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Fractionation of Cu, Pb and Zn in certified reference soils SRM 2710 and SRM 2711 using the optimized BCR sequential extraction procedure
Authors:Ross A Sutherland  Filip M.G Tack
Affiliation:a University of Hawaii, Geomorphology Laboratory, Department of Geography, 2424 Maile Way, Honolulu, HI 96822, USA
b Ghent University, Laboratory of Analytical Chemistry and Applied Ecochemistry, Coupure Links-653, B-9000 Ghent, Belgium
Abstract:Sequential extraction of metals from solid media is a common analytical tool used in environmental and exploration geochemistry. A number of procedures exist, but without harmonization and standardization, meaningful comparisons are tenuous without baseline data. A newly developed, standardized sequential extraction procedure (optimized BCR) was applied to two contaminated certified reference soils from Montana, US (SRM 2710 and SRM 2711) for Cu, Pb and Zn. Four operationally defined fractions were isolated, acid extractable, reducible, oxidizable, and residual (by aqua regia). Fraction-specific concentrations, percentages and recoveries for Cu, Pb and Zn were used to explore differences between the optimized BCR procedure and three other sequential extraction schemes with published data for SRM 2710 and 2711 (i.e. Tessier scheme, Geological Survey of Canada scheme and the original BCR scheme). Results indicate significant differences between the four schemes, even for schemes that are closely associated (i.e. the original and optimized BCR schemes). Order-of-magnitude fraction-specific concentration differences were observed, especially for Pb in the reducible fraction. Differences between schemes are worrisome because trends varied between metals, between fractions and between reference soils. These data reinforce the need for increased adoption of standardized sequential extraction procedures and further examination of different solid media.
Keywords:Optimized European Community Bureau of Reference (BCR) procedure   SRM 2710   SRM 2711   Fractionation   Acid extractable   Reducible   Oxidizable   Sequential extraction
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