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1\chapter{The physical parameterizations of the Martian model: some references}
2
3\label{sc:phymars}
4
5\section{General}
6
7The Martian General Circulation Model uses a large number of physical
8parameterizations based on various scientific theories
9and some generated using specific numerical methods.
10
11A list of these parameterizations is given below, along with the most
12appropriate
13references for each one. Most of these documents can be consulted at:
14\verb+http://www-mars.lmd.jussieu.fr/mars/publi.html+.
15
16
17\paragraph{General references:}
18A document attempts to give a complete scientific description of the current
19version of the GCM (a version without tracers):
20\begin{itemize}
21\item  {\it Forget et al.} [1999] (article
22published in JGR)
23\end{itemize}
24
25\nocite{Forg:99}
26
27\section{Radiative transfer}
28
29The radiative transfer parameterizations are used to calculate the heating
30and cooling ratios in the atmosphere and the radiative flux at the surface.
31
32\subsection{\bf CO$_2$ gas absorption/emission:}
33\subsubsection*{Thermal IR radiation} (\verb+ lwmain+)
34\begin{itemize}
35\item New numerical method, solution for the radiative transfer equation:
36{\it Dufresne et al.} [2005].
37\item Model validation and inclusion of the ``Doppler'' effect
38(but using an old numerical formulation):
39{\it Hourdin} [1992] (article).
40\nocite{Hour:92,Hour:00b,Dufr:05}
41
42\item At high altitudes, parameterization of the thermal radiative transfer
43({\tt nltecool}) when the local thermodynamic balance is no longer valid
44(e.g. within 0.1 Pa) : Lopez-Valverde et al. [2001] :
45Report for the ESA available on the web
46as: ``CO2 non-LTE cooling rate at
4715-um and its parameterization for the Mars atmosphere''.
48
49\end{itemize}
50
51\subsubsection*{Absorption of near-infrared radiation}
52 (\verb+ nirco2abs+)
53\begin{itemize}
54\item {\it Forget et al.} [1999]
55\end{itemize}
56
57\subsection{\bf Absorption/emission and diffusion by dust:}
58
59\subsubsection*{Dust spatial distribution}
60 (\verb+ aeropacity+)
61
62\begin{itemize}
63\item The method for semi-interactive dust vertical distribution
64is detailed in {\it Madeleine et al.} [2011]
65\item Vertical distribution and description of ``MGS'' and ``Viking'' scenarios
66in the ESA report {\it Mars Climate Database V3.0 Detailed Design Document}
67by Lewis et al. (2001), available on the web.
68\item For the ``MY24''-``MY26'' scenarios, the dust distributions were
69derived from observations made by
70TES data is used. See technical note WP12.2.1 of ESA contract
71Ref~ESA 11369/95/NL/JG(SC) "New dust scenarios for the Mars Climate Model : Martian Years
7224-29", available online at
73\verb+http://www-mars.lmd.jussieu.fr/WP2011/wp12.1.1.pdf+
74
75\end{itemize}
76\nocite{Lewi:99,Made:11}
77
78\subsubsection*{Thermal IR radiation}
79 (\verb+ lwmain+)
80\begin{itemize}
81\item Numerical method:  {\it Toon et al.} [1989]
82\item Optical properties of dust:  {\it Madeleine et al.} [2011]
83\nocite{Toon:89,Made:11}
84\end{itemize}
85
86\subsubsection*{Solar radiation}
87 (\verb+ swmain+)
88\begin{itemize}
89\item Numerical method: {\it Toon et al.} [1989]
90\nocite{Toon:89}
91
92\item Optical properties of dust:
93see the discussion in {\it Madeleine et al.} [2011], which quotes
94properties from {\it Wolff et al.} [2009].
95\nocite{Made:11,Wolf:09}
96\end{itemize}
97
98\section{Subgrid atmospheric dynamical processes}
99
100\subsection{Turbulent diffusion in the upper layer}
101 (\verb+ vdifc+)
102
103\begin{itemize}
104\item Implicit numerical scheme in the vertical:
105see the thesis of Laurent Li (LMD, Universit\'e Paris 7, 1990), Appendix C2.
106
107\item Calculation of the turbulent diffusion coefficients:
108{\it Forget et al. } [1999].
109
110\item fluxes in the near-surface layer: {\it Colaitis et al.} [2012],
111technical note WP13.1.3d of ESA contract
112Ref~ESA 11369/95/NL/JG(SC) "New Mars Climate Model:
113d) New convection and boundary layer schemes and their impact on
114Mars meteorology", available online at
115\verb+http://www-mars.lmd.jussieu.fr/WP2011/wp13.1.3d.pdf+
116
117\end{itemize}
118
119\subsection{Convection}
120 (\verb+ convadj+)
121\begin{itemize}
122\item For some details on the convective adjustement,
123see {\it Hourdin et al.} [1993]
124\item The thermals' mass flux scheme is described in
125{\it Colaitis et al.} [2012],
126technical note WP13.1.3d of ESA contract
127Ref~ESA 11369/95/NL/JG(SC) "New Mars Climate Model:
128d) New convection and boundary layer schemes and their impact on
129Mars meteorology", available online at
130\verb+http://www-mars.lmd.jussieu.fr/WP2011/wp13.1.3d.pdf+
131\end{itemize}
132\nocite{Hour:93}
133 
134\subsection{Effects of subgrid orography and gravity waves}
135 (\verb+ calldrag_noro+ ,  \verb+ drag_noro+ )
136
137See {\it Forget et al. } [1999] and {\it Lott and Miller} [1997]
138\nocite{Lott:97}
139
140\section{Surface thermal conduction}
141 (\verb+soil+)
142
143The numerical scheme is described in section 2 of technical note
144WP11.1 of ESA contract
145Ref~ESA 11369/95/NL/JG(SC) "Improvement of the high latitude
146processes in the Mars Global Climate Model", available online at
147\verb+http://www-mars.lmd.jussieu.fr/WP2008/Polar_processes.pdf+
148 
149\section{CO$_2$ Condensation}
150
151\begin{itemize}
152\item In {\it Forget et al.} [1998] (article published in Icarus):
153 \begin{itemize}
154  \item Numerical method for calculating the condensation and sublimation levels
155at the surface and in the atmosphere (\verb+ newcondens+)
156 explained in the appendix.
157  \item Description of the numerical scheme for calculating the evolution of CO$_2$
158snow emissivity (\verb+co2snow+) explained in section 4.1
159  \end{itemize}
160\nocite{Forg:98}
161\item Noncondensable gaz treatment: see {\it Forget et al.} [2008],
162available online at
163\verb+http://www.lpi.usra.edu/meetings/modeling2008/pdf/9106.pdf+
164\item Inclusion of sub-surface water ice table thermal effect, varying albedo
165of polar caps and tuning of the CO2 cycle are descibed in technical note
166WP13.1.3e of ESA contract
167Ref~ESA 11369/95/NL/JG(SC) "New Mars Global Climate Model:
168e) Improved CO2 cycle and seasonal pressure variations", available online at
169\verb+http://www-mars.lmd.jussieu.fr/WP2011/wp13.1.3e.pdf+
170\end{itemize}
171
172
173\section{Tracer transport and sources} 
174\begin{itemize}
175\item ``Van-Leer'' transport scheme used in the dynamical part
176(\verb+ tracvl+ and  \verb+ vlsplt+ in the dynamical part):
177{\it Hourdin and Armengaud} [1999] \nocite{Hour:99}
178
179\item Transport by turbulent diffusion  (in \verb+ vdifc+), convection
180(in  \verb+ convadj+), sedimentation  (\verb+ sedim+),
181dust lifting by winds (\verb+ dustlift+) :
182see note ``Preliminary design of dust lifting and transport in the Model''
183(ESA contract, Work Package 4, 1998, available on the web).
184
185\item Dust transport by the ``Mass mixing ratio /
186Number mixing ratio'' method for grain size evolution: see article by {\it
187Madeleine et al.} [2011]
188\nocite{Made:11}
189
190%\item Simplified water cycle (source in {\tt vdifc}, {\tt
191%watercloud}) : and also see the Maitrise study by Delphine Nobileau, LMD, 2000.
192\item {\bf Watercycle}, see {\it Montmessin et al.} [2004]
193and technical note
194WP13.1.3c of ESA contract
195Ref~ESA 11369/95/NL/JG(SC) "New Mars Climate Model: c) Inclusion of cloud
196microphysics, dust scavenging and improvement of the water cycle",
197available online at
198\verb+http://www-mars.lmd.jussieu.fr/WP2011/wp13.1.3c.pdf+
199\nocite{Mont:04jgr}
200
201\item Radiative effect of clouds: see technical note
202WP13.1.3b of ESA contract Ref~ESA 11369/95/NL/JG(SC)
203"New Mars Climate Model: b) Radiative effects of water
204ice clouds and impact on temperatures", available online at
205\verb+http://www-mars.lmd.jussieu.fr/WP2011/wp13.1.3b.pdf+
206
207%\item Chemistry, thermosphere, clouds: currently being published.
208\item {\bf Chemistry}, see {\it Lef\`evre et al.} [2004]
209and {\it Lef\`evre et al. [2008]}
210\nocite{Lefe:04,Lefe:08}
211\end{itemize}
212
213\section{Thermosphere}
214\begin{itemize}
215\item A general description of the model is given in
216{\it Gonz{\'a}lez-Galindo et al.} [2009]
217\item Details on photochemistry and EUV radiative transfer can be found in
218{\it Angelats i Coll et al.} [2005] and
219{\it Gonz{\'a}lez-Galindo et al.} [2005]
220\end{itemize}
221\nocite{Gonz:09a,Gonz:09b,Gonz:05,Ange:05}
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