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The assessment of environmental pollution caused by mining and metallurgy wastes from highly polluted post-industrial regions in Southern Poland |
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| Authors: | Joanna Paldyna Beata Krasnodebska-Ostrega Karolina Kregielewska Joanna Kowalska Lukasz Jedynak Jerzy Golimowski Tomasz Grobelski Jadwiga Farbiszewska-Kiczma Teresa Farbiszewska |
| Institution: | 1. Chemistry Department, Warsaw University, Pasteura 1, 02-093, Warsaw, Poland 2. Process Engineering Department, Faculty of Natural and Technical Sciences, Opole University, Dmowskiego 7/9, 45-365, Opole, Poland 3. Biotechnology and Molecular Biology Department, Faculty of Natural and Technical Sciences, Opole University, Kominka 4, 45-032, Opole, Poland |
| Abstract: | Stored metallurgy and mining wastes contain relatively high amounts of potentially toxic elements. To monitor the distribution of contaminants originating from dumps, the chemical and physical properties of the wastes must be characterised. In this study, the chemical properties of wastes deposited in two different locations in Southern Poland (Szklary and Zloty Stok) were evaluated. Heaps located in Zloty Stok contain wastes from gold mineralisation comprising arsenic while wastes in Szklary originate from a factory that produced an iron-nickel alloy. In Szklary the total concentrations of Ca, Mg, Fe, Zn, Mn, Cr, Co, Cu, Ni, Tl, Ag, Cd and Pb were determined, while in Zloty Stok also As is an important contaminant. To assess the risk of contamination of the surrounding environment and to select the proper method for removing the contaminants, information on the distribution of elements between operationally defined phases must be obtained. For this purpose, a six-step sequential extraction was used. The mobility of most elements in the wastes from Szklary and Zloty Stok was relatively low; however, the large amount of As, 40–180 mg L?1, that could be released to environment in case of Zloty Stok was high. The results of fractionation studies indicated that Ag, Cd, Tl, Co, Cu, Cr, Pb, Zn and Mn may be released into environment under low pH and low redox potential conditions, which can be induced by bacterial activity. |
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