Steven P. Gloss scite author profile

Fish were sampled from 35 drainage and seepage lakes in the upper Michigan peninsula and Wisconsin in conjunction with Phase II of the U.S. Environmental Protection Agency's Eastern Lake Survey to explore the relationship between physicochemical characteristics of lakes and mercury concentrations in fish tissue. The lakes were selected using a stratified random design weighted for low pH to assess acidification effects on mercury bioaccumulation. Muscle tissue from yellow perch (Perca flavescens), northern pike (Esox lucius), white sucker (Catostomus commersoni) and largemouth bass (Micropterus salmoides) was analyzed for total and methylmercury. Differences in mercury concentrations were found between species, and methylmercury accounted for 99% of total mercury. Relationships were examined between tissue concentrations of mercury in yellow perch and lake physicochemical variables including pH, acid neutralizing capacity (ANC), calcium, conductivity, aluminum, total phosphorus, dissolved organic carbon, color, sulfate, lake area, lake depth, watershed area, Secchi depth and elevation. Mercury concentrations were negatively correlated with pH and ANC for both seepage and drainage lakes, but correlations with other water‐quality characteristics varied with lake type. Dissolved organic carbon had a negative correlation with fish mercury accumulation in seepage lakes, but not in drainage lakes. Mercury concentrations had a positive correlation with age, weight and length in yellow perch.

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Factors Affecting Mercury Accumulation in Fish in the Upper Michigan Peninsula

Grieb

Driscoll

Gloss

et al. 1990

Environ Toxicol Chem

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Buffering of silica and phosphate in a turbid river1

Mayer

Gloss

1980

Limnology & Oceanography

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The buffering of riverine dissolved silica and phosphate by sorption reactions between the aqueous phase and suspended secliment is examined with the turbid Colorado River system as a model. Concentrations are found to lie in a range predicted from laboratory sorption experiments with natural sediments and waters. Phosphate is probably highly buffered by suspended sediment during river flow while silica is not. Silica appreciably affects phosphate sorption reactions but not vice versa. Increased temperature results in higher silica but lower phosphate concentrations as a result of sorption. The buffering action of suspended sediments is largely complete within a few hours and is approximately proportional to the concentration of suspended sediment.

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The importance of trophic transfer in the bioaccumulation of chemical contaminants in aquatic ecosystems

Biddinger¹,

Gloss

1984

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Steven P. Gloss

Synthesizing U.S. River Restoration Efforts

Factors affecting mercury accumulation in fish in the upper michigan peninsula

Factors Affecting Mercury Accumulation in Fish in the Upper Michigan Peninsula

Buffering of silica and phosphate in a turbid river1

The importance of trophic transfer in the bioaccumulation of chemical contaminants in aquatic ecosystems

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