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Patterns of trace element accumulation in waterfowl restricted to impoundments holding coal combustion waste.

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Waterfowl are often exposed to and readily accumulate anthropogenic contaminants while foraging in polluted environments. Settling impoundments containing coal combustion waste (CCW) enriched in trace elements such as arsenic (As),… Click to show full abstract

Waterfowl are often exposed to and readily accumulate anthropogenic contaminants while foraging in polluted environments. Settling impoundments containing coal combustion waste (CCW) enriched in trace elements such as arsenic (As), selenium (Se), and mercury (Hg) are often used by free-ranging migratory and resident waterfowl and represent potential sources for contaminant uptake. To assess accumulation of CCW contaminants, we experimentally restricted waterfowl to a CCW contaminated impoundment and quantified trace element burdens in blood, muscle, and liver tissues over known periods of exposure (between 3 and 92 days). From these data we developed models: 1) to predict elemental bioaccumulation with increased exposure time, and 2) to predict muscle/liver burdens based on concentrations in blood as a non-destructive sampling method. Although Hg and As did not bioaccumulate in our waterfowl, we observed an increase in Se concentrations in muscle, liver, and blood tissues over the duration of our experiment. Furthermore, we found that blood may be used as an effective non-destructive sampling alternative to predict muscle and liver tissue concentrations in birds contaminated with Se and As through dietary exposure. These data provide unique insights into accumulation rates of contaminants for waterfowl utilizing habitats contaminated with CCW and demonstrate the efficacy of non-lethal sampling of waterfowl to quantify contaminant exposure. This article is protected by copyright. All rights reserved.

Keywords: coal combustion; accumulation; waterfowl; muscle liver; combustion waste; trace element

Journal Title: Environmental toxicology and chemistry
Year Published: 2020

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