Mercury cycling in stream ecosystems. 3. Trophic dynamics and methylmercury bioaccumulation
Autor: | Barbara C. Scudder, Amanda H. Bell, A. Robin Stewart, Lia C. Chasar, George R. Aiken |
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Rok vydání: | 2009 |
Předmět: |
Food Chain
Ecology Fresh Water General Chemistry Methylmercury Compounds chemistry.chemical_compound chemistry Bioaccumulation Forage fish Dissolved organic carbon Environmental Chemistry Environmental science Marine ecosystem Ecosystem Methylmercury Water Pollutants Chemical Trophic level Apex predator |
Zdroj: | Environmental sciencetechnology. 43(8) |
ISSN: | 0013-936X |
Popis: | Trophic dynamics (community composition and feeding relationships) have been identified as important drivers of methylmercury (MeHg) bioaccumulation in lakes, reservoirs, and marine ecosystems. The relative importance of trophic dynamics and geochemical controls on MeHg bioaccumulation in streams, however, remains poorly characterized. MeHg bioaccumulation was evaluated in eight stream ecosystems across the United States (Oregon, Wisconsin, and Florida) spanning large ranges in climate, landscape characteristics, atmospheric Hg deposition, and stream chemistry. Across all geographic regions and all streams, concentrations of total Hg (THg) in top predator fish and forage fish, and MeHg in invertebrates, were strongly positively correlated to concentrations of filtered THg (FTHg), filtered MeHg (FMeHg), and dissolved organic carbon (DOC); to DOC complexity (as measured by specific ultraviolet absorbance); and to percent wetland in the stream basins. Correlations were strongest for nonurban streams. Although regressions of log[Hg] versus delta15N indicate that Hg in biota increased significantly with increasing trophic position within seven of eight individual streams, Hg concentrations in top predator fish (including cutthroat, rainbow, and brown trout; green sunfish; and largemouth bass) were not strongly influenced by differences in relative trophic position. Slopes of log[Hg] versus delta15N, an indicator of the efficiency of trophic enrichment, ranged from 0.14 to 0.27 for all streams. These data suggest that, across the large ranges in FTHg (0.14-14.2 ng L(-1)), FMeHg (0.023-1.03 ng L(-1)), and DOC (0.50-61.0 mg L(-1)) found in this study, Hg contamination in top predatorfish in streams likely is dominated by the amount of MeHg available for uptake at the base of the food web rather than by differences in the trophic position of top predator fish. |
Databáze: | OpenAIRE |
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