The modle result(the problem in the green rectangle): The initial : The part of log file:

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86400 ntimes Number of timesteps for 3-D equations.
60.000 dt Timestep size (s) for 3-D equations.
60 ndtfast Number of timesteps for 2-D equations between
each 3D timestep.
1 ERstr Starting ensemble/perturbation run number.
1 ERend Ending ensemble/perturbation run number.
0 nrrec Number of restart records to read from disk.
T LcycleRST Switch to recycle time-records in restart file.
60 nRST Number of timesteps between the writing of data
into restart fields.
1 ninfo Number of timesteps between print of information
to standard output.
60 nSTA Number of timesteps between the writing of data
the stations file.
T ldefout Switch to create a new output NetCDF file(s).
60 nHIS Number of timesteps between the writing fields
into history file.
1440 ndefHIS Number of timesteps between creation of new
history files.
1 ntsDIA Starting timestep for the accumulation of output
time-averaged diagnostics data.
60 nDIA Number of timesteps between the writing of
time-averaged data into diagnostics file.
1440 ndefDIA Number of timesteps between creation of new
diagnostic file.
2.0000E+01 nl_tnu2(01) NLM Horizontal, harmonic mixing coefficient
(m2/s) for tracer 01: temp
2.0000E+01 nl_tnu2(02) NLM Horizontal, harmonic mixing coefficient
(m2/s) for tracer 02: salt
2.0000E+01 nl_visc2 NLM Horizontal, harmonic mixing coefficient
(m2/s) for momentum.
5.0000E-06 Akt_bak(01) Background vertical mixing coefficient (m2/s)
for tracer 01: temp
5.0000E-06 Akt_bak(02) Background vertical mixing coefficient (m2/s)
for tracer 02: salt
5.0000E-05 Akv_bak Background vertical mixing coefficient (m2/s)
for momentum.
5.0000E-06 Akk_bak Background vertical mixing coefficient (m2/s)
for turbulent energy.
5.0000E-06 Akp_bak Background vertical mixing coefficient (m2/s)
for turbulent generic statistical field.
3.0000E-03 rdrg Linear bottom drag coefficient (m/s).
0.0000E+00 rdrg2 Quadratic bottom drag coefficient.
0.0000E+00 Zob Bottom roughness (m).
1 Vtransform S-coordinate transformation equation.
1 Vstretching S-coordinate stretching function.
5.0000E+00 theta_s S-coordinate surface control parameter.
4.0000E-01 theta_b S-coordinate bottom control parameter.
1.000 Tcline S-coordinate surface/bottom layer width (m) used
in vertical coordinate stretching.
1028.000 rho0 Mean density (kg/m3) for Boussinesq approximation.
0.000 dstart Time-stamp assigned to model initialization (days).
0.000 tide_start Reference time origin for tidal forcing (days).
20010701.00 time_ref Reference time for units attribute (yyyymmdd.dd)
1.2500E-01 Tnudg(01) Nudging/relaxation time scale (days)
for tracer 01: temp
1.2500E-01 Tnudg(02) Nudging/relaxation time scale (days)
for tracer 02: salt
1.0000E-03 Znudg Nudging/relaxation time scale (days)
for free-surface.
1.0000E-03 M2nudg Nudging/relaxation time scale (days)
for 2D momentum.
1.0000E-03 M3nudg Nudging/relaxation time scale (days)
for 3D momentum.
1.0000E+00 obcfac Factor between passive and active
open boundary conditions.
F VolCons(1) NLM western edge boundary volume conservation.
F VolCons(2) NLM southern edge boundary volume conservation.
F VolCons(3) NLM eastern edge boundary volume conservation.
F VolCons(4) NLM northern edge boundary volume conservation.
10.000 T0 Background potential temperature (C) constant.
30.000 S0 Background salinity (PSU) constant.
1.000 gamma2 Slipperiness variable: free-slip (1.0) or
no-slip (-1.0).
T LtracerSrc(01) Processing point sources/Sink on tracer 01: temp
T LtracerSrc(02) Processing point sources/Sink on tracer 02: salt
T Hout(idFsur) Write out free-surface.
T Hout(idu2dE) Write out 2D U-eastward at RHO-points.
T Hout(idv2dN) Write out 2D V-northward at RHO-points.
T Hout(idu3dE) Write out 3D U-wastward component at RHO-points.
T Hout(idv3dN) Write out 3D V-northward component at RHO-points.
T Hout(idWvel) Write out W-momentum component.
T Hout(idOvel) Write out omega vertical velocity.
T Hout(idTvar) Write out tracer 01: temp
T Hout(idTvar) Write out tracer 02: salt
T Hout(idDano) Write out density anomaly.
T Hout(idVvis) Write out vertical viscosity: AKv.
T Hout(idTdif) Write out vertical diffusion: AKt(itemp).
T Hout(idSdif) Write out vertical diffusion: AKt(isalt).
T Hout(idMtke) Write out turbulent kinetic energy.
T Hout(idMtls) Write out turbulent generic length-scale.
T Dout(M2rate) Write out 2D momentun acceleration.
T Dout(M2pgrd) Write out 2D momentum pressure gradient.
T Dout(M2fcor) Write out 2D momentum Coriolis force.
T Dout(M2hadv) Write out 2D momentum horizontal advection.
T Dout(M2xadv) Write out 2D momentum horizontal X-advection.
T Dout(M2yadv) Write out 2D momentum horizontal Y-advection.
T Dout(M2hvis) Write out 2D momentum horizontal viscosity.
T Dout(M2xvis) Write out 2D momentum horizontal X-viscosity.
T Dout(M2yvis) Write out 2D momentum horizontal Y-viscosity.
T Dout(M2sstr) Write out 2D momentum surface stress.
T Dout(M2bstr) Write out 2D momentum bottom stress.
T Dout(M3rate) Write out 3D momentun acceleration.
T Dout(M3pgrd) Write out 3D momentum pressure gradient.
T Dout(M3fcor) Write out 3D momentum Coriolis force.
T Dout(M3hadv) Write out 3D momentum horizontal advection.
T Dout(M3xadv) Write out 3D momentum horizontal X-advection.
T Dout(M3yadv) Write out 3D momentum horizontal Y-advection.
T Dout(M3vadv) Write out 3D momentum vertical advection.
T Dout(M3hvis) Write out 3D momentum horizontal viscosity.
T Dout(M3xvis) Write out 3D momentum horizontal X-viscosity.
T Dout(M3yvis) Write out 3D momentum horizontal Y-viscosity.
T Dout(M3vvis) Write out 3D momentum vertical viscosity.
.....
Lateral Boundary Conditions: NLM
============================
Variable Grid West Edge South Edge East Edge North Edge
--------- ---- ---------- ---------- ---------- ----------
zeta 1 Chapman Chapman Chapman Closed
ubar 1 Flather Flather Flather Closed
vbar 1 Flather Flather Flather Closed
u 1 Radiation Radiation Radiation Closed
v 1 Radiation Radiation Radiation Closed
temp 1 Radiation Radiation Radiation Closed
salt 1 Radiation Radiation Radiation Closed
tke 1 Gradient Gradient Gradient Closed
Activated C-preprocessing Options:
NSCS_1201 NSCS MODEL
ADD_FSOBC Adding tidal elevation to processed OBC data.
ADD_M2OBC Adding tidal currents to processed OBC data.
ANA_BSFLUX Analytical kinematic bottom salinity flux.
ANA_BTFLUX Analytical kinematic bottom temperature flux.
ANA_FSOBC Analytical free-surface boundary conditions.
ANA_M2OBC Analytical 2D momentum boundary conditions.
ANA_SMFLUX Analytical kinematic surface momentum flux.
ANA_SSFLUX Analytical kinematic surface salinity flux.
ANA_STFLUX Analytical kinematic surface temperature flux.
ASSUMED_SHAPE Using assumed-shape arrays.
CURVGRID Orthogonal curvilinear grid.
DIAGNOSTICS_UV Computing and writing momentum diagnostic terms.
DJ_GRADPS Parabolic Splines density Jacobian (Shchepetkin, 2002).
DOUBLE_PRECISION Double precision arithmetic.
KANTHA_CLAYSON Kantha and Clayson stability function formulation.
MASKING Land/Sea masking.
MIX_GEO_TS Mixing of tracers along geopotential surfaces.
MIX_S_UV Mixing of momentum along constant S-surfaces.
MPI MPI distributed-memory configuration.
MY25_MIXING Mellor/Yamada Level-2.5 mixing closure.
NONLINEAR Nonlinear Model.
NONLIN_EOS Nonlinear Equation of State for seawater.
N2S2_HORAVG Horizontal smoothing of buoyancy and shear.
OUT_DOUBLE Double precision output fields in NetCDF files.
POWER_LAW Power-law shape time-averaging barotropic filter.
PROFILE Time profiling activated .
K_GSCHEME Third-order upstream advection of TKE fields.
RAMP_TIDES Ramping tidal forcing for one day.
!RST_SINGLE Double precision fields in restart NetCDF file.
SALINITY Using salinity.
SOLVE3D Solving 3D Primitive Equations.
SPLINES Conservative parabolic spline reconstruction.
SPHERICAL Spherical grid configuration.
SSH_TIDES Add tidal elevation to SSH climatology.
STATIONS Writing out station data.
TS_MPDATA Recursive flux corrected MPDATA 3D advection of tracers.
TS_DIF2 Harmonic mixing of tracers.
TS_PSOURCE Tracers point sources and sinks.
UV_ADV Advection of momentum.
UV_COR Coriolis term.
UV_U3HADVECTION Third-order upstream horizontal advection of 3D momentum.
UV_C4VADVECTION Fourth-order centered vertical advection of momentum.
UV_LDRAG Linear bottom stress.
UV_PSOURCE Mass point sources and sinks.
UV_TIDES Add tidal currents to 2D momentum climatologies.
UV_VIS2 Harmonic mixing of momentum.
VAR_RHO_2D Variable density barotropic mode.
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