s_phys_pkgs/text/seaice_diags.tex

\begin{table}[!ht]
\centering
\label{tab:pkg:seaice:diagnostics}
{\footnotesize
\begin{verbatim}
---------+----------+----------------+-----------------
 <-Name->|<- grid ->|<--  Units   -->|<- Tile (max=80c)
---------+----------+----------------+-----------------
 sIceLoad|SM      U1|kg/m^2          |sea-ice loading (in Mass of ice+snow / area unit)
---
SEA ICE STATE:
---
 SIarea  |SM      M1|m^2/m^2         |SEAICE fractional ice-covered area [0 to 1]
 SIheff  |SM      M1|m               |SEAICE effective ice thickness
 SIhsnow |SM      M1|m               |SEAICE effective snow thickness
 SIhsalt |SM      M1|g/m^2           |SEAICE effective salinity
 SIuice  |UU      M1|m/s             |SEAICE zonal ice velocity, >0 from West to East
 SIvice  |VV      M1|m/s             |SEAICE merid. ice velocity, >0 from South to North
---
ATMOSPHERIC STATE AS SEEN BY SEA ICE:
---
 SItices |SM  C   M1|K               |Surface Temperature over Sea-Ice (area weighted)
 SIuwind |UM      U1|m/s             |SEAICE zonal 10-m wind speed, >0 increases uVel
 SIvwind |VM      U1|m/s             |SEAICE meridional 10-m wind speed, >0 increases uVel
 SIsnPrcp|SM      U1|kg/m^2/s        |Snow precip. (+=dw) over Sea-Ice (area weighted)
---
FLUXES ACROSS ICE-OCEAN INTERFACE (ATMOS to OCEAN FOR ICE-FREE REGIONS):
---
 SIfu    |UU      U1|N/m^2           |SEAICE zonal surface wind stress, >0 increases uVel
 SIfv    |VV      U1|N/m^2           |SEAICE merid. surface wind stress, >0 increases vVel
 SIqnet  |SM      U1|W/m^2           |Ocean surface heatflux, turb+rad, >0 decreases theta
 SIqsw   |SM      U1|W/m^2           |Ocean surface shortwave radiat., >0 decreases theta
 SIempmr |SM      U1|kg/m^2/s        |Ocean surface freshwater flux, > 0 increases salt
 SIqneto |SM      U1|W/m^2           |Open Ocean Part of SIqnet, turb+rad, >0 decr theta
 SIqneti |SM      U1|W/m^2           |Ice Covered Part of SIqnet, turb+rad, >0 decr theta
---
FLUXES ACROSS ATMOSPHERE-ICE INTERFACE (ATMOS to OCEAN FOR ICE-FREE REGIONS):
---
 SIatmQnt|SM      U1|W/m^2           |Net atmospheric heat flux, >0 decreases theta
 SIatmFW |SM      U1|kg/m^2/s        |Net freshwater flux from atmosphere & land (+=down)
 SIfwSubl|SM      U1|kg/m^2/s        |Freshwater flux of sublimated ice, >0 decreases ice
---
THERMODYNAMIC DIAGNOSTICS:
---
 SIareaPR|SM      M1|m^2/m^2         |SIarea preceeding ridging process
 SIareaPT|SM      M1|m^2/m^2         |SIarea preceeding thermodynamic growth/melt
 SIheffPT|SM      M1|m               |SIheff preceeeding thermodynamic growth/melt
 SIhsnoPT|SM      M1|m               |SIhsnow preceeeding thermodynamic growth/melt
 SIaQbOCN|SM      M1|m/s             |Potential HEFF rate of change by ocean ice flux
 SIaQbATC|SM      M1|m/s             |Potential HEFF rate of change by atm flux over ice
 SIaQbATO|SM      M1|m/s             |Potential HEFF rate of change by open ocn atm flux
 SIdHbOCN|SM      M1|m/s             |HEFF rate of change by ocean ice flux
 SIdSbATC|SM      M1|m/s             |HSNOW rate of change by atm flux over sea ice
 SIdSbOCN|SM      M1|m/s             |HSNOW rate of change by ocean ice flux
 SIdHbATC|SM      M1|m/s             |HEFF rate of change by atm flux over sea ice
 SIdHbATO|SM      M1|m/s             |HEFF rate of change by open ocn atm flux
 SIdHbFLO|SM      M1|m/s             |HEFF rate of change by flooding snow
 SIdAbATO|SM      M1|m^2/m^2/s       |Potential AREA rate of change by open ocn atm flux
 SIdAbATC|SM      M1|m^2/m^2/s       |Potential AREA rate of change by atm flux over ice
 SIdAbOCN|SM      M1|m^2/m^2/s       |Potential AREA rate of change by ocean ice flux
 SIdA    |SM      M1|m^2/m^2/s       |AREA rate of change (net)
---
DYNAMIC/RHEOLOGY DIAGNOSTICS:
---
 SIpress |SM      M1|m^2/s^2         |SEAICE strength (with upper and lower limit)
 SIzeta  |SM      M1|m^2/s           |SEAICE nonlinear bulk viscosity
 SIeta   |SM      M1|m^2/s           |SEAICE nonlinear shear viscosity
 SIsigI  |SM      M1|no units        |SEAICE normalized principle stress, component one
 SIsigII |SM      M1|no units        |SEAICE normalized principle stress, component two
---
ADVECTIVE/DIFFUSIVE FLUXES OF SEA ICE variables:
---
 ADVxHEFF|UU      M1|m.m^2/s         |Zonal      Advective Flux of eff ice thickn
 ADVyHEFF|VV      M1|m.m^2/s         |Meridional Advective Flux of eff ice thickn
 SIuheff |UU      M1|m^2/s           |Zonal      Transport of eff ice thickn (centered)
 SIvheff |VV      M1|m^2/s           |Meridional Transport of eff ice thickn (centered)
 DFxEHEFF|UU      M1|m^2/s           |Zonal      Diffusive Flux of eff ice thickn
 DFyEHEFF|VV      M1|m^2/s           |Meridional Diffusive Flux of eff ice thickn
 ADVxAREA|UU      M1|m^2/m^2.m^2/s   |Zonal      Advective Flux of fract area
 ADVyAREA|VV      M1|m^2/m^2.m^2/s   |Meridional Advective Flux of fract area
 DFxEAREA|UU      M1|m^2/m^2.m^2/s   |Zonal      Diffusive Flux of fract area
 DFyEAREA|VV      M1|m^2/m^2.m^2/s   |Meridional Diffusive Flux of fract area
 ADVxSNOW|UU      M1|m.m^2/s         |Zonal      Advective Flux of eff snow thickn
 ADVySNOW|VV      M1|m.m^2/s         |Meridional Advective Flux of eff snow thickn
 DFxESNOW|UU      M1|m.m^2/s         |Zonal      Diffusive Flux of eff snow thickn
 DFyESNOW|VV      M1|m.m^2/s         |Meridional Diffusive Flux of eff snow thickn
 ADVxSSLT|UU      M1|psu.m^2/s       |Zonal      Advective Flux of seaice salinity
 ADVySSLT|VV      M1|psu.m^2/s       |Meridional Advective Flux of seaice salinity
 DFxESSLT|UU      M1|psu.m^2/s       |Zonal      Diffusive Flux of seaice salinity
 DFyESSLT|VV      M1|psu.m^2/s       |Meridional Diffusive Flux of seaice salinity
\end{verbatim}
}
\caption{Available diagnostics of the seaice-package}
\end{table}
1	heimbach	1.1	\begin{table}[!ht]
2			\centering
3			\label{tab:pkg:seaice:diagnostics}
4			{\footnotesize
5			\begin{verbatim}
6			---------+----------+----------------+-----------------
7			<-Name->\|<- grid ->\|<-- Units -->\|<- Tile (max=80c)
8			---------+----------+----------------+-----------------
9			sIceLoad\|SM U1\|kg/m^2 \|sea-ice loading (in Mass of ice+snow / area unit)
10			---
11			SEA ICE STATE:
12			---
13			SIarea \|SM M1\|m^2/m^2 \|SEAICE fractional ice-covered area [0 to 1]
14			SIheff \|SM M1\|m \|SEAICE effective ice thickness
15			SIhsnow \|SM M1\|m \|SEAICE effective snow thickness
16			SIhsalt \|SM M1\|g/m^2 \|SEAICE effective salinity
17			SIuice \|UU M1\|m/s \|SEAICE zonal ice velocity, >0 from West to East
18			SIvice \|VV M1\|m/s \|SEAICE merid. ice velocity, >0 from South to North
19			---
20			ATMOSPHERIC STATE AS SEEN BY SEA ICE:
21			---
22			SItices \|SM C M1\|K \|Surface Temperature over Sea-Ice (area weighted)
23			SIuwind \|UM U1\|m/s \|SEAICE zonal 10-m wind speed, >0 increases uVel
24			SIvwind \|VM U1\|m/s \|SEAICE meridional 10-m wind speed, >0 increases uVel
25			SIsnPrcp\|SM U1\|kg/m^2/s \|Snow precip. (+=dw) over Sea-Ice (area weighted)
26			---
27			FLUXES ACROSS ICE-OCEAN INTERFACE (ATMOS to OCEAN FOR ICE-FREE REGIONS):
28			---
29			SIfu \|UU U1\|N/m^2 \|SEAICE zonal surface wind stress, >0 increases uVel
30			SIfv \|VV U1\|N/m^2 \|SEAICE merid. surface wind stress, >0 increases vVel
31			SIqnet \|SM U1\|W/m^2 \|Ocean surface heatflux, turb+rad, >0 decreases theta
32			SIqsw \|SM U1\|W/m^2 \|Ocean surface shortwave radiat., >0 decreases theta
33			SIempmr \|SM U1\|kg/m^2/s \|Ocean surface freshwater flux, > 0 increases salt
34			SIqneto \|SM U1\|W/m^2 \|Open Ocean Part of SIqnet, turb+rad, >0 decr theta
35			SIqneti \|SM U1\|W/m^2 \|Ice Covered Part of SIqnet, turb+rad, >0 decr theta
36			---
37			FLUXES ACROSS ATMOSPHERE-ICE INTERFACE (ATMOS to OCEAN FOR ICE-FREE REGIONS):
38			---
39			SIatmQnt\|SM U1\|W/m^2 \|Net atmospheric heat flux, >0 decreases theta
40			SIatmFW \|SM U1\|kg/m^2/s \|Net freshwater flux from atmosphere & land (+=down)
41			SIfwSubl\|SM U1\|kg/m^2/s \|Freshwater flux of sublimated ice, >0 decreases ice
42			---
43			THERMODYNAMIC DIAGNOSTICS:
44			---
45			SIareaPR\|SM M1\|m^2/m^2 \|SIarea preceeding ridging process
46			SIareaPT\|SM M1\|m^2/m^2 \|SIarea preceeding thermodynamic growth/melt
47			SIheffPT\|SM M1\|m \|SIheff preceeeding thermodynamic growth/melt
48			SIhsnoPT\|SM M1\|m \|SIhsnow preceeeding thermodynamic growth/melt
49			SIaQbOCN\|SM M1\|m/s \|Potential HEFF rate of change by ocean ice flux
50			SIaQbATC\|SM M1\|m/s \|Potential HEFF rate of change by atm flux over ice
51			SIaQbATO\|SM M1\|m/s \|Potential HEFF rate of change by open ocn atm flux
52			SIdHbOCN\|SM M1\|m/s \|HEFF rate of change by ocean ice flux
53			SIdSbATC\|SM M1\|m/s \|HSNOW rate of change by atm flux over sea ice
54			SIdSbOCN\|SM M1\|m/s \|HSNOW rate of change by ocean ice flux
55			SIdHbATC\|SM M1\|m/s \|HEFF rate of change by atm flux over sea ice
56			SIdHbATO\|SM M1\|m/s \|HEFF rate of change by open ocn atm flux
57			SIdHbFLO\|SM M1\|m/s \|HEFF rate of change by flooding snow
58			SIdAbATO\|SM M1\|m^2/m^2/s \|Potential AREA rate of change by open ocn atm flux
59			SIdAbATC\|SM M1\|m^2/m^2/s \|Potential AREA rate of change by atm flux over ice
60			SIdAbOCN\|SM M1\|m^2/m^2/s \|Potential AREA rate of change by ocean ice flux
61			SIdA \|SM M1\|m^2/m^2/s \|AREA rate of change (net)
62			---
63			DYNAMIC/RHEOLOGY DIAGNOSTICS:
64			---
65			SIpress \|SM M1\|m^2/s^2 \|SEAICE strength (with upper and lower limit)
66			SIzeta \|SM M1\|m^2/s \|SEAICE nonlinear bulk viscosity
67			SIeta \|SM M1\|m^2/s \|SEAICE nonlinear shear viscosity
68			SIsigI \|SM M1\|no units \|SEAICE normalized principle stress, component one
69			SIsigII \|SM M1\|no units \|SEAICE normalized principle stress, component two
70			---
71			ADVECTIVE/DIFFUSIVE FLUXES OF SEA ICE variables:
72			---
73			ADVxHEFF\|UU M1\|m.m^2/s \|Zonal Advective Flux of eff ice thickn
74			ADVyHEFF\|VV M1\|m.m^2/s \|Meridional Advective Flux of eff ice thickn
75			SIuheff \|UU M1\|m^2/s \|Zonal Transport of eff ice thickn (centered)
76			SIvheff \|VV M1\|m^2/s \|Meridional Transport of eff ice thickn (centered)
77			DFxEHEFF\|UU M1\|m^2/s \|Zonal Diffusive Flux of eff ice thickn
78			DFyEHEFF\|VV M1\|m^2/s \|Meridional Diffusive Flux of eff ice thickn
79			ADVxAREA\|UU M1\|m^2/m^2.m^2/s \|Zonal Advective Flux of fract area
80			ADVyAREA\|VV M1\|m^2/m^2.m^2/s \|Meridional Advective Flux of fract area
81			DFxEAREA\|UU M1\|m^2/m^2.m^2/s \|Zonal Diffusive Flux of fract area
82			DFyEAREA\|VV M1\|m^2/m^2.m^2/s \|Meridional Diffusive Flux of fract area
83			ADVxSNOW\|UU M1\|m.m^2/s \|Zonal Advective Flux of eff snow thickn
84			ADVySNOW\|VV M1\|m.m^2/s \|Meridional Advective Flux of eff snow thickn
85			DFxESNOW\|UU M1\|m.m^2/s \|Zonal Diffusive Flux of eff snow thickn
86			DFyESNOW\|VV M1\|m.m^2/s \|Meridional Diffusive Flux of eff snow thickn
87			ADVxSSLT\|UU M1\|psu.m^2/s \|Zonal Advective Flux of seaice salinity
88			ADVySSLT\|VV M1\|psu.m^2/s \|Meridional Advective Flux of seaice salinity
89			DFxESSLT\|UU M1\|psu.m^2/s \|Zonal Diffusive Flux of seaice salinity
90			DFyESSLT\|VV M1\|psu.m^2/s \|Meridional Diffusive Flux of seaice salinity
91			\end{verbatim}
92			}
93			\caption{Available diagnostics of the seaice-package}
94			\end{table}