Research Partnership Advancing the Science of Organic Aerosols
By Sherri Hunt
Why is there so much interest in weather forecasts, maps, smoke, planes, balloons, towers, filters, instruments, cities, and trees in Alabama this summer? At this very moment, more than 100 scientists are making measurements at multiple locations in the Southeastern U.S. to investigate a number of challenging research questions related to organic aerosols—small particles suspended in the atmosphere. These particles contribute to concentrations of particulate matter (PM), which can influence both climate and people’s health.
The Southeastern U.S. is an ideal location to study the formation and physical properties of organic aerosol since it is hot, sunny, forested, and impacted by pollution from cities. In a coordinated research effort, scientists have converged at the primary surface site in Brent, AL. They are working there throughout June and July 2013 as part of the Southern Oxidant and Aerosol Study (SOAS) and other related field campaigns, all coordinated under the Southern Atmosphere Study (SAS). Additional measurements are being made on the ground at sites in Research Triangle Park, NC, the Duke Forest, NC, and Look Rock, TN.
By using research towers, balloons, and several aircraft flying above the ground sites, scientists are taking measurements at multiple heights, making this the most detailed characterization of the southeastern atmosphere since the 1990s.
The planning for this campaign began more than two years ago as the scientific community identified the need for a rich data set in order to address pressing research questions related to how organic aerosol is formed and its impact on regional climate. Improving the understanding of these physical and chemical properties will enable the development of more accurate models of air pollution and climate, which in turn will make more effective plans to improve air quality possible. Such scientific discoveries may enable us to better understand the atmosphere across the country and ultimately determine ways to enable more people to breathe cleaner air. They will also allow scientists to understand, anticipate, and prepare for potential future climate changes.
In order to accomplish a study of this magnitude, EPA is working together with the National Science Foundation, the National Oceanic and Atmospheric Administration, and others.
EPA is also funding 13 research institutions to participate through the Agency’s Science to Achieve Results (STAR) grant program. The STAR funded researchers will leverage the measurements and equipment provided by the other partners and conduct analyses of the rich data sets collected. Funded projects include work investigating each part of the organic aerosol system, from measuring emissions and formation products, to cloud-aerosol interactions, to climate impacts of aerosols.
In addition to field measurements, laboratory experiments and modeling studies are also planned that include EPA researchers. As part of EPA’s involvement, Agency scientists are using a novel tracer method that will allow them to differentiate between man-made and natural sources of organic aerosols. The data and results will help improve our understanding of organic aerosol formation and will also be shared with other researchers.
Public open houses at the Alabama and Tennessee sites on June 19 and 21, 2013 will allow the surrounding communities an opportunity to see the state-of-the-art measurement instruments and meet researchers. Interested? If you are in the area, please consider coming by to see what all the interest is about.
About the Author
Sherri Hunt, Ph.D. is the Assistant Center Director for EPA’s Air, Climate, and Energy research program. Read more about Sherri and her work on her “EPA Science Matters” interview: Meet EPA Scientist Sherri Hunt, Ph.D.
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