Trends in sulfate and organic aerosol mass in the Southeast U.S.: Impact on aerosol optical depth and radiative forcing

Emissions of SO2 in the United States have declined since the early 1990s, resulting in a decrease in aerosol sulfate mass in the Southeastern U.S. of −4.5(±0.9)% yr−1 between 1992 and 2013. Organic aerosol mass, the other major aerosol component in the Southeastern U.S., has decreased more slowly d...

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Bibliographic Details
Published in:Geophysical research letters 2014-11, Vol.41 (21), p.7701-7709
Main Authors: Attwood, A. R., Washenfelder, R. A., Brock, C. A., Hu, W., Baumann, K., Campuzano-Jost, P., Day, D. A., Edgerton, E. S., Murphy, D. M., Palm, B. B., McComiskey, A., Wagner, N. L., de Sá, S. S., Ortega, A., Martin, S. T., Jimenez, J. L., Brown, S. S.
Format: Article
Language:English
Subjects:
Aerosol composition
Aerosol optical depth
Aerosols
Air sampling
Airborne particulates
Anthropogenic factors
atmospheric aerosol
Atmospheric aerosols
Atmospheric chemistry
Data
Data processing
Depth
Emission measurements
Emissions control
Extinction
Human influences
hygroscopicity
Loads (forces)
Mass
Mathematical analysis
Optical analysis
Precursors
Radiation
Radiative forcing
Reduction
Relative humidity
Satellites
sulfate
Sulfates
Sulfur dioxide
Trends
visibility
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Summary:Emissions of SO2 in the United States have declined since the early 1990s, resulting in a decrease in aerosol sulfate mass in the Southeastern U.S. of −4.5(±0.9)% yr−1 between 1992 and 2013. Organic aerosol mass, the other major aerosol component in the Southeastern U.S., has decreased more slowly despite concurrent emission reductions in anthropogenic precursors. Summertime measurements in rural Alabama quantify the change in aerosol light extinction as a function of aerosol composition and relative humidity. Application of this relationship to composition data from 2001 to 2013 shows that a −1.1(±0.7)% yr−1 decrease in extinction can be attributed to decreasing aerosol water mass caused by the change in aerosol sulfate/organic ratio. Calculated reductions in extinction agree with regional trends in ground‐based and satellite‐derived aerosol optical depth. The diurnally averaged summertime surface radiative effect has changed by 8.0 W m−2, with 19% attributed to the decrease in aerosol water. Key Points Aerosol sulfate mass has decreased faster than organic mass in the SE U.S.Aerosol water mass has decreased due to decreasing sulfate/organic ratioAerosol extinction and radiative forcing have changed due to composition changes
ISSN:0094-8276
1944-8007
DOI:10.1002/2014GL061669