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projects > cycling and speciation of mercury in the food chain of south florida
Summary
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The goal of this project is to answer the question, "How does mercury produced in the aquatic environment enter the food chain?" |
Methylmercury, a neurotoxin, is found in the game fish of south Florida. Samples of periphyton, the assemblage of microalgae that live in shallow submerged substrates which is home to, and food for, creatures that are the foundation of the food chain, have concentrations of methylmercury that range from non-detectable to tenths of a part per million on a dry weight basis.
The goal of this project is to answer the question, "How does mercury produced in the aquatic environment enter the food chain and become part of the body burden of animals such as game fish in south Florida?"
Data
Metadata
Publications
Abstracts:
- Cycling and Speciation of Mercury in the Periphyton of the South Florida Ecosystem (from the USGS Mercury Workshop, July 1996)
- Cycling and Speciation (Variation in Chemical Form) of Mercury in the Food Chain of South Florida
- Distribution of Mercury in the Periphyton Mats of the South Florida Ecosystem
- Evaluating Food Chain Relations Using Stable Isotopes
- Spatial Distributions of Isotopic Compositions of Gambusia and Periphyton at REMAP Marsh Sites in the Everglades
- Spatial Changes in Redox Conditions and Food Web Relations at Low and High Nutrient Sites in the Everglades (PDF file) (from the USGS Water Quality Workshop, October 2000)
Fact Sheet:
- Mercury and Periphyton in the South Florida Ecosystem
Open File Report:
- Data for Periphyton and Water Samples Collected from the South Florida Ecosystem, 1995 and 1996
Papers:
- Copper, lead, mercury, and zinc in periphyton of the South Florida Ecosystem
- Distribution of and relation among mercury and methylmercury, organic carbon, carbonate, nitrogen and phosphorus, in periphyton of the South Florida Ecosystem
Posters:
- Mapping Spatial Variability in Marsh Redox Conditions Using Biomass Stable Isotopic Compositions
- Tracing Foodweb Relations and Fish Migratory Habits in the Everglades with Stable Isotope Techniques (from the South Florida Restoration Science Forum)
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