======================================================================== I/O: io_nml namelist settings: &IO_NML NUM_IOTASKS = 1, LREDIRECT_STDOUT = T, LOG_FILENAME = /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/ocn.log.161011-153942 , LUSE_POINTER_FILES = T, POINTER_FILENAME = rpointer.ocn , LUSE_NF_64BIT_OFFSET = T / ======================================================================== Context: context_nml namelist settings: &CONTEXT_NML LCOUPLED = T, LCCSM = T, B4B_FLAG = F, LCCSM_CONTROL_COMPATIBLE = F / ======================================================================== Parallel Ocean Program (POP) Based on Version 2.1alpha Jan 2005 Modified for CESM 2005-2010 ======================================================================== Overflows: overflows_nml namelist settings: &OVERFLOWS_NML OVERFLOWS_ON = T, OVERFLOWS_INTERACTIVE = T, OVERFLOWS_INFILE = /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/gx1v6_overflow , OVERFLOWS_DIAG_OUTFILE = /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/./b.e15.B1850.f09_g16.pi_control.all.119. pop.do , OVERFLOWS_RESTART_TYPE = ccsm_continue , OVERFLOWS_RESTFILE = ./b.e15.B1850.f09_g16.pi_control.all.119.pop.ro / Reading overflow pointer file: rpointer.ocn.ovf ovf_read_restart unit (mu) = 97 file name = ./b.e15.B1850.f09_g16.pi_control.all.119.pop.ro.0070-01-01-00000 ovf read restart label = ! Overflow Restart File for yyyymmdd =00700101 number of overflows = 4 ------------------------------------------------------------------------ Domain Information ------------------------------------------------------------------------ Horizontal domain: nx = 320 ny = 384 Vertical domain: km = 60 Number of tracers: nt = 30 Block size: nx_block = 20 ny_block = 28 max_blocks_clinic = 2 max_blocks_tropic = 2 Processors for baroclinic: 160 Processors for barotropic: 160 Distribution for baroclinic: cartesian Distribution for barotropic: cartesian Number of ghost cells: 2 ======================================================================== Grid: grid_nml namelist settings: &GRID_NML HORIZ_GRID_OPT = file , VERT_GRID_OPT = file , TOPOGRAPHY_OPT = file , HORIZ_GRID_FILE = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/grid/horiz_grid_20010402.ieeer8 , VERT_GRID_FILE = /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/gx1v6_vert_grid , TOPOGRAPHY_FILE = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/grid/topography_20090204.ieeei4 , TOPOGRAPHY_OUTFILE = ./b.e15.B1850.f09_g16.pi_control.all.119.pop.h.topography_bathymetry.ieeer8 , BATHYMETRY_FILE = unknown_bathymetry , N_TOPO_SMOOTH = 0, FLAT_BOTTOM = F, LREMOVE_POINTS = F, REGION_MASK_FILE = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/grid/region_mask_20090205.ieeei4 , REGION_INFO_FILE = /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/gx1v6_region_ids , SFC_LAYER_OPT = varthick , PARTIAL_BOTTOM_CELLS = F, BOTTOM_CELL_FILE = unknown_bottom_cell , KMT_KMIN = 3, LCONST_CORIOLIS = F, L1DDYN = F / &POP1D_NML LIDENTICAL_COLUMNS = F, LCONST_CORIOLIS = F, LMIN_CORIOLIS = F, CORIOLIS_MIN = 6.400000000000000E-006, CORIOLIS_VAL = 1.000000000000000E-004, GLOBAL_TAUX = 0.100000000000000 , GLOBAL_SHF_COEF = -100.000000000000 / Active Ocean blocks: 293 Reading topography from file:/glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/grid/topography_20090204.ieeei4 init_overflows_kmt: KMT = 36 at global (i,j) = 5 9 changed to 35 init_overflows_kmt: KMT = 36 at global (i,j) = 6 9 changed to 35 init_overflows_kmt: KMT = 36 at global (i,j) = 7 9 changed to 35 init_overflows_kmt: KMT = 36 at global (i,j) = 8 9 changed to 35 Overflow: Weddell Sea Source region mask at global (ij)= 5 6 Overflow: Weddell Sea Source region mask at global (ij)= 6 6 Overflow: Weddell Sea Source region mask at global (ij)= 7 6 Overflow: Weddell Sea Source region mask at global (ij)= 8 6 Overflow: Weddell Sea Source region mask at global (ij)= 5 7 Overflow: Weddell Sea Source region mask at global (ij)= 6 7 Overflow: Weddell Sea Source region mask at global (ij)= 7 7 Overflow: Weddell Sea Source region mask at global (ij)= 8 7 Overflow: Weddell Sea Source region mask at global (ij)= 5 8 Overflow: Weddell Sea Source region mask at global (ij)= 6 8 Overflow: Weddell Sea Source region mask at global (ij)= 7 8 Overflow: Weddell Sea Source region mask at global (ij)= 8 8 Overflow: Weddell Sea Source adjacent mask at global (ij)= 5 8 Overflow: Weddell Sea Source adjacent mask at global (ij)= 6 8 Overflow: Weddell Sea Source adjacent mask at global (ij)= 7 8 Overflow: Weddell Sea Source adjacent mask at global (ij)= 8 8 Overflow: Weddell Sea Inflow region mask at global (ij)= 5 10 Overflow: Weddell Sea Inflow region mask at global (ij)= 6 10 Overflow: Weddell Sea Inflow region mask at global (ij)= 7 10 Overflow: Weddell Sea Inflow region mask at global (ij)= 8 10 Overflow: Weddell Sea Inflow region mask at global (ij)= 5 11 Overflow: Weddell Sea Inflow region mask at global (ij)= 6 11 Overflow: Weddell Sea Inflow region mask at global (ij)= 7 11 Overflow: Weddell Sea Inflow region mask at global (ij)= 8 11 Overflow: Weddell Sea Entrainment region mask at global (ij)= 1 11 Overflow: Weddell Sea Entrainment region mask at global (ij)= 2 11 Overflow: Weddell Sea Entrainment region mask at global (ij)= 3 11 Overflow: Weddell Sea Entrainment adjacent mask at global (ij)= 1 11 Overflow: Weddell Sea Entrainment adjacent mask at global (ij)= 2 11 Overflow: Weddell Sea Entrainment adjacent mask at global (ij)= 3 11 Overflow: Weddell Sea Inflow region mask at global (ij)= 5 12 Overflow: Weddell Sea Inflow region mask at global (ij)= 6 12 Overflow: Weddell Sea Inflow region mask at global (ij)= 7 12 Overflow: Weddell Sea Inflow region mask at global (ij)= 8 12 Overflow: Weddell Sea Entrainment region mask at global (ij)= 1 12 Overflow: Weddell Sea Entrainment region mask at global (ij)= 2 12 Overflow: Weddell Sea Entrainment region mask at global (ij)= 3 12 Overflow: Weddell Sea Inflow region mask at global (ij)= 5 13 Overflow: Weddell Sea Inflow region mask at global (ij)= 6 13 Overflow: Weddell Sea Inflow region mask at global (ij)= 7 13 Overflow: Weddell Sea Inflow region mask at global (ij)= 8 13 Overflow: Weddell Sea Entrainment region mask at global (ij)= 1 13 Overflow: Weddell Sea Entrainment region mask at global (ij)= 2 13 Overflow: Weddell Sea Entrainment region mask at global (ij)= 3 13 ------------------------------------------------------------------------ Grid options Reading horizontal grid from file: /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/grid/horiz_grid_20010402.ieeer8 Using variable thickness surface layer Reading vertical grid from file: /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/gx1v6_vert_gri d Vertical grid: k Thickness (cm) Depth (cm) --- -------------- ------------ 1 1.00000E+03 5.00000E+02 2 1.00000E+03 1.50000E+03 3 1.00000E+03 2.50000E+03 4 1.00000E+03 3.50000E+03 5 1.00000E+03 4.50000E+03 6 1.00000E+03 5.50000E+03 7 1.00000E+03 6.50000E+03 8 1.00000E+03 7.50000E+03 9 1.00000E+03 8.50000E+03 10 1.00000E+03 9.50000E+03 11 1.00000E+03 1.05000E+04 12 1.00000E+03 1.15000E+04 13 1.00000E+03 1.25000E+04 14 1.00000E+03 1.35000E+04 15 1.00000E+03 1.45000E+04 16 1.00000E+03 1.55000E+04 17 1.01968E+03 1.65098E+04 18 1.05645E+03 1.75479E+04 19 1.10600E+03 1.86291E+04 20 1.16781E+03 1.97660E+04 21 1.24241E+03 2.09711E+04 22 1.33097E+03 2.22578E+04 23 1.43514E+03 2.36409E+04 24 1.55713E+03 2.51370E+04 25 1.69968E+03 2.67654E+04 26 1.86621E+03 2.85484E+04 27 2.06090E+03 3.05119E+04 28 2.28885E+03 3.26868E+04 29 2.55625E+03 3.51093E+04 30 2.87057E+03 3.78228E+04 31 3.24084E+03 4.08785E+04 32 3.67777E+03 4.43378E+04 33 4.19403E+03 4.82737E+04 34 4.80422E+03 5.27728E+04 35 5.52475E+03 5.79373E+04 36 6.37319E+03 6.38863E+04 37 7.36694E+03 7.07563E+04 38 8.52089E+03 7.87002E+04 39 9.84366E+03 8.78825E+04 40 1.13325E+04 9.84706E+04 41 1.29672E+04 1.10620E+05 42 1.47053E+04 1.24457E+05 43 1.64807E+04 1.40050E+05 44 1.82091E+04 1.57395E+05 45 1.98022E+04 1.76400E+05 46 2.11860E+04 1.96894E+05 47 2.23165E+04 2.18646E+05 48 2.31865E+04 2.41397E+05 49 2.38194E+04 2.64900E+05 50 2.42572E+04 2.88938E+05 51 2.45468E+04 3.13340E+05 52 2.47310E+04 3.37979E+05 53 2.48443E+04 3.62767E+05 54 2.49120E+04 3.87645E+05 55 2.49513E+04 4.12577E+05 56 2.49736E+04 4.37539E+05 57 2.49860E+04 4.62519E+05 58 2.49927E+04 4.87508E+05 59 2.49962E+04 5.12503E+05 60 2.49981E+04 5.37500E+05 Partial bottom cells disabled # surface (T,U) points 86212 83047 # ocean (T,U) points 4247887 4072855 T-area, U-area (km^2) 3.611401902571858E+08 3.493125918041779E+08 T-volume, U-volume (km^3) 1.325140287265679E+09 1.252749733593950E+09 Region masks initialized from file: /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/grid/region_mask_20090205.ieeei4 Region # 5 is a marginal sea area (km^2) = 0.46932E+06 volume (km^3) = 0.15828E+06 Region #12 is a marginal sea area (km^2) = 0.36793E+06 volume (km^3) = 0.18857E+05 Region #13 is a marginal sea area (km^2) = 0.41826E+06 volume (km^3) = 0.55031E+06 Region #14 is a marginal sea area (km^2) = 0.62852E+06 volume (km^3) = 0.18856E+05 +-----------------------+ | Marginal Seas Only | Region Region | Area Volume | Number Name | (km^2) (km^3) | ------ ------------------- ----------- ----------- 1 Southern Ocean 2 Pacific Ocean 3 Indian Ocean 4 Persian Gulf -5 Red Sea 4.69319E+05 1.58282E+05 6 Atlantic Ocean 7 Mediterranean Sea 8 Labrador Sea 9 GIN Sea 10 Arctic Ocean 11 Hudson Bay -12 Baltic Sea 3.67925E+05 1.88573E+04 -13 Black Sea 4.18260E+05 5.50313E+05 -14 Caspian Sea 6.28518E+05 1.88555E+04 Marginal Sea (E+P+M+R) Balancing Information Region Region Bal. Bal. Search Number Name Lat Lon Area (cm^2) ------ ------------------- ------ ------ ----------- -5 Red Sea 14.00 47.00 3.00000E+15 -12 Baltic Sea 56.00 8.00 3.00000E+15 -13 Black Sea 40.00 25.00 3.00000E+15 -14 Caspian Sea 70.00 65.00 3.00000E+15 ======================================================================== Time Management: time_manager_nml namelist settings: &TIME_MANAGER_NML RUNID = b.e15.B1850.f09_g16.pi_control.all.119 , TIME_MIX_OPT = avgfit , TIME_MIX_FREQ = 17, IMPCOR = T, LACCEL = F, ACCEL_FILE = /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/gx1v6_depth_accel , DTUXCEL = 1.00000000000000 , IYEAR0 = 1, IMONTH0 = 1, IDAY0 = 1, IHOUR0 = 2, IMINUTE0 = 0, ISECOND0 = 0, DT_OPTION = steps_per_day , DT_COUNT = 23.0000000000000 , STOP_OPTION = nyear , STOP_COUNT = 1000, DATE_SEPARATOR = -, ALLOW_LEAPYEAR = F, FIT_FREQ = 12, ROBERT_ALPHA = 0.530000000000000 , ROBERT_NU = 0.200000000000000 / (init_time1) fullsteps_per_interval was adjusted to avoid ending interval on half step The following information documents the time-step distribution for one full model day. time_mix_freq = 17 intervals per day = 12 fullsteps_per_interval = 2 halfsteps_per_interval = 1 nsteps_per_interval = 3 fullsteps_per_day = 24 halfsteps_per_day = 12 nsteps_per_day = 36 Step Full/ Time in Number Half Seconds 1 F 2880.000000000000000 2 H 4320.000000000000000 3 F 7200.000000000000000 <-- LAST STEP in coupling interval 1 hour, min, sec at end of interval = 2 0 0 4 F 10080.000000000000000 5 H 11520.000000000000000 6 F 14400.000000000000000 <-- LAST STEP in coupling interval 2 hour, min, sec at end of interval = 4 0 0 7 F 17280.000000000000000 8 H 18720.000000000000000 9 F 21600.000000000000000 <-- LAST STEP in coupling interval 3 hour, min, sec at end of interval = 6 0 0 10 F 24480.000000000000000 11 H 25920.000000000000000 12 F 28800.000000000000000 <-- LAST STEP in coupling interval 4 hour, min, sec at end of interval = 8 0 0 13 F 31680.000000000000000 14 H 33120.000000000000000 15 F 36000.000000000000000 <-- LAST STEP in coupling interval 5 hour, min, sec at end of interval = 10 0 0 16 F 38880.000000000000000 17 H 40320.000000000000000 18 F 43200.000000000000000 <-- LAST STEP in coupling interval 6 hour, min, sec at end of interval = 12 0 0 19 F 46080.000000000000000 20 H 47520.000000000000000 21 F 50400.000000000000000 <-- LAST STEP in coupling interval 7 hour, min, sec at end of interval = 14 0 0 22 F 53280.000000000000000 23 H 54720.000000000000000 24 F 57600.000000000000000 <-- LAST STEP in coupling interval 8 hour, min, sec at end of interval = 16 0 0 25 F 60480.000000000000000 26 H 61920.000000000000000 27 F 64800.000000000000000 <-- LAST STEP in coupling interval 9 hour, min, sec at end of interval = 18 0 0 28 F 67680.000000000000000 29 H 69120.000000000000000 30 F 72000.000000000000000 <-- LAST STEP in coupling interval 10 hour, min, sec at end of interval = 20 0 0 31 F 74880.000000000000000 32 H 76320.000000000000000 33 F 79200.000000000000000 <-- LAST STEP in coupling interval 11 hour, min, sec at end of interval = 22 0 0 34 F 82080.000000000000000 35 H 83520.000000000000000 36 F 86400.000000000000000 <-- LAST STEP in day hour, min, sec at end of interval = 0 0 0 ======================================================================== Equation of state options ------------------------------------------------------------------------ Using McDougall, Wright ,Jackett and Feistel EOS EOS computed as if in valid T,S range ======================================================================== Topographic stress options ------------------------------------------------------------------------ Topographic stress disabled ======================================================================== NIW mixing information niw_nml namelist settings: &NIW_NML LNIW_MIXING = F, NIW_BOUNDARY_LAYER_ABSORPTION = 0.700000000000000 , NIW_LOCAL_MIXING_FRACTION = 0.500000000000000 , NIW_MIXING_EFFICIENCY = 0.200000000000000 , NIW_OBS2MODEL_RATIO = 2.00000000000000 , NIW_VERT_DECAY_SCALE = 200000.000000000 , NIW_MIX_MAX = 100.000000000000 , NIW_ENERGY_TYPE = blke , NIW_ENERGY_FILE = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/niw_gx1v6_20100915.ieeer8 , NIW_ENERGY_FILE_FMT = bin / lniw_mixing F niw_boundary layer absorp 7.00000E-01 niw_local_mixing_fraction 5.00000E-01 niw_mixing_efficiency 2.00000E-01 niw_obs2model_ratio 2.00000E+00 niw_vert_decay_scale 2.00000E+05 niw_mix_max 1.00000E+02 niw_energy_type blke niw_energy_file /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/niw_gx1v6_20100915.ieeer8 niw_energy_file_fmt bin ======================================================================== Tidal mixing information tidal_nml namelist settings: &TIDAL_NML LTIDAL_MIXING = T, LOCAL_MIXING_FRACTION = 0.330000000000000 , MIXING_EFFICIENCY = 0.200000000000000 , VERTICAL_DECAY_SCALE = 50000.0000000000 , TIDAL_ENERGY_FILE = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/tidal_energy_gx1v6_20090205.ieeer8 , TIDAL_MIX_MAX = 100.000000000000 , TIDAL_ENERGY_FILE_FMT = bin / ltidal_mixing = T local_mixing_fraction = 3.30000E-01 mixing_efficiency = 2.00000E-01 vertical_decay_scale = 5.00000E+04 tidal_energy_file = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/tidal_energy_gx1v6_200902 WARNING: Input header file does not exist for file: /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/tidal_energy_gx1v6_20090 205.ieeer8.hdr Assuming fields will be read in sequential order file read: /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/tidal_energy_gx1v6_20090 205.ieeer8 ------------------------------------------------------------------------ Solver options (barotropic solver) ------------------------------------------------------------------------ Solver choice: PCSI Solver converged for err < 1.000000000000000E-13 Solver maximum iterations: 1000 Lanczos converged for err < 1.500000000000000E-01 Maximum Lanczos step 100 iterations Check convergence start from 60 iterations Check convergence every 10 iterations Preconditioner choice: evp EVP block distribution 2 10 18 2 10 18 26 ======================================================================== Pressure gradient options ------------------------------------------------------------------------ Pressure averaging enabled Density correction disabled ======================================================================== Baroclinic: baroclinic_nml namelist settings: &BAROCLINIC_NML RESET_TO_FREEZING = F / ------------------------------------------------------------------------ Baroclinic options ------------------------------------------------------------------------ Surface temperature reset to freezing off define_tavg_field: id = 1 UDP define_tavg_field: id = 2 U1_1 define_tavg_field: id = 3 V1_1 define_tavg_field: id = 4 U1_8 define_tavg_field: id = 5 V1_8 define_tavg_field: id = 6 T1_8 define_tavg_field: id = 7 S1_8 define_tavg_field: id = 8 UVEL define_tavg_field: id = 9 UVEL2 define_tavg_field: id = 10 VVEL define_tavg_field: id = 11 VVEL2 define_tavg_field: id = 12 KE define_tavg_field: id = 13 TEMP define_tavg_field: id = 14 TEMP_MAX define_tavg_field: id = 15 TEMP_MIN define_tavg_field: id = 16 dTEMP_POS_3D define_tavg_field: id = 17 dTEMP_POS_2D define_tavg_field: id = 18 dTEMP_NEG_3D define_tavg_field: id = 19 dTEMP_NEG_2D define_tavg_field: id = 20 SST define_tavg_field: id = 21 SST2 define_tavg_field: id = 22 SALT define_tavg_field: id = 23 SALT_MAX define_tavg_field: id = 24 SALT_MIN define_tavg_field: id = 25 TEMP2 define_tavg_field: id = 26 SALT2 define_tavg_field: id = 27 ST define_tavg_field: id = 28 RHO define_tavg_field: id = 29 RHO_VINT define_tavg_field: id = 30 UV define_tavg_field: id = 31 RESID_T define_tavg_field: id = 32 RESID_S define_tavg_field: id = 33 SU define_tavg_field: id = 34 SV define_tavg_field: id = 35 SSH define_tavg_field: id = 36 SSH2 define_tavg_field: id = 37 H3 ------------------------------------------------------------------------ Solver Preprocessing (barotropic solver) ------------------------------------------------------------------------ Solver EVP preconditioning START PROC 0 EVP blocks : 6 land blocks : 3 PROC 0 EVP blocks : 6 land blocks : 5 Solver EVP preconditioning END Lanczos steps 10 eigs: 0.2945797E-01 0.3839117E+01 Lanczos steps 20 eigs: 0.1610469E-01 0.3839117E+01 Lanczos steps 30 eigs: 0.1143219E-01 0.3856452E+01 Lanczos steps 40 eigs: 0.8986452E-02 0.3856452E+01 Lanczos steps 50 eigs: 0.7936692E-02 0.3856452E+01 LANCZOS EIGS: 7.936692359642419E-003 3.85645165541311 ======================================================================== Ice: ice_nml namelist settings: &ICE_NML KMXICE = 1, ICE_FREQ_OPT = coupled , ICE_FREQ = 100000, LACTIVE_ICE = T, LICECESM2 = T / ------------------------------------------------------------------------ Ice formation computed every time steps Ice salinity(ppt) = 4.000E+00 Ice formation computed in top 1 levels only. CESM2 calculates ice formation every time step ======================================================================== Initial T,S: init_ts_nml namelist settings: &INIT_TS_NML INIT_TS_OPTION = ccsm_continue , INIT_TS_FILE = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/ic/ts_PHC2_jan_ic_gx1v6_20090205.ieeer8 , INIT_TS_FILE_FMT = nc , INIT_TS_SUBOPTION = null , INIT_TS_OUTFILE = ./b.e15.B1850.f09_g16.pi_control.all.119.pop.h.ts_ic , INIT_TS_OUTFILE_FMT = nc / In this case, the init_ts_file name will be read from the pointer file. Reading pointer file: rpointer.ocn.restart file read: ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc ======================================================================== Time Information ------------------------------------------------------------------------ Run id: b.e15.B1850.f09_g16.pi_control.all.119 This simulation started from date(month-day-year): 01-01-0001 hour: 2 minute: 0 second: 0 This run started from date(month-day-year): 01-01-0070 hour: 0 minute: 0 second: 0 step: 906657 This run will terminate at 00:00:00 on date(month-day-year): 01-01-1070 after running for 1000 years unless a stop signal is received from external source (eg, cpl) Starting elapsed time in years: 69.000 months: 828.000 days: 25185.000 hours: 604440.000 seconds: 2175984000.000 Automatic time step option (auto_dt) disabled dt_count = 2.300000E+01 There are 24 full steps each day There are 12 half steps each day There are 36 total steps each day time_mix_freq = 17 Time mixing option: avgfit -- time averaging with timestep chosen to fit exactly into one day or coupling interval Averaging time steps at the 2nd and 17th step of every day or coupled interval Surface tracer time step = 2.880000E+03 seconds Surface momentum time step = 2.880000E+03 seconds Surface barotropic time step = 2.880000E+03 seconds Tracer acceleration disabled Leap years not allowed Implicit treatment of Coriolis terms (impcor): ON ======================================================================== Forcing options ------------------------------------------------------------------------ No Surface Wind Stress No Surface Heat Flux No Surface Fresh Water Flux Fresh water flux input as virtual salt flux No Interior Potential Temperature Forcing No Interior Salinity Forcing No Surface Atmospheric Pressure define_tavg_field: id = 38 SHF define_tavg_field: id = 39 SHF_QSW define_tavg_field: id = 40 SFWF define_tavg_field: id = 41 SFWF_WRST define_tavg_field: id = 42 TAUX define_tavg_field: id = 43 TAUX2 define_tavg_field: id = 44 TAUY define_tavg_field: id = 45 TAUY2 define_tavg_field: id = 46 FW define_tavg_field: id = 47 TFW_T define_tavg_field: id = 48 TFW_S define_tavg_field: id = 49 U10_SQR define_tavg_field: id = 50 DUST_FLUX_CPL define_tavg_field: id = 51 BLACK_CARBON_FLUX_CPL ======================================================================== Coupling: coupled_nml namelist settings: &COUPLED_NML COUPLED_FREQ_OPT = nhour , COUPLED_FREQ = 2, QSW_DISTRB_OPT = cosz / define_tavg_field: id = 52 EVAP_F define_tavg_field: id = 53 PREC_F define_tavg_field: id = 54 SNOW_F define_tavg_field: id = 55 MELT_F define_tavg_field: id = 56 ROFF_F define_tavg_field: id = 57 IOFF_F define_tavg_field: id = 58 SALT_F define_tavg_field: id = 59 SENH_F define_tavg_field: id = 60 LWUP_F define_tavg_field: id = 61 LWDN_F define_tavg_field: id = 62 MELTH_F define_tavg_field: id = 63 IFRAC ======================================================================== MCOG information mcog_nml namelist settings: &MCOG_NML LMCOG = T, LMCOG_DEBUG = F, MCOG_DAGG_QSW_ABORT_THRES = 1.000000000000000E-010, MCOG_COL_TO_BIN = 1, 2, 3, 4, 5, 6 / (init_mcog) mcog_nbins = 6 define_tavg_field: id = 64 FRAC_BIN_01 define_tavg_field: id = 65 FRACR_BIN_01 define_tavg_field: id = 66 QSW_BIN_01 define_tavg_field: id = 67 FRAC_BIN_02 define_tavg_field: id = 68 FRACR_BIN_02 define_tavg_field: id = 69 QSW_BIN_02 define_tavg_field: id = 70 FRAC_BIN_03 define_tavg_field: id = 71 FRACR_BIN_03 define_tavg_field: id = 72 QSW_BIN_03 define_tavg_field: id = 73 FRAC_BIN_04 define_tavg_field: id = 74 FRACR_BIN_04 define_tavg_field: id = 75 QSW_BIN_04 define_tavg_field: id = 76 FRAC_BIN_05 define_tavg_field: id = 77 FRACR_BIN_05 define_tavg_field: id = 78 QSW_BIN_05 define_tavg_field: id = 79 FRAC_BIN_06 define_tavg_field: id = 80 FRACR_BIN_06 define_tavg_field: id = 81 QSW_BIN_06 se_nml namelist settings: &SE_NML LCHANGE_ANS = T / Document Namelist Parameters: ============================ &PASSIVE_TRACERS_ON_NML ECOSYS_ON = T, CFC_ON = F, SF6_ON = F, IAGE_ON = T, MOBY_ON = F, ABIO_DIC_DIC14_ON = F, CISO_ON = F, IRF_ON = F / ------------------------------------------------------------------------ ECOSYS_DRIVER ind_begin = 3 ECOSYS_DRIVER ind_end = 29 ------------------------------------------------------------------------ ------------------------------------------------------------------------ IAGE ind_begin = 30 IAGE ind_end = 30 ------------------------------------------------------------------------ Read 'pop_in' until EOF. ecosys_driver:ecosys_driver_init: Read buffer of 20067 characters. If it looks like part of the namelist is missing, compare the number of characters read to the actual size of your file ($ wc -c pop2_in) and increase the buffer size if necessary. ======================================================================== ecosys_driver: ecosys_driver_nml namelist settings: &ECOSYS_DRIVER_NML LMARGINAL_SEAS = T, ECOSYS_TADVECT_CTYPE = base_model , ECOSYS_QSW_DISTRB_CONST = F, SURF_AVG_ALK_CONST = 2225.00000000000 , SURF_AVG_DIC_CONST = 1944.00000000000 , SURF_AVG_DI13C_CONST = 1944.00000000000 , SURF_AVG_DI14C_CONST = 1944.00000000000 / ------------------------------------------------------------------------ Contents of ecosys_nml: &ecosys_nml alk_riv_flux_input%filename = '/glade/p/ce sm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_ c150702.nc' atm_alt_co2_const = 284.7 atm_alt_co2_opt = 'const' atm_co2_cons t = 284.7 atm_co2_opt = 'drv_diag' caco3_bury_thres_depth = 3000.0e2 caco3_b ury_thres_opt = 'omega_calc' dfe_riv_flux_input%filename = '/glade/p/cesm/bgcw g/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702 .nc' dic_riv_flux_input%filename = '/glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forc ing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702.nc' din_riv_flux_input %filename = '/glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrient s_GNEWS2000_gx1v6_no_ms_c150702.nc' dip_riv_flux_input%filename = '/glade/p/ce sm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_ c150702.nc' doc_riv_flux_input%filename = '/glade/p/cesm/bgcwg/forcing/BEC_gx1 v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702.nc' don_riv_flu x_input%filename = '/glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_n utrients_GNEWS2000_gx1v6_no_ms_c150702.nc' dop_riv_flux_input%filename = '/gla de/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6 _no_ms_c150702.nc' dsi_riv_flux_input%filename = '/glade/p/cesm/bgcwg/forcing/ BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702.nc' dust _flux_input%file_fmt = 'nc' dust_flux_input%file_varname = 'DSTSF' dust_flux_ input%filename = '/glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/dst79gnx_ gx1v6_090416_no_ms_c150702.nc' dust_flux_input%scale_factor = 1.0e-1 dust_flu x_source = 'monthly-calendar' fesedflux_input%file_fmt = 'nc' fesedflux_input %file_varname = 'FESEDFLUXIN' fesedflux_input%filename = '/glade/p/cesm/bgcwg/ forcing/BEC_gx1v6_forcing_no_ms/fesedflux_gx1v6_etopo2v2_Nov2015_vents_no_ms_c1 51218.nc' fesedflux_input%scale_factor = 1.1574e-6 gas_flux_forcing_opt = 'dr v' init_ecosys_init_file = 'same_as_TS' init_ecosys_init_file_fmt = 'nc' ini t_ecosys_option = 'ccsm_continue' iron_flux_input%file_fmt = 'nc' iron_flux_i nput%file_varname = 'DSTSF' iron_flux_input%filename = '/glade/p/cesm/bgcwg/fo rcing/BEC_gx1v6_forcing_no_ms/solFe_scenario4_current_gx1v6_no_ms_c150702.nc' iron_flux_input%scale_factor = 1.79e6 iron_flux_source = 'monthly-calendar' i ron_frac_in_bc = 0.06 iron_frac_in_dust = 0.00035 lecovars_full_depth_tavg = .false. lflux_gas_co2 = .true. lflux_gas_o2 = .true. lsource_sink = .true. ndep_data_type = 'monthly-calendar' nhy_flux_monthly_input%file_fmt = 'nc' nh y_flux_monthly_input%file_varname = 'NHx_deposition' nhy_flux_monthly_input%fi lename = '/glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/ndep_ocn_1850_gx1 v6_no_ms_c150702.nc' nhy_flux_monthly_input%scale_factor = 7.1429e+06 nox_flu x_monthly_input%file_fmt = 'nc' nox_flux_monthly_input%file_varname = 'NOy_dep osition' nox_flux_monthly_input%filename = '/glade/p/cesm/bgcwg/forcing/BEC_gx 1v6_forcing_no_ms/ndep_ocn_1850_gx1v6_no_ms_c150702.nc' nox_flux_monthly_input %scale_factor = 7.1429e+06 pon_bury_coeff = 0.5 / Contents of ecosys_parms_nml: &ecosys_parms_nml autotrophs(1)%kdop = 0.2 autotrophs(1)%kfe = 0.03e-3 autotrophs(1)%knh4 = 0.0125 autotrophs(1)%kno3 = 0.25 autotrophs(1)%kpo4 = 0.01 autotrophs(1)%ksio3 = 0.0 autotrop hs(1)%sname = 'sp' autotrophs(2)%kdop = 0.5 autotrophs(2)%kfe = 0.07e-3 autotrophs(2)%knh4 = 0.05 autotrophs(2)%kno3 = 1.0 autotrophs(2)%kpo4 = 0.05 autotrophs(2)%ksio3 = 0.8 autotrophs(2)%sname = 'diat' autotro phs(3)%kdop = 0.05 autotrophs(3)%kfe = 0.03e-3 autotrophs(3)%knh4 = 0.4 autotrophs(3)%kno3 = 4.0 autotrophs(3)%kpo4 = 0.0125 autotrophs(3)%ks io3 = 0.0 autotrophs(3)%sname = 'diaz' fe_max_scale2 = 2200 grazing(1,1) %auto_ind = 1 grazing(1,1)%auto_ind_cnt = 1 grazing(1,1 )%f_zoo_detr = 0.1 grazing(1,1)%graze_doc = 0.06 grazing(1,1 )%graze_poc = 0.0 grazing(1,1)%graze_zoo = 0.3 grazing(1,1) %grazing_function = 1 grazing(1,1)%sname = 'grz_sp_zoo' grazing(1, 1)%z_grz = 1.15 grazing(1,1)%z_umax_0 = 3.76157e-05 grazing(1,1)%zoo _ind = -1 grazing(1,1)%zoo_ind_cnt = 0 grazing(2,1)%auto _ind = 2 grazing(2,1)%auto_ind_cnt = 1 grazing(2,1)%f _zoo_detr = 0.2 grazing(2,1)%graze_doc = 0.06 grazing(2,1) %graze_poc = 0.4 grazing(2,1)%graze_zoo = 0.3 grazing(2,1 )%grazing_function = 1 grazing(2,1)%sname = 'grz_diat_zoo' grazin g(2,1)%z_grz = 1.15 grazing(2,1)%z_umax_0 = 3.35648e-05 grazing(2, 1)%zoo_ind = -1 grazing(2,1)%zoo_ind_cnt = 0 grazing(3 ,1)%auto_ind = 3 grazing(3,1)%auto_ind_cnt = 1 grazin g(3,1)%f_zoo_detr = 0.1 grazing(3,1)%graze_doc = 0.06 graz ing(3,1)%graze_poc = 0.08 grazing(3,1)%graze_zoo = 0.3 gra zing(3,1)%grazing_function = 1 grazing(3,1)%sname = 'grz_diaz_zoo' grazing(3,1)%z_grz = 1.15 grazing(3,1)%z_umax_0 = 2.14120e-05 gr azing(3,1)%zoo_ind = -1 grazing(3,1)%zoo_ind_cnt = 0 p arm_bsibury = 1.0 parm_caco3_diss = 450.0e2 parm_f_prod_sp_caco3 = 0.065 par m_fe_bioavail = 1.0 parm_fe_scavenge_rate0 = 1.9 parm_kappa_nitri f = 6.9444e-07 parm_labile_ratio = 0.94 parm_nitrif_par_lim = 1.0 parm_o2_min = 5.0 parm_o2_min_delta = 5.0 parm_poc_diss = 90.0e2 parm_pombury = 1.1 parm_scalelen_vals = 1.0 , 3.3, 4.6, 5.0 parm_scalelen_z = 100.0e2, 250.0e2, 500.0e2, 750 .0e2 parm_sio2_diss = 600.0e2 zooplankton(1)%loss_thres = 0.075 zooplankton (1)%sname = 'zoo' zooplankton(1)%z_mort2_0 = 4.62963e-06 zooplankton(1 )%z_mort_0 = 1.15741e-06 / ----- zooplankton tracer indices ----- C_ind(zoo) = 16 ----- autotroph tracer indices ----- Chl_ind(sp) = 17 C_ind(sp) = 18 Fe_ind(sp) = 19 Si_ind(sp) = 0 CaCO3_ind(sp) = 20 Chl_ind(diat) = 21 C_ind(diat) = 22 Fe_ind(diat) = 23 Si_ind(diat) = 24 CaCO3_ind(diat) = 0 Chl_ind(diaz) = 25 C_ind(diaz) = 26 Fe_ind(diaz) = 27 Si_ind(diaz) = 0 CaCO3_ind(diaz) = 0 MARBL has defined 27 tracers. General tracers: 1 to 27 Adding driver forcing_field_type for surface_mask Adding driver forcing_field_type for u10_sqr Adding driver forcing_field_type for sst Adding driver forcing_field_type for sss Adding driver forcing_field_type for xco2 Adding constant forcing_field_type for xco2_alt_co2 Adding driver forcing_field_type for Ice Fraction Adding driver forcing_field_type for Piston Velocity Adding driver forcing_field_type for Atmospheric Pressure Adding calendar forcing_field_type for Dust Flux Adding calendar forcing_field_type for Iron Flux Adding calendar forcing_field_type for NOx Flux Adding calendar forcing_field_type for NHy Flux Adding calendar forcing_field_type for DIN river flux Adding calendar forcing_field_type for DIP river flux Adding calendar forcing_field_type for DON river flux Adding calendar forcing_field_type for DOP river flux Adding calendar forcing_field_type for DSI river flux Adding calendar forcing_field_type for DFE river flux Adding calendar forcing_field_type for DIC river flux Adding calendar forcing_field_type for ALK river flux Adding calendar forcing_field_type for DOC river flux Contents of ecosys_restore_nml: &ecosys_restore_nml / Found restore variables : (ecosys_driver:ecosys_driver_init) dic_ind = 7 (ecosys_driver:ecosys_driver_init) alk_ind = 9 (ecosys_driver:ecosys_driver_init) dic_alt_co2_ind = 8 (ecosys_driver:ecosys_driver_init) di13c_ind = 0 (ecosys_driver:ecosys_driver_init) di14c_ind = 0 (passive_tracer_tools:read_field_2D) reading PH_SURF from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_2D) reading PH_SURF_ALT_CO2 from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading PH_3D from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading PH_3D_ALT_CO2 from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading PO4_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading PO4_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading NO3_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading NO3_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading SiO3_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading SiO3_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading NH4_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading NH4_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading Fe_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading Fe_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading O2_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading O2_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DIC_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DIC_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DIC_ALT_CO2_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DIC_ALT_CO2_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading ALK_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading ALK_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DOC_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DOC_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DON_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DON_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DOP_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DOP_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DOPr_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DOPr_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DONr_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DONr_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DOCr_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading DOCr_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading zooC_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading zooC_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading spChl_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading spChl_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading spC_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading spC_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading spFe_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading spFe_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading spCaCO3_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading spCaCO3_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diatChl_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diatChl_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diatC_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diatC_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diatFe_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diatFe_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diatSi_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diatSi_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diazChl_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diazChl_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diazC_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diazC_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diazFe_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading diazFe_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading FESEDFLUXIN from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/fesedflux_gx1v6_etopo2v2_Nov2015_vents_no_ms_c151218.nc define_tavg_field: id = 82 zsatcalc define_tavg_field: id = 83 zsatarag define_tavg_field: id = 84 O2_ZMIN define_tavg_field: id = 85 O2_ZMIN_DEPTH define_tavg_field: id = 86 photoC_TOT_zint define_tavg_field: id = 87 photoC_NO3_TOT_zint define_tavg_field: id = 88 Jint_Ctot define_tavg_field: id = 89 Jint_100m_Ctot define_tavg_field: id = 90 Jint_Ntot define_tavg_field: id = 91 Jint_100m_Ntot define_tavg_field: id = 92 Jint_Ptot define_tavg_field: id = 93 Jint_100m_Ptot define_tavg_field: id = 94 Jint_Sitot define_tavg_field: id = 95 Jint_100m_Sitot define_tavg_field: id = 96 Jint_Fetot define_tavg_field: id = 97 Jint_100m_Fetot define_tavg_field: id = 98 calcToSed define_tavg_field: id = 99 pocToSed define_tavg_field: id = 100 ponToSed define_tavg_field: id = 101 SedDenitrif define_tavg_field: id = 102 OtherRemin define_tavg_field: id = 103 popToSed define_tavg_field: id = 104 bsiToSed define_tavg_field: id = 105 dustToSed define_tavg_field: id = 106 pfeToSed define_tavg_field: id = 107 photoC_sp_zint define_tavg_field: id = 108 photoC_NO3_sp_zint define_tavg_field: id = 109 sp_CaCO3_form_zint define_tavg_field: id = 110 photoC_diat_zint define_tavg_field: id = 111 photoC_NO3_diat_zint define_tavg_field: id = 112 photoC_diaz_zint define_tavg_field: id = 113 photoC_NO3_diaz_zint define_tavg_field: id = 114 CaCO3_form_zint define_tavg_field: id = 115 CO3 define_tavg_field: id = 116 HCO3 define_tavg_field: id = 117 H2CO3 define_tavg_field: id = 118 pH_3D define_tavg_field: id = 119 CO3_ALT_CO2 define_tavg_field: id = 120 HCO3_ALT_CO2 define_tavg_field: id = 121 H2CO3_ALT_CO2 define_tavg_field: id = 122 pH_3D_ALT_CO2 define_tavg_field: id = 123 co3_sat_calc define_tavg_field: id = 124 co3_sat_arag define_tavg_field: id = 125 NITRIF define_tavg_field: id = 126 DENITRIF define_tavg_field: id = 127 O2_PRODUCTION define_tavg_field: id = 128 O2_CONSUMPTION define_tavg_field: id = 129 AOU define_tavg_field: id = 130 PAR_avg define_tavg_field: id = 131 graze_auto_TOT define_tavg_field: id = 132 photoC_TOT define_tavg_field: id = 133 photoC_NO3_TOT define_tavg_field: id = 134 DOC_prod define_tavg_field: id = 135 DOC_remin define_tavg_field: id = 136 DOCr_remin define_tavg_field: id = 137 DON_prod define_tavg_field: id = 138 DON_remin define_tavg_field: id = 139 DONr_remin define_tavg_field: id = 140 DOP_prod define_tavg_field: id = 141 DOP_remin define_tavg_field: id = 142 DOPr_remin define_tavg_field: id = 143 Fe_scavenge define_tavg_field: id = 144 Fe_scavenge_rate define_tavg_field: id = 145 POC_FLUX_IN define_tavg_field: id = 146 POC_PROD define_tavg_field: id = 147 POC_REMIN define_tavg_field: id = 148 POC_REMIN_DIC define_tavg_field: id = 149 PON_REMIN_NH4 define_tavg_field: id = 150 POP_REMIN_PO4 define_tavg_field: id = 151 CaCO3_FLUX_IN define_tavg_field: id = 152 CaCO3_PROD define_tavg_field: id = 153 CaCO3_REMIN define_tavg_field: id = 154 SiO2_FLUX_IN define_tavg_field: id = 155 SiO2_PROD define_tavg_field: id = 156 SiO2_REMIN define_tavg_field: id = 157 dust_FLUX_IN define_tavg_field: id = 158 dust_REMIN define_tavg_field: id = 159 P_iron_FLUX_IN define_tavg_field: id = 160 P_iron_PROD define_tavg_field: id = 161 P_iron_REMIN define_tavg_field: id = 162 sp_N_lim define_tavg_field: id = 163 sp_P_lim define_tavg_field: id = 164 sp_Fe_lim define_tavg_field: id = 165 sp_light_lim define_tavg_field: id = 166 photoC_sp define_tavg_field: id = 167 photoC_NO3_sp define_tavg_field: id = 168 photoFe_sp define_tavg_field: id = 169 photoNO3_sp define_tavg_field: id = 170 photoNH4_sp define_tavg_field: id = 171 DOP_sp_uptake define_tavg_field: id = 172 PO4_sp_uptake define_tavg_field: id = 173 graze_sp define_tavg_field: id = 174 graze_sp_poc define_tavg_field: id = 175 graze_sp_doc define_tavg_field: id = 176 graze_sp_zoo define_tavg_field: id = 177 sp_loss define_tavg_field: id = 178 sp_loss_poc define_tavg_field: id = 179 sp_loss_doc define_tavg_field: id = 180 sp_agg define_tavg_field: id = 181 sp_CaCO3_form define_tavg_field: id = 182 diat_N_lim define_tavg_field: id = 183 diat_P_lim define_tavg_field: id = 184 diat_Fe_lim define_tavg_field: id = 185 diat_SiO3_lim define_tavg_field: id = 186 diat_light_lim define_tavg_field: id = 187 photoC_diat define_tavg_field: id = 188 photoC_NO3_diat define_tavg_field: id = 189 photoFe_diat define_tavg_field: id = 190 photoNO3_diat define_tavg_field: id = 191 photoNH4_diat define_tavg_field: id = 192 DOP_diat_uptake define_tavg_field: id = 193 PO4_diat_uptake define_tavg_field: id = 194 graze_diat define_tavg_field: id = 195 graze_diat_poc define_tavg_field: id = 196 graze_diat_doc define_tavg_field: id = 197 graze_diat_zoo define_tavg_field: id = 198 diat_loss define_tavg_field: id = 199 diat_loss_poc define_tavg_field: id = 200 diat_loss_doc define_tavg_field: id = 201 diat_agg define_tavg_field: id = 202 diatbSi_form define_tavg_field: id = 203 diaz_N_lim define_tavg_field: id = 204 diaz_P_lim define_tavg_field: id = 205 diaz_Fe_lim define_tavg_field: id = 206 diaz_light_lim define_tavg_field: id = 207 photoC_diaz define_tavg_field: id = 208 photoC_NO3_diaz define_tavg_field: id = 209 photoFe_diaz define_tavg_field: id = 210 photoNO3_diaz define_tavg_field: id = 211 photoNH4_diaz define_tavg_field: id = 212 DOP_diaz_uptake define_tavg_field: id = 213 PO4_diaz_uptake define_tavg_field: id = 214 graze_diaz define_tavg_field: id = 215 graze_diaz_poc define_tavg_field: id = 216 graze_diaz_doc define_tavg_field: id = 217 graze_diaz_zoo define_tavg_field: id = 218 diaz_loss define_tavg_field: id = 219 diaz_loss_poc define_tavg_field: id = 220 diaz_loss_doc define_tavg_field: id = 221 diaz_agg define_tavg_field: id = 222 diaz_Nfix define_tavg_field: id = 223 bSi_form define_tavg_field: id = 224 CaCO3_form define_tavg_field: id = 225 Nfix define_tavg_field: id = 226 zoo_loss define_tavg_field: id = 227 zoo_loss_poc define_tavg_field: id = 228 zoo_loss_doc define_tavg_field: id = 229 graze_zoo define_tavg_field: id = 230 graze_zoo_poc define_tavg_field: id = 231 graze_zoo_doc define_tavg_field: id = 232 graze_zoo_zoo define_tavg_field: id = 233 x_graze_zoo define_tavg_field: id = 234 PO4_RESTORE define_tavg_field: id = 235 NO3_RESTORE define_tavg_field: id = 236 SiO3_RESTORE define_tavg_field: id = 237 NH4_RESTORE define_tavg_field: id = 238 Fe_RESTORE define_tavg_field: id = 239 O2_RESTORE define_tavg_field: id = 240 DIC_RESTORE define_tavg_field: id = 241 DIC_ALT_CO2_RESTORE define_tavg_field: id = 242 ALK_RESTORE define_tavg_field: id = 243 DOC_RESTORE define_tavg_field: id = 244 DON_RESTORE define_tavg_field: id = 245 DOP_RESTORE define_tavg_field: id = 246 DOPr_RESTORE define_tavg_field: id = 247 DONr_RESTORE define_tavg_field: id = 248 DOCr_RESTORE define_tavg_field: id = 249 zooC_RESTORE define_tavg_field: id = 250 spChl_RESTORE define_tavg_field: id = 251 spC_RESTORE define_tavg_field: id = 252 spFe_RESTORE define_tavg_field: id = 253 spCaCO3_RESTORE define_tavg_field: id = 254 diatChl_RESTORE define_tavg_field: id = 255 diatC_RESTORE define_tavg_field: id = 256 diatFe_RESTORE define_tavg_field: id = 257 diatSi_RESTORE define_tavg_field: id = 258 diazChl_RESTORE define_tavg_field: id = 259 diazC_RESTORE define_tavg_field: id = 260 diazFe_RESTORE define_tavg_field: id = 261 ECOSYS_IFRAC define_tavg_field: id = 262 ECOSYS_XKW define_tavg_field: id = 263 ECOSYS_ATM_PRESS define_tavg_field: id = 264 PV_O2 define_tavg_field: id = 265 SCHMIDT_O2 define_tavg_field: id = 266 O2SAT define_tavg_field: id = 267 STF_O2 define_tavg_field: id = 268 CO2STAR define_tavg_field: id = 269 DCO2STAR define_tavg_field: id = 270 pCO2SURF define_tavg_field: id = 271 DpCO2 define_tavg_field: id = 272 PV_CO2 define_tavg_field: id = 273 SCHMIDT_CO2 define_tavg_field: id = 274 FG_CO2 define_tavg_field: id = 275 PH define_tavg_field: id = 276 ATM_CO2 define_tavg_field: id = 277 CO2STAR_ALT_CO2 define_tavg_field: id = 278 DCO2STAR_ALT_CO2 define_tavg_field: id = 279 pCO2SURF_ALT_CO2 define_tavg_field: id = 280 DpCO2_ALT_CO2 define_tavg_field: id = 281 FG_ALT_CO2 define_tavg_field: id = 282 PH_ALT_CO2 define_tavg_field: id = 283 ATM_ALT_CO2 define_tavg_field: id = 284 IRON_FLUX define_tavg_field: id = 285 DUST_FLUX define_tavg_field: id = 286 NOx_FLUX define_tavg_field: id = 287 NHy_FLUX define_tavg_field: id = 288 DIN_RIV_FLUX define_tavg_field: id = 289 DIP_RIV_FLUX define_tavg_field: id = 290 DON_RIV_FLUX define_tavg_field: id = 291 DONr_RIV_FLUX define_tavg_field: id = 292 DOP_RIV_FLUX define_tavg_field: id = 293 DOPr_RIV_FLUX define_tavg_field: id = 294 DSI_RIV_FLUX define_tavg_field: id = 295 DFE_RIV_FLUX define_tavg_field: id = 296 DIC_RIV_FLUX define_tavg_field: id = 297 ALK_RIV_FLUX define_tavg_field: id = 298 DOC_RIV_FLUX define_tavg_field: id = 299 DOCr_RIV_FLUX define_tavg_field: id = 300 ECOSYS_IFRAC_2 define_tavg_field: id = 301 ECOSYS_XKW_2 define_tavg_field: id = 302 STF_O2_2 define_tavg_field: id = 303 DpCO2_2 define_tavg_field: id = 304 FG_CO2_2 Adding flux_co2 to surface forcing outputs Adding totalChl to surface forcing outputs (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading IAGE_CUR from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc (passive_tracer_tools:read_field_3D) reading IAGE_OLD from ./b.e15.B1850.f09_g16.pi_control.all.119.pop.r.0070-01-01-00000.nc define_tavg_field: id = 305 IAGE_RESET_TEND ------------------------------------------------------------------------ TRACER INDEX TRACER NAME 1 TEMP 2 SALT 3 Dissolved Inorganic Phosphate 4 Dissolved Inorganic Nitrate 5 Dissolved Inorganic Silicate 6 Dissolved Ammonia 7 Dissolved Inorganic Iron 8 Dissolved Oxygen 9 Dissolved Inorganic Carbon 10 Dissolved Inorganic Carbon, Alternative CO2 11 Alkalinity 12 Dissolved Organic Carbon 13 Dissolved Organic Nitrogen 14 Dissolved Organic Phosphorus 15 Refractory DOP 16 Refractory DON 17 Refractory DOC 18 Zooplankton Carbon 19 Small Phyto Chlorophyll 20 Small Phyto Carbon 21 Small Phyto Iron 22 Small Phyto CaCO3 23 Diatom Chlorophyll 24 Diatom Carbon 25 Diatom Iron 26 Diatom Silicon 27 Diazotroph Chlorophyll 28 Diazotroph Carbon 29 Diazotroph Iron 30 Ideal Age ------------------------------------------------------------------------ define_tavg_field: id = 306 PO4 define_tavg_field: id = 307 PO4_SQR define_tavg_field: id = 308 PO4_SURF define_tavg_field: id = 309 PO4_zint_100m define_tavg_field: id = 310 J_PO4 define_tavg_field: id = 311 Jint_PO4 define_tavg_field: id = 312 Jint_100m_PO4 define_tavg_field: id = 313 tend_zint_100m_PO4 define_tavg_field: id = 314 STF_PO4 define_tavg_field: id = 315 RESID_PO4 define_tavg_field: id = 316 FvPER_PO4 define_tavg_field: id = 317 FvICE_PO4 define_tavg_field: id = 318 NO3 define_tavg_field: id = 319 NO3_SQR define_tavg_field: id = 320 NO3_SURF define_tavg_field: id = 321 NO3_zint_100m define_tavg_field: id = 322 J_NO3 define_tavg_field: id = 323 Jint_NO3 define_tavg_field: id = 324 Jint_100m_NO3 define_tavg_field: id = 325 tend_zint_100m_NO3 define_tavg_field: id = 326 STF_NO3 define_tavg_field: id = 327 RESID_NO3 define_tavg_field: id = 328 FvPER_NO3 define_tavg_field: id = 329 FvICE_NO3 define_tavg_field: id = 330 SiO3 define_tavg_field: id = 331 SiO3_SQR define_tavg_field: id = 332 SiO3_SURF define_tavg_field: id = 333 SiO3_zint_100m define_tavg_field: id = 334 J_SiO3 define_tavg_field: id = 335 Jint_SiO3 define_tavg_field: id = 336 Jint_100m_SiO3 define_tavg_field: id = 337 tend_zint_100m_SiO3 define_tavg_field: id = 338 STF_SiO3 define_tavg_field: id = 339 RESID_SiO3 define_tavg_field: id = 340 FvPER_SiO3 define_tavg_field: id = 341 FvICE_SiO3 define_tavg_field: id = 342 NH4 define_tavg_field: id = 343 NH4_SQR define_tavg_field: id = 344 NH4_SURF define_tavg_field: id = 345 NH4_zint_100m define_tavg_field: id = 346 J_NH4 define_tavg_field: id = 347 Jint_NH4 define_tavg_field: id = 348 Jint_100m_NH4 define_tavg_field: id = 349 tend_zint_100m_NH4 define_tavg_field: id = 350 STF_NH4 define_tavg_field: id = 351 RESID_NH4 define_tavg_field: id = 352 FvPER_NH4 define_tavg_field: id = 353 FvICE_NH4 define_tavg_field: id = 354 Fe define_tavg_field: id = 355 Fe_SQR define_tavg_field: id = 356 Fe_SURF define_tavg_field: id = 357 Fe_zint_100m define_tavg_field: id = 358 J_Fe define_tavg_field: id = 359 Jint_Fe define_tavg_field: id = 360 Jint_100m_Fe define_tavg_field: id = 361 tend_zint_100m_Fe define_tavg_field: id = 362 STF_Fe define_tavg_field: id = 363 RESID_Fe define_tavg_field: id = 364 FvPER_Fe define_tavg_field: id = 365 FvICE_Fe define_tavg_field: id = 366 O2 define_tavg_field: id = 367 O2_SQR define_tavg_field: id = 368 O2_SURF define_tavg_field: id = 369 O2_zint_100m define_tavg_field: id = 370 J_O2 define_tavg_field: id = 371 Jint_O2 define_tavg_field: id = 372 Jint_100m_O2 define_tavg_field: id = 373 tend_zint_100m_O2 define_tavg_field: id = 374 STF_O2 define_tavg_field: id = 375 RESID_O2 define_tavg_field: id = 376 FvPER_O2 define_tavg_field: id = 377 FvICE_O2 define_tavg_field: id = 378 DIC define_tavg_field: id = 379 DIC_SQR define_tavg_field: id = 380 DIC_SURF define_tavg_field: id = 381 DIC_zint_100m define_tavg_field: id = 382 J_DIC define_tavg_field: id = 383 Jint_DIC define_tavg_field: id = 384 Jint_100m_DIC define_tavg_field: id = 385 tend_zint_100m_DIC define_tavg_field: id = 386 STF_DIC define_tavg_field: id = 387 RESID_DIC define_tavg_field: id = 388 FvPER_DIC define_tavg_field: id = 389 FvICE_DIC define_tavg_field: id = 390 DIC_ALT_CO2 define_tavg_field: id = 391 DIC_ALT_CO2_SQR define_tavg_field: id = 392 DIC_ALT_CO2_SURF define_tavg_field: id = 393 DIC_ALT_CO2_zint_100m define_tavg_field: id = 394 J_DIC_ALT_CO2 define_tavg_field: id = 395 Jint_DIC_ALT_CO2 define_tavg_field: id = 396 Jint_100m_DIC_ALT_CO2 define_tavg_field: id = 397 tend_zint_100m_DIC_ALT_CO2 define_tavg_field: id = 398 STF_DIC_ALT_CO2 define_tavg_field: id = 399 RESID_DIC_ALT_CO2 define_tavg_field: id = 400 FvPER_DIC_ALT_CO2 define_tavg_field: id = 401 FvICE_DIC_ALT_CO2 define_tavg_field: id = 402 ALK define_tavg_field: id = 403 ALK_SQR define_tavg_field: id = 404 ALK_SURF define_tavg_field: id = 405 ALK_zint_100m define_tavg_field: id = 406 J_ALK define_tavg_field: id = 407 Jint_ALK define_tavg_field: id = 408 Jint_100m_ALK define_tavg_field: id = 409 tend_zint_100m_ALK define_tavg_field: id = 410 STF_ALK define_tavg_field: id = 411 RESID_ALK define_tavg_field: id = 412 FvPER_ALK define_tavg_field: id = 413 FvICE_ALK define_tavg_field: id = 414 DOC define_tavg_field: id = 415 DOC_SQR define_tavg_field: id = 416 DOC_SURF define_tavg_field: id = 417 DOC_zint_100m define_tavg_field: id = 418 J_DOC define_tavg_field: id = 419 Jint_DOC define_tavg_field: id = 420 Jint_100m_DOC define_tavg_field: id = 421 tend_zint_100m_DOC define_tavg_field: id = 422 STF_DOC define_tavg_field: id = 423 RESID_DOC define_tavg_field: id = 424 FvPER_DOC define_tavg_field: id = 425 FvICE_DOC define_tavg_field: id = 426 DON define_tavg_field: id = 427 DON_SQR define_tavg_field: id = 428 DON_SURF define_tavg_field: id = 429 DON_zint_100m define_tavg_field: id = 430 J_DON define_tavg_field: id = 431 Jint_DON define_tavg_field: id = 432 Jint_100m_DON define_tavg_field: id = 433 tend_zint_100m_DON define_tavg_field: id = 434 STF_DON define_tavg_field: id = 435 RESID_DON define_tavg_field: id = 436 FvPER_DON define_tavg_field: id = 437 FvICE_DON define_tavg_field: id = 438 DOP define_tavg_field: id = 439 DOP_SQR define_tavg_field: id = 440 DOP_SURF define_tavg_field: id = 441 DOP_zint_100m define_tavg_field: id = 442 J_DOP define_tavg_field: id = 443 Jint_DOP define_tavg_field: id = 444 Jint_100m_DOP define_tavg_field: id = 445 tend_zint_100m_DOP define_tavg_field: id = 446 STF_DOP define_tavg_field: id = 447 RESID_DOP define_tavg_field: id = 448 FvPER_DOP define_tavg_field: id = 449 FvICE_DOP define_tavg_field: id = 450 DOPr define_tavg_field: id = 451 DOPr_SQR define_tavg_field: id = 452 DOPr_SURF define_tavg_field: id = 453 DOPr_zint_100m define_tavg_field: id = 454 J_DOPr define_tavg_field: id = 455 Jint_DOPr define_tavg_field: id = 456 Jint_100m_DOPr define_tavg_field: id = 457 tend_zint_100m_DOPr define_tavg_field: id = 458 STF_DOPr define_tavg_field: id = 459 RESID_DOPr define_tavg_field: id = 460 FvPER_DOPr define_tavg_field: id = 461 FvICE_DOPr define_tavg_field: id = 462 DONr define_tavg_field: id = 463 DONr_SQR define_tavg_field: id = 464 DONr_SURF define_tavg_field: id = 465 DONr_zint_100m define_tavg_field: id = 466 J_DONr define_tavg_field: id = 467 Jint_DONr define_tavg_field: id = 468 Jint_100m_DONr define_tavg_field: id = 469 tend_zint_100m_DONr define_tavg_field: id = 470 STF_DONr define_tavg_field: id = 471 RESID_DONr define_tavg_field: id = 472 FvPER_DONr define_tavg_field: id = 473 FvICE_DONr define_tavg_field: id = 474 DOCr define_tavg_field: id = 475 DOCr_SQR define_tavg_field: id = 476 DOCr_SURF define_tavg_field: id = 477 DOCr_zint_100m define_tavg_field: id = 478 J_DOCr define_tavg_field: id = 479 Jint_DOCr define_tavg_field: id = 480 Jint_100m_DOCr define_tavg_field: id = 481 tend_zint_100m_DOCr define_tavg_field: id = 482 STF_DOCr define_tavg_field: id = 483 RESID_DOCr define_tavg_field: id = 484 FvPER_DOCr define_tavg_field: id = 485 FvICE_DOCr define_tavg_field: id = 486 zooC define_tavg_field: id = 487 zooC_SQR define_tavg_field: id = 488 zooC_SURF define_tavg_field: id = 489 zooC_zint_100m define_tavg_field: id = 490 J_zooC define_tavg_field: id = 491 Jint_zooC define_tavg_field: id = 492 Jint_100m_zooC define_tavg_field: id = 493 tend_zint_100m_zooC define_tavg_field: id = 494 STF_zooC define_tavg_field: id = 495 RESID_zooC define_tavg_field: id = 496 FvPER_zooC define_tavg_field: id = 497 FvICE_zooC define_tavg_field: id = 498 spChl define_tavg_field: id = 499 spChl_SQR define_tavg_field: id = 500 spChl_SURF define_tavg_field: id = 501 spChl_zint_100m define_tavg_field: id = 502 J_spChl define_tavg_field: id = 503 Jint_spChl define_tavg_field: id = 504 Jint_100m_spChl define_tavg_field: id = 505 tend_zint_100m_spChl define_tavg_field: id = 506 STF_spChl define_tavg_field: id = 507 RESID_spChl define_tavg_field: id = 508 FvPER_spChl define_tavg_field: id = 509 FvICE_spChl define_tavg_field: id = 510 spC define_tavg_field: id = 511 spC_SQR define_tavg_field: id = 512 spC_SURF define_tavg_field: id = 513 spC_zint_100m define_tavg_field: id = 514 J_spC define_tavg_field: id = 515 Jint_spC define_tavg_field: id = 516 Jint_100m_spC define_tavg_field: id = 517 tend_zint_100m_spC define_tavg_field: id = 518 STF_spC define_tavg_field: id = 519 RESID_spC define_tavg_field: id = 520 FvPER_spC define_tavg_field: id = 521 FvICE_spC define_tavg_field: id = 522 spFe define_tavg_field: id = 523 spFe_SQR define_tavg_field: id = 524 spFe_SURF define_tavg_field: id = 525 spFe_zint_100m define_tavg_field: id = 526 J_spFe define_tavg_field: id = 527 Jint_spFe define_tavg_field: id = 528 Jint_100m_spFe define_tavg_field: id = 529 tend_zint_100m_spFe define_tavg_field: id = 530 STF_spFe define_tavg_field: id = 531 RESID_spFe define_tavg_field: id = 532 FvPER_spFe define_tavg_field: id = 533 FvICE_spFe define_tavg_field: id = 534 spCaCO3 define_tavg_field: id = 535 spCaCO3_SQR define_tavg_field: id = 536 spCaCO3_SURF define_tavg_field: id = 537 spCaCO3_zint_100m define_tavg_field: id = 538 J_spCaCO3 define_tavg_field: id = 539 Jint_spCaCO3 define_tavg_field: id = 540 Jint_100m_spCaCO3 define_tavg_field: id = 541 tend_zint_100m_spCaCO3 define_tavg_field: id = 542 STF_spCaCO3 define_tavg_field: id = 543 RESID_spCaCO3 define_tavg_field: id = 544 FvPER_spCaCO3 define_tavg_field: id = 545 FvICE_spCaCO3 define_tavg_field: id = 546 diatChl define_tavg_field: id = 547 diatChl_SQR define_tavg_field: id = 548 diatChl_SURF define_tavg_field: id = 549 diatChl_zint_100m define_tavg_field: id = 550 J_diatChl define_tavg_field: id = 551 Jint_diatChl define_tavg_field: id = 552 Jint_100m_diatChl define_tavg_field: id = 553 tend_zint_100m_diatChl define_tavg_field: id = 554 STF_diatChl define_tavg_field: id = 555 RESID_diatChl define_tavg_field: id = 556 FvPER_diatChl define_tavg_field: id = 557 FvICE_diatChl define_tavg_field: id = 558 diatC define_tavg_field: id = 559 diatC_SQR define_tavg_field: id = 560 diatC_SURF define_tavg_field: id = 561 diatC_zint_100m define_tavg_field: id = 562 J_diatC define_tavg_field: id = 563 Jint_diatC define_tavg_field: id = 564 Jint_100m_diatC define_tavg_field: id = 565 tend_zint_100m_diatC define_tavg_field: id = 566 STF_diatC define_tavg_field: id = 567 RESID_diatC define_tavg_field: id = 568 FvPER_diatC define_tavg_field: id = 569 FvICE_diatC define_tavg_field: id = 570 diatFe define_tavg_field: id = 571 diatFe_SQR define_tavg_field: id = 572 diatFe_SURF define_tavg_field: id = 573 diatFe_zint_100m define_tavg_field: id = 574 J_diatFe define_tavg_field: id = 575 Jint_diatFe define_tavg_field: id = 576 Jint_100m_diatFe define_tavg_field: id = 577 tend_zint_100m_diatFe define_tavg_field: id = 578 STF_diatFe define_tavg_field: id = 579 RESID_diatFe define_tavg_field: id = 580 FvPER_diatFe define_tavg_field: id = 581 FvICE_diatFe define_tavg_field: id = 582 diatSi define_tavg_field: id = 583 diatSi_SQR define_tavg_field: id = 584 diatSi_SURF define_tavg_field: id = 585 diatSi_zint_100m define_tavg_field: id = 586 J_diatSi define_tavg_field: id = 587 Jint_diatSi define_tavg_field: id = 588 Jint_100m_diatSi define_tavg_field: id = 589 tend_zint_100m_diatSi define_tavg_field: id = 590 STF_diatSi define_tavg_field: id = 591 RESID_diatSi define_tavg_field: id = 592 FvPER_diatSi define_tavg_field: id = 593 FvICE_diatSi define_tavg_field: id = 594 diazChl define_tavg_field: id = 595 diazChl_SQR define_tavg_field: id = 596 diazChl_SURF define_tavg_field: id = 597 diazChl_zint_100m define_tavg_field: id = 598 J_diazChl define_tavg_field: id = 599 Jint_diazChl define_tavg_field: id = 600 Jint_100m_diazChl define_tavg_field: id = 601 tend_zint_100m_diazChl define_tavg_field: id = 602 STF_diazChl define_tavg_field: id = 603 RESID_diazChl define_tavg_field: id = 604 FvPER_diazChl define_tavg_field: id = 605 FvICE_diazChl define_tavg_field: id = 606 diazC define_tavg_field: id = 607 diazC_SQR define_tavg_field: id = 608 diazC_SURF define_tavg_field: id = 609 diazC_zint_100m define_tavg_field: id = 610 J_diazC define_tavg_field: id = 611 Jint_diazC define_tavg_field: id = 612 Jint_100m_diazC define_tavg_field: id = 613 tend_zint_100m_diazC define_tavg_field: id = 614 STF_diazC define_tavg_field: id = 615 RESID_diazC define_tavg_field: id = 616 FvPER_diazC define_tavg_field: id = 617 FvICE_diazC define_tavg_field: id = 618 diazFe define_tavg_field: id = 619 diazFe_SQR define_tavg_field: id = 620 diazFe_SURF define_tavg_field: id = 621 diazFe_zint_100m define_tavg_field: id = 622 J_diazFe define_tavg_field: id = 623 Jint_diazFe define_tavg_field: id = 624 Jint_100m_diazFe define_tavg_field: id = 625 tend_zint_100m_diazFe define_tavg_field: id = 626 STF_diazFe define_tavg_field: id = 627 RESID_diazFe define_tavg_field: id = 628 FvPER_diazFe define_tavg_field: id = 629 FvICE_diazFe define_tavg_field: id = 630 IAGE define_tavg_field: id = 631 IAGE_SQR define_tavg_field: id = 632 IAGE_SURF define_tavg_field: id = 633 IAGE_zint_100m define_tavg_field: id = 634 J_IAGE define_tavg_field: id = 635 Jint_IAGE define_tavg_field: id = 636 Jint_100m_IAGE define_tavg_field: id = 637 tend_zint_100m_IAGE define_tavg_field: id = 638 STF_IAGE define_tavg_field: id = 639 RESID_IAGE define_tavg_field: id = 640 FvPER_IAGE define_tavg_field: id = 641 FvICE_IAGE define_tavg_field: id = 642 TEND_TEMP define_tavg_field: id = 643 TEND_SALT define_tavg_field: id = 644 TEND_PO4 define_tavg_field: id = 645 TEND_NO3 define_tavg_field: id = 646 TEND_SiO3 define_tavg_field: id = 647 TEND_NH4 define_tavg_field: id = 648 TEND_Fe define_tavg_field: id = 649 TEND_O2 define_tavg_field: id = 650 TEND_DIC define_tavg_field: id = 651 TEND_DIC_ALT_CO2 define_tavg_field: id = 652 TEND_ALK define_tavg_field: id = 653 TEND_DOC define_tavg_field: id = 654 TEND_DON define_tavg_field: id = 655 TEND_DOP define_tavg_field: id = 656 TEND_DOPr define_tavg_field: id = 657 TEND_DONr define_tavg_field: id = 658 TEND_DOCr define_tavg_field: id = 659 TEND_zooC define_tavg_field: id = 660 TEND_spChl define_tavg_field: id = 661 TEND_spC define_tavg_field: id = 662 TEND_spFe define_tavg_field: id = 663 TEND_spCaCO3 define_tavg_field: id = 664 TEND_diatChl define_tavg_field: id = 665 TEND_diatC define_tavg_field: id = 666 TEND_diatFe define_tavg_field: id = 667 TEND_diatSi define_tavg_field: id = 668 TEND_diazChl define_tavg_field: id = 669 TEND_diazC define_tavg_field: id = 670 TEND_diazFe define_tavg_field: id = 671 TEND_IAGE ======================================================================== Vertical mixing options ------------------------------------------------------------------------ Implicit vertical mixing enabled Using KPP vertical mixing aidif = 1.00000E+00 bottom_drag = 1.00000E-03 Convection simulated by strong diffusion convect_diff = 1.000E+04 convect_visc = 1.000E+04 Bottom geothermal heat flux disabled ------------------------------------------------------------------------ vmix_kpp_nml namelist settings: &VMIX_KPP_NML BCKGRND_VDC1 = 0.160000000000000 , BCKGRND_VDC2 = 0.000000000000000E+000, BCKGRND_VDC_EQ = 1.000000000000000E-002, BCKGRND_VDC_PSIM = 0.130000000000000 , BCKGRND_VDC_BAN = 1.00000000000000 , BCKGRND_VDC_DPTH = 100000.000000000 , BCKGRND_VDC_LINV = 4.500000000000000E-005, PRANDTL = 10.0000000000000 , RICH_MIX = 50.0000000000000 , NUM_V_SMOOTH_RI = 1, LRICH = T, LDBL_DIFF = T, LSHORT_WAVE = T, LCHECKEKMO = F, LARCTIC_BCKGRND_VDC = F, LHORIZ_VARYING_BCKGRND = T, LINERTIAL = F, LCVMIX = T, LANGMUIR_OPT = vr12-ma / bckgrnd_vdc1 = 1.60000E-01 bckgrnd_vdc2 = 0.00000E+00 bckgrnd_vdc_dpth = 1.00000E+05 bckgrnd_vdc_linv = 4.50000E-05 bckgrnd_vdc_eq = 1.00000E-02 bckgrnd_vdc_psim = 1.30000E-01 bckgrnd_vdc_ban = 1.00000E+00 Prandtl = 1.00000E+01 rich_mix = 5.00000E+01 Ri mixing = T double-diff = T short_wave = T lcheckekmo = F num_smooth_Ri = 1 larctic_bckgrnd_vdc = F lhoriz_varying_bckgrnd = T inertial mixing param. = F use CVMix KPP routines = T Langmuir param. option: vr12-ma define_tavg_field: id = 672 QSW_HBL define_tavg_field: id = 673 KVMIX define_tavg_field: id = 674 VDC_BCK define_tavg_field: id = 675 KVMIX_M define_tavg_field: id = 676 VVC_BCK define_tavg_field: id = 677 TPOWER define_tavg_field: id = 678 KPP_SRC_TEMP define_tavg_field: id = 679 KPP_SRC_SALT define_tavg_field: id = 680 KPP_SRC_PO4 define_tavg_field: id = 681 KPP_SRC_NO3 define_tavg_field: id = 682 KPP_SRC_SiO3 define_tavg_field: id = 683 KPP_SRC_NH4 define_tavg_field: id = 684 KPP_SRC_Fe define_tavg_field: id = 685 KPP_SRC_O2 define_tavg_field: id = 686 KPP_SRC_DIC define_tavg_field: id = 687 KPP_SRC_DIC_ALT_CO2 define_tavg_field: id = 688 KPP_SRC_ALK define_tavg_field: id = 689 KPP_SRC_DOC define_tavg_field: id = 690 KPP_SRC_DON define_tavg_field: id = 691 KPP_SRC_DOP define_tavg_field: id = 692 KPP_SRC_DOPr define_tavg_field: id = 693 KPP_SRC_DONr define_tavg_field: id = 694 KPP_SRC_DOCr define_tavg_field: id = 695 KPP_SRC_zooC define_tavg_field: id = 696 KPP_SRC_spChl define_tavg_field: id = 697 KPP_SRC_spC define_tavg_field: id = 698 KPP_SRC_spFe define_tavg_field: id = 699 KPP_SRC_spCaCO3 define_tavg_field: id = 700 KPP_SRC_diatChl define_tavg_field: id = 701 KPP_SRC_diatC define_tavg_field: id = 702 KPP_SRC_diatFe define_tavg_field: id = 703 KPP_SRC_diatSi define_tavg_field: id = 704 KPP_SRC_diazChl define_tavg_field: id = 705 KPP_SRC_diazC define_tavg_field: id = 706 KPP_SRC_diazFe define_tavg_field: id = 707 KPP_SRC_IAGE define_tavg_field: id = 708 VDC_T define_tavg_field: id = 709 VDC_S define_tavg_field: id = 710 VVC define_tavg_field: id = 711 VUF define_tavg_field: id = 712 VVF define_tavg_field: id = 713 DIA_IMPVF_TEMP define_tavg_field: id = 714 DIA_IMPVF_SALT define_tavg_field: id = 715 DIA_IMPVF_PO4 define_tavg_field: id = 716 DIA_IMPVF_NO3 define_tavg_field: id = 717 DIA_IMPVF_SiO3 define_tavg_field: id = 718 DIA_IMPVF_NH4 define_tavg_field: id = 719 DIA_IMPVF_Fe define_tavg_field: id = 720 DIA_IMPVF_O2 define_tavg_field: id = 721 DIA_IMPVF_DIC define_tavg_field: id = 722 DIA_IMPVF_DIC_ALT_CO2 define_tavg_field: id = 723 DIA_IMPVF_ALK define_tavg_field: id = 724 DIA_IMPVF_DOC define_tavg_field: id = 725 DIA_IMPVF_DON define_tavg_field: id = 726 DIA_IMPVF_DOP define_tavg_field: id = 727 DIA_IMPVF_DOPr define_tavg_field: id = 728 DIA_IMPVF_DONr define_tavg_field: id = 729 DIA_IMPVF_DOCr define_tavg_field: id = 730 DIA_IMPVF_zooC define_tavg_field: id = 731 DIA_IMPVF_spChl define_tavg_field: id = 732 DIA_IMPVF_spC define_tavg_field: id = 733 DIA_IMPVF_spFe define_tavg_field: id = 734 DIA_IMPVF_spCaCO3 define_tavg_field: id = 735 DIA_IMPVF_diatChl define_tavg_field: id = 736 DIA_IMPVF_diatC define_tavg_field: id = 737 DIA_IMPVF_diatFe define_tavg_field: id = 738 DIA_IMPVF_diatSi define_tavg_field: id = 739 DIA_IMPVF_diazChl define_tavg_field: id = 740 DIA_IMPVF_diazC define_tavg_field: id = 741 DIA_IMPVF_diazFe define_tavg_field: id = 742 DIA_IMPVF_IAGE ======================================================================== Horizontal mixing options hmix_nml namelist settings: &HMIX_NML HMIX_MOMENTUM_CHOICE = anis , HMIX_TRACER_CHOICE = gent , LSUBMESOSCALE_MIXING = T / ------------------------------------------------------------------------ Anisotropic horizontal momentum mixing used. Gent-McWilliams tracer mixing used. Submesoscale mixed layer parameterization is on. ======================================================================== Anisotropic viscosity options: &HMIX_ANISO_NML HMIX_ALIGNMENT_CHOICE = east , LVARIABLE_HMIX_ANISO = T, LSMAG_ANISO = F, VISC_PARA = 500000000.000000 , VISC_PERP = 500000000.000000 , C_PARA = 8.00000000000000 , C_PERP = 8.00000000000000 , U_PARA = 5.00000000000000 , U_PERP = 5.00000000000000 , VCONST_1 = 6000000.00000000 , VCONST_2 = 0.500000000000000 , VCONST_3 = 0.160000000000000 , VCONST_4 = 2.000000000000000E-008, VCONST_5 = 3, VCONST_6 = 6000000.00000000 , VCONST_7 = 45.0000000000000 , SMAG_LAT = 20.0000000000000 , SMAG_LAT_FACT = 0.980000000000000 , SMAG_LAT_GAUSS = 98.0000000000000 , VAR_VISCOSITY_INFILE = ccsm-internal , VAR_VISCOSITY_INFILE_FMT = bin , VAR_VISCOSITY_OUTFILE = ./b.e15.B1850.f09_g16.pi_control.all.119.pop.hv , VAR_VISCOSITY_OUTFILE_FMT = nc / Anisotropy aligned along east-west direction Using input anisotropic viscosities: visc_para = 5.00000E+08 visc_perp = 5.00000E+08 Using variable anisotropic parameters: vconst_1 = 6.00000E+06 vconst_2 = 5.00000E-01 vconst_3 = 1.60000E-01 vconst_4 = 2.00000E-08 vconst_5 = 3 vconst_6 = 6.00000E+06 vconst_7 = 4.50000E+01 Computed variable viscosity output to file: ./b.e15.B1850.f09_g16.pi_control.all.119.pop.hv vertical level = 1 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 2 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 3 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 4 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 5 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 6 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 7 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 8 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 9 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 10 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 11 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 12 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 13 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 14 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 15 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 16 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 17 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 18 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 19 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 20 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 21 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 22 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 23 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 24 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 25 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 26 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 27 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 28 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 29 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 30 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 31 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 32 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 33 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 34 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 35 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 36 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 37 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 38 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 39 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 40 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 41 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 42 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 43 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 44 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 45 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 46 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 47 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 48 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 49 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 50 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 51 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 52 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 53 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 54 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 55 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 56 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 57 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 58 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 59 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 60 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 (io_pio_init) create file ./b.e15.B1850.f09_g16.pi_control.all.119.pop.hv.nc Document Namelist Parameters: ============================ &HMIX_GM_NML KAPPA_ISOP_CHOICE = bfre , KAPPA_THIC_CHOICE = bfre , KAPPA_ISOP_DEEP = 0.200000000000000 , KAPPA_THIC_DEEP = 0.100000000000000 , KAPPA_FREQ_CHOICE = once_a_day , SLOPE_CONTROL_CHOICE = notanh , KAPPA_DEPTH_1 = 1.00000000000000 , KAPPA_DEPTH_2 = 0.000000000000000E+000, KAPPA_DEPTH_SCALE = 150000.000000000 , AH = 30000000.0000000 , AH_BOLUS = 30000000.0000000 , USE_CONST_AH_BKG_SRFBL = T, AH_BKG_SRFBL = 30000000.0000000 , AH_BKG_BOTTOM = 0.000000000000000E+000, SLM_R = 0.300000000000000 , SLM_B = 0.300000000000000 , DIAG_GM_BOLUS = T, TRANSITION_LAYER_ON = T, READ_N2_DATA = F, BUOYANCY_FREQ_FILENAME = /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/buoyancy_freq , BUOYANCY_FREQ_FMT = nc , CONST_EG = 1.20000000000000 , GAMMA_EG = 500.000000000000 , KAPPA_MIN_EG = 3500000.00000000 , KAPPA_MAX_EG = 20000000.0000000 , DIAG_GM_STEER = T / Gent-McWilliams options: kappa_isop choice is bfre kappa_thic choice is bfre kappa computation frequency choice is once_a_day kappa isopycnal diffusion minimum (deep) = 2.000000E-01 kappa thickness diffusion minimum (deep) = 1.000000E-01 slope control choice is notanh isopycnal diffusion = 3.000000E+07 thickness diffusion = 3.000000E+07 backgroud diff. (bottom) = 0.000000E+00 backgroud diff. (srfbl) = 3.000000E+07 max. slope for redi = 3.000000E-01 max. slope for bolus = 3.000000E-01 diagnostic bolus velocity computation is on Maximum horizontal background diffusion coefficient within the boundary layer is constant at ah_bkg_srfbl. transition layer scheme is on. using model data to compute N^2. define_tavg_field: id = 743 KAPPA_ISOP define_tavg_field: id = 744 KAPPA_THIC define_tavg_field: id = 745 HOR_DIFF define_tavg_field: id = 746 DIA_DEPTH define_tavg_field: id = 747 TLT define_tavg_field: id = 748 INT_DEPTH define_tavg_field: id = 749 UISOP define_tavg_field: id = 750 VISOP define_tavg_field: id = 751 WISOP define_tavg_field: id = 752 ADVT_ISOP define_tavg_field: id = 753 ADVS_ISOP define_tavg_field: id = 754 VNT_ISOP define_tavg_field: id = 755 VNS_ISOP define_tavg_field: id = 756 VDC_GM Document Namelist Parameters: ============================ &MIX_SUBMESO_NML EFFICIENCY_FACTOR = 7.000000000000001E-002, TIME_SCALE_CONSTANT = 86400.0000000000 , LUSE_CONST_HORIZ_LEN_SCALE = F, HOR_LENGTH_SCALE = 500000.000000000 / Submesoscale mixing options: efficiency factor = 7.000000E-02 time scale constant = 8.640000E+04 horizontal length scale varies both in space and time define_tavg_field: id = 757 USUBM define_tavg_field: id = 758 VSUBM define_tavg_field: id = 759 WSUBM define_tavg_field: id = 760 HLS_SUBM define_tavg_field: id = 761 ADVT_SUBM define_tavg_field: id = 762 ADVS_SUBM define_tavg_field: id = 763 VNT_SUBM define_tavg_field: id = 764 VNS_SUBM define_tavg_field: id = 765 HDIFT define_tavg_field: id = 766 HDIFS define_tavg_field: id = 767 HDIF_EXPLICIT_3D_TEMP define_tavg_field: id = 768 HDIFE_TEMP define_tavg_field: id = 769 HDIFN_TEMP define_tavg_field: id = 770 HDIFB_TEMP define_tavg_field: id = 771 HDIF_EXPLICIT_3D_SALT define_tavg_field: id = 772 HDIFE_SALT define_tavg_field: id = 773 HDIFN_SALT define_tavg_field: id = 774 HDIFB_SALT define_tavg_field: id = 775 HDIF_EXPLICIT_3D_PO4 define_tavg_field: id = 776 HDIFE_PO4 define_tavg_field: id = 777 HDIFN_PO4 define_tavg_field: id = 778 HDIFB_PO4 define_tavg_field: id = 779 HDIF_EXPLICIT_3D_NO3 define_tavg_field: id = 780 HDIFE_NO3 define_tavg_field: id = 781 HDIFN_NO3 define_tavg_field: id = 782 HDIFB_NO3 define_tavg_field: id = 783 HDIF_EXPLICIT_3D_SiO3 define_tavg_field: id = 784 HDIFE_SiO3 define_tavg_field: id = 785 HDIFN_SiO3 define_tavg_field: id = 786 HDIFB_SiO3 define_tavg_field: id = 787 HDIF_EXPLICIT_3D_NH4 define_tavg_field: id = 788 HDIFE_NH4 define_tavg_field: id = 789 HDIFN_NH4 define_tavg_field: id = 790 HDIFB_NH4 define_tavg_field: id = 791 HDIF_EXPLICIT_3D_Fe define_tavg_field: id = 792 HDIFE_Fe define_tavg_field: id = 793 HDIFN_Fe define_tavg_field: id = 794 HDIFB_Fe define_tavg_field: id = 795 HDIF_EXPLICIT_3D_O2 define_tavg_field: id = 796 HDIFE_O2 define_tavg_field: id = 797 HDIFN_O2 define_tavg_field: id = 798 HDIFB_O2 define_tavg_field: id = 799 HDIF_EXPLICIT_3D_DIC define_tavg_field: id = 800 HDIFE_DIC define_tavg_field: id = 801 HDIFN_DIC define_tavg_field: id = 802 HDIFB_DIC define_tavg_field: id = 803 HDIF_EXPLICIT_3D_DIC_ALT_CO2 define_tavg_field: id = 804 HDIFE_DIC_ALT_CO2 define_tavg_field: id = 805 HDIFN_DIC_ALT_CO2 define_tavg_field: id = 806 HDIFB_DIC_ALT_CO2 define_tavg_field: id = 807 HDIF_EXPLICIT_3D_ALK define_tavg_field: id = 808 HDIFE_ALK define_tavg_field: id = 809 HDIFN_ALK define_tavg_field: id = 810 HDIFB_ALK define_tavg_field: id = 811 HDIF_EXPLICIT_3D_DOC define_tavg_field: id = 812 HDIFE_DOC define_tavg_field: id = 813 HDIFN_DOC define_tavg_field: id = 814 HDIFB_DOC define_tavg_field: id = 815 HDIF_EXPLICIT_3D_DON define_tavg_field: id = 816 HDIFE_DON define_tavg_field: id = 817 HDIFN_DON define_tavg_field: id = 818 HDIFB_DON define_tavg_field: id = 819 HDIF_EXPLICIT_3D_DOP define_tavg_field: id = 820 HDIFE_DOP define_tavg_field: id = 821 HDIFN_DOP define_tavg_field: id = 822 HDIFB_DOP define_tavg_field: id = 823 HDIF_EXPLICIT_3D_DOPr define_tavg_field: id = 824 HDIFE_DOPr define_tavg_field: id = 825 HDIFN_DOPr define_tavg_field: id = 826 HDIFB_DOPr define_tavg_field: id = 827 HDIF_EXPLICIT_3D_DONr define_tavg_field: id = 828 HDIFE_DONr define_tavg_field: id = 829 HDIFN_DONr define_tavg_field: id = 830 HDIFB_DONr define_tavg_field: id = 831 HDIF_EXPLICIT_3D_DOCr define_tavg_field: id = 832 HDIFE_DOCr define_tavg_field: id = 833 HDIFN_DOCr define_tavg_field: id = 834 HDIFB_DOCr define_tavg_field: id = 835 HDIF_EXPLICIT_3D_zooC define_tavg_field: id = 836 HDIFE_zooC define_tavg_field: id = 837 HDIFN_zooC define_tavg_field: id = 838 HDIFB_zooC define_tavg_field: id = 839 HDIF_EXPLICIT_3D_spChl define_tavg_field: id = 840 HDIFE_spChl define_tavg_field: id = 841 HDIFN_spChl define_tavg_field: id = 842 HDIFB_spChl define_tavg_field: id = 843 HDIF_EXPLICIT_3D_spC define_tavg_field: id = 844 HDIFE_spC define_tavg_field: id = 845 HDIFN_spC define_tavg_field: id = 846 HDIFB_spC define_tavg_field: id = 847 HDIF_EXPLICIT_3D_spFe define_tavg_field: id = 848 HDIFE_spFe define_tavg_field: id = 849 HDIFN_spFe define_tavg_field: id = 850 HDIFB_spFe define_tavg_field: id = 851 HDIF_EXPLICIT_3D_spCaCO3 define_tavg_field: id = 852 HDIFE_spCaCO3 define_tavg_field: id = 853 HDIFN_spCaCO3 define_tavg_field: id = 854 HDIFB_spCaCO3 define_tavg_field: id = 855 HDIF_EXPLICIT_3D_diatChl define_tavg_field: id = 856 HDIFE_diatChl define_tavg_field: id = 857 HDIFN_diatChl define_tavg_field: id = 858 HDIFB_diatChl define_tavg_field: id = 859 HDIF_EXPLICIT_3D_diatC define_tavg_field: id = 860 HDIFE_diatC define_tavg_field: id = 861 HDIFN_diatC define_tavg_field: id = 862 HDIFB_diatC define_tavg_field: id = 863 HDIF_EXPLICIT_3D_diatFe define_tavg_field: id = 864 HDIFE_diatFe define_tavg_field: id = 865 HDIFN_diatFe define_tavg_field: id = 866 HDIFB_diatFe define_tavg_field: id = 867 HDIF_EXPLICIT_3D_diatSi define_tavg_field: id = 868 HDIFE_diatSi define_tavg_field: id = 869 HDIFN_diatSi define_tavg_field: id = 870 HDIFB_diatSi define_tavg_field: id = 871 HDIF_EXPLICIT_3D_diazChl define_tavg_field: id = 872 HDIFE_diazChl define_tavg_field: id = 873 HDIFN_diazChl define_tavg_field: id = 874 HDIFB_diazChl define_tavg_field: id = 875 HDIF_EXPLICIT_3D_diazC define_tavg_field: id = 876 HDIFE_diazC define_tavg_field: id = 877 HDIFN_diazC define_tavg_field: id = 878 HDIFB_diazC define_tavg_field: id = 879 HDIF_EXPLICIT_3D_diazFe define_tavg_field: id = 880 HDIFE_diazFe define_tavg_field: id = 881 HDIFN_diazFe define_tavg_field: id = 882 HDIFB_diazFe define_tavg_field: id = 883 HDIF_EXPLICIT_3D_IAGE define_tavg_field: id = 884 HDIFE_IAGE define_tavg_field: id = 885 HDIFN_IAGE define_tavg_field: id = 886 HDIFB_IAGE ======================================================================== Advection: advect_nml namelist settings: &ADVECT_NML TADVECT_CTYPE = upwind3 / ------------------------------------------------------------------------ Advection options ------------------------------------------------------------------------ Using upwind3 for all tracers. define_tavg_field: id = 887 WVEL define_tavg_field: id = 888 WVEL2 define_tavg_field: id = 889 UTE_POS define_tavg_field: id = 890 UTE_NEG define_tavg_field: id = 891 VTN_POS define_tavg_field: id = 892 VTN_NEG define_tavg_field: id = 893 WTK_POS define_tavg_field: id = 894 WTK_NEG define_tavg_field: id = 895 UEU define_tavg_field: id = 896 VNU define_tavg_field: id = 897 UEV define_tavg_field: id = 898 VNV define_tavg_field: id = 899 WTU define_tavg_field: id = 900 WTV define_tavg_field: id = 901 UET define_tavg_field: id = 902 VNT define_tavg_field: id = 903 WTT define_tavg_field: id = 904 UES define_tavg_field: id = 905 VNS define_tavg_field: id = 906 WTS define_tavg_field: id = 907 ADVT define_tavg_field: id = 908 ADVS define_tavg_field: id = 909 UE_PO4 define_tavg_field: id = 910 VN_PO4 define_tavg_field: id = 911 WT_PO4 define_tavg_field: id = 912 ADV_PO4 define_tavg_field: id = 913 UE_NO3 define_tavg_field: id = 914 VN_NO3 define_tavg_field: id = 915 WT_NO3 define_tavg_field: id = 916 ADV_NO3 define_tavg_field: id = 917 UE_SiO3 define_tavg_field: id = 918 VN_SiO3 define_tavg_field: id = 919 WT_SiO3 define_tavg_field: id = 920 ADV_SiO3 define_tavg_field: id = 921 UE_NH4 define_tavg_field: id = 922 VN_NH4 define_tavg_field: id = 923 WT_NH4 define_tavg_field: id = 924 ADV_NH4 define_tavg_field: id = 925 UE_Fe define_tavg_field: id = 926 VN_Fe define_tavg_field: id = 927 WT_Fe define_tavg_field: id = 928 ADV_Fe define_tavg_field: id = 929 UE_O2 define_tavg_field: id = 930 VN_O2 define_tavg_field: id = 931 WT_O2 define_tavg_field: id = 932 ADV_O2 define_tavg_field: id = 933 UE_DIC define_tavg_field: id = 934 VN_DIC define_tavg_field: id = 935 WT_DIC define_tavg_field: id = 936 ADV_DIC define_tavg_field: id = 937 UE_DIC_ALT_CO2 define_tavg_field: id = 938 VN_DIC_ALT_CO2 define_tavg_field: id = 939 WT_DIC_ALT_CO2 define_tavg_field: id = 940 ADV_DIC_ALT_CO2 define_tavg_field: id = 941 UE_ALK define_tavg_field: id = 942 VN_ALK define_tavg_field: id = 943 WT_ALK define_tavg_field: id = 944 ADV_ALK define_tavg_field: id = 945 UE_DOC define_tavg_field: id = 946 VN_DOC define_tavg_field: id = 947 WT_DOC define_tavg_field: id = 948 ADV_DOC define_tavg_field: id = 949 UE_DON define_tavg_field: id = 950 VN_DON define_tavg_field: id = 951 WT_DON define_tavg_field: id = 952 ADV_DON define_tavg_field: id = 953 UE_DOP define_tavg_field: id = 954 VN_DOP define_tavg_field: id = 955 WT_DOP define_tavg_field: id = 956 ADV_DOP define_tavg_field: id = 957 UE_DOPr define_tavg_field: id = 958 VN_DOPr define_tavg_field: id = 959 WT_DOPr define_tavg_field: id = 960 ADV_DOPr define_tavg_field: id = 961 UE_DONr define_tavg_field: id = 962 VN_DONr define_tavg_field: id = 963 WT_DONr define_tavg_field: id = 964 ADV_DONr define_tavg_field: id = 965 UE_DOCr define_tavg_field: id = 966 VN_DOCr define_tavg_field: id = 967 WT_DOCr define_tavg_field: id = 968 ADV_DOCr define_tavg_field: id = 969 UE_zooC define_tavg_field: id = 970 VN_zooC define_tavg_field: id = 971 WT_zooC define_tavg_field: id = 972 ADV_zooC define_tavg_field: id = 973 UE_spChl define_tavg_field: id = 974 VN_spChl define_tavg_field: id = 975 WT_spChl define_tavg_field: id = 976 ADV_spChl define_tavg_field: id = 977 UE_spC define_tavg_field: id = 978 VN_spC define_tavg_field: id = 979 WT_spC define_tavg_field: id = 980 ADV_spC define_tavg_field: id = 981 UE_spFe define_tavg_field: id = 982 VN_spFe define_tavg_field: id = 983 WT_spFe define_tavg_field: id = 984 ADV_spFe define_tavg_field: id = 985 UE_spCaCO3 define_tavg_field: id = 986 VN_spCaCO3 define_tavg_field: id = 987 WT_spCaCO3 define_tavg_field: id = 988 ADV_spCaCO3 define_tavg_field: id = 989 UE_diatChl define_tavg_field: id = 990 VN_diatChl define_tavg_field: id = 991 WT_diatChl define_tavg_field: id = 992 ADV_diatChl define_tavg_field: id = 993 UE_diatC define_tavg_field: id = 994 VN_diatC define_tavg_field: id = 995 WT_diatC define_tavg_field: id = 996 ADV_diatC define_tavg_field: id = 997 UE_diatFe define_tavg_field: id = 998 VN_diatFe define_tavg_field: id = 999 WT_diatFe define_tavg_field: id = 1000 ADV_diatFe define_tavg_field: id = 1001 UE_diatSi define_tavg_field: id = 1002 VN_diatSi define_tavg_field: id = 1003 WT_diatSi define_tavg_field: id = 1004 ADV_diatSi define_tavg_field: id = 1005 UE_diazChl define_tavg_field: id = 1006 VN_diazChl define_tavg_field: id = 1007 WT_diazChl define_tavg_field: id = 1008 ADV_diazChl define_tavg_field: id = 1009 UE_diazC define_tavg_field: id = 1010 VN_diazC define_tavg_field: id = 1011 WT_diazC define_tavg_field: id = 1012 ADV_diazC define_tavg_field: id = 1013 UE_diazFe define_tavg_field: id = 1014 VN_diazFe define_tavg_field: id = 1015 WT_diazFe define_tavg_field: id = 1016 ADV_diazFe define_tavg_field: id = 1017 UE_IAGE define_tavg_field: id = 1018 VN_IAGE define_tavg_field: id = 1019 WT_IAGE define_tavg_field: id = 1020 ADV_IAGE define_tavg_field: id = 1021 ADV_3D_TEMP define_tavg_field: id = 1022 ADV_3D_SALT define_tavg_field: id = 1023 ADV_3D_PO4 define_tavg_field: id = 1024 ADV_3D_NO3 define_tavg_field: id = 1025 ADV_3D_SiO3 define_tavg_field: id = 1026 ADV_3D_NH4 define_tavg_field: id = 1027 ADV_3D_Fe define_tavg_field: id = 1028 ADV_3D_O2 define_tavg_field: id = 1029 ADV_3D_DIC define_tavg_field: id = 1030 ADV_3D_DIC_ALT_CO2 define_tavg_field: id = 1031 ADV_3D_ALK define_tavg_field: id = 1032 ADV_3D_DOC define_tavg_field: id = 1033 ADV_3D_DON define_tavg_field: id = 1034 ADV_3D_DOP define_tavg_field: id = 1035 ADV_3D_DOPr define_tavg_field: id = 1036 ADV_3D_DONr define_tavg_field: id = 1037 ADV_3D_DOCr define_tavg_field: id = 1038 ADV_3D_zooC define_tavg_field: id = 1039 ADV_3D_spChl define_tavg_field: id = 1040 ADV_3D_spC define_tavg_field: id = 1041 ADV_3D_spFe define_tavg_field: id = 1042 ADV_3D_spCaCO3 define_tavg_field: id = 1043 ADV_3D_diatChl define_tavg_field: id = 1044 ADV_3D_diatC define_tavg_field: id = 1045 ADV_3D_diatFe define_tavg_field: id = 1046 ADV_3D_diatSi define_tavg_field: id = 1047 ADV_3D_diazChl define_tavg_field: id = 1048 ADV_3D_diazC define_tavg_field: id = 1049 ADV_3D_diazFe define_tavg_field: id = 1050 ADV_3D_IAGE define_tavg_field: id = 1051 PV define_tavg_field: id = 1052 Q define_tavg_field: id = 1053 PD define_tavg_field: id = 1054 RHOU define_tavg_field: id = 1055 RHOV define_tavg_field: id = 1056 URHO define_tavg_field: id = 1057 VRHO define_tavg_field: id = 1058 WRHO define_tavg_field: id = 1059 PVWM define_tavg_field: id = 1060 PVWP define_tavg_field: id = 1061 UPV define_tavg_field: id = 1062 VPV define_tavg_field: id = 1063 UQ define_tavg_field: id = 1064 VQ ======================================================================== Short-wave absorption: sw_absorption namelist &SW_ABSORPTION_NML SW_ABSORPTION_TYPE = chlorophyll , JERLOV_WATER_TYPE = 3, CHL_OPTION = model , CHL_FILENAME = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/chl_filled_20061230.ieeer8 , CHL_FILE_FMT = bin / Chlorophyll transmission table computed define_tavg_field: id = 1065 QSW_HTP define_tavg_field: id = 1066 QSW_3D ======================================================================== Estuary VSF parameterization: Estuary VSF parametierzation namelist &ESTUARY_NML ESTUARY_OPTION = on , ESTUARY_TYPE = vsf_ebm , EBM_PARAM_OPTION = file , EBM_PARAM_FILENAME = /glade/u/home/qiangsun/QS_CESM/EBM_para_infile/EBMparameter_global_HU20HL20_allROFF_CESM2B.nc , EBM_PARAM_FILE_FMT = nc , TIDE_AMP = 1.00000000000000 , W_H = 2000.00000000000 , H = 10.0000000000000 , A1 = 0.876000000000000 , A2 = 0.000000000000000E+000, H0 = 0.500000000000000 , H_UPPER = 15.0000000000000 , H_LOWER = 25.0000000000000 / define_tavg_field: id = 1067 S_lower_layer define_tavg_field: id = 1068 S_upper_layer define_tavg_field: id = 1069 Q_lower define_tavg_field: id = 1070 Q_upper define_tavg_field: id = 1071 T_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1072 S_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1073 T_FLUX_ROFF_VSF define_tavg_field: id = 1074 S_FLUX_ROFF_VSF define_tavg_field: id = 1075 T_FLUX_EXCH_INTRF define_tavg_field: id = 1076 S_FLUX_EXCH_INTRF define_tavg_field: id = 1077 T_FLUX_EXCH define_tavg_field: id = 1078 S_FLUX_EXCH define_tavg_field: id = 1079 PO4_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1080 PO4_FLUX_ROFF_VSF define_tavg_field: id = 1081 PO4_FLUX_EXCH_INTRF define_tavg_field: id = 1082 PO4_FLUX_EXCH define_tavg_field: id = 1083 NO3_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1084 NO3_FLUX_ROFF_VSF define_tavg_field: id = 1085 NO3_FLUX_EXCH_INTRF define_tavg_field: id = 1086 NO3_FLUX_EXCH define_tavg_field: id = 1087 SiO3_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1088 SiO3_FLUX_ROFF_VSF define_tavg_field: id = 1089 SiO3_FLUX_EXCH_INTRF define_tavg_field: id = 1090 SiO3_FLUX_EXCH define_tavg_field: id = 1091 NH4_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1092 NH4_FLUX_ROFF_VSF define_tavg_field: id = 1093 NH4_FLUX_EXCH_INTRF define_tavg_field: id = 1094 NH4_FLUX_EXCH define_tavg_field: id = 1095 Fe_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1096 Fe_FLUX_ROFF_VSF define_tavg_field: id = 1097 Fe_FLUX_EXCH_INTRF define_tavg_field: id = 1098 Fe_FLUX_EXCH define_tavg_field: id = 1099 O2_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1100 O2_FLUX_ROFF_VSF define_tavg_field: id = 1101 O2_FLUX_EXCH_INTRF define_tavg_field: id = 1102 O2_FLUX_EXCH define_tavg_field: id = 1103 DIC_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1104 DIC_FLUX_ROFF_VSF define_tavg_field: id = 1105 DIC_FLUX_EXCH_INTRF define_tavg_field: id = 1106 DIC_FLUX_EXCH define_tavg_field: id = 1107 DIC_ALT_CO2_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1108 DIC_ALT_CO2_FLUX_ROFF_VSF define_tavg_field: id = 1109 DIC_ALT_CO2_FLUX_EXCH_INTRF define_tavg_field: id = 1110 DIC_ALT_CO2_FLUX_EXCH define_tavg_field: id = 1111 ALK_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1112 ALK_FLUX_ROFF_VSF define_tavg_field: id = 1113 ALK_FLUX_EXCH_INTRF define_tavg_field: id = 1114 ALK_FLUX_EXCH define_tavg_field: id = 1115 DOC_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1116 DOC_FLUX_ROFF_VSF define_tavg_field: id = 1117 DOC_FLUX_EXCH_INTRF define_tavg_field: id = 1118 DOC_FLUX_EXCH define_tavg_field: id = 1119 DON_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1120 DON_FLUX_ROFF_VSF define_tavg_field: id = 1121 DON_FLUX_EXCH_INTRF define_tavg_field: id = 1122 DON_FLUX_EXCH define_tavg_field: id = 1123 DOP_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1124 DOP_FLUX_ROFF_VSF define_tavg_field: id = 1125 DOP_FLUX_EXCH_INTRF define_tavg_field: id = 1126 DOP_FLUX_EXCH define_tavg_field: id = 1127 DOPr_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1128 DOPr_FLUX_ROFF_VSF define_tavg_field: id = 1129 DOPr_FLUX_EXCH_INTRF define_tavg_field: id = 1130 DOPr_FLUX_EXCH define_tavg_field: id = 1131 DONr_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1132 DONr_FLUX_ROFF_VSF define_tavg_field: id = 1133 DONr_FLUX_EXCH_INTRF define_tavg_field: id = 1134 DONr_FLUX_EXCH define_tavg_field: id = 1135 DOCr_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1136 DOCr_FLUX_ROFF_VSF define_tavg_field: id = 1137 DOCr_FLUX_EXCH_INTRF define_tavg_field: id = 1138 DOCr_FLUX_EXCH define_tavg_field: id = 1139 zooC_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1140 zooC_FLUX_ROFF_VSF define_tavg_field: id = 1141 zooC_FLUX_EXCH_INTRF define_tavg_field: id = 1142 zooC_FLUX_EXCH define_tavg_field: id = 1143 spChl_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1144 spChl_FLUX_ROFF_VSF define_tavg_field: id = 1145 spChl_FLUX_EXCH_INTRF define_tavg_field: id = 1146 spChl_FLUX_EXCH define_tavg_field: id = 1147 spC_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1148 spC_FLUX_ROFF_VSF define_tavg_field: id = 1149 spC_FLUX_EXCH_INTRF define_tavg_field: id = 1150 spC_FLUX_EXCH define_tavg_field: id = 1151 spFe_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1152 spFe_FLUX_ROFF_VSF define_tavg_field: id = 1153 spFe_FLUX_EXCH_INTRF define_tavg_field: id = 1154 spFe_FLUX_EXCH define_tavg_field: id = 1155 spCaCO3_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1156 spCaCO3_FLUX_ROFF_VSF define_tavg_field: id = 1157 spCaCO3_FLUX_EXCH_INTRF define_tavg_field: id = 1158 spCaCO3_FLUX_EXCH define_tavg_field: id = 1159 diatChl_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1160 diatChl_FLUX_ROFF_VSF define_tavg_field: id = 1161 diatChl_FLUX_EXCH_INTRF define_tavg_field: id = 1162 diatChl_FLUX_EXCH define_tavg_field: id = 1163 diatC_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1164 diatC_FLUX_ROFF_VSF define_tavg_field: id = 1165 diatC_FLUX_EXCH_INTRF define_tavg_field: id = 1166 diatC_FLUX_EXCH define_tavg_field: id = 1167 diatFe_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1168 diatFe_FLUX_ROFF_VSF define_tavg_field: id = 1169 diatFe_FLUX_EXCH_INTRF define_tavg_field: id = 1170 diatFe_FLUX_EXCH define_tavg_field: id = 1171 diatSi_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1172 diatSi_FLUX_ROFF_VSF define_tavg_field: id = 1173 diatSi_FLUX_EXCH_INTRF define_tavg_field: id = 1174 diatSi_FLUX_EXCH define_tavg_field: id = 1175 diazChl_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1176 diazChl_FLUX_ROFF_VSF define_tavg_field: id = 1177 diazChl_FLUX_EXCH_INTRF define_tavg_field: id = 1178 diazChl_FLUX_EXCH define_tavg_field: id = 1179 diazC_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1180 diazC_FLUX_ROFF_VSF define_tavg_field: id = 1181 diazC_FLUX_EXCH_INTRF define_tavg_field: id = 1182 diazC_FLUX_EXCH define_tavg_field: id = 1183 diazFe_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1184 diazFe_FLUX_ROFF_VSF define_tavg_field: id = 1185 diazFe_FLUX_EXCH_INTRF define_tavg_field: id = 1186 diazFe_FLUX_EXCH define_tavg_field: id = 1187 IAGE_FLUX_ROFF_VSF_SRF define_tavg_field: id = 1188 IAGE_FLUX_ROFF_VSF define_tavg_field: id = 1189 IAGE_FLUX_EXCH_INTRF define_tavg_field: id = 1190 IAGE_FLUX_EXCH define_tavg_field: id = 1191 QFLUX ------------------------------------------------------------------------ Marginal-sea balancing information ------------------------------------------------------------------------ ------------------------------------------------------------------------ Diagnostic options ------------------------------------------------------------------------ Global diagnostics computed every 1 days Global diagnostics written to file: /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/./b.e15.B1850.f09_g16.pi_control.all.119.pop.dd.0070-01-01-00000 Equatorial velocities written to file: /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/./b.e15.B1850.f09_g16.pi_control.all.119.pop.dv.0070-01-01-00000 CFL diagnostics computed every 1 months CFL diagnostics written to file: /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/./b.e15.B1850.f09_g16.pi_control.all.119.pop.dd.0070-01-01-00000 Transport diagnostics computed every 1 months Transport diagnostics written to file: /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/./b.e15.B1850.f09_g16.pi_control.all.119.pop.dt.0070-01-01-00000 The following 11 transports will be computed Drake Passage Mozambique Channel Bering Strait Northwest Passage Indonesian Throughflow I Indonesian Throughflow II Florida Strait Windward Passage I Windward Passage II Gibraltar Nares Strait define_tavg_field: id = 1192 HMXL define_tavg_field: id = 1193 HMXL_2 define_tavg_field: id = 1194 HMXL_DR define_tavg_field: id = 1195 XMXL define_tavg_field: id = 1196 XMXL_2 define_tavg_field: id = 1197 TMXL define_tavg_field: id = 1198 HBLT define_tavg_field: id = 1199 XBLT define_tavg_field: id = 1200 TBLT Velocity diagnostics will be computed at the following locations: (231,187) ( 0.000000000000000, 219.875006118579222) (231,194) ( 1.871044944959805, 219.875081237234184) ( 13,187) ( 0.000000000000000, 334.625009311788915) ( 13,195) ( 2.128333088942848, 334.624980961780523) (258,187) ( 0.000000000000000, 250.250006963840605) ------------------------------------------------------------------------ End Diagnostic opt ------------------------------------------------------------------------ Overflow diagnostics written to file: /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/./b.e15.B1850.f09_g16.pi_control.all.119.pop.do.0070-01-01-00000 regular restart writes will start at step 0 ======================================================================== History output options ------------------------------------------------------------------------ History output disabled ------------------------------------------------------------------------ Movie option ------------------------------------------------------------------------ ======================================================================== Movie: movie_nml namelist settings: &MOVIE_NML MOVIE_FREQ_OPT = never , MOVIE_FREQ = 1, MOVIE_OUTFILE = ./b.e15.B1850.f09_g16.pi_control.all.119.pop.hm , MOVIE_CONTENTS = /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/gx1v6_movie_contents , MOVIE_FMT = nc / movie diagnostics off ======================================================================== Tavg: ------------------------------------------------------------------------ tavg_nml namelist settings: &TAVG_NML TAVG_FREQ_OPT = nmonth nday once nday nyear never never never never , TAVG_FREQ = 5*1, 4*100000, TAVG_INFILE = ./b.e15.B1850.f09_g16.pi_control.all.119.pop.hrestart.end , TAVG_OUTFILE = ./b.e15.B1850.f09_g16.pi_control.all.119.pop.h , TAVG_CONTENTS = /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/gx1v6_tavg_contents , TAVG_START_OPT = nstep nstep nstep nstep nstep nstep nstep nstep nstep , TAVG_START = 9*0, TAVG_FMT_IN = nc nc nc nc nc nc nc nc nc , TAVG_FMT_OUT = nc nc nc nc nc nc nc nc nc , TAVG_STREAM_FILESTRINGS = nmonth1 nday1 once ecosys.nday1 ecosys.nyear1 , LTAVG_NINO_DIAGS_REQUESTED = T, N_TAVG_STREAMS = 5, LTAVG_IGNORE_EXTRA_STREAMS = F, LTAVG_STREAMS_INDEX_PRESENT = T, LTAVG_HAS_OFFSET_DATE = 9*F, TAVG_OFFSET_YEARS = 9*1, TAVG_OFFSET_MONTHS = 9*1, TAVG_OFFSET_DAYS = 5*2, 4*1, LTAVG_ONE_TIME_HEADER = 9*F, TAVG_FILE_FREQ_OPT = nmonth nmonth once nmonth nyear never never never never , TAVG_FILE_FREQ = 5*1, 4*100000 / There will be 5 tavg output streams created during this run ------------------------------------------------------------------------ stream # 1: tavg diagnostics every 1 months stream # 1: tavg sums accumulated starting at step 0 stream # 1: tavg diagnostics every 1 months stream # 2: tavg diagnostics every 1 days stream # 2: tavg sums accumulated starting at step 0 stream # 2: tavg diagnostics every 1 months stream # 3tavg fields written once (time-invariant fields) stream # 3: tavg sums accumulated starting at step 0 stream # 3tavg file written once (time-invariant fields) stream # 4: tavg diagnostics every 1 days stream # 4: tavg sums accumulated starting at step 0 stream # 4: tavg diagnostics every 1 months stream # 5: tavg diagnostics every 1 years stream # 5: tavg sums accumulated starting at step 0 stream # 5: tavg diagnostics every 1 years define_tavg_field: id = 1201 BSF There are 420 tavg fields requested via tavg_contents. (init_tavg) total number of lines in tavg_contents file = 420 tavg diagnostics requested for fields: (init_tavg) inactive tavg_contents field: = An integer [1,9] in the first column identifies the field's output stream number. (init_tavg) inactive tavg_contents field: = To deactivate a field, replace the output stream number with # or ! 1 QFLUX 1 BSF 1 TFW_T 1 TFW_S 1 RESID_T 1 RESID_S 1 QSW_HTP 1 QSW_HBL 1 SHF 1 SHF_QSW 1 SFWF 1 PREC_F 1 SNOW_F 1 EVAP_F 1 MELT_F 1 ROFF_F 1 IOFF_F 1 SALT_F 1 SENH_F 1 LWUP_F 1 LWDN_F 1 MELTH_F 1 IFRAC 1 SSH 1 TAUX 1 TAUY 1 SU 1 SV 1 HMXL 2 HMXL_2 1 HMXL_DR 1 XMXL 2 XMXL_2 1 TMXL 1 HBLT 1 XBLT 1 TBLT 1 FW 1 ADVT 1 ADVS 1 HDIFT 1 HDIFS 1 UVEL 1 VVEL 1 WVEL 1 TEMP 1 dTEMP_POS_2D 1 dTEMP_NEG_2D 1 SALT 1 PD 1 Q 1 RHO 1 UET 1 UES 1 VNT 1 VNS 1 WTT 1 WTS 1 KAPPA_ISOP 1 KAPPA_THIC 1 HOR_DIFF 1 PV 1 UISOP 1 VISOP 1 WISOP 1 ADVT_ISOP 1 ADVS_ISOP 1 VNT_ISOP 1 VNS_ISOP 1 KVMIX 1 TPOWER 1 DIA_DEPTH 1 TLT 1 INT_DEPTH 1 USUBM 1 VSUBM 1 WSUBM 1 ADVT_SUBM 1 ADVS_SUBM 1 VNT_SUBM 1 VNS_SUBM 1 HLS_SUBM 2 SST 2 SST2 1 VDC_T 1 VDC_S 1 UVEL2 1 VVEL2 1 WVEL2 1 RHO_VINT 1 SFWF_WRST 1 TAUX2 1 TAUY2 1 SSH2 1 VVC 3 VDC_BCK 3 VVC_BCK 1 KVMIX_M 1 T_FLUX_ROFF_VSF 1 T_FLUX_EXCH_INTRF 1 T_FLUX_EXCH 1 S_FLUX_ROFF_VSF 1 S_FLUX_EXCH_INTRF 1 S_FLUX_EXCH 1 S_lower_layer 1 S_upper_layer 1 Q_lower 1 Q_upper (init_tavg) inactive tavg_contents field: = SALT_MAX (init_tavg) inactive tavg_contents field: = SALT_MIN (init_tavg) inactive tavg_contents field: = TEMP_MAX (init_tavg) inactive tavg_contents field: = TEMP_MIN 1 HDIFE_TEMP 1 HDIFN_TEMP 1 HDIFB_TEMP 1 DIA_IMPVF_TEMP 1 KPP_SRC_TEMP 1 HDIFE_SALT 1 HDIFN_SALT 1 HDIFB_SALT 1 DIA_IMPVF_SALT 1 KPP_SRC_SALT 1 QSW_3D 1 IAGE 1 IAGE_RESET_TEND 1 DIA_IMPVF_IAGE 1 HDIFE_IAGE 1 HDIFN_IAGE 1 HDIFB_IAGE 1 UE_IAGE 1 VN_IAGE 1 WT_IAGE 1 ECOSYS_ATM_PRESS 1 ECOSYS_IFRAC 1 ECOSYS_XKW 1 SCHMIDT_O2 1 SCHMIDT_CO2 1 IRON_FLUX 1 NOx_FLUX 1 NHy_FLUX 1 STF_ALK 1 PH 1 O2SAT 1 STF_O2 1 CO2STAR 1 DCO2STAR 1 pCO2SURF 1 DpCO2 1 FG_CO2 1 ATM_CO2 1 FvPER_DIC 1 FvICE_DIC 1 FvPER_ALK 1 FvICE_ALK 1 PO4 1 NO3 1 SiO3 1 NH4 1 Fe 1 O2 1 O2_ZMIN 1 O2_ZMIN_DEPTH 1 O2_PRODUCTION 1 O2_CONSUMPTION 1 AOU 1 DIC 1 J_DIC 1 ALK 1 H2CO3 1 HCO3 1 CO3 1 pH_3D 1 co3_sat_calc 1 zsatcalc 1 co3_sat_arag 1 zsatarag 1 DOC 1 DOC_prod 1 DOC_remin 1 DOCr_remin 1 zooC 1 DON 1 DON_remin 1 DONr_remin 1 DOP 1 DOP_remin 1 DOPr_remin 1 DONr 1 DOPr 1 DOCr 1 DIN_RIV_FLUX 1 DIP_RIV_FLUX 1 DON_RIV_FLUX 1 DONr_RIV_FLUX 1 DOP_RIV_FLUX 1 DOPr_RIV_FLUX 1 DOC_RIV_FLUX 1 DOCr_RIV_FLUX 1 DSI_RIV_FLUX 1 DFE_RIV_FLUX 1 DIC_RIV_FLUX 1 ALK_RIV_FLUX 1 calcToSed 1 pocToSed 1 ponToSed 1 popToSed 1 pfeToSed 1 dustToSed 1 SedDenitrif 1 bsiToSed 1 CaCO3_form 1 Fe_scavenge 1 Fe_scavenge_rate 1 bSi_form 1 NITRIF 1 DENITRIF 1 POC_PROD 1 POC_REMIN 1 POC_REMIN_DIC 1 PON_REMIN_NH4 1 POP_REMIN_PO4 1 CaCO3_PROD 1 SiO2_PROD 1 P_iron_PROD 1 POC_FLUX_IN 1 CaCO3_FLUX_IN 1 SiO2_FLUX_IN 1 P_iron_FLUX_IN 1 dust_FLUX_IN 1 PAR_avg 1 DON_prod 1 DOP_prod 1 zoo_loss 1 Jint_100m_DIC 1 Jint_100m_NO3 1 Jint_100m_NH4 1 Jint_100m_PO4 1 Jint_100m_Fe 1 Jint_100m_SiO3 1 Jint_100m_ALK 1 Jint_100m_O2 1 Jint_100m_DOC 1 tend_zint_100m_DIC 1 tend_zint_100m_NO3 1 tend_zint_100m_NH4 1 tend_zint_100m_PO4 1 tend_zint_100m_Fe 1 tend_zint_100m_SiO3 1 tend_zint_100m_ALK 1 tend_zint_100m_O2 1 tend_zint_100m_DOC 4 CaCO3_form_zint 4 ECOSYS_IFRAC_2 4 ECOSYS_XKW_2 4 DpCO2_2 4 FG_CO2_2 4 STF_O2_2 4 zooC_zint_100m 5 J_NO3 5 J_NH4 5 J_PO4 5 J_Fe 5 J_SiO3 5 J_ALK 5 UE_O2 5 VN_O2 5 WT_O2 5 KPP_SRC_O2 5 DIA_IMPVF_O2 5 HDIFE_O2 5 HDIFN_O2 5 HDIFB_O2 5 UE_DOC 5 VN_DOC 5 WT_DOC 5 DIA_IMPVF_DOC 5 HDIFE_DOC 5 HDIFN_DOC 5 HDIFB_DOC 5 UE_DIC 5 VN_DIC 5 WT_DIC 5 KPP_SRC_DIC 5 DIA_IMPVF_DIC 5 HDIFE_DIC 5 HDIFN_DIC 5 HDIFB_DIC 5 UE_Fe 5 VN_Fe 5 WT_Fe 5 KPP_SRC_Fe 5 DIA_IMPVF_Fe 5 HDIFE_Fe 5 HDIFN_Fe 5 HDIFB_Fe 1 spChl 1 spC 1 spFe 1 graze_sp 1 sp_agg 1 photoC_sp 1 photoC_NO3_sp 1 photoNO3_sp 1 photoNH4_sp 1 photoFe_sp 1 DOP_sp_uptake 1 PO4_sp_uptake 1 sp_Fe_lim 1 sp_P_lim 1 sp_light_lim 1 sp_loss 4 photoC_sp_zint 1 photoC_NO3_sp_zint 4 spC_zint_100m 4 spChl_SURF 1 sp_N_lim 1 diatChl 1 diatC 1 diatFe 1 graze_diat 1 diat_agg 1 photoC_diat 1 photoC_NO3_diat 1 photoNO3_diat 1 photoNH4_diat 1 photoFe_diat 1 DOP_diat_uptake 1 PO4_diat_uptake 1 diat_Fe_lim 1 diat_P_lim 1 diat_light_lim 1 diat_loss 4 photoC_diat_zint 1 photoC_NO3_diat_zint 4 diatC_zint_100m 4 diatChl_SURF 1 diat_N_lim 1 diazChl 1 diazC 1 diazFe 1 graze_diaz 1 diaz_agg 1 photoC_diaz 1 photoC_NO3_diaz 1 photoNO3_diaz 1 photoNH4_diaz 1 photoFe_diaz 1 DOP_diaz_uptake 1 PO4_diaz_uptake 1 diaz_Fe_lim 1 diaz_P_lim 1 diaz_light_lim 1 diaz_loss 4 photoC_diaz_zint 1 photoC_NO3_diaz_zint 4 diazC_zint_100m 4 diazChl_SURF 1 diaz_Nfix 1 spCaCO3 4 spCaCO3_zint_100m 1 diatSi 1 diat_SiO3_lim 1 Jint_Ctot 1 Jint_100m_Ctot 1 Jint_Ntot 1 Jint_100m_Ntot 1 Jint_Ptot 1 Jint_100m_Ptot 1 Jint_Sitot 1 Jint_100m_Sitot 1 Jint_Fetot 1 Jint_100m_Fetot (init_tavg) inactive tavg_contents field: = FRAC_BIN_01 1 FRACR_BIN_01 (init_tavg) inactive tavg_contents field: = QSW_RAW_BIN_01 1 QSW_BIN_01 (init_tavg) inactive tavg_contents field: = FRAC_BIN_02 1 FRACR_BIN_02 (init_tavg) inactive tavg_contents field: = QSW_RAW_BIN_02 1 QSW_BIN_02 (init_tavg) inactive tavg_contents field: = FRAC_BIN_03 1 FRACR_BIN_03 (init_tavg) inactive tavg_contents field: = QSW_RAW_BIN_03 1 QSW_BIN_03 (init_tavg) inactive tavg_contents field: = FRAC_BIN_04 1 FRACR_BIN_04 (init_tavg) inactive tavg_contents field: = QSW_RAW_BIN_04 1 QSW_BIN_04 (init_tavg) inactive tavg_contents field: = FRAC_BIN_05 1 FRACR_BIN_05 (init_tavg) inactive tavg_contents field: = QSW_RAW_BIN_05 1 QSW_BIN_05 (init_tavg) inactive tavg_contents field: = FRAC_BIN_06 1 FRACR_BIN_06 (init_tavg) inactive tavg_contents field: = QSW_RAW_BIN_06 1 QSW_BIN_06 (init_tavg) inactive tavg_contents field: = FRAC_COL_01 (init_tavg) inactive tavg_contents field: = FRACR_COL_01 (init_tavg) inactive tavg_contents field: = QSW_RAW_COL_01 (init_tavg) inactive tavg_contents field: = FRAC_COL_02 (init_tavg) inactive tavg_contents field: = FRACR_COL_02 (init_tavg) inactive tavg_contents field: = QSW_RAW_COL_02 (init_tavg) inactive tavg_contents field: = FRAC_COL_03 (init_tavg) inactive tavg_contents field: = FRACR_COL_03 (init_tavg) inactive tavg_contents field: = QSW_RAW_COL_03 (init_tavg) inactive tavg_contents field: = FRAC_COL_04 (init_tavg) inactive tavg_contents field: = FRACR_COL_04 (init_tavg) inactive tavg_contents field: = QSW_RAW_COL_04 (init_tavg) inactive tavg_contents field: = FRAC_COL_05 (init_tavg) inactive tavg_contents field: = FRACR_COL_05 (init_tavg) inactive tavg_contents field: = QSW_RAW_COL_05 (init_tavg) inactive tavg_contents field: = FRAC_COL_06 (init_tavg) inactive tavg_contents field: = FRACR_COL_06 (init_tavg) inactive tavg_contents field: = QSW_RAW_COL_06 (init_tavg) inactive tavg_contents field: = QSW_RAW_COL_DAGG (init_tavg) inactive tavg_contents field: = QSW_RAW_BIN_DAGG (init_tavg) inactive tavg_contents field: = FRAC_ADJUST_FACT (init_tavg) inactive tavg_contents field: = FRACR_ADJUST_FACT (init_tavg) Total number of tavg fields requested = 380 (init_tavg) tavg_streams( 1 )%ltavg_qflux_method_on = T (init_tavg) tavg_streams( 2 )%ltavg_qflux_method_on = F (init_tavg) tavg_streams( 3 )%ltavg_qflux_method_on = F (init_tavg) tavg_streams( 4 )%ltavg_qflux_method_on = F (init_tavg) tavg_streams( 5 )%ltavg_qflux_method_on = F ======================================================================== Transport Diagnostics: transports_nml namelist settings: &TRANSPORTS_NML LAT_AUX_GRID_TYPE = southern , LAT_AUX_BEGIN = -90.0000000000000 , LAT_AUX_END = 90.0000000000000 , N_LAT_AUX_GRID = 180, MOC_REQUESTED = T, N_HEAT_TRANS_REQUESTED = T, N_SALT_TRANS_REQUESTED = T, TRANSPORT_REG2_NAMES = Atlantic Ocean Mediterranean Sea Labrador Sea GIN Sea Arctic Ocean Hudson Bay , N_TRANSPORT_REG = 2 / Transport Diagnostics Information _________________________________ Latitudinal Auxiliary Grid Choice is: ... based on flipped Southern Hemisphere latititude grid Transport diagnostics include: MOC N_HEAT N_SALT The following 6 regions will be included in the n_transport_reg = 2 transports: Atlantic Ocean ( 6) Mediterranean Sea ( 7) Labrador Sea ( 8) GIN Sea ( 9) Arctic Ocean (10) Hudson Bay (11) (init_moc_ts_transport_arrays) allocate TR_TRANS_G End of transport regions initialization ======================================================================== ======================================================================== Barotropic Streamfunction Diagnostic: bsf_diagnostic_nml namelist settings: &BSF_DIAGNOSTIC_NML LDIAG_BSF = T / Initializing diagnostic BSF variables .... number of islands = 35 island 1 # points on boundary = 500 island 2 # points on boundary = 1763 island 3 # points on boundary = 44 island 4 # points on boundary = 2330 island 5 # points on boundary = 14 island 6 # points on boundary = 8 island 7 # points on boundary = 8 island 8 # points on boundary = 94 island 9 # points on boundary = 8 island 10 # points on boundary = 58 island 11 # points on boundary = 56 island 12 # points on boundary = 8 island 13 # points on boundary = 21 island 14 # points on boundary = 472 island 15 # points on boundary = 16 island 16 # points on boundary = 14 island 17 # points on boundary = 44 island 18 # points on boundary = 128 island 19 # points on boundary = 16 island 20 # points on boundary = 22 island 21 # points on boundary = 14 island 22 # points on boundary = 56 island 23 # points on boundary = 24 island 24 # points on boundary = 24 island 25 # points on boundary = 18 island 26 # points on boundary = 8 island 27 # points on boundary = 70 island 28 # points on boundary = 10 island 29 # points on boundary = 10 island 30 # points on boundary = 8 island 31 # points on boundary = 14 island 32 # points on boundary = 34 island 33 # points on boundary = 8 island 34 # points on boundary = 32 island 35 # points on boundary = 12 island coefficients: island 1 coefficient = -342.065849211389 island 2 coefficient = -1081.57639039630 island 3 coefficient = -36.3214440006148 island 4 coefficient = -1430.03121351936 island 5 coefficient = -10.3586397347403 island 6 coefficient = -3.43863814922056 island 7 coefficient = -11.3186625866053 island 8 coefficient = -55.7548100369990 island 9 coefficient = -19.2818224871181 island 10 coefficient = -44.4635017900952 island 11 coefficient = -39.4207603751024 island 12 coefficient = -10.5066377649550 island 13 coefficient = -24.3593168124560 island 14 coefficient = -376.069185571957 island 15 coefficient = -31.8482616686225 island 16 coefficient = -14.7284219388454 island 17 coefficient = -49.4991249925431 island 18 coefficient = -95.3971300688251 island 19 coefficient = -34.7871545591953 island 20 coefficient = -32.3446545602342 island 21 coefficient = -23.5895845128128 island 22 coefficient = -37.7042718854958 island 23 coefficient = -19.0002030799944 island 24 coefficient = -15.2638322786331 island 25 coefficient = -20.0387490549100 island 26 coefficient = -15.5023992311597 island 27 coefficient = -52.0819547854242 island 28 coefficient = -9.95405658931480 island 29 coefficient = -19.0791575464353 island 30 coefficient = -14.5418973646153 island 31 coefficient = -23.6682185450112 island 32 coefficient = -39.2381968899929 island 33 coefficient = -16.5856905262603 island 34 coefficient = -49.2625734766268 island 35 coefficient = -13.4814208183382 Internal tavg Diagnostics Control Variables: (init_tavg) ldiag_bsf = T (init_tavg) ldiag_gm_bolus = T (init_tavg) lsubmeso = T ------------------------------------------------------------------------ define_tavg_field: id = 1 MOC define_tavg_field: id = 2 N_HEAT define_tavg_field: id = 3 N_SALT ======================================================================== Budget Diagnostics: budget_diagnostics_nml namelist settings: &BUDGET_DIAGNOSTICS_NML LDIAG_GLOBAL_TRACER_BUDGETS = T / ------------------------------------------------------------------------ Budget Diagnostic Options ------------------------------------------------------------------------ Global tracer budgets diagnostics will be computed (init_budget_diagnostics): tracer budgets are for every 1 months ======================================================================== POP_check: Check for Option Inconsistencies (POP_check) WARNING: time-averaging and coupling frequency may be incompatible; tavg must be integer multiple of coupling freq (POP_check) WARNING: time-averaging and coupling frequency may be incompatible; tavg must be integer multiple of coupling freq (POP_check) WARNING: time-averaging and coupling frequency may be incompatible; tavg must be integer multiple of coupling freq (POP_check) WARNING: time-averaging and coupling frequency may be incompatible; tavg must be integer multiple of coupling freq (POP_check) WARNING: time-averaging and coupling frequency may be incompatible; tavg must be integer multiple of coupling freq (POP_check) No fatal error conditions detected ======================================================================== Constants used in this run: grav = 9.806160000000000E+02 cm/s^2 omega = 7.292123516990375E-05 rad/s radius = 6.371220000000000E+08 cm cp_sw = 3.996000000000000E+07 erg/g/K cp_air = 1.004640000000000E+03 J/kg/K rho_air = 1.292318284692468E+00 kg/m^3 rho_sw = 1.026000000000000E+00 g/cm^3 rho_fw = 1.000000000000000E+00 g/cm^3 sound = 1.500000000000000E+05 cm/s vonkar = 4.000000000000000E-01 emissivity = 1.000000000000000E+00 stefan_boltzmann = 5.670000000000000E-08 W/m^2/K^4 latent_heat_vapor_mk = 2.501000000000000E+06 J/kg latent_heat_fusion = 3.337000000000000E+09 erg/g ocn_ref_salinity = 3.470000000000000E+01 psu sea_ice_salinity = 4.000000000000000E+00 psu T0_Kelvin = 2.731500000000000E+02 K pi = 3.141592653589793E+00 ======================================================================== (ocn_import_mct) orb_eccen = 1.6707719799280658E-02 (ocn_import_mct) orb_mvelpp = 4.9344679089867318E+00 (ocn_import_mct) orb_lambm0 = -3.2503635878519378E-02 (ocn_import_mct) orb_obliqr = 4.0912382465788016E-01 ======================================================================== Time Flags time_flag id = 1 name = stop_now owner = init_time1 has_default = T default = F freq_opt = 0 (never) freq = 0 value = F old_value = F done = F has_offset_date = F time_flag id = 2 name = coupled_ts owner = pop_init_coupled has_default = F default = F freq_opt = 4 (nhour) freq = 2 value = F old_value = T done = F has_offset_date = F time_flag id = 3 name = ice owner = init_ice has_default = T default = F freq_opt = 0 (never) freq = 100000 value = F old_value = F done = F has_offset_date = F time_flag id = 4 name = diag_global owner = init_diagnostics has_default = T default = F freq_opt = 3 (nday) freq = 1 value = F old_value = F done = F has_offset_date = F time_flag id = 5 name = diag_cfl owner = init_diagnostics has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = F old_value = F done = F has_offset_date = F time_flag id = 6 name = diag_transp owner = init_diagnostics has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = F old_value = F done = F has_offset_date = F time_flag id = 7 name = restart owner = init_restart has_default = T default = F freq_opt = 1 (nyear) freq = 100000 value = F old_value = F done = F has_offset_date = F time_flag id = 8 name = evenodd owner = init_restart has_default = T default = F freq_opt = 0 (never) freq = 100000 value = F old_value = F done = F has_offset_date = F time_flag id = 9 name = cpl_write_restart owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F done = F has_offset_date = F time_flag id = 10 name = history owner = init_history has_default = T default = F freq_opt = 0 (never) freq = 1 value = F old_value = F done = F has_offset_date = F time_flag id = 11 name = movie owner = init_movie has_default = T default = F freq_opt = 0 (never) freq = 1 value = F old_value = F done = F has_offset_date = F time_flag id = 12 name = tavg1 owner = init_tavg has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = T old_value = F done = F has_offset_date = F time_flag id = 13 name = tavg_file1 owner = init_tavg has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = F old_value = F done = F has_offset_date = F time_flag id = 14 name = tavg2 owner = init_tavg has_default = T default = F freq_opt = 3 (nday) freq = 1 value = T old_value = F done = F has_offset_date = F time_flag id = 15 name = tavg_file2 owner = init_tavg has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = F old_value = F done = F has_offset_date = F time_flag id = 16 name = tavg3 owner = init_tavg has_default = T default = F freq_opt = 7 (once) freq = 1 value = T old_value = F done = F has_offset_date = F time_flag id = 17 name = tavg_file3 owner = init_tavg has_default = T default = F freq_opt = 7 (once) freq = 1 value = F old_value = F done = F has_offset_date = F time_flag id = 18 name = tavg4 owner = init_tavg has_default = T default = F freq_opt = 3 (nday) freq = 1 value = T old_value = F done = F has_offset_date = F time_flag id = 19 name = tavg_file4 owner = init_tavg has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = F old_value = F done = F has_offset_date = F time_flag id = 20 name = tavg5 owner = init_tavg has_default = T default = F freq_opt = 1 (nyear) freq = 1 value = T old_value = F done = F has_offset_date = F time_flag id = 21 name = tavg_file5 owner = init_tavg has_default = T default = F freq_opt = 1 (nyear) freq = 1 value = F old_value = F done = F has_offset_date = F time_flag id = 22 name = cpl_write_history owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F done = F has_offset_date = F time_flag id = 23 name = cpl_write_tavg owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F done = F has_offset_date = F time_flag id = 24 name = cpl_diag_global owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F done = F has_offset_date = F time_flag id = 25 name = cpl_diag_transp owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F done = F has_offset_date = F ======================================================================== End of initialization ======================================================================== ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.9179E+10 vsf_slocal (global sum) -4.0578E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3941E-09 VOLUME AND TRACER BUDGET INITIALIZATION: ======================================== volume_t (cm^3) = 0.132514028775E+25 SUM [volume*T] (C cm^3) = 0.522832019110E+25 SUM [volume*S] (ppt cm^3) = 0.460073412104E+26 (passive_tracer_tools:read_field_3D) reading DSTSF from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/dst79gnx_gx1v6_090416_no_ms_c150702.nc (passive_tracer_tools:read_field_3D) reading DSTSF from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/solFe_scenario4_current_gx1v6_no_ms_c150702.nc (passive_tracer_tools:read_field_3D) reading NOy_deposition from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/ndep_ocn_1850_gx1v6_no_ms_c150702.nc (passive_tracer_tools:read_field_3D) reading NHx_deposition from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/ndep_ocn_1850_gx1v6_no_ms_c150702.nc (passive_tracer_tools:read_field_3D) reading din_riv_flux from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702.nc (passive_tracer_tools:read_field_3D) reading dip_riv_flux from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702.nc (passive_tracer_tools:read_field_3D) reading don_riv_flux from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702.nc (passive_tracer_tools:read_field_3D) reading dop_riv_flux from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702.nc (passive_tracer_tools:read_field_3D) reading dsi_riv_flux from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702.nc (passive_tracer_tools:read_field_3D) reading dfe_riv_flux from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702.nc (passive_tracer_tools:read_field_3D) reading dic_riv_flux from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702.nc (passive_tracer_tools:read_field_3D) reading alk_riv_flux from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702.nc (passive_tracer_tools:read_field_3D) reading doc_riv_flux from /glade/p/cesm/bgcwg/forcing/BEC_gx1v6_forcing_no_ms/river_nutrients_GNEWS2000_gx1v6_no_ms_c150702.nc Global Time Averages: 01-01-0070 00:48:00 VDC_BCK: 0.160397864755969 VVC_BCK: 1.60397863902526 (io_pio_init) create file ./b.e15.B1850.f09_g16.pi_control.all.119.pop.h.once.nc tavg file written: ./b.e15.B1850.f09_g16.pi_control.all.119.pop.h.once.nc ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.9018E+10 vsf_slocal (global sum) -4.0423E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3923E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8903E+10 vsf_slocal (global sum) -4.0309E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3921E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8789E+10 vsf_slocal (global sum) -4.0193E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3927E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8754E+10 vsf_slocal (global sum) -4.0149E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3951E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8799E+10 vsf_slocal (global sum) -4.0184E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3979E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8844E+10 vsf_slocal (global sum) -4.0223E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3998E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8871E+10 vsf_slocal (global sum) -4.0243E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.4016E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8895E+10 vsf_slocal (global sum) -4.0259E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.4039E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8919E+10 vsf_slocal (global sum) -4.0285E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.4035E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8855E+10 vsf_slocal (global sum) -4.0236E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3989E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8854E+10 vsf_slocal (global sum) -4.0249E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3955E-09 (time_manager) ocn date 00070-jan-02, 0.000000E+00 sec Step number : 906693 Date : 02 jan 0070 Hour : 0 Minute : 0 Second : 0 Time(years) : 69.002740 K.E. diagnostics: mean K.E. : 8.655655181267914E+00 K.E. change from horiz. visc. :-3.386550122736818E-06 K.E. change from vert. visc. : 9.906794916665474E-06 K.E. change from wind stress : 2.583276254989256E-05 advective K.E. balance :-1.077307544764578E-09 : 3.339828035635598E-11 P.E. verses pressure work : 7.036553167539106E-04 :-6.164495146662022E-06 surface-pressure contribution :-2.086518228104725E-07 : 1.500737047492347E-07 Tracer diagnostics: mean value of tracer 1 : 3.945535928738477E+00 abs change in tracer 1 : 1.288450989681661E-07 mean change in tracer 1 : 3.679552170928532E-09 mean change in tracer 1 from advection :-9.432963528557985E-25 mean change in tracer 1 from horiz. diff.: 3.242581212941808E-26 mean change in tracer 1 from vert. diff.:-1.198168774092428E-08 mean change in tracer 1 from sources : 1.565668848976682E-08 mean change in tracer 1 from roff. VSF : 0.000000000000000E+00 mean change in tracer 1 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.471884582775360E+01 abs change in tracer 2 : 1.364895577865911E-11 mean change in tracer 2 :-1.607609524697778E-14 mean change in tracer 2 from advection :-3.224157456050093E-28 mean change in tracer 2 from horiz. diff.:-2.302969611464352E-29 mean change in tracer 2 from vert. diff.: 1.258023014271512E-14 mean change in tracer 2 from sources :-3.037305588494670E-14 mean change in tracer 2 from roff. VSF :-3.037305588494670E-14 mean change in tracer 2 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.170003575291074E+00 abs change in tracer 3 : 1.738393520476687E-08 mean change in tracer 3 :-2.115007950606242E-10 mean change in tracer 3 from advection : 1.473900551337185E-26 mean change in tracer 3 from horiz. diff.:-5.895602205348741E-27 mean change in tracer 3 from vert. diff.: 2.144300423600189E-12 mean change in tracer 3 from sources :-2.136450954842214E-10 mean change in tracer 3 from roff. VSF : 0.000000000000000E+00 mean change in tracer 3 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 3 : 0.000000000000000E+00 mean value of tracer 4 : 3.022074318018878E+01 abs change in tracer 4 : 2.560533045659320E-07 mean change in tracer 4 :-1.832753514143740E-09 mean change in tracer 4 from advection : 1.886592705711597E-24 mean change in tracer 4 from horiz. diff.:-4.716481764278993E-26 mean change in tracer 4 from vert. diff.: 4.101750847076123E-11 mean change in tracer 4 from sources :-1.873771022614494E-09 mean change in tracer 4 from roff. VSF : 0.000000000000000E+00 mean change in tracer 4 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 4 : 0.000000000000000E+00 mean value of tracer 5 : 8.930680116914141E+01 abs change in tracer 5 : 8.920797644938601E-07 mean change in tracer 5 :-8.273450536204134E-10 mean change in tracer 5 from advection :-1.056491915198494E-23 mean change in tracer 5 from horiz. diff.: 7.074722646418489E-26 mean change in tracer 5 from vert. diff.: 1.084269228942658E-10 mean change in tracer 5 from sources :-9.357719765150768E-10 mean change in tracer 5 from roff. VSF : 0.000000000000000E+00 mean change in tracer 5 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 5 : 0.000000000000000E+00 mean value of tracer 6 : 1.342074869310838E-02 abs change in tracer 6 : 1.480468597300302E-08 mean change in tracer 6 :-1.773773165201540E-09 mean change in tracer 6 from advection : 3.979531488610400E-26 mean change in tracer 6 from horiz. diff.:-2.579325964840074E-27 mean change in tracer 6 from vert. diff.: 1.803376470682137E-12 mean change in tracer 6 from sources :-1.775576541672223E-09 mean change in tracer 6 from roff. VSF : 0.000000000000000E+00 mean change in tracer 6 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 6 : 0.000000000000000E+00 mean value of tracer 7 : 6.748262547382667E-04 abs change in tracer 7 : 8.149213617092116E-12 mean change in tracer 7 :-1.112458889403367E-13 mean change in tracer 7 from advection : 9.499749647290452E-29 mean change in tracer 7 from horiz. diff.:-1.151484805732176E-29 mean change in tracer 7 from vert. diff.: 1.793448642618932E-13 mean change in tracer 7 from sources :-2.905907532022184E-13 mean change in tracer 7 from roff. VSF : 0.000000000000000E+00 mean change in tracer 7 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 7 : 0.000000000000000E+00 mean value of tracer 8 : 1.650798441213358E+02 abs change in tracer 8 : 1.852283893811224E-06 mean change in tracer 8 : 2.052664972215290E-08 mean change in tracer 8 from advection : 2.528034225653540E-23 mean change in tracer 8 from horiz. diff.:-1.509274164569278E-24 mean change in tracer 8 from vert. diff.:-1.307560649930812E-08 mean change in tracer 8 from sources : 3.360225622145817E-08 mean change in tracer 8 from roff. VSF : 0.000000000000000E+00 mean change in tracer 8 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 8 : 0.000000000000000E+00 mean value of tracer 9 : 2.307439400008057E+03 abs change in tracer 9 : 2.574090921261642E-06 mean change in tracer 9 :-2.352811918881134E-08 mean change in tracer 9 from advection :-5.772973679477487E-23 mean change in tracer 9 from horiz. diff.: 6.603074469990590E-25 mean change in tracer 9 from vert. diff.: 2.588148372195070E-09 mean change in tracer 9 from sources :-2.621244404748863E-08 mean change in tracer 9 from roff. VSF : 0.000000000000000E+00 mean change in tracer 9 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 9 : 0.000000000000000E+00 mean value of tracer 10 : 2.307439400008057E+03 abs change in tracer 10 : 2.574090921261636E-06 mean change in tracer 10 :-2.352811918880588E-08 mean change in tracer 10 from advection :-9.998941340271465E-24 mean change in tracer 10 from horiz. diff.: 1.886592705711597E-25 mean change in tracer 10 from vert. diff.: 2.588148372195059E-09 mean change in tracer 10 from sources :-2.621244404748863E-08 mean change in tracer 10 from roff. VSF : 0.000000000000000E+00 mean change in tracer 10 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 10 : 0.000000000000000E+00 mean value of tracer 11 : 2.426094621085931E+03 abs change in tracer 11 : 1.400866642540789E-06 mean change in tracer 11 :-7.008726408368468E-10 mean change in tracer 11 from advection :-3.659989849080499E-23 mean change in tracer 11 from horiz. diff.:-1.697933435140437E-24 mean change in tracer 11 from vert. diff.: 1.195922886311275E-09 mean change in tracer 11 from sources :-2.006874067536804E-09 mean change in tracer 11 from roff. VSF : 0.000000000000000E+00 mean change in tracer 11 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 11 : 0.000000000000000E+00 mean value of tracer 12 : 1.773693039637082E+00 abs change in tracer 12 : 1.973809458913758E-07 mean change in tracer 12 : 6.538022546733051E-10 mean change in tracer 12 from advection :-2.169581611568337E-24 mean change in tracer 12 from horiz. diff.:-1.709724639551135E-25 mean change in tracer 12 from vert. diff.: 2.289484671335426E-10 mean change in tracer 12 from sources : 4.248537875397579E-10 mean change in tracer 12 from roff. VSF : 0.000000000000000E+00 mean change in tracer 12 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 12 : 0.000000000000000E+00 mean value of tracer 13 : 1.479069909019285E-01 abs change in tracer 13 : 1.690483760428464E-08 mean change in tracer 13 : 6.186981040243792E-11 mean change in tracer 13 from advection :-5.895602205348741E-26 mean change in tracer 13 from horiz. diff.:-1.105425413502889E-26 mean change in tracer 13 from vert. diff.: 1.457377075495774E-11 mean change in tracer 13 from sources : 4.729603964748060E-11 mean change in tracer 13 from roff. VSF : 0.000000000000000E+00 mean change in tracer 13 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 13 : 0.000000000000000E+00 mean value of tracer 14 : 5.710944523905723E-03 abs change in tracer 14 : 7.206528651238818E-10 mean change in tracer 14 : 3.703794918341946E-12 mean change in tracer 14 from advection :-1.842375689171482E-27 mean change in tracer 14 from horiz. diff.: 2.302969611464352E-28 mean change in tracer 14 from vert. diff.: 3.879490124015466E-13 mean change in tracer 14 from sources : 3.315845905940385E-12 mean change in tracer 14 from roff. VSF : 0.000000000000000E+00 mean change in tracer 14 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 14 : 0.000000000000000E+00 mean value of tracer 15 : 2.955630089225637E-02 abs change in tracer 15 : 2.370791717483203E-11 mean change in tracer 15 :-8.005970301665769E-14 mean change in tracer 15 from advection : 2.763563533757222E-28 mean change in tracer 15 from horiz. diff.:-7.556619037617405E-30 mean change in tracer 15 from vert. diff.: 9.947410574398652E-15 mean change in tracer 15 from sources :-9.000711359087195E-14 mean change in tracer 15 from roff. VSF : 0.000000000000000E+00 mean change in tracer 15 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 15 : 0.000000000000000E+00 mean value of tracer 16 : 1.777322960527503E+00 abs change in tracer 16 : 6.246838826071475E-10 mean change in tracer 16 :-4.372629482203112E-12 mean change in tracer 16 from advection :-3.463666295642385E-26 mean change in tracer 16 from horiz. diff.:-1.335722374649324E-27 mean change in tracer 16 from vert. diff.: 1.619307861661971E-12 mean change in tracer 16 from sources :-5.991937343859275E-12 mean change in tracer 16 from roff. VSF : 0.000000000000000E+00 mean change in tracer 16 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 16 : 0.000000000000000E+00 mean value of tracer 17 : 3.785252961759819E+01 abs change in tracer 17 : 1.486040241836476E-08 mean change in tracer 17 :-1.192813744218110E-10 mean change in tracer 17 from advection : 5.423954028920842E-25 mean change in tracer 17 from horiz. diff.:-4.863871819412711E-26 mean change in tracer 17 from vert. diff.: 5.723711678338574E-11 mean change in tracer 17 from sources :-1.765184912050352E-10 mean change in tracer 17 from roff. VSF : 0.000000000000000E+00 mean change in tracer 17 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 17 : 0.000000000000000E+00 mean value of tracer 18 : 1.401788850130948E-02 abs change in tracer 18 : 1.138458213413012E-08 mean change in tracer 18 :-6.986434950388024E-10 mean change in tracer 18 from advection : 2.653020992406933E-26 mean change in tracer 18 from horiz. diff.: 5.527127067514445E-28 mean change in tracer 18 from vert. diff.:-1.796441005222195E-26 mean change in tracer 18 from sources :-6.986434950388025E-10 mean change in tracer 18 from roff. VSF : 0.000000000000000E+00 mean change in tracer 18 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 18 : 0.000000000000000E+00 mean value of tracer 19 : 1.726481967659385E-03 abs change in tracer 19 : 1.366392158964765E-08 mean change in tracer 19 : 2.779098722555482E-09 mean change in tracer 19 from advection :-8.474928170188815E-27 mean change in tracer 19 from horiz. diff.: 2.763563533757222E-27 mean change in tracer 19 from vert. diff.: 2.146529200671364E-27 mean change in tracer 19 from sources : 2.779098722555482E-09 mean change in tracer 19 from roff. VSF : 0.000000000000000E+00 mean change in tracer 19 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 19 : 0.000000000000000E+00 mean value of tracer 20 : 9.883048871207081E-03 abs change in tracer 20 : 8.825365519120727E-08 mean change in tracer 20 : 2.121001674214442E-08 mean change in tracer 20 from advection : 1.179120441069748E-26 mean change in tracer 20 from horiz. diff.:-7.369502756685926E-28 mean change in tracer 20 from vert. diff.:-4.326105275177892E-26 mean change in tracer 20 from sources : 2.121001674214442E-08 mean change in tracer 20 from roff. VSF : 0.000000000000000E+00 mean change in tracer 20 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 20 : 0.000000000000000E+00 mean value of tracer 21 : 1.701846260028255E-07 abs change in tracer 21 : 1.629311588036248E-12 mean change in tracer 21 : 7.627868257093004E-14 mean change in tracer 21 from advection :-5.397585026869575E-31 mean change in tracer 21 from horiz. diff.: 3.036141577614136E-31 mean change in tracer 21 from vert. diff.:-1.196399694717557E-30 mean change in tracer 21 from sources : 7.627868257093009E-14 mean change in tracer 21 from roff. VSF : 0.000000000000000E+00 mean change in tracer 21 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 21 : 0.000000000000000E+00 mean value of tracer 22 : 3.758430972574602E-04 abs change in tracer 22 : 3.605974392652869E-09 mean change in tracer 22 : 8.294393899586107E-10 mean change in tracer 22 from advection : 6.448314912100185E-28 mean change in tracer 22 from horiz. diff.: 4.836236184075139E-28 mean change in tracer 22 from vert. diff.: 4.404454892109844E-27 mean change in tracer 22 from sources : 8.294393899586104E-10 mean change in tracer 22 from roff. VSF : 0.000000000000000E+00 mean change in tracer 22 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 22 : 0.000000000000000E+00 mean value of tracer 23 : 2.279385046358272E-03 abs change in tracer 23 : 1.366856841277043E-08 mean change in tracer 23 : 1.204584373325022E-09 mean change in tracer 23 from advection :-4.467761046240843E-27 mean change in tracer 23 from horiz. diff.:-4.605939222928704E-27 mean change in tracer 23 from vert. diff.:-5.258712908198310E-27 mean change in tracer 23 from sources : 1.204584373304012E-09 mean change in tracer 23 from roff. VSF : 0.000000000000000E+00 mean change in tracer 23 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 23 : 0.000000000000000E+00 mean value of tracer 24 : 8.185127362172195E-03 abs change in tracer 24 : 5.328548404707798E-08 mean change in tracer 24 : 3.715629954408868E-09 mean change in tracer 24 from advection :-4.053226516177260E-26 mean change in tracer 24 from horiz. diff.: 2.984648616457800E-26 mean change in tracer 24 from vert. diff.: 1.265982445523858E-25 mean change in tracer 24 from sources : 3.715629954387510E-09 mean change in tracer 24 from roff. VSF : 0.000000000000000E+00 mean change in tracer 24 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 24 : 0.000000000000000E+00 mean value of tracer 25 : 8.213708334626825E-08 abs change in tracer 25 : 5.437733102075611E-13 mean change in tracer 25 :-7.888958054401917E-14 mean change in tracer 25 from advection :-7.927703008214687E-31 mean change in tracer 25 from horiz. diff.:-4.708830687503405E-31 mean change in tracer 25 from vert. diff.: 2.595666491930283E-30 mean change in tracer 25 from sources :-7.888960596930176E-14 mean change in tracer 25 from roff. VSF : 0.000000000000000E+00 mean change in tracer 25 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 25 : 0.000000000000000E+00 mean value of tracer 26 : 1.474816445034704E-03 abs change in tracer 26 : 7.913985392067660E-09 mean change in tracer 26 : 7.685721352667879E-10 mean change in tracer 26 from advection :-1.381781766878611E-27 mean change in tracer 26 from horiz. diff.: 4.847751032132461E-27 mean change in tracer 26 from vert. diff.:-1.022738819420684E-26 mean change in tracer 26 from sources : 7.685721352434897E-10 mean change in tracer 26 from roff. VSF : 0.000000000000000E+00 mean change in tracer 26 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 26 : 0.000000000000000E+00 mean value of tracer 27 : 1.023587868943892E-04 abs change in tracer 27 : 3.695779774529774E-10 mean change in tracer 27 : 3.993902689909498E-11 mean change in tracer 27 from advection :-2.993860494903658E-28 mean change in tracer 27 from horiz. diff.: 5.714243348445924E-28 mean change in tracer 27 from vert. diff.:-3.008958512240079E-28 mean change in tracer 27 from sources : 3.993902687790957E-11 mean change in tracer 27 from roff. VSF : 0.000000000000000E+00 mean change in tracer 27 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 27 : 0.000000000000000E+00 mean value of tracer 28 : 6.488776616714636E-04 abs change in tracer 28 : 2.638705227623566E-09 mean change in tracer 28 : 4.427695762452255E-10 mean change in tracer 28 from advection : 1.842375689171482E-28 mean change in tracer 28 from horiz. diff.: 4.605939222928704E-28 mean change in tracer 28 from vert. diff.: 5.426770577409221E-27 mean change in tracer 28 from sources : 4.427695762246065E-10 mean change in tracer 28 from roff. VSF : 0.000000000000000E+00 mean change in tracer 28 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 28 : 0.000000000000000E+00 mean value of tracer 29 : 2.894077097024100E-08 abs change in tracer 29 : 1.165281556675808E-13 mean change in tracer 29 : 1.394181281173610E-15 mean change in tracer 29 from advection : 5.622484402989140E-33 mean change in tracer 29 from horiz. diff.:-2.881523256531934E-32 mean change in tracer 29 from vert. diff.: 1.822801805449305E-31 mean change in tracer 29 from sources : 1.394178724543248E-15 mean change in tracer 29 from roff. VSF : 0.000000000000000E+00 mean change in tracer 29 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 29 : 0.000000000000000E+00 mean value of tracer 30 : 4.797526196987085E+02 abs change in tracer 30 : 4.750123378895988E-06 mean change in tracer 30 : 1.712086275263012E-08 mean change in tracer 30 from advection :-7.244515989932533E-23 mean change in tracer 30 from horiz. diff.:-9.432963528557986E-26 mean change in tracer 30 from vert. diff.: 7.715987776580426E-25 mean change in tracer 30 from sources : 3.162337335760040E-08 mean change in tracer 30 from roff. VSF : 0.000000000000000E+00 mean change in tracer 30 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 30 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 1.328757687841473E-04 residual, scans : 5.088607225294196E-14 160 Timing information: Timer number 1 Time = 0.01 seconds COMPUTE_COSZ Timer number 2 Time = 5.11 seconds ECOSYS_INTERIOR Timer number 3 Time = 0.11 seconds ECOSYS_SET_SFLUX Timer number 4 Time = 0.87 seconds ECOSYS_PRE_SFLUX Timer number 5 Time = 0.00 seconds comp_CO3terms Timer number 6 Time = 2.20 seconds VMIX_COEFFICIENTS_KPP Timer number 7 Time = 0.63 seconds VMIX_EXPLICIT_TRACER Timer number 8 Time = 0.03 seconds VMIX_EXPLICIT_MOMENTUM Timer number 9 Time = 0.71 seconds VMIX_IMPLICIT_TRACER Timer number 10 Time = 0.03 seconds VMIX_IMPLICIT_MOMENTUM Timer number 11 Time = 0.23 seconds HMIX_MOMENTUM_ANISO Timer number 12 Time = 1.72 seconds HMIX_TRACER_GM_NLOOP Timer number 13 Time = 2.91 seconds HMIX_TRACER_GM Timer number 14 Time = 1.63 seconds SUBMESO Timer number 15 Time = 0.00 seconds OVF TIMER Timer number 16 Time = 0.08 seconds ADVECTION_MOMENTUM Timer number 17 Time = 1.34 seconds ADVECTION_TRACER_UPWIND3 Timer number 18 Time = 0.00 seconds MOC Timer number 19 Time = 0.00 seconds TRACER_TRANSPORTS Timer number 20 Time = 0.11 seconds TAVG_WRITE_STD Timer number 21 Time = 0.10 seconds TAVG_WRITE_NONSTD Timer number 22 Time = 0.00 seconds TAVG_CCSM_DIAGS_BSF Timer number 23 Time = 0.00 seconds TAVG_CCSM_DIAGS_MOC Timer number 24 Time = 0.00 seconds TAVG_CCSM_DIAGS_TRANS Timer number 25 Time = 15.54 seconds STEP Timer number 26 Time = 13.40 seconds BAROCLINIC Timer number 27 Time = 0.75 seconds BAROTROPIC Timer number 28 Time = 1.00 seconds 3D-UPDATE Timer number 29 Time = 15.81 seconds TOTAL Timer number 30 Time = 0.27 seconds OUTPUT Timer number 31 Time = 0.27 seconds OUTPUT TAVG Timer number 32 Time = 0.00 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/./b.e15.B1850.f09_g16.pi_control.all.119.pop.dd.0070-01-01-00000 Global Time Averages: 01-02-0070 00:00:00 SST: 18.0956620983617 SST2: 426.699868514413 HMXL_2: 6464.77242300328 XMXL_2: 6676.42717362221 (io_pio_init) create file ./b.e15.B1850.f09_g16.pi_control.all.119.pop.h.nday1.0070-01-01.nc data appended to tavg file: ./b.e15.B1850.f09_g16.pi_control.all.119.pop.h.nday1.0070-01-01.nc Global Time Averages: 01-02-0070 00:00:00 photoC_sp_zint: 2.653064386284362E-002 photoC_diat_zint: 1.576028976965684E-002 photoC_diaz_zint: 8.100336979198553E-004 CaCO3_form_zint: 1.036235150185776E-003 ECOSYS_IFRAC_2: 5.222729827477446E-002 ECOSYS_XKW_2: 6.115020045061317E-003 STF_O2_2: -4.642291256397071E-003 DpCO2_2: 1.15478790837643 FG_CO2_2: 6.014441640887728E-004 zooC_zint_100m: 4868.31601150731 spChl_SURF: 0.115467469831613 spC_zint_100m: 3623.41264343666 spCaCO3_zint_100m: 138.507649038273 diatChl_SURF: 0.170175109377534 diatC_zint_100m: 3067.80809659942 diazChl_SURF: 2.750720558308746E-003 diazC_zint_100m: 244.138145461469 (io_pio_init) create file ./b.e15.B1850.f09_g16.pi_control.all.119.pop.h.ecosys.nday1.0070-01-01.nc data appended to tavg file: ./b.e15.B1850.f09_g16.pi_control.all.119.pop.h.ecosys.nday1.0070-01-01.nc ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8854E+10 vsf_slocal (global sum) -4.0261E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3919E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8777E+10 vsf_slocal (global sum) -4.0198E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3881E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8707E+10 vsf_slocal (global sum) -4.0140E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3847E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8638E+10 vsf_slocal (global sum) -4.0079E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3822E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8608E+10 vsf_slocal (global sum) -4.0043E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3841E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8611E+10 vsf_slocal (global sum) -4.0034E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3873E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8613E+10 vsf_slocal (global sum) -4.0024E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3906E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8642E+10 vsf_slocal (global sum) -4.0042E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3939E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8635E+10 vsf_slocal (global sum) -4.0023E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3973E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8629E+10 vsf_slocal (global sum) -4.0009E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3993E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8581E+10 vsf_slocal (global sum) -3.9976E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3952E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8559E+10 vsf_slocal (global sum) -3.9963E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3927E-09 (time_manager) ocn date 00070-jan-03, 0.000000E+00 sec Step number : 906729 Date : 03 jan 0070 Hour : 0 Minute : 0 Second : 0 Time(years) : 69.005479 K.E. diagnostics: mean K.E. : 8.678176756918591E+00 K.E. change from horiz. visc. :-3.404881454182576E-06 K.E. change from vert. visc. : 9.331819117360595E-06 K.E. change from wind stress : 2.493661040116818E-05 advective K.E. balance :-1.665066073611196E-09 : 1.219629470088652E-09 P.E. verses pressure work : 6.968207614916557E-04 :-4.299244755703424E-06 surface-pressure contribution : 8.944292804660555E-07 :-9.561580263440835E-07 Tracer diagnostics: mean value of tracer 1 : 3.945577452485499E+00 abs change in tracer 1 : 1.295707013773353E-07 mean change in tracer 1 : 3.418744379559972E-09 mean change in tracer 1 from advection :-1.886592705711597E-24 mean change in tracer 1 from horiz. diff.: 5.895602205348741E-27 mean change in tracer 1 from vert. diff.:-1.204912405727487E-08 mean change in tracer 1 from sources : 1.546141171966468E-08 mean change in tracer 1 from roff. VSF : 0.000000000000000E+00 mean change in tracer 1 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.471884568999779E+01 abs change in tracer 2 : 1.358598027411880E-11 mean change in tracer 2 :-4.051994367323244E-16 mean change in tracer 2 from advection :-8.290690601271666E-28 mean change in tracer 2 from horiz. diff.:-3.166583215763484E-29 mean change in tracer 2 from vert. diff.: 2.731679808201738E-14 mean change in tracer 2 from sources :-3.015737772632561E-14 mean change in tracer 2 from roff. VSF :-3.015737772632561E-14 mean change in tracer 2 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.170003419616152E+00 abs change in tracer 3 : 1.743583397131115E-08 mean change in tracer 3 :-1.962025164254833E-10 mean change in tracer 3 from advection :-7.074722646418489E-26 mean change in tracer 3 from horiz. diff.:-3.868988947260111E-27 mean change in tracer 3 from vert. diff.: 2.144406725443607E-12 mean change in tracer 3 from sources :-1.983469231509018E-10 mean change in tracer 3 from roff. VSF : 0.000000000000000E+00 mean change in tracer 3 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 3 : 0.000000000000000E+00 mean value of tracer 4 : 3.022075190346652E+01 abs change in tracer 4 : 2.582164989042376E-07 mean change in tracer 4 :-1.700060632481392E-09 mean change in tracer 4 from advection :-2.263911246853917E-24 mean change in tracer 4 from horiz. diff.:-6.779942536151052E-26 mean change in tracer 4 from vert. diff.: 4.100530849984847E-11 mean change in tracer 4 from sources :-1.741065940981572E-09 mean change in tracer 4 from roff. VSF : 0.000000000000000E+00 mean change in tracer 4 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 4 : 0.000000000000000E+00 mean value of tracer 5 : 8.930681083081039E+01 abs change in tracer 5 : 9.111290879001766E-07 mean change in tracer 5 :-7.515450466673808E-10 mean change in tracer 5 from advection : 1.282883039883886E-23 mean change in tracer 5 from horiz. diff.: 4.716481764278993E-26 mean change in tracer 5 from vert. diff.: 1.084441176132861E-10 mean change in tracer 5 from sources :-8.599891642802325E-10 mean change in tracer 5 from roff. VSF : 0.000000000000000E+00 mean change in tracer 5 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 5 : 0.000000000000000E+00 mean value of tracer 6 : 1.339680010273550E-02 abs change in tracer 6 : 1.467788154478404E-08 mean change in tracer 6 :-1.660702824009768E-09 mean change in tracer 6 from advection :-7.369502756685926E-27 mean change in tracer 6 from horiz. diff.:-8.751284523564537E-28 mean change in tracer 6 from vert. diff.: 1.796591442269442E-12 mean change in tracer 6 from sources :-1.662499415452038E-09 mean change in tracer 6 from roff. VSF : 0.000000000000000E+00 mean change in tracer 6 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 6 : 0.000000000000000E+00 mean value of tracer 7 : 6.748163486206278E-04 abs change in tracer 7 : 8.189711889324116E-12 mean change in tracer 7 :-8.093264215445555E-14 mean change in tracer 7 from advection :-2.878712014330440E-30 mean change in tracer 7 from horiz. diff.: 2.662808613255657E-29 mean change in tracer 7 from vert. diff.: 1.797973073279941E-13 mean change in tracer 7 from sources :-2.607299494824543E-13 mean change in tracer 7 from roff. VSF : 0.000000000000000E+00 mean change in tracer 7 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 7 : 0.000000000000000E+00 mean value of tracer 8 : 1.650789461372502E+02 abs change in tracer 8 : 1.856582765771394E-06 mean change in tracer 8 : 2.319429256257903E-08 mean change in tracer 8 from advection :-9.621622799129146E-24 mean change in tracer 8 from horiz. diff.:-9.904611704985885E-25 mean change in tracer 8 from vert. diff.:-7.952007564175520E-09 mean change in tracer 8 from sources : 3.114630012675427E-08 mean change in tracer 8 from roff. VSF : 0.000000000000000E+00 mean change in tracer 8 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 8 : 0.000000000000000E+00 mean value of tracer 9 : 2.307439619171404E+03 abs change in tracer 9 : 2.593620772131705E-06 mean change in tracer 9 :-2.182972488269262E-08 mean change in tracer 9 from advection :-4.225967660793977E-23 mean change in tracer 9 from horiz. diff.:-1.131955623426958E-24 mean change in tracer 9 from vert. diff.: 2.341491531511840E-09 mean change in tracer 9 from sources :-2.430765385292961E-08 mean change in tracer 9 from roff. VSF : 0.000000000000000E+00 mean change in tracer 9 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 9 : 0.000000000000000E+00 mean value of tracer 10 : 2.307439619171404E+03 abs change in tracer 10 : 2.593620772131701E-06 mean change in tracer 10 :-2.182972488269680E-08 mean change in tracer 10 from advection :-3.018548329138555E-23 mean change in tracer 10 from horiz. diff.: 0.000000000000000E+00 mean change in tracer 10 from vert. diff.: 2.341491531511834E-09 mean change in tracer 10 from sources :-2.430765385292961E-08 mean change in tracer 10 from roff. VSF : 0.000000000000000E+00 mean change in tracer 10 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 10 : 0.000000000000000E+00 mean value of tracer 11 : 2.426094737819995E+03 abs change in tracer 11 : 1.414037682054140E-06 mean change in tracer 11 : 3.715605031206302E-10 mean change in tracer 11 from advection :-9.055644987415666E-23 mean change in tracer 11 from horiz. diff.:-1.084790805784168E-24 mean change in tracer 11 from vert. diff.: 2.140852326180217E-09 mean change in tracer 11 from sources :-1.925450928561137E-09 mean change in tracer 11 from roff. VSF : 0.000000000000000E+00 mean change in tracer 11 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 11 : 0.000000000000000E+00 mean value of tracer 12 : 1.773731468324643E+00 abs change in tracer 12 : 1.977697924948605E-07 mean change in tracer 12 : 6.273285596463088E-10 mean change in tracer 12 from advection :-7.546370822846388E-25 mean change in tracer 12 from horiz. diff.: 1.827636683658110E-25 mean change in tracer 12 from vert. diff.: 2.289484671335428E-10 mean change in tracer 12 from sources : 3.983800925127589E-10 mean change in tracer 12 from roff. VSF : 0.000000000000000E+00 mean change in tracer 12 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 12 : 0.000000000000000E+00 mean value of tracer 13 : 1.479104830050355E-01 abs change in tracer 13 : 1.692474773762623E-08 mean change in tracer 13 : 5.945733924856292E-11 mean change in tracer 13 from advection :-2.358240882139496E-26 mean change in tracer 13 from horiz. diff.: 1.989765744305200E-26 mean change in tracer 13 from vert. diff.: 1.457377075495774E-11 mean change in tracer 13 from sources : 4.488356849360531E-11 mean change in tracer 13 from roff. VSF : 0.000000000000000E+00 mean change in tracer 13 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 13 : 0.000000000000000E+00 mean value of tracer 14 : 5.711359626155339E-03 abs change in tracer 14 : 7.226041674387141E-10 mean change in tracer 14 : 3.938733196933160E-12 mean change in tracer 14 from advection : 7.369502756685926E-28 mean change in tracer 14 from horiz. diff.:-7.599799717832361E-28 mean change in tracer 14 from vert. diff.: 3.879490124015474E-13 mean change in tracer 14 from sources : 3.550784184531561E-12 mean change in tracer 14 from roff. VSF : 0.000000000000000E+00 mean change in tracer 14 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 14 : 0.000000000000000E+00 mean value of tracer 15 : 2.955629600483684E-02 abs change in tracer 15 : 2.385791021749458E-11 mean change in tracer 15 :-8.014902668777420E-14 mean change in tracer 15 from advection : 1.957524169744699E-28 mean change in tracer 15 from horiz. diff.: 7.196780035826100E-30 mean change in tracer 15 from vert. diff.: 9.947410574398648E-15 mean change in tracer 15 from sources :-9.009643726197455E-14 mean change in tracer 15 from roff. VSF : 0.000000000000000E+00 mean change in tracer 15 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 15 : 0.000000000000000E+00 mean value of tracer 16 : 1.777322693529373E+00 abs change in tracer 16 : 6.285993373678026E-10 mean change in tracer 16 :-4.362235115046613E-12 mean change in tracer 16 from advection :-5.600822095081304E-26 mean change in tracer 16 from horiz. diff.: 6.678611873246620E-28 mean change in tracer 16 from vert. diff.: 1.619307861661972E-12 mean change in tracer 16 from sources :-5.981542976720840E-12 mean change in tracer 16 from roff. VSF : 0.000000000000000E+00 mean change in tracer 16 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 16 : 0.000000000000000E+00 mean value of tracer 17 : 3.785252141581635E+01 abs change in tracer 17 : 1.504745932615452E-08 mean change in tracer 17 :-1.187761148250345E-10 mean change in tracer 17 from advection :-1.367779711640908E-24 mean change in tracer 17 from horiz. diff.:-5.969297232915600E-26 mean change in tracer 17 from vert. diff.: 5.723711678338569E-11 mean change in tracer 17 from sources :-1.760132316084190E-10 mean change in tracer 17 from roff. VSF : 0.000000000000000E+00 mean change in tracer 17 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 17 : 0.000000000000000E+00 mean value of tracer 18 : 1.398111639540986E-02 abs change in tracer 18 : 1.123751055311411E-08 mean change in tracer 18 :-6.015277140409510E-10 mean change in tracer 18 from advection : 0.000000000000000E+00 mean change in tracer 18 from horiz. diff.:-1.197544197961463E-27 mean change in tracer 18 from vert. diff.: 3.369471590749373E-26 mean change in tracer 18 from sources :-6.015277140409509E-10 mean change in tracer 18 from roff. VSF : 0.000000000000000E+00 mean change in tracer 18 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 18 : 0.000000000000000E+00 mean value of tracer 19 : 1.738186198623342E-03 abs change in tracer 19 : 1.353474325175798E-08 mean change in tracer 19 : 2.649142863939558E-09 mean change in tracer 19 from advection :-7.369502756685926E-28 mean change in tracer 19 from horiz. diff.:-1.842375689171482E-28 mean change in tracer 19 from vert. diff.: 2.090965593488662E-26 mean change in tracer 19 from sources : 2.649142863939557E-09 mean change in tracer 19 from roff. VSF : 0.000000000000000E+00 mean change in tracer 19 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 19 : 0.000000000000000E+00 mean value of tracer 20 : 9.965478605449420E-03 abs change in tracer 20 : 8.705362308696612E-08 mean change in tracer 20 : 2.020935565860383E-08 mean change in tracer 20 from advection :-3.242581212941808E-26 mean change in tracer 20 from horiz. diff.: 5.158651929680148E-27 mean change in tracer 20 from vert. diff.:-8.628996952331970E-26 mean change in tracer 20 from sources : 2.020935565860383E-08 mean change in tracer 20 from roff. VSF : 0.000000000000000E+00 mean change in tracer 20 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 20 : 0.000000000000000E+00 mean value of tracer 21 : 1.706081367531421E-07 abs change in tracer 21 : 1.616802827636688E-12 mean change in tracer 21 : 5.723423345404374E-14 mean change in tracer 21 from advection : 3.598390017913050E-31 mean change in tracer 21 from horiz. diff.:-3.598390017913050E-31 mean change in tracer 21 from vert. diff.:-4.653642194991571E-30 mean change in tracer 21 from sources : 5.723423345404376E-14 mean change in tracer 21 from roff. VSF : 0.000000000000000E+00 mean change in tracer 21 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 21 : 0.000000000000000E+00 mean value of tracer 22 : 3.792002271399498E-04 abs change in tracer 22 : 3.552491840284572E-09 mean change in tracer 22 : 7.780120447668817E-10 mean change in tracer 22 from advection :-1.105425413502889E-27 mean change in tracer 22 from horiz. diff.: 9.672472368150278E-28 mean change in tracer 22 from vert. diff.: 1.902500478303021E-27 mean change in tracer 22 from sources : 7.780120447668819E-10 mean change in tracer 22 from roff. VSF : 0.000000000000000E+00 mean change in tracer 22 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 22 : 0.000000000000000E+00 mean value of tracer 23 : 2.264329134957552E-03 abs change in tracer 23 : 1.347471774900254E-08 mean change in tracer 23 : 1.168621141224465E-09 mean change in tracer 23 from advection :-4.569091709145274E-26 mean change in tracer 23 from horiz. diff.: 8.221601512927737E-27 mean change in tracer 23 from vert. diff.: 3.354909898738821E-26 mean change in tracer 23 from sources : 1.168621141203455E-09 mean change in tracer 23 from roff. VSF : 0.000000000000000E+00 mean change in tracer 23 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 23 : 0.000000000000000E+00 mean value of tracer 24 : 8.114506076246092E-03 abs change in tracer 24 : 5.151377709194533E-08 mean change in tracer 24 : 2.808311653110932E-09 mean change in tracer 24 from advection :-1.503378562363929E-25 mean change in tracer 24 from horiz. diff.:-1.169908562623891E-26 mean change in tracer 24 from vert. diff.: 7.703074514072248E-26 mean change in tracer 24 from sources : 2.808311653089568E-09 mean change in tracer 24 from roff. VSF : 0.000000000000000E+00 mean change in tracer 24 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 24 : 0.000000000000000E+00 mean value of tracer 25 : 8.160883942996718E-08 abs change in tracer 25 : 5.403710218368600E-13 mean change in tracer 25 :-8.681305030645795E-14 mean change in tracer 25 from advection :-6.746981283586968E-31 mean change in tracer 25 from horiz. diff.: 2.691764407931051E-31 mean change in tracer 25 from vert. diff.:-8.845577562184845E-31 mean change in tracer 25 from sources :-8.681307573200447E-14 mean change in tracer 25 from roff. VSF : 0.000000000000000E+00 mean change in tracer 25 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 25 : 0.000000000000000E+00 mean value of tracer 26 : 1.460239383948574E-03 abs change in tracer 26 : 7.556857134264860E-09 mean change in tracer 26 : 6.937556588663093E-10 mean change in tracer 26 from advection : 1.510748065120615E-26 mean change in tracer 26 from horiz. diff.: 5.757424028660880E-30 mean change in tracer 26 from vert. diff.: 5.494705980044281E-27 mean change in tracer 26 from sources : 6.937556588430119E-10 mean change in tracer 26 from roff. VSF : 0.000000000000000E+00 mean change in tracer 26 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 26 : 0.000000000000000E+00 mean value of tracer 27 : 1.022534643736105E-04 abs change in tracer 27 : 3.694521622424702E-10 mean change in tracer 27 : 3.864054204322196E-11 mean change in tracer 27 from advection :-4.605939222928704E-29 mean change in tracer 27 from horiz. diff.: 8.823252323922799E-28 mean change in tracer 27 from vert. diff.:-3.861947857296967E-28 mean change in tracer 27 from sources : 3.864054202608972E-11 mean change in tracer 27 from roff. VSF : 0.000000000000000E+00 mean change in tracer 27 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 27 : 0.000000000000000E+00 mean value of tracer 28 : 6.492636790968703E-04 abs change in tracer 28 : 2.634153146392522E-09 mean change in tracer 28 : 4.257598902951326E-10 mean change in tracer 28 from advection : 5.527127067514445E-28 mean change in tracer 28 from horiz. diff.: 2.187821130891134E-27 mean change in tracer 28 from vert. diff.: 5.042741653308333E-28 mean change in tracer 28 from sources : 4.257598902745140E-10 mean change in tracer 28 from roff. VSF : 0.000000000000000E+00 mean change in tracer 28 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 28 : 0.000000000000000E+00 mean value of tracer 29 : 2.895100688103895E-08 abs change in tracer 29 : 1.161641205634788E-13 mean change in tracer 29 : 6.193603592778347E-16 mean change in tracer 29 from advection : 0.000000000000000E+00 mean change in tracer 29 from horiz. diff.:-3.514052751868213E-32 mean change in tracer 29 from vert. diff.: 3.270289598127637E-31 mean change in tracer 29 from sources : 6.193586949450227E-16 mean change in tracer 29 from roff. VSF : 0.000000000000000E+00 mean change in tracer 29 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 29 : 0.000000000000000E+00 mean value of tracer 30 : 4.797539472152176E+02 abs change in tracer 30 : 4.827896592139878E-06 mean change in tracer 30 : 1.648149704113525E-08 mean change in tracer 30 from advection :-6.640806324104822E-23 mean change in tracer 30 from horiz. diff.: 7.546370822846388E-25 mean change in tracer 30 from vert. diff.: 2.597415441682888E-25 mean change in tracer 30 from sources : 3.162337335760040E-08 mean change in tracer 30 from roff. VSF : 0.000000000000000E+00 mean change in tracer 30 from exch. circ. : 0.000000000000000E+00 surface flux of tracer 30 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 1.327874637004166E-04 residual, scans : 4.766251394022309E-14 160 Timing information: Timer number 1 Time = 0.02 seconds COMPUTE_COSZ Timer number 2 Time = 10.18 seconds ECOSYS_INTERIOR Timer number 3 Time = 0.20 seconds ECOSYS_SET_SFLUX Timer number 4 Time = 0.87 seconds ECOSYS_PRE_SFLUX Timer number 5 Time = 0.00 seconds comp_CO3terms Timer number 6 Time = 4.39 seconds VMIX_COEFFICIENTS_KPP Timer number 7 Time = 1.26 seconds VMIX_EXPLICIT_TRACER Timer number 8 Time = 0.05 seconds VMIX_EXPLICIT_MOMENTUM Timer number 9 Time = 1.42 seconds VMIX_IMPLICIT_TRACER Timer number 10 Time = 0.07 seconds VMIX_IMPLICIT_MOMENTUM Timer number 11 Time = 0.43 seconds HMIX_MOMENTUM_ANISO Timer number 12 Time = 3.42 seconds HMIX_TRACER_GM_NLOOP Timer number 13 Time = 5.81 seconds HMIX_TRACER_GM Timer number 14 Time = 3.25 seconds SUBMESO Timer number 15 Time = 0.00 seconds OVF TIMER Timer number 16 Time = 0.14 seconds ADVECTION_MOMENTUM Timer number 17 Time = 2.67 seconds ADVECTION_TRACER_UPWIND3 Timer number 18 Time = 0.00 seconds MOC Timer number 19 Time = 0.00 seconds TRACER_TRANSPORTS Timer number 20 Time = 0.15 seconds TAVG_WRITE_STD Timer number 21 Time = 0.47 seconds TAVG_WRITE_NONSTD Timer number 22 Time = 0.00 seconds TAVG_CCSM_DIAGS_BSF Timer number 23 Time = 0.00 seconds TAVG_CCSM_DIAGS_MOC Timer number 24 Time = 0.00 seconds TAVG_CCSM_DIAGS_TRANS Timer number 25 Time = 30.14 seconds STEP Timer number 26 Time = 26.75 seconds BAROCLINIC Timer number 27 Time = 1.64 seconds BAROTROPIC Timer number 28 Time = 1.99 seconds 3D-UPDATE Timer number 29 Time = 30.92 seconds TOTAL Timer number 30 Time = 0.76 seconds OUTPUT Timer number 31 Time = 0.76 seconds OUTPUT TAVG Timer number 32 Time = 0.00 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /glade/scratch/hannay/b.e15.B1850.f09_g16.pi_control.all.119/run/./b.e15.B1850.f09_g16.pi_control.all.119.pop.dd.0070-01-01-00000 Global Time Averages: 01-03-0070 00:00:00 SST: 18.1040014578862 SST2: 426.842161466652 HMXL_2: 6478.86697030330 XMXL_2: 6672.22595963129 data appended to tavg file: ./b.e15.B1850.f09_g16.pi_control.all.119.pop.h.nday1.0070-01-01.nc Global Time Averages: 01-03-0070 00:00:00 photoC_sp_zint: 2.663558517403462E-002 photoC_diat_zint: 1.571799537298841E-002 photoC_diaz_zint: 8.112062338420044E-004 CaCO3_form_zint: 1.042592696527272E-003 ECOSYS_IFRAC_2: 5.177119035304505E-002 ECOSYS_XKW_2: 6.096551033766122E-003 STF_O2_2: -3.882507399275926E-003 DpCO2_2: 1.27272958931525 FG_CO2_2: 2.967997008597173E-004 zooC_zint_100m: 4854.55282217449 spChl_SURF: 0.116583109451463 spC_zint_100m: 3642.95193744717 spCaCO3_zint_100m: 139.241507417197 diatChl_SURF: 0.166278225639274 diatC_zint_100m: 3038.21609709775 diazChl_SURF: 2.749861078322965E-003 diazC_zint_100m: 244.148890757939 data appended to tavg file: ./b.e15.B1850.f09_g16.pi_control.all.119.pop.h.ecosys.nday1.0070-01-01.nc ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8536E+10 vsf_slocal (global sum) -3.9949E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3903E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8466E+10 vsf_slocal (global sum) -3.9888E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3877E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8429E+10 vsf_slocal (global sum) -3.9853E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3872E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8393E+10 vsf_slocal (global sum) -3.9816E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3875E-09 ESTUARY FORCING (in estuary_mod) vsf_sref (global sum) -4.8414E+10 vsf_slocal (global sum) -3.9815E+10 vsf_corr (sum_sref-sum_sloc)/area_t-2.3934E-09