Tyler Elgiar scite author profile

Tyler Elgiar

3Publications

1Citation Statement Received

162Citation Statements Given

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146

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Utah State University

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Evidence against Rapid Mercury Oxidation in Photochemical Smog

Lyman

Elgiar

Gustin

et al. 2022

Environ. Sci. Technol.

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Mercury pollution is primarily emitted to the atmosphere, and atmospheric transport and chemical processes determine its fate in the environment, but scientific understanding of atmospheric mercury chemistry is clouded in uncertainty. Mercury oxidation by atomic bromine in the Arctic and the upper atmosphere is well established, but less is understood about oxidation pathways in conditions of anthropogenic photochemical smog. Many have observed rapid increases in oxidized mercury under polluted conditions, but it has not been clearly demonstrated that these increases are the result of local mercury oxidation. We measured elemental and oxidized mercury in an area that experienced abundant photochemical activity (ozone >100 ppb) during winter inversion (i.e., cold air pools) conditions that restricted entrainment of air from the oxidized mercury-rich upper atmosphere. Under these conditions, oxidized mercury concentrations decreased day-uponday, even as ozone and other pollutants increased dramatically. A box model that incorporated rapid kinetics for reactions of elemental mercury with ozone and OH radical overestimated observed oxidized mercury, while incorporation of slower, more widely accepted reaction rates did not. Our results show that rapid gas-phase mercury oxidation by ozone and OH in photochemical smog is unlikely.

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Accurate measurement methods show high atmospheric oxidized mercury in the western United States

Lyman¹,

Elgiar²,

Gratz³

et al. 2021

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Detection of atmospheric oxidized mercury at a mountain top site in Colorado, U.S.A.: Understanding origins and oxidation mechanisms

Elgiar¹,

Lyman²,

Gratz³

et al. 2021

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Tyler Elgiar

Evidence against Rapid Mercury Oxidation in Photochemical Smog

Accurate measurement methods show high atmospheric oxidized mercury in the western United States

Detection of atmospheric oxidized mercury at a mountain top site in Colorado, U.S.A.: Understanding origins and oxidation mechanisms

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