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Increasing chloride concentration causes retention of mercury in melted Arctic snow due to changes in photoreduction kinetics

Document
Date Issued
2018-06
Abstract
Mercury (Hg) in the Arctic is a significant concern due to its bioaccumulative and neurotoxic properties, and the sensitivity of Arctic environments. Previous research has found high levels of Hg in snowpacks with high chloride (Cl-) concentrations. We hypothesized that Cl- would increase Hg retention by decreasing Hg photoreduction to Hg(0) in melted Arctic snow. To test this, changes in Hg photoreduction kinetics in melted Alert, NU snow were quantified with changing Cl- concentration and UV intensity. Snow was collected and melted in Teflon bottles in May 2014, spiked with 0 – 10 ug·g-1 Cl-, and irradiated with 3.52 – 5.78 W·m-2 UV (280 – 400 nm) radiation in a LuzChem photoreactor. Photoreduction rate constants (k) (0.14 – 0.59 h-1) had positive linear relationships with [Cl-], while photoreduced Hg amounts (Hg(II)red) had negative linear relationships with [Cl-] (1287 – 64 pg in 200 g melted snow). Varying UV and [Cl-] both altered Hg(II)red amounts, with more efficient Hg stabilisation by Cl- at higher UV intensity, while k can be predicted by Cl- concentration and/or UV intensity, depending on experimental parameters. Overall, with future projections for greater snowpack Cl- loading, our experimental results suggest that more Hg could be delivered to Arctic aquatic ecosystems by melted snow (smaller Hg(II)red expected), but the Hg in the melted snow that is photoreduced may do so more quickly (larger k expected).
Language
English
Genre
Article
Document Version
Accepted Manuscript
Rights
CC BY-NC-ND - http://creativecommons.org/licenses/by-nc-nd/4.0
DOI for Other Version
10.1016/j.jes.2018.01.006
Host Journal
Journal of Environmental Sciences
Host ISSN
10010742
Host Volume
68
Host Start Page
122
Host End Page
129

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