Arsenic and antimony contamination of waters,stream sediments and soils in the vicinity of abandoned antimony mines in the Western Carpathians,Slovakia |
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| Authors: | Edgar Hiller,Bronislava Lalinská ,Martin Chovan,Ľubomí r Jurkovič,Tomá &scaron Klimko,Michal Jankulá r,Ró bert Hovorič,Peter &Scaron ottní k,Rená ta Fľaková ,Zlatica Ženi&scaron ová ,Ivana Ondrejková |
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| Affiliation: | 1. Department of Geochemistry, Comenius University, Mlynská dolina, SK-842 15 Bratislava, Slovak Republic;2. Department of Mineralogy and Petrology, Comenius University, Mlynská dolina, SK-842 15 Bratislava, Slovak Republic;3. Department of Geology of Mineral Deposits, Comenius University, Mlynská dolina, SK-842 15 Bratislava, Slovak Republic;4. Department of Hydrogeology, Comenius University, Mlynská dolina, SK-842 15 Bratislava, Slovak Republic |
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| Abstract: | Environmental contamination with As and Sb caused by past mining activities at Sb mines is a significant problem in Slovakia. This study is focused on the environmental effects of the 5 abandoned Sb mines on water, stream sediment and soil since the mines are situated in the close vicinity of residential areas. Samples of mine wastes, various types of waters, stream sediments, soils, and leachates of the mine wastes, stream sediments and selected soils were analyzed for As and Sb to evaluate their geochemical dispersion from the mines. Mine wastes collected at the mine sites contained up to 5166 mg/kg As and 9861 mg/kg Sb. Arsenic in mine wastes was associated mostly with Fe oxides, whereas Sb was present frequently in the form of individual Sb, Sb(Fe) and Fe(Sb) oxides. Waters of different types such as groundwater, surface waters and mine waters, all contained elevated concentrations of As and Sb, reaching up to 2150 μg/L As and 9300 μg/L Sb, and had circum-neutral pH values because of the buffering capacity of abundant Ca- and Mg-carbonates. The concentrations of Sb in several household wells are a cause for concern, exceeding the Sb drinking water limit of 5 μg/L by as much as 25 times. Some attenuation of the As and Sb concentrations in mine and impoundment waters was expected because of the deposition of metalloids onto hydrous ferric oxides built up below adit entrances and impoundment discharges. These HFOs contained >20 wt.% As and 1.5 wt.% Sb. Stream sediments and soils have also been contaminated by As and Sb with the peak concentrations generally found near open adits and mine wastes. In addition to the discharged waters from open adits, the significant source of As and Sb contamination are waste-rock dumps and tailings impoundments. Leachates from mine wastes contained as much as 8400 μg/L As and 4060 μg/L Sb, suggesting that the mine wastes would have a great potential to contaminate the downstream environment. Moreover, the results of water leaching tests showed that Sb was released from the solids more efficiently than As under oxidizing conditions. This might partly explain the predominance of Sb over As in most water samples. |
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