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TECHNICAL REPORTS
Heavy Metals in the Environment

Contamination Time Effect on Lead and Cadmium Fractionation in a Tropical Coastal Clay

^a Div. of Environ. and Water Resources Eng., School of Civil and Environ. Eng., Nanyang Technol. Univ., Nanyang Ave., Singapore 639798
^b Div. of Geotech. and Transp. Eng., School of Civil and Environ. Eng., Nanyang Technol. Univ., Nanyang Ave., Singapore 639798

* Corresponding author (cttlim{at}ntu.edu.sg)

Received for publication January 26, 2001. The capability of a tropical coastal clay to immobilize lead (Pb) and cadmium (Cd) was investigated in laboratory batch sorption tests conducted under acidic, neutral, and slightly alkaline conditions. The contact time was extended to 65 d. The distribution of Pb and Cd among various sorbed phases was examined using a sequential extraction technique. The sorbed phases were fractionated into the exchangeable, carbonate, reducible, organic, and residual fractions. There were only small changes in the total Pb and Cd sorption beyond a 1-d sorption period. The metal fractionation results show that the amount of Pb and Cd in various fractions changed with sorption time, and the changes were pH-dependent. These changes could be attributed to mineral dissolution and transformation or redistribution of the sorbed phases. Transformation of the sorbed phases resulted in increasing Pb and Cd retention in the more persistent fractions with time, at the expense of reductions in the loosely bound fractions. Nevertheless, Pb and Cd fractionation in the solid phase appeared to reach equilibrium within the 65-d sorption period. These Pb and Cd fractionation results reflect the effect of contamination time on the heavy metal lability and bioavailability in the subsurface environment.

Abbreviations: ICP-ES, inductively coupled plasma emission spectrometer