Fine particle concentrations and composition during wintertime inversions in Logan, Utah, USA

During Winter 2004, a series of elevated PM 2.5 events occurred in Logan, Utah, coinciding with strong winter inversions. This period resulted in 17 exceedances of the 24-h PM 2.5 standard, and some of the highest PM 2.5 mass loadings recorded in the United States, including 9 days of 24-h PM 2.5 me...

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Bibliographic Details
Published in:Atmospheric environment (1994) 2007-08, Vol.41 (26), p.5410-5422
Main Authors: Silva, Philip J., Vawdrey, Eric L., Corbett, Misty, Erupe, Mark
Format: Article
Language:English
Subjects:
Aerosol mass spectrometry
Agriculture
Ammonium nitrate
Applied sciences
Atmospheric pollution
Exact sciences and technology
PM 2.5
Pollutants physicochemistry study: properties, effects, reactions, transport and distribution
Pollution
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Summary:During Winter 2004, a series of elevated PM 2.5 events occurred in Logan, Utah, coinciding with strong winter inversions. This period resulted in 17 exceedances of the 24-h PM 2.5 standard, and some of the highest PM 2.5 mass loadings recorded in the United States, including 9 days of 24-h PM 2.5 measurements over 100 μg m −3. During the 3-month period, we monitored the size and mass concentrations of airborne particles using an aerosol mass spectrometer. PM 2.5 concentrations were dominated by the formation of ammonium nitrate, accounting for over 50% of the non-refractory aerosol matter throughout the study and 80% on the highest pollution days. Another 15–20% of the particulate matter was composed of organic carbon. The high particle concentration loadings in Utah's Cache Valley result from a combination of unfavorable meteorology dominated by a severe cold-temperature inversion, a mix of rural and urban emission sources, and a confined geographical area. As a rapidly growing formerly rural area, the Cache Valley is representative of future air pollution problems facing areas of the interior west undergoing rapid urbanization.
ISSN:1352-2310
1873-2844
DOI:10.1016/j.atmosenv.2007.02.016