Observational evidence for pollution‐influenced selective uptake contributing to biogenic secondary organic aerosols in the southeastern U.S

During the 2013 Southern Oxidant and Aerosol Study, aerosol mass spectrometer measurements of submicron mass and single particles were taken at Look Rock, Tennessee. Their concentrations increased during multiday stagnation events characterized by low wind, little rain, and increased daytime isopren...

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Bibliographic Details
Published in:Geophysical research letters 2017-08, Vol.44 (15), p.8056-8064
Main Authors: Liu, J., Russell, L. M., Lee, A. K. Y., McKinney, K. A., Surratt, J. D., Ziemann, P. J.
Format: Article
Language:English
Subjects:
Aerosols
anthropogenic sulfate emissions
biogenic secondary organic aerosols
Black carbon
Correlation
Daytime
Electric power generation
Electric power plants
heterogeneous reactions
Isoprene
Isoprene emissions
Mass
Mass spectra
Mass spectroscopy
Nitrates
Observational studies
Oxidation
Oxidizing agents
Particle composition
Particle mass
Pollution sources
Power plants
Rain
Secondary aerosols
selective uptake
Similarity
single‐particle measurements
Spectra
Stagnation
Sulfates
Time series
Uptake
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Summary:During the 2013 Southern Oxidant and Aerosol Study, aerosol mass spectrometer measurements of submicron mass and single particles were taken at Look Rock, Tennessee. Their concentrations increased during multiday stagnation events characterized by low wind, little rain, and increased daytime isoprene emissions. Organic mass (OM) sources were apportioned as 42% “vehicle‐related” and 54% biogenic secondary organic aerosol (bSOA), with the latter including “sulfate‐related bSOA” that correlated to sulfate (r = 0.72) and “nitrate‐related bSOA” that correlated to nitrate (r = 0.65). Single‐particle mass spectra showed three composition types that corresponded to the mass‐based factors with spectra cosine similarity of 0.93 and time series correlations of r > 0.4. The vehicle‐related OM with m/z 44 was correlated to black carbon, “sulfate‐related bSOA” was on particles with high sulfate, and “nitrate‐related bSOA” was on all particles. The similarity of the m/z spectra (cosine similarity = 0.97) and the time series correlation (r = 0.80) of the “sulfate‐related bSOA” to the sulfate‐containing single‐particle type provide evidence for particle composition contributing to selective uptake of isoprene oxidation products onto particles that contain sulfate from power plants. Key Points Aerosol organic concentrations were enhanced by multiday accumulation of isoprene‐related secondary particle mass Three types of single‐particle composition had mass fragments similar to three mass‐weighted aerosol mass spectrometer composition factors Isoprene‐related organic aerosol mass fragments were mostly found on sulfate‐containing particles, indicating selective uptake to particles
ISSN:0094-8276
1944-8007
DOI:10.1002/2017GL074665