Abstract
Heaps of waste material constitute a serious environmental problem in regions where the historical exploitation and processing of metal ores has taken place. The presented paper describes the trace metal distribution in selected heaps in the lead-zinc mining area of an abandoned mine in Poland, as well as the soil horizons beneath. The study aims at the estimation of the metal remobilization rate in vertical profiles in the spontaneously afforested area in the context of the potential danger it poses to the local groundwater. Individual samples were taken from profiles dug in heaps found in deciduous and coniferous forests. The bulk density, pH, organic matter and carbonate content, as well as the concentration and chemical forms of metals were analysed. Buffer properties and the mineralogical composition were also determined for the selected samples. The investigation indicates excessive cadmium, zinc and lead concentrations in the analysed heap material and the significant secondary enrichment of former soil horizons. A large percentage of these metals occur in potentially mobile forms. It suggests that, despite the high pH of the heap material and the good buffer properties of soil, cadmium and to a lesser extent, zinc, has migrated downwards to depths of at least several dozen centimetres over a period of about 200 years. This is related to soil acidity, particularly in profiles abundant in organic matter resulting from the encroachment of forest communities, particularly of coniferous forest. Spontaneous afforestation forming the litter cover contribute to the stabilization of the heap material and limiting groundwater pollution. Even though specific remediation measures are not needed in this area, it requires long-term monitoring.
Highlights
Metal mining and smelting have played a very important role in economies since ancient times.A side effect of this exploitation would be the pollution which often accompanies it
The investigation indicated considerable metal concentrations in the analysed soil profiles. The former soil horizons are significantly enriched in metals following their remobilization from the heap material
The general increase in the enrichment of the former soils toward the outer parts of heaps correlates with the rise in the average acidity and surface organic matter content, as well as a drop in the average carbonate content between consecutive profiles
Summary
Metal mining and smelting have played a very important role in economies since ancient times.A side effect of this exploitation would be the pollution which often accompanies it. Metals stored in waste heaps can be dispersed into the surrounding soils and surface waters for a very long time afterwards due to erosion, weathering and leaching processes [4,5]. For these reasons, heaps of waste material constitute a serious environmental problem in regions throughout the world which have witnessed the historical exploitation and processing of metal ores [6,7,8,9].
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