--- manual/s_phys_pkgs/text/fizhi.tex 2005/08/03 17:55:20 1.13 +++ manual/s_phys_pkgs/text/fizhi.tex 2010/08/27 13:15:37 1.18 @@ -173,7 +173,7 @@ \begin{figure*}[htbp] \vspace{0.4in} - \centerline{ \epsfysize=4.0in \epsfbox{part6/rhcrit.ps}} + \centerline{ \epsfysize=4.0in \epsfbox{s_phys_pkgs/figs/rhcrit.ps}} \vspace{0.4in} \caption [Critical Relative Humidity for Clouds.] {Critical Relative Humidity for Clouds.} @@ -705,26 +705,21 @@ 100 & Ocean \\ \hline \end{tabular} \end{center} -\caption{Surface type designations used to compute surface roughness (over land) -and surface albedo.} +\caption{Surface type designations.} \label{tab:fizhi:surftype} \end{table} - \begin{figure*}[htbp] - \begin{center} - \rotatebox{270}{\resizebox{90mm}{!}{\includegraphics{part6/surftypes.eps}}} - \rotatebox{270}{\resizebox{100mm}{!}{\includegraphics{part6/surftypes.descrip.eps}}} - \end{center} + \centerline{ \epsfysize=4.0in \epsfbox{s_phys_pkgs/figs/surftype.eps}} \vspace{0.2in} - \caption {Surface Type Combinations at $1^\circ$ resolution.} + \caption {Surface Type Combinations.} \label{fig:fizhi:surftype} \end{figure*} -% \rotatebox{270}{\centerline{ \epsfysize=4in \epsfbox{part6/surftypes.eps}}} -% \rotatebox{270}{\centerline{ \epsfysize=4in \epsfbox{part6/surftypes.descrip.eps}}} +% \rotatebox{270}{\centerline{ \epsfysize=4in \epsfbox{s_phys_pkgs/figs/surftypes.eps}}} +% \rotatebox{270}{\centerline{ \epsfysize=4in \epsfbox{s_phys_pkgs/figs/surftypes.descrip.eps}}} %\begin{figure*}[htbp] -% \centerline{ \epsfysize=4in \epsfbox{part6/surftypes.descrip.ps}} +% \centerline{ \epsfysize=4in \epsfbox{s_phys_pkgs/figs/surftypes.descrip.ps}} % \vspace{0.3in} % \caption {Surface Type Descriptions.} % \label{fig:fizhi:surftype.desc} @@ -748,7 +743,7 @@ Modifications are made to account for the presence of snow, and its depth relative to the height of the vegetation elements. -\paragraph{Gravity Wave Drag}: +\paragraph{Gravity Wave Drag} The fizhi package employs the gravity wave drag scheme of \cite{zhouetal:95}). This scheme is a modified version of Vernekar et al. (1992), @@ -833,7 +828,7 @@ \paragraph{Upper Level Moisture} The fizhi package uses climatological water vapor data above 100 mb from the Stratospheric Aerosol and Gas Experiment (SAGE) as input into the model's radiation packages. The SAGE data is archived -as monthly zonal means at 5$^\circ$ latitudinal resolution. The data is interpolated to the +as monthly zonal means at $5^\circ$ latitudinal resolution. The data is interpolated to the model's grid location and current time, and blended with the GCM's moisture data. Below 300 mb, the model's moisture data is used. Above 100 mb, the SAGE data is used. Between 100 and 300 mb, a linear interpolation (in pressure) is performed using the data from SAGE and the GCM. @@ -842,7 +837,7 @@ \subsubsection{Fizhi Diagnostics} Fizhi Diagnostic Menu: -\label{sec:fizhi-diagnostics:menu} +\label{sec:pkg:fizhi:diagnostics} \begin{tabular}{llll} \hline\hline @@ -1374,7 +1369,7 @@ In this section we list and describe the diagnostic quantities available within the GCM. The diagnostics are listed in the order that they appear in the -Diagnostic Menu, Section \ref{sec:fizhi-diagnostics:menu}. +Diagnostic Menu, Section \ref{sec:pkg:fizhi:diagnostics}. In all cases, each diagnostic as currently archived on the output datasets is time-averaged over its diagnostic output frequency: @@ -2976,3 +2971,12 @@ \subsubsection{Dos and donts} \subsubsection{Fizhi Reference} + +\subsubsection{Experiments and tutorials that use fizhi} +\label{sec:pkg:fizhi:experiments} + +\begin{itemize} +\item{Global atmosphere experiment with realistic SST and topography in fizhi-cs-32x32x10 verification directory. } +\item{Global atmosphere aqua planet experiment in fizhi-cs-aqualev20 verification directory. } +\end{itemize} +