Atmospheric Chemistry and Physics (Feb 2011)

Influence of aerosol acidity on the chemical composition of secondary organic aerosol from β-caryophyllene

  • E. M. Knipping,
  • R. L. Tanner,
  • S. L. Shaw,
  • M. Zheng,
  • M. Jaoui,
  • E. S. Edgerton,
  • T. E. Kleindienst,
  • E. O. Edney,
  • M. Lewandowski,
  • J. H. Offenberg,
  • K. Schilling,
  • A. W. H. Chan,
  • M. N. Chan,
  • J. D. Surratt,
  • J. H. Seinfeld

DOI
https://doi.org/10.5194/acp-11-1735-2011
Journal volume & issue
Vol. 11, no. 4
pp. 1735 – 1751

Abstract

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The secondary organic aerosol (SOA) yield of β-caryophyllene photooxidation is enhanced by aerosol acidity. In the present study, the influence of aerosol acidity on the chemical composition of β-caryophyllene SOA is investigated using ultra performance liquid chromatography/electrospray ionization-time-of-flight mass spectrometry (UPLC/ESI-TOFMS). A number of first-, second- and higher-generation gas-phase products having carbonyl and carboxylic acid functional groups are detected in the particle phase. Particle-phase reaction products formed via hydration and organosulfate formation processes are also detected. Increased acidity leads to different effects on the abundance of individual products; significantly, abundances of organosulfates are correlated with aerosol acidity. To our knowledge, this is the first detection of organosulfates and nitrated organosulfates derived from a sesquiterpene. The increase of certain particle-phase reaction products with increased acidity provides chemical evidence to support the acid-enhanced SOA yields. Based on the agreement between the chromatographic retention times and accurate mass measurements of chamber and field samples, three β-caryophyllene products (i.e., β-nocaryophyllon aldehyde, β-hydroxynocaryophyllon aldehyde, and β-dihydroxynocaryophyllon aldehyde) are suggested as chemical tracers for β-caryophyllene SOA. These compounds are detected in both day and night ambient samples collected in downtown Atlanta, GA and rural Yorkville, GA during the 2008 August Mini-Intensive Gas and Aerosol Study (AMIGAS).