Increases in Fish Mercury Levels in Lakes Flooded by the Churchill River Diversion, Northern Manitoba

Bodaly, R. A.; Hecky, Robert E.; Fudge, R. J. P.

doi:10.1139/f84-079

Cited by 221 publications

(89 citation statements)

References 17 publications

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“…Inundated soil has been identified as the primary source of Hg to new reservoirs (Bodaly et al, 1984) although other sources are possible (Cox et al, 1979). Poor organic content in these areas may weaken microbial activity and hence, reduce methylmercury production.…”

Section: Hg Biomagnification Through Aquatic Food Webmentioning

confidence: 99%

Mercury bioaccumulation in the food web of Three Gorges Reservoir (China): Tempo-spatial patterns and effect of reservoir management

Zhou

Yuan

et al. 2015

Science of The Total Environment

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Section: Hg Biomagnification Through Aquatic Food Webmentioning

confidence: 99%

Mercury bioaccumulation in the food web of Three Gorges Reservoir (China): Tempo-spatial patterns and effect of reservoir management

Zhou

Yuan

et al. 2015

Science of The Total Environment

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“…Bioaccumulation in fish and shellfish represent an exposure route for these atmospheric contaminants such as Hg to humans [Munthe et al 2007]. Moreover, reservoir formation for agriculture or hydroelectric power can produce a significant increase in mercury concentrations in fish inhabiting the reservoirs [Bodaly et al, 1984;Jackson, 1991;Jin et al, 1999;Kidd et al, 1999]. In China, fish consumption is known to be the most important exposure route for Hg and yet very little research has been conducted on Hg trophic transfer in aquatic food webs and virtually none on freshwater food webs [Jiang et al, 2006;Li et al, 2006].…”

Section: Introductionmentioning

confidence: 99%

Mercury and Arsenic Bioaccumulation and Eutrophication in Baiyangdian Lake, China

Chen

Pickhardt

et al. 2007

Water Air Soil Pollut

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Hg and As are widespread contaminants globally and particularly in Asia. We conducted a field study in Baiyangdian Lake, the largest lake in the North China Plain, to investigate bioaccumulation and trophic transfer of potentially toxic metals (total mercury and arsenic) in sites differing in proximity from the major point sources of nutrients and metals. Hg concentrations in fish and As concentrations in water are above critical threshold levels (US Environmental Protection Agency based) considered to pose some risk to humans and wildlife. Hg concentrations in biota are within the range of concentrations in lakes in the Northeast US despite the high levels of Hg emission and deposition in China whereas As concentrations are much higher. Dissolved concentrations of both Hg and As decrease with increasing chlorophyll concentrations suggesting that there is significant uptake of metal from water by algae. These results provide evidence for algal blooms controlling dissolved metal concentrations and potentially mitigating the trophic transfer of Hg to fish. This study also underscores the need for further investigation into this contaminated ecosystem and others like it in China that are an important source of fish and drinking water for consumption by local human populations.

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“…forms of mercury are naturally present in the substrate, but can be transformed by sulphatereducing and iron-reducing bacteria to methylmercury (MeHg) (Chan et al 2003;Poulain and Barkay 2013). Significant amounts of mercury can be introduced into aquatic food webs during the flooding of forests (Barbosa et al 2003), such as during the construction of hydroelectric dams (Bodaly et al 1984;Stokes and Wren 1987;Ikingura and Akagi 2003). When a reservoir is created, submerged vegetation and organic material start to slowly decompose (Rodgers et al 1995), leading to a rise in the dissolution rate of organic carbon, increased release of mercury bound to organic material and higher net mercury methylation rates (Chan et al 2003).…”

Section: Introductionmentioning

confidence: 99%

Mercury accumulation in bats near hydroelectric reservoirs in Peninsular Malaysia

et al. 2014

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In large man-made reservoirs such as those resulting from hydroelectric dam construction, bacteria transform the relatively harmless inorganic mercury naturally present in soil and the submerged plant matter into toxic methylmercury. Methylmercury then enters food webs and can accumulate in organisms at higher trophic levels. Bats feeding on insects emerging from aquatic systems can show accumulation of mercury consumed through their insect prey. In this study, we investigated whether the concentration of mercury in the fur of insectivorous bat species was significantly higher than that in the fur of frugivorous bat species, sampled near hydroelectric reservoirs in Peninsular Malaysia. Bats were sampled at Temenggor Lake and Kenyir Lake and fur samples from the most abundant genera of the two feeding guilds-insectivorous (Hipposideros and Rhinolophus) and frugivorous (Cynopterus and Megaerops) were collected for mercury analysis. We found significantly higher concentrations of total mercury in the fur of insectivorous bats. Mercury concentrations also differed significantly between insectivorous bats sampled at the two sites, with bats from Kenyir Lake, the younger reservoir, showing higher mercury concentrations, and between the insectivorous genera, with Hipposideros bats showing higher mercury concentrations. Ten bats (H. cf. larvatus) sampled at Kenyir Lake had mercury concentrations approaching or exceeding 10 mg/kg, which is the threshold at which detrimental effects occur in humans, bats and mice.

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Increases in Fish Mercury Levels in Lakes Flooded by the Churchill River Diversion, Northern Manitoba

Cited by 221 publications

References 17 publications

Mercury bioaccumulation in the food web of Three Gorges Reservoir (China): Tempo-spatial patterns and effect of reservoir management

Mercury bioaccumulation in the food web of Three Gorges Reservoir (China): Tempo-spatial patterns and effect of reservoir management

Mercury and Arsenic Bioaccumulation and Eutrophication in Baiyangdian Lake, China

Mercury accumulation in bats near hydroelectric reservoirs in Peninsular Malaysia

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