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journal article Aug 27, 2017

Analysis of aerosol composition data for western United States wildfires between 2005 and 2015: Dust emissions, chloride depletion, and most enhanced aerosol constituents

Joseph S. Schlosser ORCID Rachel A. Braun ORCID Trevor Bradley ORCID Hossein Dadashazar ORCID Alexander B. MacDonald ORCID Abdulmonam A. Aldhaif ORCID Mojtaba Azadi Aghdam ORCID Ali Hossein Mardi Peng Xian ORCID Armin Sorooshian ORCID
Journal of Geophysical Research: Atmospheres Vol. 122 No. 16 pp. 8951-8966 · American Geophysical Union (AGU)
View at Publisher Save 10.1002/2017jd026547
Abstract
AbstractThis study examines major wildfires in the western United States between 2005 and 2015 to determine which species exhibit the highest percent change in mass concentration on day of peak fire influence relative to preceding nonfire days. Forty‐one fires were examined using the Environmental Protection Agency (EPA) Interagency Monitoring of Protected Visual Environments (IMPROVE) data set. Organic carbon (OC) and elemental carbon (EC) constituents exhibited the highest percent change increase. The sharpest enhancements were for the volatile (OC1) and semivolatile (OC2) OC fractions, suggestive of secondary organic aerosol formation during plume transport. Of the noncarbonaceous constituents, Cl, P, K, NO3−, and Zn levels exhibited the highest percent change. Dust was significantly enhanced in wildfire plumes, based on significant enhancements in fine soil components (i.e., Si, Ca, Al, Fe, and Ti) and PMcoarse (i.e., PM10–PM2.5). A case study emphasized how transport of wildfire plumes significantly impacted downwind states, with higher levels of fine soil and PMcoarse at the downwind state (Arizona) as compared to the source of the fires (California). A global model (Navy Aerosol Analysis and Prediction System, NAAPS) did not capture the dust influence over California or Arizona during this case event because it is not designed to resolve dust dynamics in fires, which motivates improved treatment of such processes. Significant chloride depletion was observed on the peak EC day for almost a half of the fires examined. Size‐resolved measurements during two specific fires at a coastal California site revealed significant chloride reductions for particle aerodynamic diameters between 1 and 10 μm.
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Metrics
108
Citations
87
References
Details
Published
Aug 27, 2017
Vol/Issue
122(16)
Pages
8951-8966
License
View
Authors
J
Joseph S. Schlosser

Department of Chemical and Environmental Engineering University of Arizona Tucson Arizona USA

R
Rachel A. Braun

Department of Chemical and Environmental Engineering University of Arizona Tucson Arizona USA

T
Trevor Bradley

Department of Chemical and Environmental Engineering University of Arizona Tucson Arizona USA

H
Hossein Dadashazar

Department of Chemical and Environmental Engineering University of Arizona Tucson Arizona USA

A
Alexander B. MacDonald

Department of Chemical and Environmental Engineering University of Arizona Tucson Arizona USA

A
Abdulmonam A. Aldhaif

Department of Chemical and Environmental Engineering University of Arizona Tucson Arizona USA

M
Mojtaba Azadi Aghdam

Department of Chemical and Environmental Engineering University of Arizona Tucson Arizona USA

A
Ali Hossein Mardi

Department of Chemical and Environmental Engineering University of Arizona Tucson Arizona USA

P
Peng Xian

United States Naval Research Laboratory Monterey California USA

A
Armin Sorooshian

Department of Chemical and Environmental Engineering University of Arizona Tucson Arizona USA; Department of Hydrology and Atmospheric Sciences University of Arizona Tucson Arizona USA

Funding
Agilent Technologies
Office of Naval Research Award: N00014-16-1-2567
U.S. Environmental Protection Agency
National Park Service
Cite This Article
Joseph S. Schlosser, Rachel A. Braun, Trevor Bradley, et al. (2017). Analysis of aerosol composition data for western United States wildfires between 2005 and 2015: Dust emissions, chloride depletion, and most enhanced aerosol constituents. Journal of Geophysical Research: Atmospheres, 122(16), 8951-8966. https://doi.org/10.1002/2017jd026547
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