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Nemesure et al. 1995
Nemesure, S., Wagener, R. and Schwartz, S.E. (1995). Direct shortwave forcing of climate by the anthropogenic sulfate aerosol: Sensitivity to particle size, composition, and relative humidity. Journal of Geophysical Research 100: doi: 10.1029/95JD02897. issn: 0148-0227.

Recent estimates of global or hemispheric average forcing of climate by anthropogenic sulfate aerosol caused by scattering of shortwave radiation (''direct'' effect) are uncertain by somewhat more than a factor of 2. The principal sources of this uncertainty are atmospheric chemistry properties (yield, residence time), and microphysical properties . This paper examines the sensitivity of forcing to these microphysical properties to identify and improve understanding of the properties required to reduce the uncertainty in the forcing. The relations between aerosol loading and forcing developed here are suitable for comparing modeled and measured aerosol forcing at specific locations and for use in climate models, provided aerosol composition and microphysical properties are known, calculated, or assumed. Results are presented showing the dependence of scattering efficiency, upscatter fraction, and normalized forcing -2/g(SO2-4)m-2 or W g(SO2-4)-1> on dry particle size , composition <(NH4)2SO4, NH4HSO4, H2SO4>, solar zenith angle, latitude, and season. Forcing is strongly dependent on dry particle size and RH but is relatively insensitive to composition. The normalized forcing can be integrated over a known or assumed size distribution to evaluate the sulfate aerosol forcing. Global and annual average values of the normalized forcing are evaluated as a function of particle size and RH. Depending on values of these variables, normalized forcing may be less than, intermediate to, or greater than the range of previous estimates of sulfate aerosol forcing. ¿ American Geophysical Union 1995

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Abstract

Keywords
Atmospheric Composition and Structure, Aerosols and particles (0345, 4801)
Journal
Journal of Geophysical Research
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American Geophysical Union
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