UIUC footnotes

University of Illinois at Urbana-Champaign (UIUC): References


[1]Ghan, S.J., J.W. Lingaas, M.E. Schlesinger, R.L. Mobley, and W.L. Gates, 1982: A documentation of the OSU two-level atmospheric general circulation model. Climatic Research Institute, Report No. 35, Oregon State University, Corvallis, OR, 395 pp.

[2]Oh, J.-H., 1989: Physically-based general circulation model parameterization of clouds and their radiative interaction. Ph. D. dissertation, Department of Atmospheric Sciences, Oregon State University, Corvallis, OR, 315 pp.

[3]Oh, J.-H., and M.E. Schlesinger, 1991a: The University of Illinois multilayer atmospheric general circulation model. I. Basic model formulation and performance. Internal Report, Department of Atmospheric Sciences, University of Illinois at Urbana-Champaign.

[4]Oh, J.-H., and M.E. Schlesinger, 1991b: The University of Illinois multilayer atmospheric general circulation model. II. Cloud parameterization and performance. Internal Report, Department of Atmospheric Sciences, University of Illinois at Urbana-Champaign.

[5]Oh, J.-H., and M.E. Schlesinger, 1991c: The University of Illinois multilayer atmospheric general circulation model. III. Radiation parameterization and performance. Internal Report, Department of Atmospheric Sciences, University of Illinois at Urbana-Champaign.

[6]Arakawa, A., and V.R. Lamb, 1977: Computational design of the basic dynamical processes of the UCLA general circulation model. In Methods in Computational Physics, 17, J. Chang (ed.), Academic Press, New York, 173-265.

[7]Stolarski, R.S., P. Bloomfield, R.D. McPeters, and J.R. Herman, 1991: Total ozone trends deduced from Nimbus-7 TOMS data. Geophys. Res. Letters, 18, 1015-1018.

[8]Coakley, J.A., R.D. Cess, and F.B. Yurevich, 1983: The effect of tropospheric aerosols on the Earth's radiation budget: A parameterization for climate models. J. Atmos. Sci., 40, 116-138.

[9]Lacis, A.A., and J. E. Hansen, 1974: A parameterization for the absorption of solar radiation in the Earth's atmosphere. J. Atmos. Sci., 31, 118-133.

[10]Fouquart, Y., 1988: Radiative transfer in climate modeling. In Physically-Based Modelling and Simulation of Climate and Climate Change, Part 1. M.E. Schlesinger (ed.), Kluwer Academic Publishers, Dordrecht, 223-283.

[11]Stephens, G.L., 1978: Radiation profiles in extended water clouds. II: Parameterization schemes. J. Atmos. Sci., 35, 2123-2132.

[12]Starr, D. O'C., and S.K. Cox, 1985: Cirrus clouds, Part II: Numerical experiments on the formation and maintenance of cirrus. J. Atmos. Sci., 42, 2682-2694.

[13]Chou, M.-D., 1984: Broadband water vapor transmission functions for atmospheric IR flux computation. J. Atmos. Sci., 41, 1775-1778.

[14]Kneizys, F.X., E.P. Shettle, W.O. Gallery, J.H. Chetwynd, Jr., L.W. Abreu, J.E.A. Selby, S.A. Clough, and R.W. Fenn, 1983: Atmospheric transmittance/radiance: Computer code LOWTRAN 6. Optical Physics Div., 7670, Hanscom AFB, Bedford, MA, 200 pp.

[15]Chou, M.-D., and L. Peng, 1983: A parameterization of the absorption in 15-micron CO2 spectral region with application to climate sensitivity studies. J. Atmos. Sci., 40, 2183-2192.

[16]Donner, L., and V. Ramanathan, 1980: Methane and nitrous oxide: Their effects on the terrestrial climate. J. Atmos. Sci., 37, 119-124.

[17]Griffith, K.T., S.K. Cox, and R.C. Knollenberg, 1980: Infrared radiative properties of tropical cirrus clouds inferred from aircraft measurements. J. Atmos. Sci., 37, 1073-1083.

[18]Geleyn, J.-F., 1977: Parameterization of radiative transfer at ECMWF. Proceedings of the ECMWF 1977 Seminar on the Parameterisation of the Physical Processes in the Free Atmosphere, European Centre for Medium-Range Weather Forecasts, Reading, England, 273-345.

[19]Arakawa, A., and W.H. Schubert, 1974: Interaction of a cumulus cloud ensemble with the large scale environment, Part I. J. Atmos. Sci., 31, 674-701.

[20]Arakawa, A., 1969: Parameterization of cumulus convection. In Proceedings of the WMO?IUGG Symposium on Numerical Weather Prediction, Tokyo, 26 November to 4 December, 1968, Japan Meteorological Agency, IV, 8, 1-6.

[21]Lilly, D.K., 1968: Models of cloud-topped mixed layers under a strong inversion. Quart. J. Roy. Meteor. Soc., 94, 292-309.

[22]Guinn, T.A., and W.H. Schubert, 1989: Stratus: An interactive mixed layer model for personal computers (version 1.0). Department of Atmospheric Sciences, Colorado State University, Fort Collins, CO.

[23]Gates, W.L., and A.B. Nelson, 1975: A new (revised) tabulation of the Scripps topography on a one-degree grid. Part 1: Terrain heights. Tech. Report R-1276-1-ARPA, The Rand Corporation, Santa Monica, CA, 132 pp.

[24]Hansen, J., G. Russell, D. Rind, P. Stone, A. Lacis, S. Lebedeff, R. Reudy, and L. Travis, 1983: Efficient three-dimensional global models for climate studies: Models I and II. Mon. Wea. Rev., 111, 609-662.

[25]Fiedler, F., and M.A. Panofsky, 1972: The geostrophic drag coefficient and the "effective" roughness length. Quart J. Roy. Meteor. Soc., 98, 212-220.

[26]Monteith, J.L., 1973: Principles of Environmental Physics. Edward Arnold Publishers, 236 pp.

[27]Doronin, Yu. P., 1969: Thermal interaction of the atmosphere and the hydrosphere in the Arctic. Israel Program for Scientific Translations, Jerusalem, 244 pp. [NTIS N71-15668].

[28]Garratt, J.R.1, 1977: Review of drag coefficients over oceans and continents. Mon. Wea. Rev., 105, 915-929

[29]Matthews, E., 1983: Global vegetation and land use: New high-resolution data bases for climate studies. J. Clim. Appl. Meteor., 22, 474-487.

[30]Manabe, S., R.J. Stouffer, M.J. Spelman, and K. Bryan, 1991: Transient response of a coupled ocean-atmosphere model to gradual changes of atmospheric CO2. Part I: Annual mean response. J. Climate, 4, 785-818.

[31]Briegleb, B.P. , and V. Ramanathan, 1982: Spectral and diurnal variation in clear-sky planetary albedo. J. Appl. Meteor., 21, 1160-1171.

[32]Oh, J.-H., and M.E. Schlesinger, 1990: Improvement of the sea-level pressure (SLP) simulation by the University of Illinois two- and multilayer atmospheric general circulation model with various surface wind parameterizations. Internal Report, Department of Atmospheric Sciences, University of Illinois at Urbana-Champaign.

[33]Priestly, C.H.B., 1959: Turbulent Transfer in the Lower Atmosphere. University of Chicago Press, Chicago, IL, 130 pp.

[34]Bhumralkar, C.M., 1975: Numerical experiments on the computation of ground surface temperature in an atmospheric general circulation model. J. Appl. Meteor., 14, 1246-1258.

[35]Vinnikov, K.Ya, and I.B. Yeserkepova, 1991: Soil moisture: Empirical data and model results. J. Climate, 4, 66-79.

[36]Ramanathan, V., H.B. Singh, R.J. Cicerone, and J.T. Kiehl, 1985: Trace gas trends and their potential role in climate change. J. Geophys. Res., 90, 5547-5566.

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