Mercury and methylmercury concentrations in two newly constructed reservoirs in the Wujiang River, Guizhou, China

Yao, Huaiying; Feng, Xinbin; Guo, Yanna; Yan, Haiyu; Fu, Xuewu; Li, Zhonggen

doi:10.1002/etc.413

Cited by 29 publications

(20 citation statements)

References 34 publications

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“…With the relatively low anti-interference ability and little ecological stability, the new reservoir cannot have enough strong self-purification or water environmental bearing capacities to purify the input nutrients. Then, the large inputs of nutrients accelerated the growth of algae, especially cyanobacteria and the weak new reservoirs ecosystem cannot maintain the ecological balance (Smith et al 1999;Yao et al 2011;Smayda 2008).…”

Section: Comparison With the Mature Reservoirmentioning

confidence: 99%

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Eutrophication in the newly built Laohutan Reservoir during the initial impoundment period: the role of nutrient loading

et al. 2015

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The purpose of this study was to elucidate the role of nutrient loading played in the eutrophication of newly built reservoirs. Taking the Laohutan Reservoir as an example, field monitoring and laboratory experiments were conducted before and after the reservoir impoundment. According to the results, the Laohutan Reservoir was eutrophicated 4 months after its impoundment, since nutrient loading played an important role. Riverine inputs were found to be the major source of nutrients, with the contribution of greater than 72 %. Nutrients from soil were also influential during the first 20 days. Its release was gradually weakened by the routine operations of the reservoir. The release patterns of nutrients from the four main land-use types of soil (forest, bamboo groves, paddy and construction sites) were similar, but their influence to the reservoir water quality varied dramatically. And the atmosphere was also an important source of nutrients, especially nitrogen. Meanwhile, by a comparison, the Laohutan Reservoir to an older one located nearby, the newer with relatively lower trophic levels underwent a cyanobacteria bloom, while there was none in the older. It verified that new reservoirs were more prone to eutrophication than the older, and high nutrient loading is a necessary but not sufficient condition for eutrophication. The fragility of the new reservoir's ecosystem accelerated water environment deterioration, and resulted in the eutrophication and cyanobacteria bloom during the initial impoundment period.

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Section: Comparison With the Mature Reservoirmentioning

confidence: 99%

“…These fragile and unstable ecosystems accelerate water environment deterioration. Some new reservoirs even show eutrophication during the first impoundment (Camargo et al 2005;Yao et al 2011). So does the nutrient loading play a role in eutrophication as important as it does in mature reservoirs?…”

Section: Introductionmentioning

confidence: 99%

Eutrophication in the newly built Laohutan Reservoir during the initial impoundment period: the role of nutrient loading

et al. 2015

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“…The Baihua Reservoir, which has a recent history of Hg pollution caused by waste water discharges from the Guizhou organic chemical plant (GOCP), utilising metallic Hg as a catalyst to produce acetic acid, exhibited high levels of total-Hg in the water body and in underlying sediments (Feng et al, 2003c(Feng et al, , 2004dHou et al, 2004;Yan et al, 2005). In a comparison between an up to 30 years old reservoir (Wujiangdu Reservoir) and newly constructed ones (Hongjiadu and Suofengying Reservoirs), the latter category exhibits slightly lower MMHg concentrations (Yao et al, 2011). He et al (2008a) conducted a long-term monitoring study of the Hg load in inflows and the outflow of the Hongfeng Reservoir and found a good comparison concerning the MMHg concentration in the flows with the exception for the summer period when the MMHg level in the outflow was up to 6 times higher than that in inflows ( Fig.…”

Section: Lakes and Reservoirsmentioning

confidence: 99%

“…Louis et al, 2004). In Guizhou, the area flooded after establishment of a new reservoir generally consisted of farmlands with a meagre organic matter content (1.9% to 4.1% for the Hongjiadu and Suofengying reservoirs (Yao et al (2011)). Hence, the limited access to fresh organic material may curb the establishment of active environments for biomethylation.…”

Section: Lakes and Reservoirsmentioning

confidence: 99%

“…Concerning the elevated Hg levels observed in fish from North America and northern Europe, Lucotte et al (1999) suggested that the decomposition of flooded organic matter (OM), which generates favourable conditions for bacterial methylation of inorganic Hg to MMHg, could be the primary driving process underlying high MMHg in fish. It is evident that the conditions in newly constructed Chinese reservoirs with comparatively different type and low availability of organic matters are not in favour of net in-situ methylation (Meng et al, 2010b;Yao et al, 2011;Larssen, 2010). Another important factor is that the most common fish species in Chinese reservoirs are herbivorous species, which grow fast and have a limited time to bioaccumulate MMHg before being consumed.…”

Section: Mercury In Fishmentioning

confidence: 99%

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Synthesis of current data for Hg in areas of geologic resource extraction contamination and aquatic systems in China

Qiu

Feng

Jiang

2012

Science of The Total Environment

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Mercury in the seafood and human exposure in coastal area of Guangdong province, South China

Feng

Liang

et al. 2013

Enviro Toxic and Chemistry

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Abstract-Consumption of fish and aquatic products is considered to be the main pathway of human exposure to methylmercury (MeHg). To assess human health risk through seafood consumption in a coastal area of Guangdong Province, South China, a total of 518 seafood samples (including fish, shrimp, crabs, and mollusks) were collected from 11 coastal cities for total mercury (THg) analysis. The THg concentrations varied significantly among different seafood groups and ranged from 0.11 to 317 ng/g (with a mean of 37.2 ng/g). The THg concentrations were relatively low compared with fish from Europe and North America, and no samples exceeded the national limit recommended by the Standardization Administration of China (0.5 mg/g wet wt). The ecological functional groups and cultured styles have significant effects on THg concentrations in the fish tissue. The median of probable daily intakes (PDIs) of MeHg via seafood consumption ranged from 42.6 to 71.4 ng/kg/d for different age groups, with fish contributing the major portion (84%). The results indicated potential health risks associated with seafood consumption for the general population in the coastal area of Guangdong Province, South China. Environ. Toxicol. Chem. 2013;32:541-547. # 2012 SETAC

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Mercury and methylmercury concentrations in two newly constructed reservoirs in the Wujiang River, Guizhou, China

Cited by 29 publications

References 34 publications

Eutrophication in the newly built Laohutan Reservoir during the initial impoundment period: the role of nutrient loading

Eutrophication in the newly built Laohutan Reservoir during the initial impoundment period: the role of nutrient loading

Synthesis of current data for Hg in areas of geologic resource extraction contamination and aquatic systems in China

Mercury in the seafood and human exposure in coastal area of Guangdong province, South China

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