airALL_vertical_1849-2015_0.9x1.25_version20 180512.nc trcdata_init: file%has_ps = F extfrc_inti m: 14 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO4_PR_anthroprofALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO4_PR_anthroprofALL_vertical_1849-2015_0.9x1.25_versio n20180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_anthroprofALL_vertical_1849-2015_0.9x1.25_ve rsion20180512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO4_PR_anth roprofALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO4_PR_anthroprofALL_vertical_1849-2015_0.9x1.25_versio n20180512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_anthroprofALL_vertical_1849-2015_0.9x1.25_ve rsion20180512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_anthroprofALL_vertical_1849-2015_0.9x1.25_ve rsion20180512.nc trcdata_init: file%has_ps = F extfrc_inti m: 15 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO4_PR_bbALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO4_PR_bbALL_vertical_1849-2015_0.9x1.25_version2018051 2.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_bbALL_vertical_1849-2015_0.9x1.25_version201 80512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO4_PR_bbAL L_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO4_PR_bbALL_vertical_1849-2015_0.9x1.25_version2018051 2.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_bbALL_vertical_1849-2015_0.9x1.25_version201 80512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_bbALL_vertical_1849-2015_0.9x1.25_version201 80512.nc trcdata_init: file%has_ps = F extfrc_inti m: 16 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO4_PR_volcALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO4_PR_volcALL_vertical_1849-2015_0.9x1.25_version20180 512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_volcALL_vertical_1849-2015_0.9x1.25_version2 0180512.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/cmip6_emissions_version20180512/emissions_cmip6_noresm2_SO4_PR_volc ALL_vertical_1849-2015_0.9x1.25_version20180512.nc (GETFIL): attempting to find local file emissions_cmip6_noresm2_SO4_PR_volcALL_vertical_1849-2015_0.9x1.25_version20180 512.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_volcALL_vertical_1849-2015_0.9x1.25_version2 0180512.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/cmip6_emissions_version20180 512/emissions_cmip6_noresm2_SO4_PR_volcALL_vertical_1849-2015_0.9x1.25_version2 0180512.nc trcdata_init: file%has_ps = F extfrc_inti m: 17 init file : /cluster/shared/noresm/inputdata/atm/cam/chem/emis/elev/H2O_emission_CH4_oxidationx2_elev_3Dmonthly_L70_2000climo_c180511.nc (GETFIL): attempting to find local file H2O_emission_CH4_oxidationx2_elev_3Dmonthly_L70_2000climo_c180511.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/elev/H2O_emission_CH4_oxidat ionx2_elev_3Dmonthly_L70_2000climo_c180511.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/emis/elev/H2O_emission_CH4_oxidationx2_elev_3Dmonthly_L70_2000climo_c180 511.nc (GETFIL): attempting to find local file H2O_emission_CH4_oxidationx2_elev_3Dmonthly_L70_2000climo_c180511.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/emis/elev/H2O_emission_CH4_oxidat ionx2_elev_3Dmonthly_L70_2000climo_c180511.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/emis/elev/H2O_emission_CH4_oxidat ionx2_elev_3Dmonthly_L70_2000climo_c180511.nc trcdata_init: file%has_ps = T chemini: after extfrc_inti on node 0 chemini: after sulf_inti on node 0 sad_inti: sad capped at level 0 whose midpoint is 3.01759109035134 hPa chemini: after sad_inti on node 0 drydep_inti: following species have dry deposition drydep_inti: DMS is requested to have dry dep drydep_inti: H2O2 is requested to have dry dep drydep_inti: H2SO4 is requested to have dry dep drydep_inti: SO2 is requested to have dry dep drydep_inti: (GETFIL): attempting to find local file atmsrf_ne30pg3_180522.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/trop_mam/atmsrf_ne30pg3_180522.nc Creating new decomp: 16!11!7!!48600!11!!d6!i4! INFLD_REAL_2D_3D: read field fraction_landuse chemini: after drydep_inti on node 0 chemini: after fstrat_inti on node 0 (GETFIL): attempting to find local file temp_prs_GT200nm_c221005mm.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/waccm/phot/temp_prs_GT200nm_c221005mm.nc jlong_init: before get_rsf (GETFIL): attempting to find local file RSF_GT200nm_v3.0_c080811.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/waccm/phot/RSF_GT200nm_v3.0_c080811.nc ---------------------------------------------- get_rsf: numalb, numcolo3, numsza, nump = 6 20 24 151 get_rsf: size of rsf_tab = 67 151 24 20 6 ---------------------------------------------- Jlong using bdes jlong_init: after get_rsf -------------------------------------------------- jlong_init: etfphot after data rebin 7.6452903E+11 8.7356009E+11 1.0457383E+12 1.1963335E+12 2.1674947E+12 3.2521682E+12 3.7472620E+12 4.4417603E+12 4.7046021E+12 6.1459271E+12 4.5805321E+12 5.3736009E+12 4.7231682E+12 5.4521918E+12 4.5247736E+12 6.9208876E+12 6.2316474E+12 6.1748373E+12 5.8132723E+12 7.7077464E+12 1.3999711E+13 1.2142838E+13 2.8625627E+13 3.2198714E+13 2.5022878E+13 2.7868473E+13 2.3342371E+13 3.6406967E+13 6.1832481E+13 7.8053515E+13 7.6502612E+13 7.6368909E+13 9.4717466E+13 1.0131700E+14 1.0360695E+14 1.1006141E+14 1.0896343E+14 1.1388526E+14 1.3496003E+14 1.5947492E+14 1.4990722E+14 1.5192542E+14 1.6000294E+14 1.6984556E+14 1.8779989E+14 1.6445225E+14 1.8380561E+14 2.1973892E+14 1.9629563E+14 2.2411328E+14 1.8448510E+14 2.0149529E+14 2.0555935E+14 2.4346244E+14 3.5082401E+14 3.4524622E+14 3.5756166E+14 3.6631628E+14 3.4984865E+14 3.5575546E+14 4.2829781E+14 4.8409829E+14 4.9516417E+14 5.2699945E+14 5.2406787E+14 5.0883028E+14 4.8786484E+14 -------------------------------------------------- ********************************************* photo_inti: euv_indexer 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 photo_inti: sht_indexer 0 photo_inti: lng_indexer 1 ********************************************* (GETFIL): attempting to find local file exo_coldens.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/trop_mozart/phot/exo_coldens.nc chemini: after photo_inti on node 0 chemini: after aurora_inti chemini: after wetdep_init chemini: finished on node 0 (GETFIL): attempting to find local file SSS_climatology_f09f09_c20230110.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/ocnexch/SSS_climatology_f09f09_c2 0230110.nc cseawater_ini: n_Csw_files = 1 (GETFIL): attempting to find local file Csw_DMS_Lana2011_f09f09_1750_2100_20200717a.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/ocnexch/Csw_DMS_Lana2011_f09f09_1 750_2100_20200717a.nc trcdata_init: data type: CYCLICAL file: /cluster/shared/noresm/inputdata/atm/ca m/chem/ocnexch/Csw_DMS_Lana2011_f09f09_1750_2100_20200717a.nc (GETFIL): attempting to find local file Csw_DMS_Lana2011_f09f09_1750_2100_20200717a.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/ocnexch/Csw_DMS_Lana2011_f09f09_1 750_2100_20200717a.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/chem/ocnexch/Csw_DMS_Lana2011_f09f09_1 750_2100_20200717a.nc trcdata_init: file%has_ps = F ozone is prescribed in :ozone_strataero_CAM6chem_2000climo_zm_5day_c171004.nc trcdata_init: data type: CYCLICAL file: ozone_strataero_CAM6chem_2000climo_zm_5 day_c171004.nc (GETFIL): attempting to find local file ozone_strataero_CAM6chem_2000climo_zm_5day_c171004.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/ozone/ozone_strataero_CAM6chem_2000cli mo_zm_5day_c171004.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/ozone/ozone_strataero_CAM6chem_2000cli mo_zm_5day_c171004.nc trcdata_init: file%has_ps = T volcanic aerosol is prescribed in :CMIP_CAM6_radiation_average_v3_reformatted.n c trcdata_init: data type: CYCLICAL file: CMIP_CAM6_radiation_average_v3_reformat ted.nc (GETFIL): attempting to find local file CMIP_CAM6_radiation_average_v3_reformatted.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/volc/CMIP_CAM6_radiation_average_v3_re formatted.nc open_trc_datafile: /cluster/shared/noresm/inputdata/atm/cam/volc/CMIP_CAM6_radiation_average_v3_re formatted.nc trcdata_init: file%has_ps = F GW_DRAG: band_mid%ngwv = 32 GW_DRAG: band_mid%cref(-32) = -80.00 GW_DRAG: band_mid%cref(-31) = -77.50 GW_DRAG: band_mid%cref(-30) = -75.00 GW_DRAG: band_mid%cref(-29) = -72.50 GW_DRAG: band_mid%cref(-28) = -70.00 GW_DRAG: band_mid%cref(-27) = -67.50 GW_DRAG: band_mid%cref(-26) = -65.00 GW_DRAG: band_mid%cref(-25) = -62.50 GW_DRAG: band_mid%cref(-24) = -60.00 GW_DRAG: band_mid%cref(-23) = -57.50 GW_DRAG: band_mid%cref(-22) = -55.00 GW_DRAG: band_mid%cref(-21) = -52.50 GW_DRAG: band_mid%cref(-20) = -50.00 GW_DRAG: band_mid%cref(-19) = -47.50 GW_DRAG: band_mid%cref(-18) = -45.00 GW_DRAG: band_mid%cref(-17) = -42.50 GW_DRAG: band_mid%cref(-16) = -40.00 GW_DRAG: band_mid%cref(-15) = -37.50 GW_DRAG: band_mid%cref(-14) = -35.00 GW_DRAG: band_mid%cref(-13) = -32.50 GW_DRAG: band_mid%cref(-12) = -30.00 GW_DRAG: band_mid%cref(-11) = -27.50 GW_DRAG: band_mid%cref(-10) = -25.00 GW_DRAG: band_mid%cref(-9) = -22.50 GW_DRAG: band_mid%cref(-8) = -20.00 GW_DRAG: band_mid%cref(-7) = -17.50 GW_DRAG: band_mid%cref(-6) = -15.00 GW_DRAG: band_mid%cref(-5) = -12.50 GW_DRAG: band_mid%cref(-4) = -10.00 GW_DRAG: band_mid%cref(-3) = -7.50 GW_DRAG: band_mid%cref(-2) = -5.00 GW_DRAG: band_mid%cref(-1) = -2.50 GW_DRAG: band_mid%cref(0) = 0.00 GW_DRAG: band_mid%cref(1) = 2.50 GW_DRAG: band_mid%cref(2) = 5.00 GW_DRAG: band_mid%cref(3) = 7.50 GW_DRAG: band_mid%cref(4) = 10.00 GW_DRAG: band_mid%cref(5) = 12.50 GW_DRAG: band_mid%cref(6) = 15.00 GW_DRAG: band_mid%cref(7) = 17.50 GW_DRAG: band_mid%cref(8) = 20.00 GW_DRAG: band_mid%cref(9) = 22.50 GW_DRAG: band_mid%cref(10) = 25.00 GW_DRAG: band_mid%cref(11) = 27.50 GW_DRAG: band_mid%cref(12) = 30.00 GW_DRAG: band_mid%cref(13) = 32.50 GW_DRAG: band_mid%cref(14) = 35.00 GW_DRAG: band_mid%cref(15) = 37.50 GW_DRAG: band_mid%cref(16) = 40.00 GW_DRAG: band_mid%cref(17) = 42.50 GW_DRAG: band_mid%cref(18) = 45.00 GW_DRAG: band_mid%cref(19) = 47.50 GW_DRAG: band_mid%cref(20) = 50.00 GW_DRAG: band_mid%cref(21) = 52.50 GW_DRAG: band_mid%cref(22) = 55.00 GW_DRAG: band_mid%cref(23) = 57.50 GW_DRAG: band_mid%cref(24) = 60.00 GW_DRAG: band_mid%cref(25) = 62.50 GW_DRAG: band_mid%cref(26) = 65.00 GW_DRAG: band_mid%cref(27) = 67.50 GW_DRAG: band_mid%cref(28) = 70.00 GW_DRAG: band_mid%cref(29) = 72.50 GW_DRAG: band_mid%cref(30) = 75.00 GW_DRAG: band_mid%cref(31) = 77.50 GW_DRAG: band_mid%cref(32) = 80.00 GW_DRAG: band_mid%kwv = 6.283185307179586E-005 GW_DRAG: band_mid%fcrit2 = 1.00000000000000 GW_DRAG: band_long%ngwv = 0 GW_DRAG: band_long%cref( 0) = 0.00 GW_DRAG: band_long%kwv = 2.094395102393195E-005 GW_DRAG: band_long%fcrit2 = 1.00000000000000 gw_init: newtonian damping (1/day): k pref_edge alpha 1 0.20548E+03 0.15 2 0.39804E+03 0.11 3 0.69093E+03 0.09 4 0.11265E+04 0.09 5 0.17230E+04 0.09 6 0.24773E+04 0.09 7 0.33645E+04 0.09 8 0.43460E+04 0.09 9 0.53814E+04 0.09 10 0.64380E+04 0.09 11 0.74953E+04 0.09 12 0.85451E+04 0.09 13 0.95883E+04 0.09 14 0.10632E+05 0.09 15 0.11687E+05 0.09 16 0.12764E+05 0.09 17 0.13875E+05 0.09 18 0.15033E+05 0.09 19 0.16247E+05 0.09 20 0.17528E+05 0.09 21 0.18887E+05 0.09 22 0.20332E+05 0.09 23 0.21874E+05 0.09 24 0.23522E+05 0.09 25 0.25275E+05 0.09 26 0.27147E+05 0.09 27 0.29157E+05 0.09 28 0.31316E+05 0.09 29 0.33634E+05 0.09 30 0.36125E+05 0.09 31 0.38799E+05 0.09 32 0.41672E+05 0.09 33 0.44758E+05 0.09 34 0.48071E+05 0.09 35 0.51631E+05 0.09 36 0.55454E+05 0.09 37 0.59397E+05 0.09 38 0.63175E+05 0.09 39 0.66664E+05 0.09 40 0.69886E+05 0.09 41 0.72861E+05 0.09 42 0.75609E+05 0.09 43 0.78147E+05 0.09 44 0.80491E+05 0.09 45 0.82656E+05 0.09 46 0.84655E+05 0.09 47 0.86502E+05 0.09 48 0.88207E+05 0.09 49 0.89781E+05 0.09 50 0.91236E+05 0.09 51 0.92579E+05 0.09 52 0.93819E+05 0.09 53 0.94965E+05 0.09 54 0.96023E+05 0.09 55 0.97000E+05 0.09 56 0.97902E+05 0.09 57 0.98736E+05 0.09 58 0.99506E+05 0.09 59 0.10000E+06 0.09 KTOP = 1 INFLD_REAL_1D_2D: read field GBXAR INFLD_REAL_1D_2D: read field ISOVAR INFLD_REAL_1D_2D: read field ISOWGT Creating new decomp: 16!16!7!!48600!16!!d6!i4! INFLD_REAL_2D_3D: read field HWDTH INFLD_REAL_2D_3D: read field CLNGT INFLD_REAL_2D_3D: read field MXDIS INFLD_REAL_2D_3D: read field ANIXY INFLD_REAL_2D_3D: read field ANGLL KFRONT = 37 KBOT_FRONT = 33 gw_init: gw spectrum taubgnd, effgw_cm = 1.250000000000000E-003 1.00000000000000 Moving Mountain development code call init_movmtn (GETFIL): attempting to find local file mfc0lookup_mm.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/waccm/gw/mfc0lookup_mm.nc Read in Mov Mountain source file. Moving mountain deep level = 53 Beres deep level = 40 (GETFIL): attempting to find local file newmfspectra40_dc25.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/waccm/gw/newmfspectra40_dc25.nc Read in source spectra from file. mfcc max, min = 243485000.000000 , 3.111130000000000E-004 Initializing vertical diffusion (vertical_diffusion_init) Artificial sponge layer vertical diffusion added: vertical diffusion coefficient at interface 1 is increased by .20E+07 m2 s-2 vertical diffusion coefficient at interface 2 is increased by .20E+07 m2 s-2 vertical diffusion coefficient at interface 3 is increased by .15E+07 m2 s-2 vertical diffusion coefficient at interface 4 is increased by .10E+07 m2 s-2 vertical diffusion coefficient at interface 5 is increased by .50E+06 m2 s-2 vertical diffusion coefficient at interface 6 is increased by .10E+06 m2 s-2 NTOP_EDDY = 1 NBOT_EDDY = 58 INIT_HB_DIFF: PBL height will be limited to bottom 28 model levels. Top is 40235.7158203125 pascals vertical_diffusion_init: eddy_diffusivity scheme where CLUBB is not active: Holtslag and Boville Using Beljaars SGO drag module cldfrc_init: model level nearest 700 mb is 40 which is 71373.4565201775 pascals tuning parameters convective_cloud_cover: dp1 0.100000000000000 dp2 500.000000000000 sh1 4.000000000000000E-002 sh2 500.000000000000 tuning parameters compute_cloud_fraction_init: inversion_cld_off F tuning parameters compute_cloud_fraction_init: rhminl 0.950000000000000 rhminl_adj_land 0.000000000000000E+000 rhminh 0.800000000000000 premit 75000.0000000000 premib 70000.0000000000 tuning parameters compute_cloud_fraction_init: iceopt 5 icecrit 0.930000000000000 compute_cloud_fraction: model level nearest 700 mb is 40 which is 71373.4565201775 pascals cldfrc2m parameters: rhminl = 0.950000000000000 rhminl_adj_land = 0.000000000000000E+000 rhminh = 0.800000000000000 premit = 75000.0000000000 premib = 70000.0000000000 iceopt = 5 icecrit = 0.930000000000000 rhmini = 0.800000000000000 rhmaxi = 1.00000000000000 rhminis = 1.00000000000000 rhmaxis = 1.00000000000000 do_subgrid_growth = T do_avg_aist_algs = F cldfrc2m_qist_min = 1.000000000000000E-007 cldfrc2m_qist_max = 5.000000000000000E-003 convect_deep initializing Zhang-McFarlane convection ZM_CONV_INIT: Deep convection will be capped at intfc 7 which is 3364.47167968750 pascals ZM_CONV_INIT: Deep convection will be capped at intfc 7 which is 3364.47167968750 pascals **** ZM: DILUTE Buoyancy Calculation **** aerosolTracerList 1 16 1 aerosolTracerList 2 35 2 aerosolTracerList 3 17 3 aerosolTracerList 4 36 4 aerosolTracerList 5 24 5 aerosolTracerList 6 25 6 aerosolTracerList 7 28 7 aerosolTracerList 8 18 8 aerosolTracerList 9 20 9 aerosolTracerList 10 26 10 aerosolTracerList 11 29 11 aerosolTracerList 12 19 12 aerosolTracerList 13 30 13 aerosolTracerList 14 31 14 aerosolTracerList 15 32 15 aerosolTracerList 16 33 16 aerosolTracerList 17 34 17 aerosolTracerList 18 21 18 aerosolTracerList 19 23 19 aerosolTracerList 20 27 20 nucleate_ice parameters: mincld = 1.000000000000000E-004 bulk_scale = 2.00000000000000 use_preexisiting_ice = T hist_preexisiting_ice = F nucleate_ice_subgrid = 1.20000000000000 nucleate_ice_subgrid_strat = 1.20000000000000 nucleate_ice_strat = 1.00000000000000 nucleate_ice_incloud = F nucleate_ice_use_troplev = T Initializing MG version 3. 0 Number of microphysics substeps is: 1 C1 = 1.00000000000000 C1b = 1.00000000000000 C1c = 1.00000000000000 C2rt = 1.00000000000000 C2thl = 1.00000000000000 C2rtthl = 1.30000000000000 C4 = 5.20000000000000 C_uu_shr = 0.100000000000000 C_uu_buoy = 0.300000000000000 C6rt = 4.00000000000000 C6rtb = 6.00000000000000 C6rtc = 1.00000000000000 C6thl = 4.00000000000000 C6thlb = 6.00000000000000 C6thlc = 1.00000000000000 C7 = 0.100000000000000 C7b = 0.500000000000000 C7c = 0.500000000000000 C8 = 4.50000000000000 C8b = 0.000000000000000E+000 C10 = 3.30000000000000 C11 = 0.700000000000000 C11b = 0.350000000000000 C11c = 0.500000000000000 C12 = 1.00000000000000 C13 = 0.100000000000000 C14 = 1.60000000000000 C_wp2_pr_dfsn = 0.000000000000000E+000 C_wp3_pr_tp = 0.000000000000000E+000 C_wp3_pr_turb = 0.400000000000000 C_wp3_pr_dfsn = 0.000000000000000E+000 C_wp2_splat = 0.000000000000000E+000 C6rt_Lscale0 = 14.0000000000000 C6thl_Lscale0 = 14.0000000000000 C7_Lscale0 = 0.850000000000000 wpxp_L_thresh = 60.0000000000000 c_K = 0.200000000000000 c_K1 = 0.750000000000000 nu1 = 20.0000000000000 c_K2 = 0.125000000000000 nu2 = 5.00000000000000 c_K6 = 0.375000000000000 nu6 = 5.00000000000000 c_K8 = 1.25000000000000 nu8 = 20.0000000000000 c_K9 = 0.250000000000000 nu9 = 20.0000000000000 nu10 = 0.000000000000000E+000 c_K_hm = 0.750000000000000 c_K_hmb = 0.750000000000000 K_hm_min_coef = 0.100000000000000 nu_hm = 1.50000000000000 slope_coef_spread_DG_means_w = 21.0000000000000 pdf_component_stdev_factor_w = 1.00000000000000 coef_spread_DG_means_rt = 0.800000000000000 coef_spread_DG_means_thl = 0.800000000000000 gamma_coef = 0.300000000000000 gamma_coefb = 0.300000000000000 gamma_coefc = 5.00000000000000 mu = 1.000000000000000E-003 beta = 2.40000000000000 lmin_coef = 0.100000000000000 omicron = 0.500000000000000 zeta_vrnce_rat = 0.000000000000000E+000 upsilon_precip_frac_rat = 0.550000000000000 lambda0_stability_coef = 4.000000000000000E-002 mult_coef = 1.00000000000000 taumin = 90.0000000000000 taumax = 3600.00000000000 Lscale_mu_coef = 2.00000000000000 Lscale_pert_coef = 0.100000000000000 alpha_corr = 0.150000000000000 Skw_denom_coef = 0.000000000000000E+000 c_K10 = 0.500000000000000 c_K10h = 0.300000000000000 thlp2_rad_coef = 1.00000000000000 thlp2_rad_cloud_frac_thresh = 0.100000000000000 up2_sfc_coef = 2.00000000000000 Skw_max_mag = 4.50000000000000 C_invrs_tau_bkgnd = 1.00000000000000 C_invrs_tau_sfc = 0.100000000000000 C_invrs_tau_shear = 2.000000000000000E-002 C_invrs_tau_N2 = 0.100000000000000 C_invrs_tau_N2_wp2 = 0.200000000000000 C_invrs_tau_N2_xp2 = 0.200000000000000 C_invrs_tau_N2_wpxp = 0.000000000000000E+000 C_invrs_tau_N2_clear_wp3 = 0.000000000000000E+000 C_invrs_tau_wpxp_Ri = 0.350000000000000 C_invrs_tau_wpxp_N2_thresh = 3.300000000000000E-004 xp3_coef_base = 0.250000000000000 xp3_coef_slope = 1.000000000000000E-002 altitude_threshold = 100.000000000000 rtp2_clip_coef = 0.500000000000000 Cx_min = 0.330000000000000 Cx_max = 0.950000000000000 Richardson_num_min = 0.250000000000000 Richardson_num_max = 400.000000000000 a3_coef_min = 1.00000000000000 a_const = 1.80000000000000 bv_efold = 5.00000000000000 wpxp_Ri_exp = 0.500000000000000 z_displace = 25.0000000000000 CLUBB configurable flags iiPDF_type = 1 ipdf_call_placement = 2 penta_solve_method = 1 tridiag_solve_method = 1 l_use_precip_frac = T l_predict_upwp_vpwp = T l_min_wp2_from_corr_wx = F l_min_xp2_from_corr_wx = T l_C2_cloud_frac = F l_diffuse_rtm_and_thlm = F l_stability_correct_Kh_N2_zm = F l_calc_thlp2_rad = T l_upwind_xpyp_ta = T l_upwind_xm_ma = T l_uv_nudge = F l_rtm_nudge = F l_tke_aniso = T l_vert_avg_closure = T l_trapezoidal_rule_zt = T l_trapezoidal_rule_zm = T l_call_pdf_closure_twice = T l_standard_term_ta = F l_partial_upwind_wp3 = F l_godunov_upwind_wpxp_ta = F l_godunov_upwind_xpyp_ta = F l_use_cloud_cover = T l_diagnose_correlations = F l_calc_w_corr = F l_const_Nc_in_cloud = F l_fix_w_chi_eta_correlations = T l_stability_correct_tau_zm = T l_damp_wp2_using_em = F l_do_expldiff_rtm_thlm = T l_Lscale_plume_centered = F l_diag_Lscale_from_tau = F l_use_C7_Richardson = F l_use_C11_Richardson = F l_use_shear_Richardson = F l_brunt_vaisala_freq_moist = F l_use_thvm_in_bv_freq = F l_rcm_supersat_adj = F l_damp_wp3_Skw_squared = F l_prescribed_avg_deltaz = F l_lmm_stepping = F l_e3sm_config = F l_vary_convect_depth = F l_use_tke_in_wp3_pr_turb_term = F l_use_tke_in_wp2_wp3_K_dfsn = F l_use_wp3_lim_with_smth_Heaviside = F l_smooth_Heaviside_tau_wpxp = F l_modify_limiters_for_cnvg_test = F l_enable_relaxed_clipping = F l_linearize_pbl_winds = F l_mono_flux_lim_thlm = T l_mono_flux_lim_rtm = T l_mono_flux_lim_um = T l_mono_flux_lim_vm = T l_mono_flux_lim_spikefix = T l_host_applies_sfc_fluxes = F (GETFIL): attempting to find local file clim_p_trop.nc (GETFIL): using /cluster/shared/noresm/inputdata/atm/cam/chem/trop_mozart/ub/clim_p_trop.nc tropopause_init : days 16.000000 45.000000 75.000000 105.00000 136.00000 166.00000 197.00000 228.00000 258.00000 289.00000 319.00000 350.00000 ******* MASTER FIELD LIST ******* 1 nu_kmvis 58 A Molecular viscosity Laplacian coefficient 2 nu_kmcnd 58 A Thermal conductivity Laplacian coefficient 3 nu_kmcnd_dp 58 A Thermal conductivity like Laplacian coefficient on dp 4 FU m/s2 58 A Zonal wind forcing term on GLL grid 5 FV m/s2 58 A Meridional wind forcing term on GLL grid 6 FT K/s 58 A Temperature forcing term on GLL grid 7 Q_fvm kg/kg 58 I Specific humidity 8 FQ_fvm kg/kg/s 58 I Specific humidity mixing ratio forcing term (q_new-q_old) on fvm grid 9 CLDLIQ_fvm kg/kg 58 I Grid box averaged cloud liquid amount 10 FCLDLIQ_fvm kg/kg/s 58 I Grid box averaged cloud liquid amount mixing ratio forcing term (q_new-q_old) on fvm grid 11 CLDICE_fvm kg/kg 58 I Grid box averaged cloud ice amount 12 FCLDICE_fvm kg/kg/s 58 I Grid box averaged cloud ice amount mixing ratio forcing term (q_new-q_old) on fvm grid 13 NUMLIQ_fvm kg/kg 58 I Grid box averaged cloud liquid number 14 FNUMLIQ_fvm kg/kg/s 58 I Grid box averaged cloud liquid number mixing ratio forcing term (q_new-q_old) on fvm grid 15 NUMICE_fvm kg/kg 58 I Grid box averaged cloud ice number 16 FNUMICE_fvm kg/kg/s 58 I Grid box averaged cloud ice number mixing ratio forcing term (q_new-q_old) on fvm grid 17 RAINQM_fvm kg/kg 58 I Grid box averaged rain amount 18 FRAINQM_fvm kg/kg/s 58 I Grid box averaged rain amount mixing ratio forcing term (q_new-q_old) on fvm grid 19 SNOWQM_fvm kg/kg 58 I Grid box averaged snow amount 20 FSNOWQM_fvm kg/kg/s 58 I Grid box averaged snow amount mixing ratio forcing term (q_new-q_old) on fvm grid 21 NUMRAI_fvm kg/kg 58 I Grid box averaged rain number 22 FNUMRAI_fvm kg/kg/s 58 I Grid box averaged rain number mixing ratio forcing term (q_new-q_old) on fvm grid 23 NUMSNO_fvm kg/kg 58 I Grid box averaged snow number 24 FNUMSNO_fvm kg/kg/s 58 I Grid box averaged snow number mixing ratio forcing term (q_new-q_old) on fvm grid 25 GRAUQM_fvm kg/kg 58 I Grid box averaged graupel/hail amount 26 FGRAUQM_fvm kg/kg/s 58 I Grid box averaged graupel/hail amount mixing ratio forcing term (q_new-q_old) on fvm grid 27 NUMGRA_fvm kg/kg 58 I Grid box averaged graupel/hail number 28 FNUMGRA_fvm kg/kg/s 58 I Grid box averaged graupel/hail number mixing ratio forcing term (q_new-q_old) on fvm grid 29 SO2_fvm kg/kg 58 I SO2 30 FSO2_fvm kg/kg/s 58 I SO2 mixing ratio forcing term (q_new-q_old) on fvm grid 31 H2SO4_fvm kg/kg 58 I H2SO4 32 FH2SO4_fvm kg/kg/s 58 I H2SO4 mixing ratio forcing term (q_new-q_old) on fvm grid 33 DMS_fvm kg/kg 58 I DMS 34 FDMS_fvm kg/kg/s 58 I DMS mixing ratio forcing term (q_new-q_old) on fvm grid 35 H2O2_fvm kg/kg 58 I H2O2 36 FH2O2_fvm kg/kg/s 58 I H2O2 mixing ratio forcing term (q_new-q_old) on fvm grid 37 SO4_NA_fvm kg/kg 58 I SO4_NA 38 FSO4_NA_fvm kg/kg/s 58 I SO4_NA mixing ratio forcing term (q_new-q_old) on fvm grid 39 SO4_A1_fvm kg/kg 58 I SO4_A1 40 FSO4_A1_fvm kg/kg/s 58 I SO4_A1 mixing ratio forcing term (q_new-q_old) on fvm grid 41 SO4_A2_fvm kg/kg 58 I SO4_A2 42 FSO4_A2_fvm kg/kg/s 58 I SO4_A2 mixing ratio forcing term (q_new-q_old) on fvm grid 43 SO4_AC_fvm kg/kg 58 I SO4_AC 44 FSO4_AC_fvm kg/kg/s 58 I SO4_AC mixing ratio forcing term (q_new-q_old) on fvm grid 45 SO4_PR_fvm kg/kg 58 I SO4_PR 46 FSO4_PR_fvm kg/kg/s 58 I SO4_PR mixing ratio forcing term (q_new-q_old) on fvm grid 47 BC_N_fvm kg/kg 58 I BC_N 48 FBC_N_fvm kg/kg/s 58 I BC_N mixing ratio forcing term (q_new-q_old) on fvm grid 49 BC_AX_fvm kg/kg 58 I BC_AX 50 FBC_AX_fvm kg/kg/s 58 I BC_AX mixing ratio forcing term (q_new-q_old) on fvm grid 51 BC_NI_fvm kg/kg 58 I BC_NI 52 FBC_NI_fvm kg/kg/s 58 I BC_NI mixing ratio forcing term (q_new-q_old) on fvm grid 53 BC_A_fvm kg/kg 58 I BC_A 54 FBC_A_fvm kg/kg/s 58 I BC_A mixing ratio forcing term (q_new-q_old) on fvm grid 55 BC_AI_fvm kg/kg 58 I BC_AI 56 FBC_AI_fvm kg/kg/s 58 I BC_AI mixing ratio forcing term (q_new-q_old) on fvm grid 57 BC_AC_fvm kg/kg 58 I BC_AC 58 FBC_AC_fvm kg/kg/s 58 I BC_AC mixing ratio forcing term (q_new-q_old) on fvm grid 59 OM_NI_fvm kg/kg 58 I OM_NI 60 FOM_NI_fvm kg/kg/s 58 I OM_NI mixing ratio forcing term (q_new-q_old) on fvm grid 61 OM_AI_fvm kg/kg 58 I OM_AI 62 FOM_AI_fvm kg/kg/s 58 I OM_AI mixing ratio forcing term (q_new-q_old) on fvm grid 63 OM_AC_fvm kg/kg 58 I OM_AC 64 FOM_AC_fvm kg/kg/s 58 I OM_AC mixing ratio forcing term (q_new-q_old) on fvm grid 65 DST_A2_fvm kg/kg 58 I DST_A2 66 FDST_A2_fvm kg/kg/s 58 I DST_A2 mixing ratio forcing term (q_new-q_old) on fvm grid 67 DST_A3_fvm kg/kg 58 I DST_A3 68 FDST_A3_fvm kg/kg/s 58 I DST_A3 mixing ratio forcing term (q_new-q_old) on fvm grid 69 SS_A1_fvm kg/kg 58 I SS_A1 70 FSS_A1_fvm kg/kg/s 58 I SS_A1 mixing ratio forcing term (q_new-q_old) on fvm grid 71 SS_A2_fvm kg/kg 58 I SS_A2 72 FSS_A2_fvm kg/kg/s 58 I SS_A2 mixing ratio forcing term (q_new-q_old) on fvm grid 73 SS_A3_fvm kg/kg 58 I SS_A3 74 FSS_A3_fvm kg/kg/s 58 I SS_A3 mixing ratio forcing term (q_new-q_old) on fvm grid 75 SOA_NA_fvm kg/kg 58 I SOA_NA 76 FSOA_NA_fvm kg/kg/s 58 I SOA_NA mixing ratio forcing term (q_new-q_old) on fvm grid 77 SOA_A1_fvm kg/kg 58 I SOA_A1 78 FSOA_A1_fvm kg/kg/s 58 I SOA_A1 mixing ratio forcing term (q_new-q_old) on fvm grid 79 SOA_LV_fvm kg/kg 58 I SOA_LV 80 FSOA_LV_fvm kg/kg/s 58 I SOA_LV mixing ratio forcing term (q_new-q_old) on fvm grid 81 SOA_SV_fvm kg/kg 58 I SOA_SV 82 FSOA_SV_fvm kg/kg/s 58 I SOA_SV mixing ratio forcing term (q_new-q_old) on fvm grid 83 monoterp_fvm kg/kg 58 I monoterp 84 Fmonoterp_fvm kg/kg/s 58 I monoterp mixing ratio forcing term (q_new-q_old) on fvm grid 85 isoprene_fvm kg/kg 58 I isoprene 86 Fisoprene_fvm kg/kg/s 58 I isoprene mixing ratio forcing term (q_new-q_old) on fvm grid 87 dp_fvm Pa 58 I CSLAM Pressure level thickness 88 PSDRY_fvm Pa 1 I CSLAM dry surface pressure 89 FQ_gll kg/kg/s 58 I Specific humidity mixing ratio forcing term (q_new-q_old) on GLL grid 90 FCLDLIQ_gll kg/kg/s 58 I Grid box averaged cloud liquid amount mixing ratio forcing term (q_new-q_old) on GLL grid 91 FCLDICE_gll kg/kg/s 58 I Grid box averaged cloud ice amount mixing ratio forcing term (q_new-q_old) on GLL grid 92 FRAINQM_gll kg/kg/s 58 I Grid box averaged rain amount mixing ratio forcing term (q_new-q_old) on GLL grid 93 FSNOWQM_gll kg/kg/s 58 I Grid box averaged snow amount mixing ratio forcing term (q_new-q_old) on GLL grid 94 FGRAUQM_gll kg/kg/s 58 I Grid box averaged graupel/hail amount mixing ratio forcing term (q_new-q_old) on GLL grid 95 ABS_dPSdt Pa/s 1 A Absolute surface pressure tendency 96 WV_PDC kg/m2 1 A Total column water vapor lost in physics-dynamics coupling 97 WL_PDC kg/m2 1 A Total column cloud water lost in physics-dynamics coupling 98 WI_PDC kg/m2 1 A Total column cloud ice lost in physics-dynamics coupling 99 TT_PDC kg/m2 1 A Total column test tracer lost in physics-dynamics coupling 100 TAQ kg/kg/s 58 A Q horz + vert 101 TACLDLIQ kg/kg/s 58 A CLDLIQ horz + vert 102 TACLDICE kg/kg/s 58 A CLDICE horz + vert 103 TANUMLIQ kg/kg/s 58 A NUMLIQ horz + vert 104 TANUMICE kg/kg/s 58 A NUMICE horz + vert 105 TARAINQM kg/kg/s 58 A RAINQM horz + vert 106 TASNOWQM kg/kg/s 58 A SNOWQM horz + vert 107 TANUMRAI kg/kg/s 58 A NUMRAI horz + vert 108 TANUMSNO kg/kg/s 58 A NUMSNO horz + vert 109 TAGRAUQM kg/kg/s 58 A GRAUQM horz + vert 110 TANUMGRA kg/kg/s 58 A NUMGRA horz + vert 111 TASO2 kg/kg/s 58 A SO2 horz + vert 112 TAH2SO4 kg/kg/s 58 A H2SO4 horz + vert 113 TADMS kg/kg/s 58 A DMS horz + vert 114 TAH2O2 kg/kg/s 58 A H2O2 horz + vert 115 TASO4_NA kg/kg/s 58 A SO4_NA horz + vert 116 TASO4_A1 kg/kg/s 58 A SO4_A1 horz + vert 117 TASO4_A2 kg/kg/s 58 A SO4_A2 horz + vert 118 TASO4_AC kg/kg/s 58 A SO4_AC horz + vert 119 TASO4_PR kg/kg/s 58 A SO4_PR horz + vert 120 TABC_N kg/kg/s 58 A BC_N horz + vert 121 TABC_AX kg/kg/s 58 A BC_AX horz + vert 122 TABC_NI kg/kg/s 58 A BC_NI horz + vert 123 TABC_A kg/kg/s 58 A BC_A horz + vert 124 TABC_AI kg/kg/s 58 A BC_AI horz + vert 125 TABC_AC kg/kg/s 58 A BC_AC horz + vert 126 TAOM_NI kg/kg/s 58 A OM_NI horz + vert 127 TAOM_AI kg/kg/s 58 A OM_AI horz + vert 128 TAOM_AC kg/kg/s 58 A OM_AC horz + vert 129 TADST_A2 kg/kg/s 58 A DST_A2 horz + vert 130 TADST_A3 kg/kg/s 58 A DST_A3 horz + vert 131 TASS_A1 kg/kg/s 58 A SS_A1 horz + vert 132 TASS_A2 kg/kg/s 58 A SS_A2 horz + vert 133 TASS_A3 kg/kg/s 58 A SS_A3 horz + vert 134 TASOA_NA kg/kg/s 58 A SOA_NA horz + vert 135 TASOA_A1 kg/kg/s 58 A SOA_A1 horz + vert 136 TASOA_LV kg/kg/s 58 A SOA_LV horz + vert 137 TASOA_SV kg/kg/s 58 A SOA_SV horz + vert 138 TAmonoterp kg/kg/s 58 A monoterp horz + vert 139 TAisoprene kg/kg/s 58 A isoprene horz + vert 140 Q kg/kg 58 A Specific humidity 141 NSTEP timestep 1 A Model timestep 142 PHIS m2/s2 1 I Surface geopotential 143 PS Pa 1 A Surface pressure 144 T K 58 A Temperature 145 U m/s 58 A Zonal wind 146 V m/s 58 A Meridional wind 147 TBP K 58 A Temperature (before physics) 148 UBP m/s 58 A Zonal wind (before physics) 149 VBP m/s 58 A Meridional Wind (before physics) 150 QBP kg/kg 58 A Specific humidity (before physics) 151 TAP K 58 A Temperature (after physics) 152 UAP m/s 58 A Zonal wind (after physics) 153 VAP m/s 58 A Meridional wind (after physics) 154 QAP kg/kg 58 A Specific humidity (after physics) 155 TFIX K/s 1 A T fixer (T equivalent of Energy correction) 156 TTEND_TOT K/s 58 A Total temperature tendency 157 UTEND_TOT m/s2 58 A Total zonal wind tendency 158 VTEND_TOT m/s2 58 A Total meridional wind tendency 159 INEGCLPTEND kg/kg/s 58 A Cloud ice tendency due to clipping neg values after microp 160 LNEGCLPTEND kg/kg/s 58 A Cloud liq tendency due to clipping neg values after microp 161 VNEGCLPTEND kg/kg/s 58 A Vapor tendency due to clipping neg values after microp 162 Z3 m 58 A Geopotential Height (above sea level) 163 Z1000 m 1 A Geopotential Z at 1000 mbar pressure surface 164 Z700 m 1 A Geopotential Z at 700 mbar pressure surface 165 Z500 m 1 A Geopotential Z at 500 mbar pressure surface 166 Z300 m 1 A Geopotential Z at 300 mbar pressure surface 167 Z200 m 1 A Geopotential Z at 200 mbar pressure surface 168 Z100 m 1 A Geopotential Z at 100 mbar pressure surface 169 Z050 m 1 A Geopotential Z at 50 mbar pressure surface 170 ZZ m2 58 A Eddy height variance 171 VZ m2/s 58 A Meridional transport of geopotential height 172 VT K m/s 58 A Meridional heat transport 173 VU m2/s2 58 A Meridional flux of zonal momentum 174 VV m2/s2 58 A Meridional velocity squared 175 OMEGAV m Pa/s2 58 A Vertical flux of meridional momentum 176 OMGAOMGA Pa2/s2 58 A Vertical flux of vertical momentum 177 UT K m/s 58 A Zonal heat transport 178 UU m2/s2 58 A Zonal velocity squared 179 WSPEED m/s 58 X Horizontal total wind speed maximum 180 WSPDSRFMX m/s 1 X Horizontal total wind speed maximum at surface layer midpoint 181 WSPDSRFAV m/s 1 A Horizontal total wind speed average at surface layer midpoint 182 OMEGA Pa/s 58 A Vertical velocity (pressure) 183 OMEGAT K Pa/s 58 A Vertical heat flux 184 OMEGAU m Pa/s2 58 A Vertical flux of zonal momentum 185 OMEGA850 Pa/s 1 A Vertical velocity at 850 mbar pressure surface 186 OMEGA500 Pa/s 1 A Vertical velocity at 500 mbar pressure surface 187 PSL Pa 1 A Sea level pressure 188 T1000 K 1 A Temperature at 1000 mbar pressure surface 189 T925 K 1 A Temperature at 925 mbar pressure surface 190 T850 K 1 A Temperature at 850 mbar pressure surface 191 T700 K 1 A Temperature at 700 mbar pressure surface 192 T500 K 1 A Temperature at 500 mbar pressure surface 193 T400 K 1 A Temperature at 400 mbar pressure surface 194 T300 K 1 A Temperature at 300 mbar pressure surface 195 T200 K 1 A Temperature at 200 mbar pressure surface 196 T010 K 1 A Temperature at 10 mbar pressure surface 197 T7001000 K 1 A Temperature difference 700 mb - 1000 mb 198 TH7001000 K 1 A Theta difference 700 mb - 1000 mb 199 THE7001000 K 1 A ThetaE difference 700 mb - 1000 mb 200 T8501000 K 1 A Temperature difference 850 mb - 1000 mb 201 TH8501000 K 1 A Theta difference 850 mb - 1000 mb 202 T9251000 K 1 A Temperature difference 925 mb - 1000 mb 203 TH9251000 K 1 A Theta difference 925 mb - 1000 mb 204 TT K2 58 A Eddy temperature variance 205 U850 m/s 1 A Zonal wind at 850 mbar pressure surface 206 U500 m/s 1 A Zonal wind at 500 mbar pressure surface 207 U250 m/s 1 A Zonal wind at 250 mbar pressure surface 208 U200 m/s 1 A Zonal wind at 200 mbar pressure surface 209 U010 m/s 1 A Zonal wind at 10 mbar pressure surface 210 V850 m/s 1 A Meridional wind at 850 mbar pressure surface 211 V500 m/s 1 A Meridional wind at 500 mbar pressure surface 212 V250 m/s 1 A Meridional wind at 250 mbar pressure surface 213 V200 m/s 1 A Meridional wind at 200 mbar pressure surface 214 UBOT m/s 1 A Lowest model level zonal wind 215 VBOT m/s 1 A Lowest model level meridional wind 216 ZBOT m 1 A Lowest model level height 217 ATMEINT J/m2 1 A Vertically integrated total atmospheric energy 218 PTTEND K/s 58 A T total physics tendency 219 UTEND_PHYSTOT m/s2 58 A U total physics tendency 220 VTEND_PHYSTOT m/s2 58 A V total physics tendency 221 T_24_COS K 58 A Temperature 24hr. cos coeff. 222 T_24_SIN K 58 A Temperature 24hr. sin coeff. 223 T_12_COS K 58 A Temperature 12hr. cos coeff. 224 T_12_SIN K 58 A Temperature 12hr. sin coeff. 225 T_08_COS K 58 A Temperature 8hr. cos coeff. 226 T_08_SIN K 58 A Temperature 8hr. sin coeff. 227 U_24_COS m/s 58 A Zonal wind 24hr. cos coeff. 228 U_24_SIN m/s 58 A Zonal wind 24hr. sin coeff. 229 U_12_COS m/s 58 A Zonal wind 12hr. cos coeff. 230 U_12_SIN m/s 58 A Zonal wind 12hr. sin coeff. 231 U_08_COS m/s 58 A Zonal wind 8hr. cos coeff. 232 U_08_SIN m/s 58 A Zonal wind 8hr. sin coeff. 233 V_24_COS m/s 58 A Meridional wind 24hr. cos coeff. 234 V_24_SIN m/s 58 A Meridional wind 24hr. sin coeff. 235 V_12_COS m/s 58 A Meridional wind 12hr. cos coeff. 236 V_12_SIN m/s 58 A Meridional wind 12hr. sin coeff. 237 V_08_COS m/s 58 A Meridional wind 8hr. cos coeff. 238 V_08_SIN m/s 58 A Meridional wind 8hr. sin coeff. 239 PS_24_COS Pa 1 A surface pressure 24hr. cos coeff. 240 PS_24_SIN Pa 1 A surface pressure 24hr. sin coeff. 241 PS_12_COS Pa 1 A surface pressure 12hr. cos coeff. 242 PS_12_SIN Pa 1 A surface pressure 12hr. sin coeff. 243 PS_08_COS Pa 1 A surface pressure 8hr. cos coeff. 244 PS_08_SIN Pa 1 A surface pressure 8hr. sin coeff. 245 OMEGA_24_COS Pa/s 58 A vertical pressure velocity 24hr. cos coeff. 246 OMEGA_24_SIN Pa/s 58 A vertical pressure velocity 24hr. sin coeff. 247 OMEGA_12_COS Pa/s 58 A vertical pressure velocity 12hr. cos coeff. 248 OMEGA_12_SIN Pa/s 58 A vertical pressure velocity 12hr. sin coeff. 249 OMEGA_08_COS Pa/s 58 A vertical pressure velocity 8hr. cos coeff. 250 OMEGA_08_SIN Pa/s 58 A vertical pressure velocity 8hr. sin coeff. 251 CPAIRV J/K/kg 58 I Variable specific heat cap air 252 RAIRV J/K/kg 58 I Variable dry air gas constant 253 TMCLDLIQ kg/m2 1 A CLDLIQ column burden 254 TMCLDICE kg/m2 1 A CLDICE column burden 255 TMNUMLIQ kg/m2 1 A NUMLIQ column burden 256 TMNUMICE kg/m2 1 A NUMICE column burden 257 TMRAINQM kg/m2 1 A RAINQM column burden 258 TMSNOWQM kg/m2 1 A SNOWQM column burden 259 TMNUMRAI kg/m2 1 A NUMRAI column burden 260 TMNUMSNO kg/m2 1 A NUMSNO column burden 261 TMGRAUQM kg/m2 1 A GRAUQM column burden 262 TMNUMGRA kg/m2 1 A NUMGRA column burden 263 TMSO2 kg/m2 1 A SO2 column burden 264 TMH2SO4 kg/m2 1 A H2SO4 column burden 265 TMDMS kg/m2 1 A DMS column burden 266 TMH2O2 kg/m2 1 A H2O2 column burden 267 TMSO4_NA kg/m2 1 A SO4_NA column burden 268 TMSO4_A1 kg/m2 1 A SO4_A1 column burden 269 TMSO4_A2 kg/m2 1 A SO4_A2 column burden 270 TMSO4_AC kg/m2 1 A SO4_AC column burden 271 TMSO4_PR kg/m2 1 A SO4_PR column burden 272 TMBC_N kg/m2 1 A BC_N column burden 273 TMBC_AX kg/m2 1 A BC_AX column burden 274 TMBC_NI kg/m2 1 A BC_NI column burden 275 TMBC_A kg/m2 1 A BC_A column burden 276 TMBC_AI kg/m2 1 A BC_AI column burden 277 TMBC_AC kg/m2 1 A BC_AC column burden 278 TMOM_NI kg/m2 1 A OM_NI column burden 279 TMOM_AI kg/m2 1 A OM_AI column burden 280 TMOM_AC kg/m2 1 A OM_AC column burden 281 TMDST_A2 kg/m2 1 A DST_A2 column burden 282 TMDST_A3 kg/m2 1 A DST_A3 column burden 283 TMSS_A1 kg/m2 1 A SS_A1 column burden 284 TMSS_A2 kg/m2 1 A SS_A2 column burden 285 TMSS_A3 kg/m2 1 A SS_A3 column burden 286 TMSOA_NA kg/m2 1 A SOA_NA column burden 287 TMSOA_A1 kg/m2 1 A SOA_A1 column burden 288 TMSOA_LV kg/m2 1 A SOA_LV column burden 289 TMSOA_SV kg/m2 1 A SOA_SV column burden 290 TMmonoterp kg/m2 1 A monoterp column burden 291 TMisoprene kg/m2 1 A isoprene column burden 292 OMEGAQ kgPa/kgs 58 A Vertical water transport 293 UQ m/skg/kg 58 A Zonal water transport 294 VQ m/skg/kg 58 A Meridional water transport 295 QQ kg2/kg2 58 A Eddy moisture variance 296 MQ kg/m2 58 A Water vapor mass in layer 297 TMQ kg/m2 1 A Total (vertically integrated) precipitable water 298 RELHUM percent 58 A Relative humidity 299 RHW percent 58 A Relative humidity with respect to liquid 300 RHI percent 58 A Relative humidity with respect to ice 301 RHCFMIP percent 58 A Relative humidity with respect to water above 273 K, ice below 273 K 302 IVT kg/m/s 1 A Total (vertically integrated) vapor transport 303 uIVT kg/m/s 1 A u-component (vertically integrated) vapor transport 304 vIVT kg/m/s 1 A v-component (vertically integrated) vapor transport 305 THE8501000 K 1 A ThetaE difference 850 mb - 1000 mb 306 THE9251000 K 1 A ThetaE difference 925 mb - 1000 mb 307 Q1000 kg/kg 1 A Specific Humidity at 1000 mbar pressure surface 308 Q925 kg/kg 1 A Specific Humidity at 925 mbar pressure surface 309 Q850 kg/kg 1 A Specific Humidity at 850 mbar pressure surface 310 Q200 kg/kg 1 A Specific Humidity at 200 mbar pressure surface 311 QBOT kg/kg 1 A Lowest model level water vapor mixing ratio 312 PSDRY Pa 1 A Dry surface pressure 313 PMID Pa 58 A Pressure at layer midpoints 314 PINT Pa 59 A Pressure at layer interfaces 315 PDELDRY Pa 58 A Dry pressure difference between levels 316 PDEL Pa 58 A Pressure difference between levels 317 DTCOND K/s 58 A T tendency - moist processes 318 DTCOND_24_COS K/s 58 A T tendency - moist processes 24hr. cos coeff. 319 DTCOND_24_SIN K/s 58 A T tendency - moist processes 24hr. sin coeff. 320 DTCOND_12_COS K/s 58 A T tendency - moist processes 12hr. cos coeff. 321 DTCOND_12_SIN K/s 58 A T tendency - moist processes 12hr. sin coeff. 322 DTCOND_08_COS K/s 58 A T tendency - moist processes 8hr. cos coeff. 323 DTCOND_08_SIN K/s 58 A T tendency - moist processes 8hr. sin coeff. 324 PRECL m/s 1 A Large-scale (stable) precipitation rate (liq + ice) 325 PRECC m/s 1 A Convective precipitation rate (liq + ice) 326 PRECT m/s 1 A Total (convective and large-scale) precipitation rate (liq + ice) 327 PREC_PCW m/s 1 A LS_pcw precipitation rate 328 PREC_zmc m/s 1 A CV_zmc precipitation rate 329 PRECTMX m/s 1 X Maximum (convective and large-scale) precipitation rate (liq+ice) 330 PRECSL m/s 1 A Large-scale (stable) snow rate (water equivalent) 331 PRECSC m/s 1 A Convective snow rate (water equivalent) 332 PRECCav m/s 1 A Average large-scale precipitation (liq + ice) 333 PRECLav m/s 1 A Average convective precipitation (liq + ice) 334 SHFLX W/m2 1 A Surface sensible heat flux 335 LHFLX W/m2 1 A Surface latent heat flux 336 QFLX kg/m2/s 1 A Surface water flux 337 TAUX N/m2 1 A Zonal surface stress 338 TAUY N/m2 1 A Meridional surface stress 339 TREFHT K 1 A Reference height temperature 340 TREFHTMN K 1 M Minimum reference height temperature over output period 341 TREFHTMX K 1 X Maximum reference height temperature over output period 342 QREFHT kg/kg 1 A Reference height humidity 343 U10 m/s 1 A 10m wind speed 344 UGUST m/s 1 A Gustiness term added to U10 345 U10WITHGUSTS m/s 1 A 10m wind speed with gustiness added 346 RHREFHT fraction 1 A Reference height relative humidity 347 LANDFRAC fraction 1 A Fraction of sfc area covered by land 348 ICEFRAC fraction 1 A Fraction of sfc area covered by sea-ice 349 OCNFRAC fraction 1 A Fraction of sfc area covered by ocean 350 TREFMNAV K 1 A Average of TREFHT daily minimum 351 TREFMXAV K 1 A Average of TREFHT daily maximum 352 TS K 1 A Surface temperature (radiative) 353 TSMN K 1 M Minimum surface temperature over output period 354 TSMX K 1 X Maximum surface temperature over output period 355 SNOWHLND m 1 A Water equivalent snow depth 356 SNOWHICE m 1 A Snow depth over ice 357 TBOT K 1 A Lowest model level temperature 358 ASDIR 1 1 A albedo: shortwave, direct 359 ASDIF 1 1 A albedo: shortwave, diffuse 360 ALDIR 1 1 A albedo: longwave, direct 361 ALDIF 1 1 A albedo: longwave, diffuse 362 SST K 1 A sea surface temperature 363 PTEQ kg/kg/s 58 A Q total physics tendency 364 PTECLDLIQ kg/kg/s 58 A CLDLIQ total physics tendency 365 PTECLDICE kg/kg/s 58 A CLDICE total physics tendency 366 QCWAT&IC kg/kg 58 I q associated with cloud water 367 TCWAT&IC kg/kg 58 I T associated with cloud water 368 LCWAT&IC kg/kg 58 I Cloud water (ice + liq 369 CLOUD&IC fraction 58 I Cloud fraction 370 CONCLD&IC fraction 58 I Convective cloud fraction 371 TKE&IC m2/s2 59 I Turbulent Kinetic Energy 372 CUSH&IC m 1 I Convective Scale Height 373 KVH&IC m2/s 59 I Vertical diffusion diffusivities (heat/moisture) 374 KVM&IC m2/s 59 I Vertical diffusion diffusivities (momentum) 375 PBLH&IC m 1 I PBL height 376 TPERT&IC K 1 I Perturbation temperature (eddies in PBL) 377 QPERT&IC kg/kg 1 I Perturbation specific humidity (eddies in PBL) 378 a2x_BCPHIWET kg/m2/s 1 A wetdep of hydrophilic black carbon 379 a2x_BCPHIDRY kg/m2/s 1 A drydep of hydrophilic black carbon 380 a2x_BCPHODRY kg/m2/s 1 A drydep of hydrophobic black carbon 381 a2x_OCPHIWET kg/m2/s 1 A wetdep of hydrophilic organic carbon 382 a2x_OCPHIDRY kg/m2/s 1 A drydep of hydrophilic organic carbon 383 a2x_OCPHODRY kg/m2/s 1 A drydep of hydrophobic organic carbon 384 a2x_DSTWET1 kg/m2/s 1 A wetdep of dust (bin1) 385 a2x_DSTDRY1 kg/m2/s 1 A drydep of dust (bin1) 386 a2x_DSTWET2 kg/m2/s 1 A wetdep of dust (bin2) 387 a2x_DSTDRY2 kg/m2/s 1 A drydep of dust (bin2) 388 a2x_DSTWET3 kg/m2/s 1 A wetdep of dust (bin3) 389 a2x_DSTDRY3 kg/m2/s 1 A drydep of dust (bin3) 390 a2x_DSTWET4 kg/m2/s 1 A wetdep of dust (bin4) 391 a2x_DSTDRY4 kg/m2/s 1 A drydep of dust (bin4) 392 a2x_NOYDEP kgN/m2/s 1 A NOy Deposition Flux 393 a2x_NHXDEP kgN/m2/s 1 A NHx Deposition Flux 394 DCQ kg/kg/s 58 A Q tendency due to moist processes 395 AODVIS unitless 1 A Aerosol optical depth at 0.442-0.625um 396 ABSVIS unitless 1 A Aerosol absorptive optical depth at 0.442-0.625um 397 AODVVOLC unitless 1 A CMIP6 volcanic aerosol optical depth at 0.442-0.625um 398 ABSVVOLC unitless 1 A CMIP6 volcanic aerosol absorptive optical depth at 0.442-0.625um 399 CAODVIS unitless 1 A Clear air aerosol optical depth 400 CABSVIS unitless 1 A Clear air aerosol absorptive optical depth 401 CLDFREE unitless 1 A Cloud free fraction wrt CAODVIS and CABSVIS 402 DAYFOC unitless 1 A Daylight fraction 403 N_AER unitless 58 A Aerosol number concentration 404 SSAVIS unitless 58 A Aerosol single scattering albedo in visible wavelength band 405 ASYMMVIS unitless 58 A Aerosol assymetry factor in visible wavelength band 406 EXTVIS 1/km 58 A Aerosol extinction 407 BVISVOLC 1/km 58 A CMIP6 volcanic aerosol extinction at 0.442-0.625um 408 FSNT_DRF W/m^2 1 A Total column absorbed solar flux (DIRind) 409 FSNTCDRF W/m^2 1 A Clear sky total column absorbed solar flux (DIRind) 410 FSNS_DRF W/m^2 1 A Surface absorbed solar flux (DIRind) 411 FSNSCDRF W/m^2 1 A Clear sky surface absorbed solar flux (DIRind) 412 QRS_DRF K/s 58 A Solar heating rate (DIRind) 413 QRSC_DRF K/s 58 A Clearsky solar heating rate (DIRind) 414 FLNT_DRF W/m^2 1 A Total column longwave flux (DIRind) 415 FLNTCDRF W/m^2 1 A Clear sky total column longwave flux (DIRind) 416 FSUTADRF W/m^2 1 A SW upwelling flux at TOA 417 FSDS_DRF W/m^2 1 A SW downelling flux at surface 418 FSUS_DRF W/m^2 1 A SW upwelling flux at surface 419 FSDSCDRF W/m^2 1 A SW downwelling clear sky flux at surface 420 FLUS W/m^2 1 A LW surface upwelling flux 421 TEINP J/m2 1 A Total energy of physics input 422 TEOUT J/m2 1 A Total energy of physics output 423 TEFIX J/m2 1 A Total energy after fixer 424 EFIX W/m2 1 A Effective sensible heat flux due to energy fixer 425 DTCORE K/s 58 A T tendency due to dynamical core 426 DQCORE kg/kg/s 58 A Water vapor tendency due to dynamical core 427 m_Q_c kg/m^2 58 A Q mass per layer used in climate calculation 428 cb_Q_c kg/m^2 1 A Q column burden used in climate calculation 429 m_ozone_c kg/m^2 58 A ozone mass per layer used in climate calculation 430 cb_ozone_c kg/m^2 1 A ozone column burden used in climate calculation 431 m_O2_c kg/m^2 58 A O2 mass per layer used in climate calculation 432 cb_O2_c kg/m^2 1 A O2 column burden used in climate calculation 433 m_CO2_c kg/m^2 58 A CO2 mass per layer used in climate calculation 434 cb_CO2_c kg/m^2 1 A CO2 column burden used in climate calculation 435 m_N2O_c kg/m^2 58 A N2O mass per layer used in climate calculation 436 cb_N2O_c kg/m^2 1 A N2O column burden used in climate calculation 437 m_CH4_c kg/m^2 58 A CH4 mass per layer used in climate calculation 438 cb_CH4_c kg/m^2 1 A CH4 column burden used in climate calculation 439 m_CFC11_c kg/m^2 58 A CFC11 mass per layer used in climate calculation 440 cb_CFC11_c kg/m^2 1 A CFC11 column burden used in climate calculation 441 m_CFC12_c kg/m^2 58 A CFC12 mass per layer used in climate calculation 442 cb_CFC12_c kg/m^2 1 A CFC12 column burden used in climate calculation 443 O3colAbove DU 1 A Column O3 above model top 444 TOT_CLD_VISTAU 1 58 A Total gbx cloud extinction visible sw optical depth 445 TOT_ICLD_VISTAU 1 58 A Total in-cloud extinction visible sw optical depth 446 LIQ_ICLD_VISTAU 1 58 A Liquid in-cloud extinction visible sw optical depth 447 ICE_ICLD_VISTAU 1 58 A Ice in-cloud extinction visible sw optical depth 448 SNOW_ICLD_VISTAU 1 58 A Snow in-cloud extinction visible sw optical depth 449 SOLIN W/m2 1 A Solar insolation 450 QRS K/s 58 A Solar heating rate 451 QRSC K/s 58 A Clearsky solar heating rate 452 FSNT W/m2 1 A Net solar flux at top of model 453 FSNTC W/m2 1 A Clearsky net solar flux at top of model 454 FSNTOA W/m2 1 A Net solar flux at top of atmosphere 455 FSNTOAC W/m2 1 A Clearsky net solar flux at top of atmosphere 456 SWCF W/m2 1 A Shortwave cloud forcing 457 FSUTOA W/m2 1 A Upwelling solar flux at top of atmosphere 458 FSNIRTOA W/m2 1 A Net near-infrared flux (Nimbus-7 WFOV) at top of atmosphere 459 FSNRTOAC W/m2 1 A Clearsky net near-infrared flux (Nimbus-7 WFOV) at top of atmosphere 460 FSNRTOAS W/m2 1 A Net near-infrared flux (>= 0.7 microns) at top of atmosphere 461 FSN200 W/m2 1 A Net shortwave flux at 200 mb 462 FSN200C W/m2 1 A Clearsky net shortwave flux at 200 mb 463 FSNR W/m2 1 A Net solar flux at tropopause 464 SOLL W/m2 1 A Solar downward near infrared direct to surface 465 SOLS W/m2 1 A Solar downward visible direct to surface 466 SOLLD W/m2 1 A Solar downward near infrared diffuse to surface 467 SOLSD W/m2 1 A Solar downward visible diffuse to surface 468 FSNS W/m2 1 A Net solar flux at surface 469 FSNSC W/m2 1 A Clearsky net solar flux at surface 470 FSDS W/m2 1 A Downwelling solar flux at surface 471 FSDSC W/m2 1 A Clearsky downwelling solar flux at surface 472 FUS W/m2 59 I Shortwave upward flux 473 FDS W/m2 59 I Shortwave downward flux 474 FUSC W/m2 59 I Shortwave clear-sky upward flux 475 FDSC W/m2 59 I Shortwave clear-sky downward flux 476 FDSCDRF W/m2 59 A Shortwave clear-sky downward flux 477 FUSCDRF W/m2 59 A Shortwave clear-sky upward flux 478 QRL K/s 58 A Longwave heating rate 479 QRLC K/s 58 A Clearsky longwave heating rate 480 FLNT W/m2 1 A Net longwave flux at top of model 481 FLNTC W/m2 1 A Clearsky net longwave flux at top of model 482 FLNTCLR W/m2 1 A Clearsky ONLY points net longwave flux at top of model 483 FREQCLR Frac 1 A Frequency of Occurrence of Clearsky 484 FLUT W/m2 1 A Upwelling longwave flux at top of model 485 FLUTC W/m2 1 A Clearsky upwelling longwave flux at top of model 486 LWCF W/m2 1 A Longwave cloud forcing 487 FLN200 W/m2 1 A Net longwave flux at 200 mb 488 FLN200C W/m2 1 A Clearsky net longwave flux at 200 mb 489 FLNR W/m2 1 A Net longwave flux at tropopause 490 FLNS W/m2 1 A Net longwave flux at surface 491 FLNSC W/m2 1 A Clearsky net longwave flux at surface 492 FLDS W/m2 1 A Downwelling longwave flux at surface 493 FLDSC W/m2 1 A Clearsky Downwelling longwave flux at surface 494 FUL W/m2 59 I Longwave upward flux 495 FDL W/m2 59 I Longwave downward flux 496 FULC W/m2 59 I Longwave clear-sky upward flux 497 FDLC W/m2 59 I Longwave clear-sky downward flux 498 EMIS 1 58 A Cloud longwave emissivity 499 HR K/s 58 A Heating rate needed for d(theta)/dt computation 500 AEROD_v 1 1 A Total Aerosol Optical Depth in visible band 501 AODvstrt 1 1 A Stratospheric Aerosol Optical Depth in visible band 502 SO4_ACcoagTend kg/m2/s 1 A coagulation tendency 503 SO4_NAcoagTend kg/m2/s 1 A coagulation tendency 504 SO4_A1coagTend kg/m2/s 1 A coagulation tendency 505 BC_ACcoagTend kg/m2/s 1 A coagulation tendency 506 BC_NcoagTend kg/m2/s 1 A coagulation tendency 507 BC_AXcoagTend kg/m2/s 1 A coagulation tendency 508 BC_NIcoagTend kg/m2/s 1 A coagulation tendency 509 BC_AcoagTend kg/m2/s 1 A coagulation tendency 510 BC_AIcoagTend kg/m2/s 1 A coagulation tendency 511 OM_ACcoagTend kg/m2/s 1 A coagulation tendency 512 OM_NIcoagTend kg/m2/s 1 A coagulation tendency 513 OM_AIcoagTend kg/m2/s 1 A coagulation tendency 514 SOA_A1coagTend kg/m2/s 1 A coagulation tendency 515 SOA_NAcoagTend kg/m2/s 1 A coagulation tendency 516 SO4_A2_OCWclcoagTend kg/m2/s 1 A coagulation tendency 517 SO4_NAclcoagTend kg/m2/s 1 A coagulation tendency 518 SO4_A1clcoagTend kg/m2/s 1 A coagulation tendency 519 BC_AC_OCWclcoagTend kg/m2/s 1 A coagulation tendency 520 BC_NclcoagTend kg/m2/s 1 A coagulation tendency 521 BC_AXclcoagTend kg/m2/s 1 A coagulation tendency 522 BC_NIclcoagTend kg/m2/s 1 A coagulation tendency 523 BC_AclcoagTend kg/m2/s 1 A coagulation tendency 524 BC_AIclcoagTend kg/m2/s 1 A coagulation tendency 525 OM_AC_OCWclcoagTend kg/m2/s 1 A coagulation tendency 526 OM_NIclcoagTend kg/m2/s 1 A coagulation tendency 527 OM_AIclcoagTend kg/m2/s 1 A coagulation tendency 528 SOA_A1_OCWclcoagTend kg/m2/s 1 A coagulation tendency 529 SOA_NAclcoagTend kg/m2/s 1 A coagulation tendency 530 BC_AcondTend kg/m2/s 1 A condensation tendency 531 BC_NcondTend kg/m2/s 1 A condensation tendency 532 BC_AIcondTend kg/m2/s 1 A condensation tendency 533 BC_AXcondTend kg/m2/s 1 A condensation tendency 534 BC_NIcondTend kg/m2/s 1 A condensation tendency 535 OM_AIcondTend kg/m2/s 1 A condensation tendency 536 OM_NIcondTend kg/m2/s 1 A condensation tendency 537 SO4_A1condTend kg/m2/s 1 A condensation tendency 538 SOA_A1condTend kg/m2/s 1 A condensation tendency 539 SO4_NAcondTend kg/m2/s 1 A condensation tendency 540 SOA_NAcondTend kg/m2/s 1 A condensation tendency 541 odms nmol/L 1 A DMS upper ocean concentration 542 BC_AXSFWET kg/m2/s 1 A Wet deposition flux at surface 543 BC_AXSFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 544 BC_AXSFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 545 BC_AXSFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 546 BC_AXSFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 547 BC_AXWET kg/kg/s 58 A wet deposition tendency 548 BC_AXSIC kg/kg/s 58 A BC_AX ic wet deposition 549 BC_AXSIS kg/kg/s 58 A BC_AX is wet deposition 550 BC_AXSBC kg/kg/s 58 A BC_AX bc wet deposition 551 BC_AXSBS kg/kg/s 58 A BC_AX bs wet deposition 552 BC_AXDDF kg/m2/s 1 A BC_AX dry deposition flux at bottom (grav + turb) 553 BC_AXTBF kg/m2/s 1 A BC_AX turbulent dry deposition flux 554 BC_AXGVF kg/m2/s 1 A BC_AX gravitational dry deposition flux 555 BC_AXDTQ kg/kg/s 58 A BC_AX dry deposition 556 BC_AXDDV m/s 58 A BC_AX deposition velocity 557 SO4_NASFWET kg/m2/s 1 A Wet deposition flux at surface 558 SO4_NASFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 559 SO4_NASFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 560 SO4_NASFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 561 SO4_NASFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 562 SO4_NAWET kg/kg/s 58 A wet deposition tendency 563 SO4_NASIC kg/kg/s 58 A SO4_NA ic wet deposition 564 SO4_NASIS kg/kg/s 58 A SO4_NA is wet deposition 565 SO4_NASBC kg/kg/s 58 A SO4_NA bc wet deposition 566 SO4_NASBS kg/kg/s 58 A SO4_NA bs wet deposition 567 SO4_NADDF kg/m2/s 1 A SO4_NA dry deposition flux at bottom (grav + turb) 568 SO4_NATBF kg/m2/s 1 A SO4_NA turbulent dry deposition flux 569 SO4_NAGVF kg/m2/s 1 A SO4_NA gravitational dry deposition flux 570 SO4_NADTQ kg/kg/s 58 A SO4_NA dry deposition 571 SO4_NADDV m/s 58 A SO4_NA deposition velocity 572 SO4_NA_OCWSFWET kg/m2/s 1 A SO4_NA_OCW wet deposition flux at surface 573 SO4_NA_OCWSFSIC kg/m2/s 1 A SO4_NA_OCW wet deposition flux (incloud, convective) at surface 574 SO4_NA_OCWSFSIS kg/m2/s 1 A SO4_NA_OCW wet deposition flux (incloud, stratiform) at surface 575 SO4_NA_OCWSFSBC kg/m2/s 1 A SO4_NA_OCW wet deposition flux (belowcloud, convective) at surface 576 SO4_NA_OCWSFSBS kg/m2/s 1 A SO4_NA_OCW wet deposition flux (belowcloud, stratiform) at surface 577 SO4_NA_OCWDDF kg/m2/s 1 A SO4_NA_OCW dry deposition flux at bottom (grav + turb) 578 SO4_NA_OCWTBF kg/m2/s 1 A SO4_NA_OCW turbulent dry deposition flux 579 SO4_NA_OCWGVF kg/m2/s 1 A SO4_NA_OCW gravitational dry deposition flux 580 SOA_NASFWET kg/m2/s 1 A Wet deposition flux at surface 581 SOA_NASFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 582 SOA_NASFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 583 SOA_NASFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 584 SOA_NASFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 585 SOA_NAWET kg/kg/s 58 A wet deposition tendency 586 SOA_NASIC kg/kg/s 58 A SOA_NA ic wet deposition 587 SOA_NASIS kg/kg/s 58 A SOA_NA is wet deposition 588 SOA_NASBC kg/kg/s 58 A SOA_NA bc wet deposition 589 SOA_NASBS kg/kg/s 58 A SOA_NA bs wet deposition 590 SOA_NADDF kg/m2/s 1 A SOA_NA dry deposition flux at bottom (grav + turb) 591 SOA_NATBF kg/m2/s 1 A SOA_NA turbulent dry deposition flux 592 SOA_NAGVF kg/m2/s 1 A SOA_NA gravitational dry deposition flux 593 SOA_NADTQ kg/kg/s 58 A SOA_NA dry deposition 594 SOA_NADDV m/s 58 A SOA_NA deposition velocity 595 SOA_NA_OCWSFWET kg/m2/s 1 A SOA_NA_OCW wet deposition flux at surface 596 SOA_NA_OCWSFSIC kg/m2/s 1 A SOA_NA_OCW wet deposition flux (incloud, convective) at surface 597 SOA_NA_OCWSFSIS kg/m2/s 1 A SOA_NA_OCW wet deposition flux (incloud, stratiform) at surface 598 SOA_NA_OCWSFSBC kg/m2/s 1 A SOA_NA_OCW wet deposition flux (belowcloud, convective) at surface 599 SOA_NA_OCWSFSBS kg/m2/s 1 A SOA_NA_OCW wet deposition flux (belowcloud, stratiform) at surface 600 SOA_NA_OCWDDF kg/m2/s 1 A SOA_NA_OCW dry deposition flux at bottom (grav + turb) 601 SOA_NA_OCWTBF kg/m2/s 1 A SOA_NA_OCW turbulent dry deposition flux 602 SOA_NA_OCWGVF kg/m2/s 1 A SOA_NA_OCW gravitational dry deposition flux 603 SO4_A1SFWET kg/m2/s 1 A Wet deposition flux at surface 604 SO4_A1SFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 605 SO4_A1SFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 606 SO4_A1SFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 607 SO4_A1SFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 608 SO4_A1WET kg/kg/s 58 A wet deposition tendency 609 SO4_A1SIC kg/kg/s 58 A SO4_A1 ic wet deposition 610 SO4_A1SIS kg/kg/s 58 A SO4_A1 is wet deposition 611 SO4_A1SBC kg/kg/s 58 A SO4_A1 bc wet deposition 612 SO4_A1SBS kg/kg/s 58 A SO4_A1 bs wet deposition 613 SO4_A1DDF kg/m2/s 1 A SO4_A1 dry deposition flux at bottom (grav + turb) 614 SO4_A1TBF kg/m2/s 1 A SO4_A1 turbulent dry deposition flux 615 SO4_A1GVF kg/m2/s 1 A SO4_A1 gravitational dry deposition flux 616 SO4_A1DTQ kg/kg/s 58 A SO4_A1 dry deposition 617 SO4_A1DDV m/s 58 A SO4_A1 deposition velocity 618 SO4_A1_OCWSFWET kg/m2/s 1 A SO4_A1_OCW wet deposition flux at surface 619 SO4_A1_OCWSFSIC kg/m2/s 1 A SO4_A1_OCW wet deposition flux (incloud, convective) at surface 620 SO4_A1_OCWSFSIS kg/m2/s 1 A SO4_A1_OCW wet deposition flux (incloud, stratiform) at surface 621 SO4_A1_OCWSFSBC kg/m2/s 1 A SO4_A1_OCW wet deposition flux (belowcloud, convective) at surface 622 SO4_A1_OCWSFSBS kg/m2/s 1 A SO4_A1_OCW wet deposition flux (belowcloud, stratiform) at surface 623 SO4_A1_OCWDDF kg/m2/s 1 A SO4_A1_OCW dry deposition flux at bottom (grav + turb) 624 SO4_A1_OCWTBF kg/m2/s 1 A SO4_A1_OCW turbulent dry deposition flux 625 SO4_A1_OCWGVF kg/m2/s 1 A SO4_A1_OCW gravitational dry deposition flux 626 SOA_A1SFWET kg/m2/s 1 A Wet deposition flux at surface 627 SOA_A1SFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 628 SOA_A1SFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 629 SOA_A1SFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 630 SOA_A1SFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 631 SOA_A1WET kg/kg/s 58 A wet deposition tendency 632 SOA_A1SIC kg/kg/s 58 A SOA_A1 ic wet deposition 633 SOA_A1SIS kg/kg/s 58 A SOA_A1 is wet deposition 634 SOA_A1SBC kg/kg/s 58 A SOA_A1 bc wet deposition 635 SOA_A1SBS kg/kg/s 58 A SOA_A1 bs wet deposition 636 SOA_A1DDF kg/m2/s 1 A SOA_A1 dry deposition flux at bottom (grav + turb) 637 SOA_A1TBF kg/m2/s 1 A SOA_A1 turbulent dry deposition flux 638 SOA_A1GVF kg/m2/s 1 A SOA_A1 gravitational dry deposition flux 639 SOA_A1DTQ kg/kg/s 58 A SOA_A1 dry deposition 640 SOA_A1DDV m/s 58 A SOA_A1 deposition velocity 641 SOA_A1_OCWSFWET kg/m2/s 1 A SOA_A1_OCW wet deposition flux at surface 642 SOA_A1_OCWSFSIC kg/m2/s 1 A SOA_A1_OCW wet deposition flux (incloud, convective) at surface 643 SOA_A1_OCWSFSIS kg/m2/s 1 A SOA_A1_OCW wet deposition flux (incloud, stratiform) at surface 644 SOA_A1_OCWSFSBC kg/m2/s 1 A SOA_A1_OCW wet deposition flux (belowcloud, convective) at surface 645 SOA_A1_OCWSFSBS kg/m2/s 1 A SOA_A1_OCW wet deposition flux (belowcloud, stratiform) at surface 646 SOA_A1_OCWDDF kg/m2/s 1 A SOA_A1_OCW dry deposition flux at bottom (grav + turb) 647 SOA_A1_OCWTBF kg/m2/s 1 A SOA_A1_OCW turbulent dry deposition flux 648 SOA_A1_OCWGVF kg/m2/s 1 A SOA_A1_OCW gravitational dry deposition flux 649 BC_ASFWET kg/m2/s 1 A Wet deposition flux at surface 650 BC_ASFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 651 BC_ASFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 652 BC_ASFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 653 BC_ASFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 654 BC_AWET kg/kg/s 58 A wet deposition tendency 655 BC_ASIC kg/kg/s 58 A BC_A ic wet deposition 656 BC_ASIS kg/kg/s 58 A BC_A is wet deposition 657 BC_ASBC kg/kg/s 58 A BC_A bc wet deposition 658 BC_ASBS kg/kg/s 58 A BC_A bs wet deposition 659 BC_ADDF kg/m2/s 1 A BC_A dry deposition flux at bottom (grav + turb) 660 BC_ATBF kg/m2/s 1 A BC_A turbulent dry deposition flux 661 BC_AGVF kg/m2/s 1 A BC_A gravitational dry deposition flux 662 BC_ADTQ kg/kg/s 58 A BC_A dry deposition 663 BC_ADDV m/s 58 A BC_A deposition velocity 664 BC_A_OCWSFWET kg/m2/s 1 A BC_A_OCW wet deposition flux at surface 665 BC_A_OCWSFSIC kg/m2/s 1 A BC_A_OCW wet deposition flux (incloud, convective) at surface 666 BC_A_OCWSFSIS kg/m2/s 1 A BC_A_OCW wet deposition flux (incloud, stratiform) at surface 667 BC_A_OCWSFSBC kg/m2/s 1 A BC_A_OCW wet deposition flux (belowcloud, convective) at surface 668 BC_A_OCWSFSBS kg/m2/s 1 A BC_A_OCW wet deposition flux (belowcloud, stratiform) at surface 669 BC_A_OCWDDF kg/m2/s 1 A BC_A_OCW dry deposition flux at bottom (grav + turb) 670 BC_A_OCWTBF kg/m2/s 1 A BC_A_OCW turbulent dry deposition flux 671 BC_A_OCWGVF kg/m2/s 1 A BC_A_OCW gravitational dry deposition flux 672 BC_AISFWET kg/m2/s 1 A Wet deposition flux at surface 673 BC_AISFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 674 BC_AISFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 675 BC_AISFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 676 BC_AISFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 677 BC_AIWET kg/kg/s 58 A wet deposition tendency 678 BC_AISIC kg/kg/s 58 A BC_AI ic wet deposition 679 BC_AISIS kg/kg/s 58 A BC_AI is wet deposition 680 BC_AISBC kg/kg/s 58 A BC_AI bc wet deposition 681 BC_AISBS kg/kg/s 58 A BC_AI bs wet deposition 682 BC_AIDDF kg/m2/s 1 A BC_AI dry deposition flux at bottom (grav + turb) 683 BC_AITBF kg/m2/s 1 A BC_AI turbulent dry deposition flux 684 BC_AIGVF kg/m2/s 1 A BC_AI gravitational dry deposition flux 685 BC_AIDTQ kg/kg/s 58 A BC_AI dry deposition 686 BC_AIDDV m/s 58 A BC_AI deposition velocity 687 BC_AI_OCWSFWET kg/m2/s 1 A BC_AI_OCW wet deposition flux at surface 688 BC_AI_OCWSFSIC kg/m2/s 1 A BC_AI_OCW wet deposition flux (incloud, convective) at surface 689 BC_AI_OCWSFSIS kg/m2/s 1 A BC_AI_OCW wet deposition flux (incloud, stratiform) at surface 690 BC_AI_OCWSFSBC kg/m2/s 1 A BC_AI_OCW wet deposition flux (belowcloud, convective) at surface 691 BC_AI_OCWSFSBS kg/m2/s 1 A BC_AI_OCW wet deposition flux (belowcloud, stratiform) at surface 692 BC_AI_OCWDDF kg/m2/s 1 A BC_AI_OCW dry deposition flux at bottom (grav + turb) 693 BC_AI_OCWTBF kg/m2/s 1 A BC_AI_OCW turbulent dry deposition flux 694 BC_AI_OCWGVF kg/m2/s 1 A BC_AI_OCW gravitational dry deposition flux 695 OM_AISFWET kg/m2/s 1 A Wet deposition flux at surface 696 OM_AISFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 697 OM_AISFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 698 OM_AISFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 699 OM_AISFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 700 OM_AIWET kg/kg/s 58 A wet deposition tendency 701 OM_AISIC kg/kg/s 58 A OM_AI ic wet deposition 702 OM_AISIS kg/kg/s 58 A OM_AI is wet deposition 703 OM_AISBC kg/kg/s 58 A OM_AI bc wet deposition 704 OM_AISBS kg/kg/s 58 A OM_AI bs wet deposition 705 OM_AIDDF kg/m2/s 1 A OM_AI dry deposition flux at bottom (grav + turb) 706 OM_AITBF kg/m2/s 1 A OM_AI turbulent dry deposition flux 707 OM_AIGVF kg/m2/s 1 A OM_AI gravitational dry deposition flux 708 OM_AIDTQ kg/kg/s 58 A OM_AI dry deposition 709 OM_AIDDV m/s 58 A OM_AI deposition velocity 710 OM_AI_OCWSFWET kg/m2/s 1 A OM_AI_OCW wet deposition flux at surface 711 OM_AI_OCWSFSIC kg/m2/s 1 A OM_AI_OCW wet deposition flux (incloud, convective) at surface 712 OM_AI_OCWSFSIS kg/m2/s 1 A OM_AI_OCW wet deposition flux (incloud, stratiform) at surface 713 OM_AI_OCWSFSBC kg/m2/s 1 A OM_AI_OCW wet deposition flux (belowcloud, convective) at surface 714 OM_AI_OCWSFSBS kg/m2/s 1 A OM_AI_OCW wet deposition flux (belowcloud, stratiform) at surface 715 OM_AI_OCWDDF kg/m2/s 1 A OM_AI_OCW dry deposition flux at bottom (grav + turb) 716 OM_AI_OCWTBF kg/m2/s 1 A OM_AI_OCW turbulent dry deposition flux 717 OM_AI_OCWGVF kg/m2/s 1 A OM_AI_OCW gravitational dry deposition flux 718 SO4_A2SFWET kg/m2/s 1 A Wet deposition flux at surface 719 SO4_A2SFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 720 SO4_A2SFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 721 SO4_A2SFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 722 SO4_A2SFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 723 SO4_A2WET kg/kg/s 58 A wet deposition tendency 724 SO4_A2SIC kg/kg/s 58 A SO4_A2 ic wet deposition 725 SO4_A2SIS kg/kg/s 58 A SO4_A2 is wet deposition 726 SO4_A2SBC kg/kg/s 58 A SO4_A2 bc wet deposition 727 SO4_A2SBS kg/kg/s 58 A SO4_A2 bs wet deposition 728 SO4_A2DDF kg/m2/s 1 A SO4_A2 dry deposition flux at bottom (grav + turb) 729 SO4_A2TBF kg/m2/s 1 A SO4_A2 turbulent dry deposition flux 730 SO4_A2GVF kg/m2/s 1 A SO4_A2 gravitational dry deposition flux 731 SO4_A2DTQ kg/kg/s 58 A SO4_A2 dry deposition 732 SO4_A2DDV m/s 58 A SO4_A2 deposition velocity 733 SO4_A2_OCWSFWET kg/m2/s 1 A SO4_A2_OCW wet deposition flux at surface 734 SO4_A2_OCWSFSIC kg/m2/s 1 A SO4_A2_OCW wet deposition flux (incloud, convective) at surface 735 SO4_A2_OCWSFSIS kg/m2/s 1 A SO4_A2_OCW wet deposition flux (incloud, stratiform) at surface 736 SO4_A2_OCWSFSBC kg/m2/s 1 A SO4_A2_OCW wet deposition flux (belowcloud, convective) at surface 737 SO4_A2_OCWSFSBS kg/m2/s 1 A SO4_A2_OCW wet deposition flux (belowcloud, stratiform) at surface 738 SO4_A2_OCWDDF kg/m2/s 1 A SO4_A2_OCW dry deposition flux at bottom (grav + turb) 739 SO4_A2_OCWTBF kg/m2/s 1 A SO4_A2_OCW turbulent dry deposition flux 740 SO4_A2_OCWGVF kg/m2/s 1 A SO4_A2_OCW gravitational dry deposition flux 741 SO4_PRSFWET kg/m2/s 1 A Wet deposition flux at surface 742 SO4_PRSFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 743 SO4_PRSFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 744 SO4_PRSFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 745 SO4_PRSFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 746 SO4_PRWET kg/kg/s 58 A wet deposition tendency 747 SO4_PRSIC kg/kg/s 58 A SO4_PR ic wet deposition 748 SO4_PRSIS kg/kg/s 58 A SO4_PR is wet deposition 749 SO4_PRSBC kg/kg/s 58 A SO4_PR bc wet deposition 750 SO4_PRSBS kg/kg/s 58 A SO4_PR bs wet deposition 751 SO4_PRDDF kg/m2/s 1 A SO4_PR dry deposition flux at bottom (grav + turb) 752 SO4_PRTBF kg/m2/s 1 A SO4_PR turbulent dry deposition flux 753 SO4_PRGVF kg/m2/s 1 A SO4_PR gravitational dry deposition flux 754 SO4_PRDTQ kg/kg/s 58 A SO4_PR dry deposition 755 SO4_PRDDV m/s 58 A SO4_PR deposition velocity 756 SO4_PR_OCWSFWET kg/m2/s 1 A SO4_PR_OCW wet deposition flux at surface 757 SO4_PR_OCWSFSIC kg/m2/s 1 A SO4_PR_OCW wet deposition flux (incloud, convective) at surface 758 SO4_PR_OCWSFSIS kg/m2/s 1 A SO4_PR_OCW wet deposition flux (incloud, stratiform) at surface 759 SO4_PR_OCWSFSBC kg/m2/s 1 A SO4_PR_OCW wet deposition flux (belowcloud, convective) at surface 760 SO4_PR_OCWSFSBS kg/m2/s 1 A SO4_PR_OCW wet deposition flux (belowcloud, stratiform) at surface 761 SO4_PR_OCWDDF kg/m2/s 1 A SO4_PR_OCW dry deposition flux at bottom (grav + turb) 762 SO4_PR_OCWTBF kg/m2/s 1 A SO4_PR_OCW turbulent dry deposition flux 763 SO4_PR_OCWGVF kg/m2/s 1 A SO4_PR_OCW gravitational dry deposition flux 764 BC_ACSFWET kg/m2/s 1 A Wet deposition flux at surface 765 BC_ACSFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 766 BC_ACSFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 767 BC_ACSFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 768 BC_ACSFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 769 BC_ACWET kg/kg/s 58 A wet deposition tendency 770 BC_ACSIC kg/kg/s 58 A BC_AC ic wet deposition 771 BC_ACSIS kg/kg/s 58 A BC_AC is wet deposition 772 BC_ACSBC kg/kg/s 58 A BC_AC bc wet deposition 773 BC_ACSBS kg/kg/s 58 A BC_AC bs wet deposition 774 BC_ACDDF kg/m2/s 1 A BC_AC dry deposition flux at bottom (grav + turb) 775 BC_ACTBF kg/m2/s 1 A BC_AC turbulent dry deposition flux 776 BC_ACGVF kg/m2/s 1 A BC_AC gravitational dry deposition flux 777 BC_ACDTQ kg/kg/s 58 A BC_AC dry deposition 778 BC_ACDDV m/s 58 A BC_AC deposition velocity 779 BC_AC_OCWSFWET kg/m2/s 1 A BC_AC_OCW wet deposition flux at surface 780 BC_AC_OCWSFSIC kg/m2/s 1 A BC_AC_OCW wet deposition flux (incloud, convective) at surface 781 BC_AC_OCWSFSIS kg/m2/s 1 A BC_AC_OCW wet deposition flux (incloud, stratiform) at surface 782 BC_AC_OCWSFSBC kg/m2/s 1 A BC_AC_OCW wet deposition flux (belowcloud, convective) at surface 783 BC_AC_OCWSFSBS kg/m2/s 1 A BC_AC_OCW wet deposition flux (belowcloud, stratiform) at surface 784 BC_AC_OCWDDF kg/m2/s 1 A BC_AC_OCW dry deposition flux at bottom (grav + turb) 785 BC_AC_OCWTBF kg/m2/s 1 A BC_AC_OCW turbulent dry deposition flux 786 BC_AC_OCWGVF kg/m2/s 1 A BC_AC_OCW gravitational dry deposition flux 787 OM_ACSFWET kg/m2/s 1 A Wet deposition flux at surface 788 OM_ACSFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 789 OM_ACSFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 790 OM_ACSFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 791 OM_ACSFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 792 OM_ACWET kg/kg/s 58 A wet deposition tendency 793 OM_ACSIC kg/kg/s 58 A OM_AC ic wet deposition 794 OM_ACSIS kg/kg/s 58 A OM_AC is wet deposition 795 OM_ACSBC kg/kg/s 58 A OM_AC bc wet deposition 796 OM_ACSBS kg/kg/s 58 A OM_AC bs wet deposition 797 OM_ACDDF kg/m2/s 1 A OM_AC dry deposition flux at bottom (grav + turb) 798 OM_ACTBF kg/m2/s 1 A OM_AC turbulent dry deposition flux 799 OM_ACGVF kg/m2/s 1 A OM_AC gravitational dry deposition flux 800 OM_ACDTQ kg/kg/s 58 A OM_AC dry deposition 801 OM_ACDDV m/s 58 A OM_AC deposition velocity 802 OM_AC_OCWSFWET kg/m2/s 1 A OM_AC_OCW wet deposition flux at surface 803 OM_AC_OCWSFSIC kg/m2/s 1 A OM_AC_OCW wet deposition flux (incloud, convective) at surface 804 OM_AC_OCWSFSIS kg/m2/s 1 A OM_AC_OCW wet deposition flux (incloud, stratiform) at surface 805 OM_AC_OCWSFSBC kg/m2/s 1 A OM_AC_OCW wet deposition flux (belowcloud, convective) at surface 806 OM_AC_OCWSFSBS kg/m2/s 1 A OM_AC_OCW wet deposition flux (belowcloud, stratiform) at surface 807 OM_AC_OCWDDF kg/m2/s 1 A OM_AC_OCW dry deposition flux at bottom (grav + turb) 808 OM_AC_OCWTBF kg/m2/s 1 A OM_AC_OCW turbulent dry deposition flux 809 OM_AC_OCWGVF kg/m2/s 1 A OM_AC_OCW gravitational dry deposition flux 810 SO4_ACSFWET kg/m2/s 1 A Wet deposition flux at surface 811 SO4_ACSFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 812 SO4_ACSFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 813 SO4_ACSFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 814 SO4_ACSFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 815 SO4_ACWET kg/kg/s 58 A wet deposition tendency 816 SO4_ACSIC kg/kg/s 58 A SO4_AC ic wet deposition 817 SO4_ACSIS kg/kg/s 58 A SO4_AC is wet deposition 818 SO4_ACSBC kg/kg/s 58 A SO4_AC bc wet deposition 819 SO4_ACSBS kg/kg/s 58 A SO4_AC bs wet deposition 820 SO4_ACDDF kg/m2/s 1 A SO4_AC dry deposition flux at bottom (grav + turb) 821 SO4_ACTBF kg/m2/s 1 A SO4_AC turbulent dry deposition flux 822 SO4_ACGVF kg/m2/s 1 A SO4_AC gravitational dry deposition flux 823 SO4_ACDTQ kg/kg/s 58 A SO4_AC dry deposition 824 SO4_ACDDV m/s 58 A SO4_AC deposition velocity 825 SO4_AC_OCWSFWET kg/m2/s 1 A SO4_AC_OCW wet deposition flux at surface 826 SO4_AC_OCWSFSIC kg/m2/s 1 A SO4_AC_OCW wet deposition flux (incloud, convective) at surface 827 SO4_AC_OCWSFSIS kg/m2/s 1 A SO4_AC_OCW wet deposition flux (incloud, stratiform) at surface 828 SO4_AC_OCWSFSBC kg/m2/s 1 A SO4_AC_OCW wet deposition flux (belowcloud, convective) at surface 829 SO4_AC_OCWSFSBS kg/m2/s 1 A SO4_AC_OCW wet deposition flux (belowcloud, stratiform) at surface 830 SO4_AC_OCWDDF kg/m2/s 1 A SO4_AC_OCW dry deposition flux at bottom (grav + turb) 831 SO4_AC_OCWTBF kg/m2/s 1 A SO4_AC_OCW turbulent dry deposition flux 832 SO4_AC_OCWGVF kg/m2/s 1 A SO4_AC_OCW gravitational dry deposition flux 833 DST_A2SFWET kg/m2/s 1 A Wet deposition flux at surface 834 DST_A2SFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 835 DST_A2SFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 836 DST_A2SFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 837 DST_A2SFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 838 DST_A2WET kg/kg/s 58 A wet deposition tendency 839 DST_A2SIC kg/kg/s 58 A DST_A2 ic wet deposition 840 DST_A2SIS kg/kg/s 58 A DST_A2 is wet deposition 841 DST_A2SBC kg/kg/s 58 A DST_A2 bc wet deposition 842 DST_A2SBS kg/kg/s 58 A DST_A2 bs wet deposition 843 DST_A2DDF kg/m2/s 1 A DST_A2 dry deposition flux at bottom (grav + turb) 844 DST_A2TBF kg/m2/s 1 A DST_A2 turbulent dry deposition flux 845 DST_A2GVF kg/m2/s 1 A DST_A2 gravitational dry deposition flux 846 DST_A2DTQ kg/kg/s 58 A DST_A2 dry deposition 847 DST_A2DDV m/s 58 A DST_A2 deposition velocity 848 DST_A2_OCWSFWET kg/m2/s 1 A DST_A2_OCW wet deposition flux at surface 849 DST_A2_OCWSFSIC kg/m2/s 1 A DST_A2_OCW wet deposition flux (incloud, convective) at surface 850 DST_A2_OCWSFSIS kg/m2/s 1 A DST_A2_OCW wet deposition flux (incloud, stratiform) at surface 851 DST_A2_OCWSFSBC kg/m2/s 1 A DST_A2_OCW wet deposition flux (belowcloud, convective) at surface 852 DST_A2_OCWSFSBS kg/m2/s 1 A DST_A2_OCW wet deposition flux (belowcloud, stratiform) at surface 853 DST_A2_OCWDDF kg/m2/s 1 A DST_A2_OCW dry deposition flux at bottom (grav + turb) 854 DST_A2_OCWTBF kg/m2/s 1 A DST_A2_OCW turbulent dry deposition flux 855 DST_A2_OCWGVF kg/m2/s 1 A DST_A2_OCW gravitational dry deposition flux 856 DST_A3SFWET kg/m2/s 1 A Wet deposition flux at surface 857 DST_A3SFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 858 DST_A3SFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 859 DST_A3SFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 860 DST_A3SFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 861 DST_A3WET kg/kg/s 58 A wet deposition tendency 862 DST_A3SIC kg/kg/s 58 A DST_A3 ic wet deposition 863 DST_A3SIS kg/kg/s 58 A DST_A3 is wet deposition 864 DST_A3SBC kg/kg/s 58 A DST_A3 bc wet deposition 865 DST_A3SBS kg/kg/s 58 A DST_A3 bs wet deposition 866 DST_A3DDF kg/m2/s 1 A DST_A3 dry deposition flux at bottom (grav + turb) 867 DST_A3TBF kg/m2/s 1 A DST_A3 turbulent dry deposition flux 868 DST_A3GVF kg/m2/s 1 A DST_A3 gravitational dry deposition flux 869 DST_A3DTQ kg/kg/s 58 A DST_A3 dry deposition 870 DST_A3DDV m/s 58 A DST_A3 deposition velocity 871 DST_A3_OCWSFWET kg/m2/s 1 A DST_A3_OCW wet deposition flux at surface 872 DST_A3_OCWSFSIC kg/m2/s 1 A DST_A3_OCW wet deposition flux (incloud, convective) at surface 873 DST_A3_OCWSFSIS kg/m2/s 1 A DST_A3_OCW wet deposition flux (incloud, stratiform) at surface 874 DST_A3_OCWSFSBC kg/m2/s 1 A DST_A3_OCW wet deposition flux (belowcloud, convective) at surface 875 DST_A3_OCWSFSBS kg/m2/s 1 A DST_A3_OCW wet deposition flux (belowcloud, stratiform) at surface 876 DST_A3_OCWDDF kg/m2/s 1 A DST_A3_OCW dry deposition flux at bottom (grav + turb) 877 DST_A3_OCWTBF kg/m2/s 1 A DST_A3_OCW turbulent dry deposition flux 878 DST_A3_OCWGVF kg/m2/s 1 A DST_A3_OCW gravitational dry deposition flux 879 SS_A1SFWET kg/m2/s 1 A Wet deposition flux at surface 880 SS_A1SFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 881 SS_A1SFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 882 SS_A1SFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 883 SS_A1SFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 884 SS_A1WET kg/kg/s 58 A wet deposition tendency 885 SS_A1SIC kg/kg/s 58 A SS_A1 ic wet deposition 886 SS_A1SIS kg/kg/s 58 A SS_A1 is wet deposition 887 SS_A1SBC kg/kg/s 58 A SS_A1 bc wet deposition 888 SS_A1SBS kg/kg/s 58 A SS_A1 bs wet deposition 889 SS_A1DDF kg/m2/s 1 A SS_A1 dry deposition flux at bottom (grav + turb) 890 SS_A1TBF kg/m2/s 1 A SS_A1 turbulent dry deposition flux 891 SS_A1GVF kg/m2/s 1 A SS_A1 gravitational dry deposition flux 892 SS_A1DTQ kg/kg/s 58 A SS_A1 dry deposition 893 SS_A1DDV m/s 58 A SS_A1 deposition velocity 894 SS_A1_OCWSFWET kg/m2/s 1 A SS_A1_OCW wet deposition flux at surface 895 SS_A1_OCWSFSIC kg/m2/s 1 A SS_A1_OCW wet deposition flux (incloud, convective) at surface 896 SS_A1_OCWSFSIS kg/m2/s 1 A SS_A1_OCW wet deposition flux (incloud, stratiform) at surface 897 SS_A1_OCWSFSBC kg/m2/s 1 A SS_A1_OCW wet deposition flux (belowcloud, convective) at surface 898 SS_A1_OCWSFSBS kg/m2/s 1 A SS_A1_OCW wet deposition flux (belowcloud, stratiform) at surface 899 SS_A1_OCWDDF kg/m2/s 1 A SS_A1_OCW dry deposition flux at bottom (grav + turb) 900 SS_A1_OCWTBF kg/m2/s 1 A SS_A1_OCW turbulent dry deposition flux 901 SS_A1_OCWGVF kg/m2/s 1 A SS_A1_OCW gravitational dry deposition flux 902 SS_A2SFWET kg/m2/s 1 A Wet deposition flux at surface 903 SS_A2SFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 904 SS_A2SFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 905 SS_A2SFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 906 SS_A2SFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 907 SS_A2WET kg/kg/s 58 A wet deposition tendency 908 SS_A2SIC kg/kg/s 58 A SS_A2 ic wet deposition 909 SS_A2SIS kg/kg/s 58 A SS_A2 is wet deposition 910 SS_A2SBC kg/kg/s 58 A SS_A2 bc wet deposition 911 SS_A2SBS kg/kg/s 58 A SS_A2 bs wet deposition 912 SS_A2DDF kg/m2/s 1 A SS_A2 dry deposition flux at bottom (grav + turb) 913 SS_A2TBF kg/m2/s 1 A SS_A2 turbulent dry deposition flux 914 SS_A2GVF kg/m2/s 1 A SS_A2 gravitational dry deposition flux 915 SS_A2DTQ kg/kg/s 58 A SS_A2 dry deposition 916 SS_A2DDV m/s 58 A SS_A2 deposition velocity 917 SS_A2_OCWSFWET kg/m2/s 1 A SS_A2_OCW wet deposition flux at surface 918 SS_A2_OCWSFSIC kg/m2/s 1 A SS_A2_OCW wet deposition flux (incloud, convective) at surface 919 SS_A2_OCWSFSIS kg/m2/s 1 A SS_A2_OCW wet deposition flux (incloud, stratiform) at surface 920 SS_A2_OCWSFSBC kg/m2/s 1 A SS_A2_OCW wet deposition flux (belowcloud, convective) at surface 921 SS_A2_OCWSFSBS kg/m2/s 1 A SS_A2_OCW wet deposition flux (belowcloud, stratiform) at surface 922 SS_A2_OCWDDF kg/m2/s 1 A SS_A2_OCW dry deposition flux at bottom (grav + turb) 923 SS_A2_OCWTBF kg/m2/s 1 A SS_A2_OCW turbulent dry deposition flux 924 SS_A2_OCWGVF kg/m2/s 1 A SS_A2_OCW gravitational dry deposition flux 925 SS_A3SFWET kg/m2/s 1 A Wet deposition flux at surface 926 SS_A3SFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 927 SS_A3SFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 928 SS_A3SFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 929 SS_A3SFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 930 SS_A3WET kg/kg/s 58 A wet deposition tendency 931 SS_A3SIC kg/kg/s 58 A SS_A3 ic wet deposition 932 SS_A3SIS kg/kg/s 58 A SS_A3 is wet deposition 933 SS_A3SBC kg/kg/s 58 A SS_A3 bc wet deposition 934 SS_A3SBS kg/kg/s 58 A SS_A3 bs wet deposition 935 SS_A3DDF kg/m2/s 1 A SS_A3 dry deposition flux at bottom (grav + turb) 936 SS_A3TBF kg/m2/s 1 A SS_A3 turbulent dry deposition flux 937 SS_A3GVF kg/m2/s 1 A SS_A3 gravitational dry deposition flux 938 SS_A3DTQ kg/kg/s 58 A SS_A3 dry deposition 939 SS_A3DDV m/s 58 A SS_A3 deposition velocity 940 SS_A3_OCWSFWET kg/m2/s 1 A SS_A3_OCW wet deposition flux at surface 941 SS_A3_OCWSFSIC kg/m2/s 1 A SS_A3_OCW wet deposition flux (incloud, convective) at surface 942 SS_A3_OCWSFSIS kg/m2/s 1 A SS_A3_OCW wet deposition flux (incloud, stratiform) at surface 943 SS_A3_OCWSFSBC kg/m2/s 1 A SS_A3_OCW wet deposition flux (belowcloud, convective) at surface 944 SS_A3_OCWSFSBS kg/m2/s 1 A SS_A3_OCW wet deposition flux (belowcloud, stratiform) at surface 945 SS_A3_OCWDDF kg/m2/s 1 A SS_A3_OCW dry deposition flux at bottom (grav + turb) 946 SS_A3_OCWTBF kg/m2/s 1 A SS_A3_OCW turbulent dry deposition flux 947 SS_A3_OCWGVF kg/m2/s 1 A SS_A3_OCW gravitational dry deposition flux 948 BC_NSFWET kg/m2/s 1 A Wet deposition flux at surface 949 BC_NSFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 950 BC_NSFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 951 BC_NSFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 952 BC_NSFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 953 BC_NWET kg/kg/s 58 A wet deposition tendency 954 BC_NSIC kg/kg/s 58 A BC_N ic wet deposition 955 BC_NSIS kg/kg/s 58 A BC_N is wet deposition 956 BC_NSBC kg/kg/s 58 A BC_N bc wet deposition 957 BC_NSBS kg/kg/s 58 A BC_N bs wet deposition 958 BC_NDDF kg/m2/s 1 A BC_N dry deposition flux at bottom (grav + turb) 959 BC_NTBF kg/m2/s 1 A BC_N turbulent dry deposition flux 960 BC_NGVF kg/m2/s 1 A BC_N gravitational dry deposition flux 961 BC_NDTQ kg/kg/s 58 A BC_N dry deposition 962 BC_NDDV m/s 58 A BC_N deposition velocity 963 BC_N_OCWSFWET kg/m2/s 1 A BC_N_OCW wet deposition flux at surface 964 BC_N_OCWSFSIC kg/m2/s 1 A BC_N_OCW wet deposition flux (incloud, convective) at surface 965 BC_N_OCWSFSIS kg/m2/s 1 A BC_N_OCW wet deposition flux (incloud, stratiform) at surface 966 BC_N_OCWSFSBC kg/m2/s 1 A BC_N_OCW wet deposition flux (belowcloud, convective) at surface 967 BC_N_OCWSFSBS kg/m2/s 1 A BC_N_OCW wet deposition flux (belowcloud, stratiform) at surface 968 BC_N_OCWDDF kg/m2/s 1 A BC_N_OCW dry deposition flux at bottom (grav + turb) 969 BC_N_OCWTBF kg/m2/s 1 A BC_N_OCW turbulent dry deposition flux 970 BC_N_OCWGVF kg/m2/s 1 A BC_N_OCW gravitational dry deposition flux 971 BC_NISFWET kg/m2/s 1 A Wet deposition flux at surface 972 BC_NISFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 973 BC_NISFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 974 BC_NISFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 975 BC_NISFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 976 BC_NIWET kg/kg/s 58 A wet deposition tendency 977 BC_NISIC kg/kg/s 58 A BC_NI ic wet deposition 978 BC_NISIS kg/kg/s 58 A BC_NI is wet deposition 979 BC_NISBC kg/kg/s 58 A BC_NI bc wet deposition 980 BC_NISBS kg/kg/s 58 A BC_NI bs wet deposition 981 BC_NIDDF kg/m2/s 1 A BC_NI dry deposition flux at bottom (grav + turb) 982 BC_NITBF kg/m2/s 1 A BC_NI turbulent dry deposition flux 983 BC_NIGVF kg/m2/s 1 A BC_NI gravitational dry deposition flux 984 BC_NIDTQ kg/kg/s 58 A BC_NI dry deposition 985 BC_NIDDV m/s 58 A BC_NI deposition velocity 986 BC_NI_OCWSFWET kg/m2/s 1 A BC_NI_OCW wet deposition flux at surface 987 BC_NI_OCWSFSIC kg/m2/s 1 A BC_NI_OCW wet deposition flux (incloud, convective) at surface 988 BC_NI_OCWSFSIS kg/m2/s 1 A BC_NI_OCW wet deposition flux (incloud, stratiform) at surface 989 BC_NI_OCWSFSBC kg/m2/s 1 A BC_NI_OCW wet deposition flux (belowcloud, convective) at surface 990 BC_NI_OCWSFSBS kg/m2/s 1 A BC_NI_OCW wet deposition flux (belowcloud, stratiform) at surface 991 BC_NI_OCWDDF kg/m2/s 1 A BC_NI_OCW dry deposition flux at bottom (grav + turb) 992 BC_NI_OCWTBF kg/m2/s 1 A BC_NI_OCW turbulent dry deposition flux 993 BC_NI_OCWGVF kg/m2/s 1 A BC_NI_OCW gravitational dry deposition flux 994 OM_NISFWET kg/m2/s 1 A Wet deposition flux at surface 995 OM_NISFSIC kg/m2/s 1 A Wet deposition flux (incloud, convective) at surface 996 OM_NISFSIS kg/m2/s 1 A Wet deposition flux (incloud, stratiform) at surface 997 OM_NISFSBC kg/m2/s 1 A Wet deposition flux (belowcloud, convective) at surface 998 OM_NISFSBS kg/m2/s 1 A Wet deposition flux (belowcloud, stratiform) at surface 999 OM_NIWET kg/kg/s 58 A wet deposition tendency 1000 OM_NISIC kg/kg/s 58 A OM_NI ic wet deposition 1001 OM_NISIS kg/kg/s 58 A OM_NI is wet deposition 1002 OM_NISBC kg/kg/s 58 A OM_NI bc wet deposition 1003 OM_NISBS kg/kg/s 58 A OM_NI bs wet deposition 1004 OM_NIDDF kg/m2/s 1 A OM_NI dry deposition flux at bottom (grav + turb) 1005 OM_NITBF kg/m2/s 1 A OM_NI turbulent dry deposition flux 1006 OM_NIGVF kg/m2/s 1 A OM_NI gravitational dry deposition flux 1007 OM_NIDTQ kg/kg/s 58 A OM_NI dry deposition 1008 OM_NIDDV m/s 58 A OM_NI deposition velocity 1009 OM_NI_OCWSFWET kg/m2/s 1 A OM_NI_OCW wet deposition flux at surface 1010 OM_NI_OCWSFSIC kg/m2/s 1 A OM_NI_OCW wet deposition flux (incloud, convective) at surface 1011 OM_NI_OCWSFSIS kg/m2/s 1 A OM_NI_OCW wet deposition flux (incloud, stratiform) at surface 1012 OM_NI_OCWSFSBC kg/m2/s 1 A OM_NI_OCW wet deposition flux (belowcloud, convective) at surface 1013 OM_NI_OCWSFSBS kg/m2/s 1 A OM_NI_OCW wet deposition flux (belowcloud, stratiform) at surface 1014 OM_NI_OCWDDF kg/m2/s 1 A OM_NI_OCW dry deposition flux at bottom (grav + turb) 1015 OM_NI_OCWTBF kg/m2/s 1 A OM_NI_OCW turbulent dry deposition flux 1016 OM_NI_OCWGVF kg/m2/s 1 A OM_NI_OCW gravitational dry deposition flux 1017 dry_SULFATE kg/m2/s 1 A SULFATE dry deposition flux at bottom (grav + turb) 1018 wet_SULFATE kg/m2/s 1 A SULFATE wet deposition flux at surface 1019 dry_SULFATE_S kg*S/m2/s 1 A SULFATE dry deposition flux at bottom (grav + turb), sulfur mass only 1020 wet_SULFATE_S kg*S/m2/s 1 A SULFATE wet deposition flux at surface, sulfur mass only 1021 wd_a_h2so4_debug kg*S/m2/s 1 A wd_a_h2so4_debug - used to debug in-model summation of sulfur mass in aerosols 1022 dry_BC kg/m2/s 1 A BC dry deposition flux at bottom (grav + turb) 1023 wet_BC kg/m2/s 1 A BC wet deposition flux at surface 1024 dry_OM kg/m2/s 1 A OM dry deposition flux at bottom (grav + turb) 1025 wet_OM kg/m2/s 1 A OM wet deposition flux at surface 1026 dry_DUST kg/m2/s 1 A DUST dry deposition flux at bottom (grav + turb) 1027 wet_DUST kg/m2/s 1 A DUST wet deposition flux at surface 1028 dry_SALT kg/m2/s 1 A SALT dry deposition flux at bottom (grav + turb) 1029 wet_SALT kg/m2/s 1 A SALT wet deposition flux at surface 1030 RAM1 frac 1 A RAM1 1031 airFV frac 1 A FV 1032 GS_SO2 kg/m2/s 1 A SO2 gas chemistry/wet removal (for gas species) 1033 AQ_SO2 kg/m2/s 1 A SO2 aqueous chemistry (for gas species) 1034 GS_H2SO4 kg/m2/s 1 A H2SO4 gas chemistry/wet removal (for gas species) 1035 AQ_H2SO4 kg/m2/s 1 A H2SO4 aqueous chemistry (for gas species) 1036 GS_DMS kg/m2/s 1 A DMS gas chemistry/wet removal (for gas species) 1037 AQ_DMS kg/m2/s 1 A DMS aqueous chemistry (for gas species) 1038 sink_DMS kg/m2/s 1 A DMS sink 1039 sink_DMS_S kg*S/m2/s 1 A DMS sink, sulfur mass only 1040 GS_H2O2 kg/m2/s 1 A H2O2 gas chemistry/wet removal (for gas species) 1041 AQ_H2O2 kg/m2/s 1 A H2O2 aqueous chemistry (for gas species) 1042 GS_SO4_NA kg/m2/s 1 A SO4_NA gas chemistry/wet removal (for gas species) 1043 AQ_SO4_NA kg/m2/s 1 A SO4_NA aqueous chemistry (for gas species) 1044 AQ_SO4_NA_OCW kg/m2/s 1 A SO4_NA aqueous chemistry (for cloud species) 1045 GS_SO4_A1 kg/m2/s 1 A SO4_A1 gas chemistry/wet removal (for gas species) 1046 AQ_SO4_A1 kg/m2/s 1 A SO4_A1 aqueous chemistry (for gas species) 1047 AQ_SO4_A1_OCW kg/m2/s 1 A SO4_A1 aqueous chemistry (for cloud species) 1048 GS_SO4_A2 kg/m2/s 1 A SO4_A2 gas chemistry/wet removal (for gas species) 1049 AQ_SO4_A2 kg/m2/s 1 A SO4_A2 aqueous chemistry (for gas species) 1050 AQ_SO4_A2_OCW kg/m2/s 1 A SO4_A2 aqueous chemistry (for cloud species) 1051 GS_SO4_AC kg/m2/s 1 A SO4_AC gas chemistry/wet removal (for gas species) 1052 AQ_SO4_AC kg/m2/s 1 A SO4_AC aqueous chemistry (for gas species) 1053 AQ_SO4_AC_OCW kg/m2/s 1 A SO4_AC aqueous chemistry (for cloud species) 1054 GS_SO4_PR kg/m2/s 1 A SO4_PR gas chemistry/wet removal (for gas species) 1055 AQ_SO4_PR kg/m2/s 1 A SO4_PR aqueous chemistry (for gas species) 1056 AQ_SO4_PR_OCW kg/m2/s 1 A SO4_PR aqueous chemistry (for cloud species) 1057 GS_BC_N kg/m2/s 1 A BC_N gas chemistry/wet removal (for gas species) 1058 AQ_BC_N kg/m2/s 1 A BC_N aqueous chemistry (for gas species) 1059 AQ_BC_N_OCW kg/m2/s 1 A BC_N aqueous chemistry (for cloud species) 1060 GS_BC_AX kg/m2/s 1 A BC_AX gas chemistry/wet removal (for gas species) 1061 AQ_BC_AX kg/m2/s 1 A BC_AX aqueous chemistry (for gas species) 1062 GS_BC_NI kg/m2/s 1 A BC_NI gas chemistry/wet removal (for gas species) 1063 AQ_BC_NI kg/m2/s 1 A BC_NI aqueous chemistry (for gas species) 1064 AQ_BC_NI_OCW kg/m2/s 1 A BC_NI aqueous chemistry (for cloud species) 1065 GS_BC_A kg/m2/s 1 A BC_A gas chemistry/wet removal (for gas species) 1066 AQ_BC_A kg/m2/s 1 A BC_A aqueous chemistry (for gas species) 1067 AQ_BC_A_OCW kg/m2/s 1 A BC_A aqueous chemistry (for cloud species) 1068 GS_BC_AI kg/m2/s 1 A BC_AI gas chemistry/wet removal (for gas species) 1069 AQ_BC_AI kg/m2/s 1 A BC_AI aqueous chemistry (for gas species) 1070 AQ_BC_AI_OCW kg/m2/s 1 A BC_AI aqueous chemistry (for cloud species) 1071 GS_BC_AC kg/m2/s 1 A BC_AC gas chemistry/wet removal (for gas species) 1072 AQ_BC_AC kg/m2/s 1 A BC_AC aqueous chemistry (for gas species) 1073 AQ_BC_AC_OCW kg/m2/s 1 A BC_AC aqueous chemistry (for cloud species) 1074 GS_OM_NI kg/m2/s 1 A OM_NI gas chemistry/wet removal (for gas species) 1075 AQ_OM_NI kg/m2/s 1 A OM_NI aqueous chemistry (for gas species) 1076 AQ_OM_NI_OCW kg/m2/s 1 A OM_NI aqueous chemistry (for cloud species) 1077 GS_OM_AI kg/m2/s 1 A OM_AI gas chemistry/wet removal (for gas species) 1078 AQ_OM_AI kg/m2/s 1 A OM_AI aqueous chemistry (for gas species) 1079 AQ_OM_AI_OCW kg/m2/s 1 A OM_AI aqueous chemistry (for cloud species) 1080 GS_OM_AC kg/m2/s 1 A OM_AC gas chemistry/wet removal (for gas species) 1081 AQ_OM_AC kg/m2/s 1 A OM_AC aqueous chemistry (for gas species) 1082 AQ_OM_AC_OCW kg/m2/s 1 A OM_AC aqueous chemistry (for cloud species) 1083 GS_DST_A2 kg/m2/s 1 A DST_A2 gas chemistry/wet removal (for gas species) 1084 AQ_DST_A2 kg/m2/s 1 A DST_A2 aqueous chemistry (for gas species) 1085 AQ_DST_A2_OCW kg/m2/s 1 A DST_A2 aqueous chemistry (for cloud species) 1086 GS_DST_A3 kg/m2/s 1 A DST_A3 gas chemistry/wet removal (for gas species) 1087 AQ_DST_A3 kg/m2/s 1 A DST_A3 aqueous chemistry (for gas species) 1088 AQ_DST_A3_OCW kg/m2/s 1 A DST_A3 aqueous chemistry (for cloud species) 1089 GS_SS_A1 kg/m2/s 1 A SS_A1 gas chemistry/wet removal (for gas species) 1090 AQ_SS_A1 kg/m2/s 1 A SS_A1 aqueous chemistry (for gas species) 1091 AQ_SS_A1_OCW kg/m2/s 1 A SS_A1 aqueous chemistry (for cloud species) 1092 GS_SS_A2 kg/m2/s 1 A SS_A2 gas chemistry/wet removal (for gas species) 1093 AQ_SS_A2 kg/m2/s 1 A SS_A2 aqueous chemistry (for gas species) 1094 AQ_SS_A2_OCW kg/m2/s 1 A SS_A2 aqueous chemistry (for cloud species) 1095 GS_SS_A3 kg/m2/s 1 A SS_A3 gas chemistry/wet removal (for gas species) 1096 AQ_SS_A3 kg/m2/s 1 A SS_A3 aqueous chemistry (for gas species) 1097 AQ_SS_A3_OCW kg/m2/s 1 A SS_A3 aqueous chemistry (for cloud species) 1098 GS_SOA_NA kg/m2/s 1 A SOA_NA gas chemistry/wet removal (for gas species) 1099 AQ_SOA_NA kg/m2/s 1 A SOA_NA aqueous chemistry (for gas species) 1100 AQ_SOA_NA_OCW kg/m2/s 1 A SOA_NA aqueous chemistry (for cloud species) 1101 GS_SOA_A1 kg/m2/s 1 A SOA_A1 gas chemistry/wet removal (for gas species) 1102 AQ_SOA_A1 kg/m2/s 1 A SOA_A1 aqueous chemistry (for gas species) 1103 AQ_SOA_A1_OCW kg/m2/s 1 A SOA_A1 aqueous chemistry (for cloud species) 1104 GS_SOA_LV kg/m2/s 1 A SOA_LV gas chemistry/wet removal (for gas species) 1105 AQ_SOA_LV kg/m2/s 1 A SOA_LV aqueous chemistry (for gas species) 1106 GS_SOA_SV kg/m2/s 1 A SOA_SV gas chemistry/wet removal (for gas species) 1107 AQ_SOA_SV kg/m2/s 1 A SOA_SV aqueous chemistry (for gas species) 1108 GS_monoterp kg/m2/s 1 A monoterp gas chemistry/wet removal (for gas species) 1109 AQ_monoterp kg/m2/s 1 A monoterp aqueous chemistry (for gas species) 1110 sink_monoterp kg/m2/s 1 A monoterp sink 1111 GS_isoprene kg/m2/s 1 A isoprene gas chemistry/wet removal (for gas species) 1112 AQ_isoprene kg/m2/s 1 A isoprene aqueous chemistry (for gas species) 1113 sink_isoprene kg/m2/s 1 A isoprene sink 1114 GS_H2O kg/m2/s 1 A H2O gas chemistry/wet removal (for gas species) 1115 AQ_H2O kg/m2/s 1 A H2O aqueous chemistry (for gas species) 1116 NUCLRATE #/cm3/s 58 A Nucleation rate 1117 FORMRATE #/cm3/s 58 A Formation rate of 12nm particles 1118 COAGNUCL /s 58 A Coagulation sink for nucleating particles 1119 GRH2SO4 nm/hour 58 A Growth rate H2SO4 1120 GRSOA nm/hour 58 A Growth rate SOA 1121 GR nm/hour 58 A Growth rate, H2SO4+SOA 1122 NUCLSOA kg/kg 58 A SOA nucleate 1123 ORGNUCL kg/kg 58 A Organic gas available for nucleation 1124 XPH_LWC kg/kg 58 A pH value multiplied by lwc 1125 AQSO4_H2O2 kg/m2/s 1 A SO4 aqueous phase chemistry due to H2O2 1126 AQSO4_O3 kg/m2/s 1 A SO4 aqueous phase chemistry due to O3 1127 HEIGHT m 59 A geopotential height above surface at interfaces (m) 1128 CT_H2O_GHG kg/kg/s 58 A ghg-chem h2o source/sink 1129 U_SRF m/s 1 I bottom layer wind velocity 1130 V_SRF m/s 1 I bottom layer wind velocity 1131 Q_SRF kg/kg 1 I bottom layer specific humidity 1132 extfrc_01 58 I ext frcing 1133 extfrc_02 58 I ext frcing 1134 extfrc_03 58 I ext frcing 1135 extfrc_04 58 I ext frcing 1136 extfrc_05 58 I ext frcing 1137 extfrc_06 58 I ext frcing 1138 extfrc_07 58 I ext frcing 1139 jh2o2 /s 58 I photolysis rate constant 1140 usr_HO2_HO2 cm3/molecules/s 58 I reaction rate constant 1141 usr_DMS_OH cm3/molecules/s 58 I reaction rate constant 1142 QDSAD /s 58 I water vapor sad delta 1143 SAD_STRAT cm2/cm3 58 I stratospheric aerosol SAD 1144 SAD_SULFC cm2/cm3 58 I chemical sulfate aerosol SAD 1145 SAD_SAGE cm2/cm3 58 I SAGE sulfate aerosol SAD 1146 SAD_LNAT cm2/cm3 58 I large-mode NAT aerosol SAD 1147 SAD_ICE cm2/cm3 58 I water-ice aerosol SAD 1148 RAD_SULFC cm 58 I chemical sad sulfate 1149 RAD_LNAT cm 58 I large nat radius 1150 RAD_ICE cm 58 I sad ice 1151 SAD_TROP cm2/cm3 58 I tropospheric aerosol SAD 1152 SAD_AERO cm2/cm3 58 I aerosol surface area density 1153 REFF_AERO cm 58 I aerosol effective radius 1154 REFF_TROP cm 58 I tropospheric aerosol effective radius 1155 REFF_STRAT cm 58 I stratospheric aerosol effective radius 1156 SULF_TROP mol/mol 58 I tropospheric aerosol SAD 1157 QDSETT /s 58 I water vapor settling delta 1158 QDCHEM /s 58 I water vapor chemistry delta 1159 HNO3_TOTAL mol/mol 58 I total HNO3 1160 HNO3_STS mol/mol 58 I STS condensed HNO3 1161 HNO3_NAT mol/mol 58 I NAT condensed HNO3 1162 HNO3_GAS mol/mol 58 I gas-phase hno3 1163 H2O_GAS mol/mol 58 I gas-phase h2o 1164 HCL_TOTAL mol/mol 58 I total hcl 1165 HCL_GAS mol/mol 58 I gas-phase hcl 1166 HCL_STS mol/mol 58 I STS condensed HCL 1167 OH_bef unit 58 A OH invariants before adding diurnal variations 1168 HO2_bef unit 58 A HO2 invariants before adding diurnal variations 1169 NO3_bef unit 58 A NO3 invariants before adding diurnal variations 1170 OH_aft unit 58 A OH invariants after adding diurnal variations 1171 HO2_aft unit 58 A HO2 invariants after adding diurnal variations 1172 NO3_aft unit 58 A NO3 invariants after adding diurnal variations 1173 SZA degrees 1 I solar zenith angle 1174 NOX mol/mol 58 A nox (N+NO+NO2) 1175 NOY mol/mol 58 A noy = total nitrogen (N+NO+NO2+NO3+2N2O5+HNO3+HO2NO2+ORGNOY+NH4NO3) 1176 NOY_SRF mol/mol 1 A surface noy volume mixing ratio 1177 HOX mol/mol 58 A HOx (H+OH+HO2+2H2O2) 1178 BROX mol/mol 58 A brox (Br+BrO+BRCl+HOBr) 1179 BROY mol/mol 58 A total inorganic bromine (Br+BrO+HOBr+BrONO2+HBr+BrCl) 1180 TBRY mol/mol 58 A total Br (ORG+INORG) volume mixing ratio 1181 CLOX mol/mol 58 A clox (Cl+CLO+HOCl+2Cl2+2Cl2O2+OClO) 1182 CLOY mol/mol 58 A total inorganic chlorine (Cl+ClO+2Cl2+2Cl2O2+OClO+HOCl+ClONO2+HCl+BrCl) 1183 TCLY mol/mol 58 A total Cl (ORG+INORG) volume mixing ratio 1184 FOY mol/mol 58 A total inorganic fluorine (F+HF+COFCL+2COF2) 1185 TFY mol/mol 58 A total F (ORG+INORG) volume mixing ratio 1186 TOTH mol/mol 58 A total H2 volume mixing ratio 1187 NOY_mmr kg/kg 58 A NOy mass mixing ratio 1188 SOX_mmr kg/kg 58 A SOx mass mixing ratio 1189 NHX_mmr kg/kg 58 A NHx mass mixing ratio 1190 DO3CHM_TRP kg/s 1 A integrated net tendency from chem in troposphere 1191 DO3CHM_LMS kg/s 1 A integrated net tendency from chem in lowermost stratosphere 1192 DSO2CHM kg/s 58 A net tendency from chem 1193 DV_SO2 cm/s 1 A deposition velocity 1194 DF_SO2 kg/m2/s 1 A dry deposition flux 1195 WD_A_SO2 kg/m2/s 1 A SO2 wet deposition 1196 SO2 mol/mol 58 A SO2 concentration 1197 SO2_SRF mol/mol 1 A SO2 in bottom layer 1198 cb_SO2 kg/m2 1 A cb_SO2 in column 1199 cb_SO2_S kg/m2 1 A cb_SO2 column burden, sulfur mass only 1200 DH2SO4CHM kg/s 58 A net tendency from chem 1201 DV_H2SO4 cm/s 1 A deposition velocity 1202 DF_H2SO4 kg/m2/s 1 A dry deposition flux 1203 WD_A_H2SO4 kg/m2/s 1 A H2SO4 wet deposition 1204 H2SO4 mol/mol 58 A H2SO4 concentration 1205 H2SO4_SRF mol/mol 1 A H2SO4 in bottom layer 1206 cb_H2SO4 kg/m2 1 A cb_H2SO4 in column 1207 DDMSCHM kg/s 58 A net tendency from chem 1208 DV_DMS cm/s 1 A deposition velocity 1209 DF_DMS kg/m2/s 1 A dry deposition flux 1210 WD_A_DMS kg/m2/s 1 A DMS wet deposition 1211 DMS mol/mol 58 A DMS concentration 1212 DMS_SRF mol/mol 1 A DMS in bottom layer 1213 cb_DMS kg/m2 1 A cb_DMS in column 1214 cb_DMS_S kg/m2 1 A cb_DMS column burden, sulfur mass only 1215 DH2O2CHM kg/s 58 A net tendency from chem 1216 DV_H2O2 cm/s 1 A deposition velocity 1217 DF_H2O2 kg/m2/s 1 A dry deposition flux 1218 WD_A_H2O2 kg/m2/s 1 A H2O2 wet deposition 1219 H2O2 mol/mol 58 A H2O2 concentration 1220 H2O2_SRF mol/mol 1 A H2O2 in bottom layer 1221 cb_H2O2 kg/m2 1 A cb_H2O2 in column 1222 DSO4_NACHM kg/s 58 A net tendency from chem 1223 WD_A_SO4_NA kg/m2/s 1 A SO4_NA wet deposition 1224 SO4_NA kg/kg 58 A SO4_NA concentration 1225 SO4_NA_SRF kg/kg 1 A SO4_NA in bottom layer 1226 SO4_NA_OCW kg/kg 58 A SO4_NA_OCW in cloud water 1227 cb_SO4_NA_OCW kg/m2 1 A cb_SO4_NA_OCW column in cloud water 1228 cb_SO4_NA kg/m2 1 A cb_SO4_NA in column 1229 DSO4_A1CHM kg/s 58 A net tendency from chem 1230 WD_A_SO4_A1 kg/m2/s 1 A SO4_A1 wet deposition 1231 SO4_A1 kg/kg 58 A SO4_A1 concentration 1232 SO4_A1_SRF kg/kg 1 A SO4_A1 in bottom layer 1233 SO4_A1_OCW kg/kg 58 A SO4_A1_OCW in cloud water 1234 cb_SO4_A1_OCW kg/m2 1 A cb_SO4_A1_OCW column in cloud water 1235 cb_SO4_A1 kg/m2 1 A cb_SO4_A1 in column 1236 DSO4_A2CHM kg/s 58 A net tendency from chem 1237 WD_A_SO4_A2 kg/m2/s 1 A SO4_A2 wet deposition 1238 SO4_A2 kg/kg 58 A SO4_A2 concentration 1239 SO4_A2_SRF kg/kg 1 A SO4_A2 in bottom layer 1240 SO4_A2_OCW kg/kg 58 A SO4_A2_OCW in cloud water 1241 cb_SO4_A2_OCW kg/m2 1 A cb_SO4_A2_OCW column in cloud water 1242 cb_SO4_A2 kg/m2 1 A cb_SO4_A2 in column 1243 DSO4_ACCHM kg/s 58 A net tendency from chem 1244 WD_A_SO4_AC kg/m2/s 1 A SO4_AC wet deposition 1245 SO4_AC kg/kg 58 A SO4_AC concentration 1246 SO4_AC_SRF kg/kg 1 A SO4_AC in bottom layer 1247 SO4_AC_OCW kg/kg 58 A SO4_AC_OCW in cloud water 1248 cb_SO4_AC_OCW kg/m2 1 A cb_SO4_AC_OCW column in cloud water 1249 cb_SO4_AC kg/m2 1 A cb_SO4_AC in column 1250 DSO4_PRCHM kg/s 58 A net tendency from chem 1251 WD_A_SO4_PR kg/m2/s 1 A SO4_PR wet deposition 1252 SO4_PR kg/kg 58 A SO4_PR concentration 1253 SO4_PR_SRF kg/kg 1 A SO4_PR in bottom layer 1254 SO4_PR_OCW kg/kg 58 A SO4_PR_OCW in cloud water 1255 cb_SO4_PR_OCW kg/m2 1 A cb_SO4_PR_OCW column in cloud water 1256 cb_SO4_PR kg/m2 1 A cb_SO4_PR in column 1257 DBC_NCHM kg/s 58 A net tendency from chem 1258 WD_A_BC_N kg/m2/s 1 A BC_N wet deposition 1259 BC_N kg/kg 58 A BC_N concentration 1260 BC_N_SRF kg/kg 1 A BC_N in bottom layer 1261 BC_N_OCW kg/kg 58 A BC_N_OCW in cloud water 1262 cb_BC_N_OCW kg/m2 1 A cb_BC_N_OCW column in cloud water 1263 cb_BC_N kg/m2 1 A cb_BC_N in column 1264 DBC_AXCHM kg/s 58 A net tendency from chem 1265 WD_A_BC_AX kg/m2/s 1 A BC_AX wet deposition 1266 BC_AX kg/kg 58 A BC_AX concentration 1267 BC_AX_SRF kg/kg 1 A BC_AX in bottom layer 1268 cb_BC_AX kg/m2 1 A cb_BC_AX in column 1269 DBC_NICHM kg/s 58 A net tendency from chem 1270 WD_A_BC_NI kg/m2/s 1 A BC_NI wet deposition 1271 BC_NI kg/kg 58 A BC_NI concentration 1272 BC_NI_SRF kg/kg 1 A BC_NI in bottom layer 1273 BC_NI_OCW kg/kg 58 A BC_NI_OCW in cloud water 1274 cb_BC_NI_OCW kg/m2 1 A cb_BC_NI_OCW column in cloud water 1275 cb_BC_NI kg/m2 1 A cb_BC_NI in column 1276 DBC_ACHM kg/s 58 A net tendency from chem 1277 WD_A_BC_A kg/m2/s 1 A BC_A wet deposition 1278 BC_A kg/kg 58 A BC_A concentration 1279 BC_A_SRF kg/kg 1 A BC_A in bottom layer 1280 BC_A_OCW kg/kg 58 A BC_A_OCW in cloud water 1281 cb_BC_A_OCW kg/m2 1 A cb_BC_A_OCW column in cloud water 1282 cb_BC_A kg/m2 1 A cb_BC_A in column 1283 DBC_AICHM kg/s 58 A net tendency from chem 1284 WD_A_BC_AI kg/m2/s 1 A BC_AI wet deposition 1285 BC_AI kg/kg 58 A BC_AI concentration 1286 BC_AI_SRF kg/kg 1 A BC_AI in bottom layer 1287 BC_AI_OCW kg/kg 58 A BC_AI_OCW in cloud water 1288 cb_BC_AI_OCW kg/m2 1 A cb_BC_AI_OCW column in cloud water 1289 cb_BC_AI kg/m2 1 A cb_BC_AI in column 1290 DBC_ACCHM kg/s 58 A net tendency from chem 1291 WD_A_BC_AC kg/m2/s 1 A BC_AC wet deposition 1292 BC_AC kg/kg 58 A BC_AC concentration 1293 BC_AC_SRF kg/kg 1 A BC_AC in bottom layer 1294 BC_AC_OCW kg/kg 58 A BC_AC_OCW in cloud water 1295 cb_BC_AC_OCW kg/m2 1 A cb_BC_AC_OCW column in cloud water 1296 cb_BC_AC kg/m2 1 A cb_BC_AC in column 1297 DOM_NICHM kg/s 58 A net tendency from chem 1298 WD_A_OM_NI kg/m2/s 1 A OM_NI wet deposition 1299 OM_NI kg/kg 58 A OM_NI concentration 1300 OM_NI_SRF kg/kg 1 A OM_NI in bottom layer 1301 OM_NI_OCW kg/kg 58 A OM_NI_OCW in cloud water 1302 cb_OM_NI_OCW kg/m2 1 A cb_OM_NI_OCW column in cloud water 1303 cb_OM_NI kg/m2 1 A cb_OM_NI in column 1304 DOM_AICHM kg/s 58 A net tendency from chem 1305 WD_A_OM_AI kg/m2/s 1 A OM_AI wet deposition 1306 OM_AI kg/kg 58 A OM_AI concentration 1307 OM_AI_SRF kg/kg 1 A OM_AI in bottom layer 1308 OM_AI_OCW kg/kg 58 A OM_AI_OCW in cloud water 1309 cb_OM_AI_OCW kg/m2 1 A cb_OM_AI_OCW column in cloud water 1310 cb_OM_AI kg/m2 1 A cb_OM_AI in column 1311 DOM_ACCHM kg/s 58 A net tendency from chem 1312 WD_A_OM_AC kg/m2/s 1 A OM_AC wet deposition 1313 OM_AC kg/kg 58 A OM_AC concentration 1314 OM_AC_SRF kg/kg 1 A OM_AC in bottom layer 1315 OM_AC_OCW kg/kg 58 A OM_AC_OCW in cloud water 1316 cb_OM_AC_OCW kg/m2 1 A cb_OM_AC_OCW column in cloud water 1317 cb_OM_AC kg/m2 1 A cb_OM_AC in column 1318 DDST_A2CHM kg/s 58 A net tendency from chem 1319 WD_A_DST_A2 kg/m2/s 1 A DST_A2 wet deposition 1320 DST_A2 kg/kg 58 A DST_A2 concentration 1321 DST_A2_SRF kg/kg 1 A DST_A2 in bottom layer 1322 DST_A2_OCW kg/kg 58 A DST_A2_OCW in cloud water 1323 cb_DST_A2_OCW kg/m2 1 A cb_DST_A2_OCW column in cloud water 1324 cb_DST_A2 kg/m2 1 A cb_DST_A2 in column 1325 DDST_A3CHM kg/s 58 A net tendency from chem 1326 WD_A_DST_A3 kg/m2/s 1 A DST_A3 wet deposition 1327 DST_A3 kg/kg 58 A DST_A3 concentration 1328 DST_A3_SRF kg/kg 1 A DST_A3 in bottom layer 1329 DST_A3_OCW kg/kg 58 A DST_A3_OCW in cloud water 1330 cb_DST_A3_OCW kg/m2 1 A cb_DST_A3_OCW column in cloud water 1331 cb_DST_A3 kg/m2 1 A cb_DST_A3 in column 1332 DSS_A1CHM kg/s 58 A net tendency from chem 1333 WD_A_SS_A1 kg/m2/s 1 A SS_A1 wet deposition 1334 SS_A1 kg/kg 58 A SS_A1 concentration 1335 SS_A1_SRF kg/kg 1 A SS_A1 in bottom layer 1336 SS_A1_OCW kg/kg 58 A SS_A1_OCW in cloud water 1337 cb_SS_A1_OCW kg/m2 1 A cb_SS_A1_OCW column in cloud water 1338 cb_SS_A1 kg/m2 1 A cb_SS_A1 in column 1339 DSS_A2CHM kg/s 58 A net tendency from chem 1340 WD_A_SS_A2 kg/m2/s 1 A SS_A2 wet deposition 1341 SS_A2 kg/kg 58 A SS_A2 concentration 1342 SS_A2_SRF kg/kg 1 A SS_A2 in bottom layer 1343 SS_A2_OCW kg/kg 58 A SS_A2_OCW in cloud water 1344 cb_SS_A2_OCW kg/m2 1 A cb_SS_A2_OCW column in cloud water 1345 cb_SS_A2 kg/m2 1 A cb_SS_A2 in column 1346 DSS_A3CHM kg/s 58 A net tendency from chem 1347 WD_A_SS_A3 kg/m2/s 1 A SS_A3 wet deposition 1348 SS_A3 kg/kg 58 A SS_A3 concentration 1349 SS_A3_SRF kg/kg 1 A SS_A3 in bottom layer 1350 SS_A3_OCW kg/kg 58 A SS_A3_OCW in cloud water 1351 cb_SS_A3_OCW kg/m2 1 A cb_SS_A3_OCW column in cloud water 1352 cb_SS_A3 kg/m2 1 A cb_SS_A3 in column 1353 DSOA_NACHM kg/s 58 A net tendency from chem 1354 WD_A_SOA_NA kg/m2/s 1 A SOA_NA wet deposition 1355 SOA_NA kg/kg 58 A SOA_NA concentration 1356 SOA_NA_SRF kg/kg 1 A SOA_NA in bottom layer 1357 SOA_NA_OCW kg/kg 58 A SOA_NA_OCW in cloud water 1358 cb_SOA_NA_OCW kg/m2 1 A cb_SOA_NA_OCW column in cloud water 1359 cb_SOA_NA kg/m2 1 A cb_SOA_NA in column 1360 DSOA_A1CHM kg/s 58 A net tendency from chem 1361 WD_A_SOA_A1 kg/m2/s 1 A SOA_A1 wet deposition 1362 SOA_A1 kg/kg 58 A SOA_A1 concentration 1363 SOA_A1_SRF kg/kg 1 A SOA_A1 in bottom layer 1364 SOA_A1_OCW kg/kg 58 A SOA_A1_OCW in cloud water 1365 cb_SOA_A1_OCW kg/m2 1 A cb_SOA_A1_OCW column in cloud water 1366 cb_SOA_A1 kg/m2 1 A cb_SOA_A1 in column 1367 DSOA_LVCHM kg/s 58 A net tendency from chem 1368 WD_A_SOA_LV kg/m2/s 1 A SOA_LV wet deposition 1369 SOA_LV mol/mol 58 A SOA_LV concentration 1370 SOA_LV_SRF mol/mol 1 A SOA_LV in bottom layer 1371 cb_SOA_LV kg/m2 1 A cb_SOA_LV in column 1372 DSOA_SVCHM kg/s 58 A net tendency from chem 1373 WD_A_SOA_SV kg/m2/s 1 A SOA_SV wet deposition 1374 SOA_SV mol/mol 58 A SOA_SV concentration 1375 SOA_SV_SRF mol/mol 1 A SOA_SV in bottom layer 1376 cb_SOA_SV kg/m2 1 A cb_SOA_SV in column 1377 DmonoterpCHM kg/s 58 A net tendency from chem 1378 WD_A_monoterp kg/m2/s 1 A monoterp wet deposition 1379 monoterp mol/mol 58 A monoterp concentration 1380 monoterp_SRF mol/mol 1 A monoterp in bottom layer 1381 cb_monoterp kg/m2 1 A cb_monoterp in column 1382 DisopreneCHM kg/s 58 A net tendency from chem 1383 WD_A_isoprene kg/m2/s 1 A isoprene wet deposition 1384 isoprene mol/mol 58 A isoprene concentration 1385 isoprene_SRF mol/mol 1 A isoprene in bottom layer 1386 cb_isoprene kg/m2 1 A cb_isoprene in column 1387 DH2OCHM kg/s 58 A net tendency from chem 1388 WD_A_H2O kg/m2/s 1 A H2O wet deposition 1389 H2O mol/mol 58 A water vapor concentration 1390 H2O_SRF mol/mol 1 A water vapor in bottom layer 1391 MASS kg 58 A mass of grid box 1392 AREA m2 1 A area of grid box 1393 cb_SULFATE kg/m2 1 A cb_SULFATE column burden of aerosol type 1394 cb_SULFATE_S kg/m2 1 A cb_SULFATE column burden of aerosol, sulfur mass only 1395 mmr_SULFATE kg/kg 58 A mmr_SULFATE mmr of aerosol type 1396 cb_BC kg/m2 1 A cb_BC column burden of aerosol type 1397 mmr_BC kg/kg 58 A mmr_BC mmr of aerosol type 1398 cb_OM kg/m2 1 A cb_OM column burden of aerosol type 1399 mmr_OM kg/kg 58 A mmr_OM mmr of aerosol type 1400 cb_DUST kg/m2 1 A cb_DUST column burden of aerosol type 1401 mmr_DUST kg/kg 58 A mmr_DUST mmr of aerosol type 1402 cb_SALT kg/m2 1 A cb_SALT column burden of aerosol type 1403 mmr_SALT kg/kg 58 A mmr_SALT mmr of aerosol type 1404 dry_deposition_NOy_as_N kg/m2/s 1 I NOy dry deposition flux 1405 DF_SOX kg/m2/s 1 I SOx dry deposition flux 1406 dry_deposition_NHx_as_N kg/m2/s 1 I NHx dry deposition flux 1407 wet_deposition_NOy_as_N kg/m2/s 1 A NOy wet deposition 1408 wet_deposition_NHx_as_N kg/m2/s 1 A NHx wet deposition 1409 r_jh2o2 molecules/cm3/se 58 A reaction rate 1410 r_HO2_HO2 molecules/cm3/se 58 A reaction rate 1411 r_DMS_OH molecules/cm3/se 58 A reaction rate 1412 GAMMA_HET1 1 58 I Reaction Probability 1413 GAMMA_HET2 1 58 I Reaction Probability 1414 GAMMA_HET3 1 58 I Reaction Probability 1415 GAMMA_HET4 1 58 I Reaction Probability 1416 GAMMA_HET5 1 58 I Reaction Probability 1417 GAMMA_HET6 1 58 I Reaction Probability 1418 WTPER % 58 I H2SO4 Weight Percent 1419 O3S_LOSS 1/sec 58 I O3S loss rate const 1420 DMS_CHMP /cm3/s 58 I chemical production rate 1421 DMS_CHML /cm3/s 58 I chemical loss rate 1422 SO2_CHMP /cm3/s 58 I chemical production rate 1423 SO2_CHML /cm3/s 58 I chemical loss rate 1424 H2O2_CHMP /cm3/s 58 I chemical production rate 1425 H2O2_CHML /cm3/s 58 I chemical loss rate 1426 SO4_NA_CHMP /cm3/s 58 I chemical production rate 1427 SO4_NA_CHML /cm3/s 58 I chemical loss rate 1428 SO4_A1_CHMP /cm3/s 58 I chemical production rate 1429 SO4_A1_CHML /cm3/s 58 I chemical loss rate 1430 SO4_A2_CHMP /cm3/s 58 I chemical production rate 1431 SO4_A2_CHML /cm3/s 58 I chemical loss rate 1432 SO4_AC_CHMP /cm3/s 58 I chemical production rate 1433 SO4_AC_CHML /cm3/s 58 I chemical loss rate 1434 SO4_PR_CHMP /cm3/s 58 I chemical production rate 1435 SO4_PR_CHML /cm3/s 58 I chemical loss rate 1436 BC_N_CHMP /cm3/s 58 I chemical production rate 1437 BC_N_CHML /cm3/s 58 I chemical loss rate 1438 BC_AX_CHMP /cm3/s 58 I chemical production rate 1439 BC_AX_CHML /cm3/s 58 I chemical loss rate 1440 BC_NI_CHMP /cm3/s 58 I chemical production rate 1441 BC_NI_CHML /cm3/s 58 I chemical loss rate 1442 BC_A_CHMP /cm3/s 58 I chemical production rate 1443 BC_A_CHML /cm3/s 58 I chemical loss rate 1444 BC_AI_CHMP /cm3/s 58 I chemical production rate 1445 BC_AI_CHML /cm3/s 58 I chemical loss rate 1446 BC_AC_CHMP /cm3/s 58 I chemical production rate 1447 BC_AC_CHML /cm3/s 58 I chemical loss rate 1448 OM_NI_CHMP /cm3/s 58 I chemical production rate 1449 OM_NI_CHML /cm3/s 58 I chemical loss rate 1450 OM_AI_CHMP /cm3/s 58 I chemical production rate 1451 OM_AI_CHML /cm3/s 58 I chemical loss rate 1452 OM_AC_CHMP /cm3/s 58 I chemical production rate 1453 OM_AC_CHML /cm3/s 58 I chemical loss rate 1454 DST_A2_CHMP /cm3/s 58 I chemical production rate 1455 DST_A2_CHML /cm3/s 58 I chemical loss rate 1456 DST_A3_CHMP /cm3/s 58 I chemical production rate 1457 DST_A3_CHML /cm3/s 58 I chemical loss rate 1458 SS_A1_CHMP /cm3/s 58 I chemical production rate 1459 SS_A1_CHML /cm3/s 58 I chemical loss rate 1460 SS_A2_CHMP /cm3/s 58 I chemical production rate 1461 SS_A2_CHML /cm3/s 58 I chemical loss rate 1462 SS_A3_CHMP /cm3/s 58 I chemical production rate 1463 SS_A3_CHML /cm3/s 58 I chemical loss rate 1464 H2SO4_CHMP /cm3/s 58 I chemical production rate 1465 H2SO4_CHML /cm3/s 58 I chemical loss rate 1466 SOA_NA_CHMP /cm3/s 58 I chemical production rate 1467 SOA_NA_CHML /cm3/s 58 I chemical loss rate 1468 SOA_A1_CHMP /cm3/s 58 I chemical production rate 1469 SOA_A1_CHML /cm3/s 58 I chemical loss rate 1470 SOA_LV_CHMP /cm3/s 58 I chemical production rate 1471 SOA_LV_CHML /cm3/s 58 I chemical loss rate 1472 SOA_SV_CHMP /cm3/s 58 I chemical production rate 1473 SOA_SV_CHML /cm3/s 58 I chemical loss rate 1474 monoterp_CHMP /cm3/s 58 I chemical production rate 1475 monoterp_CHML /cm3/s 58 I chemical loss rate 1476 isoprene_CHMP /cm3/s 58 I chemical production rate 1477 isoprene_CHML /cm3/s 58 I chemical loss rate 1478 H2O_CHMP /cm3/s 58 I chemical production rate 1479 H2O_CHML /cm3/s 58 I chemical loss rate 1480 H_PEROX_CHMP /cm3/s 58 I total ROOH production rate 1481 M_dens molecules/cm3 58 A invariant density 1482 M_vmr mole/mole 58 A invariant density 1483 N2_dens molecules/cm3 58 A invariant density 1484 N2_vmr mole/mole 58 A invariant density 1485 O2_dens molecules/cm3 58 A invariant density 1486 O2_vmr mole/mole 58 A invariant density 1487 O3_dens molecules/cm3 58 A invariant density 1488 O3_vmr mole/mole 58 A invariant density 1489 OH_dens molecules/cm3 58 A invariant density 1490 OH_vmr mole/mole 58 A invariant density 1491 NO3_dens molecules/cm3 58 A invariant density 1492 NO3_vmr mole/mole 58 A invariant density 1493 HO2_dens molecules/cm3 58 A invariant density 1494 HO2_vmr mole/mole 58 A invariant density 1495 O3 mol/mol 58 I prescribed tracer constituent 1496 OH mol/mol 58 I prescribed tracer constituent 1497 NO3 mol/mol 58 I prescribed tracer constituent 1498 HO2 mol/mol 58 I prescribed tracer constituent 1499 NO_Lightning molec/cm3/s 58 A lightning NO source 1500 NO_Aircraft molec/cm3/s 58 A aircraft NO source 1501 CO_Aircraft molec/cm3/s 58 A aircraft CO source 1502 EPP_ionpairs pairs/cm3/s 58 A EPP ionization forcing 1503 GCR_ionpairs pairs/cm3/s 58 A GCR ionization forcing 1504 SO2_XFRC molec/cm3/s 58 A external forcing for SO2 1505 SO2_CLXF molec/cm2/s 1 A vertically intergrated external forcing for SO2 1506 SO2_CMXF kg/m2/s 1 A vertically intergrated external forcing for SO2 1507 BC_NI_XFRC molec/cm3/s 58 A external forcing for BC_NI 1508 BC_NI_CLXF molec/cm2/s 1 A vertically intergrated external forcing for BC_NI 1509 BC_NI_CMXF kg/m2/s 1 A vertically intergrated external forcing for BC_NI 1510 BC_AX_XFRC molec/cm3/s 58 A external forcing for BC_AX 1511 BC_AX_CLXF molec/cm2/s 1 A vertically intergrated external forcing for BC_AX 1512 BC_AX_CMXF kg/m2/s 1 A vertically intergrated external forcing for BC_AX 1513 BC_N_XFRC molec/cm3/s 58 A external forcing for BC_N 1514 BC_N_CLXF molec/cm2/s 1 A vertically intergrated external forcing for BC_N 1515 BC_N_CMXF kg/m2/s 1 A vertically intergrated external forcing for BC_N 1516 OM_NI_XFRC molec/cm3/s 58 A external forcing for OM_NI 1517 OM_NI_CLXF molec/cm2/s 1 A vertically intergrated external forcing for OM_NI 1518 OM_NI_CMXF kg/m2/s 1 A vertically intergrated external forcing for OM_NI 1519 SO4_PR_XFRC molec/cm3/s 58 A external forcing for SO4_PR 1520 SO4_PR_CLXF molec/cm2/s 1 A vertically intergrated external forcing for SO4_PR 1521 SO4_PR_CMXF kg/m2/s 1 A vertically intergrated external forcing for SO4_PR 1522 H2O_XFRC molec/cm3/s 58 A external forcing for H2O 1523 H2O_CLXF molec/cm2/s 1 A vertically intergrated external forcing for H2O 1524 H2O_CMXF kg/m2/s 1 A vertically intergrated external forcing for H2O 1525 H2SO4M_C ug/m3 58 I chemical sulfate aerosol mass 1526 DTWR_DMS kg/kg/s 58 A wet removal Neu scheme tendency 1527 WD_DMS kg/m2/s 1 A vertical integrated wet deposition flux 1528 HEFF_DMS M/atm 58 A Effective Henrys Law coeff. 1529 DTWR_H2O2 kg/kg/s 58 A wet removal Neu scheme tendency 1530 WD_H2O2 kg/m2/s 1 A vertical integrated wet deposition flux 1531 HEFF_H2O2 M/atm 58 A Effective Henrys Law coeff. 1532 DTWR_H2SO4 kg/kg/s 58 A wet removal Neu scheme tendency 1533 WD_H2SO4 kg/m2/s 1 A vertical integrated wet deposition flux 1534 HEFF_H2SO4 M/atm 58 A Effective Henrys Law coeff. 1535 DTWR_SO2 kg/kg/s 58 A wet removal Neu scheme tendency 1536 WD_SO2 kg/m2/s 1 A vertical integrated wet deposition flux 1537 HEFF_SO2 M/atm 58 A Effective Henrys Law coeff. 1538 wet_SO2 kg/m2/s 1 A SO2 wet deposition flux at surface. 1539 wet_SO2_S kg*S/m2/s 1 A SO2 wet deposition flux at surface, sulfur mass only. 1540 MEG_isoprene kg/m2/sec 1 A isoprene MEGAN emissions flux 1541 MEG_monoterp kg/m2/sec 1 A monoterp MEGAN emissions flux 1542 OCN_SALINITY parts per thousa 1 A ocean salinity 1543 OCN_FLUX_DMS kg/m2/s 1 A ocean flux DMS 1544 Csw_DMS nanomole per lit 1 A seeawater concentration DMS 1545 CT_SO2 kg/kg/s 58 A SO2 source/sink 1546 SFSO2 kg/m2/s 1 A SO2 surface flux 1547 CT_H2SO4 kg/kg/s 58 A H2SO4 source/sink 1548 SFH2SO4 kg/m2/s 1 A H2SO4 surface flux 1549 CT_DMS kg/kg/s 58 A DMS source/sink 1550 SFDMS kg/m2/s 1 A DMS surface flux 1551 emis_DMS kg/m2/s 1 A DMS emissions 1552 emis_DMS_S kg/m2/s 1 A DMS emissions, sulfur mass only 1553 CT_H2O2 kg/kg/s 58 A H2O2 source/sink 1554 SFH2O2 kg/m2/s 1 A H2O2 surface flux 1555 CT_SO4_NA kg/kg/s 58 A SO4_NA source/sink 1556 SFSO4_NA kg/m2/s 1 A SO4_NA surface flux 1557 CT_SO4_A1 kg/kg/s 58 A SO4_A1 source/sink 1558 SFSO4_A1 kg/m2/s 1 A SO4_A1 surface flux 1559 CT_SO4_A2 kg/kg/s 58 A SO4_A2 source/sink 1560 SFSO4_A2 kg/m2/s 1 A SO4_A2 surface flux 1561 CT_SO4_AC kg/kg/s 58 A SO4_AC source/sink 1562 SFSO4_AC kg/m2/s 1 A SO4_AC surface flux 1563 CT_SO4_PR kg/kg/s 58 A SO4_PR source/sink 1564 SFSO4_PR kg/m2/s 1 A SO4_PR surface flux 1565 CT_BC_N kg/kg/s 58 A BC_N source/sink 1566 SFBC_N kg/m2/s 1 A BC_N surface flux 1567 CT_BC_AX kg/kg/s 58 A BC_AX source/sink 1568 SFBC_AX kg/m2/s 1 A BC_AX surface flux 1569 CT_BC_NI kg/kg/s 58 A BC_NI source/sink 1570 SFBC_NI kg/m2/s 1 A BC_NI surface flux 1571 CT_BC_A kg/kg/s 58 A BC_A source/sink 1572 SFBC_A kg/m2/s 1 A BC_A surface flux 1573 CT_BC_AI kg/kg/s 58 A BC_AI source/sink 1574 SFBC_AI kg/m2/s 1 A BC_AI surface flux 1575 CT_BC_AC kg/kg/s 58 A BC_AC source/sink 1576 SFBC_AC kg/m2/s 1 A BC_AC surface flux 1577 CT_OM_NI kg/kg/s 58 A OM_NI source/sink 1578 SFOM_NI kg/m2/s 1 A OM_NI surface flux 1579 CT_OM_AI kg/kg/s 58 A OM_AI source/sink 1580 SFOM_AI kg/m2/s 1 A OM_AI surface flux 1581 CT_OM_AC kg/kg/s 58 A OM_AC source/sink 1582 SFOM_AC kg/m2/s 1 A OM_AC surface flux 1583 CT_DST_A2 kg/kg/s 58 A DST_A2 source/sink 1584 SFDST_A2 kg/m2/s 1 A DST_A2 surface flux 1585 CT_DST_A3 kg/kg/s 58 A DST_A3 source/sink 1586 SFDST_A3 kg/m2/s 1 A DST_A3 surface flux 1587 CT_SS_A1 kg/kg/s 58 A SS_A1 source/sink 1588 SFSS_A1 kg/m2/s 1 A SS_A1 surface flux 1589 CT_SS_A2 kg/kg/s 58 A SS_A2 source/sink 1590 SFSS_A2 kg/m2/s 1 A SS_A2 surface flux 1591 CT_SS_A3 kg/kg/s 58 A SS_A3 source/sink 1592 SFSS_A3 kg/m2/s 1 A SS_A3 surface flux 1593 CT_SOA_NA kg/kg/s 58 A SOA_NA source/sink 1594 SFSOA_NA kg/m2/s 1 A SOA_NA surface flux 1595 CT_SOA_A1 kg/kg/s 58 A SOA_A1 source/sink 1596 SFSOA_A1 kg/m2/s 1 A SOA_A1 surface flux 1597 CT_SOA_LV kg/kg/s 58 A SOA_LV source/sink 1598 SFSOA_LV kg/m2/s 1 A SOA_LV surface flux 1599 CT_SOA_SV kg/kg/s 58 A SOA_SV source/sink 1600 SFSOA_SV kg/m2/s 1 A SOA_SV surface flux 1601 CT_monoterp kg/kg/s 58 A monoterp source/sink 1602 SFmonoterp kg/m2/s 1 A monoterp surface flux 1603 emis_monoterp kg/m2/s 1 A monoterp emissions 1604 CT_isoprene kg/kg/s 58 A isoprene source/sink 1605 SFisoprene kg/m2/s 1 A isoprene surface flux 1606 emis_isoprene kg/m2/s 1 A isoprene emissions 1607 CT_H2O kg/kg/s 58 A H2O source/sink 1608 emis_SALT kg/m2/s 1 A SALT emission 1609 emis_DUST kg/m2/s 1 A DUST emission 1610 chloss_DMS_S kg/m2/s 1 A Chemical loss of DMS, sulfur mass only. 1611 chlossg_DMS_S kg/m2/s 1 A Chemical loss of DMS as gas, sulfur mass only. 1612 emis_SO2 kg/m2/s 1 A SO2 emission. 1613 emis_SO2_S kg/m2/s 1 A SO2 emission, sulfur mass only. 1614 sour_SO2_S kg/m2/s 1 A SO2 source, sulfur mass only. 1615 sink_SO2_S kg/m2/s 1 A SO2 sink, sulfur mass only. 1616 chloss_SO2_S kg/m2/s 1 A Chemical loss of SO2, sulfur mass only. 1617 chlossg_SO2_S kg/m2/s 1 A Chemical loss of SO2 as gas, sulfur mass only. 1618 emis_SULFATE kg/m2/s 1 A SULFATE emission. 1619 emis_SULFATE_S kg/m2/s 1 A SULFATE emission, sulfur mass only. 1620 sour_SULFATE kg/m2/s 1 A SULFATE source. 1621 sour_SULFATE_S kg/m2/s 1 A SULFATE source, sulfur mass only. 1622 emis_BC kg/m2/s 1 A BC emission. 1623 emis_OM kg/m2/s 1 A OM emission. 1624 sour_OM kg/m2/s 1 A OM source. 1625 FLASHFRQ min-1 1 I lightning flash rate 1626 CLDHGT km 1 I cloud top height 1627 DCHGZONE km 1 I depth of discharge zone 1628 CGIC 1 1 I ratio of cloud-ground/intracloud discharges 1629 LGHTNG_CLD2GRND min-1 1 I clound-to-ground lightning flash rate 1630 ozone mol/mol 58 I prescribed ozone 1631 ext_sun1 1/km 58 I Extinction coefficient of solar bands 1632 omega_sun1 1 58 I Single scattering albedo of solar bands 1633 g_sun1 1 58 I Asymmetry factor of solar bands 1634 ext_sun2 1/km 58 I Extinction coefficient of solar bands 1635 omega_sun2 1 58 I Single scattering albedo of solar bands 1636 g_sun2 1 58 I Asymmetry factor of solar bands 1637 ext_sun3 1/km 58 I Extinction coefficient of solar bands 1638 omega_sun3 1 58 I Single scattering albedo of solar bands 1639 g_sun3 1 58 I Asymmetry factor of solar bands 1640 ext_sun4 1/km 58 I Extinction coefficient of solar bands 1641 omega_sun4 1 58 I Single scattering albedo of solar bands 1642 g_sun4 1 58 I Asymmetry factor of solar bands 1643 ext_sun5 1/km 58 I Extinction coefficient of solar bands 1644 omega_sun5 1 58 I Single scattering albedo of solar bands 1645 g_sun5 1 58 I Asymmetry factor of solar bands 1646 ext_sun6 1/km 58 I Extinction coefficient of solar bands 1647 omega_sun6 1 58 I Single scattering albedo of solar bands 1648 g_sun6 1 58 I Asymmetry factor of solar bands 1649 ext_sun7 1/km 58 I Extinction coefficient of solar bands 1650 omega_sun7 1 58 I Single scattering albedo of solar bands 1651 g_sun7 1 58 I Asymmetry factor of solar bands 1652 ext_sun8 1/km 58 I Extinction coefficient of solar bands 1653 omega_sun8 1 58 I Single scattering albedo of solar bands 1654 g_sun8 1 58 I Asymmetry factor of solar bands 1655 ext_sun9 1/km 58 I Extinction coefficient of solar bands 1656 omega_sun9 1 58 I Single scattering albedo of solar bands 1657 g_sun9 1 58 I Asymmetry factor of solar bands 1658 ext_sun10 1/km 58 I Extinction coefficient of solar bands 1659 omega_sun10 1 58 I Single scattering albedo of solar bands 1660 g_sun10 1 58 I Asymmetry factor of solar bands 1661 ext_sun11 1/km 58 I Extinction coefficient of solar bands 1662 omega_sun11 1 58 I Single scattering albedo of solar bands 1663 g_sun11 1 58 I Asymmetry factor of solar bands 1664 ext_sun12 1/km 58 I Extinction coefficient of solar bands 1665 omega_sun12 1 58 I Single scattering albedo of solar bands 1666 g_sun12 1 58 I Asymmetry factor of solar bands 1667 ext_sun13 1/km 58 I Extinction coefficient of solar bands 1668 omega_sun13 1 58 I Single scattering albedo of solar bands 1669 g_sun13 1 58 I Asymmetry factor of solar bands 1670 ext_sun14 1/km 58 I Extinction coefficient of solar bands 1671 omega_sun14 1 58 I Single scattering albedo of solar bands 1672 g_sun14 1 58 I Asymmetry factor of solar bands 1673 ext_earth1 1/km 58 I Extinction coefficient of terrestrial bands 1674 omega_earth1 1 58 I Single scattering albedo of terrestrial bands 1675 g_earth1 1 58 I Asymmetry factor of terrestrial bands 1676 ext_earth2 1/km 58 I Extinction coefficient of terrestrial bands 1677 omega_earth2 1 58 I Single scattering albedo of terrestrial bands 1678 g_earth2 1 58 I Asymmetry factor of terrestrial bands 1679 ext_earth3 1/km 58 I Extinction coefficient of terrestrial bands 1680 omega_earth3 1 58 I Single scattering albedo of terrestrial bands 1681 g_earth3 1 58 I Asymmetry factor of terrestrial bands 1682 ext_earth4 1/km 58 I Extinction coefficient of terrestrial bands 1683 omega_earth4 1 58 I Single scattering albedo of terrestrial bands 1684 g_earth4 1 58 I Asymmetry factor of terrestrial bands 1685 ext_earth5 1/km 58 I Extinction coefficient of terrestrial bands 1686 omega_earth5 1 58 I Single scattering albedo of terrestrial bands 1687 g_earth5 1 58 I Asymmetry factor of terrestrial bands 1688 ext_earth6 1/km 58 I Extinction coefficient of terrestrial bands 1689 omega_earth6 1 58 I Single scattering albedo of terrestrial bands 1690 g_earth6 1 58 I Asymmetry factor of terrestrial bands 1691 ext_earth7 1/km 58 I Extinction coefficient of terrestrial bands 1692 omega_earth7 1 58 I Single scattering albedo of terrestrial bands 1693 g_earth7 1 58 I Asymmetry factor of terrestrial bands 1694 ext_earth8 1/km 58 I Extinction coefficient of terrestrial bands 1695 omega_earth8 1 58 I Single scattering albedo of terrestrial bands 1696 g_earth8 1 58 I Asymmetry factor of terrestrial bands 1697 ext_earth9 1/km 58 I Extinction coefficient of terrestrial bands 1698 omega_earth9 1 58 I Single scattering albedo of terrestrial bands 1699 g_earth9 1 58 I Asymmetry factor of terrestrial bands 1700 ext_earth10 1/km 58 I Extinction coefficient of terrestrial bands 1701 omega_earth10 1 58 I Single scattering albedo of terrestrial bands 1702 g_earth10 1 58 I Asymmetry factor of terrestrial bands 1703 ext_earth11 1/km 58 I Extinction coefficient of terrestrial bands 1704 omega_earth11 1 58 I Single scattering albedo of terrestrial bands 1705 g_earth11 1 58 I Asymmetry factor of terrestrial bands 1706 ext_earth12 1/km 58 I Extinction coefficient of terrestrial bands 1707 omega_earth12 1 58 I Single scattering albedo of terrestrial bands 1708 g_earth12 1 58 I Asymmetry factor of terrestrial bands 1709 ext_earth13 1/km 58 I Extinction coefficient of terrestrial bands 1710 omega_earth13 1 58 I Single scattering albedo of terrestrial bands 1711 g_earth13 1 58 I Asymmetry factor of terrestrial bands 1712 ext_earth14 1/km 58 I Extinction coefficient of terrestrial bands 1713 omega_earth14 1 58 I Single scattering albedo of terrestrial bands 1714 g_earth14 1 58 I Asymmetry factor of terrestrial bands 1715 ext_earth15 1/km 58 I Extinction coefficient of terrestrial bands 1716 omega_earth15 1 58 I Single scattering albedo of terrestrial bands 1717 g_earth15 1 58 I Asymmetry factor of terrestrial bands 1718 ext_earth16 1/km 58 I Extinction coefficient of terrestrial bands 1719 omega_earth16 1 58 I Single scattering albedo of terrestrial bands 1720 g_earth16 1 58 I Asymmetry factor of terrestrial bands 1721 TAUAORO N m-2 59 I Total stress from original OGW scheme 1722 TTGWORO K s-1 58 A T tendency - orographic gravity wave drag 1723 TTGWSDFORO K s-1 58 A T tendency - orographic gravity wave, diffusion. 1724 TTGWSKEORO K s-1 58 A T tendency - orographic gravity wave, breaking KE. 1725 UTGWORO m s-2 58 A U tendency - orographic gravity wave drag 1726 VTGWORO m s-2 58 A V tendency - orographic gravity wave drag 1727 TAUGWX N m-2 1 A Zonal gravity wave surface stress 1728 TAUGWY N m-2 1 A Meridional gravity wave surface stress 1729 WBR_HT1 m 1 I Wave breaking height for DSW 1730 TLB_HT1 m 1 I Form drag layer height 1731 BWV_HT1 m 1 I Bottom of freely-propagating OGW regime 1732 TAUDSW1 Nm-2 1 I DSW enhanced drag 1733 TAUORO1 Nm-2 1 I lower BC on propagating wave stress 1734 UBMSRC1 ms-1 1 I below-peak-level on-ridge wind 1735 USRC1 ms-1 1 I below-peak-level Zonal wind 1736 VSRC1 ms-1 1 I below-peak-level Meridional wind 1737 NSRC1 s-1 1 I below-peak-level stratification 1738 MXDIS1 m 1 I Ridge/obstacle height 1739 ANGLL1 degrees 1 I orientation clockwise w/resp north-south 1740 ANIXY1 1 1 I Ridge quality 1741 HWDTH1 km 1 I Ridge width 1742 CLNGT1 km 1 I Ridge length 1743 GBXAR1 km+2 1 I grid box area 1744 Fr1_DIAG 1 1 I Critical Froude number for linear waves 1745 Fr2_DIAG 1 1 I Critical Froude number for blocked flow 1746 Frx_DIAG 1 1 I Obstacle Froude Number 1747 UEGW s-1 58 A Zonal wind profile-entry to GW 1748 VEGW s-1 58 A Merdional wind profile-entry to GW 1749 TEGW K 58 A Temperature profile-entry to GW 1750 ZEGW m 59 A interface geopotential heights in GW code 1751 ZMGW m 58 A midlayer geopotential heights in GW code 1752 NIEGW 1/s 59 I interface BV freq in GW code 1753 NMEGW 1/s 58 I midlayer BV freq in GW code 1754 RHOIEGW kg/m^3 59 I interface density in GW code 1755 PINTEGW Pa 59 I interface air pressure in GW code 1756 TAUM1_DIAG N m-2 59 I Ridge based momentum flux profile 1757 TAU1RDGBETAM N m-2 59 I Ridge based momentum flux profile 1758 UBM1BETA m s-1 58 A On-ridge wind profile 1759 UBT1RDGBETA m s-2 58 I On-ridge wind tendency from ridge 1 1760 TAURESIDBETAM N m-2 59 I Ridge based momentum flux profile 1761 UBMRESIDBETA m s-1 58 I On-ridge wind profile 1762 UBIRESIDBETA m s-1 59 I On-ridge wind profile (interface) 1763 SRC_LEVEL_RESIDBETA 1 1 I src level index for ridge residual 1764 TAUORO_RESID N m-2 1 I Surface momentum flux from ridge residual 1765 TAUDIAG_RESID N m-2 59 I Ridge based momentum flux profile 1766 TAU1RDGBETAY N m-2 59 I Ridge based momentum flux profile 1767 TAU1RDGBETAX N m-2 59 I Ridge based momentum flux profile 1768 UT1RDGBETA m s-1 58 I U wind tendency from ridge 1 1769 VT1RDGBETA m s-1 58 I V wind tendency from ridge 1 1770 TAU2RDGBETAY N m-2 59 I Ridge based momentum flux profile 1771 TAU2RDGBETAX N m-2 59 I Ridge based momentum flux profile 1772 UT2RDGBETA m s-1 58 I U wind tendency from ridge 2 1773 VT2RDGBETA m s-1 58 I V wind tendency from ridge 2 1774 TAU3RDGBETAY N m-2 59 I Ridge based momentum flux profile 1775 TAU3RDGBETAX N m-2 59 I Ridge based momentum flux profile 1776 UT3RDGBETA m s-1 58 I U wind tendency from ridge 3 1777 VT3RDGBETA m s-1 58 I V wind tendency from ridge 3 1778 TAU4RDGBETAY N m-2 59 I Ridge based momentum flux profile 1779 TAU4RDGBETAX N m-2 59 I Ridge based momentum flux profile 1780 UT4RDGBETA m s-1 58 I U wind tendency from ridge 4 1781 VT4RDGBETA m s-1 58 I V wind tendency from ridge 4 1782 TAU5RDGBETAY N m-2 59 I Ridge based momentum flux profile 1783 TAU5RDGBETAX N m-2 59 I Ridge based momentum flux profile 1784 UT5RDGBETA m s-1 58 I U wind tendency from ridge 5 1785 VT5RDGBETA m s-1 58 I V wind tendency from ridge 5 1786 TAU6RDGBETAY N m-2 59 I Ridge based momentum flux profile 1787 TAU6RDGBETAX N m-2 59 I Ridge based momentum flux profile 1788 UT6RDGBETA m s-1 58 I U wind tendency from ridge 6 1789 VT6RDGBETA m s-1 58 I V wind tendency from ridge 6 1790 TAUARDGBETAY N m-2 59 I Ridge based momentum flux profile 1791 TAUARDGBETAX N m-2 59 I Ridge based momentum flux profile 1792 TAURESIDBETAY N m-2 59 I Ridge based momentum flux profile 1793 TAURESIDBETAX N m-2 59 I Ridge based momentum flux profile 1794 FRONTGF K^2/M^2/S 58 A Frontogenesis function at gws src level 1795 FRONTGFA K^2/M^2/S 58 A Frontogenesis function at gws src level 1796 VORT4GW s-1 58 A Vorticity 1797 UTGWSPEC m s-2 58 A C&M U tendency - gravity wave spectrum 1798 VTGWSPEC m s-2 58 A C&M V tendency - gravity wave spectrum 1799 TTGWSPEC K s-1 58 A C&M T tendency - gravity wave spectrum 1800 UTEND1 m s-2 58 A C&M U tendency c < -40 1801 UTEND2 m s-2 58 A C&M U tendency -40 < c < -15 1802 UTEND3 m s-2 58 A C&M U tendency -15 < c < 15 1803 UTEND4 m s-2 58 A C&M U tendency 15 < c < 40 1804 UTEND5 m s-2 58 A C&M U tendency 40 < c 1805 TAUE Pa 59 A C&M Eastward Reynolds stress 1806 TAUW Pa 59 A C&M Westward Reynolds stress 1807 TAUNET Pa 59 A C&M E+W Reynolds stress 1808 TAUN Pa 59 A C&M Northward Reynolds stress 1809 TAUS Pa 59 A C&M Southward Reynolds stress 1810 EMF Pa 58 A C&M Eastward MF 1811 WMF Pa 58 A C&M Westward MF 1812 NMF Pa 58 A C&M Northward MF 1813 SMF Pa 58 A C&M Southward MF 1814 TTGWSDF K s-1 58 A C&M t tendency - diffusion term 1815 TTGWSKE K s-1 58 A C&M t tendency - kinetic energy conversion term 1816 TAUXSn32 Pa 58 A C&M tau at c= -80.00 m s-1 1817 TAUYSn32 Pa 58 A C&M tau at c= -80.00 m s-1 1818 TAUXSn31 Pa 58 A C&M tau at c= -77.50 m s-1 1819 TAUYSn31 Pa 58 A C&M tau at c= -77.50 m s-1 1820 TAUXSn30 Pa 58 A C&M tau at c= -75.00 m s-1 1821 TAUYSn30 Pa 58 A C&M tau at c= -75.00 m s-1 1822 TAUXSn29 Pa 58 A C&M tau at c= -72.50 m s-1 1823 TAUYSn29 Pa 58 A C&M tau at c= -72.50 m s-1 1824 TAUXSn28 Pa 58 A C&M tau at c= -70.00 m s-1 1825 TAUYSn28 Pa 58 A C&M tau at c= -70.00 m s-1 1826 TAUXSn27 Pa 58 A C&M tau at c= -67.50 m s-1 1827 TAUYSn27 Pa 58 A C&M tau at c= -67.50 m s-1 1828 TAUXSn26 Pa 58 A C&M tau at c= -65.00 m s-1 1829 TAUYSn26 Pa 58 A C&M tau at c= -65.00 m s-1 1830 TAUXSn25 Pa 58 A C&M tau at c= -62.50 m s-1 1831 TAUYSn25 Pa 58 A C&M tau at c= -62.50 m s-1 1832 TAUXSn24 Pa 58 A C&M tau at c= -60.00 m s-1 1833 TAUYSn24 Pa 58 A C&M tau at c= -60.00 m s-1 1834 TAUXSn23 Pa 58 A C&M tau at c= -57.50 m s-1 1835 TAUYSn23 Pa 58 A C&M tau at c= -57.50 m s-1 1836 TAUXSn22 Pa 58 A C&M tau at c= -55.00 m s-1 1837 TAUYSn22 Pa 58 A C&M tau at c= -55.00 m s-1 1838 TAUXSn21 Pa 58 A C&M tau at c= -52.50 m s-1 1839 TAUYSn21 Pa 58 A C&M tau at c= -52.50 m s-1 1840 TAUXSn20 Pa 58 A C&M tau at c= -50.00 m s-1 1841 TAUYSn20 Pa 58 A C&M tau at c= -50.00 m s-1 1842 TAUXSn19 Pa 58 A C&M tau at c= -47.50 m s-1 1843 TAUYSn19 Pa 58 A C&M tau at c= -47.50 m s-1 1844 TAUXSn18 Pa 58 A C&M tau at c= -45.00 m s-1 1845 TAUYSn18 Pa 58 A C&M tau at c= -45.00 m s-1 1846 TAUXSn17 Pa 58 A C&M tau at c= -42.50 m s-1 1847 TAUYSn17 Pa 58 A C&M tau at c= -42.50 m s-1 1848 TAUXSn16 Pa 58 A C&M tau at c= -40.00 m s-1 1849 TAUYSn16 Pa 58 A C&M tau at c= -40.00 m s-1 1850 TAUXSn15 Pa 58 A C&M tau at c= -37.50 m s-1 1851 TAUYSn15 Pa 58 A C&M tau at c= -37.50 m s-1 1852 TAUXSn14 Pa 58 A C&M tau at c= -35.00 m s-1 1853 TAUYSn14 Pa 58 A C&M tau at c= -35.00 m s-1 1854 TAUXSn13 Pa 58 A C&M tau at c= -32.50 m s-1 1855 TAUYSn13 Pa 58 A C&M tau at c= -32.50 m s-1 1856 TAUXSn12 Pa 58 A C&M tau at c= -30.00 m s-1 1857 TAUYSn12 Pa 58 A C&M tau at c= -30.00 m s-1 1858 TAUXSn11 Pa 58 A C&M tau at c= -27.50 m s-1 1859 TAUYSn11 Pa 58 A C&M tau at c= -27.50 m s-1 1860 TAUXSn10 Pa 58 A C&M tau at c= -25.00 m s-1 1861 TAUYSn10 Pa 58 A C&M tau at c= -25.00 m s-1 1862 TAUXSn09 Pa 58 A C&M tau at c= -22.50 m s-1 1863 TAUYSn09 Pa 58 A C&M tau at c= -22.50 m s-1 1864 TAUXSn08 Pa 58 A C&M tau at c= -20.00 m s-1 1865 TAUYSn08 Pa 58 A C&M tau at c= -20.00 m s-1 1866 TAUXSn07 Pa 58 A C&M tau at c= -17.50 m s-1 1867 TAUYSn07 Pa 58 A C&M tau at c= -17.50 m s-1 1868 TAUXSn06 Pa 58 A C&M tau at c= -15.00 m s-1 1869 TAUYSn06 Pa 58 A C&M tau at c= -15.00 m s-1 1870 TAUXSn05 Pa 58 A C&M tau at c= -12.50 m s-1 1871 TAUYSn05 Pa 58 A C&M tau at c= -12.50 m s-1 1872 TAUXSn04 Pa 58 A C&M tau at c= -10.00 m s-1 1873 TAUYSn04 Pa 58 A C&M tau at c= -10.00 m s-1 1874 TAUXSn03 Pa 58 A C&M tau at c= -7.50 m s-1 1875 TAUYSn03 Pa 58 A C&M tau at c= -7.50 m s-1 1876 TAUXSn02 Pa 58 A C&M tau at c= -5.00 m s-1 1877 TAUYSn02 Pa 58 A C&M tau at c= -5.00 m s-1 1878 TAUXSn01 Pa 58 A C&M tau at c= -2.50 m s-1 1879 TAUYSn01 Pa 58 A C&M tau at c= -2.50 m s-1 1880 TAUXSp00 Pa 58 A C&M tau at c= 0.00 m s-1 1881 TAUYSp00 Pa 58 A C&M tau at c= 0.00 m s-1 1882 TAUXSp01 Pa 58 A C&M tau at c= 2.50 m s-1 1883 TAUYSp01 Pa 58 A C&M tau at c= 2.50 m s-1 1884 TAUXSp02 Pa 58 A C&M tau at c= 5.00 m s-1 1885 TAUYSp02 Pa 58 A C&M tau at c= 5.00 m s-1 1886 TAUXSp03 Pa 58 A C&M tau at c= 7.50 m s-1 1887 TAUYSp03 Pa 58 A C&M tau at c= 7.50 m s-1 1888 TAUXSp04 Pa 58 A C&M tau at c= 10.00 m s-1 1889 TAUYSp04 Pa 58 A C&M tau at c= 10.00 m s-1 1890 TAUXSp05 Pa 58 A C&M tau at c= 12.50 m s-1 1891 TAUYSp05 Pa 58 A C&M tau at c= 12.50 m s-1 1892 TAUXSp06 Pa 58 A C&M tau at c= 15.00 m s-1 1893 TAUYSp06 Pa 58 A C&M tau at c= 15.00 m s-1 1894 TAUXSp07 Pa 58 A C&M tau at c= 17.50 m s-1 1895 TAUYSp07 Pa 58 A C&M tau at c= 17.50 m s-1 1896 TAUXSp08 Pa 58 A C&M tau at c= 20.00 m s-1 1897 TAUYSp08 Pa 58 A C&M tau at c= 20.00 m s-1 1898 TAUXSp09 Pa 58 A C&M tau at c= 22.50 m s-1 1899 TAUYSp09 Pa 58 A C&M tau at c= 22.50 m s-1 1900 TAUXSp10 Pa 58 A C&M tau at c= 25.00 m s-1 1901 TAUYSp10 Pa 58 A C&M tau at c= 25.00 m s-1 1902 TAUXSp11 Pa 58 A C&M tau at c= 27.50 m s-1 1903 TAUYSp11 Pa 58 A C&M tau at c= 27.50 m s-1 1904 TAUXSp12 Pa 58 A C&M tau at c= 30.00 m s-1 1905 TAUYSp12 Pa 58 A C&M tau at c= 30.00 m s-1 1906 TAUXSp13 Pa 58 A C&M tau at c= 32.50 m s-1 1907 TAUYSp13 Pa 58 A C&M tau at c= 32.50 m s-1 1908 TAUXSp14 Pa 58 A C&M tau at c= 35.00 m s-1 1909 TAUYSp14 Pa 58 A C&M tau at c= 35.00 m s-1 1910 TAUXSp15 Pa 58 A C&M tau at c= 37.50 m s-1 1911 TAUYSp15 Pa 58 A C&M tau at c= 37.50 m s-1 1912 TAUXSp16 Pa 58 A C&M tau at c= 40.00 m s-1 1913 TAUYSp16 Pa 58 A C&M tau at c= 40.00 m s-1 1914 TAUXSp17 Pa 58 A C&M tau at c= 42.50 m s-1 1915 TAUYSp17 Pa 58 A C&M tau at c= 42.50 m s-1 1916 TAUXSp18 Pa 58 A C&M tau at c= 45.00 m s-1 1917 TAUYSp18 Pa 58 A C&M tau at c= 45.00 m s-1 1918 TAUXSp19 Pa 58 A C&M tau at c= 47.50 m s-1 1919 TAUYSp19 Pa 58 A C&M tau at c= 47.50 m s-1 1920 TAUXSp20 Pa 58 A C&M tau at c= 50.00 m s-1 1921 TAUYSp20 Pa 58 A C&M tau at c= 50.00 m s-1 1922 TAUXSp21 Pa 58 A C&M tau at c= 52.50 m s-1 1923 TAUYSp21 Pa 58 A C&M tau at c= 52.50 m s-1 1924 TAUXSp22 Pa 58 A C&M tau at c= 55.00 m s-1 1925 TAUYSp22 Pa 58 A C&M tau at c= 55.00 m s-1 1926 TAUXSp23 Pa 58 A C&M tau at c= 57.50 m s-1 1927 TAUYSp23 Pa 58 A C&M tau at c= 57.50 m s-1 1928 TAUXSp24 Pa 58 A C&M tau at c= 60.00 m s-1 1929 TAUYSp24 Pa 58 A C&M tau at c= 60.00 m s-1 1930 TAUXSp25 Pa 58 A C&M tau at c= 62.50 m s-1 1931 TAUYSp25 Pa 58 A C&M tau at c= 62.50 m s-1 1932 TAUXSp26 Pa 58 A C&M tau at c= 65.00 m s-1 1933 TAUYSp26 Pa 58 A C&M tau at c= 65.00 m s-1 1934 TAUXSp27 Pa 58 A C&M tau at c= 67.50 m s-1 1935 TAUYSp27 Pa 58 A C&M tau at c= 67.50 m s-1 1936 TAUXSp28 Pa 58 A C&M tau at c= 70.00 m s-1 1937 TAUYSp28 Pa 58 A C&M tau at c= 70.00 m s-1 1938 TAUXSp29 Pa 58 A C&M tau at c= 72.50 m s-1 1939 TAUYSp29 Pa 58 A C&M tau at c= 72.50 m s-1 1940 TAUXSp30 Pa 58 A C&M tau at c= 75.00 m s-1 1941 TAUYSp30 Pa 58 A C&M tau at c= 75.00 m s-1 1942 TAUXSp31 Pa 58 A C&M tau at c= 77.50 m s-1 1943 TAUYSp31 Pa 58 A C&M tau at c= 77.50 m s-1 1944 TAUXSp32 Pa 58 A C&M tau at c= 80.00 m s-1 1945 TAUYSp32 Pa 58 A C&M tau at c= 80.00 m s-1 1946 GWUT_MOVMTN m s-2 58 I Mov Mtn dragforce - ubm component 1947 UTGW_MOVMTN m s-2 58 I Mov Mtn dragforce - u component 1948 VTGW_MOVMTN m s-2 58 I Mov Mtn dragforce - v component 1949 TAU_MOVMTN N m-2 59 I Moving Mountain momentum flux profile 1950 U_MOVMTN_IN m s-1 58 I Moving Mountain - midpoint zonal input wind 1951 V_MOVMTN_IN m s-1 58 I Moving Mountain - midpoint meridional input wind 1952 UBI_MOVMTN m s-1 59 I Moving Mountain - interface wind in direction of wave 1953 UBM_MOVMTN m s-1 58 I Moving Mountain - midpoint wind in direction of wave 1954 HDEPTH_MOVMTN km 1 I Heating Depth 1955 UCELL_MOVMTN m s-1 1 I Gravity Wave Moving Mountain - Source-level X-wind 1956 VCELL_MOVMTN m s-1 1 I Gravity Wave Moving Mountain - Source-level Y-wind 1957 CS_MOVMTN m s-1 1 I Gravity Wave Moving Mountain - phase speed in direction of wave 1958 STEER_LEVEL_MOVMTN 1 1 I Gravity Wave Moving Mountain - steering level for movmtn GW 1959 SRC_LEVEL_MOVMTN 1 1 I Gravity Wave Moving Mountain - launch level for movmtn GW 1960 TND_LEVEL_MOVMTN 1 1 I Gravity Wave Moving Mountain - tendency lowest level for movmtn GW 1961 NETDT_MOVMTN K s-1 58 I Gravity Wave Moving Mountain - Net heating rate 1962 TTEND_CLUBB K s-1 58 A Gravity Wave Moving Mountain - CLUBB Net heating rate 1963 THLP2_CLUBB_GW K+2 59 A Gravity Wave Moving Mountain - THLP variance from CLUBB to GW 1964 WPTHLP_CLUBB_GW Km s-2 59 A Gravity Wave Moving Mountain - WPTHLP from CLUBB to GW 1965 UPWP_CLUBB_GW m+2 s-2 59 A Gravity Wave Moving Mountain - X-momflux from CLUBB to GW 1966 VPWP_CLUBB_GW m+2 s-2 59 A Gravity Wave Moving Mountain - Y-momflux from CLUBB to GW 1967 XPWP_SRC_MOVMTN m+2 s-2 1 I Gravity Wave Moving Mountain - flux source for moving mtn 1968 BUTGWSPEC m s-2 58 A Beres (deep) U tendency - gravity wave spectrum 1969 BVTGWSPEC m s-2 58 A Beres (deep) V tendency - gravity wave spectrum 1970 BTTGWSPEC K s-1 58 A Beres (deep) T tendency - gravity wave spectrum 1971 BUTEND1 m s-2 58 A Beres (deep) U tendency c < -40 1972 BUTEND2 m s-2 58 A Beres (deep) U tendency -40 < c < -15 1973 BUTEND3 m s-2 58 A Beres (deep) U tendency -15 < c < 15 1974 BUTEND4 m s-2 58 A Beres (deep) U tendency 15 < c < 40 1975 BUTEND5 m s-2 58 A Beres (deep) U tendency 40 < c 1976 BTAUE Pa 59 A Beres (deep) Eastward Reynolds stress 1977 BTAUW Pa 59 A Beres (deep) Westward Reynolds stress 1978 BTAUNET Pa 59 A Beres (deep) E+W Reynolds stress 1979 BTAUN Pa 59 A Beres (deep) Northward Reynolds stress 1980 BTAUS Pa 59 A Beres (deep) Southward Reynolds stress 1981 BEMF Pa 58 A Beres (deep) Eastward MF 1982 BWMF Pa 58 A Beres (deep) Westward MF 1983 BNMF Pa 58 A Beres (deep) Northward MF 1984 BSMF Pa 58 A Beres (deep) Southward MF 1985 BTTGWSDF K s-1 58 A Beres (deep) t tendency - diffusion term 1986 BTTGWSKE K s-1 58 A Beres (deep) t tendency - kinetic energy conversion term 1987 BTAUXSn32 Pa 58 A Beres (deep) tau at c= -80.00 m s-1 1988 BTAUYSn32 Pa 58 A Beres (deep) tau at c= -80.00 m s-1 1989 BTAUXSn31 Pa 58 A Beres (deep) tau at c= -77.50 m s-1 1990 BTAUYSn31 Pa 58 A Beres (deep) tau at c= -77.50 m s-1 1991 BTAUXSn30 Pa 58 A Beres (deep) tau at c= -75.00 m s-1 1992 BTAUYSn30 Pa 58 A Beres (deep) tau at c= -75.00 m s-1 1993 BTAUXSn29 Pa 58 A Beres (deep) tau at c= -72.50 m s-1 1994 BTAUYSn29 Pa 58 A Beres (deep) tau at c= -72.50 m s-1 1995 BTAUXSn28 Pa 58 A Beres (deep) tau at c= -70.00 m s-1 1996 BTAUYSn28 Pa 58 A Beres (deep) tau at c= -70.00 m s-1 1997 BTAUXSn27 Pa 58 A Beres (deep) tau at c= -67.50 m s-1 1998 BTAUYSn27 Pa 58 A Beres (deep) tau at c= -67.50 m s-1 1999 BTAUXSn26 Pa 58 A Beres (deep) tau at c= -65.00 m s-1 2000 BTAUYSn26 Pa 58 A Beres (deep) tau at c= -65.00 m s-1 2001 BTAUXSn25 Pa 58 A Beres (deep) tau at c= -62.50 m s-1 2002 BTAUYSn25 Pa 58 A Beres (deep) tau at c= -62.50 m s-1 2003 BTAUXSn24 Pa 58 A Beres (deep) tau at c= -60.00 m s-1 2004 BTAUYSn24 Pa 58 A Beres (deep) tau at c= -60.00 m s-1 2005 BTAUXSn23 Pa 58 A Beres (deep) tau at c= -57.50 m s-1 2006 BTAUYSn23 Pa 58 A Beres (deep) tau at c= -57.50 m s-1 2007 BTAUXSn22 Pa 58 A Beres (deep) tau at c= -55.00 m s-1 2008 BTAUYSn22 Pa 58 A Beres (deep) tau at c= -55.00 m s-1 2009 BTAUXSn21 Pa 58 A Beres (deep) tau at c= -52.50 m s-1 2010 BTAUYSn21 Pa 58 A Beres (deep) tau at c= -52.50 m s-1 2011 BTAUXSn20 Pa 58 A Beres (deep) tau at c= -50.00 m s-1 2012 BTAUYSn20 Pa 58 A Beres (deep) tau at c= -50.00 m s-1 2013 BTAUXSn19 Pa 58 A Beres (deep) tau at c= -47.50 m s-1 2014 BTAUYSn19 Pa 58 A Beres (deep) tau at c= -47.50 m s-1 2015 BTAUXSn18 Pa 58 A Beres (deep) tau at c= -45.00 m s-1 2016 BTAUYSn18 Pa 58 A Beres (deep) tau at c= -45.00 m s-1 2017 BTAUXSn17 Pa 58 A Beres (deep) tau at c= -42.50 m s-1 2018 BTAUYSn17 Pa 58 A Beres (deep) tau at c= -42.50 m s-1 2019 BTAUXSn16 Pa 58 A Beres (deep) tau at c= -40.00 m s-1 2020 BTAUYSn16 Pa 58 A Beres (deep) tau at c= -40.00 m s-1 2021 BTAUXSn15 Pa 58 A Beres (deep) tau at c= -37.50 m s-1 2022 BTAUYSn15 Pa 58 A Beres (deep) tau at c= -37.50 m s-1 2023 BTAUXSn14 Pa 58 A Beres (deep) tau at c= -35.00 m s-1 2024 BTAUYSn14 Pa 58 A Beres (deep) tau at c= -35.00 m s-1 2025 BTAUXSn13 Pa 58 A Beres (deep) tau at c= -32.50 m s-1 2026 BTAUYSn13 Pa 58 A Beres (deep) tau at c= -32.50 m s-1 2027 BTAUXSn12 Pa 58 A Beres (deep) tau at c= -30.00 m s-1 2028 BTAUYSn12 Pa 58 A Beres (deep) tau at c= -30.00 m s-1 2029 BTAUXSn11 Pa 58 A Beres (deep) tau at c= -27.50 m s-1 2030 BTAUYSn11 Pa 58 A Beres (deep) tau at c= -27.50 m s-1 2031 BTAUXSn10 Pa 58 A Beres (deep) tau at c= -25.00 m s-1 2032 BTAUYSn10 Pa 58 A Beres (deep) tau at c= -25.00 m s-1 2033 BTAUXSn09 Pa 58 A Beres (deep) tau at c= -22.50 m s-1 2034 BTAUYSn09 Pa 58 A Beres (deep) tau at c= -22.50 m s-1 2035 BTAUXSn08 Pa 58 A Beres (deep) tau at c= -20.00 m s-1 2036 BTAUYSn08 Pa 58 A Beres (deep) tau at c= -20.00 m s-1 2037 BTAUXSn07 Pa 58 A Beres (deep) tau at c= -17.50 m s-1 2038 BTAUYSn07 Pa 58 A Beres (deep) tau at c= -17.50 m s-1 2039 BTAUXSn06 Pa 58 A Beres (deep) tau at c= -15.00 m s-1 2040 BTAUYSn06 Pa 58 A Beres (deep) tau at c= -15.00 m s-1 2041 BTAUXSn05 Pa 58 A Beres (deep) tau at c= -12.50 m s-1 2042 BTAUYSn05 Pa 58 A Beres (deep) tau at c= -12.50 m s-1 2043 BTAUXSn04 Pa 58 A Beres (deep) tau at c= -10.00 m s-1 2044 BTAUYSn04 Pa 58 A Beres (deep) tau at c= -10.00 m s-1 2045 BTAUXSn03 Pa 58 A Beres (deep) tau at c= -7.50 m s-1 2046 BTAUYSn03 Pa 58 A Beres (deep) tau at c= -7.50 m s-1 2047 BTAUXSn02 Pa 58 A Beres (deep) tau at c= -5.00 m s-1 2048 BTAUYSn02 Pa 58 A Beres (deep) tau at c= -5.00 m s-1 2049 BTAUXSn01 Pa 58 A Beres (deep) tau at c= -2.50 m s-1 2050 BTAUYSn01 Pa 58 A Beres (deep) tau at c= -2.50 m s-1 2051 BTAUXSp00 Pa 58 A Beres (deep) tau at c= 0.00 m s-1 2052 BTAUYSp00 Pa 58 A Beres (deep) tau at c= 0.00 m s-1 2053 BTAUXSp01 Pa 58 A Beres (deep) tau at c= 2.50 m s-1 2054 BTAUYSp01 Pa 58 A Beres (deep) tau at c= 2.50 m s-1 2055 BTAUXSp02 Pa 58 A Beres (deep) tau at c= 5.00 m s-1 2056 BTAUYSp02 Pa 58 A Beres (deep) tau at c= 5.00 m s-1 2057 BTAUXSp03 Pa 58 A Beres (deep) tau at c= 7.50 m s-1 2058 BTAUYSp03 Pa 58 A Beres (deep) tau at c= 7.50 m s-1 2059 BTAUXSp04 Pa 58 A Beres (deep) tau at c= 10.00 m s-1 2060 BTAUYSp04 Pa 58 A Beres (deep) tau at c= 10.00 m s-1 2061 BTAUXSp05 Pa 58 A Beres (deep) tau at c= 12.50 m s-1 2062 BTAUYSp05 Pa 58 A Beres (deep) tau at c= 12.50 m s-1 2063 BTAUXSp06 Pa 58 A Beres (deep) tau at c= 15.00 m s-1 2064 BTAUYSp06 Pa 58 A Beres (deep) tau at c= 15.00 m s-1 2065 BTAUXSp07 Pa 58 A Beres (deep) tau at c= 17.50 m s-1 2066 BTAUYSp07 Pa 58 A Beres (deep) tau at c= 17.50 m s-1 2067 BTAUXSp08 Pa 58 A Beres (deep) tau at c= 20.00 m s-1 2068 BTAUYSp08 Pa 58 A Beres (deep) tau at c= 20.00 m s-1 2069 BTAUXSp09 Pa 58 A Beres (deep) tau at c= 22.50 m s-1 2070 BTAUYSp09 Pa 58 A Beres (deep) tau at c= 22.50 m s-1 2071 BTAUXSp10 Pa 58 A Beres (deep) tau at c= 25.00 m s-1 2072 BTAUYSp10 Pa 58 A Beres (deep) tau at c= 25.00 m s-1 2073 BTAUXSp11 Pa 58 A Beres (deep) tau at c= 27.50 m s-1 2074 BTAUYSp11 Pa 58 A Beres (deep) tau at c= 27.50 m s-1 2075 BTAUXSp12 Pa 58 A Beres (deep) tau at c= 30.00 m s-1 2076 BTAUYSp12 Pa 58 A Beres (deep) tau at c= 30.00 m s-1 2077 BTAUXSp13 Pa 58 A Beres (deep) tau at c= 32.50 m s-1 2078 BTAUYSp13 Pa 58 A Beres (deep) tau at c= 32.50 m s-1 2079 BTAUXSp14 Pa 58 A Beres (deep) tau at c= 35.00 m s-1 2080 BTAUYSp14 Pa 58 A Beres (deep) tau at c= 35.00 m s-1 2081 BTAUXSp15 Pa 58 A Beres (deep) tau at c= 37.50 m s-1 2082 BTAUYSp15 Pa 58 A Beres (deep) tau at c= 37.50 m s-1 2083 BTAUXSp16 Pa 58 A Beres (deep) tau at c= 40.00 m s-1 2084 BTAUYSp16 Pa 58 A Beres (deep) tau at c= 40.00 m s-1 2085 BTAUXSp17 Pa 58 A Beres (deep) tau at c= 42.50 m s-1 2086 BTAUYSp17 Pa 58 A Beres (deep) tau at c= 42.50 m s-1 2087 BTAUXSp18 Pa 58 A Beres (deep) tau at c= 45.00 m s-1 2088 BTAUYSp18 Pa 58 A Beres (deep) tau at c= 45.00 m s-1 2089 BTAUXSp19 Pa 58 A Beres (deep) tau at c= 47.50 m s-1 2090 BTAUYSp19 Pa 58 A Beres (deep) tau at c= 47.50 m s-1 2091 BTAUXSp20 Pa 58 A Beres (deep) tau at c= 50.00 m s-1 2092 BTAUYSp20 Pa 58 A Beres (deep) tau at c= 50.00 m s-1 2093 BTAUXSp21 Pa 58 A Beres (deep) tau at c= 52.50 m s-1 2094 BTAUYSp21 Pa 58 A Beres (deep) tau at c= 52.50 m s-1 2095 BTAUXSp22 Pa 58 A Beres (deep) tau at c= 55.00 m s-1 2096 BTAUYSp22 Pa 58 A Beres (deep) tau at c= 55.00 m s-1 2097 BTAUXSp23 Pa 58 A Beres (deep) tau at c= 57.50 m s-1 2098 BTAUYSp23 Pa 58 A Beres (deep) tau at c= 57.50 m s-1 2099 BTAUXSp24 Pa 58 A Beres (deep) tau at c= 60.00 m s-1 2100 BTAUYSp24 Pa 58 A Beres (deep) tau at c= 60.00 m s-1 2101 BTAUXSp25 Pa 58 A Beres (deep) tau at c= 62.50 m s-1 2102 BTAUYSp25 Pa 58 A Beres (deep) tau at c= 62.50 m s-1 2103 BTAUXSp26 Pa 58 A Beres (deep) tau at c= 65.00 m s-1 2104 BTAUYSp26 Pa 58 A Beres (deep) tau at c= 65.00 m s-1 2105 BTAUXSp27 Pa 58 A Beres (deep) tau at c= 67.50 m s-1 2106 BTAUYSp27 Pa 58 A Beres (deep) tau at c= 67.50 m s-1 2107 BTAUXSp28 Pa 58 A Beres (deep) tau at c= 70.00 m s-1 2108 BTAUYSp28 Pa 58 A Beres (deep) tau at c= 70.00 m s-1 2109 BTAUXSp29 Pa 58 A Beres (deep) tau at c= 72.50 m s-1 2110 BTAUYSp29 Pa 58 A Beres (deep) tau at c= 72.50 m s-1 2111 BTAUXSp30 Pa 58 A Beres (deep) tau at c= 75.00 m s-1 2112 BTAUYSp30 Pa 58 A Beres (deep) tau at c= 75.00 m s-1 2113 BTAUXSp31 Pa 58 A Beres (deep) tau at c= 77.50 m s-1 2114 BTAUYSp31 Pa 58 A Beres (deep) tau at c= 77.50 m s-1 2115 BTAUXSp32 Pa 58 A Beres (deep) tau at c= 80.00 m s-1 2116 BTAUYSp32 Pa 58 A Beres (deep) tau at c= 80.00 m s-1 2117 NETDT K s-1 58 A Net heating rate 2118 MAXQ0 K day-1 1 A Max column heating rate 2119 HDEPTH km 1 A Heating Depth 2120 EKGW M2/S 59 A Effective Kzz due to diffusion by gravity waves 2121 UTGW_TOTAL m s-2 58 A Total U tendency due to gravity wave drag 2122 VTGW_TOTAL m s-2 58 A Total V tendency due to gravity wave drag 2123 TTGW K s-1 58 A T tendency - gravity wave drag 2124 QTGW kg/kg/s 58 A Q tendency - gravity wave drag 2125 CLDLIQTGW kg/kg/s 58 A CLDLIQ tendency - gravity wave drag 2126 CLDICETGW kg/kg/s 58 A CLDICE tendency - gravity wave drag 2127 HB_ri no 58 A Richardson Number (HB Scheme), I 2128 DRAGBLJ 1/s 58 A Drag profile from Beljaars SGO 2129 TAUBLJX N/m2 1 A Zonal integrated drag from Beljaars SGO 2130 TAUBLJY N/m2 1 A Meridional integrated drag from Beljaars SGO 2131 VD01 kg/kg/s 58 A Vertical diffusion of Q 2132 VDCLDLIQ kg/kg/s 58 A Vertical diffusion of CLDLIQ 2133 VDCLDICE kg/kg/s 58 A Vertical diffusion of CLDICE 2134 VDNUMLIQ kg/kg/s 58 A Vertical diffusion of NUMLIQ 2135 VDNUMICE kg/kg/s 58 A Vertical diffusion of NUMICE 2136 VDRAINQM kg/kg/s 58 A Vertical diffusion of RAINQM 2137 VDSNOWQM kg/kg/s 58 A Vertical diffusion of SNOWQM 2138 VDNUMRAI kg/kg/s 58 A Vertical diffusion of NUMRAI 2139 VDNUMSNO kg/kg/s 58 A Vertical diffusion of NUMSNO 2140 VDGRAUQM kg/kg/s 58 A Vertical diffusion of GRAUQM 2141 VDNUMGRA kg/kg/s 58 A Vertical diffusion of NUMGRA 2142 VDSO2 kg/kg/s 58 A Vertical diffusion of SO2 2143 VDH2SO4 kg/kg/s 58 A Vertical diffusion of H2SO4 2144 VDDMS kg/kg/s 58 A Vertical diffusion of DMS 2145 VDH2O2 kg/kg/s 58 A Vertical diffusion of H2O2 2146 VDSO4_NA kg/kg/s 58 A Vertical diffusion of SO4_NA 2147 VDSO4_A1 kg/kg/s 58 A Vertical diffusion of SO4_A1 2148 VDSO4_A2 kg/kg/s 58 A Vertical diffusion of SO4_A2 2149 VDSO4_AC kg/kg/s 58 A Vertical diffusion of SO4_AC 2150 VDSO4_PR kg/kg/s 58 A Vertical diffusion of SO4_PR 2151 VDBC_N kg/kg/s 58 A Vertical diffusion of BC_N 2152 VDBC_AX kg/kg/s 58 A Vertical diffusion of BC_AX 2153 VDBC_NI kg/kg/s 58 A Vertical diffusion of BC_NI 2154 VDBC_A kg/kg/s 58 A Vertical diffusion of BC_A 2155 VDBC_AI kg/kg/s 58 A Vertical diffusion of BC_AI 2156 VDBC_AC kg/kg/s 58 A Vertical diffusion of BC_AC 2157 VDOM_NI kg/kg/s 58 A Vertical diffusion of OM_NI 2158 VDOM_AI kg/kg/s 58 A Vertical diffusion of OM_AI 2159 VDOM_AC kg/kg/s 58 A Vertical diffusion of OM_AC 2160 VDDST_A2 kg/kg/s 58 A Vertical diffusion of DST_A2 2161 VDDST_A3 kg/kg/s 58 A Vertical diffusion of DST_A3 2162 VDSS_A1 kg/kg/s 58 A Vertical diffusion of SS_A1 2163 VDSS_A2 kg/kg/s 58 A Vertical diffusion of SS_A2 2164 VDSS_A3 kg/kg/s 58 A Vertical diffusion of SS_A3 2165 VDSOA_NA kg/kg/s 58 A Vertical diffusion of SOA_NA 2166 VDSOA_A1 kg/kg/s 58 A Vertical diffusion of SOA_A1 2167 VDSOA_LV kg/kg/s 58 A Vertical diffusion of SOA_LV 2168 VDSOA_SV kg/kg/s 58 A Vertical diffusion of SOA_SV 2169 VDmonoterp kg/kg/s 58 A Vertical diffusion of monoterp 2170 VDisoprene kg/kg/s 58 A Vertical diffusion of isoprene 2171 USTAR m/s 1 A Surface friction velocity 2172 KVH m2/s 59 A Vertical diffusion diffusivities (heat/moisture) 2173 KVM m2/s 59 A Vertical diffusion diffusivities (momentum) 2174 KVT m2/s 59 A Vertical diffusion kinematic molecular conductivity 2175 CGS s/m2 59 A Counter-gradient coeff on surface kinematic fluxes 2176 DTVKE K/s 58 A dT/dt vertical diffusion KE dissipation 2177 DTV K/s 58 A T vertical diffusion 2178 DUV m/s2 58 A U vertical diffusion 2179 DVV m/s2 58 A V vertical diffusion 2180 ustar 1 A 2181 obklen 1 A 2182 ICWMR kg/kg 58 A Prognostic in-cloud water mixing ratio 2183 ICIMR kg/kg 58 A Prognostic in-cloud ice mixing ratio 2184 IWC kg/m3 58 A Grid box average ice water content 2185 LWC kg/m3 58 A Grid box average liquid water content 2186 ICLDIWP kg/m2 58 A In-cloud ice water path 2187 ICLDTWP kg/m2 58 A In-cloud cloud total water path (liquid and ice) 2188 GCLDLWP kg/m2 58 A Grid-box cloud water path 2189 TGCLDCWP kg/m2 1 A Total grid-box cloud water path (liquid and ice) 2190 TGCLDLWP kg/m2 1 A Total grid-box cloud liquid water path 2191 TGCLDIWP kg/m2 1 A Total grid-box cloud ice water path 2192 lambda_cloud 1/meter 58 I lambda in cloud 2193 mu_cloud 1 58 I mu in cloud 2194 dei_cloud micrometers 58 I ice radiative effective diameter in cloud 2195 SETLWP gram/m2 58 A Prescribed liquid water path 2196 LWSH m 1 A Liquid water scale height 2197 EFFCLD fraction 58 A Effective cloud fraction 2198 EMISCLD 1 58 A cloud emissivity 2199 CLOUD fraction 58 A Cloud fraction 2200 CLDTOT fraction 1 A Vertically-integrated total cloud 2201 CLDLOW fraction 1 A Vertically-integrated low cloud from 70000. to 120000. Pa 2202 CLDMED fraction 1 A Vertically-integrated mid-level cloud from 40000. to 70000. Pa 2203 CLDHGH fraction 1 A Vertically-integrated high cloud from 5000. to 40000. Pa 2204 CMFMC kg/m2/s 59 A Moist convection (deep+shallow) mass flux 2205 CLDTOP 1 1 I Vertical index of cloud top 2206 CLDBOT 1 1 I Vertical index of cloud base 2207 PCLDTOP Pa 1 A Pressure of cloud top 2208 PCLDBOT Pa 1 A Pressure of cloud base 2209 SH_CLD fraction 58 A Shallow convective cloud cover 2210 DP_CLD fraction 58 A Deep convective cloud cover 2211 PRECZ m/s 1 A total precipitation from ZM convection 2212 ZMDT K/s 58 A T tendency - Zhang-McFarlane moist convection 2213 ZMDQ kg/kg/s 58 A Q tendency - Zhang-McFarlane moist convection 2214 ZMDICE kg/kg/s 58 A Cloud ice tendency - Zhang-McFarlane convection 2215 ZMDLIQ kg/kg/s 58 A Cloud liq tendency - Zhang-McFarlane convection 2216 EVAPTZM K/s 58 A T tendency - Evaporation/snow prod from Zhang convection 2217 FZSNTZM K/s 58 A T tendency - Rain to snow conversion from Zhang convection 2218 EVSNTZM K/s 58 A T tendency - Snow to rain prod from Zhang convection 2219 EVAPQZM kg/kg/s 58 A Q tendency - Evaporation from Zhang-McFarlane moist convection 2220 ZMFLXPRC kg/m2/s 59 A Flux of precipitation from ZM convection 2221 ZMFLXSNW kg/m2/s 59 A Flux of snow from ZM convection 2222 ZMNTPRPD kg/kg/s 58 A Net precipitation production from ZM convection 2223 ZMNTSNPD kg/kg/s 58 A Net snow production from ZM convection 2224 ZMEIHEAT W/kg 58 A Heating by ice and evaporation in ZM convection 2225 CMFMC_DP kg/m2/s 59 A Convection mass flux from ZM deep 2226 PRECCDZM m/s 1 A Convective precipitation rate from ZM deep 2227 PCONVB Pa 1 A convection base pressure 2228 PCONVT Pa 1 A convection top pressure 2229 CAPE J/kg 1 A Convectively available potential energy 2230 FREQZM fraction 1 A Fractional occurance of ZM convection 2231 ZMMTT K/s 58 A T tendency - ZM convective momentum transport 2232 ZMMTU m/s2 58 A U tendency - ZM convective momentum transport 2233 ZMMTV m/s2 58 A V tendency - ZM convective momentum transport 2234 ZMMU kg/m2/s 58 A ZM convection updraft mass flux 2235 ZMMD kg/m2/s 58 A ZM convection downdraft mass flux 2236 ZMUPGU m/s2 58 A zonal force from ZM updraft pressure gradient term 2237 ZMUPGD m/s2 58 A zonal force from ZM downdraft pressure gradient term 2238 ZMVPGU m/s2 58 A meridional force from ZM updraft pressure gradient term 2239 ZMVPGD m/s2 58 A merdional force from ZM downdraft pressure gradient term 2240 ZMICUU m/s 58 A ZM in-cloud U updrafts 2241 ZMICUD m/s 58 A ZM in-cloud U downdrafts 2242 ZMICVU m/s 58 A ZM in-cloud V updrafts 2243 ZMICVD m/s 58 A ZM in-cloud V downdrafts 2244 DLFZM kg/kg/s 58 A Detrained liquid water from ZM convection 2245 ICWMRDP kg/kg 58 A Deep Convection in-cloud water mixing ratio 2246 LCLOUD 58 A Liquid cloud fraction used in stratus activation 2247 WSUB m/s 58 A Diagnostic sub-grid vertical velocity 2248 WSUBI m/s 58 A Diagnostic sub-grid vertical velocity for ice 2249 SO4_NA_mixnuc1 kg/m2/s 1 A SO4_NA_mixnuc1 dropmixnuc column tendency 2250 SO4_NA_OCW_mixnuc1 kg/m2/s 1 A SO4_NA_OCW_mixnuc1 dropmixnuc column tendency 2251 SOA_NA_mixnuc1 kg/m2/s 1 A SOA_NA_mixnuc1 dropmixnuc column tendency 2252 SOA_NA_OCW_mixnuc1 kg/m2/s 1 A SOA_NA_OCW_mixnuc1 dropmixnuc column tendency 2253 SO4_A1_mixnuc1 kg/m2/s 1 A SO4_A1_mixnuc1 dropmixnuc column tendency 2254 SO4_A1_OCW_mixnuc1 kg/m2/s 1 A SO4_A1_OCW_mixnuc1 dropmixnuc column tendency 2255 SOA_A1_mixnuc1 kg/m2/s 1 A SOA_A1_mixnuc1 dropmixnuc column tendency 2256 SOA_A1_OCW_mixnuc1 kg/m2/s 1 A SOA_A1_OCW_mixnuc1 dropmixnuc column tendency 2257 BC_A_mixnuc1 kg/m2/s 1 A BC_A_mixnuc1 dropmixnuc column tendency 2258 BC_A_OCW_mixnuc1 kg/m2/s 1 A BC_A_OCW_mixnuc1 dropmixnuc column tendency 2259 BC_AI_mixnuc1 kg/m2/s 1 A BC_AI_mixnuc1 dropmixnuc column tendency 2260 BC_AI_OCW_mixnuc1 kg/m2/s 1 A BC_AI_OCW_mixnuc1 dropmixnuc column tendency 2261 OM_AI_mixnuc1 kg/m2/s 1 A OM_AI_mixnuc1 dropmixnuc column tendency 2262 OM_AI_OCW_mixnuc1 kg/m2/s 1 A OM_AI_OCW_mixnuc1 dropmixnuc column tendency 2263 SO4_A2_mixnuc1 kg/m2/s 1 A SO4_A2_mixnuc1 dropmixnuc column tendency 2264 SO4_A2_OCW_mixnuc1 kg/m2/s 1 A SO4_A2_OCW_mixnuc1 dropmixnuc column tendency 2265 SO4_PR_mixnuc1 kg/m2/s 1 A SO4_PR_mixnuc1 dropmixnuc column tendency 2266 SO4_PR_OCW_mixnuc1 kg/m2/s 1 A SO4_PR_OCW_mixnuc1 dropmixnuc column tendency 2267 BC_AC_mixnuc1 kg/m2/s 1 A BC_AC_mixnuc1 dropmixnuc column tendency 2268 BC_AC_OCW_mixnuc1 kg/m2/s 1 A BC_AC_OCW_mixnuc1 dropmixnuc column tendency 2269 OM_AC_mixnuc1 kg/m2/s 1 A OM_AC_mixnuc1 dropmixnuc column tendency 2270 OM_AC_OCW_mixnuc1 kg/m2/s 1 A OM_AC_OCW_mixnuc1 dropmixnuc column tendency 2271 SO4_AC_mixnuc1 kg/m2/s 1 A SO4_AC_mixnuc1 dropmixnuc column tendency 2272 SO4_AC_OCW_mixnuc1 kg/m2/s 1 A SO4_AC_OCW_mixnuc1 dropmixnuc column tendency 2273 DST_A2_mixnuc1 kg/m2/s 1 A DST_A2_mixnuc1 dropmixnuc column tendency 2274 DST_A2_OCW_mixnuc1 kg/m2/s 1 A DST_A2_OCW_mixnuc1 dropmixnuc column tendency 2275 DST_A3_mixnuc1 kg/m2/s 1 A DST_A3_mixnuc1 dropmixnuc column tendency 2276 DST_A3_OCW_mixnuc1 kg/m2/s 1 A DST_A3_OCW_mixnuc1 dropmixnuc column tendency 2277 SS_A1_mixnuc1 kg/m2/s 1 A SS_A1_mixnuc1 dropmixnuc column tendency 2278 SS_A1_OCW_mixnuc1 kg/m2/s 1 A SS_A1_OCW_mixnuc1 dropmixnuc column tendency 2279 SS_A2_mixnuc1 kg/m2/s 1 A SS_A2_mixnuc1 dropmixnuc column tendency 2280 SS_A2_OCW_mixnuc1 kg/m2/s 1 A SS_A2_OCW_mixnuc1 dropmixnuc column tendency 2281 SS_A3_mixnuc1 kg/m2/s 1 A SS_A3_mixnuc1 dropmixnuc column tendency 2282 SS_A3_OCW_mixnuc1 kg/m2/s 1 A SS_A3_OCW_mixnuc1 dropmixnuc column tendency 2283 BC_N_mixnuc1 kg/m2/s 1 A BC_N_mixnuc1 dropmixnuc column tendency 2284 BC_N_OCW_mixnuc1 kg/m2/s 1 A BC_N_OCW_mixnuc1 dropmixnuc column tendency 2285 BC_NI_mixnuc1 kg/m2/s 1 A BC_NI_mixnuc1 dropmixnuc column tendency 2286 BC_NI_OCW_mixnuc1 kg/m2/s 1 A BC_NI_OCW_mixnuc1 dropmixnuc column tendency 2287 OM_NI_mixnuc1 kg/m2/s 1 A OM_NI_mixnuc1 dropmixnuc column tendency 2288 OM_NI_OCW_mixnuc1 kg/m2/s 1 A OM_NI_OCW_mixnuc1 dropmixnuc column tendency 2289 NMR01 m 58 A number median radius mode 01 2290 NCONC01 #/m3 58 A number concentration mode 01 2291 VCONC01 m3/m3 58 A volume concentration mode 01 2292 SIGMA01 - 58 A Std. dev. mode 01 2293 HYGRO01 - 58 A Hygroscopicity 01 2294 NMR02 m 58 A number median radius mode 02 2295 NCONC02 #/m3 58 A number concentration mode 02 2296 VCONC02 m3/m3 58 A volume concentration mode 02 2297 SIGMA02 - 58 A Std. dev. mode 02 2298 HYGRO02 - 58 A Hygroscopicity 02 2299 NMR03 m 58 A number median radius mode 03 2300 NCONC03 #/m3 58 A number concentration mode 03 2301 VCONC03 m3/m3 58 A volume concentration mode 03 2302 SIGMA03 - 58 A Std. dev. mode 03 2303 HYGRO03 - 58 A Hygroscopicity 03 2304 NMR04 m 58 A number median radius mode 04 2305 NCONC04 #/m3 58 A number concentration mode 04 2306 VCONC04 m3/m3 58 A volume concentration mode 04 2307 SIGMA04 - 58 A Std. dev. mode 04 2308 HYGRO04 - 58 A Hygroscopicity 04 2309 NMR05 m 58 A number median radius mode 05 2310 NCONC05 #/m3 58 A number concentration mode 05 2311 VCONC05 m3/m3 58 A volume concentration mode 05 2312 SIGMA05 - 58 A Std. dev. mode 05 2313 HYGRO05 - 58 A Hygroscopicity 05 2314 NMR06 m 58 A number median radius mode 06 2315 NCONC06 #/m3 58 A number concentration mode 06 2316 VCONC06 m3/m3 58 A volume concentration mode 06 2317 SIGMA06 - 58 A Std. dev. mode 06 2318 HYGRO06 - 58 A Hygroscopicity 06 2319 NMR07 m 58 A number median radius mode 07 2320 NCONC07 #/m3 58 A number concentration mode 07 2321 VCONC07 m3/m3 58 A volume concentration mode 07 2322 SIGMA07 - 58 A Std. dev. mode 07 2323 HYGRO07 - 58 A Hygroscopicity 07 2324 NMR08 m 58 A number median radius mode 08 2325 NCONC08 #/m3 58 A number concentration mode 08 2326 VCONC08 m3/m3 58 A volume concentration mode 08 2327 SIGMA08 - 58 A Std. dev. mode 08 2328 HYGRO08 - 58 A Hygroscopicity 08 2329 NMR09 m 58 A number median radius mode 09 2330 NCONC09 #/m3 58 A number concentration mode 09 2331 VCONC09 m3/m3 58 A volume concentration mode 09 2332 SIGMA09 - 58 A Std. dev. mode 09 2333 HYGRO09 - 58 A Hygroscopicity 09 2334 NMR10 m 58 A number median radius mode 10 2335 NCONC10 #/m3 58 A number concentration mode 10 2336 VCONC10 m3/m3 58 A volume concentration mode 10 2337 SIGMA10 - 58 A Std. dev. mode 10 2338 HYGRO10 - 58 A Hygroscopicity 10 2339 NMR11 m 58 A number median radius mode 11 2340 NCONC11 #/m3 58 A number concentration mode 11 2341 VCONC11 m3/m3 58 A volume concentration mode 11 2342 SIGMA11 - 58 A Std. dev. mode 11 2343 HYGRO11 - 58 A Hygroscopicity 11 2344 NMR12 m 58 A number median radius mode 12 2345 NCONC12 #/m3 58 A number concentration mode 12 2346 VCONC12 m3/m3 58 A volume concentration mode 12 2347 SIGMA12 - 58 A Std. dev. mode 12 2348 HYGRO12 - 58 A Hygroscopicity 12 2349 NMR13 m 58 A number median radius mode 13 2350 NCONC13 #/m3 58 A number concentration mode 13 2351 VCONC13 m3/m3 58 A volume concentration mode 13 2352 SIGMA13 - 58 A Std. dev. mode 13 2353 HYGRO13 - 58 A Hygroscopicity 13 2354 NMR14 m 58 A number median radius mode 14 2355 NCONC14 #/m3 58 A number concentration mode 14 2356 VCONC14 m3/m3 58 A volume concentration mode 14 2357 SIGMA14 - 58 A Std. dev. mode 14 2358 HYGRO14 - 58 A Hygroscopicity 14 2359 CCN1 #/cm3 58 A CCN concentration at S=0.02% 2360 CCN2 #/cm3 58 A CCN concentration at S=0.05% 2361 CCN3 #/cm3 58 A CCN concentration at S=0.1% 2362 CCN4 #/cm3 58 A CCN concentration at S=0.15% 2363 CCN5 #/cm3 58 A CCN concentration at S=0.2% 2364 CCN6 #/cm3 58 A CCN concentration at S=0.5% 2365 CCN7 #/cm3 58 A CCN concentration at S=1.0% 2366 WTKE m/s 58 A Standard deviation of updraft velocity 2367 NDROPMIX #/kg/s 58 A Droplet number mixing 2368 NDROPSRC #/kg/s 58 A Droplet number source 2369 NDROPSNK #/kg/s 58 A Droplet number loss by microphysics 2370 NDROPCOL #/m2 1 A Column droplet number 2371 NIHFTEN 1/m3/s 58 A Activated Ice Number Concentration tendency due to homogenous freezing 2372 NIDEPTEN 1/m3/s 58 A Activated Ice Number Concentration tendency due to deposition nucleation 2373 NIIMMTEN 1/m3/s 58 A Activated Ice Number Concentration tendency due to immersion freezing 2374 NIMEYTEN 1/m3/s 58 A Activated Ice Number Concentration tendency due to meyers deposition 2375 NIREGM C 58 A Ice Nucleation Temperature Threshold for Regime 2376 NISUBGRID 58 A Ice Nucleation subgrid saturation factor 2377 NITROP_PD 58 A Chemical Tropopause probability 2378 fhom fraction 58 A Fraction of cirrus where homogeneous freezing occur 2379 WICE m/s 58 A Vertical velocity Reduction caused by preexisting ice 2380 WEFF m/s 58 A Effective Vertical velocity for ice nucleation 2381 INnso4TEN 1/m3/s 58 A Number Concentration tendency so4 (in) to ice_nucleation 2382 INnbcTEN 1/m3/s 58 A Number Concentration tendency bc (in) to ice_nucleation 2383 INndustTEN 1/m3/s 58 A Number Concentration tendency dust (in) ice_nucleation 2384 INondustTEN 1/m3/s 58 A Number Concentration tendency dust (out) from ice_nucleation 2385 INhetTEN 1/m3/s 58 A Tendency for contribution for in-cloud ice number density increase by het nucleation in ice cloud 2386 INhomTEN 1/m3/s 58 A Tendency for contribution for in-cloud ice number density increase by hom nucleation in ice cloud 2387 INFrehom frequency 58 A hom IN frequency ice cloud 2388 INFreIN frequency 58 A frequency of ice nucleation occur 2389 bc_num #/cm3 58 A total bc number 2390 dst1_num #/cm3 58 A total dst1 number 2391 dst3_num #/cm3 58 A total dst3 number 2392 bcc_num #/cm3 58 A coated bc number 2393 dst1c_num #/cm3 58 A coated dst1 number 2394 dst3c_num #/cm3 58 A coated dst3 number 2395 bcuc_num #/cm3 58 A uncoated bc number 2396 dst1uc_num #/cm3 58 A uncoated dst1 number 2397 dst3uc_num #/cm3 58 A uncoated dst3 number 2398 bc_a1_num #/cm3 58 A interstitial bc number 2399 dst_a1_num #/cm3 58 A interstitial dst1 number 2400 dst_a3_num #/cm3 58 A interstitial dst3 number 2401 bc_c1_num #/cm3 58 A cloud borne bc number 2402 dst_c1_num #/cm3 58 A cloud borne dst1 number 2403 dst_c3_num #/cm3 58 A cloud borne dst3 number 2404 fn_bc_c1_num #/cm3 58 A cloud borne bc number derived from fn 2405 fn_dst_c1_num #/cm3 58 A cloud borne dst1 number derived from fn 2406 fn_dst_c3_num #/cm3 58 A cloud borne dst3 number derived from fn 2407 na500 #/cm3 58 A interstitial aerosol number with D>500 nm 2408 totna500 #/cm3 58 A total aerosol number with D>500 nm 2409 FREQIMM fraction 58 A Fractional occurance of immersion freezing 2410 FREQCNT fraction 58 A Fractional occurance of contact freezing 2411 FREQDEP fraction 58 A Fractional occurance of deposition freezing 2412 FREQMIX fraction 58 A Fractional occurance of mixed-phase clouds 2413 DSTFREZIMM m-3s-1 58 A dust immersion freezing rate 2414 DSTFREZCNT m-3s-1 58 A dust contact freezing rate 2415 DSTFREZDEP m-3s-1 58 A dust deposition freezing rate 2416 BCFREZIMM m-3s-1 58 A bc immersion freezing rate 2417 BCFREZCNT m-3s-1 58 A bc contact freezing rate 2418 BCFREZDEP m-3s-1 58 A bc deposition freezing rate 2419 NIMIX_IMM #/m3 58 A Activated Ice Number Concentration due to het immersion freezing in Mixed Clouds 2420 NIMIX_CNT #/m3 58 A Activated Ice Number Concentration due to het contact freezing in Mixed Clouds 2421 NIMIX_DEP #/m3 58 A Activated Ice Number Concentration due to het deposition freezing in Mixed Clouds 2422 DSTNIDEP #/m3 58 A Activated Ice Number Concentration due to dst dep freezing in Mixed Clouds 2423 DSTNICNT #/m3 58 A Activated Ice Number Concentration due to dst cnt freezing in Mixed Clouds 2424 DSTNIIMM #/m3 58 A Activated Ice Number Concentration due to dst imm freezing in Mixed Clouds 2425 BCNIDEP #/m3 58 A Activated Ice Number Concentration due to bc dep freezing in Mixed Clouds 2426 BCNICNT #/m3 58 A Activated Ice Number Concentration due to bc cnt freezing in Mixed Clouds 2427 BCNIIMM #/m3 58 A Activated Ice Number Concentration due to bc imm freezing in Mixed Clouds 2428 NUMICE10s #/m3 58 A Ice Number Concentration due to het freezing in Mixed Clouds during 10-s period 2429 NUMIMM10sDST #/m3 58 A Ice Number Concentration due to imm freezing by dst in Mixed Clouds during 10-s period 2430 NUMIMM10sBC #/m3 58 A Ice Number Concentration due to imm freezing by bc in Mixed Clouds during 10-s period 2431 CLDLIQ kg/kg 58 A Grid box averaged cloud liquid amount 2432 SFCLDLIQ kg/m2/s 1 A CLDLIQ surface flux 2433 CLDICE kg/kg 58 A Grid box averaged cloud ice amount 2434 SFCLDICE kg/m2/s 1 A CLDICE surface flux 2435 NUMLIQ 1/kg 58 A Grid box averaged cloud liquid number 2436 SFNUMLIQ 1/m2/s 1 A NUMLIQ surface flux 2437 NUMICE 1/kg 58 A Grid box averaged cloud ice number 2438 SFNUMICE 1/m2/s 1 A NUMICE surface flux 2439 RAINQM kg/kg 58 A Grid box averaged rain amount 2440 SFRAINQM kg/m2/s 1 A RAINQM surface flux 2441 SNOWQM kg/kg 58 A Grid box averaged snow amount 2442 SFSNOWQM kg/m2/s 1 A SNOWQM surface flux 2443 NUMRAI 1/kg 58 A Grid box averaged rain number 2444 SFNUMRAI 1/m2/s 1 A NUMRAI surface flux 2445 NUMSNO 1/kg 58 A Grid box averaged snow number 2446 SFNUMSNO 1/m2/s 1 A NUMSNO surface flux 2447 GRAUQM kg/kg 58 A Grid box averaged graupel/hail amount 2448 SFGRAUQM kg/m2/s 1 A GRAUQM surface flux 2449 NUMGRA 1/kg 58 A Grid box averaged graupel/hail number 2450 SFNUMGRA 1/m2/s 1 A NUMGRA surface flux 2451 CLDLIQAP kg/kg 58 A CLDLIQ after physics 2452 CLDICEAP kg/kg 58 A CLDICE after physics 2453 CLDLIQBP kg/kg 58 A CLDLIQ before physics 2454 CLDICEBP kg/kg 58 A CLDICE before physics 2455 RAINQMAP kg/kg 58 A RAINQM after physics 2456 SNOWQMAP kg/kg 58 A SNOWQM after physics 2457 RAINQMBP kg/kg 58 A RAINQM before physics 2458 SNOWQMBP kg/kg 58 A SNOWQM before physics 2459 GRAUQMAP kg/kg 58 A GRAUQM after physics 2460 GRAUQMBP kg/kg 58 A GRAUQM before physics 2461 CME kg/kg/s 58 A Rate of cond-evap within the cloud 2462 PRODPREC kg/kg/s 58 A Rate of conversion of condensate to precip 2463 EVAPPREC kg/kg/s 58 A Rate of evaporation of falling precip 2464 EVAPSNOW kg/kg/s 58 A Rate of evaporation of falling snow 2465 HPROGCLD W/kg 58 A Heating from prognostic clouds 2466 FICE fraction 58 A Fractional ice content within cloud 2467 CLDFSNOW 1 58 A Cloud fraction adjusted for snow 2468 ICWMRST kg/kg 58 A Prognostic in-stratus water mixing ratio 2469 ICIMRST kg/kg 58 A Prognostic in-stratus ice mixing ratio 2470 QCSEVAP kg/kg/s 58 A Rate of evaporation of falling cloud water 2471 QISEVAP kg/kg/s 58 A Rate of sublimation of falling cloud ice 2472 QVRES kg/kg/s 58 A Rate of residual condensation term 2473 CMEIOUT kg/kg/s 58 A Rate of deposition/sublimation of cloud ice 2474 VTRMC m/s 58 A Mass-weighted cloud water fallspeed 2475 VTRMI m/s 58 A Mass-weighted cloud ice fallspeed 2476 QCSEDTEN kg/kg/s 58 A Cloud water mixing ratio tendency from sedimentation 2477 QISEDTEN kg/kg/s 58 A Cloud ice mixing ratio tendency from sedimentation 2478 PRAO kg/kg/s 58 A Accretion of cloud water by rain 2479 PRCO kg/kg/s 58 A Autoconversion of cloud water 2480 MNUCCCO kg/kg/s 58 A Immersion freezing of cloud water 2481 MNUCCTO kg/kg/s 58 A Contact freezing of cloud water 2482 MNUCCDO kg/kg/s 58 A Homogeneous and heterogeneous nucleation from vapor 2483 MNUCCDOhet kg/kg/s 58 A Heterogeneous nucleation from vapor 2484 MSACWIO kg/kg/s 58 A Conversion of cloud water from rime-splintering 2485 PSACWSO kg/kg/s 58 A Accretion of cloud water by snow 2486 BERGSO kg/kg/s 58 A Conversion of cloud water to snow from bergeron 2487 BERGO kg/kg/s 58 A Conversion of cloud water to cloud ice from bergeron 2488 MELTO kg/kg/s 58 A Melting of cloud ice 2489 MELTSTOT kg/kg/s 58 A Melting of snow 2490 MNUDEPO kg/kg/s 58 A Deposition Nucleation 2491 HOMOO kg/kg/s 58 A Homogeneous freezing of cloud water 2492 QCRESO kg/kg/s 58 A Residual condensation term for cloud water 2493 PRCIO kg/kg/s 58 A Autoconversion of cloud ice to snow 2494 PRAIO kg/kg/s 58 A Accretion of cloud ice to snow 2495 QIRESO kg/kg/s 58 A Residual deposition term for cloud ice 2496 MNUCCRO kg/kg/s 58 A Heterogeneous freezing of rain to snow 2497 MNUCCRIO kg/kg/s 58 A Heterogeneous freezing of rain to ice 2498 PRACSO kg/kg/s 58 A Accretion of rain by snow 2499 VAPDEPSO kg/kg/s 58 A Vapor deposition onto snow 2500 MELTSDT W/kg 58 A Latent heating rate due to melting of snow 2501 FRZRDT W/kg 58 A Latent heating rate due to homogeneous freezing of rain 2502 QRSEDTEN kg/kg/s 58 A Rain mixing ratio tendency from sedimentation 2503 QSSEDTEN kg/kg/s 58 A Snow mixing ratio tendency from sedimentation 2504 NNUCCCO #/kg/s 58 A Number Tendency due to Immersion freezing of cloud water 2505 NNUCCTO #/kg/s 58 A Number Tendency due to Contact freezing of cloud water 2506 NNUCCDO #/kg/s 58 A Number Tendency due to Ice nucleation 2507 NNUDEPO #/kg/s 58 A Number Tendency due to Deposition Nucleation 2508 NHOMO #/kg/s 58 A Number Tendency due to Homogeneous freezing of cloud water 2509 NNUCCRO #/kg/s 58 A Number Tendency due to heterogeneous freezing of rain to snow 2510 NNUCCRIO #/kg/s 58 A Number Tendency due to Heterogeneous freezing of rain to ice 2511 NSACWIO #/kg/s 58 A Number Tendency due to Ice Multiplication- Rime-splintering 2512 NPRAO #/kg/s 58 A Number Tendency due to Accretion of cloud water by rain 2513 NPSACWSO #/kg/s 58 A Number Tendency due to Accretion of cloud water by snow 2514 NPRAIO #/kg/s 58 A Number Tendency due to Accretion of cloud ice to snow 2515 NPRACSO #/kg/s 58 A Number Tendency due to Accretion of rain by snow 2516 NPRCO #/kg/s 58 A Number Tendency due to Autoconversion of cloud water [to rain] 2517 NPRCIO #/kg/s 58 A Number Tendency due to Autoconversion of cloud ice to snow 2518 NCSEDTEN #/kg/s 58 A Number Tendency due to cloud liquid sedimentation 2519 NISEDTEN #/kg/s 58 A Number Tendency due to cloud ice sedimentation 2520 NRSEDTEN #/kg/s 58 A Number Tendency due to rain sedimentation 2521 NSSEDTEN #/kg/s 58 A Number Tendency due to snow sedimentation 2522 NMELTO #/kg/s 58 A Number Tendency due to Melting of cloud ice 2523 NMELTS #/kg/s 58 A Number Tendency due to Melting of snow 2524 qctend_KK2000 kg/kg/s 58 A cloud liquid mass tendency due to autoconversion & accretion from KK2000 2525 nctend_KK2000 #/kg/s 58 A cloud number mass tendency due to autoconversion & accretion from KK2000 2526 qrtend_KK2000 kg/kg/s 58 A rain mass tendency due to autoconversion & accretion from KK2000 2527 nrtend_KK2000 #/kg/s 58 A rain number tendency due to autoconversion & accretion from KK2000 2528 LAMC unitless 58 A Size distribution parameter lambda for liquid 2529 LAMR unitless 58 A Size distribution parameter lambda for rain 2530 PGAM unitless 58 A Size distribution parameter mu (pgam) for liquid 2531 N0R unitless 58 A Size distribution parameter n0 for rain 2532 NMELTG #/kg/s 58 A Number Tendency due to Melting of graupel 2533 NGSEDTEN #/kg/s 58 A Number Tendency due to graupel sedimentation 2534 PSACRO kg/kg/s 58 A Collisions between rain & snow (Graupel collecting snow) 2535 PRACGO kg/kg/s 58 A Change in q collection rain by graupel 2536 PSACWGO kg/kg/s 58 A Change in q collection droplets by graupel 2537 PGSACWO kg/kg/s 58 A Q conversion to graupel due to collection droplets by snow 2538 PGRACSO kg/kg/s 58 A Q conversion to graupel due to collection rain by snow 2539 PRDGO kg/kg/s 58 A Deposition of graupel 2540 QMULTGO kg/kg/s 58 A Q change due to ice mult droplets/graupel 2541 QMULTRGO kg/kg/s 58 A Q change due to ice mult rain/graupel 2542 QGSEDTEN kg/kg/s 58 A Graupel/Hail mixing ratio tendency from sedimentation 2543 NPRACGO #/kg/s 58 A Change N collection rain by graupel 2544 NSCNGO #/kg/s 58 A Change N conversion to graupel due to collection droplets by snow 2545 NGRACSO #/kg/s 58 A Change N conversion to graupel due to collection rain by snow 2546 NMULTGO #/kg/s 58 A Ice mult due to acc droplets by graupel 2547 NMULTRGO #/kg/s 58 A Ice mult due to acc rain by graupel 2548 NPSACWGO #/kg/s 58 A Change N collection droplets by graupel 2549 CLDFGRAU 1 58 A Cloud fraction adjusted for graupel 2550 MELTGTOT kg/kg/s 58 A Melting of graupel 2551 RBFRAC Fraction 1 A Fraction of sky covered by a potential rainbow 2552 RBFREQ Frequency 1 A Potential rainbow frequency 2553 rbSZA degrees 1 I solar zenith angle 2554 MPDT W/kg 58 A Heating tendency - Morrison microphysics 2555 MPDQ kg/kg/s 58 A Q tendency - Morrison microphysics 2556 MPDLIQ kg/kg/s 58 A CLDLIQ tendency - Morrison microphysics 2557 MPDICE kg/kg/s 58 A CLDICE tendency - Morrison microphysics 2558 MPDNLIQ 1/kg/s 58 A NUMLIQ tendency - Morrison microphysics 2559 MPDNICE 1/kg/s 58 A NUMICE tendency - Morrison microphysics 2560 MPDW2V kg/kg/s 58 A Water <--> Vapor tendency - Morrison microphysics 2561 MPDW2I kg/kg/s 58 A Water <--> Ice tendency - Morrison microphysics 2562 MPDW2P kg/kg/s 58 A Water <--> Precip tendency - Morrison microphysics 2563 MPDI2V kg/kg/s 58 A Ice <--> Vapor tendency - Morrison microphysics 2564 MPDI2W kg/kg/s 58 A Ice <--> Water tendency - Morrison microphysics 2565 MPDI2P kg/kg/s 58 A Ice <--> Precip tendency - Morrison microphysics 2566 ICWNC m-3 58 A Prognostic in-cloud water number conc 2567 ICINC m-3 58 A Prognostic in-cloud ice number conc 2568 EFFLIQ_IND Micron 58 A Prognostic droplet effective radius (indirect effect) 2569 CDNUMC 1/m2 1 A Vertically-integrated droplet concentration 2570 MPICLWPI kg/m2 1 A Vertically-integrated in-cloud Initial Liquid WP (Before Micro) 2571 MPICIWPI kg/m2 1 A Vertically-integrated in-cloud Initial Ice WP (Before Micro) 2572 AWNC m-3 58 A Average cloud water number conc 2573 AWNI m-3 58 A Average cloud ice number conc 2574 AREL Micron 58 A Average droplet effective radius 2575 AREI Micron 58 A Average ice effective radius 2576 FREQL fraction 58 A Fractional occurrence of liquid 2577 FREQI fraction 58 A Fractional occurrence of ice 2578 ACTREL Micron 1 A Average Cloud Top droplet effective radius 2579 ACTREI Micron 1 A Average Cloud Top ice effective radius 2580 ACTNL m-3 1 A Average Cloud Top droplet number 2581 ACTNI m-3 1 A Average Cloud Top ice number 2582 FCTL fraction 1 A Fractional occurrence of cloud top liquid 2583 FCTI fraction 1 A Fractional occurrence of cloud top ice 2584 FREQM fraction 58 A Fractional occurrence of mixed phase 2585 FREQSL fraction 58 A Fractional occurrence of only supercooled liquid 2586 FREQSLM fraction 58 A Fractional occurrence of super cooled liquid with ice 2587 FCTM fraction 1 A Fractional occurrence of cloud top mixed phase 2588 FCTSL fraction 1 A Fractional occurrence of cloud top only supercooled liquid 2589 FCTSLM fraction 1 A Fractional occurrence of cloud top super cooled liquid with ice 2590 LS_FLXPRC kg/m2/s 59 A ls stratiform gbm interface rain+snow flux 2591 LS_FLXSNW kg/m2/s 59 A ls stratiform gbm interface snow flux 2592 REL micron 58 A MG REL stratiform cloud effective radius liquid 2593 REI micron 58 A MG REI stratiform cloud effective radius ice 2594 LS_REFFRAIN micron 58 A ls stratiform rain effective radius 2595 LS_REFFSNOW micron 58 A ls stratiform snow effective radius 2596 CV_REFFLIQ micron 58 A convective cloud liq effective radius 2597 CV_REFFICE micron 58 A convective cloud ice effective radius 2598 MG_SADICE cm2/cm3 58 A MG surface area density ice 2599 MG_SADSNOW cm2/cm3 58 A MG surface area density snow 2600 QRAIN kg/kg 58 A Diagnostic grid-mean rain mixing ratio 2601 QSNOW kg/kg 58 A Diagnostic grid-mean snow mixing ratio 2602 NRAIN m-3 58 A Diagnostic grid-mean rain number conc 2603 NSNOW m-3 58 A Diagnostic grid-mean snow number conc 2604 RERCLD m 58 A Diagnostic effective radius of Liquid Cloud and Rain 2605 DSNOW m 58 A Diagnostic grid-mean snow diameter 2606 REFL DBz 58 A 94 GHz radar reflectivity 2607 AREFL DBz 58 A Average 94 GHz radar reflectivity 2608 FREFL fraction 58 A Fractional occurrence of radar reflectivity 2609 CSRFL DBz 58 A 94 GHz radar reflectivity (CloudSat thresholds) 2610 ACSRFL DBz 58 A Average 94 GHz radar reflectivity (CloudSat thresholds) 2611 FCSRFL fraction 58 A Fractional occurrence of radar reflectivity (CloudSat thresholds) 2612 AREFLZ mm^6/m^3 58 A Average 94 GHz radar reflectivity 2613 REFL10CM DBz 58 A 10cm (Rain) radar reflectivity (Dbz) 2614 REFLZ10CM mm^6/m^3 58 A 10cm (Rain) radar reflectivity (Z units) 2615 NCAL 1/m3 58 A Number Concentation Activated for Liquid 2616 NCAI 1/m3 58 A Number Concentation Activated for Ice 2617 AQRAIN kg/kg 58 A Average rain mixing ratio 2618 AQSNOW kg/kg 58 A Average snow mixing ratio 2619 ANRAIN m-3 58 A Average rain number conc 2620 ANSNOW m-3 58 A Average snow number conc 2621 ADRAIN m 58 A Average rain effective Diameter 2622 ADSNOW m 58 A Average snow effective Diameter 2623 FREQR fraction 58 A Fractional occurrence of rain 2624 FREQS fraction 58 A Fractional occurrence of snow 2625 PE 1 1 A Stratiform Precipitation Efficiency (precip/cmeliq) 2626 APRL m/s 1 A Average Stratiform Precip Rate over efficiency calculation 2627 PEFRAC 1 1 A Fraction of timesteps precip efficiency reported 2628 VPRCO kg/kg/s 1 A Vertical average of autoconversion rate 2629 VPRAO kg/kg/s 1 A Vertical average of accretion rate 2630 RACAU kg/kg/s 1 A Accretion/autoconversion ratio from vertical average 2631 UMR m/s 58 A Mass-weighted rain fallspeed 2632 UMS m/s 58 A Mass-weighted snow fallspeed 2633 UMG m/s 58 A Mass-weighted graupel/hail fallspeed 2634 FREQG fraction 58 A Fractional occurrence of Graupel 2635 LS_REFFGRAU micron 58 A ls stratiform graupel/hail effective radius 2636 AQGRAU kg/kg 58 A Average graupel/hail mixing ratio 2637 ANGRAU m-3 58 A Average graupel/hail number conc 2638 QCRAT fraction 58 A Qc Limiter: Fraction of qc tendency applied 2639 ICIMRCU kg/kg 58 A Convection in-cloud ice mixing ratio 2640 ICLMRCU kg/kg 58 A Convection in-cloud liquid mixing ratio 2641 ICIMRTOT kg/kg 58 A Total in-cloud ice mixing ratio 2642 ICLMRTOT kg/kg 58 A Total in-cloud liquid mixing ratio 2643 GCLMRDP kg/kg 58 A Grid-mean deep convective LWC 2644 GCIMRDP kg/kg 58 A Grid-mean deep convective IWC 2645 GCLMRSH kg/kg 58 A Grid-mean shallow convective LWC 2646 GCIMRSH kg/kg 58 A Grid-mean shallow convective IWC 2647 FRESH 1 58 A Fractional occurrence of shallow cumulus with condensate 2648 FREDP 1 58 A Fractional occurrence of deep cumulus with condensate 2649 FRECU 1 58 A Fractional occurrence of cumulus with condensate 2650 FRETOT 1 58 A Fractional occurrence of cloud with condensate 2651 RHO_CLUBB kg/m3 58 A Air Density 2652 UP2_CLUBB m2/s2 59 A Zonal Velocity Variance 2653 VP2_CLUBB m2/s2 59 A Meridional Velocity Variance 2654 WP2_CLUBB m2/s2 59 A Vertical Velocity Variance 2655 WP2_ZT_CLUBB m2/s2 58 A Vert Vel Variance on zt grid 2656 UPWP_CLUBB m2/s2 59 A Zonal Momentum Flux 2657 VPWP_CLUBB m2/s2 59 A Meridional Momentum Flux 2658 WP3_CLUBB m3/s3 58 A Third Moment Vertical Velocity 2659 WPTHLP_CLUBB W/m2 59 A Heat Flux 2660 WPRTP_CLUBB W/m2 59 A Moisture Flux 2661 RTP2_CLUBB kg^2/kg^2 59 A Moisture Variance 2662 RTP2_ZT_CLUBB kg^2/kg^2 58 A Moisture Variance on zt grid 2663 PDFP_RTP2_CLUBB kg^2/kg^2 59 A PDF Rtot Variance 2664 THLP2_CLUBB K^2 59 A Temperature Variance 2665 THLP2_ZT_CLUBB K^2 58 A Temperature Variance on zt grid 2666 RTPTHLP_CLUBB K kg/kg 59 A Temp. Moist. Covariance 2667 RCM_CLUBB kg/kg 58 A Cloud Water Mixing Ratio 2668 RTM_CLUBB kg/kg 58 A Total Water Mixing Ratio 2669 THLM_CLUBB K 58 A Liquid Water Potential Temperature 2670 WPRCP_CLUBB W/m2 59 A Liquid Water Flux 2671 CLOUDFRAC_CLUBB fraction 58 A Cloud Fraction 2672 RCMINLAYER_CLUBB kg/kg 58 A Cloud Water in Layer 2673 CLOUDCOVER_CLUBB fraction 58 A Cloud Cover 2674 WPTHVP_CLUBB W/m2 59 A Buoyancy Flux 2675 RVMTEND_CLUBB kg/kg /s 58 A Water vapor tendency 2676 STEND_CLUBB J/(kg s) 58 A Static energy tendency 2677 RCMTEND_CLUBB kg/kg /s 58 A Cloud Liquid Water Tendency 2678 RIMTEND_CLUBB kg/kg /s 58 A Cloud Ice Tendency 2679 UTEND_CLUBB m/s /s 58 A U-wind Tendency 2680 VTEND_CLUBB m/s /s 58 A V-wind Tendency 2681 ZT_CLUBB m 58 A Thermodynamic Heights 2682 ZM_CLUBB m 59 A Momentum Heights 2683 UM_CLUBB m/s 58 A Zonal Wind 2684 VM_CLUBB m/s 58 A Meridional Wind 2685 WM_ZT_CLUBB m/s 58 A Vertical Velocity 2686 PBLH m 1 A PBL height 2687 CLDST fraction 58 A Stratus cloud fraction 2688 ZMDLF kg/kg/s 58 A Detrained liquid water from ZM convection 2689 TTENDICE K/s 58 A T tendency from Ice Saturation Adjustment 2690 QVTENDICE kg/kg/s 58 A Q tendency from Ice Saturation Adjustment 2691 QITENDICE kg/kg/s 58 A CLDICE tendency from Ice Saturation Adjustment 2692 NITENDICE kg/kg/s 58 A NUMICE tendency from Ice Saturation Adjustment 2693 QCTENDICE kg/kg/s 58 A CLDICE tendency from Ice Saturation Adjustment 2694 NCTENDICE kg/kg/s 58 A NUMICE tendency from Ice Saturation Adjustment 2695 FQTENDICE fraction 58 A Frequency of Ice Saturation Adjustment 2696 DPDLFLIQ kg/kg/s 58 A Detrained liquid water from deep convection 2697 DPDLFICE kg/kg/s 58 A Detrained ice from deep convection 2698 DPDLFT K/s 58 A T-tendency due to deep convective detrainment 2699 RELVAR - 58 A Relative cloud water variance 2700 CLUBB_GRID_SIZE m 1 A Horizontal grid box size seen by CLUBB 2701 ZMDLFI kg/kg/s 58 A Detrained ice water from ZM convection 2702 CONCLD fraction 58 A Convective cloud cover 2703 CMELIQ kg/kg/s 58 A Rate of cond-evap of liq within the cloud 2704 DETNLIQTND 1/kg/s 58 A CLDNUM tendency in detrained water 2705 QSATFAC - 58 A Subgrid cloud water saturation scaling factor 2706 KVH_CLUBB m2/s 59 A CLUBB vertical diffusivity of heat/moisture on interface levels 2707 ELEAK_CLUBB W/m2 1 A CLUBB energy leak 2708 TFIX_CLUBB K 1 A Temperature increment to conserve energy 2709 TROP_P Pa 1 A Tropopause Pressure 2710 TROP_T K 1 A Tropopause Temperature 2711 TROP_Z m 1 A Tropopause Height 2712 TROP_DZ m 58 A Relative Tropopause Height 2713 TROP_PD probability 58 A Tropopause Probabilty 2714 TROP_FD probability 1 A Tropopause Found 2715 TROPP_P Pa 1 A Tropopause Pressure (primary) 2716 TROPP_T K 1 A Tropopause Temperature (primary) 2717 TROPP_Z m 1 A Tropopause Height (primary) 2718 TROPP_DZ m 58 A Relative Tropopause Height (primary) 2719 TROPP_PD probability 58 A Tropopause Distribution (primary) 2720 TROPP_FD probability 1 A Tropopause Found (primary) 2721 TROPF_P Pa 1 A Tropopause Pressure (cold point) 2722 TROPF_T K 1 A Tropopause Temperature (cold point) 2723 TROPF_Z m 1 A Tropopause Height (cold point) 2724 TROPF_DZ m 58 A Relative Tropopause Height (cold point) 2725 TROPF_PD probability 58 A Tropopause Distribution (cold point) 2726 TROPF_FD probability 1 A Tropopause Found (cold point) 2727 hstobie_trop fraction of mode 58 I Lowest level with stratospheric chemsitry 2728 hstobie_linoz fraction of mode 58 I Lowest possible Linoz level 2729 hstobie_tropop fraction of mode 58 I Troposphere boundary calculated in chemistry 2730 DADADJ_PD probability 58 A dry adiabatic adjustment probability 2731 Q_qneg3 kg/kg 58 I Specific humidity QNEG3 error (cell) 2732 Q_qneg3_col kg/kg 1 I Specific humidity QNEG3 error (column) 2733 CLDLIQ_qneg3 kg/kg 58 I Grid box averaged cloud liquid amount QNEG3 error (cell) 2734 CLDLIQ_qneg3_col kg/kg 1 I Grid box averaged cloud liquid amount QNEG3 error (column) 2735 CLDICE_qneg3 kg/kg 58 I Grid box averaged cloud ice amount QNEG3 error (cell) 2736 CLDICE_qneg3_col kg/kg 1 I Grid box averaged cloud ice amount QNEG3 error (column) 2737 NUMLIQ_qneg3 kg/kg 58 I Grid box averaged cloud liquid number QNEG3 error (cell) 2738 NUMLIQ_qneg3_col kg/kg 1 I Grid box averaged cloud liquid number QNEG3 error (column) 2739 NUMICE_qneg3 kg/kg 58 I Grid box averaged cloud ice number QNEG3 error (cell) 2740 NUMICE_qneg3_col kg/kg 1 I Grid box averaged cloud ice number QNEG3 error (column) 2741 RAINQM_qneg3 kg/kg 58 I Grid box averaged rain amount QNEG3 error (cell) 2742 RAINQM_qneg3_col kg/kg 1 I Grid box averaged rain amount QNEG3 error (column) 2743 SNOWQM_qneg3 kg/kg 58 I Grid box averaged snow amount QNEG3 error (cell) 2744 SNOWQM_qneg3_col kg/kg 1 I Grid box averaged snow amount QNEG3 error (column) 2745 NUMRAI_qneg3 kg/kg 58 I Grid box averaged rain number QNEG3 error (cell) 2746 NUMRAI_qneg3_col kg/kg 1 I Grid box averaged rain number QNEG3 error (column) 2747 NUMSNO_qneg3 kg/kg 58 I Grid box averaged snow number QNEG3 error (cell) 2748 NUMSNO_qneg3_col kg/kg 1 I Grid box averaged snow number QNEG3 error (column) 2749 GRAUQM_qneg3 kg/kg 58 I Grid box averaged graupel/hail amount QNEG3 error (cell) 2750 GRAUQM_qneg3_col kg/kg 1 I Grid box averaged graupel/hail amount QNEG3 error (column) 2751 NUMGRA_qneg3 kg/kg 58 I Grid box averaged graupel/hail number QNEG3 error (cell) 2752 NUMGRA_qneg3_col kg/kg 1 I Grid box averaged graupel/hail number QNEG3 error (column) 2753 SO2_qneg3 kg/kg 58 I SO2 QNEG3 error (cell) 2754 SO2_qneg3_col kg/kg 1 I SO2 QNEG3 error (column) 2755 H2SO4_qneg3 kg/kg 58 I H2SO4 QNEG3 error (cell) 2756 H2SO4_qneg3_col kg/kg 1 I H2SO4 QNEG3 error (column) 2757 DMS_qneg3 kg/kg 58 I DMS QNEG3 error (cell) 2758 DMS_qneg3_col kg/kg 1 I DMS QNEG3 error (column) 2759 H2O2_qneg3 kg/kg 58 I H2O2 QNEG3 error (cell) 2760 H2O2_qneg3_col kg/kg 1 I H2O2 QNEG3 error (column) 2761 SO4_NA_qneg3 kg/kg 58 I SO4_NA QNEG3 error (cell) 2762 SO4_NA_qneg3_col kg/kg 1 I SO4_NA QNEG3 error (column) 2763 SO4_A1_qneg3 kg/kg 58 I SO4_A1 QNEG3 error (cell) 2764 SO4_A1_qneg3_col kg/kg 1 I SO4_A1 QNEG3 error (column) 2765 SO4_A2_qneg3 kg/kg 58 I SO4_A2 QNEG3 error (cell) 2766 SO4_A2_qneg3_col kg/kg 1 I SO4_A2 QNEG3 error (column) 2767 SO4_AC_qneg3 kg/kg 58 I SO4_AC QNEG3 error (cell) 2768 SO4_AC_qneg3_col kg/kg 1 I SO4_AC QNEG3 error (column) 2769 SO4_PR_qneg3 kg/kg 58 I SO4_PR QNEG3 error (cell) 2770 SO4_PR_qneg3_col kg/kg 1 I SO4_PR QNEG3 error (column) 2771 BC_N_qneg3 kg/kg 58 I BC_N QNEG3 error (cell) 2772 BC_N_qneg3_col kg/kg 1 I BC_N QNEG3 error (column) 2773 BC_AX_qneg3 kg/kg 58 I BC_AX QNEG3 error (cell) 2774 BC_AX_qneg3_col kg/kg 1 I BC_AX QNEG3 error (column) 2775 BC_NI_qneg3 kg/kg 58 I BC_NI QNEG3 error (cell) 2776 BC_NI_qneg3_col kg/kg 1 I BC_NI QNEG3 error (column) 2777 BC_A_qneg3 kg/kg 58 I BC_A QNEG3 error (cell) 2778 BC_A_qneg3_col kg/kg 1 I BC_A QNEG3 error (column) 2779 BC_AI_qneg3 kg/kg 58 I BC_AI QNEG3 error (cell) 2780 BC_AI_qneg3_col kg/kg 1 I BC_AI QNEG3 error (column) 2781 BC_AC_qneg3 kg/kg 58 I BC_AC QNEG3 error (cell) 2782 BC_AC_qneg3_col kg/kg 1 I BC_AC QNEG3 error (column) 2783 OM_NI_qneg3 kg/kg 58 I OM_NI QNEG3 error (cell) 2784 OM_NI_qneg3_col kg/kg 1 I OM_NI QNEG3 error (column) 2785 OM_AI_qneg3 kg/kg 58 I OM_AI QNEG3 error (cell) 2786 OM_AI_qneg3_col kg/kg 1 I OM_AI QNEG3 error (column) 2787 OM_AC_qneg3 kg/kg 58 I OM_AC QNEG3 error (cell) 2788 OM_AC_qneg3_col kg/kg 1 I OM_AC QNEG3 error (column) 2789 DST_A2_qneg3 kg/kg 58 I DST_A2 QNEG3 error (cell) 2790 DST_A2_qneg3_col kg/kg 1 I DST_A2 QNEG3 error (column) 2791 DST_A3_qneg3 kg/kg 58 I DST_A3 QNEG3 error (cell) 2792 DST_A3_qneg3_col kg/kg 1 I DST_A3 QNEG3 error (column) 2793 SS_A1_qneg3 kg/kg 58 I SS_A1 QNEG3 error (cell) 2794 SS_A1_qneg3_col kg/kg 1 I SS_A1 QNEG3 error (column) 2795 SS_A2_qneg3 kg/kg 58 I SS_A2 QNEG3 error (cell) 2796 SS_A2_qneg3_col kg/kg 1 I SS_A2 QNEG3 error (column) 2797 SS_A3_qneg3 kg/kg 58 I SS_A3 QNEG3 error (cell) 2798 SS_A3_qneg3_col kg/kg 1 I SS_A3 QNEG3 error (column) 2799 SOA_NA_qneg3 kg/kg 58 I SOA_NA QNEG3 error (cell) 2800 SOA_NA_qneg3_col kg/kg 1 I SOA_NA QNEG3 error (column) 2801 SOA_A1_qneg3 kg/kg 58 I SOA_A1 QNEG3 error (cell) 2802 SOA_A1_qneg3_col kg/kg 1 I SOA_A1 QNEG3 error (column) 2803 SOA_LV_qneg3 kg/kg 58 I SOA_LV QNEG3 error (cell) 2804 SOA_LV_qneg3_col kg/kg 1 I SOA_LV QNEG3 error (column) 2805 SOA_SV_qneg3 kg/kg 58 I SOA_SV QNEG3 error (cell) 2806 SOA_SV_qneg3_col kg/kg 1 I SOA_SV QNEG3 error (column) 2807 monoterp_qneg3 kg/kg 58 I monoterp QNEG3 error (cell) 2808 monoterp_qneg3_col kg/kg 1 I monoterp QNEG3 error (column) 2809 isoprene_qneg3 kg/kg 58 I isoprene QNEG3 error (cell) 2810 isoprene_qneg3_col kg/kg 1 I isoprene QNEG3 error (column) 2811 qflux_exceeded kg/m^2/s 1 I qflux excess (QNEG4) 2812 UTEND_DCONV m/s2 58 A Zonal wind tendency by deep convection 2813 VTEND_DCONV m/s2 58 A Meridional wind tendency by deep convection 2814 UTEND_SHCONV m/s2 58 A Zonal wind tendency by shallow convection 2815 VTEND_SHCONV m/s2 58 A Meridional wind tendency by shallow convection 2816 UTEND_MACROP m/s2 58 A Zonal wind tendency by macrophysics 2817 VTEND_MACROP m/s2 58 A Meridional wind tendency by macrophysics 2818 UTEND_VDIFF m/s2 58 A Zonal wind tendency by vert. diffus. 2819 VTEND_VDIFF m/s2 58 A Meridional wind tendency by vert. diffus. 2820 UTEND_RAYLEIGH m/s2 58 A Zonal wind tendency by Rayleigh Fric. 2821 VTEND_RAYLEIGH m/s2 58 A Meridional wind tendency by Rayleigh Fric. 2822 UTEND_GWDTOT m/s2 58 A Zonal wind tendency by all GWs 2823 VTEND_GWDTOT m/s2 58 A Meridional wind tendency by all GWs 2824 UTEND_QBORLX m/s2 58 A Zonal wind tendency by QBO relaxation 2825 VTEND_QBORLX m/s2 58 A Meridional wind tendency by QBO relaxation 2826 UTEND_LUNART m/s2 58 A Zonal wind tendency by lunar tides 2827 VTEND_LUNART m/s2 58 A Meridional wind tendency by lunar tides 2828 UTEND_IONDRG m/s2 58 A Zonal wind tendency by ion drag 2829 VTEND_IONDRG m/s2 58 A Meridional wind tendency by ion drag 2830 UTEND_NDG m/s2 58 A Zonal wind tendency by nudging 2831 VTEND_NDG m/s2 58 A Meridional wind tendency by nudging 2832 UTEND_CORE m/s2 58 A Zonal wind tendency due to dynamical core 2833 VTEND_CORE m/s2 58 A Meridional wind tendency due to dynamical core 2834 Q_gll kg/kg 58 I Specific humidity 2835 Qdp_gll kg/kg 58 I Specific humidity*dp 2836 CLDLIQ_gll kg/kg 58 I Grid box averaged cloud liquid amount 2837 CLDLIQdp_gll kg/kg 58 I Grid box averaged cloud liquid amount*dp 2838 CLDICE_gll kg/kg 58 I Grid box averaged cloud ice amount 2839 CLDICEdp_gll kg/kg 58 I Grid box averaged cloud ice amount*dp 2840 RAINQM_gll kg/kg 58 I Grid box averaged rain amount 2841 RAINQMdp_gll kg/kg 58 I Grid box averaged rain amount*dp 2842 SNOWQM_gll kg/kg 58 I Grid box averaged snow amount 2843 SNOWQMdp_gll kg/kg 58 I Grid box averaged snow amount*dp 2844 GRAUQM_gll kg/kg 58 I Grid box averaged graupel/hail amount 2845 GRAUQMdp_gll kg/kg 58 I Grid box averaged graupel/hail amount*dp 2846 U_gll m/s 58 I U wind on gll grid 2847 V_gll m/s 58 I V wind on gll grid 2848 T_gll K 58 I T on gll grid 2849 dp_ref_gll 58 I dp dry / dp_ref on gll grid 2850 PSDRY_gll Pa 1 I psdry on gll grid 2851 PS_gll Pa 1 I ps on gll grid 2852 PHIS_gll Pa 1 I PHIS on gll grid 2853 U&IC m/s 58 I Zonal wind 2854 V&IC m/s 58 I Meridional wind 2855 PS&IC Pa 1 I Surface pressure 2856 T&IC K 58 I Temperature 2857 Q&IC kg/kg 58 I Specific humidity 2858 CLDLIQ&IC kg/kg 58 I Grid box averaged cloud liquid amount 2859 CLDICE&IC kg/kg 58 I Grid box averaged cloud ice amount 2860 NUMLIQ&IC kg/kg 58 I Grid box averaged cloud liquid number 2861 NUMICE&IC kg/kg 58 I Grid box averaged cloud ice number 2862 RAINQM&IC kg/kg 58 I Grid box averaged rain amount 2863 SNOWQM&IC kg/kg 58 I Grid box averaged snow amount 2864 NUMRAI&IC kg/kg 58 I Grid box averaged rain number 2865 NUMSNO&IC kg/kg 58 I Grid box averaged snow number 2866 GRAUQM&IC kg/kg 58 I Grid box averaged graupel/hail amount 2867 NUMGRA&IC kg/kg 58 I Grid box averaged graupel/hail number 2868 SO2&IC kg/kg 58 I SO2 2869 H2SO4&IC kg/kg 58 I H2SO4 2870 DMS&IC kg/kg 58 I DMS 2871 H2O2&IC kg/kg 58 I H2O2 2872 SO4_NA&IC kg/kg 58 I SO4_NA 2873 SO4_A1&IC kg/kg 58 I SO4_A1 2874 SO4_A2&IC kg/kg 58 I SO4_A2 2875 SO4_AC&IC kg/kg 58 I SO4_AC 2876 SO4_PR&IC kg/kg 58 I SO4_PR 2877 BC_N&IC kg/kg 58 I BC_N 2878 BC_AX&IC kg/kg 58 I BC_AX 2879 BC_NI&IC kg/kg 58 I BC_NI 2880 BC_A&IC kg/kg 58 I BC_A 2881 BC_AI&IC kg/kg 58 I BC_AI 2882 BC_AC&IC kg/kg 58 I BC_AC 2883 OM_NI&IC kg/kg 58 I OM_NI 2884 OM_AI&IC kg/kg 58 I OM_AI 2885 OM_AC&IC kg/kg 58 I OM_AC 2886 DST_A2&IC kg/kg 58 I DST_A2 2887 DST_A3&IC kg/kg 58 I DST_A3 2888 SS_A1&IC kg/kg 58 I SS_A1 2889 SS_A2&IC kg/kg 58 I SS_A2 2890 SS_A3&IC kg/kg 58 I SS_A3 2891 SOA_NA&IC kg/kg 58 I SOA_NA 2892 SOA_A1&IC kg/kg 58 I SOA_A1 2893 SOA_LV&IC kg/kg 58 I SOA_LV 2894 SOA_SV&IC kg/kg 58 I SOA_SV 2895 monoterp&IC kg/kg 58 I monoterp 2896 isoprene&IC kg/kg 58 I isoprene intht:nfmaster= 2896 FLDLST: Tape 4 is empty FLDLST: Tape 5 is empty FLDLST: Tape 6 is empty FLDLST: Tape 7 is empty FLDLST: Tape 8 is empty FLDLST: Tape 9 is empty FLDLST: Tape 10 is empty FLDLST: Tape 11 is empty FLDLST: History stream 1 contains 329 fields Write frequency: MONTHLY Filename specifier: %c.cam.h%t%f.%y-%m.nc Output precision: single Number of time samples per file: 1 Fields are represented on global grids: 100 Included fields are: 1 ABSVIS unitless 1 A Aerosol absorptive optical depth at 0.442-0.625um 2 AEROD_v 1 1 A Total Aerosol Optical Depth in visible band 3 AODVIS unitless 1 A Aerosol optical depth at 0.442-0.625um 4 BC_AC_SRF kg/kg 1 A BC_AC in bottom layer 5 BC_AI_SRF kg/kg 1 A BC_AI in bottom layer 6 BC_AX_CLXF molec/cm2/s 1 A vertically intergrated external forcing for BC_AX 7 BC_AX_CMXF kg/m2/s 1 A vertically intergrated external forcing for BC_AX 8 BC_AX_SRF kg/kg 1 A BC_AX in bottom layer 9 BC_A_SRF kg/kg 1 A BC_A in bottom layer 10 BC_NI_CLXF molec/cm2/s 1 A vertically intergrated external forcing for BC_NI 11 BC_NI_CMXF kg/m2/s 1 A vertically intergrated external forcing for BC_NI 12 BC_NI_SRF kg/kg 1 A BC_NI in bottom layer 13 BC_N_CLXF molec/cm2/s 1 A vertically intergrated external forcing for BC_N 14 BC_N_CMXF kg/m2/s 1 A vertically intergrated external forcing for BC_N 15 BC_N_SRF kg/kg 1 A BC_N in bottom layer 16 CDNUMC 1/m2 1 A Vertically-integrated droplet concentration 17 CLDHGH fraction 1 A Vertically-integrated high cloud from 5000. to 40000. Pa 18 CLDLOW fraction 1 A Vertically-integrated low cloud from 70000. to 120000. Pa 19 CLDMED fraction 1 A Vertically-integrated mid-level cloud from 40000. to 70000. Pa 20 CLDTOT fraction 1 A Vertically-integrated total cloud 21 DAYFOC unitless 1 A Daylight fraction 22 DF_DMS kg/m2/s 1 A dry deposition flux 23 DF_H2O2 kg/m2/s 1 A dry deposition flux 24 DF_H2SO4 kg/m2/s 1 A dry deposition flux 25 DF_SO2 kg/m2/s 1 A dry deposition flux 26 DMS_SRF mol/mol 1 A DMS in bottom layer 27 DST_A2_SRF kg/kg 1 A DST_A2 in bottom layer 28 DST_A3_SRF kg/kg 1 A DST_A3 in bottom layer 29 FLDS W/m2 1 A Downwelling longwave flux at surface 30 FLNS W/m2 1 A Net longwave flux at surface 31 FLNSC W/m2 1 A Clearsky net longwave flux at surface 32 FLNT W/m2 1 A Net longwave flux at top of model 33 FLNTC W/m2 1 A Clearsky net longwave flux at top of model 34 FLNTCLR W/m2 1 A Clearsky ONLY points net longwave flux at top of model 35 FLUT W/m2 1 A Upwelling longwave flux at top of model 36 FLUTC W/m2 1 A Clearsky upwelling longwave flux at top of model 37 FREQCLR Frac 1 A Frequency of Occurrence of Clearsky 38 FSDS W/m2 1 A Downwelling solar flux at surface 39 FSDSC W/m2 1 A Clearsky downwelling solar flux at surface 40 FSNS W/m2 1 A Net solar flux at surface 41 FSNSC W/m2 1 A Clearsky net solar flux at surface 42 FSNT W/m2 1 A Net solar flux at top of model 43 FSNTC W/m2 1 A Clearsky net solar flux at top of model 44 FSNTOA W/m2 1 A Net solar flux at top of atmosphere 45 FSNTOAC W/m2 1 A Clearsky net solar flux at top of atmosphere 46 FSUTOA W/m2 1 A Upwelling solar flux at top of atmosphere 47 H2O2_SRF mol/mol 1 A H2O2 in bottom layer 48 H2O_CLXF molec/cm2/s 1 A vertically intergrated external forcing for H2O 49 H2O_CMXF kg/m2/s 1 A vertically intergrated external forcing for H2O 50 H2O_SRF mol/mol 1 A water vapor in bottom layer 51 H2SO4_SRF mol/mol 1 A H2SO4 in bottom layer 52 ICEFRAC fraction 1 A Fraction of sfc area covered by sea-ice 53 LANDFRAC fraction 1 A Fraction of sfc area covered by land 54 LHFLX W/m2 1 A Surface latent heat flux 55 LWCF W/m2 1 A Longwave cloud forcing 56 MEG_isoprene kg/m2/sec 1 A isoprene MEGAN emissions flux 57 MEG_monoterp kg/m2/sec 1 A monoterp MEGAN emissions flux 58 OCNFRAC fraction 1 A Fraction of sfc area covered by ocean 59 OCN_FLUX_DMS kg/m2/s 1 A ocean flux DMS 60 OM_AC_SRF kg/kg 1 A OM_AC in bottom layer 61 OM_AI_SRF kg/kg 1 A OM_AI in bottom layer 62 OM_NI_CLXF molec/cm2/s 1 A vertically intergrated external forcing for OM_NI 63 OM_NI_CMXF kg/m2/s 1 A vertically intergrated external forcing for OM_NI 64 OM_NI_SRF kg/kg 1 A OM_NI in bottom layer 65 PBLH m 1 A PBL height 66 PHIS m2/s2 1 I Surface geopotential 67 PRECC m/s 1 A Convective precipitation rate (liq + ice) 68 PRECL m/s 1 A Large-scale (stable) precipitation rate (liq + ice) 69 PRECSC m/s 1 A Convective snow rate (water equivalent) 70 PRECSL m/s 1 A Large-scale (stable) snow rate (water equivalent) 71 PS Pa 1 A Surface pressure 72 PSDRY Pa 1 A Dry surface pressure 73 PSL Pa 1 A Sea level pressure 74 QFLX kg/m2/s 1 A Surface water flux 75 QREFHT kg/kg 1 A Reference height humidity 76 SFBC_A kg/m2/s 1 A BC_A surface flux 77 SFBC_AC kg/m2/s 1 A BC_AC surface flux 78 SFBC_AI kg/m2/s 1 A BC_AI surface flux 79 SFBC_AX kg/m2/s 1 A BC_AX surface flux 80 SFBC_N kg/m2/s 1 A BC_N surface flux 81 SFBC_NI kg/m2/s 1 A BC_NI surface flux 82 SFDMS kg/m2/s 1 A DMS surface flux 83 SFDST_A2 kg/m2/s 1 A DST_A2 surface flux 84 SFDST_A3 kg/m2/s 1 A DST_A3 surface flux 85 SFH2O2 kg/m2/s 1 A H2O2 surface flux 86 SFH2SO4 kg/m2/s 1 A H2SO4 surface flux 87 SFOM_AC kg/m2/s 1 A OM_AC surface flux 88 SFOM_AI kg/m2/s 1 A OM_AI surface flux 89 SFOM_NI kg/m2/s 1 A OM_NI surface flux 90 SFSO2 kg/m2/s 1 A SO2 surface flux 91 SFSO4_A1 kg/m2/s 1 A SO4_A1 surface flux 92 SFSO4_A2 kg/m2/s 1 A SO4_A2 surface flux 93 SFSO4_AC kg/m2/s 1 A SO4_AC surface flux 94 SFSO4_NA kg/m2/s 1 A SO4_NA surface flux 95 SFSO4_PR kg/m2/s 1 A SO4_PR surface flux 96 SFSOA_A1 kg/m2/s 1 A SOA_A1 surface flux 97 SFSOA_LV kg/m2/s 1 A SOA_LV surface flux 98 SFSOA_NA kg/m2/s 1 A SOA_NA surface flux 99 SFSOA_SV kg/m2/s 1 A SOA_SV surface flux 100 SFSS_A1 kg/m2/s 1 A SS_A1 surface flux 101 SFSS_A2 kg/m2/s 1 A SS_A2 surface flux 102 SFSS_A3 kg/m2/s 1 A SS_A3 surface flux 103 SFisoprene kg/m2/s 1 A isoprene surface flux 104 SFmonoterp kg/m2/s 1 A monoterp surface flux 105 SHFLX W/m2 1 A Surface sensible heat flux 106 SNOWHICE m 1 A Snow depth over ice 107 SNOWHLND m 1 A Water equivalent snow depth 108 SO2_CLXF molec/cm2/s 1 A vertically intergrated external forcing for SO2 109 SO2_CMXF kg/m2/s 1 A vertically intergrated external forcing for SO2 110 SO2_SRF mol/mol 1 A SO2 in bottom layer 111 SO4_A1_SRF kg/kg 1 A SO4_A1 in bottom layer 112 SO4_A2_SRF kg/kg 1 A SO4_A2 in bottom layer 113 SO4_AC_SRF kg/kg 1 A SO4_AC in bottom layer 114 SO4_NA_SRF kg/kg 1 A SO4_NA in bottom layer 115 SO4_PR_CLXF molec/cm2/s 1 A vertically intergrated external forcing for SO4_PR 116 SO4_PR_CMXF kg/m2/s 1 A vertically intergrated external forcing for SO4_PR 117 SO4_PR_SRF kg/kg 1 A SO4_PR in bottom layer 118 SOA_A1_SRF kg/kg 1 A SOA_A1 in bottom layer 119 SOA_LV_SRF mol/mol 1 A SOA_LV in bottom layer 120 SOA_NA_SRF kg/kg 1 A SOA_NA in bottom layer 121 SOA_SV_SRF mol/mol 1 A SOA_SV in bottom layer 122 SOLIN W/m2 1 A Solar insolation 123 SS_A1_SRF kg/kg 1 A SS_A1 in bottom layer 124 SS_A2_SRF kg/kg 1 A SS_A2 in bottom layer 125 SS_A3_SRF kg/kg 1 A SS_A3 in bottom layer 126 SWCF W/m2 1 A Shortwave cloud forcing 127 TAUBLJX N/m2 1 A Zonal integrated drag from Beljaars SGO 128 TAUBLJY N/m2 1 A Meridional integrated drag from Beljaars SGO 129 TAUGWX N m-2 1 A Zonal gravity wave surface stress 130 TAUGWY N m-2 1 A Meridional gravity wave surface stress 131 TAUX N/m2 1 A Zonal surface stress 132 TAUY N/m2 1 A Meridional surface stress 133 TGCLDCWP kg/m2 1 A Total grid-box cloud water path (liquid and ice) 134 TGCLDIWP kg/m2 1 A Total grid-box cloud ice water path 135 TGCLDLWP kg/m2 1 A Total grid-box cloud liquid water path 136 TMQ kg/m2 1 A Total (vertically integrated) precipitable water 137 TREFHT K 1 A Reference height temperature 138 TS K 1 A Surface temperature (radiative) 139 TSMN K 1 M Minimum surface temperature over output period 140 TSMX K 1 X Maximum surface temperature over output period 141 U10 m/s 1 A 10m wind speed 142 WD_A_DMS kg/m2/s 1 A DMS wet deposition 143 WD_A_H2O2 kg/m2/s 1 A H2O2 wet deposition 144 WD_A_H2SO4 kg/m2/s 1 A H2SO4 wet deposition 145 WD_A_SO2 kg/m2/s 1 A SO2 wet deposition 146 WD_A_SOA_LV kg/m2/s 1 A SOA_LV wet deposition 147 WD_A_SOA_SV kg/m2/s 1 A SOA_SV wet deposition 148 WD_A_isoprene kg/m2/s 1 A isoprene wet deposition 149 WD_A_monoterp kg/m2/s 1 A monoterp wet deposition 150 WD_DMS kg/m2/s 1 A vertical integrated wet deposition flux 151 WD_H2O2 kg/m2/s 1 A vertical integrated wet deposition flux 152 WD_H2SO4 kg/m2/s 1 A vertical integrated wet deposition flux 153 WD_SO2 kg/m2/s 1 A vertical integrated wet deposition flux 154 cb_BC kg/m2 1 A cb_BC column burden of aerosol type 155 cb_DMS kg/m2 1 A cb_DMS in column 156 cb_DMS_S kg/m2 1 A cb_DMS column burden, sulfur mass only 157 cb_DUST kg/m2 1 A cb_DUST column burden of aerosol type 158 cb_H2O2 kg/m2 1 A cb_H2O2 in column 159 cb_H2SO4 kg/m2 1 A cb_H2SO4 in column 160 cb_OM kg/m2 1 A cb_OM column burden of aerosol type 161 cb_SALT kg/m2 1 A cb_SALT column burden of aerosol type 162 cb_SO2 kg/m2 1 A cb_SO2 in column 163 cb_SO2_S kg/m2 1 A cb_SO2 column burden, sulfur mass only 164 cb_SOA_LV kg/m2 1 A cb_SOA_LV in column 165 cb_SOA_SV kg/m2 1 A cb_SOA_SV in column 166 cb_SULFATE kg/m2 1 A cb_SULFATE column burden of aerosol type 167 cb_SULFATE_S kg/m2 1 A cb_SULFATE column burden of aerosol, sulfur mass only 168 cb_isoprene kg/m2 1 A cb_isoprene in column 169 cb_monoterp kg/m2 1 A cb_monoterp in column 170 dry_BC kg/m2/s 1 A BC dry deposition flux at bottom (grav + turb) 171 dry_DUST kg/m2/s 1 A DUST dry deposition flux at bottom (grav + turb) 172 dry_OM kg/m2/s 1 A OM dry deposition flux at bottom (grav + turb) 173 dry_SALT kg/m2/s 1 A SALT dry deposition flux at bottom (grav + turb) 174 dry_SULFATE kg/m2/s 1 A SULFATE dry deposition flux at bottom (grav + turb) 175 dry_SULFATE_S kg*S/m2/s 1 A SULFATE dry deposition flux at bottom (grav + turb), sulfur mass only 176 emis_BC kg/m2/s 1 A BC emission. 177 emis_DMS kg/m2/s 1 A DMS emissions 178 emis_DMS_S kg/m2/s 1 A DMS emissions, sulfur mass only 179 emis_DUST kg/m2/s 1 A DUST emission 180 emis_OM kg/m2/s 1 A OM emission. 181 emis_SALT kg/m2/s 1 A SALT emission 182 emis_SO2 kg/m2/s 1 A SO2 emission. 183 emis_SO2_S kg/m2/s 1 A SO2 emission, sulfur mass only. 184 emis_SULFATE kg/m2/s 1 A SULFATE emission. 185 emis_SULFATE_S kg/m2/s 1 A SULFATE emission, sulfur mass only. 186 emis_isoprene kg/m2/s 1 A isoprene emissions 187 emis_monoterp kg/m2/s 1 A monoterp emissions 188 isoprene_SRF mol/mol 1 A isoprene in bottom layer 189 monoterp_SRF mol/mol 1 A monoterp in bottom layer 190 sink_DMS kg/m2/s 1 A DMS sink 191 sink_DMS_S kg*S/m2/s 1 A DMS sink, sulfur mass only 192 sink_SO2_S kg/m2/s 1 A SO2 sink, sulfur mass only. 193 sink_isoprene kg/m2/s 1 A isoprene sink 194 sink_monoterp kg/m2/s 1 A monoterp sink 195 sour_OM kg/m2/s 1 A OM source. 196 sour_SO2_S kg/m2/s 1 A SO2 source, sulfur mass only. 197 sour_SULFATE kg/m2/s 1 A SULFATE source. 198 sour_SULFATE_S kg/m2/s 1 A SULFATE source, sulfur mass only. 199 wet_BC kg/m2/s 1 A BC wet deposition flux at surface 200 wet_DUST kg/m2/s 1 A DUST wet deposition flux at surface 201 wet_OM kg/m2/s 1 A OM wet deposition flux at surface 202 wet_SALT kg/m2/s 1 A SALT wet deposition flux at surface 203 wet_SO2 kg/m2/s 1 A SO2 wet deposition flux at surface. 204 wet_SO2_S kg*S/m2/s 1 A SO2 wet deposition flux at surface, sulfur mass only. 205 wet_SULFATE kg/m2/s 1 A SULFATE wet deposition flux at surface 206 wet_SULFATE_S kg*S/m2/s 1 A SULFATE wet deposition flux at surface, sulfur mass only 207 ADRAIN m 58 A Average rain effective Diameter 208 ADSNOW m 58 A Average snow effective Diameter 209 ANRAIN m-3 58 A Average rain number conc 210 ANSNOW m-3 58 A Average snow number conc 211 AQRAIN kg/kg 58 A Average rain mixing ratio 212 AQSNOW kg/kg 58 A Average snow mixing ratio 213 AREI Micron 58 A Average ice effective radius 214 AREL Micron 58 A Average droplet effective radius 215 AWNC m-3 58 A Average cloud water number conc 216 AWNI m-3 58 A Average cloud ice number conc 217 BC_A kg/kg 58 A BC_A concentration 218 BC_AC kg/kg 58 A BC_AC concentration 219 BC_AI kg/kg 58 A BC_AI concentration 220 BC_AX kg/kg 58 A BC_AX concentration 221 BC_N kg/kg 58 A BC_N concentration 222 BC_NI kg/kg 58 A BC_NI concentration 223 CLDICE kg/kg 58 A Grid box averaged cloud ice amount 224 CLDLIQ kg/kg 58 A Grid box averaged cloud liquid amount 225 CLOUD fraction 58 A Cloud fraction 226 CLOUDCOVER_CLUBB fraction 58 A Cloud Cover 227 CLOUDFRAC_CLUBB fraction 58 A Cloud Fraction 228 CONCLD fraction 58 A Convective cloud cover 229 DCQ kg/kg/s 58 A Q tendency due to moist processes 230 DMS mol/mol 58 A DMS concentration 231 DST_A2 kg/kg 58 A DST_A2 concentration 232 DST_A3 kg/kg 58 A DST_A3 concentration 233 DTCOND K/s 58 A T tendency - moist processes 234 DTV K/s 58 A T vertical diffusion 235 FICE fraction 58 A Fractional ice content within cloud 236 FREQI fraction 58 A Fractional occurrence of ice 237 FREQL fraction 58 A Fractional occurrence of liquid 238 FREQR fraction 58 A Fractional occurrence of rain 239 FREQS fraction 58 A Fractional occurrence of snow 240 GRAUQM kg/kg 58 A Grid box averaged graupel/hail amount 241 H2O mol/mol 58 A water vapor concentration 242 H2O2 mol/mol 58 A H2O2 concentration 243 H2SO4 mol/mol 58 A H2SO4 concentration 244 ICIMR kg/kg 58 A Prognostic in-cloud ice mixing ratio 245 ICWMR kg/kg 58 A Prognostic in-cloud water mixing ratio 246 IWC kg/m3 58 A Grid box average ice water content 247 NUMGRA 1/kg 58 A Grid box averaged graupel/hail number 248 NUMICE 1/kg 58 A Grid box averaged cloud ice number 249 NUMLIQ 1/kg 58 A Grid box averaged cloud liquid number 250 NUMRAI 1/kg 58 A Grid box averaged rain number 251 NUMSNO 1/kg 58 A Grid box averaged snow number 252 N_AER unitless 58 A Aerosol number concentration 253 OMEGA Pa/s 58 A Vertical velocity (pressure) 254 OMEGAT K Pa/s 58 A Vertical heat flux 255 OM_AC kg/kg 58 A OM_AC concentration 256 OM_AI kg/kg 58 A OM_AI concentration 257 OM_NI kg/kg 58 A OM_NI concentration 258 PMID Pa 58 A Pressure at layer midpoints 259 Q kg/kg 58 A Specific humidity 260 QRL K/s 58 A Longwave heating rate 261 QRS K/s 58 A Solar heating rate 262 RAINQM kg/kg 58 A Grid box averaged rain amount 263 RCMINLAYER_CLUBB kg/kg 58 A Cloud Water in Layer 264 RCMTEND_CLUBB kg/kg /s 58 A Cloud Liquid Water Tendency 265 RCM_CLUBB kg/kg 58 A Cloud Water Mixing Ratio 266 RELHUM percent 58 A Relative humidity 267 RELVAR - 58 A Relative cloud water variance 268 RHO_CLUBB kg/m3 58 A Air Density 269 RIMTEND_CLUBB kg/kg /s 58 A Cloud Ice Tendency 270 RTM_CLUBB kg/kg 58 A Total Water Mixing Ratio 271 RTP2_ZT_CLUBB kg^2/kg^2 58 A Moisture Variance on zt grid 272 RVMTEND_CLUBB kg/kg /s 58 A Water vapor tendency 273 SNOWQM kg/kg 58 A Grid box averaged snow amount 274 SO2 mol/mol 58 A SO2 concentration 275 T K 58 A Temperature 276 U m/s 58 A Zonal wind 277 UU m2/s2 58 A Zonal velocity squared 278 V m/s 58 A Meridional wind 279 VT K m/s 58 A Meridional heat transport 280 VU m2/s2 58 A Meridional flux of zonal momentum 281 VV m2/s2 58 A Meridional velocity squared 282 Z3 m 58 A Geopotential Height (above sea level) 283 SO4_A1 kg/kg 58 A SO4_A1 concentration 284 VQ m/skg/kg 58 A Meridional water transport 285 SO4_A2 kg/kg 58 A SO4_A2 concentration 286 SO4_AC kg/kg 58 A SO4_AC concentration 287 SO4_NA kg/kg 58 A SO4_NA concentration 288 SO4_PR kg/kg 58 A SO4_PR concentration 289 SOA_A1 kg/kg 58 A SOA_A1 concentration 290 SOA_LV mol/mol 58 A SOA_LV concentration 291 SOA_NA kg/kg 58 A SOA_NA concentration 292 SOA_SV mol/mol 58 A SOA_SV concentration 293 SS_A1 kg/kg 58 A SS_A1 concentration 294 SS_A2 kg/kg 58 A SS_A2 concentration 295 SS_A3 kg/kg 58 A SS_A3 concentration 296 STEND_CLUBB J/(kg s) 58 A Static energy tendency 297 THLM_CLUBB K 58 A Liquid Water Potential Temperature 298 THLP2_ZT_CLUBB K^2 58 A Temperature Variance on zt grid 299 UM_CLUBB m/s 58 A Zonal Wind 300 UTEND_CLUBB m/s /s 58 A U-wind Tendency 301 VD01 kg/kg/s 58 A Vertical diffusion of Q 302 VM_CLUBB m/s 58 A Meridional Wind 303 VTEND_CLUBB m/s /s 58 A V-wind Tendency 304 WM_ZT_CLUBB m/s 58 A Vertical Velocity 305 WP2_ZT_CLUBB m2/s2 58 A Vert Vel Variance on zt grid 306 WP3_CLUBB m3/s3 58 A Third Moment Vertical Velocity 307 WSUB m/s 58 A Diagnostic sub-grid vertical velocity 308 ZT_CLUBB m 58 A Thermodynamic Heights 309 isoprene mol/mol 58 A isoprene concentration 310 mmr_BC kg/kg 58 A mmr_BC mmr of aerosol type 311 mmr_DUST kg/kg 58 A mmr_DUST mmr of aerosol type 312 mmr_OM kg/kg 58 A mmr_OM mmr of aerosol type 313 mmr_SALT kg/kg 58 A mmr_SALT mmr of aerosol type 314 mmr_SULFATE kg/kg 58 A mmr_SULFATE mmr of aerosol type 315 monoterp mol/mol 58 A monoterp concentration 316 PDFP_RTP2_CLUBB kg^2/kg^2 59 A PDF Rtot Variance 317 UP2_CLUBB m2/s2 59 A Zonal Velocity Variance 318 UPWP_CLUBB m2/s2 59 A Zonal Momentum Flux 319 VP2_CLUBB m2/s2 59 A Meridional Velocity Variance 320 VPWP_CLUBB m2/s2 59 A Meridional Momentum Flux 321 WP2_CLUBB m2/s2 59 A Vertical Velocity Variance 322 WPRTP_CLUBB W/m2 59 A Moisture Flux 323 WPTHLP_CLUBB W/m2 59 A Heat Flux 324 RTP2_CLUBB kg^2/kg^2 59 A Moisture Variance 325 THLP2_CLUBB K^2 59 A Temperature Variance 326 RTPTHLP_CLUBB K kg/kg 59 A Temp. Moist. Covariance 327 WPRCP_CLUBB W/m2 59 A Liquid Water Flux 328 WPTHVP_CLUBB W/m2 59 A Buoyancy Flux 329 ZM_CLUBB m 59 A Momentum Heights FLDLST: History stream 2 contains 5 fields Write frequency: 12 Filename specifier: %c.cam.h%t%f.%y-%m-%d-%s.nc Output precision: single Number of time samples per file: 1 Fields are represented on global grids: 100 Included fields are: 1 PS Pa 1 I Surface pressure 2 Q kg/kg 58 I Specific humidity 3 T K 58 I Temperature 4 U m/s 58 I Zonal wind 5 V m/s 58 I Meridional wind FLDLST: History stream 3 contains 11 fields Write frequency: 2 Filename specifier: %c.cam.h%t%f.%y-%m-%d-%s.nc Output precision: single Number of time samples per file: 24 Fields are represented on columns (FIELD_LON_LAT) Included fields are: 1 PRECT_11e_60n m/s 1 A Total (convective and large-scale) precipitation rate (liq + ice) 2 PS_11e_60n Pa 1 A Surface pressure 3 T850_11e_60n K 1 A Temperature at 850 mbar pressure surface 4 TREFHT_11e_60n K 1 A Reference height temperature 5 U850_11e_60n m/s 1 A Zonal wind at 850 mbar pressure surface 6 V850_11e_60n m/s 1 A Meridional wind at 850 mbar pressure surface 7 Z500_11e_60n m 1 A Geopotential Z at 500 mbar pressure surface 8 Q_11e_60n kg/kg 58 A Specific humidity 9 T_11e_60n K 58 A Temperature 10 U_11e_60n m/s 58 A Zonal wind 11 V_11e_60n m/s 58 A Meridional wind FLDLST: History stream 12 contains 44 fields Write frequency: YEARLY (INITIAL CONDITIONS) Filename specifier: %c.cam.i.%y-%m-%d-%s.nc Output precision: double Number of time samples per file: 1 Fields are represented on global grids: 101 Included fields are: 1 PS&IC Pa 1 I Surface pressure 2 BC_A&IC kg/kg 58 I BC_A 3 BC_AC&IC kg/kg 58 I BC_AC 4 BC_AI&IC kg/kg 58 I BC_AI 5 BC_AX&IC kg/kg 58 I BC_AX 6 BC_N&IC kg/kg 58 I BC_N 7 BC_NI&IC kg/kg 58 I BC_NI 8 CLDICE&IC kg/kg 58 I Grid box averaged cloud ice amount 9 CLDLIQ&IC kg/kg 58 I Grid box averaged cloud liquid amount 10 DMS&IC kg/kg 58 I DMS 11 DST_A2&IC kg/kg 58 I DST_A2 12 DST_A3&IC kg/kg 58 I DST_A3 13 GRAUQM&IC kg/kg 58 I Grid box averaged graupel/hail amount 14 H2O2&IC kg/kg 58 I H2O2 15 H2SO4&IC kg/kg 58 I H2SO4 16 NUMGRA&IC kg/kg 58 I Grid box averaged graupel/hail number 17 NUMICE&IC kg/kg 58 I Grid box averaged cloud ice number 18 NUMLIQ&IC kg/kg 58 I Grid box averaged cloud liquid number 19 NUMRAI&IC kg/kg 58 I Grid box averaged rain number 20 NUMSNO&IC kg/kg 58 I Grid box averaged snow number 21 OM_AC&IC kg/kg 58 I OM_AC 22 OM_AI&IC kg/kg 58 I OM_AI 23 OM_NI&IC kg/kg 58 I OM_NI 24 Q&IC kg/kg 58 I Specific humidity 25 RAINQM&IC kg/kg 58 I Grid box averaged rain amount 26 SNOWQM&IC kg/kg 58 I Grid box averaged snow amount 27 SO2&IC kg/kg 58 I SO2 28 SO4_A1&IC kg/kg 58 I SO4_A1 29 SO4_A2&IC kg/kg 58 I SO4_A2 30 SO4_AC&IC kg/kg 58 I SO4_AC 31 SO4_NA&IC kg/kg 58 I SO4_NA 32 SO4_PR&IC kg/kg 58 I SO4_PR 33 SOA_A1&IC kg/kg 58 I SOA_A1 34 SOA_LV&IC kg/kg 58 I SOA_LV 35 SOA_NA&IC kg/kg 58 I SOA_NA 36 SOA_SV&IC kg/kg 58 I SOA_SV 37 SS_A1&IC kg/kg 58 I SS_A1 38 SS_A2&IC kg/kg 58 I SS_A2 39 SS_A3&IC kg/kg 58 I SS_A3 40 T&IC K 58 I Temperature 41 U&IC m/s 58 I Zonal wind 42 V&IC m/s 58 I Meridional wind 43 isoprene&IC kg/kg 58 I isoprene 44 monoterp&IC kg/kg 58 I monoterp mesh file for cam domain is /cluster/shared/noresm/inputdata/share/meshes/ne30pg3_ESMFmesh_cdf5_c20211018.n c (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport field = cpl_scalars is connected on root pe (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_topo is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_z is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_u is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_v is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_u10m is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_v10m is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_tbot is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_ptem is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_shum is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_pbot is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_dens is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_pslv is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_o3 is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_rainc is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_rainl is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_snowc is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_snowl is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_lwdn is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swndr is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swvdr is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swndf is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swvdf is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swnet is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_bcph is connected using mesh with lbound 1 and with ubound 3 (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_ocph is connected using mesh with lbound 1 and with ubound 3 (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_dstwet is connected using mesh with lbound 1 and with ubound 4 (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_dstdry is connected using mesh with lbound 1 and with ubound 4 (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_co2prog is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_co2diag is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_ndep is connected using mesh with lbound 1 and with ubound 2 (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_lightning is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport field = cpl_scalars is connected on root pe (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_anidr is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_avsdf is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_anidf is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_avsdr is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_lfrac is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Si_ifrac is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_ofrac is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_tref is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_qref is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_t is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_t is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_fv is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_ram1 is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_snowh is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Si_snowh is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_ssq is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_re is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_ustar is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_u10 is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_ugustOut is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_u10withGust is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_taux is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_tauy is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_lat is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_sen is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_lwup is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_evap is connected using mesh (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Fall_flxdst is connected using mesh with lbound 1 and with ubound 4 (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_ddvel is connected using mesh with lbound 1 and with ubound 4 (atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Fall_voc is connected using mesh with lbound 1 and with ubound 2 (atm_import_export:realize_fields) : min_mod2med_areacor, max_mod2med_areacor 1.00000000000000 1.00000000000000 CAM (atm_import_export:realize_fields) : min_med2mod_areacor, max_med2mod_areacor 1.00000000000000 1.00000000000000 CAM (shr_stream_getCalendar) opening stream filename = /cluster/shared/noresm/inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc (shr_stream_getCalendar) closing stream filename = /cluster/shared/noresm/inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.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 NDEP_NHx_month to fldbun_data for stream 1 adding field NDEP_NOy_month to fldbun_data for stream 1 (shr_strdata_print) ---------------------------------------------------------- (shr_strdata_print) name = Nitrogen deposition 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) = cycle (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/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc (shr_strdata_readstrm) setting pio descriptor : /cluster/shared/noresm/inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc (shr_strdata_set_stream_iodesc) setting iodesc for : NDEP_NHx_month with dimlens(1), dimlens(2) = 288 192 variable as time dimension time (shr_strdata_readstrm) reading file lb: /cluster/shared/noresm/inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc 1824 (shr_strdata_readstrm) reading file ub: /cluster/shared/noresm/inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc 1813 nstep, te 0 0.26139991719859481E+10 0.26139991719859481E+10 0.00000000000000000E+00 0.98522422889143825E+05 0.20548077300190920E+03 chem_surfvals_set: ncdate= 10101 co2vmr= 3.703722041654117E-004 chem_surfvals_set: ch4vmr= 1.779614189187470E-006 n2ovmr= 3.155996167201829E-007 f11vmr= 6.928766743978975E-010 f12vmr= 5.389809400200124E-010 READ_NEXT_TRCDATA emiss_anthrosurf_ALL READ_NEXT_TRCDATA emiss_anthrosurf_ALL READ_NEXT_TRCDATA emiss_anthrosurf_ALL READ_NEXT_TRCDATA emiss_anthrosurf_ALL READ_NEXT_TRCDATA emiss_anthrosurf_ALL READ_NEXT_TRCDATA emiss_air_ALL READ_NEXT_TRCDATA emiss_anthroprof_ALL READ_NEXT_TRCDATA emiss_bb_ALL READ_NEXT_TRCDATA emiss_air_ALL READ_NEXT_TRCDATA emiss_anthroprof_ALL READ_NEXT_TRCDATA emiss_air_ALL READ_NEXT_TRCDATA emiss_anthroprof_ALL READ_NEXT_TRCDATA emiss_bb_ALL READ_NEXT_TRCDATA emiss_air_ALL READ_NEXT_TRCDATA emiss_anthroprof_ALL READ_NEXT_TRCDATA emiss_bb_ALL READ_NEXT_TRCDATA emiss_volc_ALL READ_NEXT_TRCDATA emiss_air_ALL READ_NEXT_TRCDATA emiss_anthroprof_ALL READ_NEXT_TRCDATA emiss_bb_ALL READ_NEXT_TRCDATA emiss_volc_ALL READ_NEXT_TRCDATA CH4_CHML READ_NEXT_TRCDATA O3 OH NO3 HO2 READ_NEXT_TRCDATA DMS_monthly_nM_out READ_NEXT_TRCDATA ozone READ_NEXT_TRCDATA ext_sun1 omega_sun1 g_sun1 ext_sun2 omega_sun2 g_sun2 ext_sun3 omega_sun3 g_sun3 ext_sun4 omega_sun4 g_sun4 ext_sun5 omega_sun5 g_sun5 ext_sun6 omega_sun6 g_sun6 ext_sun7 omega_sun7 g_sun7 ext_sun8 omega_sun8 g_sun8 ext_sun9 omega_sun9 g_sun9 ext_sun10 omega_sun10 g_sun10 ext_sun11 omega_sun11 g_sun11 ext_sun12 omega_sun12 g_sun12 ext_sun13 omega_sun13 g_sun13 ext_sun14 omega_sun14 g_sun14 ext_earth1 omega_earth1 g_earth1 ext_earth2 omega_earth2 g_earth2 ext_earth3 omega_earth3 g_earth3 ext_earth4 omega_earth4 g_earth4 ext_earth5 omega_earth5 g_earth5 ext_earth6 omega_earth6 g_earth6 ext_earth7 omega_earth7 g_earth7 ext_earth8 omega_earth8 g_earth8 ext_earth9 omega_earth9 g_earth9 ext_earth10 omega_earth10 g_earth10 ext_earth11 omega_earth11 g_earth11 ext_earth12 omega_earth12 g_earth12 ext_earth13 omega_earth13 g_earth13 ext_earth14 omega_earth14 g_earth14 ext_earth15 omega_earth15 g_earth15 ext_earth16 omega_earth16 g_earth16 READ_NEXT_TRCDATA dms READ_NEXT_TRCDATA chlor_a nstep, te 1 0.26140488555531983E+10 0.26140089876332984E+10 -0.22091234306869083E-02 0.98522808304441583E+05 0.20548077300190920E+03 nstep, te 2 0.26140564734061379E+10 0.26140173351288142E+10 -0.21686856450934861E-02 0.98523149313420639E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 3600 WSHIST: writing time sample 0 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 1800 WSHIST: accumulated nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-01-03600.nc WSHIST: instantaneous nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-01-03600.nc Opening netcdf history files NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-01-03600.nc NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-01-03600.nc H_DEFINE: Successfully opened netcdf file H_DEFINE: Successfully opened netcdf file Creating new decomp: 16!7!!1!!d6!i7! Creating new decomp: 16!58!7!!1!58!!d6!i7! nstep, te 3 0.26140488022874217E+10 0.26140312173762441E+10 -0.97439257775207885E-03 0.98523400704148939E+05 0.20548077300190920E+03 nstep, te 4 0.26140567884836760E+10 0.26140452203577194E+10 -0.64099663266549607E-03 0.98523638127969083E+05 0.20548077300190920E+03 WSHIST: writing time sample 1 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 7200 WSHIST: writing time sample 1 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 5400 nstep, te 5 0.26140807453855934E+10 0.26140687144896054E+10 -0.66663752544800605E-03 0.98523854283469540E+05 0.20548077300190920E+03 nstep, te 6 0.26141025622069864E+10 0.26140900644129515E+10 -0.69250723553946486E-03 0.98524042711020011E+05 0.20548077300190920E+03 WSHIST: writing time sample 2 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 10800 WSHIST: writing time sample 2 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 9000 nstep, te 7 0.26141269700645051E+10 0.26141159464292469E+10 -0.61082257303610708E-03 0.98524203295191837E+05 0.20548077300190920E+03 nstep, te 8 0.26141493741855397E+10 0.26141398607895908E+10 -0.52713907937438275E-03 0.98524339504273492E+05 0.20548077300190920E+03 WSHIST: writing time sample 3 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 14400 WSHIST: writing time sample 3 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 12600 nstep, te 9 0.26141758455390744E+10 0.26141674685386782E+10 -0.46417059841187314E-03 0.98524463882953278E+05 0.20548077300190920E+03 nstep, te 10 0.26142004002868600E+10 0.26141933993837686E+10 -0.38792046032651409E-03 0.98524570609784860E+05 0.20548077300190920E+03 WSHIST: writing time sample 4 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 18000 WSHIST: writing time sample 4 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 16200 nstep, te 11 0.26142296053508644E+10 0.26142227872272339E+10 -0.37779223966943242E-03 0.98524674646447864E+05 0.20548077300190920E+03 nstep, te 12 0.26142562612339230E+10 0.26142496027329311E+10 -0.36894718018450274E-03 0.98524772941517644E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/01 NCSEC= 21600 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/01 NCSEC= 10800 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-01-21600.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-01-21600.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-01-21600.nc H_DEFINE: Successfully opened netcdf file Creating new decomp: 16!7!!48600!!d5!i4! Creating new decomp: 16!58!7!!48600!58!!d5!i4! WSHIST: writing time sample 5 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 21600 WSHIST: writing time sample 5 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 19800 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-01-21600.nc Auxiliary history file number 1 Output at NSTEP = 12 Number of time samples on this file = 1 Model Day = 0.25 --------------------------------------- nstep, te 13 0.26142883043366513E+10 0.26142817966536288E+10 -0.36058998066042626E-03 0.98524877641912797E+05 0.20548077300190920E+03 nstep, te 14 0.26143192860673165E+10 0.26143126223595386E+10 -0.36923494097114656E-03 0.98524971838949263E+05 0.20548077300190920E+03 WSHIST: writing time sample 6 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 25200 WSHIST: writing time sample 6 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 23400 nstep, te 15 0.26143533838643098E+10 0.26143479407683926E+10 -0.30160076204756384E-03 0.98525062625525257E+05 0.20548077300190920E+03 nstep, te 16 0.26143879943593531E+10 0.26143826435108547E+10 -0.29648908350463131E-03 0.98525151864901010E+05 0.20548077300190920E+03 WSHIST: writing time sample 7 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 28800 WSHIST: writing time sample 7 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 27000 nstep, te 17 0.26144266796245403E+10 0.26144205678236766E+10 -0.33865295188810143E-03 0.98525238546413952E+05 0.20548077300190920E+03 nstep, te 18 0.26144636255577731E+10 0.26144584604576645E+10 -0.28619633752457243E-03 0.98525315873443789E+05 0.20548077300190920E+03 WSHIST: writing time sample 8 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 32400 WSHIST: writing time sample 8 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 30600 nstep, te 19 0.26145021306414628E+10 0.26144968197693610E+10 -0.29427330244125521E-03 0.98525385617286680E+05 0.20548077300190920E+03 nstep, te 20 0.26145395703587232E+10 0.26145349981619463E+10 -0.25334343274831196E-03 0.98525449614980884E+05 0.20548077300190920E+03 WSHIST: writing time sample 9 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 36000 WSHIST: writing time sample 9 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 34200 nstep, te 21 0.26145794999324751E+10 0.26145741579822354E+10 -0.29599493947983979E-03 0.98525515219431763E+05 0.20548077300190920E+03 nstep, te 22 0.26146192567285357E+10 0.26146146599859910E+10 -0.25470316743313268E-03 0.98525579170785932E+05 0.20548077300190920E+03 WSHIST: writing time sample 10 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 39600 WSHIST: writing time sample 10 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 37800 nstep, te 23 0.26146611369580879E+10 0.26146560576207838E+10 -0.28144327971422805E-03 0.98525655324490217E+05 0.20548077300190920E+03 nstep, te 24 0.26147021217687831E+10 0.26146971850180845E+10 -0.27354245411820597E-03 0.98525720163489474E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/01 NCSEC= 43200 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/01 NCSEC= 32400 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-01-43200.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-01-43200.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-01-43200.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 11 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 43200 WSHIST: writing time sample 11 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 41400 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-01-43200.nc Auxiliary history file number 1 Output at NSTEP = 24 Number of time samples on this file = 1 Model Day = 0.50 --------------------------------------- nstep, te 25 0.26147445864751430E+10 0.26147403903832674E+10 -0.23250283112227039E-03 0.98525784868890783E+05 0.20548077300190920E+03 nstep, te 26 0.26147877865901389E+10 0.26147839177720804E+10 -0.21436866505734778E-03 0.98525843660979823E+05 0.20548077300190920E+03 WSHIST: writing time sample 12 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 46800 WSHIST: writing time sample 12 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 45000 nstep, te 27 0.26148323138092489E+10 0.26148280373688645E+10 -0.23695461237338363E-03 0.98525900826202531E+05 0.20548077300190920E+03 nstep, te 28 0.26148753721709328E+10 0.26148721779346929E+10 -0.17699031674478299E-03 0.98525962124295867E+05 0.20548077300190920E+03 WSHIST: writing time sample 13 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 50400 WSHIST: writing time sample 13 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 48600 nstep, te 29 0.26149189780033555E+10 0.26149144651577616E+10 -0.25005334486034121E-03 0.98526025522012365E+05 0.20548077300190920E+03 nstep, te 30 0.26149606088144207E+10 0.26149559172084556E+10 -0.25995816886480958E-03 0.98526083130756568E+05 0.20548077300190920E+03 WSHIST: writing time sample 14 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 54000 WSHIST: writing time sample 14 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 52200 nstep, te 31 0.26149975712949262E+10 0.26149936178483119E+10 -0.21905723532423594E-03 0.98526131978262521E+05 0.20548077300190920E+03 nstep, te 32 0.26150350345284128E+10 0.26150309301614442E+10 -0.22741950096268564E-03 0.98526178433161520E+05 0.20548077300190920E+03 WSHIST: writing time sample 15 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 57600 WSHIST: writing time sample 15 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 55800 nstep, te 33 0.26150658834358811E+10 0.26150627874244838E+10 -0.17154730485554400E-03 0.98526216884304944E+05 0.20548077300190920E+03 nstep, te 34 0.26150971290583649E+10 0.26150938579289951E+10 -0.18125037688094370E-03 0.98526250982728248E+05 0.20548077300190920E+03 WSHIST: writing time sample 16 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 61200 WSHIST: writing time sample 16 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 59400 nstep, te 35 0.26151233641165428E+10 0.26151204710929933E+10 -0.16029981720023012E-03 0.98526282610380280E+05 0.20548077300190920E+03 nstep, te 36 0.26151501372558479E+10 0.26151470954354048E+10 -0.16854445616495788E-03 0.98526318938226046E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/01 NCSEC= 64800 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/01 NCSEC= 54000 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-01-64800.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-01-64800.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-01-64800.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 17 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 64800 WSHIST: writing time sample 17 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 63000 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-01-64800.nc Auxiliary history file number 1 Output at NSTEP = 36 Number of time samples on this file = 1 Model Day = 0.75 --------------------------------------- nstep, te 37 0.26151718843337698E+10 0.26151696102971888E+10 -0.12600222561061559E-03 0.98526347952840049E+05 0.20548077300190920E+03 nstep, te 38 0.26151942267852993E+10 0.26151917803651724E+10 -0.13555379954430428E-03 0.98526374077999295E+05 0.20548077300190920E+03 WSHIST: writing time sample 18 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 68400 WSHIST: writing time sample 18 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 66600 nstep, te 39 0.26152104432381120E+10 0.26152083790760770E+10 -0.11437321953050427E-03 0.98526395329516148E+05 0.20548077300190920E+03 nstep, te 40 0.26152259072821136E+10 0.26152243235378261E+10 -0.87753727338680520E-04 0.98526406550271073E+05 0.20548077300190920E+03 WSHIST: writing time sample 19 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 72000 WSHIST: writing time sample 19 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 70200 nstep, te 41 0.26152341272509260E+10 0.26152328652003794E+10 -0.69928987288496805E-04 0.98526411352999552E+05 0.20548077300190920E+03 nstep, te 42 0.26152415971288762E+10 0.26152405328831191E+10 -0.58968817618251690E-04 0.98526410705776376E+05 0.20548077300190920E+03 WSHIST: writing time sample 20 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 75600 WSHIST: writing time sample 20 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 73800 nstep, te 43 0.26152396192799206E+10 0.26152394750105925E+10 -0.79938236062370870E-05 0.98526397319094249E+05 0.20548077300190920E+03 nstep, te 44 0.26152389826643386E+10 0.26152385303364706E+10 -0.25063052289184847E-04 0.98526383030465338E+05 0.20548077300190920E+03 WSHIST: writing time sample 21 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 79200 WSHIST: writing time sample 21 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 77400 nstep, te 45 0.26152298867957387E+10 0.26152303579224901E+10 0.26104688212265072E-04 0.98526353406361290E+05 0.20548077300190920E+03 nstep, te 46 0.26152239313535233E+10 0.26152237462980242E+10 -0.10253752795372332E-04 0.98526330224248159E+05 0.20548077300190920E+03 WSHIST: writing time sample 22 to instantaneous h-file 3 DATE=0001/01/01 NCSEC= 82800 WSHIST: writing time sample 22 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 81000 nstep, te 47 0.26152138260253053E+10 0.26152139921363544E+10 0.92040611700186763E-05 0.98526301446676734E+05 0.20548077300190920E+03 nstep, te 48 0.26152060331216993E+10 0.26152058921305904E+10 -0.78121898361485360E-05 0.98526281797029296E+05 0.20548077300190920E+03 chem_surfvals_set: ncdate= 10102 co2vmr= 3.703339045743057E-004 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/02 NCSEC= 0 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/01 NCSEC= 75600 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-02-00000.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-02-00000.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-02-00000.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 23 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 0 WSHIST: writing time sample 23 to accumulated h-file 3 DATE=0001/01/01 NCSEC= 84600 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-02-00000.nc Auxiliary history file number 1 Output at NSTEP = 48 Number of time samples on this file = 1 Model Day = 1.00 --------------------------------------- WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-01-03600.nc WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-01-03600.nc Auxiliary history file number 2 Output at NSTEP = 48 Number of time samples on this file = 24 Model Day = 1.00 --------------------------------------- nstep, te 49 0.26151997653170381E+10 0.26151989120176597E+10 -0.47280554270261647E-04 0.98526266389718861E+05 0.20548077300190920E+03 nstep, te 50 0.26151932492336993E+10 0.26151923627036600E+10 -0.49121842273467849E-04 0.98526252686859472E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 3600 WSHIST: writing time sample 0 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 1800 WSHIST: accumulated nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-02-03600.nc WSHIST: instantaneous nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-02-03600.nc Opening netcdf history files NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-02-03600.nc NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-02-03600.nc H_DEFINE: Successfully opened netcdf file H_DEFINE: Successfully opened netcdf file nstep, te 51 0.26151907050238447E+10 0.26151898632224960E+10 -0.46643468950094320E-04 0.98526244873319069E+05 0.20548077300190920E+03 nstep, te 52 0.26151879623395667E+10 0.26151871281030664E+10 -0.46224313012117904E-04 0.98526232899900599E+05 0.20548077300190920E+03 WSHIST: writing time sample 1 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 7200 WSHIST: writing time sample 1 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 5400 nstep, te 53 0.26151893680459366E+10 0.26151891728722024E+10 -0.10814406982454971E-04 0.98526219248735317E+05 0.20548077300190920E+03 nstep, te 54 0.26151909558043714E+10 0.26151904457144265E+10 -0.28263644573910780E-04 0.98526205130607923E+05 0.20548077300190920E+03 WSHIST: writing time sample 2 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 10800 WSHIST: writing time sample 2 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 9000 nstep, te 55 0.26151970959272957E+10 0.26151966535243869E+10 -0.24513167369802327E-04 0.98526192402785935E+05 0.20548077300190920E+03 nstep, te 56 0.26152024182624741E+10 0.26152021616357255E+10 -0.14219470448119785E-04 0.98526182262280257E+05 0.20548077300190920E+03 WSHIST: writing time sample 3 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 14400 WSHIST: writing time sample 3 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 12600 nstep, te 57 0.26152138358578916E+10 0.26152125607019439E+10 -0.70655310114391923E-04 0.98526181240512116E+05 0.20548077300190920E+03 nstep, te 58 0.26152237548876958E+10 0.26152222610994344E+10 -0.82769538420282486E-04 0.98526184642226042E+05 0.20548077300190920E+03 WSHIST: writing time sample 4 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 18000 WSHIST: writing time sample 4 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 16200 nstep, te 59 0.26152392859509850E+10 0.26152368699157939E+10 -0.13387043984855763E-03 0.98526197413318427E+05 0.20548077300190920E+03 nstep, te 60 0.26152515718901639E+10 0.26152500615544100E+10 -0.83686403532008425E-04 0.98526205071973411E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/02 NCSEC= 21600 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/02 NCSEC= 10800 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-02-21600.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-02-21600.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-02-21600.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 5 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 21600 WSHIST: writing time sample 5 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 19800 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-02-21600.nc Auxiliary history file number 1 Output at NSTEP = 60 Number of time samples on this file = 1 Model Day = 1.25 --------------------------------------- nstep, te 61 0.26152690698401203E+10 0.26152676082186480E+10 -0.80987185100530798E-04 0.98526207548021630E+05 0.20548077300190920E+03 nstep, te 62 0.26152873521732221E+10 0.26152853823500915E+10 -0.10914619093982142E-03 0.98526216293520003E+05 0.20548077300190920E+03 WSHIST: writing time sample 6 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 25200 WSHIST: writing time sample 6 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 23400 nstep, te 63 0.26153096116371388E+10 0.26153077717690005E+10 -0.10194548113772508E-03 0.98526232118888583E+05 0.20548077300190920E+03 nstep, te 64 0.26153327883092632E+10 0.26153307508815007E+10 -0.11289206956257874E-03 0.98526247113085090E+05 0.20548077300190920E+03 WSHIST: writing time sample 7 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 28800 WSHIST: writing time sample 7 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 27000 nstep, te 65 0.26153576141434278E+10 0.26153561043260083E+10 -0.83657642748639308E-04 0.98526252460515112E+05 0.20548077300190920E+03 nstep, te 66 0.26153837195394230E+10 0.26153822374837890E+10 -0.82119381352687063E-04 0.98526259056221170E+05 0.20548077300190920E+03 WSHIST: writing time sample 8 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 32400 WSHIST: writing time sample 8 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 30600 nstep, te 67 0.26154112235369344E+10 0.26154098478702025E+10 -0.76224464522312157E-04 0.98526262424530782E+05 0.20548077300190920E+03 nstep, te 68 0.26154389301535172E+10 0.26154378606286931E+10 -0.59261413461553529E-04 0.98526264876443907E+05 0.20548077300190920E+03 WSHIST: writing time sample 9 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 36000 WSHIST: writing time sample 9 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 34200 nstep, te 69 0.26154682194675188E+10 0.26154668746526046E+10 -0.74514981743917401E-04 0.98526277109356946E+05 0.20548077300190920E+03 nstep, te 70 0.26154979085444188E+10 0.26154963959217257E+10 -0.83813053572146562E-04 0.98526284007805807E+05 0.20548077300190920E+03 WSHIST: writing time sample 10 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 39600 WSHIST: writing time sample 10 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 37800 nstep, te 71 0.26155284295464196E+10 0.26155270993597717E+10 -0.73704435504946651E-04 0.98526286703460864E+05 0.20548077300190920E+03 nstep, te 72 0.26155602260867038E+10 0.26155592854176011E+10 -0.52121625696376416E-04 0.98526279104291636E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/02 NCSEC= 43200 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/02 NCSEC= 32400 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-02-43200.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-02-43200.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-02-43200.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 11 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 43200 WSHIST: writing time sample 11 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 41400 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-02-43200.nc Auxiliary history file number 1 Output at NSTEP = 72 Number of time samples on this file = 1 Model Day = 1.50 --------------------------------------- nstep, te 73 0.26155953533366389E+10 0.26155938218168406E+10 -0.84860136074554413E-04 0.98526271244666132E+05 0.20548077300190920E+03 nstep, te 74 0.26156311163293142E+10 0.26156302961456761E+10 -0.45445641555461238E-04 0.98526264672043530E+05 0.20548077300190920E+03 WSHIST: writing time sample 12 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 46800 WSHIST: writing time sample 12 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 45000 nstep, te 75 0.26156694875966725E+10 0.26156681880375748E+10 -0.72007405349764215E-04 0.98526266749089802E+05 0.20548077300190920E+03 nstep, te 76 0.26157079809273462E+10 0.26157063375064797E+10 -0.91060473097874487E-04 0.98526271927128822E+05 0.20548077300190920E+03 WSHIST: writing time sample 13 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 50400 WSHIST: writing time sample 13 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 48600 nstep, te 77 0.26157448932446342E+10 0.26157437535348606E+10 -0.63150288854487032E-04 0.98526280211503923E+05 0.20548077300190920E+03 nstep, te 78 0.26157814458346462E+10 0.26157803633332462E+10 -0.59980420493735004E-04 0.98526286881100619E+05 0.20548077300190920E+03 WSHIST: writing time sample 14 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 54000 WSHIST: writing time sample 14 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 52200 nstep, te 79 0.26158146617857141E+10 0.26158131891336970E+10 -0.81598306695145314E-04 0.98526293551902141E+05 0.20548077300190920E+03 nstep, te 80 0.26158463200476017E+10 0.26158452076083446E+10 -0.61639243818908650E-04 0.98526296737200479E+05 0.20548077300190920E+03 WSHIST: writing time sample 15 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 57600 WSHIST: writing time sample 15 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 55800 nstep, te 81 0.26158728702231150E+10 0.26158716382252164E+10 -0.68263880341461953E-04 0.98526294818396884E+05 0.20548077300190920E+03 nstep, te 82 0.26158979535618119E+10 0.26158966782527971E+10 -0.70663714544329031E-04 0.98526288222980569E+05 0.20548077300190920E+03 WSHIST: writing time sample 16 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 61200 WSHIST: writing time sample 16 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 59400 nstep, te 83 0.26159172221911001E+10 0.26159171056098456E+10 -0.64596629713566388E-05 0.98526265165063320E+05 0.20548077300190920E+03 nstep, te 84 0.26159369597792239E+10 0.26159372815766568E+10 0.17830513049042263E-04 0.98526235946455505E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/02 NCSEC= 64800 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/02 NCSEC= 54000 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-02-64800.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-02-64800.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-02-64800.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 17 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 64800 WSHIST: writing time sample 17 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 63000 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-02-64800.nc Auxiliary history file number 1 Output at NSTEP = 84 Number of time samples on this file = 1 Model Day = 1.75 --------------------------------------- nstep, te 85 0.26159532711902657E+10 0.26159537000794644E+10 0.23764382128009545E-04 0.98526201132625458E+05 0.20548077300190920E+03 nstep, te 86 0.26159693227616034E+10 0.26159701863557086E+10 0.47851024562700533E-04 0.98526166327438172E+05 0.20548077300190920E+03 WSHIST: writing time sample 18 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 68400 WSHIST: writing time sample 18 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 66600 nstep, te 87 0.26159809380633283E+10 0.26159819618152847E+10 0.56725257717358694E-04 0.98526129862659232E+05 0.20548077300190920E+03 nstep, te 88 0.26159932961388698E+10 0.26159937324832573E+10 0.24177493118997109E-04 0.98526097898974258E+05 0.20548077300190920E+03 WSHIST: writing time sample 19 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 72000 WSHIST: writing time sample 19 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 70200 nstep, te 89 0.26159980105732675E+10 0.26159992992545538E+10 0.71404826376065975E-04 0.98526059088065624E+05 0.20548077300190920E+03 nstep, te 90 0.26160035184271431E+10 0.26160046708565173E+10 0.63855239235803508E-04 0.98526020303131460E+05 0.20548077300190920E+03 WSHIST: writing time sample 20 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 75600 WSHIST: writing time sample 20 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 73800 nstep, te 91 0.26160005756894922E+10 0.26160018630844359E+10 0.71333615063012216E-04 0.98525970972469440E+05 0.20548077300190920E+03 nstep, te 92 0.26159978066855736E+10 0.26159993655154920E+10 0.86373673283807092E-04 0.98525920653634093E+05 0.20548077300190920E+03 WSHIST: writing time sample 21 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 79200 WSHIST: writing time sample 21 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 77400 nstep, te 93 0.26159874096928315E+10 0.26159897639184513E+10 0.13044607225195942E-03 0.98525859903389792E+05 0.20548077300190920E+03 nstep, te 94 0.26159807225288892E+10 0.26159811963222251E+10 0.26252585106562788E-04 0.98525814223621259E+05 0.20548077300190920E+03 WSHIST: writing time sample 22 to instantaneous h-file 3 DATE=0001/01/02 NCSEC= 82800 WSHIST: writing time sample 22 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 81000 nstep, te 95 0.26159669880028133E+10 0.26159688038822732E+10 0.10061678006791117E-03 0.98525752733282308E+05 0.20548077300190920E+03 nstep, te 96 0.26159570935981579E+10 0.26159579315079150E+10 0.46428091585024466E-04 0.98525710611082293E+05 0.20548077300190920E+03 chem_surfvals_set: ncdate= 10103 co2vmr= 3.702956049831999E-004 READ_NEXT_TRCDATA ozone WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/03 NCSEC= 0 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/02 NCSEC= 75600 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-03-00000.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-03-00000.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-03-00000.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 23 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 0 WSHIST: writing time sample 23 to accumulated h-file 3 DATE=0001/01/02 NCSEC= 84600 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-03-00000.nc Auxiliary history file number 1 Output at NSTEP = 96 Number of time samples on this file = 1 Model Day = 2.00 --------------------------------------- WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-02-03600.nc WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-02-03600.nc Auxiliary history file number 2 Output at NSTEP = 96 Number of time samples on this file = 24 Model Day = 2.00 --------------------------------------- nstep, te 97 0.26159472273542285E+10 0.26159475236011524E+10 0.16414874189776814E-04 0.98525682517251422E+05 0.20548077300190920E+03 nstep, te 98 0.26159367031988354E+10 0.26159366473802037E+10 -0.30928796275861290E-05 0.98525654641830683E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 3600 WSHIST: writing time sample 0 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 1800 WSHIST: accumulated nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-03-03600.nc WSHIST: instantaneous nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-03-03600.nc Opening netcdf history files NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-03-03600.nc NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-03-03600.nc H_DEFINE: Successfully opened netcdf file H_DEFINE: Successfully opened netcdf file nstep, te 99 0.26159290542895246E+10 0.26159295016544061E+10 0.24788249219129011E-04 0.98525624495166208E+05 0.20548077300190920E+03 nstep, te 100 0.26159225250442901E+10 0.26159222847458234E+10 -0.13314813190622736E-04 0.98525598971304309E+05 0.20548077300190920E+03 WSHIST: writing time sample 1 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 7200 WSHIST: writing time sample 1 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 5400 nstep, te 101 0.26159198944863114E+10 0.26159200479372997E+10 0.85026416606286438E-05 0.98525574392590803E+05 0.20548077300190920E+03 nstep, te 102 0.26159175091012473E+10 0.26159175242856302E+10 0.84135920768687219E-06 0.98525547616585711E+05 0.20548077300190920E+03 WSHIST: writing time sample 2 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 10800 WSHIST: writing time sample 2 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 9000 nstep, te 103 0.26159203812756038E+10 0.26159201378298817E+10 -0.13489211069732971E-04 0.98525525416979173E+05 0.20548077300190920E+03 nstep, te 104 0.26159222855590458E+10 0.26159223300921245E+10 0.24675570880826362E-05 0.98525505879933015E+05 0.20548077300190920E+03 WSHIST: writing time sample 3 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 14400 WSHIST: writing time sample 3 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 12600 nstep, te 105 0.26159295367492118E+10 0.26159290272482204E+10 -0.28231217801726336E-04 0.98525485488113001E+05 0.20548077300190920E+03 nstep, te 106 0.26159353896821527E+10 0.26159350511836209E+10 -0.18756052851109385E-04 0.98525467544628948E+05 0.20548077300190920E+03 WSHIST: writing time sample 4 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 18000 WSHIST: writing time sample 4 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 16200 nstep, te 107 0.26159460371661367E+10 0.26159456000138893E+10 -0.24222413463742806E-04 0.98525458697212365E+05 0.20548077300190920E+03 nstep, te 108 0.26159564521339164E+10 0.26159553567560697E+10 -0.60694407460629627E-04 0.98525453044089547E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/03 NCSEC= 21600 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/03 NCSEC= 10800 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-03-21600.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-03-21600.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-03-21600.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 5 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 21600 WSHIST: writing time sample 5 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 19800 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-03-21600.nc Auxiliary history file number 1 Output at NSTEP = 108 Number of time samples on this file = 1 Model Day = 2.25 --------------------------------------- nstep, te 109 0.26159706018229246E+10 0.26159695295879002E+10 -0.59412076489956248E-04 0.98525448591888227E+05 0.20548077300190920E+03 nstep, te 110 0.26159844467279468E+10 0.26159839667620740E+10 -0.26594702114043679E-04 0.98525441950194276E+05 0.20548077300190920E+03 WSHIST: writing time sample 6 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 25200 WSHIST: writing time sample 6 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 23400 nstep, te 111 0.26160028746663408E+10 0.26160026029136453E+10 -0.15057700410182999E-04 0.98525437432481413E+05 0.20548077300190920E+03 nstep, te 112 0.26160227259139018E+10 0.26160220511882854E+10 -0.37386257754651530E-04 0.98525436173576862E+05 0.20548077300190920E+03 WSHIST: writing time sample 7 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 28800 WSHIST: writing time sample 7 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 27000 nstep, te 113 0.26160451147487497E+10 0.26160444762397208E+10 -0.35379513269391651E-04 0.98525433014475188E+05 0.20548077300190920E+03 nstep, te 114 0.26160680472422500E+10 0.26160673667416267E+10 -0.37706250393745697E-04 0.98525430998936965E+05 0.20548077300190920E+03 WSHIST: writing time sample 8 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 32400 WSHIST: writing time sample 8 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 30600 nstep, te 115 0.26160925508851295E+10 0.26160918736569543E+10 -0.37524927423428725E-04 0.98525425794293449E+05 0.20548077300190920E+03 nstep, te 116 0.26161185414421320E+10 0.26161174187417407E+10 -0.62208356673039517E-04 0.98525423068265591E+05 0.20548077300190920E+03 WSHIST: writing time sample 9 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 36000 WSHIST: writing time sample 9 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 34200 nstep, te 117 0.26161445391593409E+10 0.26161440613787618E+10 -0.26473621987033112E-04 0.98525419468230568E+05 0.20548077300190920E+03 nstep, te 118 0.26161724969975977E+10 0.26161720089327846E+10 -0.27043467882732837E-04 0.98525416596024108E+05 0.20548077300190920E+03 WSHIST: writing time sample 10 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 39600 WSHIST: writing time sample 10 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 37800 nstep, te 119 0.26162012802409258E+10 0.26162009278742809E+10 -0.19524489536475380E-04 0.98525413562433925E+05 0.20548077300190920E+03 nstep, te 120 0.26162313712239251E+10 0.26162307472434125E+10 -0.34574502793083357E-04 0.98525409064979380E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/03 NCSEC= 43200 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/03 NCSEC= 32400 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-03-43200.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-03-43200.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-03-43200.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 11 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 43200 WSHIST: writing time sample 11 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 41400 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-03-43200.nc Auxiliary history file number 1 Output at NSTEP = 120 Number of time samples on this file = 1 Model Day = 2.50 --------------------------------------- nstep, te 121 0.26162632299727354E+10 0.26162624750017762E+10 -0.41832629353848477E-04 0.98525409172993954E+05 0.20548077300190920E+03 nstep, te 122 0.26162959000399256E+10 0.26162948610984774E+10 -0.57567314187393597E-04 0.98525413954289892E+05 0.20548077300190920E+03 WSHIST: writing time sample 12 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 46800 WSHIST: writing time sample 12 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 45000 nstep, te 123 0.26163299360058417E+10 0.26163281364905071E+10 -0.99710383027941510E-04 0.98525428102953127E+05 0.20548077300190920E+03 nstep, te 124 0.26163634628339472E+10 0.26163614011375685E+10 -0.11423770659585812E-03 0.98525442833210996E+05 0.20548077300190920E+03 WSHIST: writing time sample 13 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 50400 WSHIST: writing time sample 13 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 48600 nstep, te 125 0.26163946685050673E+10 0.26163927808109775E+10 -0.10459630284873253E-03 0.98525454128517493E+05 0.20548077300190920E+03 nstep, te 126 0.26164248112915616E+10 0.26164234855870738E+10 -0.73456701742065684E-04 0.98525458632876180E+05 0.20548077300190920E+03 WSHIST: writing time sample 14 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 54000 WSHIST: writing time sample 14 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 52200 nstep, te 127 0.26164502426283464E+10 0.26164495675154295E+10 -0.37407709426930236E-04 0.98525458467778240E+05 0.20548077300190920E+03 nstep, te 128 0.26164746547560472E+10 0.26164743249687333E+10 -0.18273371197716990E-04 0.98525451141556492E+05 0.20548077300190920E+03 WSHIST: writing time sample 15 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 57600 WSHIST: writing time sample 15 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 55800 nstep, te 129 0.26164935321630421E+10 0.26164939320507603E+10 0.22157609291218249E-04 0.98525427738504135E+05 0.20548077300190920E+03 nstep, te 130 0.26165118348722992E+10 0.26165125482535472E+10 0.39528163443716608E-04 0.98525402140541497E+05 0.20548077300190920E+03 WSHIST: writing time sample 16 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 61200 WSHIST: writing time sample 16 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 59400 nstep, te 131 0.26165254299943023E+10 0.26165267055233188E+10 0.70676565230354328E-04 0.98525369249181502E+05 0.20548077300190920E+03 nstep, te 132 0.26165402316639032E+10 0.26165407903099666E+10 0.30954369381105559E-04 0.98525340867639083E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/03 NCSEC= 64800 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/03 NCSEC= 54000 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-03-64800.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-03-64800.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-03-64800.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 17 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 64800 WSHIST: writing time sample 17 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 63000 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-03-64800.nc Auxiliary history file number 1 Output at NSTEP = 132 Number of time samples on this file = 1 Model Day = 2.75 --------------------------------------- nstep, te 133 0.26165504490978746E+10 0.26165513312184134E+10 0.48877985002906801E-04 0.98525308780291671E+05 0.20548077300190920E+03 nstep, te 134 0.26165612653970647E+10 0.26165617066347170E+10 0.24448827954099944E-04 0.98525281728943592E+05 0.20548077300190920E+03 WSHIST: writing time sample 18 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 68400 WSHIST: writing time sample 18 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 66600 nstep, te 135 0.26165661025128202E+10 0.26165671514220762E+10 0.58119726345766387E-04 0.98525244669063308E+05 0.20548077300190920E+03 nstep, te 136 0.26165710052831025E+10 0.26165719424967985E+10 0.51930732007232843E-04 0.98525205079735402E+05 0.20548077300190920E+03 WSHIST: writing time sample 19 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 72000 WSHIST: writing time sample 19 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 70200 nstep, te 137 0.26165683422270207E+10 0.26165698185538988E+10 0.81802874019884123E-04 0.98525155778444197E+05 0.20548077300190920E+03 nstep, te 138 0.26165653479212680E+10 0.26165672689112754E+10 0.10644159820217952E-03 0.98525100217636646E+05 0.20548077300190920E+03 WSHIST: writing time sample 20 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 75600 WSHIST: writing time sample 20 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 73800 nstep, te 139 0.26165531492954321E+10 0.26165561435237441E+10 0.16590959668046516E-03 0.98525029128215770E+05 0.20548077300190920E+03 nstep, te 140 0.26165430212260947E+10 0.26165456650953641E+10 0.14649637174538876E-03 0.98524961945300500E+05 0.20548077300190920E+03 WSHIST: writing time sample 21 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 79200 WSHIST: writing time sample 21 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 77400 nstep, te 141 0.26165250270143180E+10 0.26165281773970871E+10 0.17456234579531517E-03 0.98524881769067855E+05 0.20548077300190920E+03 nstep, te 142 0.26165092139351010E+10 0.26165119229497447E+10 0.15010630010001055E-03 0.98524808921946707E+05 0.20548077300190920E+03 WSHIST: writing time sample 22 to instantaneous h-file 3 DATE=0001/01/03 NCSEC= 82800 WSHIST: writing time sample 22 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 81000 nstep, te 143 0.26164896088364944E+10 0.26164923984952307E+10 0.15457490165740866E-03 0.98524733624027111E+05 0.20548077300190920E+03 nstep, te 144 0.26164718946741524E+10 0.26164736116548629E+10 0.95137904065249266E-04 0.98524674074363953E+05 0.20548077300190920E+03 chem_surfvals_set: ncdate= 10104 co2vmr= 3.702573053920939E-004 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/04 NCSEC= 0 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/03 NCSEC= 75600 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-04-00000.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-04-00000.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-04-00000.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 23 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 0 WSHIST: writing time sample 23 to accumulated h-file 3 DATE=0001/01/03 NCSEC= 84600 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-04-00000.nc Auxiliary history file number 1 Output at NSTEP = 144 Number of time samples on this file = 1 Model Day = 3.00 --------------------------------------- WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-03-03600.nc WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-03-03600.nc Auxiliary history file number 2 Output at NSTEP = 144 Number of time samples on this file = 24 Model Day = 3.00 --------------------------------------- nstep, te 145 0.26164542383845420E+10 0.26164556179839821E+10 0.76443650347516264E-04 0.98524618711775765E+05 0.20548077300190920E+03 nstep, te 146 0.26164371048019834E+10 0.26164380917198944E+10 0.54685184206895155E-04 0.98524564238435298E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 3600 WSHIST: writing time sample 0 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 1800 WSHIST: accumulated nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-04-03600.nc WSHIST: instantaneous nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-04-03600.nc Opening netcdf history files NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-04-03600.nc NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-04-03600.nc H_DEFINE: Successfully opened netcdf file H_DEFINE: Successfully opened netcdf file nstep, te 147 0.26164242037658615E+10 0.26164248374928164E+10 0.35114869552759024E-04 0.98524511928226129E+05 0.20548077300190920E+03 nstep, te 148 0.26164110966109595E+10 0.26164122343278894E+10 0.63041034616508588E-04 0.98524459455339442E+05 0.20548077300190920E+03 WSHIST: writing time sample 1 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 7200 WSHIST: writing time sample 1 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 5400 nstep, te 149 0.26164038683236723E+10 0.26164050848788180E+10 0.67409503735060762E-04 0.98524409995357113E+05 0.20548077300190920E+03 nstep, te 150 0.26163965513229651E+10 0.26163977399708724E+10 0.65863189756063892E-04 0.98524364755579503E+05 0.20548077300190920E+03 WSHIST: writing time sample 2 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 10800 WSHIST: writing time sample 2 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 9000 nstep, te 151 0.26163943819245229E+10 0.26163950369825897E+10 0.36296897755962939E-04 0.98524324192874774E+05 0.20548077300190920E+03 nstep, te 152 0.26163905534864535E+10 0.26163909967450190E+10 0.24561055373848757E-04 0.98524283712930031E+05 0.20548077300190920E+03 WSHIST: writing time sample 3 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 14400 WSHIST: writing time sample 3 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 12600 nstep, te 153 0.26163902793741660E+10 0.26163909654007950E+10 0.38012904293526109E-04 0.98524240517278042E+05 0.20548077300190920E+03 nstep, te 154 0.26163887641277165E+10 0.26163897371131067E+10 0.53913385955938491E-04 0.98524192914022482E+05 0.20548077300190920E+03 WSHIST: writing time sample 4 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 18000 WSHIST: writing time sample 4 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 16200 nstep, te 155 0.26163918432744670E+10 0.26163925926490436E+10 0.41523067726930972E-04 0.98524150370906529E+05 0.20548077300190920E+03 nstep, te 156 0.26163948087299490E+10 0.26163952318192430E+10 0.23443513888880494E-04 0.98524106235706262E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/04 NCSEC= 21600 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/04 NCSEC= 10800 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-04-21600.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-04-21600.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-04-21600.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 5 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 21600 WSHIST: writing time sample 5 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 19800 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-04-21600.nc Auxiliary history file number 1 Output at NSTEP = 156 Number of time samples on this file = 1 Model Day = 3.25 --------------------------------------- nstep, te 157 0.26164019710946651E+10 0.26164025995259643E+10 0.34821595189715775E-04 0.98524064646066647E+05 0.20548077300190920E+03 nstep, te 158 0.26164098763525095E+10 0.26164106365502782E+10 0.42122839823829871E-04 0.98524020107757635E+05 0.20548077300190920E+03 WSHIST: writing time sample 6 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 25200 WSHIST: writing time sample 6 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 23400 nstep, te 159 0.26164222952216687E+10 0.26164229155105968E+10 0.34370453563003078E-04 0.98523978913654471E+05 0.20548077300190920E+03 nstep, te 160 0.26164354645730767E+10 0.26164361614519444E+10 0.38614348643496722E-04 0.98523937176241714E+05 0.20548077300190920E+03 WSHIST: writing time sample 7 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 28800 WSHIST: writing time sample 7 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 27000 nstep, te 161 0.26164517125000849E+10 0.26164525093090682E+10 0.44151535432725804E-04 0.98523898409379166E+05 0.20548077300190920E+03 nstep, te 162 0.26164694376242719E+10 0.26164698929411016E+10 0.25229313564607925E-04 0.98523866362109460E+05 0.20548077300190920E+03 WSHIST: writing time sample 8 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 32400 WSHIST: writing time sample 8 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 30600 nstep, te 163 0.26164888991603265E+10 0.26164894904808669E+10 0.32765352555810354E-04 0.98523832636505249E+05 0.20548077300190920E+03 nstep, te 164 0.26165100105950642E+10 0.26165100797057204E+10 0.38294554759563975E-05 0.98523803814516781E+05 0.20548077300190920E+03 WSHIST: writing time sample 9 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 36000 WSHIST: writing time sample 9 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 34200 nstep, te 165 0.26165317573046818E+10 0.26165317678956528E+10 0.58685108474470973E-06 0.98523775380443491E+05 0.20548077300190920E+03 nstep, te 166 0.26165540617960234E+10 0.26165544356986136E+10 0.20718138803579935E-04 0.98523745625368523E+05 0.20548077300190920E+03 WSHIST: writing time sample 10 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 39600 WSHIST: writing time sample 10 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 37800 nstep, te 167 0.26165784884798985E+10 0.26165784004558387E+10 -0.48774606457014091E-05 0.98523719695515902E+05 0.20548077300190920E+03 nstep, te 168 0.26166041351936879E+10 0.26166037365604143E+10 -0.22088489961864449E-04 0.98523696605203149E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/04 NCSEC= 43200 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/04 NCSEC= 32400 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-04-43200.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-04-43200.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-04-43200.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 11 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 43200 WSHIST: writing time sample 11 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 41400 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-04-43200.nc Auxiliary history file number 1 Output at NSTEP = 168 Number of time samples on this file = 1 Model Day = 3.50 --------------------------------------- nstep, te 169 0.26166316967834702E+10 0.26166313275496264E+10 -0.20459455718793406E-04 0.98523675426344867E+05 0.20548077300190920E+03 nstep, te 170 0.26166605270473638E+10 0.26166597448371162E+10 -0.43342718026321064E-04 0.98523660338554400E+05 0.20548077300190920E+03 WSHIST: writing time sample 12 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 46800 WSHIST: writing time sample 12 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 45000 nstep, te 171 0.26166902981996832E+10 0.26166892092838197E+10 -0.60337454283193015E-04 0.98523656541557837E+05 0.20548077300190920E+03 nstep, te 172 0.26167189061955371E+10 0.26167178563795877E+10 -0.58170910150175658E-04 0.98523648776978676E+05 0.20548077300190920E+03 WSHIST: writing time sample 13 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 50400 WSHIST: writing time sample 13 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 48600 nstep, te 173 0.26167459184532661E+10 0.26167451551465678E+10 -0.42295269032386796E-04 0.98523642907145477E+05 0.20548077300190920E+03 nstep, te 174 0.26167718981640534E+10 0.26167714179847603E+10 -0.26607016586315191E-04 0.98523635186142783E+05 0.20548077300190920E+03 WSHIST: writing time sample 14 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 54000 WSHIST: writing time sample 14 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 52200 nstep, te 175 0.26167940075835629E+10 0.26167938065104246E+10 -0.11141582088404325E-04 0.98523622547810883E+05 0.20548077300190920E+03 nstep, te 176 0.26168155026426344E+10 0.26168150593853116E+10 -0.24561155151316935E-04 0.98523608674428135E+05 0.20548077300190920E+03 WSHIST: writing time sample 15 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 57600 WSHIST: writing time sample 15 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 55800 nstep, te 177 0.26168296943176346E+10 0.26168301528701324E+10 0.25408677484273835E-04 0.98523579760048131E+05 0.20548077300190920E+03 nstep, te 178 0.26168446810249763E+10 0.26168448268680968E+10 0.80812594944256009E-05 0.98523555534861516E+05 0.20548077300190920E+03 WSHIST: writing time sample 16 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 61200 WSHIST: writing time sample 16 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 59400 nstep, te 179 0.26168535404992642E+10 0.26168545158989577E+10 0.54047532082113706E-04 0.98523521803307522E+05 0.20548077300190920E+03 nstep, te 180 0.26168640012285733E+10 0.26168641562599869E+10 0.85903936610889162E-05 0.98523497794614232E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/04 NCSEC= 64800 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/04 NCSEC= 54000 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-04-64800.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-04-64800.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-04-64800.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 17 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 64800 WSHIST: writing time sample 17 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 63000 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-04-64800.nc Auxiliary history file number 1 Output at NSTEP = 180 Number of time samples on this file = 1 Model Day = 3.75 --------------------------------------- nstep, te 181 0.26168699291449795E+10 0.26168698569542322E+10 -0.40001383062749662E-05 0.98523472685500485E+05 0.20548077300190920E+03 nstep, te 182 0.26168754311265221E+10 0.26168752901236582E+10 -0.78130663193704051E-05 0.98523448477124737E+05 0.20548077300190920E+03 WSHIST: writing time sample 18 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 68400 WSHIST: writing time sample 18 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 66600 nstep, te 183 0.26168752246885314E+10 0.26168759949151430E+10 0.42678802840307568E-04 0.98523418576772834E+05 0.20548077300190920E+03 nstep, te 184 0.26168755553536205E+10 0.26168763078856578E+10 0.41698346033487156E-04 0.98523390027365051E+05 0.20548077300190920E+03 WSHIST: writing time sample 19 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 72000 WSHIST: writing time sample 19 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 70200 nstep, te 185 0.26168682979540062E+10 0.26168696872311668E+10 0.76980885284625567E-04 0.98523351582786359E+05 0.20548077300190920E+03 nstep, te 186 0.26168621717942901E+10 0.26168630297511668E+10 0.47540048440871406E-04 0.98523316442082010E+05 0.20548077300190920E+03 WSHIST: writing time sample 20 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 75600 WSHIST: writing time sample 20 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 73800 nstep, te 187 0.26168463779836211E+10 0.26168479781551347E+10 0.88666772565158393E-04 0.98523269922853549E+05 0.20548077300190920E+03 nstep, te 188 0.26168318308012538E+10 0.26168331315383511E+10 0.72074904363951295E-04 0.98523228632850820E+05 0.20548077300190920E+03 WSHIST: writing time sample 21 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 79200 WSHIST: writing time sample 21 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 77400 nstep, te 189 0.26168086803827505E+10 0.26168107998928061E+10 0.11744385045112660E-03 0.98523171626105846E+05 0.20548077300190920E+03 nstep, te 190 0.26167877294072981E+10 0.26167891703463521E+10 0.79843694026986218E-04 0.98523124222697268E+05 0.20548077300190920E+03 WSHIST: writing time sample 22 to instantaneous h-file 3 DATE=0001/01/04 NCSEC= 82800 WSHIST: writing time sample 22 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 81000 nstep, te 191 0.26167628067267432E+10 0.26167643274718146E+10 0.84265858571918185E-04 0.98523073727537674E+05 0.20548077300190920E+03 nstep, te 192 0.26167397503321800E+10 0.26167406592031746E+10 0.50361381568953647E-04 0.98523037626106336E+05 0.20548077300190920E+03 chem_surfvals_set: ncdate= 10105 co2vmr= 3.702190058009880E-004 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/05 NCSEC= 0 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/04 NCSEC= 75600 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-05-00000.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-05-00000.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-05-00000.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 23 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 0 WSHIST: writing time sample 23 to accumulated h-file 3 DATE=0001/01/04 NCSEC= 84600 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-05-00000.nc Auxiliary history file number 1 Output at NSTEP = 192 Number of time samples on this file = 1 Model Day = 4.00 --------------------------------------- WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-04-03600.nc WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-04-03600.nc Auxiliary history file number 2 Output at NSTEP = 192 Number of time samples on this file = 24 Model Day = 4.00 --------------------------------------- nstep, te 193 0.26167178544323754E+10 0.26167182868673801E+10 0.23961629822731959E-04 0.98523010302265102E+05 0.20548077300190920E+03 nstep, te 194 0.26166967388425627E+10 0.26166965602599940E+10 -0.98954297556912159E-05 0.98522991683719185E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 3600 WSHIST: writing time sample 0 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 1800 WSHIST: accumulated nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-05-03600.nc WSHIST: instantaneous nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-05-03600.nc Opening netcdf history files NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-05-03600.nc NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-05-03600.nc H_DEFINE: Successfully opened netcdf file H_DEFINE: Successfully opened netcdf file nstep, te 195 0.26166800182854295E+10 0.26166793862815642E+10 -0.35019936826848862E-04 0.98522985104325970E+05 0.20548077300190920E+03 nstep, te 196 0.26166641869381833E+10 0.26166625774387150E+10 -0.89183895960669659E-04 0.98522989882279857E+05 0.20548077300190920E+03 WSHIST: writing time sample 1 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 7200 WSHIST: writing time sample 1 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 5400 nstep, te 197 0.26166528695033231E+10 0.26166507160029063E+10 -0.11932748539091323E-03 0.98523006686352062E+05 0.20548077300190920E+03 nstep, te 198 0.26166406469852424E+10 0.26166382051602201E+10 -0.13530379700765456E-03 0.98523025724350780E+05 0.20548077300190920E+03 WSHIST: writing time sample 2 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 10800 WSHIST: writing time sample 2 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 9000 nstep, te 199 0.26166329416237917E+10 0.26166302650159135E+10 -0.14831329677547273E-03 0.98523050110716838E+05 0.20548077300190920E+03 nstep, te 200 0.26166239720000839E+10 0.26166212493109069E+10 -0.15086666534435721E-03 0.98523075169442687E+05 0.20548077300190920E+03 WSHIST: writing time sample 3 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 14400 WSHIST: writing time sample 3 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 12600 nstep, te 201 0.26166186255239272E+10 0.26166160739101496E+10 -0.14138718084057448E-03 0.98523104497835811E+05 0.20548077300190920E+03 nstep, te 202 0.26166126823450928E+10 0.26166100797970614E+10 -0.14420944829310336E-03 0.98523134963488934E+05 0.20548077300190920E+03 WSHIST: writing time sample 4 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 18000 WSHIST: writing time sample 4 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 16200 nstep, te 203 0.26166111613758960E+10 0.26166080914265442E+10 -0.17010849370742692E-03 0.98523174248811163E+05 0.20548077300190920E+03 nstep, te 204 0.26166080671860609E+10 0.26166056931461134E+10 -0.13154752189331077E-03 0.98523205875136307E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/05 NCSEC= 21600 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/05 NCSEC= 10800 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-05-21600.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-05-21600.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-05-21600.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 5 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 21600 WSHIST: writing time sample 5 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 19800 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-05-21600.nc Auxiliary history file number 1 Output at NSTEP = 204 Number of time samples on this file = 1 Model Day = 4.25 --------------------------------------- nstep, te 205 0.26166106139905934E+10 0.26166079868616371E+10 -0.14557134364662791E-03 0.98523239691967698E+05 0.20548077300190920E+03 nstep, te 206 0.26166130813404603E+10 0.26166104341626601E+10 -0.14668221563306176E-03 0.98523273670330062E+05 0.20548077300190920E+03 WSHIST: writing time sample 6 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 25200 WSHIST: writing time sample 6 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 23400 nstep, te 207 0.26166209862342992E+10 0.26166177083042397E+10 -0.18163261770411045E-03 0.98523316700141702E+05 0.20548077300190920E+03 nstep, te 208 0.26166285760863342E+10 0.26166252918748455E+10 -0.18198059880083456E-03 0.98523358687467815E+05 0.20548077300190920E+03 WSHIST: writing time sample 7 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 28800 WSHIST: writing time sample 7 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 27000 nstep, te 209 0.26166395242465591E+10 0.26166362963555851E+10 -0.17885975896240897E-03 0.98523401713668805E+05 0.20548077300190920E+03 nstep, te 210 0.26166512001072879E+10 0.26166480515827584E+10 -0.17446192573751431E-03 0.98523447634256794E+05 0.20548077300190920E+03 WSHIST: writing time sample 8 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 32400 WSHIST: writing time sample 8 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 30600 nstep, te 211 0.26166640568895154E+10 0.26166615252158880E+10 -0.14028173340027727E-03 0.98523487195900641E+05 0.20548077300190920E+03 nstep, te 212 0.26166785226542420E+10 0.26166757763323045E+10 -0.15217547750093449E-03 0.98523527709850212E+05 0.20548077300190920E+03 WSHIST: writing time sample 9 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 36000 WSHIST: writing time sample 9 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 34200 nstep, te 213 0.26166931899592662E+10 0.26166911062574730E+10 -0.11545922792800552E-03 0.98523560203539208E+05 0.20548077300190920E+03 nstep, te 214 0.26167101242595778E+10 0.26167076306439204E+10 -0.13817276352138559E-03 0.98523595521725190E+05 0.20548077300190920E+03 WSHIST: writing time sample 10 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 39600 WSHIST: writing time sample 10 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 37800 nstep, te 215 0.26167283236016622E+10 0.26167257291127930E+10 -0.14376215571361350E-03 0.98523632426598866E+05 0.20548077300190920E+03 nstep, te 216 0.26167474355523958E+10 0.26167448821029153E+10 -0.14148809035844986E-03 0.98523666245533008E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/05 NCSEC= 43200 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/05 NCSEC= 32400 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-05-43200.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-05-43200.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-05-43200.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 11 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 43200 WSHIST: writing time sample 11 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 41400 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-05-43200.nc Auxiliary history file number 1 Output at NSTEP = 216 Number of time samples on this file = 1 Model Day = 4.50 --------------------------------------- nstep, te 217 0.26167699052607403E+10 0.26167667349949975E+10 -0.17566614768595545E-03 0.98523712783395007E+05 0.20548077300190920E+03 nstep, te 218 0.26167929280670519E+10 0.26167894497524137E+10 -0.19273520659109759E-03 0.98523762670986063E+05 0.20548077300190920E+03 WSHIST: writing time sample 12 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 46800 WSHIST: writing time sample 12 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 45000 nstep, te 219 0.26168166695170164E+10 0.26168130388874536E+10 -0.20117494700878214E-03 0.98523815479100347E+05 0.20548077300190920E+03 nstep, te 220 0.26168402509317112E+10 0.26168365235927114E+10 -0.20653355668672486E-03 0.98523866500972334E+05 0.20548077300190920E+03 WSHIST: writing time sample 13 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 50400 WSHIST: writing time sample 13 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 48600 nstep, te 221 0.26168628824429412E+10 0.26168588588736582E+10 -0.22294769094357000E-03 0.98523919888275952E+05 0.20548077300190920E+03 nstep, te 222 0.26168842822043853E+10 0.26168806376902943E+10 -0.20194398599267748E-03 0.98523966144271006E+05 0.20548077300190920E+03 WSHIST: writing time sample 14 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 54000 WSHIST: writing time sample 14 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 52200 nstep, te 223 0.26169019209944930E+10 0.26168986689373951E+10 -0.18019770611962292E-03 0.98524010144566011E+05 0.20548077300190920E+03 nstep, te 224 0.26169190089705210E+10 0.26169158885025792E+10 -0.17290622387943017E-03 0.98524054291651177E+05 0.20548077300190920E+03 WSHIST: writing time sample 15 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 57600 WSHIST: writing time sample 15 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 55800 nstep, te 225 0.26169300999454851E+10 0.26169277077705975E+10 -0.13255120784795804E-03 0.98524085657033633E+05 0.20548077300190920E+03 nstep, te 226 0.26169411762780643E+10 0.26169385792369246E+10 -0.14390286963600969E-03 0.98524116754274422E+05 0.20548077300190920E+03 WSHIST: writing time sample 16 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 61200 WSHIST: writing time sample 16 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 59400 nstep, te 227 0.26169463312308011E+10 0.26169443425818176E+10 -0.11019164522827057E-03 0.98524137204259168E+05 0.20548077300190920E+03 nstep, te 228 0.26169517712507219E+10 0.26169495449655347E+10 -0.12335911415526203E-03 0.98524157468567762E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/05 NCSEC= 64800 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/05 NCSEC= 54000 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-05-64800.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-05-64800.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-05-64800.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 17 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 64800 WSHIST: writing time sample 17 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 63000 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-05-64800.nc Auxiliary history file number 1 Output at NSTEP = 228 Number of time samples on this file = 1 Model Day = 4.75 --------------------------------------- nstep, te 229 0.26169522639998093E+10 0.26169507346013684E+10 -0.84744406437410800E-04 0.98524167942593893E+05 0.20548077300190920E+03 nstep, te 230 0.26169532015770555E+10 0.26169516559677186E+10 -0.85642649004035034E-04 0.98524176934930074E+05 0.20548077300190920E+03 WSHIST: writing time sample 18 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 68400 WSHIST: writing time sample 18 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 66600 nstep, te 231 0.26169496783377194E+10 0.26169482479675446E+10 -0.79257209149045634E-04 0.98524183644498160E+05 0.20548077300190920E+03 nstep, te 232 0.26169461509564271E+10 0.26169450170478640E+10 -0.62830187649556043E-04 0.98524185447535900E+05 0.20548077300190920E+03 WSHIST: writing time sample 19 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 72000 WSHIST: writing time sample 19 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 70200 nstep, te 233 0.26169367193773313E+10 0.26169357013425689E+10 -0.56409588923069960E-04 0.98524184266041804E+05 0.20548077300190920E+03 nstep, te 234 0.26169276092379217E+10 0.26169266225092421E+10 -0.54674913590089483E-04 0.98524178142130928E+05 0.20548077300190920E+03 WSHIST: writing time sample 20 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 75600 WSHIST: writing time sample 20 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 73800 nstep, te 235 0.26169095798664856E+10 0.26169094510433440E+10 -0.71381277603412952E-05 0.98524160746783004E+05 0.20548077300190920E+03 nstep, te 236 0.26168926341425266E+10 0.26168925730132051E+10 -0.33871940808421376E-05 0.98524143777541045E+05 0.20548077300190920E+03 WSHIST: writing time sample 21 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 79200 WSHIST: writing time sample 21 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 77400 nstep, te 237 0.26168673745009212E+10 0.26168680386456079E+10 0.36800468012101465E-04 0.98524113550198890E+05 0.20548077300190920E+03 nstep, te 238 0.26168436315088463E+10 0.26168438247544427E+10 0.10707802851624252E-04 0.98524086162357460E+05 0.20548077300190920E+03 WSHIST: writing time sample 22 to instantaneous h-file 3 DATE=0001/01/05 NCSEC= 82800 WSHIST: writing time sample 22 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 81000 nstep, te 239 0.26168154878278537E+10 0.26168157998833542E+10 0.17291105082830872E-04 0.98524052733567049E+05 0.20548077300190920E+03 nstep, te 240 0.26167877550753403E+10 0.26167881980710611E+10 0.24546557327371555E-04 0.98524018439228632E+05 0.20548077300190920E+03 chem_surfvals_set: ncdate= 10106 co2vmr= 3.701807062098821E-004 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/06 NCSEC= 0 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/05 NCSEC= 75600 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-06-00000.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-06-00000.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-06-00000.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 23 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 0 WSHIST: writing time sample 23 to accumulated h-file 3 DATE=0001/01/05 NCSEC= 84600 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-06-00000.nc Auxiliary history file number 1 Output at NSTEP = 240 Number of time samples on this file = 1 Model Day = 5.00 --------------------------------------- WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-05-03600.nc WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-05-03600.nc Auxiliary history file number 2 Output at NSTEP = 240 Number of time samples on this file = 24 Model Day = 5.00 --------------------------------------- nstep, te 241 0.26167611667511592E+10 0.26167614645747662E+10 0.16502521984550519E-04 0.98523986421166992E+05 0.20548077300190920E+03 nstep, te 242 0.26167348049812741E+10 0.26167350287459292E+10 0.12398890776960188E-04 0.98523953586288917E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 3600 WSHIST: writing time sample 0 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 1800 WSHIST: accumulated nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-06-03600.nc WSHIST: instantaneous nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-06-03600.nc Opening netcdf history files NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-06-03600.nc NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-06-03600.nc H_DEFINE: Successfully opened netcdf file H_DEFINE: Successfully opened netcdf file nstep, te 243 0.26167121132245202E+10 0.26167122786140394E+10 0.91643037676119392E-05 0.98523920623255806E+05 0.20548077300190920E+03 nstep, te 244 0.26166900805432744E+10 0.26166899883728576E+10 -0.51072036535210358E-05 0.98523890528500910E+05 0.20548077300190920E+03 WSHIST: writing time sample 1 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 7200 WSHIST: writing time sample 1 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 5400 nstep, te 245 0.26166732292492242E+10 0.26166730065602694E+10 -0.12339296929744178E-04 0.98523864791277767E+05 0.20548077300190920E+03 nstep, te 246 0.26166564821572418E+10 0.26166561190428219E+10 -0.20120340571827589E-04 0.98523843600884589E+05 0.20548077300190920E+03 WSHIST: writing time sample 2 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 10800 WSHIST: writing time sample 2 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 9000 nstep, te 247 0.26166444834709916E+10 0.26166440145297031E+10 -0.25984262254065876E-04 0.98523823972695303E+05 0.20548077300190920E+03 nstep, te 248 0.26166316397990317E+10 0.26166312306423626E+10 -0.22671571936443054E-04 0.98523805832253609E+05 0.20548077300190920E+03 WSHIST: writing time sample 3 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 14400 WSHIST: writing time sample 3 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 12600 nstep, te 249 0.26166233310774465E+10 0.26166228517837739E+10 -0.26557902594979921E-04 0.98523787836391872E+05 0.20548077300190920E+03 nstep, te 250 0.26166140491091800E+10 0.26166137029405866E+10 -0.19181379216795574E-04 0.98523767469289698E+05 0.20548077300190920E+03 WSHIST: writing time sample 4 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 18000 WSHIST: writing time sample 4 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 16200 nstep, te 251 0.26166086854545569E+10 0.26166083825478487E+10 -0.16784219834703264E-04 0.98523744903529441E+05 0.20548077300190920E+03 nstep, te 252 0.26166031389673228E+10 0.26166029929005775E+10 -0.80936368731343607E-05 0.98523723263893582E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/06 NCSEC= 21600 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/06 NCSEC= 10800 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-06-21600.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-06-21600.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-06-21600.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 5 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 21600 WSHIST: writing time sample 5 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 19800 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-06-21600.nc Auxiliary history file number 1 Output at NSTEP = 252 Number of time samples on this file = 1 Model Day = 5.25 --------------------------------------- nstep, te 253 0.26166027527127233E+10 0.26166023616951265E+10 -0.21666499074708693E-04 0.98523705785485741E+05 0.20548077300190920E+03 nstep, te 254 0.26166023199159689E+10 0.26166019783657756E+10 -0.18925487578756035E-04 0.98523682900306507E+05 0.20548077300190920E+03 WSHIST: writing time sample 6 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 25200 WSHIST: writing time sample 6 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 23400 nstep, te 255 0.26166069860854077E+10 0.26166066099315491E+10 -0.20842899868195869E-04 0.98523664955606029E+05 0.20548077300190920E+03 nstep, te 256 0.26166119810568695E+10 0.26166117979607067E+10 -0.10145465005317948E-04 0.98523643771756790E+05 0.20548077300190920E+03 WSHIST: writing time sample 7 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 28800 WSHIST: writing time sample 7 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 27000 nstep, te 257 0.26166206682587428E+10 0.26166206445140281E+10 -0.13157087255029891E-05 0.98523624764501961E+05 0.20548077300190920E+03 nstep, te 258 0.26166302229808965E+10 0.26166303212053947E+10 0.54426788595653268E-05 0.98523603850450483E+05 0.20548077300190920E+03 WSHIST: writing time sample 8 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 32400 WSHIST: writing time sample 8 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 30600 nstep, te 259 0.26166424159684758E+10 0.26166424813803468E+10 0.36245120306134064E-05 0.98523584942041722E+05 0.20548077300190920E+03 nstep, te 260 0.26166558851896791E+10 0.26166558528014278E+10 -0.17946533174976745E-05 0.98523564245592337E+05 0.20548077300190920E+03 WSHIST: writing time sample 9 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 36000 WSHIST: writing time sample 9 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 34200 nstep, te 261 0.26166705013523602E+10 0.26166707759867768E+10 0.15217668943348893E-04 0.98523540469039915E+05 0.20548077300190920E+03 nstep, te 262 0.26166863519218745E+10 0.26166866119041042E+10 0.14405785462389949E-04 0.98523516041435549E+05 0.20548077300190920E+03 WSHIST: writing time sample 10 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 39600 WSHIST: writing time sample 10 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 37800 nstep, te 263 0.26167044160511885E+10 0.26167044657692571E+10 0.27549112693118430E-05 0.98523496192429782E+05 0.20548077300190920E+03 nstep, te 264 0.26167228032359786E+10 0.26167227918223820E+10 -0.63243513169318131E-06 0.98523473420581722E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/06 NCSEC= 43200 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/06 NCSEC= 32400 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-06-43200.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-06-43200.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-06-43200.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 11 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 43200 WSHIST: writing time sample 11 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 41400 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-06-43200.nc Auxiliary history file number 1 Output at NSTEP = 264 Number of time samples on this file = 1 Model Day = 5.50 --------------------------------------- nstep, te 265 0.26167439967561827E+10 0.26167433686210341E+10 -0.34805399747615871E-04 0.98523459093212485E+05 0.20548077300190920E+03 nstep, te 266 0.26167647524424939E+10 0.26167645006416078E+10 -0.13952462396454272E-04 0.98523441813704354E+05 0.20548077300190920E+03 WSHIST: writing time sample 12 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 46800 WSHIST: writing time sample 12 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 45000 nstep, te 267 0.26167866829835758E+10 0.26167862465142646E+10 -0.24185070590591484E-04 0.98523432866880146E+05 0.20548077300190920E+03 nstep, te 268 0.26168089693857465E+10 0.26168083969642487E+10 -0.31718279098156794E-04 0.98523425060466514E+05 0.20548077300190920E+03 WSHIST: writing time sample 13 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 50400 WSHIST: writing time sample 13 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 48600 nstep, te 269 0.26168303509277554E+10 0.26168293935137339E+10 -0.53050985670878876E-04 0.98523426574124009E+05 0.20548077300190920E+03 nstep, te 270 0.26168511440042329E+10 0.26168499606407757E+10 -0.65571002304761226E-04 0.98523427829593609E+05 0.20548077300190920E+03 WSHIST: writing time sample 14 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 54000 WSHIST: writing time sample 14 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 52200 nstep, te 271 0.26168687030668125E+10 0.26168673180089512E+10 -0.76747023690767666E-04 0.98523437499730586E+05 0.20548077300190920E+03 nstep, te 272 0.26168856974971051E+10 0.26168837897443428E+10 -0.10570990038899156E-03 0.98523449514120410E+05 0.20548077300190920E+03 WSHIST: writing time sample 15 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 57600 WSHIST: writing time sample 15 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 55800 nstep, te 273 0.26168959878550944E+10 0.26168945941878057E+10 -0.77224063697612090E-04 0.98523455811192005E+05 0.20548077300190920E+03 nstep, te 274 0.26169066351148314E+10 0.26169050253460050E+10 -0.89198391366394813E-04 0.98523463827447442E+05 0.20548077300190920E+03 WSHIST: writing time sample 16 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 61200 WSHIST: writing time sample 16 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 59400 nstep, te 275 0.26169114001002455E+10 0.26169107549360404E+10 -0.35748991859130002E-04 0.98523457995992867E+05 0.20548077300190920E+03 nstep, te 276 0.26169180508810306E+10 0.26169170433770289E+10 -0.55826489706348921E-04 0.98523456626688305E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/06 NCSEC= 64800 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/06 NCSEC= 54000 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-06-64800.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-06-64800.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-06-64800.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 17 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 64800 WSHIST: writing time sample 17 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 63000 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-06-64800.nc Auxiliary history file number 1 Output at NSTEP = 276 Number of time samples on this file = 1 Model Day = 5.75 --------------------------------------- nstep, te 277 0.26169201081373987E+10 0.26169195403510652E+10 -0.31461433198643253E-04 0.98523450614532805E+05 0.20548077300190920E+03 nstep, te 278 0.26169230833253546E+10 0.26169223208315244E+10 -0.42250311144410499E-04 0.98523448347471887E+05 0.20548077300190920E+03 WSHIST: writing time sample 18 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 68400 WSHIST: writing time sample 18 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 66600 nstep, te 279 0.26169214815124006E+10 0.26169210561479998E+10 -0.23569737634768063E-04 0.98523441564953100E+05 0.20548077300190920E+03 nstep, te 280 0.26169207250257797E+10 0.26169200314271822E+10 -0.38432782513368102E-04 0.98523438318680986E+05 0.20548077300190920E+03 WSHIST: writing time sample 19 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 72000 WSHIST: writing time sample 19 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 70200 nstep, te 281 0.26169135064123983E+10 0.26169127502187214E+10 -0.41901221374598737E-04 0.98523434069931172E+05 0.20548077300190920E+03 nstep, te 282 0.26169061574958634E+10 0.26169052773094096E+10 -0.48771750239854851E-04 0.98523429557524316E+05 0.20548077300190920E+03 WSHIST: writing time sample 20 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 75600 WSHIST: writing time sample 20 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 73800 nstep, te 283 0.26168901264577341E+10 0.26168899333643041E+10 -0.10699444436352762E-04 0.98523413758893133E+05 0.20548077300190920E+03 nstep, te 284 0.26168745937579036E+10 0.26168745211395001E+10 -0.40238381284971471E-05 0.98523396858384483E+05 0.20548077300190920E+03 WSHIST: writing time sample 21 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 79200 WSHIST: writing time sample 21 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 77400 nstep, te 285 0.26168517730038910E+10 0.26168520208977494E+10 0.13735980907044556E-04 0.98523372838115814E+05 0.20548077300190920E+03 nstep, te 286 0.26168295335984631E+10 0.26168299239643312E+10 0.21630465227198482E-04 0.98523347644697147E+05 0.20548077300190920E+03 WSHIST: writing time sample 22 to instantaneous h-file 3 DATE=0001/01/06 NCSEC= 82800 WSHIST: writing time sample 22 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 81000 nstep, te 287 0.26168036030403266E+10 0.26168044208333497E+10 0.45314539084043186E-04 0.98523315200656914E+05 0.20548077300190920E+03 nstep, te 288 0.26167799013681479E+10 0.26167801650434003E+10 0.14610452072947923E-04 0.98523288559345136E+05 0.20548077300190920E+03 chem_surfvals_set: ncdate= 10107 co2vmr= 3.701424066187762E-004 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/07 NCSEC= 0 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/06 NCSEC= 75600 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-07-00000.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-07-00000.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-07-00000.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 23 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 0 WSHIST: writing time sample 23 to accumulated h-file 3 DATE=0001/01/06 NCSEC= 84600 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-07-00000.nc Auxiliary history file number 1 Output at NSTEP = 288 Number of time samples on this file = 1 Model Day = 6.00 --------------------------------------- WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-06-03600.nc WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-06-03600.nc Auxiliary history file number 2 Output at NSTEP = 288 Number of time samples on this file = 24 Model Day = 6.00 --------------------------------------- nstep, te 289 0.26167568796986523E+10 0.26167570963617988E+10 0.12005477141540553E-04 0.98523266877938499E+05 0.20548077300190920E+03 nstep, te 290 0.26167353872701459E+10 0.26167352411516194E+10 -0.80965451742034413E-05 0.98523248728312348E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 3600 WSHIST: writing time sample 0 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 1800 WSHIST: accumulated nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-07-03600.nc WSHIST: instantaneous nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-07-03600.nc Opening netcdf history files NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-07-03600.nc NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-07-03600.nc H_DEFINE: Successfully opened netcdf file H_DEFINE: Successfully opened netcdf file nstep, te 291 0.26167183255997291E+10 0.26167177203714132E+10 -0.33536190807728801E-04 0.98523241023055147E+05 0.20548077300190920E+03 nstep, te 292 0.26167018202748604E+10 0.26167008892674274E+10 -0.51587876270138968E-04 0.98523239266495919E+05 0.20548077300190920E+03 WSHIST: writing time sample 1 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 7200 WSHIST: writing time sample 1 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 5400 nstep, te 293 0.26166900272183681E+10 0.26166889464475055E+10 -0.59886386838002944E-04 0.98523243246763886E+05 0.20548077300190920E+03 nstep, te 294 0.26166779837236166E+10 0.26166768633376641E+10 -0.62081486671477671E-04 0.98523250071554910E+05 0.20548077300190920E+03 WSHIST: writing time sample 2 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 10800 WSHIST: writing time sample 2 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 9000 nstep, te 295 0.26166712723774276E+10 0.26166697257797680E+10 -0.85698207943692964E-04 0.98523264056747663E+05 0.20548077300190920E+03 nstep, te 296 0.26166633419311543E+10 0.26166616275720286E+10 -0.94993990947909819E-04 0.98523277950832038E+05 0.20548077300190920E+03 WSHIST: writing time sample 3 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 14400 WSHIST: writing time sample 3 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 12600 nstep, te 297 0.26166592214152508E+10 0.26166574043406725E+10 -0.10068551770283599E-03 0.98523295010238493E+05 0.20548077300190920E+03 nstep, te 298 0.26166536283573852E+10 0.26166519343617091E+10 -0.93865603781940986E-04 0.98523311854325468E+05 0.20548077300190920E+03 WSHIST: writing time sample 4 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 18000 WSHIST: writing time sample 4 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 16200 nstep, te 299 0.26166515978042521E+10 0.26166500319163685E+10 -0.86767036277304190E-04 0.98523330167809909E+05 0.20548077300190920E+03 nstep, te 300 0.26166489914099212E+10 0.26166472448458014E+10 -0.96778424081159540E-04 0.98523350069584121E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/07 NCSEC= 21600 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/07 NCSEC= 10800 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-07-21600.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-07-21600.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-07-21600.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 5 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 21600 WSHIST: writing time sample 5 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 19800 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-07-21600.nc Auxiliary history file number 1 Output at NSTEP = 300 Number of time samples on this file = 1 Model Day = 6.25 --------------------------------------- nstep, te 301 0.26166511809532127E+10 0.26166491334602132E+10 -0.11345308988555148E-03 0.98523374747984708E+05 0.20548077300190920E+03 nstep, te 302 0.26166529134026284E+10 0.26166507593436852E+10 -0.11935795712443142E-03 0.98523399391958650E+05 0.20548077300190920E+03 WSHIST: writing time sample 6 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 25200 WSHIST: writing time sample 6 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 23400 nstep, te 303 0.26166587619624424E+10 0.26166565260061216E+10 -0.12389591702336076E-03 0.98523425388631294E+05 0.20548077300190920E+03 nstep, te 304 0.26166645576467109E+10 0.26166623874218221E+10 -0.12025366057889313E-03 0.98523451086395085E+05 0.20548077300190920E+03 WSHIST: writing time sample 7 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 28800 WSHIST: writing time sample 7 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 27000 nstep, te 305 0.26166736473207927E+10 0.26166714393846736E+10 -0.12234323383916832E-03 0.98523476855038709E+05 0.20548077300190920E+03 nstep, te 306 0.26166833113332357E+10 0.26166812058085375E+10 -0.11666851722515949E-03 0.98523502569258198E+05 0.20548077300190920E+03 WSHIST: writing time sample 8 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 32400 WSHIST: writing time sample 8 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 30600 nstep, te 307 0.26166952463730674E+10 0.26166928207531772E+10 -0.13440516235546033E-03 0.98523532805460040E+05 0.20548077300190920E+03 nstep, te 308 0.26167081736329036E+10 0.26167056812179475E+10 -0.13810627565495089E-03 0.98523564396690257E+05 0.20548077300190920E+03 WSHIST: writing time sample 9 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 36000 WSHIST: writing time sample 9 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 34200 nstep, te 309 0.26167215376824656E+10 0.26167194268323860E+10 -0.11696349279863347E-03 0.98523592787963877E+05 0.20548077300190920E+03 nstep, te 310 0.26167367636477413E+10 0.26167345291355543E+10 -0.12381564818368955E-03 0.98523622610615173E+05 0.20548077300190920E+03 WSHIST: writing time sample 10 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 39600 WSHIST: writing time sample 10 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 37800 nstep, te 311 0.26167539925379357E+10 0.26167514715858359E+10 -0.13968740653153483E-03 0.98523656002806267E+05 0.20548077300190920E+03 nstep, te 312 0.26167710840084352E+10 0.26167687630988760E+10 -0.12860289734249524E-03 0.98523684215276764E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/07 NCSEC= 43200 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/07 NCSEC= 32400 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-07-43200.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-07-43200.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-07-43200.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 11 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 43200 WSHIST: writing time sample 11 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 41400 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-07-43200.nc Auxiliary history file number 1 Output at NSTEP = 312 Number of time samples on this file = 1 Model Day = 6.50 --------------------------------------- nstep, te 313 0.26167916275852375E+10 0.26167887560061507E+10 -0.15911574781829585E-03 0.98523718923971654E+05 0.20548077300190920E+03 nstep, te 314 0.26168111794887938E+10 0.26168088285773187E+10 -0.13026524136618766E-03 0.98523743784720864E+05 0.20548077300190920E+03 WSHIST: writing time sample 12 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 46800 WSHIST: writing time sample 12 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 45000 nstep, te 315 0.26168316246800599E+10 0.26168295040646009E+10 -0.11750438958760787E-03 0.98523767538805201E+05 0.20548077300190920E+03 nstep, te 316 0.26168523384408259E+10 0.26168503759874945E+10 -0.10874051988678154E-03 0.98523790272887316E+05 0.20548077300190920E+03 WSHIST: writing time sample 13 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 50400 WSHIST: writing time sample 13 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 48600 nstep, te 317 0.26168738095383315E+10 0.26168711445434680E+10 -0.14766864821764530E-03 0.98523822946461805E+05 0.20548077300190920E+03 nstep, te 318 0.26168944053084364E+10 0.26168915854089108E+10 -0.15625194062254491E-03 0.98523854086566818E+05 0.20548077300190920E+03 WSHIST: writing time sample 14 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 54000 WSHIST: writing time sample 14 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 52200 nstep, te 319 0.26169111909653440E+10 0.26169086857560072E+10 -0.13881476790803432E-03 0.98523884819076324E+05 0.20548077300190920E+03 nstep, te 320 0.26169276514105239E+10 0.26169249315318952E+10 -0.15070963816592574E-03 0.98523918128201884E+05 0.20548077300190920E+03 WSHIST: writing time sample 15 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 57600 WSHIST: writing time sample 15 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 55800 nstep, te 321 0.26169392155121551E+10 0.26169371513410525E+10 -0.11437657513491776E-03 0.98523942664968054E+05 0.20548077300190920E+03 nstep, te 322 0.26169510845693760E+10 0.26169489352326880E+10 -0.11909560704332413E-03 0.98523966138851509E+05 0.20548077300190920E+03 WSHIST: writing time sample 16 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 61200 WSHIST: writing time sample 16 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 59400 nstep, te 323 0.26169588630225406E+10 0.26169571014968529E+10 -0.97606825642841720E-04 0.98523984763526925E+05 0.20548077300190920E+03 nstep, te 324 0.26169677193764896E+10 0.26169656513954134E+10 -0.11458761075508943E-03 0.98524008389635273E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/07 NCSEC= 64800 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/07 NCSEC= 54000 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-07-64800.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-07-64800.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-07-64800.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 17 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 64800 WSHIST: writing time sample 17 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 63000 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-07-64800.nc Auxiliary history file number 1 Output at NSTEP = 324 Number of time samples on this file = 1 Model Day = 6.75 --------------------------------------- nstep, te 325 0.26169721999504223E+10 0.26169704889556131E+10 -0.94806852733189345E-04 0.98524023356038670E+05 0.20548077300190920E+03 nstep, te 326 0.26169776248461876E+10 0.26169756294400444E+10 -0.11056616992173380E-03 0.98524040795777546E+05 0.20548077300190920E+03 WSHIST: writing time sample 18 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 68400 WSHIST: writing time sample 18 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 66600 nstep, te 327 0.26169775713079925E+10 0.26169759142953711E+10 -0.91815652563495009E-04 0.98524052545317143E+05 0.20548077300190920E+03 nstep, te 328 0.26169778305772080E+10 0.26169761704463782E+10 -0.91988424464458794E-04 0.98524062297657816E+05 0.20548077300190920E+03 WSHIST: writing time sample 19 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 72000 WSHIST: writing time sample 19 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 70200 nstep, te 329 0.26169696387640581E+10 0.26169688172951522E+10 -0.45517877746387995E-04 0.98524060018519580E+05 0.20548077300190920E+03 nstep, te 330 0.26169615786311445E+10 0.26169609392217622E+10 -0.35429898915580707E-04 0.98524052573670284E+05 0.20548077300190920E+03 WSHIST: writing time sample 20 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 75600 WSHIST: writing time sample 20 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 73800 nstep, te 331 0.26169435692372088E+10 0.26169442025422993E+10 0.35091667856777720E-04 0.98524024823149390E+05 0.20548077300190920E+03 nstep, te 332 0.26169273337197604E+10 0.26169277496160030E+10 0.23044970016572086E-04 0.98523997799677454E+05 0.20548077300190920E+03 WSHIST: writing time sample 21 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 79200 WSHIST: writing time sample 21 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 77400 nstep, te 333 0.26169021512814975E+10 0.26169037349219713E+10 0.87750165287475837E-04 0.98523952552140268E+05 0.20548077300190920E+03 nstep, te 334 0.26168793301965432E+10 0.26168805319921498E+10 0.66592012785811108E-04 0.98523911940910766E+05 0.20548077300190920E+03 WSHIST: writing time sample 22 to instantaneous h-file 3 DATE=0001/01/07 NCSEC= 82800 WSHIST: writing time sample 22 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 81000 nstep, te 335 0.26168521730016313E+10 0.26168539886485639E+10 0.10060583198719010E-03 0.98523860604273286E+05 0.20548077300190920E+03 nstep, te 336 0.26168274580885863E+10 0.26168287349423518E+10 0.70751086429850460E-04 0.98523816479480214E+05 0.20548077300190920E+03 chem_surfvals_set: ncdate= 10108 co2vmr= 3.701041070276703E-004 READ_NEXT_TRCDATA ozone WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/08 NCSEC= 0 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/07 NCSEC= 75600 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-08-00000.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-08-00000.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-08-00000.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 23 to instantaneous h-file 3 DATE=0001/01/08 NCSEC= 0 WSHIST: writing time sample 23 to accumulated h-file 3 DATE=0001/01/07 NCSEC= 84600 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-08-00000.nc Auxiliary history file number 1 Output at NSTEP = 336 Number of time samples on this file = 1 Model Day = 7.00 --------------------------------------- WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-07-03600.nc WRAPUP: nf_close( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-07-03600.nc Auxiliary history file number 2 Output at NSTEP = 336 Number of time samples on this file = 24 Model Day = 7.00 --------------------------------------- nstep, te 337 0.26168033813017941E+10 0.26168047481610923E+10 0.75738370240940037E-04 0.98523772877222451E+05 0.20548077300190920E+03 nstep, te 338 0.26167808288083687E+10 0.26167817522308984E+10 0.51167332162045360E-04 0.98523735921727624E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 3 DATE=0001/01/08 NCSEC= 3600 WSHIST: writing time sample 0 to accumulated h-file 3 DATE=0001/01/08 NCSEC= 1800 WSHIST: accumulated nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-08-03600.nc WSHIST: instantaneous nhfil( 3 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-08-03600.nc Opening netcdf history files NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2a.0001-01-08-03600.nc NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h2i.0001-01-08-03600.nc H_DEFINE: Successfully opened netcdf file H_DEFINE: Successfully opened netcdf file nstep, te 339 0.26167620463185568E+10 0.26167627424326739E+10 0.38572065242431584E-04 0.98523703330125340E+05 0.20548077300190920E+03 nstep, te 340 0.26167442859874115E+10 0.26167443413937969E+10 0.30700989372134090E-05 0.98523680424778053E+05 0.20548077300190920E+03 WSHIST: writing time sample 1 to instantaneous h-file 3 DATE=0001/01/08 NCSEC= 7200 WSHIST: writing time sample 1 to accumulated h-file 3 DATE=0001/01/08 NCSEC= 5400 nstep, te 341 0.26167304543633771E+10 0.26167304644578199E+10 0.55933887178966336E-06 0.98523658650703190E+05 0.20548077300190920E+03 nstep, te 342 0.26167164405508389E+10 0.26167162231929054E+10 -0.12043930086836807E-04 0.98523640396019080E+05 0.20548077300190920E+03 WSHIST: writing time sample 2 to instantaneous h-file 3 DATE=0001/01/08 NCSEC= 10800 WSHIST: writing time sample 2 to accumulated h-file 3 DATE=0001/01/08 NCSEC= 9000 nstep, te 343 0.26167063037161736E+10 0.26167064608449144E+10 0.87065970029120255E-05 0.98523621491500380E+05 0.20548077300190920E+03 nstep, te 344 0.26166958290607986E+10 0.26166958066515570E+10 -0.12417096574283665E-05 0.98523602101458775E+05 0.20548077300190920E+03 WSHIST: writing time sample 3 to instantaneous h-file 3 DATE=0001/01/08 NCSEC= 14400 WSHIST: writing time sample 3 to accumulated h-file 3 DATE=0001/01/08 NCSEC= 12600 nstep, te 345 0.26166880410131578E+10 0.26166884298416457E+10 0.21545226323106812E-04 0.98523582721289393E+05 0.20548077300190920E+03 nstep, te 346 0.26166800677205877E+10 0.26166798870345211E+10 -0.10011928002182929E-04 0.98523566889528287E+05 0.20548077300190920E+03 WSHIST: writing time sample 4 to instantaneous h-file 3 DATE=0001/01/08 NCSEC= 18000 WSHIST: writing time sample 4 to accumulated h-file 3 DATE=0001/01/08 NCSEC= 16200 nstep, te 347 0.26166756590413399E+10 0.26166752627082367E+10 -0.21961067749754180E-04 0.98523555573107136E+05 0.20548077300190920E+03 nstep, te 348 0.26166696873754725E+10 0.26166692976089830E+10 -0.21597210255319079E-04 0.98523543192160607E+05 0.20548077300190920E+03 WSHIST: writing time sample 0 to instantaneous h-file 2 DATE=0001/01/08 NCSEC= 21600 WSHIST: writing time sample 0 to accumulated h-file 2 DATE=0001/01/08 NCSEC= 10800 WSHIST: accumulated nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1a.0001-01-08-21600.nc WSHIST: instantaneous nhfil( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-08-21600.nc Opening instantaneous netcdf history file NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-08-21600.nc H_DEFINE: Successfully opened netcdf file WSHIST: writing time sample 5 to instantaneous h-file 3 DATE=0001/01/08 NCSEC= 21600 WSHIST: writing time sample 5 to accumulated h-file 3 DATE=0001/01/08 NCSEC= 19800 WRAPUP: nf_close( 2 )= NF2000_ne30pg3_ne30pg3_mtn14_default_0001-01-01.cam.h1i.0001-01-08-21600.nc Auxiliary history file number 1 Output at NSTEP = 348 Number of time samples on this file = 1 Model Day = 7.25 --------------------------------------- nstep, te 349 0.26166679075720553E+10 0.26166674613081026E+10 -0.24727773395735945E-04 0.98523532856222431E+05 0.20548077300190920E+03 nstep, te 350 0.26166659228052754E+10 0.26166652942783899E+10 -0.34827083441020786E-04 0.98523523237559508E+05 0.20548077300190920E+03 WSHIST: writing time sample 6 to instantaneous h-file 3 DATE=0001/01/08 NCSEC= 25200 WSHIST: writing time sample 6 to accumulated h-file 3 DATE=0001/01/08 NCSEC= 23400 nstep, te 351 0.26166680167271619E+10 0.26166676101752133E+10 -0.22527310093792755E-04 0.98523513398204072E+05 0.20548077300190920E+03 nstep, te 352 0.26166708714377289E+10 0.26166703858635011E+10 -0.26905988681296287E-04 0.98523505106257697E+05 0.20548077300190920E+03 WSHIST: writing time sample 7 to instantaneous h-file 3 DATE=0001/01/08 NCSEC= 28800 WSHIST: writing time sample 7 to accumulated h-file 3 DATE=0001/01/08 NCSEC= 27000 nstep, te 353 0.26166760149521246E+10 0.26166760011648188E+10 -0.76396381635628222E-06 0.98523493035729291E+05 0.20548077300190920E+03 nstep, te 354 0.26166830728791804E+10 0.26166825433560982E+10 -0.29341229260265671E-04 0.98523486588844855E+05 0.20548077300190920E+03 WSHIST: writing time sample 8 to instantaneous h-file 3 DATE=0001/01/08 NCSEC= 32400 WSHIST: writing time sample 8 to accumulated h-file 3 DATE=0001/01/08 NCSEC= 30600 nstep, te 355 0.26166916072985282E+10 0.26166909901165395E+10 -0.34198469777480283E-04 0.98523481709047192E+05 0.20548077300190920E+03 nstep, te 356 0.26167009647514057E+10 0.26167004080197463E+10 -0.30848878287391349E-04 0.98523475396177688E+05 0.20548077300190920E+03 WSHIST: writing time sample 9 to instantaneous h-file 3 DATE=0001/01/08 NCSEC= 36000 WSHIST: writing time sample 9 to accumulated h-file 3 DATE=0001/01/08 NCSEC= 34200 nstep, te 357 0.26167116559691401E+10 0.26167111059085679E+10 -0.30479230773150231E-04 0.98523469109146667E+05 0.20548077300190920E+03 nstep, te 358 0.26167235711639409E+10 0.26167229578312721E+10 -0.33985183674539642E-04 0.98523460567663336E+05 0.20548077300190920E+03