Sequential Extraction Versus Comprehensive Characterization of Heavy Metal Species in Brownfield Soils |
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Authors: | Cheryl L. Dahlin Connie A. Williamson W. Keith Collins David C. Dahlin |
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Affiliation: | U.S. Department of Energy, Albany Research Center, 1450 Queen Avenue SW, Albany, OR 97321, U.S.A. |
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Abstract: | The applicability of sequential extraction as a means to determine species of heavy-metals was examined by a study on soil samples from two Superfund sites: the National Lead Company site in Pedricktown, NJ, and the Roebling Steel, Inc., site in Florence, NJ. Data from a standard sequential extraction procedure were compared to those from a comprehensive study that combined optical- and scanning-electron microscopy, X-ray diffraction, and chemical analyses. The study shows that larger particles of contaminants, encapsulated contaminants, and/or man-made materials such as slags, coke, metals, and plastics are subject to incasement, non-selectivity, and redistribution in the sequential extraction process. The results indicate that standard sequential extraction procedures that were developed for characterizing species of contaminants in river sediments may be unsuitable for stand-alone determinative evaluations of contaminant species in industrial-site materials. However, if employed as part of a comprehensive, site-specific characterization study, sequential extraction could be a very useful tool. |
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Keywords: | Lead Contamination Heavy-metals Superfund Chemical Fractionation Phase Characterization Speciation Scanning-electron Microscopy |
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