Evolution of Multispectral Aerosol Absorption Properties in a Biogenically-Influenced Urban Environment during the CARES Campaign

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Authors

Gyawali, Madhu S.
Arnott, W. Patrick
Zaveri, Rahul A.
Song, Chen
Flowers, Bradley
Dubey, Manvendra K.
Setyan, Ari
Zhang, Qi
China, Swarup
Mazzoleni, Claudio

Issue Date

2017

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Article

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aerosol optical properties , photoacoustic instruments , absorption Ångström exponent (AAE) , mass absorption cross-section (MAC) , secondary organic carbon (SOA) , brown carbon (BrC) , photochemical ageing , anthropogenic emissions , biogenic emissions

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Abstract

We present the evolution of multispectral optical properties through urban aerosols that have aged and interacted with biogenic emissions, resulting in stronger short wavelength absorption and the formation of moderately brown secondary organic aerosols. Ground-based aerosol measurements were made in June 2010 within the Sacramento urban area (site T0) and at a 40-km downwind location (site T1) in the forested Sierra Nevada foothills area. Data on black carbon (BC) and non-refractory aerosol mass and composition were collected at both sites. In addition, photoacoustic (PA) instruments with integrating nephelometers were used to measure spectral absorption and scattering coefficients for wavelengths ranging from 355 to 870 nm. The daytime absorption angstrom ngstrom exponent (AAE) indicated a modest wavelength-dependent enhancement of absorption at both sites throughout the study. From 22 to 28 June 2010, secondary organic aerosol mass increased significantly at both sites, which was due to increased biogenic emissions coupled with intense photochemical activity and air mass recirculation in the area. During this period, the median BC mass-normalized absorption cross-section (MAC) values for 405 nm and 532 nm at T1 increased by similar to 23% and similar to 35%, respectively, compared with the relatively less aged urban emissions at the T0 site. In contrast, the average MAC values for the 870 nm wavelength were similar for both sites. These results suggest the formation of moderately brown secondary organic aerosols in biogenically-influenced urban air.

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Gyawali, M., Arnott, W., Zaveri, R., Song, C., Flowers, B., Dubey, M., … Moosmüller, H. (2017). Evolution of Multispectral Aerosol Absorption Properties in a Biogenically-Influenced Urban Environment during the CARES Campaign. Atmosphere, 8(12), 217. doi:10.3390/atmos8110217

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Creative Commons Attribution 4.0 International

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2073-4433

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