Reservoir Stratification Modulates the Influence of Impoundments on Fish Mercury Concentrations along an Arid Land River System

Willacker, James J.; Eagles-Smith, Collin A.; Chandler, James A.; Naymik, Jesse; Myers, Ralph; Krabbenhoft, David P.

doi:10.1021/acs.est.3c04646

Environ. Sci. Technol.

2023

DOI: 10.1021/acs.est.3c04646

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Reservoir Stratification Modulates the Influence of Impoundments on Fish Mercury Concentrations along an Arid Land River System

James J. Willacker,

Collin A. Eagles-Smith,

James A. Chandler

et al.

Abstract: Impoundment is among the most common hydrologic alterations with impacts on aquatic ecosystems that can include effects on mercury (Hg) cycling. However, landscape-scale differences in Hg bioaccumulation between reservoirs and other habitats are not well characterized nor are the processes driving these differences. We examined total Hg (THg) concentrations of Smallmouth Bass ( Micropterus dolomieu ) collected from reservoir, tailrace, and free-flowing reaches along an 863 km segment of … Show more

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Cited by 4 publications

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Mercury concentrations and differences in isotopic niches of fish from upstream and downstream of an Amazon reservoir dam

de Castro Paiva,

Pestana,

de Oliveira

et al. 2024

Ecotoxicology

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Mercury concentrations and differences in isotopic niches of fish from upstream and downstream of an Amazon reservoir dam

de Castro Paiva,

Pestana,

de Oliveira

et al. 2024

Ecotoxicology

View full text Add to dashboard Cite

Temporal variation of mercury levels in fish, soil, and sediments in an Amazon reservoir: insights from 35 years of river impoundment in Pará State, Brazil

de Castro Paiva,

Pestana,

de Oliveira

et al. 2024

Environ Monit Assess

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Riparian Methylmercury Production Increases Riverine Mercury Flux and Food Web Concentrations

Krause,

Baldwin,

Peterson

et al. 2024

Environ. Sci. Technol.

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The production and uptake of toxic methylmercury (MeHg) impacts aquatic ecosystems globally. Rivers can be dynamic and difficult systems to study for MeHg production and bioaccumulation, hence identifying sources of MeHg to these systems is both challenging and important for resource management within rivers and main-stem reservoirs. Riparian zones, which are known biogeochemical hotspots for MeHg production, are understudied as potential sources of MeHg to rivers. Here, we present a comprehensive quantification of the hydrologic and biogeochemical processes governing MeHg concentrations, loads, and bioaccumulation at 16 locations along 164 km of the agriculturally intensive Snake River (Idaho, Oregon USA) during summer baseflow conditions, with emphasis on riparian production of MeHg. Approximately onethird of the MeHg load of the Snake River could not be attributed to inflowing waters (upgradient, tributaries, or irrigation drains). Across the study reach, increases in MeHg loads in surface waters were significantly correlated with MeHg concentrations in riparian porewaters, suggesting riparian zones were likely an important source of MeHg to the Snake River. Across all locations, MeHg concentrations in surface waters positively correlated with MeHg concentrations in benthic snails and clams, supporting that riparian produced MeHg was assimilated into local aquatic food webs. This study contributes new insights into riparian MeHg production within rivers which can inform mitigation efforts to reduce MeHg bioaccumulation in fish.

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Reservoir Stratification Modulates the Influence of Impoundments on Fish Mercury Concentrations along an Arid Land River System

Cited by 4 publications

References 99 publications

Mercury concentrations and differences in isotopic niches of fish from upstream and downstream of an Amazon reservoir dam

Mercury concentrations and differences in isotopic niches of fish from upstream and downstream of an Amazon reservoir dam

Temporal variation of mercury levels in fish, soil, and sediments in an Amazon reservoir: insights from 35 years of river impoundment in Pará State, Brazil

Riparian Methylmercury Production Increases Riverine Mercury Flux and Food Web Concentrations

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