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Contribution of particulate brown carbon to light absorption in the rural and urban Southeast US

Publication ,  Journal Article
Devi, JJ; Bergin, MH; Mckenzie, M; Schauer, JJ; Weber, RJ
Published in: Atmospheric Environment
July 1, 2016

Measurements of wavelength dependent aerosol light absorption coefficients were carried out as part of the Southern Oxidant and Aerosol Study (SOAS) during the summer of 2013 to determine the contribution of light absorbing organic carbon (BrC) to total aerosol light absorption in a rural location (Centreville, AL) and an urban area (Atlanta, GA). The light absorption coefficients in the near UV and visible wavelengths were measured for both ambient air, as well as ambient air heated in a thermal denuder to 200 °C to remove the semi-volatile organic compounds. Atlanta measurements show dominance of semi-volatile brown carbon with an average absorption angstrom exponent (AAE) of 1.4 before heating and about 1.0 after heating. In urban Atlanta, a decrease of about ~35% in the light absorption coefficient at 370 nm after heating indicates that light absorbing organic compounds are a substantial fraction of the light absorption budget. Furthermore, a considerable increase in the fraction of light absorption by the semi-volatile aerosol occurs during the daytime, likely linked with photochemistry. Measurements at rural Centerville, on the other hand, do not show any major change in AAE with values before and after heating of 0.99 and 0.98, respectively. Overall the results suggest that photochemical aged urban emissions result in the presence of light absorbing BrC, while at rural locations which are dominated by aged aerosol and local biogenic emissions (based on measurements of Angstrom exponents) BrC does not significantly contribute to light absorption.

Duke Scholars

Published In

Atmospheric Environment

DOI

EISSN

1873-2844

ISSN

1352-2310

Publication Date

July 1, 2016

Volume

136

Start / End Page

95 / 104

Related Subject Headings

  • Meteorology & Atmospheric Sciences
  • 4011 Environmental engineering
  • 3702 Climate change science
  • 3701 Atmospheric sciences
  • 0907 Environmental Engineering
  • 0401 Atmospheric Sciences
  • 0104 Statistics
 

Citation

APA
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ICMJE
MLA
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Devi, J. J., Bergin, M. H., Mckenzie, M., Schauer, J. J., & Weber, R. J. (2016). Contribution of particulate brown carbon to light absorption in the rural and urban Southeast US. Atmospheric Environment, 136, 95–104. https://doi.org/10.1016/j.atmosenv.2016.04.011
Devi, J. J., M. H. Bergin, M. Mckenzie, J. J. Schauer, and R. J. Weber. “Contribution of particulate brown carbon to light absorption in the rural and urban Southeast US.” Atmospheric Environment 136 (July 1, 2016): 95–104. https://doi.org/10.1016/j.atmosenv.2016.04.011.
Devi JJ, Bergin MH, Mckenzie M, Schauer JJ, Weber RJ. Contribution of particulate brown carbon to light absorption in the rural and urban Southeast US. Atmospheric Environment. 2016 Jul 1;136:95–104.
Devi, J. J., et al. “Contribution of particulate brown carbon to light absorption in the rural and urban Southeast US.” Atmospheric Environment, vol. 136, July 2016, pp. 95–104. Scopus, doi:10.1016/j.atmosenv.2016.04.011.
Devi JJ, Bergin MH, Mckenzie M, Schauer JJ, Weber RJ. Contribution of particulate brown carbon to light absorption in the rural and urban Southeast US. Atmospheric Environment. 2016 Jul 1;136:95–104.
Journal cover image

Published In

Atmospheric Environment

DOI

EISSN

1873-2844

ISSN

1352-2310

Publication Date

July 1, 2016

Volume

136

Start / End Page

95 / 104

Related Subject Headings

  • Meteorology & Atmospheric Sciences
  • 4011 Environmental engineering
  • 3702 Climate change science
  • 3701 Atmospheric sciences
  • 0907 Environmental Engineering
  • 0401 Atmospheric Sciences
  • 0104 Statistics