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Mercury levels in surface waters of the Carson River-Lahontan reservoir system, Nevada: Influence of historic mining activities
Total mercury (Hg T), methylmercury (MeHg), and other operationally defined Hg species were determined on water samples collected from a river-reservoir system impacted by historic mine wastes. Simultaneously, a comprehensive study was undertaken to determine the influence of some major physico-chem...
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Published in: | Environmental pollution (1987) 1996-01, Vol.92 (2), p.193-201 |
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Main Authors: | , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | Total mercury (Hg
T), methylmercury (MeHg), and other operationally defined Hg species were determined on water samples collected from a river-reservoir system impacted by historic mine wastes. Simultaneously, a comprehensive study was undertaken to determine the influence of some major physico-chemical parameters on the fate of Hg within the system. Total Hg levels showed an increase from background concentrations of 4 ng liter
−1 upstream of mining activity, to peak values of 1500–2100 ng liter
−1 downstream of Hg contaminated mine tailings piles. MeHg concentrations varied from 0.1 to 7 ng liter
−1 in surface waters. In both cases, peak values were associated with the highest concentrations of total suspended solids (TSS). Particulate Hg (Hg
P) was typically >50% of Hg
T and increased downstream. The dissolved fraction of MeHg (MeHg
D) always constituted a large portion of total methylmercury (MeHg
T). The
[MeHg
T]
[Hg
T]
ratio decreased downstream suggesting either a high percentage of inorganic Hg input from point sources, or low specific rates of MeHg production within the aquatic system. The latter could be due to the combined effects on microbial populations of both high levels of Hg concentrations found in water and sediments, and other factors related to the aqueous geochemistry of the system. Concentrations of Hg
T in the water column appeared to be enhanced by inputs of contaminated particles from the watershed during spring snow melt. In the reservoir, significant losses of Hg from the water column were observed. In addition to losses of Hg bound to particles by sedimentation, the removal through volatilization of dissolved gaseous Hg could be an important pathway. |
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ISSN: | 0269-7491 1873-6424 |
DOI: | 10.1016/0269-7491(95)00102-6 |