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Partitioning variation of heavy metals in contaminated river sediment via bioleaching: effect of sulfur added to total solids ratio

The aim of this study was to determine the effect of the ratio of sulfur added to total sediment solids (SA/TS) on the remobilization of heavy metals from contaminated river sediment by indigenous sulfur-oxidizing bacteria. Also, the difference in metal binding fractions before and after bioleaching...

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Published in:	Water research (Oxford) 2003-11, Vol.37 (19), p.4623-4630
Main Authors:	Tsai, Li-Jyur, Yu, Kuang-Chung, Chen, Shu-Fen, Kung, Pei-Yi, Chang, Chia-Yuan, Lin, Chao-Hsien
Format:	Article
Language:	English
Subjects:	Applied sciences Bacteria Bioleaching Biological and medical sciences Biological Availability Biotechnology Decontamination. Miscellaneous Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics Environment and pollution Environmental Monitoring Exact sciences and technology Freshwater Fundamental and applied biological sciences. Psychology Geologic Sediments - chemistry Heavy metal Hydrogen-Ion Concentration Industrial applications and implications. Economical aspects Metals, Heavy - analysis Metals, Heavy - chemistry Miscellaneous Pollution Pollution, environment geology Sediment Sequential extraction procedure Soil and sediments pollution Sulfur - chemistry Sulfur - metabolism Sulfur-oxidizing bacteria Total solids Water Microbiology Water Pollutants - analysis
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creator	Tsai, Li-Jyur Yu, Kuang-Chung Chen, Shu-Fen Kung, Pei-Yi Chang, Chia-Yuan Lin, Chao-Hsien
description	The aim of this study was to determine the effect of the ratio of sulfur added to total sediment solids (SA/TS) on the remobilization of heavy metals from contaminated river sediment by indigenous sulfur-oxidizing bacteria. Also, the difference in metal binding fractions before and after bioleaching was explored. It was found that sediment pH decreased at a significantly faster rate at higher SA/TS ratios (0.413 and 0.199) than at lower ones. Sulfate concentrations increased at a faster rate at these higher SA/TS ratios. At the lower SA/TS ratios, more acid must be produced and therefore it took more time for sulfur-oxidizing bacteria to lower the sediment pH. Remobilization efficiency of total extractable Pb and Cr was significantly higher at higher SA/TS ratios. After bioleaching, Mn-oxides became a stronger binding pool, and the percentage of Pb and Zn bound to Mn-oxides and Cr and Cu bound to organic matter increased with the decrease of SA/TS. Different heavy metals showed different binding behavior at the various SA/TS ratios.
doi_str_mv	10.1016/j.watres.2003.07.003
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subjects	Applied sciences Bacteria Bioleaching Biological and medical sciences Biological Availability Biotechnology Decontamination. Miscellaneous Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics Environment and pollution Environmental Monitoring Exact sciences and technology Freshwater Fundamental and applied biological sciences. Psychology Geologic Sediments - chemistry Heavy metal Hydrogen-Ion Concentration Industrial applications and implications. Economical aspects Metals, Heavy - analysis Metals, Heavy - chemistry Miscellaneous Pollution Pollution, environment geology Sediment Sequential extraction procedure Soil and sediments pollution Sulfur - chemistry Sulfur - metabolism Sulfur-oxidizing bacteria Total solids Water Microbiology Water Pollutants - analysis
title	Partitioning variation of heavy metals in contaminated river sediment via bioleaching: effect of sulfur added to total solids ratio
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