| 1 |
Total Nb of available Diagnostics: ndiagt= 236 |
| 2 |
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| 3 |
Num |<-Name->|Levs| mate |<- code ->|<-- Units -->|<- Tile (max=80c) |
| 4 |
------------------------------------------------------------------------------------ |
| 5 |
1 |SDIAG1 | 1 | |SM L1|user-defined |User-Defined Surface Diagnostic #1 |
| 6 |
2 |SDIAG2 | 1 | |SM L1|user-defined |User-Defined Surface Diagnostic #2 |
| 7 |
3 |SDIAG3 | 1 | |SM L1|user-defined |User-Defined Surface Diagnostic #3 |
| 8 |
4 |SDIAG4 | 1 | |SM L1|user-defined |User-Defined Surface Diagnostic #4 |
| 9 |
5 |SDIAG5 | 1 | |SM L1|user-defined |User-Defined Surface Diagnostic #5 |
| 10 |
6 |SDIAG6 | 1 | |SM L1|user-defined |User-Defined Surface Diagnostic #6 |
| 11 |
7 |SDIAG7 | 1 | |SU L1|user-defined |User-Defined U.pt Surface Diagnostic #7 |
| 12 |
8 |SDIAG8 | 1 | |SV L1|user-defined |User-Defined V.pt Surface Diagnostic #8 |
| 13 |
9 |SDIAG9 | 1 | 10 |UU L1|user-defined |User-Defined U.vector Surface Diag. #9 |
| 14 |
10 |SDIAG10 | 1 | 9 |VV L1|user-defined |User-Defined V.vector Surface Diag. #10 |
| 15 |
11 |UDIAG1 |350 | |SM MR|user-defined |User-Defined Model-Level Diagnostic #1 |
| 16 |
12 |UDIAG2 |350 | |SM MR|user-defined |User-Defined Model-Level Diagnostic #2 |
| 17 |
13 |UDIAG3 |350 | |SMR MR|user-defined |User-Defined Model-Level Diagnostic #3 |
| 18 |
14 |UDIAG4 |350 | |SMR MR|user-defined |User-Defined Model-Level Diagnostic #4 |
| 19 |
15 |UDIAG5 |350 | |SU MR|user-defined |User-Defined U.pt Model-Level Diag. #5 |
| 20 |
16 |UDIAG6 |350 | |SV MR|user-defined |User-Defined V.pt Model-Level Diag. #6 |
| 21 |
17 |UDIAG7 |350 | 18 |UUR MR|user-defined |User-Defined U.vector Model-Lev Diag.#7 |
| 22 |
18 |UDIAG8 |350 | 17 |VVR MR|user-defined |User-Defined V.vector Model-Lev Diag.#8 |
| 23 |
19 |UDIAG9 |350 | |SM ML|user-defined |User-Defined Phys-Level Diagnostic #9 |
| 24 |
20 |UDIAG10 |350 | |SM ML|user-defined |User-Defined Phys-Level Diagnostic #10 |
| 25 |
21 |SDIAGC | 1 | 22 |SM C L1|user-defined |User-Defined Counted Surface Diagnostic |
| 26 |
22 |SDIAGCC | 1 | |SM L1|count |User-Defined Surface Diagnostic Counter |
| 27 |
23 |ETAN | 1 | |SM M1|m |Surface Height Anomaly |
| 28 |
24 |ETANSQ | 1 | |SM P M1|m^2 |Square of Surface Height Anomaly |
| 29 |
25 |DETADT2 | 1 | |SM M1|m^2/s^2 |Square of Surface Height Anomaly Tendency |
| 30 |
26 |THETA |350 | |SMR MR|degC |Potential Temperature |
| 31 |
27 |SALT |350 | |SMR MR|psu |Salinity |
| 32 |
28 |RELHUM |350 | |SMR MR|percent |Relative Humidity |
| 33 |
29 |SALTanom|350 | |SMR MR|psu |Salt anomaly (=SALT-35; g/kg) |
| 34 |
30 |UVEL |350 | 31 |UUR MR|m/s |Zonal Component of Velocity (m/s) |
| 35 |
31 |VVEL |350 | 30 |VVR MR|m/s |Meridional Component of Velocity (m/s) |
| 36 |
32 |WVEL |350 | |WM LR|m/s |Vertical Component of Velocity (r_units/s) |
| 37 |
33 |THETASQ |350 | |SMRP MR|degC^2 |Square of Potential Temperature |
| 38 |
34 |SALTSQ |350 | |SMRP MR|(psu)^2 |Square of Salinity |
| 39 |
35 |SALTSQan|350 | |SMRP MR|(psu)^2 |Square of Salt anomaly (=(SALT-35)^2 (g^2/kg^2) |
| 40 |
36 |UVELSQ |350 | 37 |UURP MR|m^2/s^2 |Square of Zonal Comp of Velocity (m^2/s^2) |
| 41 |
37 |VVELSQ |350 | 36 |VVRP MR|m^2/s^2 |Square of Meridional Comp of Velocity (m^2/s^2) |
| 42 |
38 |WVELSQ |350 | |WM P LR|m^2/s^2 |Square of Vertical Comp of Velocity |
| 43 |
39 |UE_VEL_C|350 | 40 |UMR MR|m/s |Eastward Velocity (m/s) (cell center) |
| 44 |
40 |VN_VEL_C|350 | 39 |VMR MR|m/s |Northward Velocity (m/s) (cell center) |
| 45 |
41 |UV_VEL_C|350 | 41 |UMR MR|m^2/s^2 |Product of horizontal Comp of velocity (cell center) |
| 46 |
42 |UV_VEL_Z|350 | 42 |UZR MR|m^2/s^2 |Meridional Transport of Zonal Momentum (m^2/s^2) |
| 47 |
43 |WU_VEL |350 | |WU LR|m.m/s^2 |Vertical Transport of Zonal Momentum |
| 48 |
44 |WV_VEL |350 | |WV LR|m.m/s^2 |Vertical Transport of Meridional Momentum |
| 49 |
45 |UVELMASS|350 | 46 |UUr MR|m/s |Zonal Mass-Weighted Comp of Velocity (m/s) |
| 50 |
46 |VVELMASS|350 | 45 |VVr MR|m/s |Meridional Mass-Weighted Comp of Velocity (m/s) |
| 51 |
47 |WVELMASS|350 | |WM LR|m/s |Vertical Mass-Weighted Comp of Velocity |
| 52 |
48 |PhiVEL |350 | 45 |SMR P MR|m^2/s |Horizontal Velocity Potential (m^2/s) |
| 53 |
49 |PsiVEL |350 | 48 |SZ P MR|m.m^2/s |Horizontal Velocity Stream-Function |
| 54 |
50 |UTHMASS |350 | 51 |UUr MR|degC.m/s |Zonal Mass-Weight Transp of Pot Temp |
| 55 |
51 |VTHMASS |350 | 50 |VVr MR|degC.m/s |Meridional Mass-Weight Transp of Pot Temp |
| 56 |
52 |WTHMASS |350 | |WM LR|degC.m/s |Vertical Mass-Weight Transp of Pot Temp (K.m/s) |
| 57 |
53 |USLTMASS|350 | 54 |UUr MR|psu.m/s |Zonal Mass-Weight Transp of Salinity |
| 58 |
54 |VSLTMASS|350 | 53 |VVr MR|psu.m/s |Meridional Mass-Weight Transp of Salinity |
| 59 |
55 |WSLTMASS|350 | |WM LR|psu.m/s |Vertical Mass-Weight Transp of Salinity |
| 60 |
56 |UVELTH |350 | 57 |UUR MR|degC.m/s |Zonal Transport of Pot Temp |
| 61 |
57 |VVELTH |350 | 56 |VVR MR|degC.m/s |Meridional Transport of Pot Temp |
| 62 |
58 |WVELTH |350 | |WM LR|degC.m/s |Vertical Transport of Pot Temp |
| 63 |
59 |UVELSLT |350 | 60 |UUR MR|psu.m/s |Zonal Transport of Salinity |
| 64 |
60 |VVELSLT |350 | 59 |VVR MR|psu.m/s |Meridional Transport of Salinity |
| 65 |
61 |WVELSLT |350 | |WM LR|psu.m/s |Vertical Transport of Salinity |
| 66 |
62 |UVELPHI |350 | 63 |UUr MR|m^3/s^3 |Zonal Mass-Weight Transp of Pressure Pot.(p/rho) Anomaly |
| 67 |
63 |VVELPHI |350 | 62 |VVr MR|m^3/s^3 |Merid. Mass-Weight Transp of Pressure Pot.(p/rho) Anomaly |
| 68 |
64 |RHOAnoma|350 | |SMR MR|kg/m^3 |Density Anomaly (=Rho-rhoConst) |
| 69 |
65 |RHOANOSQ|350 | |SMRP MR|kg^2/m^6 |Square of Density Anomaly (=(Rho-rhoConst)^2) |
| 70 |
66 |URHOMASS|350 | 67 |UUr MR|kg/m^2/s |Zonal Transport of Density |
| 71 |
67 |VRHOMASS|350 | 66 |VVr MR|kg/m^2/s |Meridional Transport of Density |
| 72 |
68 |WRHOMASS|350 | |WM LR|kg/m^2/s |Vertical Transport of Density |
| 73 |
69 |WdRHO_P |350 | |WM LR|kg/m^2/s |Vertical velocity times delta^k(Rho)_at-const-P |
| 74 |
70 |WdRHOdP |350 | |WM LR|kg/m^2/s |Vertical velocity times delta^k(Rho)_at-const-T,S |
| 75 |
71 |PHIHYD |350 | |SMR MR|m^2/s^2 |Hydrostatic Pressure Pot.(p/rho) Anomaly |
| 76 |
72 |PHIHYDSQ|350 | |SMRP MR|m^4/s^4 |Square of Hyd. Pressure Pot.(p/rho) Anomaly |
| 77 |
73 |PHIBOT | 1 | |SM M1|m^2/s^2 |Bottom Pressure Pot.(p/rho) Anomaly |
| 78 |
74 |PHIBOTSQ| 1 | |SM P M1|m^4/s^4 |Square of Bottom Pressure Pot.(p/rho) Anomaly |
| 79 |
75 |PHI_SURF| 1 | |SM M1|m^2/s^2 |Surface Dynamical Pressure Pot.(p/rho) |
| 80 |
76 |PHIHYDcR|350 | |SMR MR|m^2/s^2 |Hydrostatic Pressure Pot.(p/rho) Anomaly @ const r |
| 81 |
77 |PHI_NH |350 | |SMR MR|m^2/s^2 |Non-Hydrostatic Pressure Pot.(p/rho) |
| 82 |
78 |MXLDEPTH| 1 | |SM M1|m |Mixed-Layer Depth (>0) |
| 83 |
79 |DRHODR |350 | |SM LR|kg/m^4 |Stratification: d.Sigma/dr (kg/m3/r_unit) |
| 84 |
80 |CONVADJ |350 | |SMR LR|fraction |Convective Adjustment Index [0-1] |
| 85 |
81 |oceTAUX | 1 | 82 |UU U1|N/m^2 |zonal surface wind stress, >0 increases uVel |
| 86 |
82 |oceTAUY | 1 | 81 |VV U1|N/m^2 |meridional surf. wind stress, >0 increases vVel |
| 87 |
83 |atmPload| 1 | |SM U1|Pa |Atmospheric pressure loading |
| 88 |
84 |sIceLoad| 1 | |SM U1|kg/m^2 |sea-ice loading (in Mass of ice+snow / area unit) |
| 89 |
85 |oceFWflx| 1 | |SM U1|kg/m^2/s |net surface Fresh-Water flux into the ocean (+=down), >0 decreases salinity |
| 90 |
86 |oceSflux| 1 | |SM U1|g/m^2/s |net surface Salt flux into the ocean (+=down), >0 increases salinity |
| 91 |
87 |oceQnet | 1 | |SM U1|W/m^2 |net surface heat flux into the ocean (+=down), >0 increases theta |
| 92 |
88 |oceQsw | 1 | |SM U1|W/m^2 |net Short-Wave radiation (+=down), >0 increases theta |
| 93 |
89 |oceFreez| 1 | |SM U1|W/m^2 |heating from freezing of sea-water (allowFreezing=T) |
| 94 |
90 |TRELAX | 1 | |SM U1|W/m^2 |surface temperature relaxation, >0 increases theta |
| 95 |
91 |SRELAX | 1 | |SM U1|g/m^2/s |surface salinity relaxation, >0 increases salt |
| 96 |
92 |surForcT| 1 | |SM U1|W/m^2 |model surface forcing for Temperature, >0 increases theta |
| 97 |
93 |surForcS| 1 | |SM U1|g/m^2/s |model surface forcing for Salinity, >0 increases salinity |
| 98 |
94 |TFLUX | 1 | |SM U1|W/m^2 |total heat flux (match heat-content variations), >0 increases theta |
| 99 |
95 |SFLUX | 1 | |SM U1|g/m^2/s |total salt flux (match salt-content variations), >0 increases salt |
| 100 |
96 |RCENTER |350 | |SM MR|m |Cell-Center Height |
| 101 |
97 |RSURF | 1 | |SM M1|m |Surface Height |
| 102 |
98 |TOTUTEND|350 | 99 |UUR MR|m/s/day |Tendency of Zonal Component of Velocity |
| 103 |
99 |TOTVTEND|350 | 98 |VVR MR|m/s/day |Tendency of Meridional Component of Velocity |
| 104 |
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| 105 |
Num |<-Name->|Levs| mate |<- code ->|<-- Units -->|<- Tile (max=80c) |
| 106 |
------------------------------------------------------------------------------------ |
| 107 |
100 |TOTTTEND|350 | |SMR MR|degC/day |Tendency of Potential Temperature |
| 108 |
101 |TOTSTEND|350 | |SMR MR|psu/day |Tendency of Salinity |
| 109 |
102 |MoistCor|350 | |SM MR|W/m^2 |Heating correction due to moist thermodynamics |
| 110 |
103 |gT_Forc |350 | |SMR MR|degC/s |Potential Temp. forcing tendency |
| 111 |
104 |gS_Forc |350 | |SMR MR|psu/s |Salinity forcing tendency |
| 112 |
105 |AB_gT |350 | |SMR MR|degC/s |Potential Temp. tendency from Adams-Bashforth |
| 113 |
106 |AB_gS |350 | |SMR MR|psu/s |Salinity tendency from Adams-Bashforth |
| 114 |
107 |gTinAB |350 | |SMR MR|degC/s |Potential Temp. tendency going in Adams-Bashforth |
| 115 |
108 |gSinAB |350 | |SMR MR|psu/s |Salinity tendency going in Adams-Bashforth |
| 116 |
109 |AB_gU |350 | 110 |UUR MR|m/s^2 |U momentum tendency from Adams-Bashforth |
| 117 |
110 |AB_gV |350 | 109 |VVR MR|m/s^2 |V momentum tendency from Adams-Bashforth |
| 118 |
111 |AB_gW |350 | |WM LR|m/s^2 |W momentum tendency from Adams-Bashforth |
| 119 |
112 |ADVr_TH |350 | |WM LR|degC.m^3/s |Vertical Advective Flux of Pot.Temperature |
| 120 |
113 |ADVx_TH |350 | 114 |UU MR|degC.m^3/s |Zonal Advective Flux of Pot.Temperature |
| 121 |
114 |ADVy_TH |350 | 113 |VV MR|degC.m^3/s |Meridional Advective Flux of Pot.Temperature |
| 122 |
115 |DFrE_TH |350 | |WM LR|degC.m^3/s |Vertical Diffusive Flux of Pot.Temperature (Explicit part) |
| 123 |
116 |DFxE_TH |350 | 117 |UU MR|degC.m^3/s |Zonal Diffusive Flux of Pot.Temperature |
| 124 |
117 |DFyE_TH |350 | 116 |VV MR|degC.m^3/s |Meridional Diffusive Flux of Pot.Temperature |
| 125 |
118 |DFrI_TH |350 | |WM LR|degC.m^3/s |Vertical Diffusive Flux of Pot.Temperature (Implicit part) |
| 126 |
119 |ADVr_SLT|350 | |WM LR|psu.m^3/s |Vertical Advective Flux of Salinity |
| 127 |
120 |ADVx_SLT|350 | 121 |UU MR|psu.m^3/s |Zonal Advective Flux of Salinity |
| 128 |
121 |ADVy_SLT|350 | 120 |VV MR|psu.m^3/s |Meridional Advective Flux of Salinity |
| 129 |
122 |DFrE_SLT|350 | |WM LR|psu.m^3/s |Vertical Diffusive Flux of Salinity (Explicit part) |
| 130 |
123 |DFxE_SLT|350 | 124 |UU MR|psu.m^3/s |Zonal Diffusive Flux of Salinity |
| 131 |
124 |DFyE_SLT|350 | 123 |VV MR|psu.m^3/s |Meridional Diffusive Flux of Salinity |
| 132 |
125 |DFrI_SLT|350 | |WM LR|psu.m^3/s |Vertical Diffusive Flux of Salinity (Implicit part) |
| 133 |
126 |SALTFILL|350 | |SM MR|psu.m^3/s |Filling of Negative Values of Salinity |
| 134 |
127 |VISCAHZ |350 | |SZ MR|m^2/s |Harmonic Visc Coefficient (m2/s) (Zeta Pt) |
| 135 |
128 |VISCA4Z |350 | |SZ MR|m^4/s |Biharmonic Visc Coefficient (m4/s) (Zeta Pt) |
| 136 |
129 |VISCAHD |350 | |SM MR|m^2/s |Harmonic Viscosity Coefficient (m2/s) (Div Pt) |
| 137 |
130 |VISCA4D |350 | |SM MR|m^4/s |Biharmonic Viscosity Coefficient (m4/s) (Div Pt) |
| 138 |
131 |VISCAHW |350 | |WM LR|m^2/s |Harmonic Viscosity Coefficient (m2/s) (W Pt) |
| 139 |
132 |VISCA4W |350 | |WM LR|m^4/s |Biharmonic Viscosity Coefficient (m4/s) (W Pt) |
| 140 |
133 |VAHZMAX |350 | |SZ MR|m^2/s |CFL-MAX Harm Visc Coefficient (m2/s) (Zeta Pt) |
| 141 |
134 |VA4ZMAX |350 | |SZ MR|m^4/s |CFL-MAX Biharm Visc Coefficient (m4/s) (Zeta Pt) |
| 142 |
135 |VAHDMAX |350 | |SM MR|m^2/s |CFL-MAX Harm Visc Coefficient (m2/s) (Div Pt) |
| 143 |
136 |VA4DMAX |350 | |SM MR|m^4/s |CFL-MAX Biharm Visc Coefficient (m4/s) (Div Pt) |
| 144 |
137 |VAHZMIN |350 | |SZ MR|m^2/s |RE-MIN Harm Visc Coefficient (m2/s) (Zeta Pt) |
| 145 |
138 |VA4ZMIN |350 | |SZ MR|m^4/s |RE-MIN Biharm Visc Coefficient (m4/s) (Zeta Pt) |
| 146 |
139 |VAHDMIN |350 | |SM MR|m^2/s |RE-MIN Harm Visc Coefficient (m2/s) (Div Pt) |
| 147 |
140 |VA4DMIN |350 | |SM MR|m^4/s |RE-MIN Biharm Visc Coefficient (m4/s) (Div Pt) |
| 148 |
141 |VAHZLTH |350 | |SZ MR|m^2/s |Leith Harm Visc Coefficient (m2/s) (Zeta Pt) |
| 149 |
142 |VA4ZLTH |350 | |SZ MR|m^4/s |Leith Biharm Visc Coefficient (m4/s) (Zeta Pt) |
| 150 |
143 |VAHDLTH |350 | |SM MR|m^2/s |Leith Harm Visc Coefficient (m2/s) (Div Pt) |
| 151 |
144 |VA4DLTH |350 | |SM MR|m^4/s |Leith Biharm Visc Coefficient (m4/s) (Div Pt) |
| 152 |
145 |VAHZLTHD|350 | |SZ MR|m^2/s |LeithD Harm Visc Coefficient (m2/s) (Zeta Pt) |
| 153 |
146 |VA4ZLTHD|350 | |SZ MR|m^4/s |LeithD Biharm Visc Coefficient (m4/s) (Zeta Pt) |
| 154 |
147 |VAHDLTHD|350 | |SM MR|m^2/s |LeithD Harm Visc Coefficient (m2/s) (Div Pt) |
| 155 |
148 |VA4DLTHD|350 | |SM MR|m^4/s |LeithD Biharm Visc Coefficient (m4/s) (Div Pt) |
| 156 |
149 |VAHZSMAG|350 | |SZ MR|m^2/s |Smagorinsky Harm Visc Coefficient (m2/s) (Zeta Pt) |
| 157 |
150 |VA4ZSMAG|350 | |SZ MR|m^4/s |Smagorinsky Biharm Visc Coeff. (m4/s) (Zeta Pt) |
| 158 |
151 |VAHDSMAG|350 | |SM MR|m^2/s |Smagorinsky Harm Visc Coefficient (m2/s) (Div Pt) |
| 159 |
152 |VA4DSMAG|350 | |SM MR|m^4/s |Smagorinsky Biharm Visc Coeff. (m4/s) (Div Pt) |
| 160 |
153 |momKE |350 | |SMR MR|m^2/s^2 |Kinetic Energy (in momentum Eq.) |
| 161 |
154 |momHDiv |350 | |SMR MR|s^-1 |Horizontal Divergence (in momentum Eq.) |
| 162 |
155 |momVort3|350 | |SZR MR|s^-1 |3rd component (vertical) of Vorticity |
| 163 |
156 |Strain |350 | |SZR MR|s^-1 |Horizontal Strain of Horizontal Velocities |
| 164 |
157 |Tension |350 | |SMR MR|s^-1 |Horizontal Tension of Horizontal Velocities |
| 165 |
158 |UBotDrag|350 | 159 |UUR MR|m/s^2 |U momentum tendency from Bottom Drag |
| 166 |
159 |VBotDrag|350 | 158 |VVR MR|m/s^2 |V momentum tendency from Bottom Drag |
| 167 |
160 |USidDrag|350 | 161 |UUR MR|m/s^2 |U momentum tendency from Side Drag |
| 168 |
161 |VSidDrag|350 | 160 |VVR MR|m/s^2 |V momentum tendency from Side Drag |
| 169 |
162 |Um_Diss |350 | 163 |UUR MR|m/s^2 |U momentum tendency from Dissipation |
| 170 |
163 |Vm_Diss |350 | 162 |VVR MR|m/s^2 |V momentum tendency from Dissipation |
| 171 |
164 |Um_Advec|350 | 165 |UUR MR|m/s^2 |U momentum tendency from Advection terms |
| 172 |
165 |Vm_Advec|350 | 164 |VVR MR|m/s^2 |V momentum tendency from Advection terms |
| 173 |
166 |Um_Cori |350 | 167 |UUR MR|m/s^2 |U momentum tendency from Coriolis term |
| 174 |
167 |Vm_Cori |350 | 166 |VVR MR|m/s^2 |V momentum tendency from Coriolis term |
| 175 |
168 |Um_dPHdx|350 | 169 |UUR MR|m/s^2 |U momentum tendency from Hydrostatic Pressure grad |
| 176 |
169 |Vm_dPHdy|350 | 168 |VVR MR|m/s^2 |V momentum tendency from Hydrostatic Pressure grad |
| 177 |
170 |Um_Ext |350 | 171 |UUR MR|m/s^2 |U momentum tendency from external forcing |
| 178 |
171 |Vm_Ext |350 | 170 |VVR MR|m/s^2 |V momentum tendency from external forcing |
| 179 |
172 |Um_AdvZ3|350 | 173 |UUR MR|m/s^2 |U momentum tendency from Vorticity Advection |
| 180 |
173 |Vm_AdvZ3|350 | 172 |VVR MR|m/s^2 |V momentum tendency from Vorticity Advection |
| 181 |
174 |Um_AdvRe|350 | 175 |UUR MR|m/s^2 |U momentum tendency from vertical Advection (Explicit part) |
| 182 |
175 |Vm_AdvRe|350 | 174 |VVR MR|m/s^2 |V momentum tendency from vertical Advection (Explicit part) |
| 183 |
176 |Wm_Diss |350 | |WMr LR|m/s^2 |W momentum tendency from Dissipation |
| 184 |
177 |Wm_Advec|350 | |WMr LR|m/s^2 |W momentum tendency from Advection terms |
| 185 |
178 |WSidDrag|350 | |WMr LR|m/s^2 |Vertical momentum tendency from Side Drag |
| 186 |
179 |ADVx_Um |350 | 180 |UM MR|m^4/s^2 |Zonal Advective Flux of U momentum |
| 187 |
180 |ADVy_Um |350 | 179 |VZ MR|m^4/s^2 |Meridional Advective Flux of U momentum |
| 188 |
181 |ADVrE_Um|350 | |WU LR|m^4/s^2 |Vertical Advective Flux of U momentum (Explicit part) |
| 189 |
182 |ADVx_Vm |350 | 183 |UZ MR|m^4/s^2 |Zonal Advective Flux of V momentum |
| 190 |
183 |ADVy_Vm |350 | 182 |VM MR|m^4/s^2 |Meridional Advective Flux of V momentum |
| 191 |
184 |ADVrE_Vm|350 | |WV LR|m^4/s^2 |Vertical Advective Flux of V momentum (Explicit part) |
| 192 |
185 |VISCx_Um|350 | 186 |UM MR|m^4/s^2 |Zonal Viscous Flux of U momentum |
| 193 |
186 |VISCy_Um|350 | 185 |VZ MR|m^4/s^2 |Meridional Viscous Flux of U momentum |
| 194 |
187 |VISrE_Um|350 | |WU LR|m^4/s^2 |Vertical Viscous Flux of U momentum (Explicit part) |
| 195 |
188 |VISrI_Um|350 | |WU LR|m^4/s^2 |Vertical Viscous Flux of U momentum (Implicit part) |
| 196 |
189 |VISCx_Vm|350 | 190 |UZ MR|m^4/s^2 |Zonal Viscous Flux of V momentum |
| 197 |
190 |VISCy_Vm|350 | 189 |VM MR|m^4/s^2 |Meridional Viscous Flux of V momentum |
| 198 |
191 |VISrE_Vm|350 | |WV LR|m^4/s^2 |Vertical Viscous Flux of V momentum (Explicit part) |
| 199 |
192 |VISrI_Vm|350 | |WV LR|m^4/s^2 |Vertical Viscous Flux of V momentum (Implicit part) |
| 200 |
193 |TRAC01 |350 | |SMR MR|kg/kg |plume1 concentration |
| 201 |
194 |UTRAC01 |350 | 195 |UUr MR|kg/kg.m/s |Zonal Mass-Weighted Transp of plume1 |
| 202 |
195 |VTRAC01 |350 | 194 |VVr MR|kg/kg.m/s |Merid Mass-Weighted Transp of plume1 |
| 203 |
196 |WTRAC01 |350 | |WM MR|kg/kg.m/s |Vert Mass-Weighted Transp of plume1 |
| 204 |
197 |ForcTr01|350 | |SMR MR|kg/kg/s |plume1 forcing tendency |
| 205 |
198 |AB_gTr01|350 | |SMR MR|kg/kg/s |plume1 tendency from Adams-Bashforth |
| 206 |
199 |ADVrTr01|350 | |WM LR|kg/kg.m^3/s |Vertical Advective Flux of plume1 |
| 207 |
------------------------------------------------------------------------------------ |
| 208 |
Num |<-Name->|Levs| mate |<- code ->|<-- Units -->|<- Tile (max=80c) |
| 209 |
------------------------------------------------------------------------------------ |
| 210 |
200 |ADVxTr01|350 | 201 |UU MR|kg/kg.m^3/s |Zonal Advective Flux of plume1 |
| 211 |
201 |ADVyTr01|350 | 200 |VV MR|kg/kg.m^3/s |Meridional Advective Flux of plume1 |
| 212 |
202 |DFrETr01|350 | |WM LR|kg/kg.m^3/s |Vertical Diffusive Flux of plume1 (Explicit part) |
| 213 |
203 |DFxETr01|350 | 204 |UU MR|kg/kg.m^3/s |Zonal Diffusive Flux of plume1 |
| 214 |
204 |DFyETr01|350 | 203 |VV MR|kg/kg.m^3/s |Meridional Diffusive Flux of plume1 |
| 215 |
205 |DFrITr01|350 | |WM LR|kg/kg.m^3/s |Vertical Diffusive Flux of plume1 (Implicit part) |
| 216 |
206 |TRAC02 |350 | |SMR MR|kg/kg |plume2 concentration |
| 217 |
207 |UTRAC02 |350 | 208 |UUr MR|kg/kg.m/s |Zonal Mass-Weighted Transp of plume2 |
| 218 |
208 |VTRAC02 |350 | 207 |VVr MR|kg/kg.m/s |Merid Mass-Weighted Transp of plume2 |
| 219 |
209 |WTRAC02 |350 | |WM MR|kg/kg.m/s |Vert Mass-Weighted Transp of plume2 |
| 220 |
210 |ForcTr02|350 | |SMR MR|kg/kg/s |plume2 forcing tendency |
| 221 |
211 |AB_gTr02|350 | |SMR MR|kg/kg/s |plume2 tendency from Adams-Bashforth |
| 222 |
212 |ADVrTr02|350 | |WM LR|kg/kg.m^3/s |Vertical Advective Flux of plume2 |
| 223 |
213 |ADVxTr02|350 | 214 |UU MR|kg/kg.m^3/s |Zonal Advective Flux of plume2 |
| 224 |
214 |ADVyTr02|350 | 213 |VV MR|kg/kg.m^3/s |Meridional Advective Flux of plume2 |
| 225 |
215 |DFrETr02|350 | |WM LR|kg/kg.m^3/s |Vertical Diffusive Flux of plume2 (Explicit part) |
| 226 |
216 |DFxETr02|350 | 217 |UU MR|kg/kg.m^3/s |Zonal Diffusive Flux of plume2 |
| 227 |
217 |DFyETr02|350 | 216 |VV MR|kg/kg.m^3/s |Meridional Diffusive Flux of plume2 |
| 228 |
218 |DFrITr02|350 | |WM LR|kg/kg.m^3/s |Vertical Diffusive Flux of plume2 (Implicit part) |
| 229 |
219 |Add2EmP | 1 | |SM U1|kg/m^2/s |additional EmP from salt relaxation |
| 230 |
220 |SHIfwFlx| 1 | |SM L1|kg/m^2/s |Ice shelf fresh water flux (positive upward) |
| 231 |
221 |SHIhtFlx| 1 | |SM L1|W/m^2 |Ice shelf heat flux (positive upward) |
| 232 |
222 |SHIICFfw| 1 | |SM L1|kg/m^2/s |total ice shelf and front FW flux (+ upward) |
| 233 |
223 |SHIICFht| 1 | |SM L1|W/m^2 |total ice shelf and ice front heat flux (+ upward) |
| 234 |
224 |ICFfwFlx|350 | |SM MR|kg/m^2/s |Ice front freshwater flux (+ve increases ocean salt) |
| 235 |
225 |ICFhtFlx|350 | |SM MR|W/m^2 |Ice front heat flux (+ve cools ocean) |
| 236 |
226 |SHIUDrag|350 | 227 |UU MR|m/s^2 |U momentum tendency from ice shelf drag |
| 237 |
227 |SHIVDrag|350 | 226 |VV MR|m/s^2 |V momentum tendency from ice shelf drag |
| 238 |
228 |SHIForcT| 1 | |SM L1|W/m^2 |Ice shelf forcing for theta, >0 increases theta |
| 239 |
229 |SHIForcS| 1 | |SM L1|g/m^2/s |Ice shelf forcing for salt, >0 increases salt |
| 240 |
230 |ICFForcT|350 | |SM MR|W/m^2 |Ice front forcing for theta, >0 increases theta |
| 241 |
231 |ICFForcS|350 | |SM MR|g/m^2/s |Ice front forcing for salt, >0 increases salt |
| 242 |
232 |SHIICFFo| 1 | |SM L1|g/m^2/s |total SHI and ICF forcing for S, >0 increases salt |
| 243 |
233 |SHIgammT| 1 | |SM L1|m/s |Ice shelf exchange coefficient for theta |
| 244 |
234 |SHIgammS| 1 | |SM L1|m/s |Ice shelf exchange coefficient for salt |
| 245 |
235 |SHIuStar| 1 | |SM L1|m/s |Friction velocity at bottom of ice shelf |
| 246 |
236 |SHI_mass| 1 | |SM L1|kg/m^2 |dynamic ice shelf mass for surface load anomaly |
| 247 |
------------------------------------------------------------------------------------ |
| 248 |
Num |<-Name->|Levs| mate |<- code ->|<-- Units -->|<- Tile (max=80c) |
| 249 |
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