Abstract

Soil samples were collected from the Coeur d’Alene river basin and were analyzed for mineralogy and metal contaminant speciation. Both phosphorus (P)-treated soils and untreated soils were examined to determine the effect of P-amendment on metal speciation. Previous studies suggested P-amendments result in precipitation of poorly soluble lead (Pb) phosphate minerals. In this study, P appears to associate with iron-bearing minerals in the soil, whereas Pb associates predominantly with manganese-bearing phases.

The research conducted on site mineralogy and speciation generated no irrefutable evidence that P-amendments promoted formation of poorly soluble Pb-P mineral phases. In theory, such phases would lower Pb bioavailability in waterfowl exposed to Pb-contaminated soils and sediments. Thus, development of a screening-level method for assessing P-treatment effectiveness (and subsequent reduction in Pb bioavailability) becomes a critical issue.

This need is addressed by the two-step sequential extraction procedure that simulates the gizzard and intestinal phases of a typical waterfowl’s gastrointestinal tract. Dr. Strawn’s approach is a modified version of the physiologically based extraction test (PBET) for estimating Pb bioaccessibility in humans and is subsequently called W-PBET. The gizzard phase of this test demonstrated high Pb extraction reproducibility and accuracy. The Pb bioaccessibility results were positively correlated with those from waterfowl fed contaminated and in situ-treated soils from the lower Coeur d’Alene river basin. Therefore, W-PBET is a promising, cost-effective method for initial assessment of site-specific Pb bioavailability in waterfowl.

Contact

Norma Lewis

See Also

Mine Waste Technology Program

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