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A comprehensive sulfate and DOM framework to assess methylmercury formation and risk in subtropical wetlands

Brett A. Poulin (), Michael T. Tate, Sarah E. Janssen, George R. Aiken and David P. Krabbenhoft
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Brett A. Poulin: University of California Davis
Michael T. Tate: Mercury Research Laboratory
Sarah E. Janssen: Mercury Research Laboratory
George R. Aiken: Water Mission Area
David P. Krabbenhoft: Mercury Research Laboratory

Nature Communications, 2025, vol. 16, issue 1, 1-13

Abstract: Abstract Wetlands play a vital role in contaminant cycling and uptake. Understanding how sulfate (SO42‒) influences the conversion of inorganic mercury (Hg(II)) to toxic methylmercury (MeHg) is critical for predicting wetland responses to land use and climate change. Here, we sampled surface and pore waters across SO42‒ gradients in three freshwater Everglades wetlands to assess linkages between SO42‒, MeHg, dissolved organic matter (DOM), and inorganic sulfide (S(‒II)). Increasing SO42‒ concentrations increase S(‒II) and DOM concentrations and DOM aromaticity. MeHg concentration show a unimodal response to surface water SO42‒, which reflect high Hg(II) methylation at low-to-intermediate SO42‒concentration (2-12 mg/L) and low Hg(II) methylation at higher SO42‒concentrations ( > 12 mg/L). MeHg concentrations in surface waters correlate positively with MeHg concentrations in prey fish. The coherent biogeochemical relationships between SO42‒ and MeHg concentrations and biologic uptake improve MeHg risk assessment for aquatic food webs and are globally relevant due to anthropogenic and climate-driven increases in SO42‒.

Date: 2025
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DOI: 10.1038/s41467-025-59581-w

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