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National Institute of Environmental Health Sciences

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Your Environment. Your Health.

Publication Detail

Title: A dynamic model using monitoring data and watershed characteristics to project fish tissue mercury concentrations in stream systems.

Authors: Chan, Caroline; Heinbokel, John F; Myers, John A; Jacobs, Robert R

Published In Integr Environ Assess Manag, (2012 Oct)

Abstract: A complex interplay of factors determines the degree of bioaccumulation of Hg in fish in any particular basin. Although certain watershed characteristics have been associated with higher or lower bioaccumulation rates, the relationships between these characteristics are poorly understood. To add to this understanding, a dynamic model was built to examine these relationships in stream systems. The model follows Hg from the water column, through microbial conversion and subsequent concentration, through the food web to piscivorous fish. The model was calibrated to 7 basins in Kentucky and further evaluated by comparing output to 7 sites in, or proximal to, the Ohio River Valley, an underrepresented region in the bioaccumulation literature. Water quality and basin characteristics were inputs into the model, with tissue concentrations of Hg of generic trophic level 3, 3.5, and 4 fish the output. Regulatory and monitoring data were used to calibrate and evaluate the model. Mean average prediction error for Kentucky sites was 26%, whereas mean error for evaluation sites was 51%. Variability within natural systems can be substantial and was quantified for fish tissue by analysis of the US Geological Survey National Fish Database. This analysis pointed to the need for more systematic sampling of fish tissue. Analysis of model output indicated that parameters that had the greatest impact on bioaccumulation influenced the system at several points. These parameters included forested and wetlands coverage and nutrient levels. Factors that were less sensitive modified the system at only 1 point and included the unfiltered total Hg input and the portion of the basin that is developed.

PubMed ID: 22535752 Exiting the NIEHS site

MeSH Terms: Animals; Appalachian Region; Calibration; Environmental Exposure; Environmental Monitoring/methods*; Fishes/metabolism*; Food Chain*; Humans; Indiana; Mercury/metabolism*; Models, Biological*; Rivers; Tissue Distribution; United States; Water Pollutants, Chemical/metabolism*

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