Impacts of River Damming on Sediment Methylmercury Dynamics

Ma, Hengbo; Chen, Qiuwen; Li, Dongsheng; Chen, Yu‐Chen; Lin, Yuqing; Zhang, Jianyun; Yan, Xingcheng

doi:10.1021/acsestwater.2c00397

ACS EST Water

2023

DOI: 10.1021/acsestwater.2c00397

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Impacts of River Damming on Sediment Methylmercury Dynamics

Hengbo Ma

Qiuwen Chen

Dongsheng Li

et al.

Abstract: Reservoirs are reported to stimulate mercury (Hg) methylation and thereby affect methylmercury (MeHg) dynamics in rivers by trapping sediment and increasing the hydraulic residence time (HRT). However, whether there are similarities in sediment %MeHg (MeHg/Hg) in relation to reservoir properties for different rivers and their associated mechanisms remain unknown. Here, we investigated the sediment MeHg in two heavily dammed rivers and one naturally flowing river in the same region. We found that river damming … Show more

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2024

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Cumulative Effects of Watershed Disturbances and Run-of-river Dams on Mercury Cycling: Case Study and Recommendations for Environmental Managers

Amyot,

Bilodeau,

Tremblay

et al. 2024

Environmental Management

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Run-of-river power plants (ROR) represent the majority of hydroelectric plants worldwide. Their environmental impacts are not well documented and are believed to be limited, particularly regarding the contamination of food webs by methylmercury (MeHg), a neurotoxin. RORs are typically installed in small rivers where combined effects of watershed disturbances with dam construction can complicate environmental management. We report a multi-year case study on the Saint-Maurice River (Canada) where an unpredicted temporary increase in MeHg accumulation in predator fish was observed after the construction of two ROR plants. The associated pondages acted as sedimentation basins for mercury (Hg) and organic matter from a watershed disturbed by a forest fire and by logging. This fresh organic carbon likely fueled microbial MeHg production. Hg methylation was more associated with environmental conditions than to the presence of Hg, and main methylating microbial groups were identified. A constructed wetland was a site of significant Hg methylation but was not the main source of the fish Hg increase. Organic carbon degradation was the main driver of MeHg accumulation at the base of the food chain whereas trophic levels explained the variations at the top of the food chain. Overall, carbon cycling was a key driver of Hg dynamics in this system, and ROR plants can cause temporary (ca. 12 years) Hg increase in food webs when developed in disturbed watersheds, although this increase is smaller than for large reservoirs. Recommendations for future ROR construction are to establish a good environmental monitoring plan with initial high temporal resolution and to consider recent and potential watershed disturbances in the plan.

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Cumulative Effects of Watershed Disturbances and Run-of-river Dams on Mercury Cycling: Case Study and Recommendations for Environmental Managers

Amyot,

Bilodeau,

Tremblay

et al. 2024

Environmental Management

View full text Add to dashboard Cite

show abstract

Dams alter the control pattern of watershed land use to riverine nutrient distribution: Comparison of three major rivers under different hydropower development levels in Southwestern China

Xing,

Wang,

Wang

et al. 2024

Water Research

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Impacts of River Damming on Sediment Methylmercury Dynamics

Cited by 2 publications

References 50 publications

Cumulative Effects of Watershed Disturbances and Run-of-river Dams on Mercury Cycling: Case Study and Recommendations for Environmental Managers

Cumulative Effects of Watershed Disturbances and Run-of-river Dams on Mercury Cycling: Case Study and Recommendations for Environmental Managers

Dams alter the control pattern of watershed land use to riverine nutrient distribution: Comparison of three major rivers under different hydropower development levels in Southwestern China

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