2014 Progress Report: The Role of Oxidation of BVOCs in SOA Production in the Southeastern U.S.

EPA Grant Number: R835409
Title: The Role of Oxidation of BVOCs in SOA Production in the Southeastern U.S.
Investigators: Bertman, Steve , Pratt, Kerri A , Seeley, John , Shepson, Paul , Starn, Tim
Institution: Western Michigan University , Oakland University , Purdue University , Purdue University , West Chester University of Pennsylvania
Current Institution: Western Michigan University , Oakland University , Purdue University , West Chester University of Pennsylvania
EPA Project Officer: Chung, Serena
Project Period: April 1, 2013 through March 31, 2015 (Extended to March 31, 2016)
Project Period Covered by this Report: April 1, 2014 through March 31,2015
Project Amount: $387,483
RFA: Anthropogenic Influences on Organic Aerosol Formation and Regional Climate Implications (2012) RFA Text |  Recipients Lists
Research Category: Air Quality and Air Toxics , Global Climate Change , Climate Change , Air


The main activity of this project was to conduct field measurements of anthropogenic and biogenic volatile organic compounds and their oxidation products, including organic nitrate compounds, at the Southern Oxidant and Aerosol Study (SOAS) campaign during the summer of 2013. The goals are to understand the interactions between anthropogenic and biogenic emissions in the formation of secondary organic aerosol (SOA) and organic nitrates and the role that organic nitrogen compounds play in SOA formation. 

Progress Summary:

This project is proceeding successfully on schedule. The goals of the project have not changed from the original application. We deployed several field measurements (PANs, monoterpenes, isoprene nitrates, filter samples) during SOAS 2013 at the Centreville, AL, ground site in collaboration with many other research groups in support of the overall goals of SOAS and in pursuit of specific questions about the involvement of nitrogen chemistry in aerosol formation from BVOC. Analysis of the data is ongoing. 
Isoprene and monoterpene-derived organosulfates and oligomers were identified in both below-cloud particles and cloud water, showing the significant influence of BVOC oxidation above this forested region to particle-phase organics. While the average O:C ratios of the organic compounds were similar between the atmospheric particle and cloud water samples, the chemical composition of these samples was quite different, demonstrating that cloud processing changes the composition of organic aerosol. 
A 0-D model was used to estimate the relative concentration of the major isoprene-derived organic nitrates in order to study the timescale for chemical conversion to secondary nitrate products. The modeled and observed [IN]/([MVK]+[MACR]) ratio both peak around 0.07, but the modeled growth rate in the morning appears smaller than observed, leading to a time lag of 1 hour when each reaches maximum. The underprediction in the morning growth rate suggests a small unknown source of isoprene nitrates, which could be downward mixing of these nitrates from the residual layer. 
Correlation of gas-phase organic nitrates with particle-phase organic nitrogen was significantly higher during the photochemically active portion of the day than at other times, which qualitatively supports the significant role that gas phase nitrates, like MPAN, play in particle formation that is seen in the organic molecular composition by MS.

Future Activities:

During the time remaining on this project, we will continue analysis of filter samples, publish research results, and evaluate a modified sampling system for BVOC. 

Journal Articles on this Report : 3 Displayed | Download in RIS Format

Other project views: All 23 publications 5 publications in selected types All 5 journal articles
Type Citation Project Document Sources
Journal Article Allen HM, Draper DC, Ayres BR, Ault A, Bondy A, Takahama S, Modini RL, Baumann K, Edgerton E, Knote C, Laskin A, Wang B, Fry JL. Influence of crustal dust and sea spray supermicron particle concentrations and acidity on inorganic NO3− aerosol during the 2013 Southern Oxidant and Aerosol Study. Atmospheric Chemistry and Physics 2015;15(18):10669-10685. R835409 (2014)
R835409 (Final)
R835399 (2014)
R835399 (Final)
  • Full-text: ACP-Full Text PDF
  • Abstract: ACP-Abstract HTML
  • Other: CalTech-Abstract & Full Text PDF
  • Journal Article Boone EJ, Laskin A, Laskin J, Wirth C, Shepson PB, Stirm BH, Pratt KA. Aqueous processing of atmospheric organic particles in cloud water collected via aircraft sampling. Environmental Science & Technology 2015;49(14):8523-8530. R835409 (2014)
    R835409 (Final)
  • Abstract from PubMed
  • Full-text: ResearchGate-Full Text PDF
  • Abstract: ACS-Abstract
  • Other: ACS-Full Text PDF
  • Journal Article Xiong F, McAvey KM, Pratt KA, Groff CJ, Hostetler MA, Lipton MA, Starn TK, Seeley JV, Bertman SB, Teng AP, Crounse JD, Nguyen TB, Wennberg PO, Misztal PK, Goldstein AH, Guenther AB, Koss AR, Olson KF, de Gouw JA, Baumann K, Edgerton ES, Feiner PA, Zhang L, Miller DO, Brune WH, Shepson PB. Observation of isoprene hydroxynitrates in the southeastern United States and implications for the fate of NOx. Atmospheric Chemistry and Physics 2015;15(19):11257-11272. R835409 (2014)
    R835409 (Final)
  • Full-text: ACP-Full Text PDF
  • Abstract: ACP-Abstract
  • Other: CalTech-Abstract & Full Text PDF
  • Supplemental Keywords:

    BVOC, organic nitrate, PAN, MPAN, isoprene nitrate, RONO2, GCxGC, terpene, NO3

    Progress and Final Reports:

    Original Abstract
  • 2013 Progress Report
  • Final Report