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Turner A, Millward GE, Le Roux SM: Sediment-water partitioning of inorganic mercury in estuaries. Environ Sci Technol. 2001 Dec 1;35(23):4648-54.
The sediment-water partitioning and speciation of inorganic mercury have been studied under simulated estuarine conditions by monitoring the hydrophobicity and uptake of dissolved 203Hg (II) in samples from a variety of estuarine environments. A persistent increase in the distribution coefficientwith increasing salinity is inconsistent with inorganic speciation calculations, which predict an increase in the concentration of the soluble HgCl4 (2-) complex (or reduction in sediment-water distribution coefficient) with increasing salinity. Partition data are, however, defined by an empirical equation relating to the salting out of nonelectrolytes via electrostriction and are characterized by salting constants between about 1.4 and 2.0 L mol (-1). Salting out of the neutral, covalent chloro-complex, HgCl2 (0), is predicted but cannot account for the magnitude of salting out observed. Since Hg (II) strongly complexes with dissolved (and particulate) organic matter in natural environments, of more significance appears to be the salting out of Hg (II)-organic complexes. Operational measurements of the speciation of dissolved Hg (II) using Sep-Pak C18 columns indicate a reduction in the proportion of hydrophobic (C18-retained) dissolved Hg (II) complexes with increasing salinity, both in the presence and absence of suspended particles. Ratios of hydrophobic Hg (ll) before and after particle addition suggest a coupled salting out-sorption mechanism, with the precise nature of Hg (II) species salted out being determined bythe characteristics and concentrations of dissolved and sediment organic matter. |
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