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Tellus B: Chemical and Physical Meteorology Volume 47, 1995 - Issue 5
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Original Articles

Effects of anthropogenic sulfate on cloud drop nucleation and optical properties

Catherine C. ChuangGlobal Climate Research Division, Lawrence Livermore National Laboratory, Livermore, CA94551, USA
&
Joyce E. PennerGlobal Climate Research Division, Lawrence Livermore National Laboratory, Livermore, CA94551, USA
Pages 566-577 | Received 24 May 1993, Accepted 14 Nov 1994, Published online: 18 Jan 2017

  • Ayers, G. P. and Gras, J. L. 1991. Seasonal relationship between cloud condensation nuclei and aerosol methanesulphonate in marine air. Nature 353, 834–835.
  • Boucher, O. and Rodhe, H. 1994. The sulfate-CCN -cloud albedo effect: a sensitivity study. Report CM-83, Department of Meteorology, Stockholm University, 20 pp.
  • Bower, K. N., Choularton, T. W., Latham, J., Nelson, J., Baker, M. B. and Jensen, J. 1994. A parameterization of warm clouds for use in atmospheric general circula-tion models. J. Atmos. Sci. 51, 2722–2732.
  • Charlson, R. J., Schwartz, S. E., Hales, J. M., Cess, R. D., Coakley, J. A. Jr., Hansen, J. E. and Hofmann, D. J. 1992. Climate forcing by anthropogenic aerosols. Science 255, 423–430.
  • Chuang, C. C., Penner, J. E. and Edwards, L. L. 1992. Nucleation scavenging of smoke particles and simulated drop size distributions over large biomass fires. J. Atmos. Sci. 49, 1264–1275.
  • Clarke, A. D. 1993. Atmospheric nuclei in the pacific rnidtroposphere: their nature, concentration, and evolution. J. Geophys. Res. 98, 20633–20647.
  • Cotton, R. W. and Anthes, R. A 1989. Storm and cloud dynamics. Academic Press, 883 pp.
  • Galloway, J. N., Likens, G. E. and Hawley, M. E. 1984. Acid deposition: Natural versus anthropogenic sour-ces. Science 226, 829–831.
  • Ghan, S. J., Chuang, C. C. and Penner, J. E. 1992. A parameterization of cloud droplet nucleation. Part I: Single aerosol type. Atmos. Res. 30, 197–222.
  • Hegg, D. A., Radke, L. F. and Hobbs, P. V. 1990. Particle production associated with marine clouds. J. Geophys. Res. 95, 13917–13926.
  • Heintzenberg, J. 1989. Fine particles in the global troposphere. A review. Tellus 41B, 149–160.
  • Hildemann, L. M., Markowski, G. R. and Cass, G. R. 1991. Chemical composition of emissions from urban sources of fine organic aerosol. Environ. Sci. and Tech. 23, 744–759.
  • Hoppel, W. A., Fitzgerald, J. W., Frick, G. M., Larson, R. E. and Mack, E. J. 1990. Aerosol size distributions and optical properties found in the marine boundary layer over the Atlantic ocean. J. Geophys. Res. 95, 3659–3686.
  • Hoppel, W. A. and Frick, G. M. 1990. Submicron aerosol size distributions measured over the tropical and south Pacific. Atmos. Environ. 24A, 645–659.
  • Jaenicke, R. 1993. Tropospheric aerosols. In: Aerosol - cloud-climate interactions, P. V. Hobbs, Ed., Academic Press, Inc., 237 pp.
  • Jones, A., Roberts, D. L. and Slingo, A. 1994. A climate model study of indirect radiative forcing by anthro-pogenic sulphate aerosols. Nature 370,450–453.
  • Kreidenweis, S. M., Penner, J., Yin, F. D. and Seinfeld, J. H. 1991. The effects of dimethylsulfide fluxes upon marine aerosol concentrations. Atmos. Environ. 25A, 2501–2511.
  • Lacis, A. A. and Hansen, J. E. 1974. A parameterization for the absorption of solar radiation in the earth's atmosphere. J. Atmos. Sci. 31, 118–133.
  • Langner, J. and Rodhe, H. 1991. A global three-dimen-sional model of the tropospheric sulfur cycle. J. Atmos. Chem. 13, 225–263.
  • Langrier, J., Rodhe, H., Crutzen, P. J. and Zimmermann, P. 1992. Anthropogenic influence of the distribution of tropospheric sulphate aerosol. Nature 359,712–716.
  • Leaitch, W. R., Isaac, G. A., Strapp, J. W., Banic, C. M. and Wiebe, H. A. 1992. The relationship between cloud droplet number concentrations and anthropogenic pollution: Observations and climatic implications. .1. Geophys. Res. 97, 2463–2474.
  • Lee, I. Y., Hannel, G. and Pruppacher, H. R. 1980. A numerical determination of the evolution of cloud drop spectra due to condensation on natural aerosol particles. J. Atmos. Sci. 37, 1839–1853.
  • Lefieveld, J. and Heintzenberg, J. 1992. Sulfate cooling effect on climate through in-cloud oxidation of anthro-pogenic SO2. Science 258, 117–120.
  • Mason, B. and Moore, C. B. 1982. Principles of geochemistry. Wiley, New York, 344 pp.
  • Milford, J. G. and Davidson, C. I. 1987. The sizes of par-ticulate sulfate and nitrate in the atmosphere. A review. JAPCA 37,125–134.
  • Nicholls, S. 1984. The dynamics of stratocumulus: air-craft observations and comparisons. Q. J. R. Met. Soc. 110, 783–820.
  • Novakov, T. and Penner, J. E. 1993. Large contribution of organic aerosol to cloud-condensation-nuclei con-centrations. Nature 365, 823–826.
  • Pandis, S. N., Paulson, S. E., Seinfeld, J. H. and Flagan, R. C. 1991. Aerosol formation in the photooxidation of isoprene and fl-pinene. Atmos. Environ. 25A, 997–1008.
  • Penner, J. E., Dickinson, R. E. and O'Neill, C. A. 1992. Effects of aerosol from biomass burning on the global radiation budget. Science 256, 1432–1434.
  • Penner, J. E., Atherton, C. S. and Graedel, T. E. 1994. Global emissions and models of photochemically active compounds. Global atmospheric-biospheric chemistry: the 1st IGAC Scientific conference. OHOLO Con-ference Series Books, Plenum Publishing, New York.
  • Pruppacher, H. R and Klett, J. D. 1978. Microphysics of clouds and precipitation. D. Reidel, 714 pp.
  • Seinfeld, J. H. 1986. Atmospheric chemistry and physics of air pollution. Wiley, New York, 737 pp.
  • Spiro, P. A., Jacob, D. J. and Logan, J. A. 1992. Global inventory of sulfur emissions with 10 x 10 resolution. J. Geophys. Res. 97, 6023–6036.
  • Stevens, R. K., Dzubay, T. G., Russwurm, G. and Rickel, D. 1978. Sampling and analysis of atmospheric sulfates and related species. Atmos. Environ. 12, 55–68.
  • Twomey, S. A. 1977. Atmospheric aerosols. Elseview, New York, 302 pp.
  • Twomey, S. A. 1991. Aerosols, clouds and radiation. Atmos. Environ. 25A, 2435–2442.
  • Wigley, T. M. L. 1989. Possible climate change due to SO2 -derived cloud condensation nuclei. Nature 339, 365–367.
  • Whitby, K. T. 1978. The physical characteristics of sulfur aerosols. Atmos. Environ. 12, 135–159.

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