Abstract
Light extinction and resulting visibility degradation in an unsaturated precipitation-free atmosphere are determined by light absorption and scattering and are caused by a complex mix of natural components and anthropogenic pollutants. The paper reviews correlation studies relating light scattering and light extinction (visibility) to concentrations of sulfate mass, nitrate mass, the remainder of the mass, and in some cases organic aerosol mass, while accounting for variations in relative humidity. It is found that sulfate aerosol mass is the dominant chemical aerosol species affecting light scattering and extinction. The dominant effect of sulfate mass on light scattering and extinction, even when sulfates account for a relatively small fraction of the total mass, results from the fact that sulfates are secondary aerosols and are mostly found in the 0.1-1.0 micron size range (the particular size range that scatters visible light very efficiently).
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