Main Geophysical Observatory (MGO): References
[1]Meleshko, V.P., B. Ye. Shneerov, M.E. Shvets, L.R. Dmitrieva-Arrago, G.V. Parshina, E.P. Yushina, L.N. Magazenkov, S.V. Bogachenko, and D.A. Sheinin, 1980: A hydrodynamical model of the general atmosphere circulation. Trudy GGO (MGO Proc.), No. 420, 3-33 (in Russian).
[2]Sokolov, A.P., 1986: Simulation of the January atmospheric circulation using a global spectral model. Meteorologia i Hydrologia. 6, 12-21 (in Russian).
[3]Meleshko, V.P., A.P. Sokolov, D.A. Sheinin, V.A. Lyubanskaya, P.V. Sporyshev, V.A. Matyugin, B.E. Shneerov, V.A. Govorkova, and V.M. Kattsov, 1991: An atmospheric general circulation/mixed layer ocean model for climate studies and long range weather forecasts. Meteorologia i Hydrologia, 5. (In Russian, with English translation also available.)
[4]Sheinin, D.A., 1987: Thermodynamically consistent schemes for vertical approximation of the atmospheric dynamics equations. Meteorologia i Hydrologia, 6, 34-44 (in Russian).
[5]Magazenkov, L.N., D.A. Sheinin, 1988: Vertical approximation schemes and the well-posedness of the weather prediction problem for a baroclinic atmosphere. Meteorologia i Hydrologia, 6, 43-50 (in Russian).
[6]Sheinin, D.A., 1983: Construction of a semi-implicit dissipative time integration scheme with a negligible computational mode. Trudy GGO (MGO Proc.), No. 481, 108-128 (in Russian).
[7]Laursen, L., and E. Eliasen, 1989: On the effects of the damping mechanisms in an atmospheric general circulation model. Tellus, 41A, 385-400.
[8]Louis, J.-F., 1979: A parametric model of vertical eddy fluxes in the atmosphere. Bound. Layer Meteor, 17, 187-202.
[9]McFarlane, N.A., 1987: The effect of orographically excited gravity-wave drag on the circulation of the lower stratosphere and troposphere. J. Atmos. Sci., 44, 1775-1800.
[10]McPeters, R.D., D.F. Heath, and P.K. Bhartia, 1984: Averaged ozone profiles for 1979 from the NIMBUS 7 SBUV instrument. J. Geophys. Res., 89, 5199-5214.
[11]Karol, I.L. (ed)., 1986: Radiative-Photochemical Atmospheric Models. Gidrometeoizdat, Leningrad, 192 pp (in Russian).
[12]Rozanov, E.V., and V.A. Frolkis, 1988: Method of radiation fluxes calculation in the near infrared range. Trudy GGO (MGO Proc.), No. 516, 61-71 (in Russian).
[13]Roberts, R.E., J.A. Selby, and L.M. Biberman, 1976: Infrared continuum absorption by atmospheric water vapor in the 8-12 micron window. Appl. Optics, 15, 2085-2090.
[14]Gordon, C.T., R.D. Hovanec, and W.F. Stern, 1984: Analyses of monthly mean cloudiness and their influence upon model-diagnosed radiative fluxes. J. Geophys. Res., 89, 4713-4738.
[15]Kuo, H.L., 1974: Further studies of the parameterization of the influence of cumulus convection on large-scale flow. J. Atmos. Sci., 31, 1232-1240.
[16]Louis, J.F. (ed.), 1984: ECMWF forecast model physical parameterisation. Research Manual No. 3, European Centre for Medium-Range Weather Forecasts, Reading, England.
[17]Slingo, J.M., 1987: The development and verification of a cloud prediction model for the ECMWF model. Quart. J. Roy. Meteor. Soc., 113, 899-927.
[18]Gates, W.L., and A.B. Nelson, 1975: A new (revised) tabulation of the Scripps topography on a one-degree global grid. Part 1: Terrain heights. Tech. Report R-1276-1-ARPA, The Rand Corporation, Santa Monica, CA, 132 pp.
[19]Hoskins, B.J., 1980: Representation of the earth's topography using spherical harmonics. Mon. Wea. Rev., 108, 111-115.
[20]Bourke, R.H., and R.P. Garrett, 1987: Sea ice thickness distribution in the Arctic ocean. Cold Regions Sci. and Technol., 13, 259-280.
[21]Jacka, T.H., 1983: A computer data base for Antarctic sea ice extent. ANARE Research Notes, 13, 54 pp.
[22]Charnock, H., 1955: Wind stress on a water surface. Quart. J. Roy. Meteor. Soc., 81, 639-640.
[23]Ariel, N.Z., A.V. Murashova, 1981: Computing the adjusted nomograms for resistance coefficients of heat and moisture exchange above the sea. Trudy GGO (MGO Proc.). No 454, 9-23 (in Russian).
[24]Zilitinkevich, S.S., 1970: Dynamics of the Atmospheric Boundary Layer. Gidrometeoizdat, Leningrad, 292 pp (in Russian).
[25]Wilson, M.F., and A. Henderson-Sellers, 1985: A global archive of land cover and soils data sets for use in general circulation models. Int. J. Climatology, 5, 119-143.
[26]Wilson, C.A., and J.F.B. Mitchell, 1987: A doubled CO2 climate sensitivity experiment with a global climate model including a simple ocean. J. Geophys. Res., 92, 13315-13343.
[27]Milly, P.C.D., and P.S. Eagleson, 1982: Parameterization of moisture and heat fluxes across the land surface for use in atmospheric general circulation models. MIT Report No. 279, Massachusetts Institute of Technology, Cambridge, MA.
[28]Warrilow, D.A., A.B. Sangster, and A. Slingo, 1986: Modelling of land surface processes and their influence on European climate. DCTN 38, Dynamical Climatology Branch, United Kingdom Meteorological Office, Bracknell, Berkshire RG12 2SZ, UK.
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Last modified September 14, 1995. For further information, contact: Tom Phillips ( phillips@tworks.llnl.gov )
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