4.8 Article

Thermodynamic Modeling of the Solubility and Chemical Speciation of Mercury and Methylmercury Driven by Organic Thiols and Micromolar Sulfide Concentrations in Boreal Wetland Soils

Journal

ENVIRONMENTAL SCIENCE & TECHNOLOGY
Volume 51, Issue 7, Pages 3678-3686

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acs.est.6b04622

Keywords

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Funding

  1. Kempe Foundations [SMK-2745, SMK-2840]
  2. JC Kempe Memorial Scholarship Foundation
  3. Stiftelsen JC Kempes Minnes Stipendiefond Foundation
  4. Umea University

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Boreal wetlands have been identified as environments in which inorganic divalent mercury (Hg-II) is transformed to methylmercury (MeHg) by anaerobic microbes. In order to understand this transformation and the mobility and transport of Hg-II and MeHg, factors and conditions in control of the solubility and chemical speciation of Hg-II and MeHg need to be clarified. Here we explore the ability of thermodynamic models to simulate measured solubility of Hg-II and MeHg in different types of boreal wetland soils. With the input of measured concentrations of MeHg, sulfide, eight low molecular mass thiols and thiol groups associated with natural organic matter (NOM), as determined by sulfur K-edge X-ray absorption near-edge structure (XANES) spectroscopy and Hg L-III-edge extended X-ray absorption fine structure spectroscopy (EXAFS), the model could accurately predict porewater concentrations of MeHg in the wetlands. A similar model for Hg-II successfully predicted the average level of its concentration in the porewaters, but the variability among samples, driven mainly by the concentration of aqueous inorganic sulfide, was predicted to be larger than measurements. The smaller than predicted variability in Hg-II solubility is discussed in light of possible formation of colloidal HgS(s) passing the 0.22 mu m filters used to define the aqueous phase. The chemical speciation of the solid/adsorbed and aqueous phases were dominated by NOM associated thiol complexes for MeHg and by an equal contribution from NOM associated thiols and HgS(s) for Hg-II.

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