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1\chapter{Physical parameterizations of the generic model: some references}
2
3\label{sc:phystd}
4
5\section{General}
6
7The Generic Climate Model uses a large number of physical parameterizations based on various scientific theories. Some also use specific numerical methods. A list of these parameterizations is given below, along with the most appropriate references for each one. Most of these documents can be found at\\ 
8\verb+http://www.lmd.jussieu.fr/mars.html+.
9
10\paragraph{General references:}
11No documents attempt to give a complete scientific description of the current
12version of the GCM. Here's a reference to a Mars GCM description:
13\begin{itemize}
14\item  {\it Forget et al.} [1999] (article
15published in the JGR)
16\item  ``Updated Detailed Design Document for the Model''
17(ESA contract, Work Package 6, 1999, available on the web)
18which is simply a compilation of the preceding article with
19a few additions that were published separately.
20\end{itemize}
21
22\nocite{Forg:99}
23
24\section{Radiative transfer}
25
26The radiative transfer parameterizations are used to calculate the heating
27and cooling ratios in the atmosphere and the radiative flux at the surface.
28
29[TO WRITE: IMPORTANT SECTION - REFERENCES HERE ARE FOR MARS ONLY]
30
31%\end{itemize}
32
33
34\subsection{\bf Absorption/emission and diffusion by dust:}
35
36\subsubsection*{Dust spatial distribution}
37 (\verb+ dustopacity+)
38
39\begin{itemize}
40\item Vertical distribution and description of ``MGS'' and ``Viking'' scenarios
41in the ESA report {\it Mars Climate Database V3.0 Detailed Design Document}
42by Lewis et al. (2001), available on the web.
43\item For the ``MY24'' scenario, dust distribution obtained from assimilation
44of TES data is used (and read via the \verb+readtesassim+ routine).
45\end{itemize}
46\nocite{Forg:99,Lewi:99}
47
48\subsubsection*{Thermal IR radiation}
49 (\verb+ lwmain+)
50\begin{itemize}
51\item Numerical method:  {\it Toon et al.} [1989]
52\item Optical properties of dust:  {\it Forget} [1998]
53\nocite{Toon:89,Forg:98grl}
54\end{itemize}
55
56\subsubsection*{Solar radiation}
57 (\verb+ swmain+)
58\begin{itemize}
59\item Numerical method: {\it Fouquart and Bonel} [1980]
60\nocite{Fouq:80}
61
62\item Optical properties of dust:
63see the discussion in {\it Forget et al. } [1999], which quotes
64 {\it Ockert-Bell et al.} [1997] and {\it Clancy and Lee} [1991].
65\nocite{Ocke:97,Clan:91}
66\end{itemize}
67
68\section{Subgrid atmospheric dynamical processes}
69
70\subsection{Turbulent diffusion in the upper layer}
71 (\verb+ vdifc+)
72
73\begin{itemize}
74\item Implicit numerical scheme in the vertical:
75see the thesis of Laurent Li (LMD, Universit\'e Paris 7, 1990), Appendix C2.
76
77\item Calculation of the turbulent diffusion coefficients:
78{\it Forget et al. } [1999].
79\end{itemize}
80
81\subsection{Convection}
82 (\verb+ convadj+)
83
84See {\it Hourdin et al.} [1993]
85\nocite{Hour:93}
86
87\section{Surface thermal conduction}
88 (\verb+soil+)
89
90Thesis of Fr\'ed\'eric Hourdin (LMD, Universit\'e Paris 7, 1992) :
91 section 3.3 (equations) and Appendix A (Numerical scheme).
92
93\section{CO$_2$ Condensation}
94
95In {\it Forget et al.} [1998] (article published in Icarus): \\
96- Numerical method for calculating the condensation and sublimation levels
97at the surface and in the atmosphere (\verb+ newcondens+)
98 explained in the appendix.
99\\
100- Description of the numerical scheme for calculating the evolution of CO$_2$
101snow emissivity (\verb+co2snow+) explained in section 4.1
102\nocite{Forg:98}
103
104\section{Tracer transport and sources}
105\begin{itemize}
106\item ``Van-Leer'' transport scheme used in the dynamical part
107(\verb+ tracvl+ and  \verb+ vlsplt+ in the dynamical part):
108{\it Hourdin and Armengaud} [1999] \nocite{Hour:99}
109
110\item Transport by turbulent diffusion  (in \verb+ vdifc+), convection
111(in  \verb+ convadj+), sedimentation  (\verb+ sedim+),
112dust lifting by winds (\verb+ dustlift+) :
113see note ``Preliminary design of dust lifting and transport in the Model''
114(ESA contract, Work Package 4, 1998, available on the web).
115
116
117%\item Simplified water cycle (source in {\tt vdifc}, {\tt
118%watercloud}) : and also see the Maitrise study by Delphine Nobileau, LMD, 2000.
119\item {\bf Watercycle}, see {\it Montmessin et al.} [2004]
120\nocite{Mont:04jgr}
121
122\end{itemize}
123
124
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