Observations and Model Studies of Some Radiative Effects of Mineral Dust

• Andreae, M. O., Climate effects of changing atmospheric aerosol levels, World Survey of Climatology, XX, Future Climate of the World, Henderson-Sellers Ed., 1994.

  Google Scholar 

• Alfaro, S., A. Gaudichet, L. Gomes and M. Maillé, Mineral aerosol production by wind erosion: aerosol particle sizes and binding energies, Geophys. Res. Lett., 25, 991–994, 1998.

  Article  CAS  Google Scholar 

• Cautenet, G., F. Guillard, G. Bergametti, F. Dulac, B. Marticorena and J. Edy. Modeling of a Saharan dust event, Contributions to Atmospheric Physics (in press), 2000-a.

  Google Scholar 

• Cautenet, G., F. Pradelle, M. Legrand, O. Chomette, G. Bergametti and B. Marticorena Mesoscale modeling of the desert aerosol transport in the Saharo-Sahelian and eastern Atlantic zones. Part I: methodology and preliminary tests, in rev., J. Geophys. Res., 2000-b

  Google Scholar 

• Chiapello, I., G. Bergametti, L. Gomes, B. Chatenet, F. Dulac, J. Pimenta and E. Santos Soares, An additional low layer transport of Sahelian and Saharan dust over the North-Eastern Tropical Atlantic, Geophys. Res. Lett., 22, 3191–3194, 1995.

  Article  Google Scholar 

• Chomette, O., Modélisation et analyse méso-échelle du cycle de ľaérosol désertique. Aspects radiatifs et dynamiques,. Thèse de doctorat, Université de Lille, France, 1999.

  Google Scholar 

• Fouquart, Y. and B. Bonnel, Computation of solar heating of the earth’s atmosphere: a new parameterization, Beitr. Phys. Atmosph., 53, 35–52, 1980.

  Google Scholar 

• Fouquart, Y., B. Bonnel and V. Ramaswany, Intercomparing shortwave radiation codes for climate studies, J. Geophys. Res., 96, 8955–8968, 1991.

  Google Scholar 

• Guelle, W., Comparaison des simulations globales de ²¹⁰Pb et ďaérosols sahariens aux observations de surface et satellitales. Thèse de doctorat, Université de Paris 7, Paris, France, 1998.

  Google Scholar 

• Herman, J.R., P. K. Bhartia, O. Torres, C. Hsu, C. Seftor and E. Celarier, Global distribution of UV-absorbing aerosols from Nimbus 7/TOMS data, J. Geophys. Res., 102, 16911–16922, 1997.

  CAS  Google Scholar 

• Husar, R.B., J.M. Prospero and L.L. Stowe, Characterization of tropospheric aerosols over the oceans with the NOAA advanced very high resolution radiometer optical thickness operational product, J. Geophys. Res., 102, 16889–16909, 1997.

  Article  CAS  Google Scholar 

• Jankowiak, I. and D. Tanré, Satellite climatology of Saharan dust outbreaks. J. Climate, 5, 646–656, 1992.

  Article  Google Scholar 

• Laj, P., S. Fuzzi, M.C. Facchini, G. Orsi, A. Berner, C. Kruisz, W. Wobrock, A. Hallberg, K.N. Bower, M.W. Gallagher, K.M. Beswick, R.N. Colvile, T.W. Choularton, P. Nason, and B. Jones, Experimental evidence for in-cloud production of aerosol sulphate. Atmos. Environm., 31, 2503–2514.

  Google Scholar 

• Legrand, M., C. N’Doumé and I. Jankowiak, Satellite-derived climatology of the Saharan aerosol, Passive Infrared remote sensing of clouds and the atmosphere II: proc. SPIE, 2309, 127–135, D.K. Lynch ed., 1994.

  Google Scholar 

• Marticorena, B. and G. Bergametti, Modeling the atmospheric dust cycle: 1— Design of a soil-derived dust emission scheme. J. Geophys. Res., 100, 16415–16430, 1995.

  Article  Google Scholar 

• Marticorena, B., G. Bergametti, B. Aumont, Y. Callot, C. N’Doumé and M. Legrand, Modeling the atmospheric dust cycle: 2— Simulation of Saharan dust sources. J. Geophys. Res., 102, 4387–4404, 1997.

  Google Scholar 

• Morcrette, J. J., Description of the radiation scheme in the ECMWF model, Tech. Memo. 165, 26 pp, Res. Dep., European Center for Medium Range Weather Forecasts, Reading, England, 1989.

  Google Scholar 

• Moulin, C., C E. Lambert, F. Dulac and U. Dayan, Control of atmospheric export of dust from North Africa by the North Atlantic Oscillation, Nature, 387,691–694.1997.

  CAS  Google Scholar 

• Levin, Z., E. Ganor and V. Gladstein, The effects of desert particles coated with sulfate on rain formation in the eastern Mediterranean, J. Appl. Meteor., 35, 1511–1523, 1996.

  Article  Google Scholar 

• Pielke, R. A., W. R. Cotton, R.L. Walko, C. J. Tremback, W. A. Lyons, L. D. Grasso, M. E. Nicholls, M. D. Moran, D. A. Wesley, T. J. Lee and J. H. Copeland, A comprehensive meteorological modeling system—RAMS. Meteorol. Atmos. Phys., 49, 69–91, 1992.

  Article  Google Scholar 

• Pradelle, F., G. Cautenet and I. Jankowiak, Remote sensing of some radiative or microphysical interactions between marine stratocumulus clouds and Saharan dust: observations and climatology, submitted to J. Geophys. Res., 2000.

  Google Scholar 

• Pruppacher, H.R and J. D. Klett, Microphysics of clouds and precipitation, Kluwer Academic Publishers, 1997.

  Google Scholar 

• Schell, D., W. Wobrock, R. Maser, M. Preiss, W. Jaeschke, H-W Georgii, M.W. Gallagher, K.N. Bower, K.M Beswick, S. Pahl, M.C Facchini, S. Fuzzi, A. Wiedensohler, H-C. Hansson and M. Wendisch, The size-dependant chemical composition of cloud droplets. Atmos. Environm., 31, 2561–2576.

  Google Scholar 

• Sèze, G., and M. Desbois, Cloud cover analysis from satellite imagery using spatial and temporal characteristics of the data, J. Climate Appl. Meteor., 26, 287–303, 1987.

  Google Scholar 

• Tanré, D., C. Deroo, P. Duhaut, M. Herman, J. J. Morcrette, J. Perbos and P. Y. Deschamps, Description of a computer code to simulate the satellite signal in the solar spectrum: The 5S code, Int. J. Remote Sens., 11, 659–668, 1990.

  Google Scholar 

• Wobrock, W., Numerische Modellsimulationen vonStrahlungsnebelepisoden unter Berücksichtigung spektraler Wolkenmikrophysk, PhD Thesis, available from Johannes-Gutenberg Universität, Frankfurt, Germany, 1988.

  Google Scholar 

• Zhang, Y., Y. Sunwoo, G. R. Carmichael and V. Kotamarthi, Photochemical processes in the presence of dust: an evaluation of the effect of dust on paniculate nitrate and ozone formation, J. Appl. Meteor., 33, 813–824, 1994.

  Article  Google Scholar 

Download references