CAM atmosphere model initialization Initialize PIO subsystem: iotype = 5 ------------------------------------------ *********** CAM LOG OUTPUT *************** ------------------------------------------ Initial run ********** CASE = cam5clm4F2kclim_ctrl ********** UNSET ********** Time Manager Configuration ********** Calendar type: NO_LEAP Timestep size (seconds): 225 Start date (yr mon day tod): 8 1 1 0 Stop date (yr mon day tod): 10 1 1 0 Reference date (yr mon day tod): 8 1 1 0 Current step number: 0 Current date (yr mon day tod): 8 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 = 2 phys_twin_algorithm = 1 phys_alltoall = -1 chunks_per_thread = 1 cam_initfiles_readnl options: Initial run will start from: cam5clm4F2kclim_ctrl.cam.i.0008-01-01-00000.nc Topography dataset is: /project/projectdirs/ccsm1/inputdata/atm/cam/topo/USGS_gtopo30_0.23x0.31_remap_ c061107.nc Maximum abs value of scale factor used to perturb initial conditions, pertlim = 1.000000000000000E-014 Summary of constituent module options: Read constituent initial values from initial file by default: T Read in cam_history_nl namelist from: atm_in Initial conditions history files will be written yearly. chem_surfvals_readnl: Settings for control of GHG surface values scenario_ghg = FIXED CO2 will be fixed: co2vmr = 3.670000000000000E-004 Other GHG values will be fixed as follows: n2ovmr = 3.160000000000000E-007 ch4vmr = 1.760000000000000E-006 f11vmr = 6.534500000000000E-010 f12vmr = 5.350000000000000E-010 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 = 1 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 = 4.000000000000000E-004 micro_mg_berg_eff_factor = 1.00000000000000 micro_mg_precip_frac_method = max_overlap micro_do_sb_physics = F micro_mg_adjust_cpt = F micro_mg_nccons = F micro_mg_nicons = F micro_mg_ncnst = 100000000.000000 micro_mg_ninst = 100000.000000000 cld_sediment_readnl: cldsed_ice_stokes_fac = 1.797693134862316E+308 RRTMG radiation scheme parameters: Frequency (timesteps) of Shortwave Radiation calc: 16 Frequency (timesteps) of Longwave Radiation calc: 16 SW/LW calc done every timestep for first N steps. N= 0 Use average zenith angle: F Output spectrally resolved fluxes: 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 rad namelist spec: N:sulf:/project/projectdirs/ccsm1/inputdata/atm/cam/physpr ops/sulfate_rrtmg_c080918.nc rad namelist spec: N:dust1:/project/projectdirs/ccsm1/inputdata/atm/cam/physp rops/dust1_rrtmg_c080918.nc rad namelist spec: N:dust2:/project/projectdirs/ccsm1/inputdata/atm/cam/physp rops/dust2_rrtmg_c080918.nc rad namelist spec: N:dust3:/project/projectdirs/ccsm1/inputdata/atm/cam/physp rops/dust3_rrtmg_c080918.nc rad namelist spec: N:dust4:/project/projectdirs/ccsm1/inputdata/atm/cam/physp rops/dust4_rrtmg_c080918.nc rad namelist spec: N:bcar1:/project/projectdirs/ccsm1/inputdata/atm/cam/physp rops/bcpho_rrtmg_c080918.nc rad namelist spec: N:bcar2:/project/projectdirs/ccsm1/inputdata/atm/cam/physp rops/bcphi_rrtmg_c080918.nc rad namelist spec: N:ocar1:/project/projectdirs/ccsm1/inputdata/atm/cam/physp rops/ocpho_rrtmg_c080918.nc rad namelist spec: N:ocar2:/project/projectdirs/ccsm1/inputdata/atm/cam/physp rops/ocphi_rrtmg_c080918.nc rad namelist spec: N:sslt1:/project/projectdirs/ccsm1/inputdata/atm/cam/physp rops/seasalt1_rrtmg_c080918.nc rad namelist spec: N:sslt2:/project/projectdirs/ccsm1/inputdata/atm/cam/physp rops/seasalt2_rrtmg_c080918.nc rad namelist spec: N:sslt3:/project/projectdirs/ccsm1/inputdata/atm/cam/physp rops/seasalt3_rrtmg_c080918.nc rad namelist spec: N:sslt4:/project/projectdirs/ccsm1/inputdata/atm/cam/physp rops/seasalt4_rrtmg_c080918.nc 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 N:sulf optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/cam /physprops/sulfate_rrtmg_c080918.nc N:dust1 optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/ca m/physprops/dust1_rrtmg_c080918.nc N:dust2 optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/ca m/physprops/dust2_rrtmg_c080918.nc N:dust3 optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/ca m/physprops/dust3_rrtmg_c080918.nc N:dust4 optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/ca m/physprops/dust4_rrtmg_c080918.nc N:bcar1 optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/ca m/physprops/bcpho_rrtmg_c080918.nc N:bcar2 optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/ca m/physprops/bcphi_rrtmg_c080918.nc N:ocar1 optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/ca m/physprops/ocpho_rrtmg_c080918.nc N:ocar2 optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/ca m/physprops/ocphi_rrtmg_c080918.nc N:sslt1 optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/ca m/physprops/seasalt1_rrtmg_c080918.nc N:sslt2 optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/ca m/physprops/seasalt2_rrtmg_c080918.nc N:sslt3 optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/ca m/physprops/seasalt3_rrtmg_c080918.nc N:sslt4 optics and phys props in :/project/projectdirs/ccsm1/inputdata/atm/ca m/physprops/seasalt4_rrtmg_c080918.nc modal aerosol list for climate calculations Mode Definitions solar_data_readnl: solar_const (W/m2) = -9999.00000000000 solar_data_readnl: solar_irrad_data_file = /project/projectdirs/ccsm1/inputdata/atm/cam/solar/solar_ave_sc19-sc23.c090810. 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 = SERIAL solar_data_readnl: solar_data_ymd = -99999999 solar_data_readnl: solar_data_tod = 0 check_energy options: print_energy_errors = F Rayleigh friction not enabled. Read in dyn_fv_inparm namelist from: atm_in FV dycore configuration: Lagrangian time splits (fv_nsplit) = 0 Tracer time splits (fv_nslptrac) = 0 Vertical re-mapping time splits (fv_nspltvrm) = 2 Scheme in E-W direction (fv_iord) = 4 Scheme in N-S direction (fv_jord) = 4 Scheme for vertical mapping (fv_kord) = 4 Conservative dynamics (fv_conserve) = F Filtering c-grid winds (fv_filcw) = 1 FFT filter (fv_fft_flt) = 1 Divergence/velocity damping (fv_div24del2flag) = 42 Coef for 2nd order velocity damping (fv_del2coef) = 300000.000000000 High-order top = F Geometry & pressure corr. for AM (fv_am_geom_crrct) = F Angular momentum (AM) correction (fv_am_correction) = F Apply AM fixer (fv_am_fixer) = F Level by level AM fixer (fv_am_fix_lbl) = F Enable AM diagnostics (fv_am_diag) = F spmd_readnl: Read in spmd_fv_inparm namelist from: atm_in FV grid decomposition: npr_y = 216 npr_z = 16 nprxy_x = 16 nprxy_y = 216 npes = 3456 npes_yz= 3456 npes_xy = 3456 Decomposing tracers into 1 groups using multi-2d decomposition methodology non-transpose geopk communication method = F Z-parallel non-transpose geopk communication method = F modcomm transpose method = 0 modcomm geopk method = 0 modcomm gatscat method = 0 modc_sw_dynrun = 0 modc_hs_dynrun = T modc_send_dynrun = T modc_mxreq_dynrun = -1 modc_sw_cdcore = 0 modc_hs_cdcore = T modc_send_cdcore = T modc_mxreq_cdcore = -1 modc_sw_gather = 1 modc_hs_gather = T modc_send_gather = T modc_mxreq_gather = 64 modc_sw_scatter = 0 modc_hs_scatter = F modc_send_scatter = T modc_mxreq_scatter = -1 modc_sw_tracer = 0 modc_hs_tracer = T modc_send_tracer = T modc_mxreq_tracer = -1 modc_onetwo = 2 modc_tracers = 3 qneg_readnl : QNEG statistics will be collected and printed at the end of the run (GETFIL): attempting to find local file cam5clm4F2kclim_ctrl.cam.i.0008-01-01-00000.nc (GETFIL): using cam5clm4F2kclim_ctrl.cam.i.0008-01-01-00000.nc in current working directory (GETFIL): attempting to find local file USGS_gtopo30_0.23x0.31_remap_c061107.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/topo/USGS_gtopo30_0.23x0.31_remap_ c061107.nc hycoef_read: read hyai, hybi, hyam, hybm hycoef_read: read P0 value: 100000.000000000 Layer Locations (*1000) 1 2.2552 0.0000 2.2552 3.6435 0.0000 3.6435 2 5.0317 0.0000 5.0317 7.5948 0.0000 7.5948 3 10.1579 0.0000 10.1579 14.3566 0.0000 14.3566 4 18.5553 0.0000 18.5553 24.6122 0.0000 24.6122 5 30.6691 0.0000 30.6691 38.2683 0.0000 38.2683 6 45.8675 0.0000 45.8675 54.5955 0.0000 54.5955 7 63.3235 0.0000 63.3235 72.0125 0.0000 72.0125 8 80.7014 0.0000 80.7014 87.8212 0.0000 87.8212 9 94.9410 0.0000 94.9410 103.3171 0.0000 103.3171 10 111.6932 0.0000 111.6932 121.5472 0.0000 121.5472 11 131.4013 0.0000 131.4013 142.9940 0.0000 142.9940 12 154.5868 0.0000 154.5868 168.2251 0.0000 168.2251 13 181.8634 0.0000 181.8634 178.2307 19.6774 197.9081 14 174.5980 39.3548 213.9528 170.3243 62.5043 232.8286 15 166.0507 85.6538 251.7044 161.0229 112.8879 273.9108 16 155.9952 140.1221 296.1172 150.0803 172.1616 322.2419 17 144.1654 204.2012 348.3666 137.2069 241.8940 379.1009 18 130.2483 279.5869 409.8352 122.0619 323.9306 445.9926 19 113.8756 368.2744 482.1499 104.2447 420.4425 524.6872 20 94.6139 472.6106 567.2244 84.9792 524.7995 609.7787 21 75.3445 576.9885 652.3330 66.5017 624.8877 691.3894 22 57.6589 672.7870 730.4459 50.1968 713.2077 763.4045 23 42.7346 753.6284 796.3631 37.1887 783.6697 820.8584 24 31.6427 813.7110 845.3537 28.4319 831.1028 859.5348 25 25.2212 848.4946 873.7159 22.2090 864.8113 887.0202 26 19.1967 881.1279 900.3246 16.4074 896.2372 912.6445 27 13.6180 911.3464 924.9645 11.0746 925.1238 936.1984 28 8.5311 938.9012 947.4323 6.2550 951.2305 957.4855 29 3.9788 963.5598 967.5386 1.9894 974.3360 976.3254 30 0.0000 985.1122 985.1122 0.0000 992.5561 992.5561 31 0.0000 1000.0000 1000.0000 reference pressures (Pa) 1 225.5240 364.3466 277.6452 2 503.1692 759.4820 512.6256 3 1015.7947 1435.6632 839.7370 4 1855.5317 2461.2220 1211.3806 5 3066.9123 3826.8300 1519.8354 6 4586.7477 5459.5480 1745.6006 7 6332.3483 7201.2451 1737.7935 8 8070.1418 8782.1230 1423.9624 9 9494.1042 10331.7127 1675.2169 10 11169.3211 12154.7241 1970.8060 11 13140.1271 14299.4039 2318.5536 12 15458.6807 16822.5080 2727.6546 13 18186.3353 19790.8087 3208.9468 14 21395.2821 23282.8619 3775.1596 15 25170.4417 27391.0817 4441.2799 16 29611.7216 32224.1902 5224.9372 17 34836.6588 37910.0904 6146.8631 18 40983.5219 44599.2574 7231.4709 19 48214.9929 52468.7175 8507.4492 20 56722.4421 60977.8695 8510.8548 21 65233.2969 69138.9430 7811.2923 22 73044.5892 76340.4481 6591.7179 23 79636.3071 82085.8369 4899.0596 24 84535.3667 85953.4767 2836.2200 25 87371.5866 88702.0249 2660.8765 26 90032.4631 91264.4547 2463.9831 27 92496.4462 93619.8398 2246.7872 28 94743.2335 95748.5480 2010.6290 29 96753.8625 97632.5407 1757.3566 30 98511.2190 99255.6095 1488.7810 31 100000.0000 MOD_COMM - modcam_npryz = 216 16 16 216 MOD_COMM - modcam_tagoffset = 3456 MOD_COMM - modcam_method modcam_geopk modcam_gatscat modcam_maxirr = 0 0 0 3 Using local dynamic storage for mod_comm window Mod_comm - ghostrat = 3.00000000000000 Mod_comm - geopkrat = 7.50000000000000 (MOD_COMM) - mod_comm not being used for dynamcis-physics transposes Mod_comm - tracmax dpvarmax totvar tracbmax = 1 0 1 1 Mod_comm - r4 windows disabled Mod_comm t1_win window size = 428544 Mod_comm r8_win window size = 2654208 Mod_comm r4_win window size = 1 Mod_comm i4_win window size = 1 nlat_p( 0 ) = 3 nlat_p( 1 ) = 3 nlat_p( 2 ) = 3 nlat_p( 3 ) = 3 nlat_p( 4 ) = 3 nlat_p( 5 ) = 3 nlat_p( 6 ) = 3 nlat_p( 7 ) = 3 nlat_p( 8 ) = 3 nlat_p( 9 ) = 3 nlat_p( 10 ) = 3 nlat_p( 11 ) = 3 nlat_p( 12 ) = 3 nlat_p( 13 ) = 3 nlat_p( 14 ) = 3 nlat_p( 15 ) = 3 nlat_p( 16 ) = 3 nlat_p( 17 ) = 3 nlat_p( 18 ) = 3 nlat_p( 19 ) = 3 nlat_p( 20 ) = 3 nlat_p( 21 ) = 3 nlat_p( 22 ) = 3 nlat_p( 23 ) = 3 nlat_p( 24 ) = 3 nlat_p( 25 ) = 3 nlat_p( 26 ) = 3 nlat_p( 27 ) = 3 nlat_p( 28 ) = 3 nlat_p( 29 ) = 3 nlat_p( 30 ) = 3 nlat_p( 31 ) = 3 nlat_p( 32 ) = 3 nlat_p( 33 ) = 3 nlat_p( 34 ) = 3 nlat_p( 35 ) = 3 nlat_p( 36 ) = 3 nlat_p( 37 ) = 3 nlat_p( 38 ) = 3 nlat_p( 39 ) = 3 nlat_p( 40 ) = 3 nlat_p( 41 ) = 3 nlat_p( 42 ) = 3 nlat_p( 43 ) = 3 nlat_p( 44 ) = 3 nlat_p( 45 ) = 3 nlat_p( 46 ) = 3 nlat_p( 47 ) = 3 nlat_p( 48 ) = 4 nlat_p( 49 ) = 4 nlat_p( 50 ) = 4 nlat_p( 51 ) = 4 nlat_p( 52 ) = 4 nlat_p( 53 ) = 4 nlat_p( 54 ) = 4 nlat_p( 55 ) = 4 nlat_p( 56 ) = 4 nlat_p( 57 ) = 4 nlat_p( 58 ) = 4 nlat_p( 59 ) = 4 nlat_p( 60 ) = 4 nlat_p( 61 ) = 4 nlat_p( 62 ) = 4 nlat_p( 63 ) = 4 nlat_p( 64 ) = 4 nlat_p( 65 ) = 4 nlat_p( 66 ) = 4 nlat_p( 67 ) = 4 nlat_p( 68 ) = 4 nlat_p( 69 ) = 4 nlat_p( 70 ) = 4 nlat_p( 71 ) = 4 nlat_p( 72 ) = 4 nlat_p( 73 ) = 4 nlat_p( 74 ) = 4 nlat_p( 75 ) = 4 nlat_p( 76 ) = 4 nlat_p( 77 ) = 4 nlat_p( 78 ) = 4 nlat_p( 79 ) = 4 nlat_p( 80 ) = 4 nlat_p( 81 ) = 4 nlat_p( 82 ) = 4 nlat_p( 83 ) = 4 nlat_p( 84 ) = 4 nlat_p( 85 ) = 4 nlat_p( 86 ) = 4 nlat_p( 87 ) = 4 nlat_p( 88 ) = 4 nlat_p( 89 ) = 4 nlat_p( 90 ) = 4 nlat_p( 91 ) = 4 nlat_p( 92 ) = 4 nlat_p( 93 ) = 4 nlat_p( 94 ) = 4 nlat_p( 95 ) = 4 nlat_p( 96 ) = 4 nlat_p( 97 ) = 4 nlat_p( 98 ) = 4 nlat_p( 99 ) = 4 nlat_p( 100 ) = 4 nlat_p( 101 ) = 4 nlat_p( 102 ) = 4 nlat_p( 103 ) = 4 nlat_p( 104 ) = 4 nlat_p( 105 ) = 4 nlat_p( 106 ) = 4 nlat_p( 107 ) = 4 nlat_p( 108 ) = 4 nlat_p( 109 ) = 4 nlat_p( 110 ) = 4 nlat_p( 111 ) = 4 nlat_p( 112 ) = 4 nlat_p( 113 ) = 4 nlat_p( 114 ) = 4 nlat_p( 115 ) = 4 nlat_p( 116 ) = 4 nlat_p( 117 ) = 4 nlat_p( 118 ) = 4 nlat_p( 119 ) = 4 nlat_p( 120 ) = 4 nlat_p( 121 ) = 4 nlat_p( 122 ) = 4 nlat_p( 123 ) = 4 nlat_p( 124 ) = 4 nlat_p( 125 ) = 4 nlat_p( 126 ) = 4 nlat_p( 127 ) = 4 nlat_p( 128 ) = 4 nlat_p( 129 ) = 4 nlat_p( 130 ) = 4 nlat_p( 131 ) = 4 nlat_p( 132 ) = 4 nlat_p( 133 ) = 4 nlat_p( 134 ) = 4 nlat_p( 135 ) = 4 nlat_p( 136 ) = 4 nlat_p( 137 ) = 4 nlat_p( 138 ) = 4 nlat_p( 139 ) = 4 nlat_p( 140 ) = 4 nlat_p( 141 ) = 4 nlat_p( 142 ) = 4 nlat_p( 143 ) = 4 nlat_p( 144 ) = 4 nlat_p( 145 ) = 4 nlat_p( 146 ) = 4 nlat_p( 147 ) = 4 nlat_p( 148 ) = 4 nlat_p( 149 ) = 4 nlat_p( 150 ) = 4 nlat_p( 151 ) = 4 nlat_p( 152 ) = 4 nlat_p( 153 ) = 4 nlat_p( 154 ) = 4 nlat_p( 155 ) = 4 nlat_p( 156 ) = 4 nlat_p( 157 ) = 4 nlat_p( 158 ) = 4 nlat_p( 159 ) = 4 nlat_p( 160 ) = 4 nlat_p( 161 ) = 4 nlat_p( 162 ) = 4 nlat_p( 163 ) = 4 nlat_p( 164 ) = 4 nlat_p( 165 ) = 4 nlat_p( 166 ) = 4 nlat_p( 167 ) = 4 nlat_p( 168 ) = 3 nlat_p( 169 ) = 3 nlat_p( 170 ) = 3 nlat_p( 171 ) = 3 nlat_p( 172 ) = 3 nlat_p( 173 ) = 3 nlat_p( 174 ) = 3 nlat_p( 175 ) = 3 nlat_p( 176 ) = 3 nlat_p( 177 ) = 3 nlat_p( 178 ) = 3 nlat_p( 179 ) = 3 nlat_p( 180 ) = 3 nlat_p( 181 ) = 3 nlat_p( 182 ) = 3 nlat_p( 183 ) = 3 nlat_p( 184 ) = 3 nlat_p( 185 ) = 3 nlat_p( 186 ) = 3 nlat_p( 187 ) = 3 nlat_p( 188 ) = 3 nlat_p( 189 ) = 3 nlat_p( 190 ) = 3 nlat_p( 191 ) = 3 nlat_p( 192 ) = 3 nlat_p( 193 ) = 3 nlat_p( 194 ) = 3 nlat_p( 195 ) = 3 nlat_p( 196 ) = 3 nlat_p( 197 ) = 3 nlat_p( 198 ) = 3 nlat_p( 199 ) = 3 nlat_p( 200 ) = 3 nlat_p( 201 ) = 3 nlat_p( 202 ) = 3 nlat_p( 203 ) = 3 nlat_p( 204 ) = 3 nlat_p( 205 ) = 3 nlat_p( 206 ) = 3 nlat_p( 207 ) = 3 nlat_p( 208 ) = 3 nlat_p( 209 ) = 3 nlat_p( 210 ) = 3 nlat_p( 211 ) = 3 nlat_p( 212 ) = 3 nlat_p( 213 ) = 3 nlat_p( 214 ) = 3 nlat_p( 215 ) = 3 Grid: fv_centers, ID = 101, lat coord = lat, lon coord = lon, unstruct = F, block_ind = F, zonal_grid = F Attribute: gw, long name = 'latitude weights' dimname = lat Grid: fv_u_stagger, ID = 102, lat coord = slat, lon coord = lon, unstruct = F, block_ind = F, zonal_grid = F Attribute: w_stag, long name = 'staggered latitude weights' dimname = slat Grid: fv_v_stagger, ID = 103, lat coord = lat, lon coord = slon, unstruct = F, block_ind = F, zonal_grid = F Grid: fv_centers_zonal, ID = 104, lat coord = lat, lon coord = zlon, unstruct = F, block_ind = F, zonal_grid = T Attribute: gw, long name = 'latitude weights' dimname = lat Grid: physgrid, ID = 100, lat coord = lat, lon coord = lon, unstruct = F, block_ind = T, zonal_grid = F Attribute: gw, long name = 'latitude weights' dimname = lat 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 chem_surfvals_init: Initial ghg surface values: co2 volume mixing ratio = 3.670000000000000E-004 ch4 volume mixing ratio = 1.760000000000000E-006 n2o volume mixing ratio = 3.160000000000000E-007 f11 volume mixing ratio = 6.534500000000000E-010 f12 volume mixing ratio = 5.350000000000000E-010 Creating new decomp: 72!3!!1152!768!!d6!i1! INFLD_REAL_2D_2D: read field PS INFLD_REAL_2D_2D: read field PHIS Creating new decomp: 72!3!30!!1152!767!30!!d6!i2! INFLD_REAL_3D_3D: read field US Creating new decomp: 72!3!30!!1152!768!30!!d6!i3! INFLD_REAL_3D_3D: read field VS Creating new decomp: 72!3!30!!1152!768!30!!d6!i1! INFLD_REAL_3D_3D: read field T INFLD_REAL_3D_3D: read field Q INFLD_REAL_3D_3D: read field CLDLIQ INFLD_REAL_3D_3D: read field CLDICE INFLD_REAL_3D_3D: read field NUMLIQ INFLD_REAL_3D_3D: read field NUMICE process_inidat: Adding random perturbation bounded by +/- 1.000000000000000E-014 to initial temperature field Creating new decomp: 16!16!!1152!768!!d6!i5! INFLD_REAL_2D_2D: read field SGH INFLD_REAL_2D_2D: read field SGH30 INFLD_REAL_2D_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 CUSH is not on file CUSH initialized to 1000. CAM_PIO_CHECK_VAR INFO: variable CLOUD is not on file CLOUD initialized to 0. CAM_PIO_CHECK_VAR INFO: variable QCWAT is not on file Creating new decomp: 16!30!16!!1152!768!30!!1!3!2!!d6!i5! INFLD_REAL_3D_3D: read field Q QCWAT initialized with Q CAM_PIO_CHECK_VAR INFO: variable ICCWAT is not on file INFLD_REAL_3D_3D: read field CLDICE ICCWAT initialized with CLDICE CAM_PIO_CHECK_VAR INFO: variable LCWAT is not on file INFLD_REAL_3D_3D: read field CLDICE INFLD_REAL_3D_3D: read field CLDLIQ LCWAT initialized with CLDICE + CLDLIQ CAM_PIO_CHECK_VAR INFO: variable TCWAT is not on file INFLD_REAL_3D_3D: read field T TCWAT initialized with T 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. CAM_PIO_CHECK_VAR INFO: variable CONCLD is not on file CONCLD initialized to 0. *** SATURATION VAPOR PRESSURE TABLE COMPLETED *** (GETFIL): attempting to find local file sulfate_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/sulfate_rrtmg_c080918.nc _______ hygroscopic growth in visible band _______ SO4 rh ext (m^2 kg^-1) ssa asm 0.000 4317.807 1.000 0.720 0.801 11057.994 1.000 0.775 0.836 13006.039 1.000 0.779 0.858 14348.435 1.000 0.782 0.873 15407.559 1.000 0.784 0.885 16297.122 1.000 0.786 0.896 17071.906 1.000 0.787 0.904 18140.209 1.000 0.788 0.912 19488.044 1.000 0.789 0.919 20770.367 1.000 0.790 0.925 21997.414 1.000 0.791 0.930 23177.287 1.000 0.792 0.935 24316.312 1.000 0.792 0.940 25419.106 1.000 0.793 0.944 26490.366 1.000 0.794 0.948 27532.759 1.000 0.794 0.952 29227.676 1.000 0.794 0.956 31402.799 1.000 0.795 0.959 33611.108 1.000 0.795 0.963 35850.418 1.000 0.795 0.966 38119.872 1.000 0.796 0.969 40419.352 1.000 0.796 0.971 42747.903 1.000 0.796 0.974 45103.735 1.000 0.796 0.977 47489.963 1.000 0.796 0.979 49902.035 1.000 0.797 0.982 54134.014 1.000 0.797 0.984 59507.775 1.000 0.796 0.986 65215.107 1.000 0.796 0.988 71256.973 1.000 0.796 0.990 77635.529 1.000 0.796 0.992 84360.733 1.000 0.796 0.994 91441.251 1.000 0.796 0.996 98884.165 1.000 0.796 0.998 106694.639 1.000 0.795 1.000 114691.169 1.000 0.795 bulk_props_init: finished for SULFATE (GETFIL): attempting to find local file dust1_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/dust1_rrtmg_c080918.nc bulk_props_init: finished for DUST1 (GETFIL): attempting to find local file dust2_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/dust2_rrtmg_c080918.nc bulk_props_init: finished for DUST2 (GETFIL): attempting to find local file dust3_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/dust3_rrtmg_c080918.nc bulk_props_init: finished for DUST3 (GETFIL): attempting to find local file dust4_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/dust4_rrtmg_c080918.nc bulk_props_init: finished for DUST4 (GETFIL): attempting to find local file bcpho_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/bcpho_rrtmg_c080918.nc bulk_props_init: finished for BCPHO (GETFIL): attempting to find local file bcphi_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/bcphi_rrtmg_c080918.nc bulk_props_init: finished for BCPHI (GETFIL): attempting to find local file ocpho_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/ocpho_rrtmg_c080918.nc bulk_props_init: finished for OCPHO (GETFIL): attempting to find local file ocphi_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/ocphi_rrtmg_c080918.nc bulk_props_init: finished for OCPHI (GETFIL): attempting to find local file seasalt1_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/seasalt1_rrtmg_c080918.n c bulk_props_init: finished for SEASALT1 (GETFIL): attempting to find local file seasalt2_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/seasalt2_rrtmg_c080918.n c bulk_props_init: finished for SEASALT2 (GETFIL): attempting to find local file seasalt3_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/seasalt3_rrtmg_c080918.n c bulk_props_init: finished for SEASALT3 (GETFIL): attempting to find local file seasalt4_rrtmg_c080918.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/seasalt4_rrtmg_c080918.n c bulk_props_init: finished for SEASALT4 rad_cnst_init: checking for radiative constituents (GETFIL): attempting to find local file solar_ave_sc19-sc23.c090810.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/solar/solar_ave_sc19-sc23.c090810. nc (GETFIL): attempting to find local file solar_ave_sc19-sc23.c090810.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/solar/solar_ave_sc19-sc23.c090810. nc solar_data_init: data file = /project/projectdirs/ccsm1/inputdata/atm/cam/solar/solar_ave_sc19-sc23.c090810. nc solar_data_init: has_ref_spectrum F ----------------------------------------- mozart will NOT do nh4no3 following species are missing 1 2 3 4 5 ----------------------------------------- ozone is prescribed in :ozone_1.9x2.5_L26_2000clim_c091112.nc trcdata_init: data type: CYCLICAL file: ozone_1.9x2.5_L26_2000clim_c091112.nc (GETFIL): attempting to find local file ozone_1.9x2.5_L26_2000clim_c091112.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/ozone/ozone_1.9x2.5_L26_2000clim_c 091112.nc open_trc_datafile: /project/projectdirs/ccsm1/inputdata/atm/cam/ozone/ozone_1.9x2.5_L26_2000clim_c 091112.nc trcdata_init: file%has_ps = T aero is prescribed in :aero_1.9x2.5_L26_2000clim_c091112.nc trcdata_init: data type: CYCLICAL file: aero_1.9x2.5_L26_2000clim_c091112.nc (GETFIL): attempting to find local file aero_1.9x2.5_L26_2000clim_c091112.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/chem/trop_mozart_aero/aero/aero_1. 9x2.5_L26_2000clim_c091112.nc open_trc_datafile: /project/projectdirs/ccsm1/inputdata/atm/cam/chem/trop_mozart_aero/aero/aero_1. 9x2.5_L26_2000clim_c091112.nc trcdata_init: file%has_ps = T aero dep fluxes are prescribed in :aerosoldep_monthly_1849-2006_1.9x2.5_c090803 .nc trcdata_init: data type: CYCLICAL file: aerosoldep_monthly_1849-2006_1.9x2.5_c0 90803.nc (GETFIL): attempting to find local file aerosoldep_monthly_1849-2006_1.9x2.5_c090803.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/chem/trop_mozart_aero/aero/aerosol dep_monthly_1849-2006_1.9x2.5_c090803.nc open_trc_datafile: /project/projectdirs/ccsm1/inputdata/atm/cam/chem/trop_mozart_aero/aero/aerosol dep_monthly_1849-2006_1.9x2.5_c090803.nc trcdata_init: file%has_ps = F GW_DRAG: band_mid%ngwv = 0 GW_DRAG: band_mid%cref(0) = 0.00 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 0.22552E+03 0.14 2 0.50317E+03 0.10 3 0.10158E+04 0.09 4 0.18555E+04 0.09 5 0.30669E+04 0.09 6 0.45867E+04 0.09 7 0.63323E+04 0.09 8 0.80701E+04 0.09 9 0.94941E+04 0.09 10 0.11169E+05 0.09 11 0.13140E+05 0.09 12 0.15459E+05 0.09 13 0.18186E+05 0.09 14 0.21395E+05 0.09 15 0.25170E+05 0.09 16 0.29612E+05 0.09 17 0.34837E+05 0.09 18 0.40984E+05 0.09 19 0.48215E+05 0.09 20 0.56722E+05 0.09 21 0.65233E+05 0.09 22 0.73045E+05 0.09 23 0.79636E+05 0.09 24 0.84535E+05 0.09 25 0.87372E+05 0.09 26 0.90032E+05 0.09 27 0.92496E+05 0.09 28 0.94743E+05 0.09 29 0.96754E+05 0.09 30 0.98511E+05 0.09 31 0.10000E+06 0.09 KTOP = 1 Initializing vertical diffusion (vertical_diffusion_init) NTOP_EDDY = 1 NBOT_EDDY = 30 vertical_diffusion_init: eddy_diffusivity scheme: UW Moist Turbulence Scheme by Bretherton and Park init_eddy_diff: nturb= 5 init_eddy_diff: eddy_leng_max= 40000.0000000000 lbulk_max= 40000.0000000000 init_eddy_diff: 1 364.346569404006 leng_max= 40000.0000000000 init_eddy_diff: 2 759.481964632869 leng_max= 40000.0000000000 init_eddy_diff: 3 1435.66322512925 leng_max= 40000.0000000000 init_eddy_diff: 4 2461.22200042009 leng_max= 40000.0000000000 init_eddy_diff: 5 3826.82997733355 leng_max= 40000.0000000000 init_eddy_diff: 6 5459.54797416925 leng_max= 40000.0000000000 init_eddy_diff: 7 7201.24505460262 leng_max= 40000.0000000000 init_eddy_diff: 8 8782.12302923203 leng_max= 40000.0000000000 init_eddy_diff: 9 10331.7126631737 leng_max= 40000.0000000000 init_eddy_diff: 10 12154.7240763903 leng_max= 40000.0000000000 init_eddy_diff: 11 14299.4038760662 leng_max= 40000.0000000000 init_eddy_diff: 12 16822.5079774857 leng_max= 40000.0000000000 init_eddy_diff: 13 19790.8086702227 leng_max= 40000.0000000000 init_eddy_diff: 14 23282.8618958592 leng_max= 40000.0000000000 init_eddy_diff: 15 27391.0816758871 leng_max= 40000.0000000000 init_eddy_diff: 16 32224.1902351379 leng_max= 40000.0000000000 init_eddy_diff: 17 37910.0903868675 leng_max= 40000.0000000000 init_eddy_diff: 18 44599.2574095726 leng_max= 40000.0000000000 init_eddy_diff: 19 52468.7174707651 leng_max= 40000.0000000000 init_eddy_diff: 20 60977.8694808483 leng_max= 40000.0000000000 init_eddy_diff: 21 69138.9430314303 leng_max= 40000.0000000000 init_eddy_diff: 22 76340.4481112957 leng_max= 40000.0000000000 init_eddy_diff: 23 82085.8368650079 leng_max= 40000.0000000000 init_eddy_diff: 24 85953.4766525030 leng_max= 40000.0000000000 init_eddy_diff: 25 88702.0248919726 leng_max= 40000.0000000000 init_eddy_diff: 26 91264.4546944648 leng_max= 40000.0000000000 init_eddy_diff: 27 93619.8398470879 leng_max= 40000.0000000000 init_eddy_diff: 28 95748.5479535535 leng_max= 40000.0000000000 init_eddy_diff: 29 97632.5407391414 leng_max= 40000.0000000000 init_eddy_diff: 30 99255.6095123291 leng_max= 40000.0000000000 Using turbulent mountain stress module tms_orocnst = 1.00000000000000 tms_z0fac = 7.500000000000000E-002 radlw_init: ntoplw = 1 (GETFIL): attempting to find local file F_nwvl200_mu20_lam50_res64_t298_c080428.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/F_nwvl200_mu20_lam50_res 64_t298_c080428.nc reading liquid cloud optics from file /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/F_nwvl200_mu20_lam50_res 64_t298_c080428.nc (GETFIL): attempting to find local file iceoptics_c080917.nc (GETFIL): using /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/iceoptics_c080917.nc reading ice cloud optics from file /project/projectdirs/ccsm1/inputdata/atm/cam/physprops/iceoptics_c080917.nc convect_shallow_init: UW shallow convection scheme (McCaa) init_uwshcu: tuning parameters: rpen= 10.0000000000000 tuning parameters cldfrc_init: inversion_cld_off T tuning parameters cldfrc_init: dp1 0.100000000000000 dp2 500.000000000000 sh1 4.000000000000000E-002 sh2 500.000000000000 cldfrc_init: model level nearest 700 mb is 21 which is 69138.9430314303 pascals cldfrc2m parameters: rhminl = 0.897500000000000 rhminl_adj_land = 0.100000000000000 rhminh = 0.800000000000000 premit = 40000.0000000000 premib = 70000.0000000000 iceopt = 5 icecrit = 0.930000000000000 rhmini = 0.800000000000000 rhmaxi = 1.10000000000000 rhminis = 1.00000000000000 rhmaxis = 1.10000000000000 do_subgrid_growth = F convect_deep initializing Zhang-McFarlane convection ZM_CONV_INIT: Deep convection will be capped at intfc 5 which is 3066.91229343414 pascals tuning parameters zm_convi: tau 3600.00000000000 tuning parameters zm_convi: c0_lnd 5.900000000000000E-003 , c0_ocn 4.500000000000000E-002 tuning parameters zm_convi: num_cin 5 tuning parameters zm_convi: ke 5.000000000000000E-006 tuning parameters zm_convi: no_deep_pbl T **** ZM: DILUTE Buoyancy Calculation **** Park Macrophysics Parameters rhminl = 0.897500000000000 rhminl_adj_land = 0.100000000000000 rhminh = 0.800000000000000 premit = 40000.0000000000 premib = 70000.0000000000 i_rhminl = 0 i_rhmini = 0 ndrop_bam_init: iaer, name, dryrad, density, hygro, dispersion, num_to_mass 1 SULFATE 6.949999982452938E-008 1770.00000000000 0.507000000000000 2.03000000000000 4.209709810927708E+016 2 DUST1 1.510000000000000E-006 2600.00000000000 0.140000000596046 1.90000000000000 3.484000000000000E+015 3 DUST2 1.510000000000000E-006 2600.00000000000 0.140000000596046 1.90000000000000 213800000000000. 4 DUST3 1.510000000000000E-006 2600.00000000000 0.140000000596046 1.90000000000000 22050000000000.0 5 DUST4 1.510000000000000E-006 2600.00000000000 0.140000000596046 1.90000000000000 3165000000000.00 6 BCPHO 1.179999997020786E-008 1000.00000000000 1.000000013351432E-010 2.00000000000000 1.672261938492665E+019 7 BCPHI 1.179999997020786E-008 1000.00000000000 1.000000013351432E-010 2.00000000000000 1.672261938492665E+019 8 OCPHO 2.119999994647515E-008 1800.00000000000 1.000000013351432E-010 2.24000000000000 7.456449385688993E+017 9 OCPHI 2.119999994647515E-008 2600.00000000000 0.140000000000000 2.24000000000000 5.162157267015457E+017 10 SEASALT1 5.000000000000000E-007 2200.00000000000 1.16000000000000 1.59138501285649 328642119609650. 11 SEASALT2 2.000000000000000E-006 2200.00000000000 1.16000000000000 1.37319762902054 8626504211623.00 12 SEASALT3 5.000000000000000E-006 2200.00000000000 1.16000000000000 1.41560502267966 504085979049.362 13 SEASALT4 1.500000000000000E-005 2200.00000000000 1.16000000000000 1.22151801422587 26851496535.1599 ndrop_bam_init: SULFATE aerosol properties FOUND at index 1 nucleate_ice parameters: mincld = 1.000000000000000E-004 bulk_scale = 2.00000000000000 use_preexisiting_ice = F hist_preexisiting_ice = F nucleate_ice_subgrid = 1.20000000000000 nucleate_ice_subgrid_strat = 1.20000000000000 nucleate_ice_strat = 1.00000000000000 nucleate_ice_incloud = T nucleate_ice_use_troplev = T Initializing MG version 1. 0 Number of microphysics substeps is: 1 (GETFIL): attempting to find local file clim_p_trop.nc (GETFIL): using /project/projectdirs/ccsm1/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 Total Mass= 985.166540138899 (mb), Dry Mass= 982.880007697003 (mb ) Total Precipitable Water = 23.3173070997834 (kg/m**2) dry mass to be added = -7.697002583881840E-006 Total moist surface pressure after adjustment (mb) = 985.166532441896 ******* MASTER FIELD LIST ******* 1 US m/s 30 A Zonal wind, staggered 2 VS m/s 30 A Meridional wind, staggered 3 US&IC m/s 30 I Zonal wind, staggered 4 VS&IC m/s 30 I Meridional wind, staggered 5 PS&IC Pa 1 I Surface pressure 6 T&IC K 30 I Temperature 7 Q&IC kg/kg 30 I Specific humidity 8 CLDLIQ&IC kg/kg 30 I Grid box averaged cloud liquid amount 9 CLDICE&IC kg/kg 30 I Grid box averaged cloud ice amount 10 NUMLIQ&IC kg/kg 30 I Grid box averaged cloud liquid number 11 NUMICE&IC kg/kg 30 I Grid box averaged cloud ice number 12 TAQ kg/kg/s 30 A Q horz + vert + fixer tendency 13 TACLDLIQ kg/kg/s 30 A CLDLIQ horz + vert + fixer tendency 14 TACLDICE kg/kg/s 30 A CLDICE horz + vert + fixer tendency 15 TANUMLIQ kg/kg/s 30 A NUMLIQ horz + vert + fixer tendency 16 TANUMICE kg/kg/s 30 A NUMICE horz + vert + fixer tendency 17 DUH K/s 30 A U horizontal diffusive heating 18 DVH K/s 30 A V horizontal diffusive heating 19 ENGYCORR W/m2 30 A Energy correction for over-all conservation 20 FU m/s2 30 A Zonal wind forcing term 21 FV m/s2 30 A Meridional wind forcing term 22 FU_S m/s2 30 A Zonal wind forcing term on staggered grid 23 FV_S m/s2 30 A Meridional wind forcing term on staggered grid 24 TTEND K/s 30 A Total T tendency (all processes) 25 LPSTEN Pa/s 1 A Surface pressure tendency 26 VAT K/s 30 A Vertical advective tendency of T 27 KTOOP K/s 30 A (Kappa*T)*(omega/P) 28 Q kg/kg 30 A Specific humidity 29 NSTEP timestep 1 A Model timestep 30 PHIS m2/s2 1 I Surface geopotential 31 PS Pa 1 A Surface pressure 32 T K 30 A Temperature 33 U m/s 30 A Zonal wind 34 V m/s 30 A Meridional wind 35 TBP K 30 A Temperature (before physics) 36 QBP kg/kg 30 A Specific humidity (before physics) 37 TAP K 30 A Temperature (after physics) 38 UAP m/s 30 A Zonal wind (after physics) 39 VAP m/s 30 A Meridional wind (after physics) 40 QAP kg/kg 30 A Specific humidity (after physics) 41 TFIX K/s 1 A T fixer (T equivalent of Energy correction) 42 TTEND_TOT K/s 30 A Total temperature tendency 43 Z3 m 30 A Geopotential Height (above sea level) 44 Z1000 m 1 A Geopotential Z at 1000 mbar pressure surface 45 Z700 m 1 A Geopotential Z at 700 mbar pressure surface 46 Z500 m 1 A Geopotential Z at 500 mbar pressure surface 47 Z300 m 1 A Geopotential Z at 300 mbar pressure surface 48 Z200 m 1 A Geopotential Z at 200 mbar pressure surface 49 Z100 m 1 A Geopotential Z at 100 mbar pressure surface 50 Z050 m 1 A Geopotential Z at 50 mbar pressure surface 51 ZZ m2 30 A Eddy height variance 52 VZ m2/s 30 A Meridional transport of geopotential height 53 VT K m/s 30 A Meridional heat transport 54 VU m2/s2 30 A Meridional flux of zonal momentum 55 VV m2/s2 30 A Meridional velocity squared 56 OMEGAV m Pa/s2 30 A Vertical flux of meridional momentum 57 OMGAOMGA Pa2/s2 30 A Vertical flux of vertical momentum 58 UU m2/s2 30 A Zonal velocity squared 59 WSPEED m/s 30 X Horizontal total wind speed maximum 60 WSPDSRFMX m/s 1 X Horizontal total wind speed maximum at the surface 61 WSPDSRFAV m/s 1 A Horizontal total wind speed average at the surface 62 OMEGA Pa/s 30 A Vertical velocity (pressure) 63 OMEGAT K Pa/s 30 A Vertical heat flux 64 OMEGAU m Pa/s2 30 A Vertical flux of zonal momentum 65 OMEGA850 Pa/s 1 A Vertical velocity at 850 mbar pressure surface 66 OMEGA500 Pa/s 1 A Vertical velocity at 500 mbar pressure surface 67 PSL Pa 1 A Sea level pressure 68 T1000 K 1 A Temperature at 1000 mbar pressure surface 69 T925 K 1 A Temperature at 925 mbar pressure surface 70 T850 K 1 A Temperature at 850 mbar pressure surface 71 T700 K 1 A Temperature at 700 mbar pressure surface 72 T500 K 1 A Temperature at 500 mbar pressure surface 73 T400 K 1 A Temperature at 400 mbar pressure surface 74 T300 K 1 A Temperature at 300 mbar pressure surface 75 T200 K 1 A Temperature at 200 mbar pressure surface 76 T010 K 1 A Temperature at 10 mbar pressure surface 77 T7001000 K 1 A Temperature difference 700 mb - 1000 mb 78 TH7001000 K 1 A Theta difference 700 mb - 1000 mb 79 THE7001000 K 1 A ThetaE difference 700 mb - 1000 mb 80 T8501000 K 1 A Temperature difference 850 mb - 1000 mb 81 TH8501000 K 1 A Theta difference 850 mb - 1000 mb 82 T9251000 K 1 A Temperature difference 925 mb - 1000 mb 83 TH9251000 K 1 A Theta difference 925 mb - 1000 mb 84 TT K2 30 A Eddy temperature variance 85 U850 m/s 1 A Zonal wind at 850 mbar pressure surface 86 U500 m/s 1 A Zonal wind at 500 mbar pressure surface 87 U250 m/s 1 A Zonal wind at 250 mbar pressure surface 88 U200 m/s 1 A Zonal wind at 200 mbar pressure surface 89 U010 m/s 1 A Zonal wind at 10 mbar pressure surface 90 V850 m/s 1 A Meridional wind at 850 mbar pressure surface 91 V500 m/s 1 A Meridional wind at 500 mbar pressure surface 92 V250 m/s 1 A Meridional wind at 250 mbar pressure surface 93 V200 m/s 1 A Meridional wind at 200 mbar pressure surface 94 UBOT m/s 1 A Lowest model level zonal wind 95 VBOT m/s 1 A Lowest model level meridional wind 96 ZBOT m 1 A Lowest model level height 97 ATMEINT J/m2 1 A Vertically integrated total atmospheric energy 98 PTTEND K/s 30 A T total physics tendency 99 T_24_COS K 30 A Temperature 24hr. cos coeff. 100 T_24_SIN K 30 A Temperature 24hr. sin coeff. 101 T_12_COS K 30 A Temperature 12hr. cos coeff. 102 T_12_SIN K 30 A Temperature 12hr. sin coeff. 103 T_08_COS K 30 A Temperature 8hr. cos coeff. 104 T_08_SIN K 30 A Temperature 8hr. sin coeff. 105 U_24_COS m/s 30 A Zonal wind 24hr. cos coeff. 106 U_24_SIN m/s 30 A Zonal wind 24hr. sin coeff. 107 U_12_COS m/s 30 A Zonal wind 12hr. cos coeff. 108 U_12_SIN m/s 30 A Zonal wind 12hr. sin coeff. 109 U_08_COS m/s 30 A Zonal wind 8hr. cos coeff. 110 U_08_SIN m/s 30 A Zonal wind 8hr. sin coeff. 111 V_24_COS m/s 30 A Meridional wind 24hr. cos coeff. 112 V_24_SIN m/s 30 A Meridional wind 24hr. sin coeff. 113 V_12_COS m/s 30 A Meridional wind 12hr. cos coeff. 114 V_12_SIN m/s 30 A Meridional wind 12hr. sin coeff. 115 V_08_COS m/s 30 A Meridional wind 8hr. cos coeff. 116 V_08_SIN m/s 30 A Meridional wind 8hr. sin coeff. 117 PS_24_COS Pa 1 A surface pressure 24hr. cos coeff. 118 PS_24_SIN Pa 1 A surface pressure 24hr. sin coeff. 119 PS_12_COS Pa 1 A surface pressure 12hr. cos coeff. 120 PS_12_SIN Pa 1 A surface pressure 12hr. sin coeff. 121 PS_08_COS Pa 1 A surface pressure 8hr. cos coeff. 122 PS_08_SIN Pa 1 A surface pressure 8hr. sin coeff. 123 OMEGA_24_COS Pa/s 30 A vertical pressure velocity 24hr. cos coeff. 124 OMEGA_24_SIN Pa/s 30 A vertical pressure velocity 24hr. sin coeff. 125 OMEGA_12_COS Pa/s 30 A vertical pressure velocity 12hr. cos coeff. 126 OMEGA_12_SIN Pa/s 30 A vertical pressure velocity 12hr. sin coeff. 127 OMEGA_08_COS Pa/s 30 A vertical pressure velocity 8hr. cos coeff. 128 OMEGA_08_SIN Pa/s 30 A vertical pressure velocity 8hr. sin coeff. 129 SE_pBF J/m2 1 A Dry Static Energy before energy fixer 130 SE_pBP J/m2 1 A Dry Static Energy before parameterizations 131 SE_pAP J/m2 1 A Dry Static Energy after parameterizations 132 SE_pAM J/m2 1 A Dry Static Energy after dry mass correction 133 KE_pBF J/m2 1 A Kinetic Energy before energy fixer 134 KE_pBP J/m2 1 A Kinetic Energy before parameterizations 135 KE_pAP J/m2 1 A Kinetic Energy after parameterizations 136 KE_pAM J/m2 1 A Kinetic Energy after dry mass correction 137 TT_pBF kg/m2 1 A Total column test tracer before energy fixer 138 TT_pBP kg/m2 1 A Total column test tracer before parameterizations 139 TT_pAP kg/m2 1 A Total column test tracer after parameterizations 140 TT_pAM kg/m2 1 A Total column test tracer after dry mass correction 141 WV_pBF kg/m2 1 A Total column water vapor before energy fixer 142 WV_pBP kg/m2 1 A Total column water vapor before parameterizations 143 WV_pAP kg/m2 1 A Total column water vapor after parameterizations 144 WV_pAM kg/m2 1 A Total column water vapor after dry mass correction 145 WL_pBF kg/m2 1 A Total column cloud water before energy fixer 146 WL_pBP kg/m2 1 A Total column cloud water before parameterizations 147 WL_pAP kg/m2 1 A Total column cloud water after parameterizations 148 WL_pAM kg/m2 1 A Total column cloud water after dry mass correction 149 WI_pBF kg/m2 1 A Total column cloud ice before energy fixer 150 WI_pBP kg/m2 1 A Total column cloud ice before parameterizations 151 WI_pAP kg/m2 1 A Total column cloud ice after parameterizations 152 WI_pAM kg/m2 1 A Total column cloud ice after dry mass correction 153 MR_pBF kg*m2/s*rad2 1 A Total column wind axial angular momentum before energy fixer 154 MR_pBP kg*m2/s*rad2 1 A Total column wind axial angular momentum before parameterizations 155 MR_pAP kg*m2/s*rad2 1 A Total column wind axial angular momentum after parameterizations 156 MR_pAM kg*m2/s*rad2 1 A Total column wind axial angular momentum after dry mass correction 157 MO_pBF kg*m2/s*rad2 1 A Total column mass axial angular momentum before energy fixer 158 MO_pBP kg*m2/s*rad2 1 A Total column mass axial angular momentum before parameterizations 159 MO_pAP kg*m2/s*rad2 1 A Total column mass axial angular momentum after parameterizations 160 MO_pAM kg*m2/s*rad2 1 A Total column mass axial angular momentum after dry mass correction 161 TMCLDLIQ kg/m2 1 A CLDLIQ column burden 162 TMCLDICE kg/m2 1 A CLDICE column burden 163 TMNUMLIQ kg/m2 1 A NUMLIQ column burden 164 TMNUMICE kg/m2 1 A NUMICE column burden 165 OMEGAQ kgPa/kgs 30 A Vertical water transport 166 VQ m/skg/kg 30 A Meridional water transport 167 QQ kg2/kg2 30 A Eddy moisture variance 168 MQ kg/m2 30 A Water vapor mass in layer 169 TMQ kg/m2 1 A Total (vertically integrated) precipitable water 170 RELHUM percent 30 A Relative humidity 171 RHW percent 30 A Relative humidity with respect to liquid 172 RHI percent 30 A Relative humidity with respect to ice 173 RHCFMIP percent 30 A Relative humidity with respect to water above 273 K, ice below 273 K 174 THE8501000 K 1 A ThetaE difference 850 mb - 1000 mb 175 THE9251000 K 1 A ThetaE difference 925 mb - 1000 mb 176 Q1000 kg/kg 1 A Specific Humidity at 1000 mbar pressure surface 177 Q925 kg/kg 1 A Specific Humidity at 925 mbar pressure surface 178 Q850 kg/kg 1 A Specific Humidity at 850 mbar pressure surface 179 Q200 kg/kg 1 A Specific Humidity at 700 mbar pressure surface 180 QBOT kg/kg 1 A Lowest model level water vapor mixing ratio 181 PSDRY Pa 1 A Dry surface pressure 182 PMID Pa 30 A Pressure at layer midpoints 183 PDELDRY Pa 30 A Dry pressure difference between levels 184 DTCOND K/s 30 A T tendency - moist processes 185 DTCOND_24_COS K/s 30 A T tendency - moist processes 24hr. cos coeff. 186 DTCOND_24_SIN K/s 30 A T tendency - moist processes 24hr. sin coeff. 187 DTCOND_12_COS K/s 30 A T tendency - moist processes 12hr. cos coeff. 188 DTCOND_12_SIN K/s 30 A T tendency - moist processes 12hr. sin coeff. 189 DTCOND_08_COS K/s 30 A T tendency - moist processes 8hr. cos coeff. 190 DTCOND_08_SIN K/s 30 A T tendency - moist processes 8hr. sin coeff. 191 PRECL m/s 1 A Large-scale (stable) precipitation rate (liq + ice) 192 PRECC m/s 1 A Convective precipitation rate (liq + ice) 193 PRECT m/s 1 A Total (convective and large-scale) precipitation rate (liq + ice) 194 PREC_PCW m/s 1 A LS_pcw precipitation rate 195 PREC_zmc m/s 1 A CV_zmc precipitation rate 196 PRECTMX m/s 1 X Maximum (convective and large-scale) precipitation rate (liq+ice) 197 PRECSL m/s 1 A Large-scale (stable) snow rate (water equivalent) 198 PRECSC m/s 1 A Convective snow rate (water equivalent) 199 PRECCav m/s 1 A Average large-scale precipitation (liq + ice) 200 PRECLav m/s 1 A Average convective precipitation (liq + ice) 201 SHFLX W/m2 1 A Surface sensible heat flux 202 LHFLX W/m2 1 A Surface latent heat flux 203 QFLX kg/m2/s 1 A Surface water flux 204 TAUX N/m2 1 A Zonal surface stress 205 TAUY N/m2 1 A Meridional surface stress 206 TREFHT K 1 A Reference height temperature 207 TREFHTMN K 1 M Minimum reference height temperature over output period 208 TREFHTMX K 1 X Maximum reference height temperature over output period 209 QREFHT kg/kg 1 A Reference height humidity 210 U10 m/s 1 A 10m wind speed 211 RHREFHT fraction 1 A Reference height relative humidity 212 LANDFRAC fraction 1 A Fraction of sfc area covered by land 213 ICEFRAC fraction 1 A Fraction of sfc area covered by sea-ice 214 OCNFRAC fraction 1 A Fraction of sfc area covered by ocean 215 TREFMNAV K 1 A Average of TREFHT daily minimum 216 TREFMXAV K 1 A Average of TREFHT daily maximum 217 TS K 1 A Surface temperature (radiative) 218 TSMN K 1 M Minimum surface temperature over output period 219 TSMX K 1 X Maximum surface temperature over output period 220 SNOWHLND m 1 A Water equivalent snow depth 221 SNOWHICE m 1 A Snow depth over ice 222 TBOT K 1 A Lowest model level temperature 223 ASDIR 1 1 A albedo: shortwave, direct 224 ASDIF 1 1 A albedo: shortwave, diffuse 225 ALDIR 1 1 A albedo: longwave, direct 226 ALDIF 1 1 A albedo: longwave, diffuse 227 SST K 1 A sea surface temperature 228 PTEQ kg/kg/s 30 A Q total physics tendency 229 PTECLDLIQ kg/kg/s 30 A CLDLIQ total physics tendency 230 PTECLDICE kg/kg/s 30 A CLDICE total physics tendency 231 DMEQ kg/kg/s 30 A Q dme adjustment tendency (FV) 232 DMECLDLIQ kg/kg/s 30 A CLDLIQ dme adjustment tendency (FV) 233 DMECLDICE kg/kg/s 30 A CLDICE dme adjustment tendency (FV) 234 QCWAT&IC kg/kg 30 I q associated with cloud water 235 TCWAT&IC kg/kg 30 I T associated with cloud water 236 LCWAT&IC kg/kg 30 I Cloud water (ice + liq 237 CLOUD&IC fraction 30 I Cloud fraction 238 CONCLD&IC fraction 30 I Convective cloud fraction 239 TKE&IC m2/s2 31 I Turbulent Kinetic Energy 240 CUSH&IC m 1 I Convective Scale Height 241 KVH&IC m2/s 31 I Vertical diffusion diffusivities (heat/moisture) 242 KVM&IC m2/s 31 I Vertical diffusion diffusivities (momentum) 243 PBLH&IC m 1 I PBL height 244 TPERT&IC K 1 I Perturbation temperature (eddies in PBL) 245 QPERT&IC kg/kg 1 I Perturbation specific humidity (eddies in PBL) 246 a2x_BCPHIWET kg/m2/s 1 A wetdep of hydrophilic black carbon 247 a2x_BCPHIDRY kg/m2/s 1 A drydep of hydrophilic black carbon 248 a2x_BCPHODRY kg/m2/s 1 A drydep of hydrophobic black carbon 249 a2x_OCPHIWET kg/m2/s 1 A wetdep of hydrophilic organic carbon 250 a2x_OCPHIDRY kg/m2/s 1 A drydep of hydrophilic organic carbon 251 a2x_OCPHODRY kg/m2/s 1 A drydep of hydrophobic organic carbon 252 a2x_DSTWET1 kg/m2/s 1 A wetdep of dust (bin1) 253 a2x_DSTDRY1 kg/m2/s 1 A drydep of dust (bin1) 254 a2x_DSTWET2 kg/m2/s 1 A wetdep of dust (bin2) 255 a2x_DSTDRY2 kg/m2/s 1 A drydep of dust (bin2) 256 a2x_DSTWET3 kg/m2/s 1 A wetdep of dust (bin3) 257 a2x_DSTDRY3 kg/m2/s 1 A drydep of dust (bin3) 258 a2x_DSTWET4 kg/m2/s 1 A wetdep of dust (bin4) 259 a2x_DSTDRY4 kg/m2/s 1 A drydep of dust (bin4) 260 DCQ kg/kg/s 30 A Q tendency due to moist processes 261 TEINP J/m2 1 A Total energy of physics input 262 TEOUT J/m2 1 A Total energy of physics output 263 TEFIX J/m2 1 A Total energy after fixer 264 EFIX W/m2 1 A Effective sensible heat flux due to energy fixer 265 DTCORE K/s 30 A T tendency due to dynamical core 266 m_Q_c kg/m^2 30 A Q mass per layer used in climate calculation 267 cb_Q_c kg/m^2 1 A Q column burden used in climate calculation 268 m_ozone_c kg/m^2 30 A ozone mass per layer used in climate calculation 269 cb_ozone_c kg/m^2 1 A ozone column burden used in climate calculation 270 m_O2_c kg/m^2 30 A O2 mass per layer used in climate calculation 271 cb_O2_c kg/m^2 1 A O2 column burden used in climate calculation 272 m_CO2_c kg/m^2 30 A CO2 mass per layer used in climate calculation 273 cb_CO2_c kg/m^2 1 A CO2 column burden used in climate calculation 274 m_N2O_c kg/m^2 30 A N2O mass per layer used in climate calculation 275 cb_N2O_c kg/m^2 1 A N2O column burden used in climate calculation 276 m_CH4_c kg/m^2 30 A CH4 mass per layer used in climate calculation 277 cb_CH4_c kg/m^2 1 A CH4 column burden used in climate calculation 278 m_CFC11_c kg/m^2 30 A CFC11 mass per layer used in climate calculation 279 cb_CFC11_c kg/m^2 1 A CFC11 column burden used in climate calculation 280 m_CFC12_c kg/m^2 30 A CFC12 mass per layer used in climate calculation 281 cb_CFC12_c kg/m^2 1 A CFC12 column burden used in climate calculation 282 m_sulf_c kg/m^2 30 A sulf mass per layer used in climate calculation 283 cb_sulf_c kg/m^2 1 A sulf column burden used in climate calculation 284 m_dust1_c kg/m^2 30 A dust1 mass per layer used in climate calculation 285 cb_dust1_c kg/m^2 1 A dust1 column burden used in climate calculation 286 m_dust2_c kg/m^2 30 A dust2 mass per layer used in climate calculation 287 cb_dust2_c kg/m^2 1 A dust2 column burden used in climate calculation 288 m_dust3_c kg/m^2 30 A dust3 mass per layer used in climate calculation 289 cb_dust3_c kg/m^2 1 A dust3 column burden used in climate calculation 290 m_dust4_c kg/m^2 30 A dust4 mass per layer used in climate calculation 291 cb_dust4_c kg/m^2 1 A dust4 column burden used in climate calculation 292 m_bcar1_c kg/m^2 30 A bcar1 mass per layer used in climate calculation 293 cb_bcar1_c kg/m^2 1 A bcar1 column burden used in climate calculation 294 m_bcar2_c kg/m^2 30 A bcar2 mass per layer used in climate calculation 295 cb_bcar2_c kg/m^2 1 A bcar2 column burden used in climate calculation 296 m_ocar1_c kg/m^2 30 A ocar1 mass per layer used in climate calculation 297 cb_ocar1_c kg/m^2 1 A ocar1 column burden used in climate calculation 298 m_ocar2_c kg/m^2 30 A ocar2 mass per layer used in climate calculation 299 cb_ocar2_c kg/m^2 1 A ocar2 column burden used in climate calculation 300 m_sslt1_c kg/m^2 30 A sslt1 mass per layer used in climate calculation 301 cb_sslt1_c kg/m^2 1 A sslt1 column burden used in climate calculation 302 m_sslt2_c kg/m^2 30 A sslt2 mass per layer used in climate calculation 303 cb_sslt2_c kg/m^2 1 A sslt2 column burden used in climate calculation 304 m_sslt3_c kg/m^2 30 A sslt3 mass per layer used in climate calculation 305 cb_sslt3_c kg/m^2 1 A sslt3 column burden used in climate calculation 306 m_sslt4_c kg/m^2 30 A sslt4 mass per layer used in climate calculation 307 cb_sslt4_c kg/m^2 1 A sslt4 column burden used in climate calculation 308 AEROD_v 1 1 A Total Aerosol Optical Depth in visible band 309 AODvstrt 1 1 A Stratospheric Aerosol Optical Depth in visible band 310 ODV_sulf 1 1 A sulf optical depth in visible band 311 ODV_dust1 1 1 A dust1 optical depth in visible band 312 ODV_dust2 1 1 A dust2 optical depth in visible band 313 ODV_dust3 1 1 A dust3 optical depth in visible band 314 ODV_dust4 1 1 A dust4 optical depth in visible band 315 ODV_bcar1 1 1 A bcar1 optical depth in visible band 316 ODV_bcar2 1 1 A bcar2 optical depth in visible band 317 ODV_ocar1 1 1 A ocar1 optical depth in visible band 318 ODV_ocar2 1 1 A ocar2 optical depth in visible band 319 ODV_sslt1 1 1 A sslt1 optical depth in visible band 320 ODV_sslt2 1 1 A sslt2 optical depth in visible band 321 ODV_sslt3 1 1 A sslt3 optical depth in visible band 322 ODV_sslt4 1 1 A sslt4 optical depth in visible band 323 XPH_LWC kg/kg 30 A pH value multiplied by lwc 324 ozone mol/mol 30 I prescribed ozone 325 sulf_D kg/kg 30 A prescribed aero 326 bcar1_D kg/kg 30 A prescribed aero 327 bcar2_D kg/kg 30 A prescribed aero 328 ocar1_D kg/kg 30 A prescribed aero 329 ocar2_D kg/kg 30 A prescribed aero 330 sslt1_D kg/kg 30 A prescribed aero 331 sslt2_D kg/kg 30 A prescribed aero 332 sslt3_D kg/kg 30 A prescribed aero 333 sslt4_D kg/kg 30 A prescribed aero 334 dust1_D kg/kg 30 A prescribed aero 335 dust2_D kg/kg 30 A prescribed aero 336 dust3_D kg/kg 30 A prescribed aero 337 dust4_D kg/kg 30 A prescribed aero 338 BCDEPWET_D kg/m2/s 1 A prescribed aero dep 339 BCPHODRY_D kg/m2/s 1 A prescribed aero dep 340 BCPHIDRY_D kg/m2/s 1 A prescribed aero dep 341 OCDEPWET_D kg/m2/s 1 A prescribed aero dep 342 OCPHODRY_D kg/m2/s 1 A prescribed aero dep 343 OCPHIDRY_D kg/m2/s 1 A prescribed aero dep 344 DSTX01DD_D kg/m2/s 1 A prescribed aero dep 345 DSTX02DD_D kg/m2/s 1 A prescribed aero dep 346 DSTX03DD_D kg/m2/s 1 A prescribed aero dep 347 DSTX04DD_D kg/m2/s 1 A prescribed aero dep 348 DSTX01WD_D kg/m2/s 1 A prescribed aero dep 349 DSTX02WD_D kg/m2/s 1 A prescribed aero dep 350 DSTX03WD_D kg/m2/s 1 A prescribed aero dep 351 DSTX04WD_D kg/m2/s 1 A prescribed aero dep 352 TAUAORO N/m2 31 I Total stress from original OGW scheme 353 TTGWORO K/s 30 A T tendency - orographic gravity wave drag 354 TTGWSDFORO K/s 30 A T tendency - orographic gravity wave, diffusion. 355 TTGWSKEORO K/s 30 A T tendency - orographic gravity wave, breaking KE. 356 UTGWORO m/s2 30 A U tendency - orographic gravity wave drag 357 VTGWORO m/s2 30 A V tendency - orographic gravity wave drag 358 TAUGWX N/m2 1 A Zonal gravity wave surface stress 359 TAUGWY N/m2 1 A Meridional gravity wave surface stress 360 EKGW M2/S 31 A Effective Kzz due to diffusion by gravity waves 361 UTGW_TOTAL m/s2 30 A Total U tendency due to gravity wave drag 362 TTGW K/s 30 A T tendency - gravity wave drag 363 QTGW kg/kg/s 30 A Q tendency - gravity wave drag 364 CLDLIQTGW kg/kg/s 30 A CLDLIQ tendency - gravity wave drag 365 CLDICETGW kg/kg/s 30 A CLDICE tendency - gravity wave drag 366 WGUSTD m/s 1 A wind gusts from turbulence 367 BPROD m2/s3 31 A Buoyancy Production 368 SFI 1 31 A Interface-layer sat frac 369 SPROD m2/s3 31 A Shear Production 370 UW_errorPBL m2/s 1 A Error function of UW PBL 371 UW_n2 s-2 30 A Buoyancy Frequency, LI 372 UW_s2 s-2 30 A Shear Frequency, LI 373 UW_ri 1 30 A Interface Richardson Number, I 374 UW_sfuh 1 30 A Upper-Half Saturation Fraction, L 375 UW_sflh 1 30 A Lower-Half Saturation Fraction, L 376 UW_sfi 1 31 A Interface Saturation Fraction, I 377 UW_cldn 1 30 A Cloud Fraction, L 378 UW_qrl gravity W/m2 30 A LW cooling rate, L 379 UW_ql kg/kg 30 A ql(LWC), L 380 UW_chu gravity kg/J 31 A Buoyancy Coefficient, chu, I 381 UW_chs gravity kg/J 31 A Buoyancy Coefficient, chs, I 382 UW_cmu gravity/kg/kg 31 A Buoyancy Coefficient, cmu, I 383 UW_cms gravity/kg/kg 31 A Buoyancy Coefficient, cms, I 384 UW_tke m2/s2 31 A TKE, I 385 UW_wcap m2/s2 31 A Wcap, I 386 UW_bprod m2/s3 31 A Buoyancy production, I 387 UW_sprod m2/s3 31 A Shear production, I 388 UW_kvh m2/s 31 A Eddy diffusivity of heat, I 389 UW_kvm m2/s 31 A Eddy diffusivity of uv, I 390 UW_pblh m 1 A PBLH, 1 391 UW_pblhp Pa 1 A PBLH pressure, 1 392 UW_tpert K 1 A Convective T excess, 1 393 UW_qpert kg/kg 1 A Convective qt excess, I 394 UW_wpert m/s 1 A Convective W excess, I 395 UW_ustar m/s 1 A Surface Frictional Velocity, 1 396 UW_tkes m2/s2 1 A Surface TKE, 1 397 UW_minpblh m 1 A Minimum PBLH, 1 398 UW_turbtype 1 31 A Interface Turbulence Type, I 399 UW_kbase_o 1 30 A Initial CL Base Exterbal Interface Index, CL 400 UW_ktop_o 1 30 A Initial Top Exterbal Interface Index, CL 401 UW_ncvfin_o 1 1 A Initial Total Number of CL regimes, CL 402 UW_kbase_mg 1 30 A kbase after merging, CL 403 UW_ktop_mg 1 30 A ktop after merging, CL 404 UW_ncvfin_mg 1 1 A ncvfin after merging, CL 405 UW_kbase_f 1 30 A Final kbase with SRCL, CL 406 UW_ktop_f 1 30 A Final ktop with SRCL, CL 407 UW_ncvfin_f 1 1 A Final ncvfin with SRCL, CL 408 UW_wet m/s 30 A Entrainment rate at CL top, CL 409 UW_web m/s 30 A Entrainment rate at CL base, CL 410 UW_jtbu m/s2 30 A Buoyancy jump across CL top, CL 411 UW_jbbu m/s2 30 A Buoyancy jump across CL base, CL 412 UW_evhc 1 30 A Evaporative enhancement factor, CL 413 UW_jt2slv J/kg 30 A slv jump for evhc, CL 414 UW_n2ht s-2 30 A n2 at just below CL top interface, CL 415 UW_n2hb s-2 30 A n2 at just above CL base interface 416 UW_lwp kg/m2 30 A LWP in the CL top layer, CL 417 UW_optdepth 1 30 A Optical depth of the CL top layer, CL 418 UW_radfrac 1 30 A Fraction of radiative cooling confined in the CL top 419 UW_radf m2/s3 30 A Buoyancy production at the CL top by radf, I 420 UW_wstar m/s 30 A Convective velocity, Wstar, CL 421 UW_wstar3fact 1 30 A Enhancement of wstar3 due to entrainment, CL 422 UW_ebrk m2/s2 30 A CL-averaged TKE, CL 423 UW_wbrk m2/s2 30 A CL-averaged W, CL 424 UW_lbrk m 30 A CL internal thickness, CL 425 UW_ricl 1 30 A CL-averaged Ri, CL 426 UW_ghcl 1 30 A CL-averaged gh, CL 427 UW_shcl 1 30 A CL-averaged sh, CL 428 UW_smcl 1 30 A CL-averaged sm, CL 429 UW_gh 1 31 A gh at all interfaces, I 430 UW_sh 1 31 A sh at all interfaces, I 431 UW_sm 1 31 A sm at all interfaces, I 432 UW_ria 1 31 A ri at all interfaces, I 433 UW_leng m/s 31 A Turbulence length scale, I 434 UW_wsed m/s 30 A Sedimentation velocity at CL top, CL 435 TAUTMSX N/m2 1 A Zonal turbulent mountain surface stress 436 TAUTMSY N/m2 1 A Meridional turbulent mountain surface stress 437 VD01 kg/kg/s 30 A Vertical diffusion of Q 438 VDCLDLIQ kg/kg/s 30 A Vertical diffusion of CLDLIQ 439 VDCLDICE kg/kg/s 30 A Vertical diffusion of CLDICE 440 VDNUMLIQ kg/kg/s 30 A Vertical diffusion of NUMLIQ 441 VDNUMICE kg/kg/s 30 A Vertical diffusion of NUMICE 442 PBLH m 1 A PBL height 443 QT kg/kg 30 A Total water mixing ratio 444 SL J/kg 30 A Liquid water static energy 445 SLV J/kg 30 A Liq wat virtual static energy 446 SLFLX W/m2 31 A Liquid static energy flux 447 QTFLX W/m2 31 A Total water flux 448 TKE m2/s2 31 A Turbulent Kinetic Energy 449 TPERT K 1 A Perturbation temperature (eddies in PBL) 450 QPERT kg/kg 1 A Perturbation specific humidity (eddies in PBL) 451 UFLX W/m2 31 A Zonal momentum flux 452 VFLX W/m2 31 A Meridional momentm flux 453 USTAR m/s 1 A Surface friction velocity 454 KVH m2/s 31 A Vertical diffusion diffusivities (heat/moisture) 455 KVM m2/s 31 A Vertical diffusion diffusivities (momentum) 456 KVT m2/s 31 A Vertical diffusion kinematic molecular conductivity 457 CGS s/m2 31 A Counter-gradient coeff on surface kinematic fluxes 458 DTVKE K/s 30 A dT/dt vertical diffusion KE dissipation 459 DTV K/s 30 A T vertical diffusion 460 DUV m/s2 30 A U vertical diffusion 461 DVV m/s2 30 A V vertical diffusion 462 qt_pre_PBL kg/kg 30 A qt_prePBL 463 sl_pre_PBL J/kg 30 A sl_prePBL 464 slv_pre_PBL J/kg 30 A slv_prePBL 465 u_pre_PBL m/s 30 A u_prePBL 466 v_pre_PBL m/s 30 A v_prePBL 467 qv_pre_PBL kg/kg 30 A qv_prePBL 468 ql_pre_PBL kg/kg 30 A ql_prePBL 469 qi_pre_PBL kg/kg 30 A qi_prePBL 470 t_pre_PBL K 30 A t_prePBL 471 rh_pre_PBL % 30 A rh_prePBL 472 qt_aft_PBL kg/kg 30 A qt_afterPBL 473 sl_aft_PBL J/kg 30 A sl_afterPBL 474 slv_aft_PBL J/kg 30 A slv_afterPBL 475 u_aft_PBL m/s 30 A u_afterPBL 476 v_aft_PBL m/s 30 A v_afterPBL 477 qv_aft_PBL kg/kg 30 A qv_afterPBL 478 ql_aft_PBL kg/kg 30 A ql_afterPBL 479 qi_aft_PBL kg/kg 30 A qi_afterPBL 480 t_aft_PBL K 30 A t_afterPBL 481 rh_aft_PBL % 30 A rh_afterPBL 482 slflx_PBL J/m2/s 31 A sl flux by PBL 483 qtflx_PBL kg/m2/s 31 A qt flux by PBL 484 uflx_PBL kg/m/s2 31 A u flux by PBL 485 vflx_PBL kg/m/s2 31 A v flux by PBL 486 slflx_cg_PBL J/m2/s 31 A sl_cg flux by PBL 487 qtflx_cg_PBL kg/m2/s 31 A qt_cg flux by PBL 488 uflx_cg_PBL kg/m/s2 31 A u_cg flux by PBL 489 vflx_cg_PBL kg/m/s2 31 A v_cg flux by PBL 490 qtten_PBL kg/kg/s 30 A qt tendency by PBL 491 slten_PBL J/kg/s 30 A sl tendency by PBL 492 uten_PBL m/s2 30 A u tendency by PBL 493 vten_PBL m/s2 30 A v tendency by PBL 494 qvten_PBL kg/kg/s 30 A qv tendency by PBL 495 qlten_PBL kg/kg/s 30 A ql tendency by PBL 496 qiten_PBL kg/kg/s 30 A qi tendency by PBL 497 tten_PBL K/s 30 A T tendency by PBL 498 rhten_PBL %/s 30 A RH tendency by PBL 499 ustar 1 A 500 obklen 1 A 501 O3colAbove DU 1 A Column O3 above model top 502 TOT_CLD_VISTAU 1 30 A Total gbx cloud extinction visible sw optical depth 503 TOT_ICLD_VISTAU 1 30 A Total in-cloud extinction visible sw optical depth 504 LIQ_ICLD_VISTAU 1 30 A Liquid in-cloud extinction visible sw optical depth 505 ICE_ICLD_VISTAU 1 30 A Ice in-cloud extinction visible sw optical depth 506 SNOW_ICLD_VISTAU 1 30 A Snow in-cloud extinction visible sw optical depth 507 SOLIN W/m2 1 A Solar insolation 508 QRS K/s 30 A Solar heating rate 509 QRSC K/s 30 A Clearsky solar heating rate 510 FSNT W/m2 1 A Net solar flux at top of model 511 FSNTC W/m2 1 A Clearsky net solar flux at top of model 512 FSNTOA W/m2 1 A Net solar flux at top of atmosphere 513 FSNTOAC W/m2 1 A Clearsky net solar flux at top of atmosphere 514 SWCF W/m2 1 A Shortwave cloud forcing 515 FSUTOA W/m2 1 A Upwelling solar flux at top of atmosphere 516 FSNIRTOA W/m2 1 A Net near-infrared flux (Nimbus-7 WFOV) at top of atmosphere 517 FSNRTOAC W/m2 1 A Clearsky net near-infrared flux (Nimbus-7 WFOV) at top of atmosphere 518 FSNRTOAS W/m2 1 A Net near-infrared flux (>= 0.7 microns) at top of atmosphere 519 FSN200 W/m2 1 A Net shortwave flux at 200 mb 520 FSN200C W/m2 1 A Clearsky net shortwave flux at 200 mb 521 FSNR W/m2 1 A Net solar flux at tropopause 522 SOLL W/m2 1 A Solar downward near infrared direct to surface 523 SOLS W/m2 1 A Solar downward visible direct to surface 524 SOLLD W/m2 1 A Solar downward near infrared diffuse to surface 525 SOLSD W/m2 1 A Solar downward visible diffuse to surface 526 FSNS W/m2 1 A Net solar flux at surface 527 FSNSC W/m2 1 A Clearsky net solar flux at surface 528 FSDS W/m2 1 A Downwelling solar flux at surface 529 FSDSC W/m2 1 A Clearsky downwelling solar flux at surface 530 FUS W/m2 31 I Shortwave upward flux 531 FDS W/m2 31 I Shortwave downward flux 532 FUSC W/m2 31 I Shortwave clear-sky upward flux 533 FDSC W/m2 31 I Shortwave clear-sky downward flux 534 QRL K/s 30 A Longwave heating rate 535 QRLC K/s 30 A Clearsky longwave heating rate 536 FLNT W/m2 1 A Net longwave flux at top of model 537 FLNTC W/m2 1 A Clearsky net longwave flux at top of model 538 FLNTCLR W/m2 1 A Clearsky ONLY points net longwave flux at top of model 539 FREQCLR Frac 1 A Frequency of Occurrence of Clearsky 540 FLUT W/m2 1 A Upwelling longwave flux at top of model 541 FLUTC W/m2 1 A Clearsky upwelling longwave flux at top of model 542 LWCF W/m2 1 A Longwave cloud forcing 543 FLN200 W/m2 1 A Net longwave flux at 200 mb 544 FLN200C W/m2 1 A Clearsky net longwave flux at 200 mb 545 FLNR W/m2 1 A Net longwave flux at tropopause 546 FLNS W/m2 1 A Net longwave flux at surface 547 FLNSC W/m2 1 A Clearsky net longwave flux at surface 548 FLDS W/m2 1 A Downwelling longwave flux at surface 549 FLDSC W/m2 1 A Clearsky Downwelling longwave flux at surface 550 FUL W/m2 31 I Longwave upward flux 551 FDL W/m2 31 I Longwave downward flux 552 FULC W/m2 31 I Longwave clear-sky upward flux 553 FDLC W/m2 31 I Longwave clear-sky downward flux 554 EMIS 1 30 A Cloud longwave emissivity 555 HR K/s 30 A Heating rate needed for d(theta)/dt computation 556 ICWMR kg/kg 30 A Prognostic in-cloud water mixing ratio 557 ICIMR kg/kg 30 A Prognostic in-cloud ice mixing ratio 558 IWC kg/m3 30 A Grid box average ice water content 559 LWC kg/m3 30 A Grid box average liquid water content 560 ICLDIWP kg/m2 30 A In-cloud ice water path 561 ICLDTWP kg/m2 30 A In-cloud cloud total water path (liquid and ice) 562 GCLDLWP kg/m2 30 A Grid-box cloud water path 563 TGCLDCWP kg/m2 1 A Total grid-box cloud water path (liquid and ice) 564 TGCLDLWP kg/m2 1 A Total grid-box cloud liquid water path 565 TGCLDIWP kg/m2 1 A Total grid-box cloud ice water path 566 lambda_cloud 1/meter 30 I lambda in cloud 567 mu_cloud 1 30 I mu in cloud 568 dei_cloud micrometers 30 I ice radiative effective diameter in cloud 569 SETLWP gram/m2 30 A Prescribed liquid water path 570 LWSH m 1 A Liquid water scale height 571 EFFCLD fraction 30 A Effective cloud fraction 572 EMISCLD 1 30 A cloud emissivity 573 CLOUD fraction 30 A Cloud fraction 574 CLDTOT fraction 1 A Vertically-integrated total cloud 575 CLDLOW fraction 1 A Vertically-integrated low cloud 576 CLDMED fraction 1 A Vertically-integrated mid-level cloud 577 CLDHGH fraction 1 A Vertically-integrated high cloud 578 qt_pre_Cu kg/kg 30 I qt_preCU 579 sl_pre_Cu J/kg 30 I sl_preCU 580 slv_pre_Cu J/kg 30 I slv_preCU 581 u_pre_Cu m/s 30 I u_preCU 582 v_pre_Cu m/s 30 I v_preCU 583 qv_pre_Cu kg/kg 30 I qv_preCU 584 ql_pre_Cu kg/kg 30 I ql_preCU 585 qi_pre_Cu kg/kg 30 I qi_preCU 586 t_pre_Cu K 30 I t_preCU 587 rh_pre_Cu % 30 I rh_preCU 588 qt_aft_Cu kg/kg 30 I qt_afterCU 589 sl_aft_Cu J/kg 30 I sl_afterCU 590 slv_aft_Cu J/kg 30 I slv_afterCU 591 u_aft_Cu m/s 30 I u_afterCU 592 v_aft_Cu m/s 30 I v_afterCU 593 qv_aft_Cu kg/kg 30 I qv_afterCU 594 ql_aft_Cu kg/kg 30 I ql_afterCU 595 qi_aft_Cu kg/kg 30 I qi_afterCU 596 t_aft_Cu K 30 I t_afterCU 597 rh_aft_Cu % 30 I rh_afterCU 598 tten_Cu K/s 30 I Temperature tendency by cumulus convection 599 rhten_Cu %/s 30 I RH tendency by cumumus convection 600 CMFDT K/s 30 A T tendency - shallow convection 601 CMFDQ kg/kg/s 30 A QV tendency - shallow convection 602 CMFDLIQ kg/kg/s 30 A Cloud liq tendency - shallow convection 603 CMFDICE kg/kg/s 30 A Cloud ice tendency - shallow convection 604 CMFDQR kg/kg/s 30 A Q tendency - shallow convection rainout 605 EVAPTCM K/s 30 A T tendency - Evaporation/snow prod from Hack convection 606 FZSNTCM K/s 30 A T tendency - Rain to snow conversion from Hack convection 607 EVSNTCM K/s 30 A T tendency - Snow to rain prod from Hack convection 608 EVAPQCM kg/kg/s 30 A Q tendency - Evaporation from Hack convection 609 QC kg/kg/s 30 A Q tendency - shallow convection LW export 610 PRECSH m/s 1 A Shallow Convection precipitation rate 611 CMFMC kg/m2/s 31 A Moist convection (deep+shallow) mass flux 612 CMFSL W/m2 31 A Moist shallow convection liquid water static energy flux 613 CMFLQ W/m2 31 A Moist shallow convection total water flux 614 CIN J/kg 1 A Convective inhibition 615 CBMF kg/m2/s 1 A Cloud base mass flux 616 CLDTOP 1 1 I Vertical index of cloud top 617 CLDBOT 1 1 I Vertical index of cloud base 618 PCLDTOP 1 1 A Pressure of cloud top 619 PCLDBOT 1 1 A Pressure of cloud base 620 FREQSH fraction 1 A Fractional occurance of shallow convection 621 HKFLXPRC kg/m2/s 31 A Flux of precipitation from HK convection 622 HKFLXSNW kg/m2/s 31 A Flux of snow from HK convection 623 HKNTPRPD kg/kg/s 30 A Net precipitation production from HK convection 624 HKNTSNPD kg/kg/s 30 A Net snow production from HK convection 625 HKEIHEAT W/kg 30 A Heating by ice and evaporation in HK convection 626 ICWMRSH kg/kg 30 A Shallow Convection in-cloud water mixing ratio 627 UWFLXPRC kg/m2/s 31 A Flux of precipitation from UW shallow convection 628 UWFLXSNW kg/m2/s 31 A Flux of snow from UW shallow convection 629 qtflx_Cu kg/m2/s 31 A Convective qt flux 630 slflx_Cu J/m2/s 31 A Convective sl flux 631 uflx_Cu kg/m/s2 31 A Convective u flux 632 vflx_Cu kg/m/s2 31 A Convective v flux 633 qtten_Cu kg/kg/s 30 A qt tendency by convection 634 slten_Cu J/kg/s 30 A sl tendency by convection 635 uten_Cu m/s2 30 A u tendency by convection 636 vten_Cu m/s2 30 A v tendency by convection 637 qvten_Cu kg/kg/s 30 A qv tendency by convection 638 qlten_Cu kg/kg/s 30 A ql tendency by convection 639 qiten_Cu kg/kg/s 30 A qi tendency by convection 640 cbmf_Cu kg/m2/s 1 A Cumulus base mass flux 641 ufrcinvbase_Cu fraction 1 A Cumulus fraction at PBL top 642 ufrclcl_Cu fraction 1 A Cumulus fraction at LCL 643 winvbase_Cu m/s 1 A Cumulus vertical velocity at PBL top 644 wlcl_Cu m/s 1 A Cumulus vertical velocity at LCL 645 plcl_Cu Pa 1 A LCL of source air 646 pinv_Cu Pa 1 A PBL top pressure 647 plfc_Cu Pa 1 A LFC of source air 648 pbup_Cu Pa 1 A Highest interface level of positive cumulus buoyancy 649 ppen_Cu Pa 1 A Highest level where cumulus w is 0 650 qtsrc_Cu kg/kg 1 A Cumulus source air qt 651 thlsrc_Cu K 1 A Cumulus source air thl 652 thvlsrc_Cu K 1 A Cumulus source air thvl 653 emfkbup_Cu kg/m2/s 1 A Penetrative mass flux at kbup 654 cin_Cu J/kg 1 A CIN upto LFC 655 cinlcl_Cu J/kg 1 A CIN upto LCL 656 cbmflimit_Cu kg/m2/s 1 A cbmflimiter 657 tkeavg_Cu m2/s2 1 A Average tke within PBL for convection scheme 658 zinv_Cu m 1 A PBL top height 659 rcwp_Cu kg/m2 1 A Cumulus LWP+IWP 660 rlwp_Cu kg/m2 1 A Cumulus LWP 661 riwp_Cu kg/m2 1 A Cumulus IWP 662 tophgt_Cu m 1 A Cumulus top height 663 wu_Cu m/s 31 A Convective updraft vertical velocity 664 ufrc_Cu fraction 31 A Convective updraft fractional area 665 qtu_Cu kg/kg 31 A Cumulus updraft qt 666 thlu_Cu K 31 A Cumulus updraft thl 667 thvu_Cu K 31 A Cumulus updraft thv 668 uu_Cu m/s 31 A Cumulus updraft uwnd 669 vu_Cu m/s 31 A Cumulus updraft vwnd 670 qtu_emf_Cu kg/kg 31 A qt of penatratively entrained air 671 thlu_emf_Cu K 31 A thl of penatratively entrained air 672 uu_emf_Cu m/s 31 A uwnd of penatratively entrained air 673 vu_emf_Cu m/s 31 A vwnd of penatratively entrained air 674 umf_Cu kg/m2/s 31 A Cumulus updraft mass flux 675 uemf_Cu kg/m2/s 31 A Cumulus net ( updraft + entrainment ) mass flux 676 qcu_Cu kg/kg 30 A Cumulus updraft LWC+IWC 677 qlu_Cu kg/kg 30 A Cumulus updraft LWC 678 qiu_Cu kg/kg 30 A Cumulus updraft IWC 679 cufrc_Cu fraction 30 A Cumulus cloud fraction 680 fer_Cu 1/m 30 A Cumulus lateral fractional entrainment rate 681 fdr_Cu 1/m 30 A Cumulus lateral fractional detrainment Rate 682 dwten_Cu kg/kg/s 30 A Expellsion rate of cumulus cloud water to env. 683 diten_Cu kg/kg/s 30 A Expellsion rate of cumulus ice water to env. 684 qrten_Cu kg/kg/s 30 A Production rate of rain by cumulus 685 qsten_Cu kg/kg/s 30 A Production rate of snow by cumulus 686 flxrain_Cu kg/m2/s 31 A Rain flux induced by Cumulus 687 flxsnow_Cu kg/m2/s 31 A Snow flux induced by Cumulus 688 ntraprd_Cu kg/kg/s 30 A Net production rate of rain by Cumulus 689 ntsnprd_Cu kg/kg/s 30 A Net production rate of snow by Cumulus 690 excessu_Cu no 30 A Updraft saturation excess 691 excess0_Cu no 30 A Environmental saturation excess 692 xc_Cu no 30 A Critical mixing ratio 693 aquad_Cu no 30 A aquad 694 bquad_Cu no 30 A bquad 695 cquad_Cu no 30 A cquad 696 bogbot_Cu no 30 A Cloud buoyancy at the bottom interface 697 bogtop_Cu no 30 A Cloud buoyancy at the top interface 698 exit_UWCu_Cu no 1 A exit_UWCu 699 exit_conden_Cu no 1 A exit_conden 700 exit_klclmkx_Cu no 1 A exit_klclmkx 701 exit_klfcmkx_Cu no 1 A exit_klfcmkx 702 exit_ufrc_Cu no 1 A exit_ufrc 703 exit_wtw_Cu no 1 A exit_wtw 704 exit_drycore_Cu no 1 A exit_drycore 705 exit_wu_Cu no 1 A exit_wu 706 exit_cufilter_Cu no 1 A exit_cufilter 707 exit_kinv1_Cu no 1 A exit_kinv1 708 exit_rei_Cu no 1 A exit_rei 709 limit_shcu_Cu no 1 A limit_shcu 710 limit_negcon_Cu no 1 A limit_negcon 711 limit_ufrc_Cu no 1 A limit_ufrc 712 limit_ppen_Cu no 1 A limit_ppen 713 limit_emf_Cu no 1 A limit_emf 714 limit_cinlcl_Cu no 1 A limit_cinlcl 715 limit_cin_Cu no 1 A limit_cin 716 limit_cbmf_Cu no 1 A limit_cbmf 717 limit_rei_Cu no 1 A limit_rei 718 ind_delcin_Cu no 1 A ind_delcin 719 SH_CLD fraction 30 A Shallow convective cloud cover 720 DP_CLD fraction 30 A Deep convective cloud cover 721 PRECZ m/s 1 A total precipitation from ZM convection 722 ZMDT K/s 30 A T tendency - Zhang-McFarlane moist convection 723 ZMDQ kg/kg/s 30 A Q tendency - Zhang-McFarlane moist convection 724 ZMDICE kg/kg/s 30 A Cloud ice tendency - Zhang-McFarlane convection 725 ZMDLIQ kg/kg/s 30 A Cloud liq tendency - Zhang-McFarlane convection 726 EVAPTZM K/s 30 A T tendency - Evaporation/snow prod from Zhang convection 727 FZSNTZM K/s 30 A T tendency - Rain to snow conversion from Zhang convection 728 EVSNTZM K/s 30 A T tendency - Snow to rain prod from Zhang convection 729 EVAPQZM kg/kg/s 30 A Q tendency - Evaporation from Zhang-McFarlane moist convection 730 ZMFLXPRC kg/m2/s 31 A Flux of precipitation from ZM convection 731 ZMFLXSNW kg/m2/s 31 A Flux of snow from ZM convection 732 ZMNTPRPD kg/kg/s 30 A Net precipitation production from ZM convection 733 ZMNTSNPD kg/kg/s 30 A Net snow production from ZM convection 734 ZMEIHEAT W/kg 30 A Heating by ice and evaporation in ZM convection 735 CMFMCDZM kg/m2/s 31 A Convection mass flux from ZM deep 736 PRECCDZM m/s 1 A Convective precipitation rate from ZM deep 737 PCONVB Pa 1 A convection base pressure 738 PCONVT Pa 1 A convection top pressure 739 CAPE J/kg 1 A Convectively available potential energy 740 FREQZM fraction 1 A Fractional occurance of ZM convection 741 ZMMTT K/s 30 A T tendency - ZM convective momentum transport 742 ZMMTU m/s2 30 A U tendency - ZM convective momentum transport 743 ZMMTV m/s2 30 A V tendency - ZM convective momentum transport 744 ZMMU kg/m2/s 30 A ZM convection updraft mass flux 745 ZMMD kg/m2/s 30 A ZM convection downdraft mass flux 746 ZMUPGU m/s2 30 A zonal force from ZM updraft pressure gradient term 747 ZMUPGD m/s2 30 A zonal force from ZM downdraft pressure gradient term 748 ZMVPGU m/s2 30 A meridional force from ZM updraft pressure gradient term 749 ZMVPGD m/s2 30 A merdional force from ZM downdraft pressure gradient term 750 ZMICUU m/s 30 A ZM in-cloud U updrafts 751 ZMICUD m/s 30 A ZM in-cloud U downdrafts 752 ZMICVU m/s 30 A ZM in-cloud V updrafts 753 ZMICVD m/s 30 A ZM in-cloud V downdrafts 754 DIFZM kg/kg/s 30 A Detrained ice water from ZM convection 755 DLFZM kg/kg/s 30 A Detrained liquid water from ZM convection 756 ICWMRDP kg/kg 30 A Deep Convection in-cloud water mixing ratio 757 RHMIN_LIQ fraction 30 A Default critical RH for liquid-stratus 758 RHMIN_ICE fraction 30 A Default critical RH for ice-stratus 759 DRHMINPBL_LIQ fraction 30 A Drop of liquid-stratus critical RH by PBL turbulence 760 DRHMINPBL_ICE fraction 30 A Drop of ice-stratus critical RH by PBL turbulence 761 DRHMINDET_LIQ fraction 30 A Drop of liquid-stratus critical RH by convective detrainment 762 DRHMINDET_ICE fraction 30 A Drop of ice-stratus critical RH by convective detrainment 763 DPDLFLIQ kg/kg/s 30 A Detrained liquid water from deep convection 764 DPDLFICE kg/kg/s 30 A Detrained ice from deep convection 765 SHDLFLIQ kg/kg/s 30 A Detrained liquid water from shallow convection 766 SHDLFICE kg/kg/s 30 A Detrained ice from shallow convection 767 DPDLFT K/s 30 A T-tendency due to deep convective detrainment 768 SHDLFT K/s 30 A T-tendency due to shallow convective detrainment 769 ZMDLF kg/kg/s 30 A Detrained liquid water from ZM convection 770 MACPDT W/kg 30 A Heating tendency - Revised macrophysics 771 MACPDQ kg/kg/s 30 A Q tendency - Revised macrophysics 772 MACPDLIQ kg/kg/s 30 A CLDLIQ tendency - Revised macrophysics 773 MACPDICE kg/kg/s 30 A CLDICE tendency - Revised macrophysics 774 CLDVAPADJ kg/kg/s 30 A Q tendency associated with liq/ice adjustment - Revised macrophysics 775 CLDLIQADJ kg/kg/s 30 A CLDLIQ adjustment tendency - Revised macrophysics 776 CLDICEADJ kg/kg/s 30 A CLDICE adjustment tendency - Revised macrophysics 777 CLDLIQDET kg/kg/s 30 A Detrainment of conv cld liq into envrionment - Revised macrophysics 778 CLDICEDET kg/kg/s 30 A Detrainment of conv cld ice into envrionment - Revised macrophysics 779 CLDLIQLIM kg/kg/s 30 A CLDLIQ limiting tendency - Revised macrophysics 780 CLDICELIM kg/kg/s 30 A CLDICE limiting tendency - Revised macrophysics 781 AST 1 30 A Stratus cloud fraction 782 LIQCLDF 1 30 A Stratus Liquid cloud fraction 783 ICECLDF 1 30 A Stratus ICE cloud fraction 784 CLDST fraction 30 A Stratus cloud fraction 785 CONCLD fraction 30 A Convective cloud cover 786 CLR_LIQ fraction 30 A Clear sky fraction for liquid stratus 787 CLR_ICE fraction 30 A Clear sky fraction for ice stratus 788 CLDLIQSTR kg/kg 30 A Stratiform CLDLIQ 789 CLDICESTR kg/kg 30 A Stratiform CLDICE 790 CLDLIQCON kg/kg 30 A Convective CLDLIQ 791 CLDICECON kg/kg 30 A Convective CLDICE 792 CLDSICE kg/kg 30 A CloudSat equivalent ice mass mixing ratio 793 CMELIQ kg/kg/s 30 A Rate of cond-evap of liq within the cloud 794 TTENDICE K/s 30 A T tendency from Ice Saturation Adjustment 795 QVTENDICE kg/kg/s 30 A Q tendency from Ice Saturation Adjustment 796 QITENDICE kg/kg/s 30 A CLDICE tendency from Ice Saturation Adjustment 797 NITENDICE kg/kg/s 30 A NUMICE tendency from Ice Saturation Adjustment 798 SULFATE_m3 m-3 30 A aerosol number concentration 799 DUST1_m3 m-3 30 A aerosol number concentration 800 DUST2_m3 m-3 30 A aerosol number concentration 801 DUST3_m3 m-3 30 A aerosol number concentration 802 DUST4_m3 m-3 30 A aerosol number concentration 803 BCPHO_m3 m-3 30 A aerosol number concentration 804 BCPHI_m3 m-3 30 A aerosol number concentration 805 OCPHO_m3 m-3 30 A aerosol number concentration 806 OCPHI_m3 m-3 30 A aerosol number concentration 807 SEASALT1_m3 m-3 30 A aerosol number concentration 808 SEASALT2_m3 m-3 30 A aerosol number concentration 809 SEASALT3_m3 m-3 30 A aerosol number concentration 810 SEASALT4_m3 m-3 30 A aerosol number concentration 811 CCN1 #/cm3 30 A CCN concentration at S=0.02% 812 CCN2 #/cm3 30 A CCN concentration at S=0.05% 813 CCN3 #/cm3 30 A CCN concentration at S=0.1% 814 CCN4 #/cm3 30 A CCN concentration at S=0.2% 815 CCN5 #/cm3 30 A CCN concentration at S=0.5% 816 CCN6 #/cm3 30 A CCN concentration at S=1.0% 817 LCLOUD 30 A Liquid cloud fraction used in stratus activation 818 WSUB m/s 30 A Diagnostic sub-grid vertical velocity 819 WSUBI m/s 30 A Diagnostic sub-grid vertical velocity for ice 820 NIHF 1/m3 30 A Activated Ice Number Concentation due to homogenous freezing 821 NIDEP 1/m3 30 A Activated Ice Number Concentation due to deposition nucleation 822 NIIMM 1/m3 30 A Activated Ice Number Concentation due to immersion freezing 823 NIMEY 1/m3 30 A Activated Ice Number Concentation due to meyers deposition 824 NIREGM C 30 A Ice Nucleation Temperature Threshold for Regime 825 NISUBGRID 30 A Ice Nucleation subgrid saturation factor 826 NITROP_PD 30 A Chemical Tropopause probability 827 CLDLIQ kg/kg 30 A Grid box averaged cloud liquid amount 828 SFCLDLIQ kg/m2/s 1 A CLDLIQ surface flux 829 CLDICE kg/kg 30 A Grid box averaged cloud ice amount 830 SFCLDICE kg/m2/s 1 A CLDICE surface flux 831 NUMLIQ 1/kg 30 A Grid box averaged cloud liquid number 832 SFNUMLIQ 1/m2/s 1 A NUMLIQ surface flux 833 NUMICE 1/kg 30 A Grid box averaged cloud ice number 834 SFNUMICE 1/m2/s 1 A NUMICE surface flux 835 CLDLIQAP kg/kg 30 A CLDLIQ after physics 836 CLDICEAP kg/kg 30 A CLDICE after physics 837 CLDLIQBP kg/kg 30 A CLDLIQ before physics 838 CLDICEBP kg/kg 30 A CLDICE before physics 839 CME kg/kg/s 30 A Rate of cond-evap within the cloud 840 PRODPREC kg/kg/s 30 A Rate of conversion of condensate to precip 841 EVAPPREC kg/kg/s 30 A Rate of evaporation of falling precip 842 EVAPSNOW kg/kg/s 30 A Rate of evaporation of falling snow 843 HPROGCLD W/kg 30 A Heating from prognostic clouds 844 FICE fraction 30 A Fractional ice content within cloud 845 CLDFSNOW 1 30 A Cloud fraction adjusted for snow 846 ICWMRST kg/kg 30 A Prognostic in-stratus water mixing ratio 847 ICIMRST kg/kg 30 A Prognostic in-stratus ice mixing ratio 848 QCSEVAP kg/kg/s 30 A Rate of evaporation of falling cloud water 849 QISEVAP kg/kg/s 30 A Rate of sublimation of falling cloud ice 850 QVRES kg/kg/s 30 A Rate of residual condensation term 851 CMEIOUT kg/kg/s 30 A Rate of deposition/sublimation of cloud ice 852 VTRMC m/s 30 A Mass-weighted cloud water fallspeed 853 VTRMI m/s 30 A Mass-weighted cloud ice fallspeed 854 QCSEDTEN kg/kg/s 30 A Cloud water mixing ratio tendency from sedimentation 855 QISEDTEN kg/kg/s 30 A Cloud ice mixing ratio tendency from sedimentation 856 PRAO kg/kg/s 30 A Accretion of cloud water by rain 857 PRCO kg/kg/s 30 A Autoconversion of cloud water 858 MNUCCCO kg/kg/s 30 A Immersion freezing of cloud water 859 MNUCCTO kg/kg/s 30 A Contact freezing of cloud water 860 MNUCCDO kg/kg/s 30 A Homogeneous and heterogeneous nucleation from vapor 861 MNUCCDOhet kg/kg/s 30 A Heterogeneous nucleation from vapor 862 MSACWIO kg/kg/s 30 A Conversion of cloud water from rime-splintering 863 PSACWSO kg/kg/s 30 A Accretion of cloud water by snow 864 BERGSO kg/kg/s 30 A Conversion of cloud water to snow from bergeron 865 BERGO kg/kg/s 30 A Conversion of cloud water to cloud ice from bergeron 866 MELTO kg/kg/s 30 A Melting of cloud ice 867 HOMOO kg/kg/s 30 A Homogeneous freezing of cloud water 868 QCRESO kg/kg/s 30 A Residual condensation term for cloud water 869 PRCIO kg/kg/s 30 A Autoconversion of cloud ice 870 PRAIO kg/kg/s 30 A Accretion of cloud ice by rain 871 QIRESO kg/kg/s 30 A Residual deposition term for cloud ice 872 MNUCCRO kg/kg/s 30 A Heterogeneous freezing of rain to snow 873 PRACSO kg/kg/s 30 A Accretion of rain by snow 874 MELTSDT W/kg 30 A Latent heating rate due to melting of snow 875 FRZRDT W/kg 30 A Latent heating rate due to homogeneous freezing of rain 876 MPDT W/kg 30 A Heating tendency - Morrison microphysics 877 MPDQ kg/kg/s 30 A Q tendency - Morrison microphysics 878 MPDLIQ kg/kg/s 30 A CLDLIQ tendency - Morrison microphysics 879 MPDICE kg/kg/s 30 A CLDICE tendency - Morrison microphysics 880 MPDW2V kg/kg/s 30 A Water <--> Vapor tendency - Morrison microphysics 881 MPDW2I kg/kg/s 30 A Water <--> Ice tendency - Morrison microphysics 882 MPDW2P kg/kg/s 30 A Water <--> Precip tendency - Morrison microphysics 883 MPDI2V kg/kg/s 30 A Ice <--> Vapor tendency - Morrison microphysics 884 MPDI2W kg/kg/s 30 A Ice <--> Water tendency - Morrison microphysics 885 MPDI2P kg/kg/s 30 A Ice <--> Precip tendency - Morrison microphysics 886 ICWNC m-3 30 A Prognostic in-cloud water number conc 887 ICINC m-3 30 A Prognostic in-cloud ice number conc 888 EFFLIQ_IND Micron 30 A Prognostic droplet effective radius (indirect effect) 889 CDNUMC 1/m2 1 A Vertically-integrated droplet concentration 890 MPICLWPI kg/m2 1 A Vertically-integrated in-cloud Initial Liquid WP (Before Micro) 891 MPICIWPI kg/m2 1 A Vertically-integrated in-cloud Initial Ice WP (Before Micro) 892 AWNC m-3 30 A Average cloud water number conc 893 AWNI m-3 30 A Average cloud ice number conc 894 AREL Micron 30 A Average droplet effective radius 895 AREI Micron 30 A Average ice effective radius 896 FREQL fraction 30 A Fractional occurrence of liquid 897 FREQI fraction 30 A Fractional occurrence of ice 898 ACTREL Micron 1 A Average Cloud Top droplet effective radius 899 ACTREI Micron 1 A Average Cloud Top ice effective radius 900 ACTNL m-3 1 A Average Cloud Top droplet number 901 ACTNI m-3 1 A Average Cloud Top ice number 902 FCTL fraction 1 A Fractional occurrence of cloud top liquid 903 FCTI fraction 1 A Fractional occurrence of cloud top ice 904 FREQM fraction 30 A Fractional occurrence of mixed phase 905 FREQSL fraction 30 A Fractional occurrence of only supercooled liquid 906 FREQSLM fraction 30 A Fractional occurrence of super cooled liquid with ice 907 FCTM fraction 1 A Fractional occurrence of cloud top mixed phase 908 FCTSL fraction 1 A Fractional occurrence of cloud top only supercooled liquid 909 FCTSLM fraction 1 A Fractional occurrence of cloud top super cooled liquid with ice 910 LS_FLXPRC kg/m2/s 31 A ls stratiform gbm interface rain+snow flux 911 LS_FLXSNW kg/m2/s 31 A ls stratiform gbm interface snow flux 912 REL micron 30 A MG REL stratiform cloud effective radius liquid 913 REI micron 30 A MG REI stratiform cloud effective radius ice 914 LS_REFFRAIN micron 30 A ls stratiform rain effective radius 915 LS_REFFSNOW micron 30 A ls stratiform snow effective radius 916 CV_REFFLIQ micron 30 A convective cloud liq effective radius 917 CV_REFFICE micron 30 A convective cloud ice effective radius 918 MG_SADICE cm2/cm3 30 A MG surface area density ice 919 MG_SADSNOW cm2/cm3 30 A MG surface area density snow 920 QRAIN kg/kg 30 A Diagnostic grid-mean rain mixing ratio 921 QSNOW kg/kg 30 A Diagnostic grid-mean snow mixing ratio 922 NRAIN m-3 30 A Diagnostic grid-mean rain number conc 923 NSNOW m-3 30 A Diagnostic grid-mean snow number conc 924 RERCLD m 30 A Diagnostic effective radius of Liquid Cloud and Rain 925 DSNOW m 30 A Diagnostic grid-mean snow diameter 926 REFL DBz 30 A 94 GHz radar reflectivity 927 AREFL DBz 30 A Average 94 GHz radar reflectivity 928 FREFL fraction 30 A Fractional occurrence of radar reflectivity 929 CSRFL DBz 30 A 94 GHz radar reflectivity (CloudSat thresholds) 930 ACSRFL DBz 30 A Average 94 GHz radar reflectivity (CloudSat thresholds) 931 FCSRFL fraction 30 A Fractional occurrence of radar reflectivity (CloudSat thresholds) 932 AREFLZ mm^6/m^3 30 A Average 94 GHz radar reflectivity 933 NCAL 1/m3 30 A Number Concentation Activated for Liquid 934 NCAI 1/m3 30 A Number Concentation Activated for Ice 935 AQRAIN kg/kg 30 A Average rain mixing ratio 936 AQSNOW kg/kg 30 A Average snow mixing ratio 937 ANRAIN m-3 30 A Average rain number conc 938 ANSNOW m-3 30 A Average snow number conc 939 ADRAIN m 30 A Average rain Diameter 940 ADSNOW m 30 A Average snow Diameter 941 FREQR fraction 30 A Fractional occurrence of rain 942 FREQS fraction 30 A Fractional occurrence of snow 943 PE 1 1 A Stratiform Precipitation Efficiency (precip/cmeliq) 944 APRL m/s 1 A Average Stratiform Precip Rate over efficiency calculation 945 PEFRAC 1 1 A Fraction of timesteps precip efficiency reported 946 VPRCO kg/kg/s 1 A Vertical average of autoconversion rate 947 VPRAO kg/kg/s 1 A Vertical average of accretion rate 948 RACAU kg/kg/s 1 A Accretion/autoconversion ratio from vertical average 949 ICIMRCU kg/kg 30 A Convection in-cloud ice mixing ratio 950 ICLMRCU kg/kg 30 A Convection in-cloud liquid mixing ratio 951 ICIMRTOT kg/kg 30 A Total in-cloud ice mixing ratio 952 ICLMRTOT kg/kg 30 A Total in-cloud liquid mixing ratio 953 GCLMRDP kg/kg 30 A Grid-mean deep convective LWC 954 GCIMRDP kg/kg 30 A Grid-mean deep convective IWC 955 GCLMRSH kg/kg 30 A Grid-mean shallow convective LWC 956 GCIMRSH kg/kg 30 A Grid-mean shallow convective IWC 957 FRESH 1 30 A Fractional occurrence of shallow cumulus with condensate 958 FREDP 1 30 A Fractional occurrence of deep cumulus with condensate 959 FRECU 1 30 A Fractional occurrence of cumulus with condensate 960 FRETOT 1 30 A Fractional occurrence of cloud with condensate 961 SSLTA kg/kg 30 A sea salt 962 SSLTC kg/kg 30 A sea salt 963 TROP_P Pa 1 A Tropopause Pressure 964 TROP_T K 1 A Tropopause Temperature 965 TROP_Z m 1 A Tropopause Height 966 TROP_DZ m 30 A Relative Tropopause Height 967 TROP_PD probability 30 A Tropopause Probabilty 968 TROP_FD probability 1 A Tropopause Found 969 TROPP_P Pa 1 A Tropopause Pressure (primary) 970 TROPP_T K 1 A Tropopause Temperature (primary) 971 TROPP_Z m 1 A Tropopause Height (primary) 972 TROPP_DZ m 30 A Relative Tropopause Height (primary) 973 TROPP_PD probability 30 A Tropopause Distribution (primary) 974 TROPP_FD probability 1 A Tropopause Found (primary) 975 TROPF_P Pa 1 A Tropopause Pressure (cold point) 976 TROPF_T K 1 A Tropopause Temperature (cold point) 977 TROPF_Z m 1 A Tropopause Height (cold point) 978 TROPF_DZ m 30 A Relative Tropopause Height (cold point) 979 TROPF_PD probability 30 A Tropopause Distribution (cold point) 980 TROPF_FD probability 1 A Tropopause Found (cold point) 981 hstobie_trop fraction of mode 30 I Lowest level with stratospheric chemsitry 982 hstobie_linoz fraction of mode 30 I Lowest possible Linoz level 983 hstobie_tropop fraction of mode 30 I Troposphere boundary calculated in chemistry 984 DADADJ_PD probability 30 A dry adiabatic adjustment probability 985 Q_qneg3 kg/kg 30 I Specific humidity QNEG3 error (cell) 986 Q_qneg3_col kg/kg 1 I Specific humidity QNEG3 error (column) 987 CLDLIQ_qneg3 kg/kg 30 I Grid box averaged cloud liquid amount QNEG3 error (cell) 988 CLDLIQ_qneg3_col kg/kg 1 I Grid box averaged cloud liquid amount QNEG3 error (column) 989 CLDICE_qneg3 kg/kg 30 I Grid box averaged cloud ice amount QNEG3 error (cell) 990 CLDICE_qneg3_col kg/kg 1 I Grid box averaged cloud ice amount QNEG3 error (column) 991 NUMLIQ_qneg3 kg/kg 30 I Grid box averaged cloud liquid number QNEG3 error (cell) 992 NUMLIQ_qneg3_col kg/kg 1 I Grid box averaged cloud liquid number QNEG3 error (column) 993 NUMICE_qneg3 kg/kg 30 I Grid box averaged cloud ice number QNEG3 error (cell) 994 NUMICE_qneg3_col kg/kg 1 I Grid box averaged cloud ice number QNEG3 error (column) 995 qflux_exceeded kg/m^2/s 1 I qflux excess (QNEG4) 996 DQP kg/kg/s 30 A Specific humidity tendency due to precipitation intht:nfmaster= 996 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 file 1 contains 105 fields Write frequency: MONTHLY Filename specifier: %c.cam.h%t.%y-%m.nc Output precision: single Number of time samples per file: 1 Fields are represented on global grids: 100 Included fields are: 1 ADRAIN m 30 A Average rain Diameter 2 ADSNOW m 30 A Average snow Diameter 3 AEROD_v 1 1 A Total Aerosol Optical Depth in visible band 4 ANRAIN m-3 30 A Average rain number conc 5 ANSNOW m-3 30 A Average snow number conc 6 AQRAIN kg/kg 30 A Average rain mixing ratio 7 AQSNOW kg/kg 30 A Average snow mixing ratio 8 AREI Micron 30 A Average ice effective radius 9 AREL Micron 30 A Average droplet effective radius 10 AWNC m-3 30 A Average cloud water number conc 11 AWNI m-3 30 A Average cloud ice number conc 12 CCN3 #/cm3 30 A CCN concentration at S=0.1% 13 CDNUMC 1/m2 1 A Vertically-integrated droplet concentration 14 CLDHGH fraction 1 A Vertically-integrated high cloud 15 CLDICE kg/kg 30 A Grid box averaged cloud ice amount 16 CLDLIQ kg/kg 30 A Grid box averaged cloud liquid amount 17 CLDLOW fraction 1 A Vertically-integrated low cloud 18 CLDMED fraction 1 A Vertically-integrated mid-level cloud 19 CLDTOT fraction 1 A Vertically-integrated total cloud 20 CLOUD fraction 30 A Cloud fraction 21 DCQ kg/kg/s 30 A Q tendency due to moist processes 22 DTCOND K/s 30 A T tendency - moist processes 23 DTV K/s 30 A T vertical diffusion 24 FICE fraction 30 A Fractional ice content within cloud 25 FLDS W/m2 1 A Downwelling longwave flux at surface 26 FLNS W/m2 1 A Net longwave flux at surface 27 FLNSC W/m2 1 A Clearsky net longwave flux at surface 28 FLNT W/m2 1 A Net longwave flux at top of model 29 FLNTC W/m2 1 A Clearsky net longwave flux at top of model 30 FLNTCLR W/m2 1 A Clearsky ONLY points net longwave flux at top of model 31 FLUT W/m2 1 A Upwelling longwave flux at top of model 32 FLUTC W/m2 1 A Clearsky upwelling longwave flux at top of model 33 FREQCLR Frac 1 A Frequency of Occurrence of Clearsky 34 FREQI fraction 30 A Fractional occurrence of ice 35 FREQL fraction 30 A Fractional occurrence of liquid 36 FREQR fraction 30 A Fractional occurrence of rain 37 FREQS fraction 30 A Fractional occurrence of snow 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 ICEFRAC fraction 1 A Fraction of sfc area covered by sea-ice 48 ICIMR kg/kg 30 A Prognostic in-cloud ice mixing ratio 49 ICWMR kg/kg 30 A Prognostic in-cloud water mixing ratio 50 IWC kg/m3 30 A Grid box average ice water content 51 LANDFRAC fraction 1 A Fraction of sfc area covered by land 52 LHFLX W/m2 1 A Surface latent heat flux 53 LWCF W/m2 1 A Longwave cloud forcing 54 NUMICE 1/kg 30 A Grid box averaged cloud ice number 55 NUMLIQ 1/kg 30 A Grid box averaged cloud liquid number 56 OCNFRAC fraction 1 A Fraction of sfc area covered by ocean 57 OMEGA Pa/s 30 A Vertical velocity (pressure) 58 OMEGAT K Pa/s 30 A Vertical heat flux 59 PBLH m 1 A PBL height 60 PHIS m2/s2 1 I Surface geopotential 61 PRECC m/s 1 A Convective precipitation rate (liq + ice) 62 PRECL m/s 1 A Large-scale (stable) precipitation rate (liq + ice) 63 PRECSC m/s 1 A Convective snow rate (water equivalent) 64 PRECSL m/s 1 A Large-scale (stable) snow rate (water equivalent) 65 PS Pa 1 A Surface pressure 66 PSL Pa 1 A Sea level pressure 67 Q kg/kg 30 A Specific humidity 68 QFLX kg/m2/s 1 A Surface water flux 69 QREFHT kg/kg 1 A Reference height humidity 70 QRL K/s 30 A Longwave heating rate 71 QRS K/s 30 A Solar heating rate 72 RELHUM percent 30 A Relative humidity 73 RHREFHT fraction 1 A Reference height relative humidity 74 SHFLX W/m2 1 A Surface sensible heat flux 75 SNOWHICE m 1 A Snow depth over ice 76 SNOWHLND m 1 A Water equivalent snow depth 77 SOLIN W/m2 1 A Solar insolation 78 SWCF W/m2 1 A Shortwave cloud forcing 79 T K 30 A Temperature 80 TAUGWX N/m2 1 A Zonal gravity wave surface stress 81 TAUGWY N/m2 1 A Meridional gravity wave surface stress 82 TAUTMSX N/m2 1 A Zonal turbulent mountain surface stress 83 TAUTMSY N/m2 1 A Meridional turbulent mountain surface stress 84 TAUX N/m2 1 A Zonal surface stress 85 TAUY N/m2 1 A Meridional surface stress 86 TGCLDCWP kg/m2 1 A Total grid-box cloud water path (liquid and ice) 87 TGCLDIWP kg/m2 1 A Total grid-box cloud ice water path 88 TGCLDLWP kg/m2 1 A Total grid-box cloud liquid water path 89 TMQ kg/m2 1 A Total (vertically integrated) precipitable water 90 TREFHT K 1 A Reference height temperature 91 TS K 1 A Surface temperature (radiative) 92 TSMN K 1 M Minimum surface temperature over output period 93 TSMX K 1 X Maximum surface temperature over output period 94 U m/s 30 A Zonal wind 95 U10 m/s 1 A 10m wind speed 96 UU m2/s2 30 A Zonal velocity squared 97 V m/s 30 A Meridional wind 98 VD01 kg/kg/s 30 A Vertical diffusion of Q 99 VQ m/skg/kg 30 A Meridional water transport 100 VT K m/s 30 A Meridional heat transport 101 VU m2/s2 30 A Meridional flux of zonal momentum 102 VV m2/s2 30 A Meridional velocity squared 103 WGUSTD m/s 1 A wind gusts from turbulence 104 WSUB m/s 30 A Diagnostic sub-grid vertical velocity 105 Z3 m 30 A Geopotential Height (above sea level) FLDLST: History file 2 contains 20 fields Write frequency: 384 Filename specifier: %c.cam.h%t.%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 FLDS W/m2 1 A Downwelling longwave flux at surface 2 FLNS W/m2 1 A Net longwave flux at surface 3 FLUT W/m2 1 A Upwelling longwave flux at top of model 4 FSDS W/m2 1 A Downwelling solar flux at surface 5 FSNS W/m2 1 A Net solar flux at surface 6 FSNTOA W/m2 1 A Net solar flux at top of atmosphere 7 LHFLX W/m2 1 A Surface latent heat flux 8 OMEGA Pa/s 30 A Vertical velocity (pressure) 9 PRECC m/s 1 A Convective precipitation rate (liq + ice) 10 PRECT m/s 1 A Total (convective and large-scale) precipitation rate (liq + ice) 11 PS Pa 1 A Surface pressure 12 Q kg/kg 30 A Specific humidity 13 QREFHT kg/kg 1 A Reference height humidity 14 SHFLX W/m2 1 A Surface sensible heat flux 15 T K 30 A Temperature 16 TMQ kg/m2 1 A Total (vertically integrated) precipitable water 17 TREFHT K 1 A Reference height temperature 18 TS K 1 A Surface temperature (radiative) 19 U m/s 30 A Zonal wind 20 V m/s 30 A Meridional wind FLDLST: History file 3 contains 13 fields Write frequency: 48 Filename specifier: %c.cam.h%t.%y-%m-%d-%s.nc Output precision: single Number of time samples per file: 8 Fields are represented on global grids: 100 Included fields are: 1 FLNS W/m2 1 A Net longwave flux at surface 2 FSNS W/m2 1 A Net solar flux at surface 3 LHFLX W/m2 1 A Surface latent heat flux 4 OMEGA500 Pa/s 1 A Vertical velocity at 500 mbar pressure surface 5 OMEGA850 Pa/s 1 A Vertical velocity at 850 mbar pressure surface 6 PRECC m/s 1 A Convective precipitation rate (liq + ice) 7 PRECT m/s 1 A Total (convective and large-scale) precipitation rate (liq + ice) 8 PS Pa 1 A Surface pressure 9 QREFHT kg/kg 1 A Reference height humidity 10 SHFLX W/m2 1 A Surface sensible heat flux 11 TMQ kg/m2 1 A Total (vertically integrated) precipitable water 12 TREFHT K 1 A Reference height temperature 13 TS K 1 A Surface temperature (radiative) FLDLST: History file 12 contains 9 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: 102 103 101 Included fields are: 1 CLDICE&IC kg/kg 30 I Grid box averaged cloud ice amount 2 CLDLIQ&IC kg/kg 30 I Grid box averaged cloud liquid amount 3 NUMICE&IC kg/kg 30 I Grid box averaged cloud ice number 4 NUMLIQ&IC kg/kg 30 I Grid box averaged cloud liquid number 5 PS&IC Pa 1 I Surface pressure 6 Q&IC kg/kg 30 I Specific humidity 7 T&IC K 30 I Temperature 8 US&IC m/s 30 I Zonal wind, staggered 9 VS&IC m/s 30 I Meridional wind, staggered FV subcycling - nv, n2, nsplit, dt = 2 1 2 56.2500000000000 ERROR: Because of loop nesting, FV dycore can't use the specified namelist set tings for subcycling The original namelist settings were: fv_nsplit = 4 fv_nspltrac = 1 fv_nspltvrm = 2 fv_nsplit needs to be a multiple of fv_nspltrac which in turn needs to be a multiple of fv_nspltvrm. Suggested settings would be: fv_nsplit = 4 fv_nspltrac = 2 fv_nspltvrm = 2 ERROR: Bad namelist settings for FV subcycling.