Journal
ENVIRONMENTAL SCIENCE & TECHNOLOGY
Volume 43, Issue 22, Pages 8548-8553Publisher
AMER CHEMICAL SOC
DOI: 10.1021/es901891t
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- Office of the Biological and Environmental Research, Office of Science, U.S. Department of Energy (DOE) [DE-AC05-00OR22725]
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The interaction of mercury (Hg) with dissolved natural organic matter (NOM) under equilibrium conditions is the focus of many studies but the kinetic controls on Hg-NOM complexation in aquatic systems have often been overlooked, We examined the rates of Hg-NOM complexation both in a contaminated Upper East Fork Poplar Creek (UEFPC) in Oak Ridge, Tennessee, and in controlled laboratory experiments using reducible Hg (Hg(R)) measurements and C(18) solid phase extraction techniques. Of the filterable Hg at the headwaters of UEFPC, >90% was present as HgR and this fraction decreased downstream but remained >29% of the filterable Hg at all sites. The presence of higher HgR concentrations than would be predicted under equilibrium conditions in UEFPC and in experiments with a NOM isolate suggests that kinetic reactions are controlling the complexation between Hg and NOM. The slow formation of Hg-NOM complexes is attributed to competitive ligand exchange among various moieties and functional groups in NOM with a range of binding strengths and configurations. This study demonstrates the need to consider the effects of Hg-NOM complexation kinetics on processes such as Hg methylation and solid phase partitioning.
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