Emission and Evolution of Submicron Organic Aerosol in Smoke from Wildfires in the Western United States

Garofalo, Lauren A.; Pothier, Matson A.; Levin, Ezra J. T.; Campos, Teresa; Kreidenweis, Sonia M.; Farmer, Delphine K.

doi:10.1021/acsearthspacechem.9b00125

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i

Emission and Evolution of Submicron Organic Aerosol in Smoke from Wildfires in the Western United States

2019
By Garofalo, Lauren A. ; Pothier, Matson A. ; Levin, Ezra J. T. ; ...
Source: ACS Earth and Space Chemistry, 3(7), 1237-1247

[PDF-1.53 MB]

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Journal Title:

ACS Earth and Space Chemistry
Personal Author:

Garofalo, Lauren A. ; Pothier, Matson A. ; Levin, Ezra J. T. ; Campos, Teresa ; Kreidenweis, Sonia M. ; ... More +

Garofalo, Lauren A. ; Pothier, Matson A. ; Levin, Ezra J. T. ; Campos, Teresa ; Kreidenweis, Sonia M. ; Farmer, Delphine K. Less -
NOAA Program & Office:

OAR (Oceanic and Atmospheric Research)
Description:

Despite increasing incidence of wildfires in the United States, wildfire smoke is poorly characterized, with little known about particle composition and emission rates. Chemistry in transported plumes confounds interpretation of ground and aircraft data, but near-field observations can potentially disentangle the effects of oxidation and dilution on aerosol mass and chemical composition. We report the organic aerosol (OA) emission ratios from aircraft observations near the fire source for the 20 wildfires sampled during the Western Wildfire Experiment: Cloud Chemistry, Aerosol Absorption, and Nitrogen (WE-CAN) study of summer 2018. We observe no changes in submicron nonrefractory OA mass concentration, relative to CO which accounts for simple dilution, between 0.5 and up to 8 h of aging. However, static OA excess mixing ratios hide shifts in the aerosol chemical composition that suggest near-balanced, simultaneous oxidation-driven condensation and dilution-driven evaporation. Specifically, we observe significant increases in the extent of oxidation, evident by an increase in oxidation marker f44 and loss of the biomass burning marker f60, as the smoke ages through chemistry and dilution. We discuss the competing effects of oxidative chemistry and dilution-driven evaporation on the evolution of the chemical composition of aerosols in wildfire smoke over time.
Keywords:

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Atmospheric Science Geochemistry And Petrology Space And Planetary Science
Source:

ACS Earth and Space Chemistry, 3(7), 1237-1247
DOI:

https://doi.org/10.1021/acsearthspacechem.9b00125
ISSN:

2472-3452;2472-3452;
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PDF
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American Chemical Society (ACS)
Document Type:

Journal Article
Funding:

Grant no. NA17OAR4310010
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urn:sha256:58f50b9a13b99b81f966c5f6fb4e9ea68d93d18590f0e2682bbeab864cdc0443
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https://repository.library.noaa.gov/view/noaa/60553/noaa_60553_DS1.pdf
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Emission and Evolution of Submicron Organic Aerosol in Smoke from Wildfires in the Western United States

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