Econ. Environ. Geol. 2006; 39(3): 213-227

Published online June 30, 2006

© THE KOREAN SOCIETY OF ECONOMIC AND ENVIRONMENTAL GEOLOGY

Characteristics of Geochemical Behaviors of Trace Metals in Drainage from Abandoned Sechang Mine

Min-Ju Kang, Pyeong-Koo Lee* and Seung-Jun Youm

Department of Geological and Environmental Hazards, Korea Institute of Geoscience and Mineral Resources

Correspondence to :

Pyeong-Koo Lee

pklee@kigam.re.kr

Received: March 27, 2006; Accepted: June 12, 2006

Abstract

The geochemical evolution of mine drainage and leachate from waste rock dumps and stream water in Pb-Asrich abandoned Sechang mine area was investigated to elucidate mechanisms of trace metals. Total and sequential extractions were applied to estimate the distribution of trace metals in constituent phases of the waste rocks and to assess the mobility of trace metals according to physicochemical conditions. These discharged waters varied largely in chemical composition both spatially and temporally, and included cases with significantly low pH (in the range2.1-3.3), and extremely sulphate (up to 661 mg/l) and metal contents (e.g. up to 169 mg/l for Zn, 27 mg/l for As, 3.97 mg/l for Pb, 2.99 mg/l for Cu, and 1.88 mg/l for Cd). Arsenic and heavy metal concentrations at the downstream of Sechang mine have been decreased nearly to the background level in downstream sites (sites 8 and 16) without any artificial treatments. The oxidation of Fe-sulfides and the subsequent hydrolysis of Fe(II), with precipitation of poorly crystallized minerals, constituted an efficient mechanism of natural attenuation which reduces considerably the transference of trace metals (i.e. Fe and As) to rivers. The dilution of drainage by mixing with pristine waters provoked an additional decrease of trace metal concentrations and a progressive pH increase. On the other hand, the most soluble cations (i.e. Zn) remained significantly as dissolved solutes until the pH was raised to approximately neutral values. With respect to ecotoxicity, it is likely that the Zn pollution is of particular concern in
Sechang mine area. This was confirmed by the sequential extraction experiment, where Zn in wet waste-rock samples occurred predominantly in the exchangeable fraction (65-89% of total), while Pb was the highest in the reducible and carbonate fractions, and Cd, Cu and As in the residual fraction. Pb concentration in the readily available exchangeable fraction (34-48% of total) was dominated for dried waste rock samples. Considering the proportion of metals bound to the exchangeable and carbonate fractions, the comparative mobility of metals probably decreased in the order of Zn>Pb>Cd>As=Cu.

Keywords Trace elements, Mine drainage, Leachate, Waste rocks, Natural attenuation

Article

Econ. Environ. Geol. 2006; 39(3): 213-227

Published online June 30, 2006

Copyright © THE KOREAN SOCIETY OF ECONOMIC AND ENVIRONMENTAL GEOLOGY.

Characteristics of Geochemical Behaviors of Trace Metals in Drainage from Abandoned Sechang Mine

Min-Ju Kang, Pyeong-Koo Lee* and Seung-Jun Youm

Department of Geological and Environmental Hazards, Korea Institute of Geoscience and Mineral Resources

Correspondence to:

Pyeong-Koo Lee

pklee@kigam.re.kr

Received: March 27, 2006; Accepted: June 12, 2006

Abstract

The geochemical evolution of mine drainage and leachate from waste rock dumps and stream water in Pb-Asrich abandoned Sechang mine area was investigated to elucidate mechanisms of trace metals. Total and sequential extractions were applied to estimate the distribution of trace metals in constituent phases of the waste rocks and to assess the mobility of trace metals according to physicochemical conditions. These discharged waters varied largely in chemical composition both spatially and temporally, and included cases with significantly low pH (in the range2.1-3.3), and extremely sulphate (up to 661 mg/l) and metal contents (e.g. up to 169 mg/l for Zn, 27 mg/l for As, 3.97 mg/l for Pb, 2.99 mg/l for Cu, and 1.88 mg/l for Cd). Arsenic and heavy metal concentrations at the downstream of Sechang mine have been decreased nearly to the background level in downstream sites (sites 8 and 16) without any artificial treatments. The oxidation of Fe-sulfides and the subsequent hydrolysis of Fe(II), with precipitation of poorly crystallized minerals, constituted an efficient mechanism of natural attenuation which reduces considerably the transference of trace metals (i.e. Fe and As) to rivers. The dilution of drainage by mixing with pristine waters provoked an additional decrease of trace metal concentrations and a progressive pH increase. On the other hand, the most soluble cations (i.e. Zn) remained significantly as dissolved solutes until the pH was raised to approximately neutral values. With respect to ecotoxicity, it is likely that the Zn pollution is of particular concern in
Sechang mine area. This was confirmed by the sequential extraction experiment, where Zn in wet waste-rock samples occurred predominantly in the exchangeable fraction (65-89% of total), while Pb was the highest in the reducible and carbonate fractions, and Cd, Cu and As in the residual fraction. Pb concentration in the readily available exchangeable fraction (34-48% of total) was dominated for dried waste rock samples. Considering the proportion of metals bound to the exchangeable and carbonate fractions, the comparative mobility of metals probably decreased in the order of Zn>Pb>Cd>As=Cu.

Keywords Trace elements, Mine drainage, Leachate, Waste rocks, Natural attenuation

    KSEEG
    Aug 30, 2024 Vol.57 No.4, pp. 353~471

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