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--- manual/s_phys_pkgs/diagnostics.tex 2004/10/18 19:43:56 1.7
+++ manual/s_phys_pkgs/diagnostics.tex 2004/10/28 22:41:16 1.8
@@ -376,6 +376,16 @@
&\begin{minipage}[t]{3in}
{Turbulent Flux of Sensible Heat}
\end{minipage}\\
+\end{tabular}
+
+\newpage
+\vspace*{\fill}
+\begin{tabular}{lllll}
+\hline\hline
+N & NAME & UNITS & LEVELS & DESCRIPTION \\
+\hline
+
+&\\
26 & TQFLUX & $Watts/m^2$ & Nrphys
&\begin{minipage}[t]{3in}
{Turbulent Flux of Latent Heat}
@@ -405,16 +415,6 @@
{Ground temperature adjustment}
\end{minipage}\\
-\end{tabular}
-
-\newpage
-\vspace*{\fill}
-\begin{tabular}{lllll}
-\hline\hline
-N & NAME & UNITS & LEVELS & DESCRIPTION \\
-\hline
-
-&\\
33 & QG & $g/kg$ & 1
&\begin{minipage}[t]{3in}
{Ground specific humidity}
@@ -423,8 +423,6 @@
&\begin{minipage}[t]{3in}
{Saturation surface specific humidity}
\end{minipage}\\
-
-&\\
35 & TGRLW & $deg$ & 1
&\begin{minipage}[t]{3in}
{Instantaneous ground temperature used as input to the
@@ -475,23 +473,25 @@
{Total cloud fraction used in the Longwave and Shortwave radiation
subroutines}
\end{minipage}\\
-46 & RADSWT & $Watts/m^2$ & 1
+46 & LWGDOWN & $Watts/m^2$ & 1
&\begin{minipage}[t]{3in}
- {Incident Shortwave radiation at the top of the atmosphere}
+ {Downwelling Longwave radiation at the ground}
\end{minipage}\\
-47 & CLROSW & $0-1$ & Nrphys
+47 & GWDT & $deg/day$ & Nrphys
&\begin{minipage}[t]{3in}
- {Random overlap cloud fraction used in the shortwave radiation
- subroutine}
+ {Temperature tendency due to Gravity Wave Drag}
\end{minipage}\\
-48 & CLMOSW & $0-1$ & Nrphys
+48 & RADSWT & $Watts/m^2$ & 1
&\begin{minipage}[t]{3in}
- {Maximum overlap cloud fraction used in the shortwave radiation
- subroutine}
+ {Incident Shortwave radiation at the top of the atmosphere}
\end{minipage}\\
-49 & EVAP & $mm/day$ & 1
+49 & TAUCLD & $per 100 mb$ & Nrphys
&\begin{minipage}[t]{3in}
- {Surface evaporation}
+ {Counted Cloud Optical Depth (non-dimensional) per 100 mb}
+ \end{minipage}\\
+50 & TAUCLDC & $Number$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Cloud Optical Depth Counter}
\end{minipage}\\
\end{tabular}
\vfill
@@ -504,115 +504,217 @@
\hline
&\\
-50 & DUDT & $m/sec/day$ & Nrphys
+51 & CLDLOW & $0-1$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Low-Level ( 1000-700 hPa) Cloud Fraction (0-1)}
+ \end{minipage}\\
+52 & EVAP & $mm/day$ & 1
+ &\begin{minipage}[t]{3in}
+ {Surface evaporation}
+ \end{minipage}\\
+53 & DPDT & $hPa/day$ & 1
+ &\begin{minipage}[t]{3in}
+ {Surface Pressure tendency}
+ \end{minipage}\\
+54 & UAVE & $m/sec$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Average U-Wind}
+ \end{minipage}\\
+55 & VAVE & $m/sec$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Average V-Wind}
+ \end{minipage}\\
+56 & TAVE & $deg$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Average Temperature}
+ \end{minipage}\\
+57 & QAVE & $g/kg$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Average Specific Humidity}
+ \end{minipage}\\
+58 & OMEGA & $hPa/day$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Vertical Velocity}
+ \end{minipage}\\
+59 & DUDT & $m/sec/day$ & Nrphys
&\begin{minipage}[t]{3in}
{Total U-Wind tendency}
\end{minipage}\\
-51 & DVDT & $m/sec/day$ & Nrphys
+60 & DVDT & $m/sec/day$ & Nrphys
&\begin{minipage}[t]{3in}
{Total V-Wind tendency}
\end{minipage}\\
-52 & DTDT & $deg/day$ & Nrphys
+61 & DTDT & $deg/day$ & Nrphys
&\begin{minipage}[t]{3in}
{Total Temperature tendency}
\end{minipage}\\
-53 & DQDT & $g/kg/day$ & Nrphys
+62 & DQDT & $g/kg/day$ & Nrphys
&\begin{minipage}[t]{3in}
{Total Specific Humidity tendency}
\end{minipage}\\
-54 & USTAR & $m/sec$ & 1
+63 & VORT & $10^{-4}/sec$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Relative Vorticity}
+ \end{minipage}\\
+64 & NOT USED & $$ &
+ &\begin{minipage}[t]{3in}
+ {}
+ \end{minipage}\\
+65 & DTLS & $deg/day$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Temperature tendency due to Stratiform Cloud Formation}
+ \end{minipage}\\
+66 & DQLS & $g/kg/day$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Specific Humidity tendency due to Stratiform Cloud Formation}
+ \end{minipage}\\
+67 & USTAR & $m/sec$ & 1
&\begin{minipage}[t]{3in}
{Surface USTAR wind}
\end{minipage}\\
-55 & Z0 & $m$ & 1
+68 & Z0 & $m$ & 1
&\begin{minipage}[t]{3in}
{Surface roughness}
\end{minipage}\\
-56 & FRQTRB & $0-1$ & Nrphys-1
+69 & FRQTRB & $0-1$ & Nrphys-1
&\begin{minipage}[t]{3in}
{Frequency of Turbulence}
\end{minipage}\\
-57 & PBL & $mb$ & 1
+70 & PBL & $mb$ & 1
&\begin{minipage}[t]{3in}
{Planetary Boundary Layer depth}
\end{minipage}\\
-58 & SWCLR & $deg/day$ & Nrphys
+71 & SWCLR & $deg/day$ & Nrphys
&\begin{minipage}[t]{3in}
{Net clearsky Shortwave heating rate for each level}
\end{minipage}\\
-59 & OSR & $Watts/m^2$ & 1
+72 & OSR & $Watts/m^2$ & 1
&\begin{minipage}[t]{3in}
{Net downward Shortwave flux at the top of the model}
\end{minipage}\\
-60 & OSRCLR & $Watts/m^2$ & 1
+73 & OSRCLR & $Watts/m^2$ & 1
&\begin{minipage}[t]{3in}
{Net downward clearsky Shortwave flux at the top of the model}
\end{minipage}\\
-61 & CLDMAS & $kg / m^2$ & Nrphys
+74 & CLDMAS & $kg / m^2$ & Nrphys
&\begin{minipage}[t]{3in}
{Convective cloud mass flux}
\end{minipage}\\
-62 & UAVE & $m/sec$ & Nrphys
+75 & UAVE & $m/sec$ & Nrphys
&\begin{minipage}[t]{3in}
{Time-averaged $u-Wind$}
\end{minipage}\\
-63 & VAVE & $m/sec$ & Nrphys
+\end{tabular}
+\vfill
+
+\newpage
+\vspace*{\fill}
+\begin{tabular}{lllll}
+\hline\hline
+N & NAME & UNITS & LEVELS & DESCRIPTION \\
+\hline
+
+&\\
+76 & VAVE & $m/sec$ & Nrphys
&\begin{minipage}[t]{3in}
{Time-averaged $v-Wind$}
\end{minipage}\\
-64 & TAVE & $deg$ & Nrphys
+77 & TAVE & $deg$ & Nrphys
&\begin{minipage}[t]{3in}
{Time-averaged $Temperature$}
\end{minipage}\\
-65 & QAVE & $g/g$ & Nrphys
+78 & QAVE & $g/g$ & Nrphys
&\begin{minipage}[t]{3in}
{Time-averaged $Specific \, \, Humidity$}
\end{minipage}\\
-66 & PAVE & $mb$ & 1
+79 & RFT & $deg/day$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Temperature tendency due Rayleigh Friction}
+ \end{minipage}\\
+80 & PS & $mb$ & 1
&\begin{minipage}[t]{3in}
- {Time-averaged $p_{surf} - p_{top}$}
+ {Surface Pressure}
\end{minipage}\\
-67 & QQAVE & $(m/sec)^2$ & Nrphys
+81 & QQAVE & $(m/sec)^2$ & Nrphys
&\begin{minipage}[t]{3in}
{Time-averaged $Turbulent Kinetic Energy$}
\end{minipage}\\
-68 & SWGCLR & $Watts/m^2$ & 1
+82 & SWGCLR & $Watts/m^2$ & 1
&\begin{minipage}[t]{3in}
{Net downward clearsky Shortwave flux at the ground}
\end{minipage}\\
-69 & SDIAG1 & & 1
+83 & PAVE & $mb$ & 1
+ &\begin{minipage}[t]{3in}
+ {Time-averaged Surface Pressure}
+ \end{minipage}\\
+84 & SDIAG1 & & 1
&\begin{minipage}[t]{3in}
{User-Defined Surface Diagnostic-1}
\end{minipage}\\
-70 & SDIAG2 & & 1
+85 & SDIAG2 & & 1
&\begin{minipage}[t]{3in}
{User-Defined Surface Diagnostic-2}
\end{minipage}\\
-71 & UDIAG1 & & Nrphys
+86 & UDIAG1 & & Nrphys
&\begin{minipage}[t]{3in}
{User-Defined Upper-Air Diagnostic-1}
\end{minipage}\\
-72 & UDIAG2 & & Nrphys
+87 & UDIAG2 & & Nrphys
&\begin{minipage}[t]{3in}
{User-Defined Upper-Air Diagnostic-2}
\end{minipage}\\
-73 & DIABU & $m/sec/day$ & Nrphys
+88 & DIABU & $m/sec/day$ & Nrphys
&\begin{minipage}[t]{3in}
{Total Diabatic forcing on $u-Wind$}
\end{minipage}\\
-74 & DIABV & $m/sec/day$ & Nrphys
+89 & DIABV & $m/sec/day$ & Nrphys
&\begin{minipage}[t]{3in}
{Total Diabatic forcing on $v-Wind$}
\end{minipage}\\
-75 & DIABT & $deg/day$ & Nrphys
+90 & DIABT & $deg/day$ & Nrphys
&\begin{minipage}[t]{3in}
{Total Diabatic forcing on $Temperature$}
\end{minipage}\\
-76 & DIABQ & $g/kg/day$ & Nrphys
+91 & DIABQ & $g/kg/day$ & Nrphys
&\begin{minipage}[t]{3in}
{Total Diabatic forcing on $Specific \, \, Humidity$}
\end{minipage}\\
-
+92 & RFU & $m/sec/day$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {U-Wind tendency due to Rayleigh Friction}
+ \end{minipage}\\
+93 & RFV & $m/sec/day$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {V-Wind tendency due to Rayleigh Friction}
+ \end{minipage}\\
+94 & GWDU & $m/sec/day$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {U-Wind tendency due to Gravity Wave Drag}
+ \end{minipage}\\
+95 & GWDU & $m/sec/day$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {V-Wind tendency due to Gravity Wave Drag}
+ \end{minipage}\\
+96 & GWDUS & $N/m^2$ & 1
+ &\begin{minipage}[t]{3in}
+ {U-Wind Gravity Wave Drag Stress at Surface}
+ \end{minipage}\\
+97 & GWDVS & $N/m^2$ & 1
+ &\begin{minipage}[t]{3in}
+ {V-Wind Gravity Wave Drag Stress at Surface}
+ \end{minipage}\\
+98 & GWDUT & $N/m^2$ & 1
+ &\begin{minipage}[t]{3in}
+ {U-Wind Gravity Wave Drag Stress at Top}
+ \end{minipage}\\
+99 & GWDVT & $N/m^2$ & 1
+ &\begin{minipage}[t]{3in}
+ {V-Wind Gravity Wave Drag Stress at Top}
+ \end{minipage}\\
+100& LZRAD & $mg/kg$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Estimated Cloud Liquid Water used in Radiation}
+ \end{minipage}\\
\end{tabular}
\vfill
@@ -623,71 +725,483 @@
N & NAME & UNITS & LEVELS & DESCRIPTION \\
\hline
-77 & VINTUQ & $m/sec \cdot g/kg$ & 1
+&\\
+101& SLP & $mb$ & 1
&\begin{minipage}[t]{3in}
- {Vertically integrated $u \, q$}
+ {Time-averaged Sea-level Pressure}
\end{minipage}\\
-78 & VINTVQ & $m/sec \cdot g/kg$ & 1
+102& NOT USED & $$ &
&\begin{minipage}[t]{3in}
- {Vertically integrated $v \, q$}
+ {}
\end{minipage}\\
-79 & VINTUT & $m/sec \cdot deg$ & 1
+103& NOT USED & $$ &
&\begin{minipage}[t]{3in}
- {Vertically integrated $u \, T$}
+ {}
\end{minipage}\\
-80 & VINTVT & $m/sec \cdot deg$ & 1
+104& NOT USED & $$ &
&\begin{minipage}[t]{3in}
- {Vertically integrated $v \, T$}
+ {}
\end{minipage}\\
-81 & CLDFRC & $0-1$ & 1
+105& NOT USED & $$ &
+ &\begin{minipage}[t]{3in}
+ {}
+ \end{minipage}\\
+106& CLDFRC & $0-1$ & 1
&\begin{minipage}[t]{3in}
{Total Cloud Fraction}
\end{minipage}\\
-82 & QINT & $gm/cm^2$ & 1
+107& TPW & $gm/cm^2$ & 1
&\begin{minipage}[t]{3in}
{Precipitable water}
\end{minipage}\\
-83 & U2M & $m/sec$ & 1
+108& U2M & $m/sec$ & 1
&\begin{minipage}[t]{3in}
{U-Wind at 2 meters}
\end{minipage}\\
-84 & V2M & $m/sec$ & 1
+109& V2M & $m/sec$ & 1
&\begin{minipage}[t]{3in}
{V-Wind at 2 meters}
\end{minipage}\\
-85 & T2M & $deg$ & 1
+110& T2M & $deg$ & 1
&\begin{minipage}[t]{3in}
{Temperature at 2 meters}
\end{minipage}\\
-86 & Q2M & $g/kg$ & 1
+111& Q2M & $g/kg$ & 1
&\begin{minipage}[t]{3in}
{Specific Humidity at 2 meters}
\end{minipage}\\
-87 & U10M & $m/sec$ & 1
+112& U10M & $m/sec$ & 1
&\begin{minipage}[t]{3in}
{U-Wind at 10 meters}
\end{minipage}\\
-88 & V10M & $m/sec$ & 1
+113& V10M & $m/sec$ & 1
&\begin{minipage}[t]{3in}
{V-Wind at 10 meters}
\end{minipage}\\
-89 & T10M & $deg$ & 1
+114& T10M & $deg$ & 1
&\begin{minipage}[t]{3in}
{Temperature at 10 meters}
\end{minipage}\\
-90 & Q10M & $g/kg$ & 1
+115& Q10M & $g/kg$ & 1
&\begin{minipage}[t]{3in}
{Specific Humidity at 10 meters}
\end{minipage}\\
-91 & DTRAIN & $kg/m^2$ & Nrphys
+116& DTRAIN & $kg/m^2$ & Nrphys
&\begin{minipage}[t]{3in}
{Detrainment Cloud Mass Flux}
\end{minipage}\\
-92 & QFILL & $g/kg/day$ & Nrphys
+117& QFILL & $g/kg/day$ & Nrphys
&\begin{minipage}[t]{3in}
{Filling of negative specific humidity}
\end{minipage}\\
+118& NOT USED & $$ &
+ &\begin{minipage}[t]{3in}
+ {}
+ \end{minipage}\\
+119& NOT USED & $$ &
+ &\begin{minipage}[t]{3in}
+ {}
+ \end{minipage}\\
+120& SHAPU & $m/sec/day$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {U-Wind tendency due to Shapiro Filter}
+ \end{minipage}\\
+121& SHAPV & $m/sec/day$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {V-Wind tendency due to Shapiro Filter}
+ \end{minipage}\\
+122& SHAPT & $deg/day$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Temperature tendency due Shapiro Filter}
+ \end{minipage}\\
+123& SHAPQ & $g/kg/day$ & Nrphys
+ &\begin{minipage}[t]{3in}
+ {Specific Humidity tendency due to Shapiro Filter}
+ \end{minipage}\\
+124& SDIAG3 & & 1
+ &\begin{minipage}[t]{3in}
+ {User-Defined Surface Diagnostic-3}
+ \end{minipage}\\
+125& SDIAG4 & & 1
+ &\begin{minipage}[t]{3in}
+ {User-Defined Surface Diagnostic-4}
+ \end{minipage}\\
+\end{tabular}
+\vspace{1.5in}
+\vfill
+
+\newpage
+\vspace*{\fill}
+\begin{tabular}{lllll}
+\hline\hline
+N & NAME & UNITS & LEVELS & DESCRIPTION \\
+\hline
+
+&\\
+126& SDIAG5 & & 1
+ &\begin{minipage}[t]{3in}
+ {User-Defined Surface Diagnostic-5}
+ \end{minipage}\\
+127& SDIAG6 & & 1
+ &\begin{minipage}[t]{3in}
+ {User-Defined Surface Diagnostic-6}
+ \end{minipage}\\
+128& SDIAG7 & & 1
+ &\begin{minipage}[t]{3in}
+ {User-Defined Surface Diagnostic-7}
+ \end{minipage}\\
+129& SDIAG8 & & 1
+ &\begin{minipage}[t]{3in}
+ {User-Defined Surface Diagnostic-8}
+ \end{minipage}\\
+130& SDIAG9 & & 1
+ &\begin{minipage}[t]{3in}
+ {User-Defined Surface Diagnostic-9}
+ \end{minipage}\\
+131& SDIAG10 & & 1
+ &\begin{minipage}[t]{3in}
+ {User-Defined Surface Diagnostic-1-}
+ \end{minipage}\\
+132& UDIAG3 & & Nrphys
+ &\begin{minipage}[t]{3in}
+ {User-Defined Multi-Level Diagnostic-3}
+ \end{minipage}\\
+133& UDIAG4 & & Nrphys
+ &\begin{minipage}[t]{3in}
+ {User-Defined Multi-Level Diagnostic-4}
+ \end{minipage}\\
+134& UDIAG5 & & Nrphys
+ &\begin{minipage}[t]{3in}
+ {User-Defined Multi-Level Diagnostic-5}
+ \end{minipage}\\
+135& UDIAG6 & & Nrphys
+ &\begin{minipage}[t]{3in}
+ {User-Defined Multi-Level Diagnostic-6}
+ \end{minipage}\\
+136& UDIAG7 & & Nrphys
+ &\begin{minipage}[t]{3in}
+ {User-Defined Multi-Level Diagnostic-7}
+ \end{minipage}\\
+137& UDIAG8 & & Nrphys
+ &\begin{minipage}[t]{3in}
+ {User-Defined Multi-Level Diagnostic-8}
+ \end{minipage}\\
+138& UDIAG9 & & Nrphys
+ &\begin{minipage}[t]{3in}
+ {User-Defined Multi-Level Diagnostic-9}
+ \end{minipage}\\
+139& UDIAG10 & & Nrphys
+ &\begin{minipage}[t]{3in}
+ {User-Defined Multi-Level Diagnostic-10}
+ \end{minipage}\\
+\end{tabular}
+\vspace{1.5in}
+\vfill
+
+\newpage
+\vspace*{\fill}
+\begin{tabular}{lllll}
+\hline\hline
+N & NAME & UNITS & LEVELS & DESCRIPTION \\
+\hline
+
+&\\
+238& ETAN & $(hPa,m)$ & 1
+ &\begin{minipage}[t]{3in}
+ {Perturbation of Surface (pressure, height)}
+ \end{minipage}\\
+239& ETANSQ & $(hPa^2,m^2)$ & 1
+ &\begin{minipage}[t]{3in}
+ {Square of Perturbation of Surface (pressure, height)}
+ \end{minipage}\\
+240& THETA & $deg K$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Potential Temperature}
+ \end{minipage}\\
+241& SALT & $g/kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Salt (or Water Vapor Mixing Ratio)}
+ \end{minipage}\\
+242& UVEL & $m/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {U-Velocity}
+ \end{minipage}\\
+243& VVEL & $m/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {V-Velocity}
+ \end{minipage}\\
+244& WVEL & $m/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Vertical-Velocity}
+ \end{minipage}\\
+245& THETASQ & $deg^2$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Square of Potential Temperature}
+ \end{minipage}\\
+246& SALTSQ & $g^2/{kg}^2$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Square of Salt (or Water Vapor Mixing Ratio)}
+ \end{minipage}\\
+247& UVELSQ & $m^2/sec^2$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Square of U-Velocity}
+ \end{minipage}\\
+248& VVELSQ & $m^2/sec^2$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Square of V-Velocity}
+ \end{minipage}\\
+249& WVELSQ & $m^2/sec^2$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Square of Vertical-Velocity}
+ \end{minipage}\\
+250& UVELVVEL & $m^2/sec^2$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Meridional Transport of Zonal Momentum}
+ \end{minipage}\\
+\end{tabular}
+\vspace{1.5in}
+\vfill
+
+\newpage
+\vspace*{\fill}
+\begin{tabular}{lllll}
+\hline\hline
+N & NAME & UNITS & LEVELS & DESCRIPTION \\
+\hline
+
+&\\
+251& UVELMASS & $m/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Zonal Mass-Weighted Component of Velocity}
+ \end{minipage}\\
+252& VVELMASS & $m/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Meridional Mass-Weighted Component of Velocity}
+ \end{minipage}\\
+253& WVELMASS & $m/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Vertical Mass-Weighted Component of Velocity}
+ \end{minipage}\\
+254& UTHMASS & $m-deg/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Zonal Mass-Weight Transp of Pot Temp}
+ \end{minipage}\\
+255& VTHMASS & $m-deg/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Meridional Mass-Weight Transp of Pot Temp}
+ \end{minipage}\\
+256& WTHMASS & $m-deg/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Vertical Mass-Weight Transp of Pot Temp}
+ \end{minipage}\\
+257& USLTMASS & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Zonal Mass-Weight Transp of Salt (or W.Vap Mix Rat.)}
+ \end{minipage}\\
+258& VSLTMASS & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Meridional Mass-Weight Transp of Salt (or W.Vap Mix Rat.)}
+ \end{minipage}\\
+259& WSLTMASS & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Vertical Mass-Weight Transp of Salt (or W.Vap Mix Rat.)}
+ \end{minipage}\\
+260& UVELTH & $m-deg/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Zonal Transp of Pot Temp}
+ \end{minipage}\\
+261& VVELTH & $m-deg/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Meridional Transp of Pot Temp}
+ \end{minipage}\\
+262& WVELTH & $m-deg/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Vertical Transp of Pot Temp}
+ \end{minipage}\\
+263& UVELSLT & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Zonal Transp of Salt (or W.Vap Mix Rat.)}
+ \end{minipage}\\
+264& VVELSLT & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Meridional Transp of Salt (or W.Vap Mix Rat.)}
+ \end{minipage}\\
+265& WVELSLT & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Vertical Transp of Salt (or W.Vap Mix Rat.)}
+ \end{minipage}\\
+266& UTRAC1 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Zonal Transp of Tracer 1}
+ \end{minipage}\\
+267& VTRAC1 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Meridional Transp of Tracer 1}
+ \end{minipage}\\
+268& WTRAC1 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Vertical Transp of Tracer 1}
+ \end{minipage}\\
+269& UTRAC2 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Zonal Transp of Tracer 2}
+ \end{minipage}\\
+270& VTRAC2 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Meridional Transp of Tracer 2}
+ \end{minipage}\\
+271& WTRAC2 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Vertical Transp of Tracer 2}
+ \end{minipage}\\
+272& UTRAC3 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Zonal Transp of Tracer 3}
+ \end{minipage}\\
+273& VTRAC3 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Meridional Transp of Tracer 3}
+ \end{minipage}\\
+274& WTRAC3 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Vertical Transp of Tracer 3}
+ \end{minipage}\\
+275& WSLTMASS & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Vertical Mass-Weight Transp of Salt (or W.Vap Mix Rat.)}
+ \end{minipage}\\
+\end{tabular}
+\vspace{1.5in}
+\vfill
+\newpage
+\vspace*{\fill}
+\begin{tabular}{lllll}
+\hline\hline
+N & NAME & UNITS & LEVELS & DESCRIPTION \\
+\hline
+
+&\\
+275& UTRAC4 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Zonal Transp of Tracer 4}
+ \end{minipage}\\
+276& VTRAC4 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Meridional Transp of Tracer 4}
+ \end{minipage}\\
+277& WTRAC4 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Vertical Transp of Tracer 4}
+ \end{minipage}\\
+278& UTRAC5 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Zonal Transp of Tracer 5}
+ \end{minipage}\\
+279& VTRAC5 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Meridional Transp of Tracer 5}
+ \end{minipage}\\
+280& WTRAC5 & $m-kg/sec-kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Vertical Transp of Tracer 5}
+ \end{minipage}\\
+281& TRAC1 & $kg/kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Mass-Weight Tracer 1}
+ \end{minipage}\\
+282& TRAC2 & $kg/kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Mass-Weight Tracer 2}
+ \end{minipage}\\
+283& TRAC3 & $kg/kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Mass-Weight Tracer 3}
+ \end{minipage}\\
+284& TRAC4 & $kg/kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Mass-Weight Tracer 4}
+ \end{minipage}\\
+285& TRAC5 & $kg/kg$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Mass-Weight Tracer 5}
+ \end{minipage}\\
+286& DICBIOA & $mol/m3/s$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Biological Productivity}
+ \end{minipage}\\
+287& DICCARB & $mol eq/m3/s$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Carbonate chg-biol prod and remin}
+ \end{minipage}\\
+288& DICTFLX & $mol/m3/s$ & 1
+ &\begin{minipage}[t]{3in}
+ {Tendency of DIC due to air-sea exch}
+ \end{minipage}\\
+289& DICOFLX & $mol/m3/s$ & 1
+ &\begin{minipage}[t]{3in}
+ {Tendency of O2 due to air-sea exch}
+ \end{minipage}\\
+290& DICCFLX & $mol/m2/s$ & 1
+ &\begin{minipage}[t]{3in}
+ {Flux of CO2 - air-sea exch}
+ \end{minipage}\\
+291& DICPCO2 & $atm$ & 1
+ &\begin{minipage}[t]{3in}
+ {Partial Pressure of CO2}
+ \end{minipage}\\
+292& DICPHAV & $dimensionless$ & 1
+ &\begin{minipage}[t]{3in}
+ {Average pH}
+ \end{minipage}\\
+293& DTCONV & $deg/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Temp Change due to Convection}
+ \end{minipage}\\
+294& DQCONV & $g/kg/sec$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Specific Humidity Change due to Convection}
+ \end{minipage}\\
+295& RELHUM & $percent$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Relative Humidity}
+ \end{minipage}\\
+296& PRECLS & $g/m^2/sec$ & 1
+ &\begin{minipage}[t]{3in}
+ {Large Scale Precipitation}
+ \end{minipage}\\
+297& ENPREC & $J/g$ & 1
+ &\begin{minipage}[t]{3in}
+ {Energy of Precipitation (snow, rain Temp)}
+ \end{minipage}\\
+298& VISCA4 & $m^4/sec$ & 1
+ &\begin{minipage}[t]{3in}
+ {Biharmonic Viscosity Coefficient}
+ \end{minipage}\\
+299& VISCAH & $m^2/sec$ & 1
+ &\begin{minipage}[t]{3in}
+ {Harmonic Viscosity Coefficient}
+ \end{minipage}\\
+300& DRHODR & $kg/m^3/{r-unit}$ & Nr
+ &\begin{minipage}[t]{3in}
+ {Stratification: d.Sigma/dr}
+ \end{minipage}\\
+\end{tabular}
+\vspace{1.5in}
+\vfill
+
+\newpage
+\vspace*{\fill}
+\begin{tabular}{lllll}
+\hline\hline
+N & NAME & UNITS & LEVELS & DESCRIPTION \\
+\hline
+
+&\\
+301& DETADT2 & ${r-unit}^2/s^2$ & 1
+ &\begin{minipage}[t]{3in}
+ {Square of Eta (Surf.P,SSH) Tendency}
+ \end{minipage}\\
\end{tabular}
\vspace{1.5in}
\vfill
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