Identyfikatory
DOI
Warianty tytułu
Języki publikacji
Abstrakty
The research areas were selected in the regions heavily polluted by wastes from the former washing plant, flotation waste dump and by non-sulphide Zn-Pb ores from open pit mining in the Olkusz region. The submicroscopic phases occurring in the surface of plant roots and in the rhizospheres were investigated by XRD and SEM/EDS methods. Morphology of submicroscopic metalliferous phases and their manner of occurrence were the subject of study. The analysis of EDS spectra enabled to identify phases and mineral aggregates including Zn, Pb, Fe, Mn, Cd in their structure. The soils from the washing plant and areas of open pit exploitation are contaminated by diverse complexes of minerals. The occurrence of unstable Fe, Pb, Ca sulphates indicate that these wastes are still intensively geochemically active.
Czasopismo
Rocznik
Strony
125--138
Opis fizyczny
Bibliogr. 22 poz., rys., tab.
Twórcy
autor
- University of Silesia, Bankowa 12, 40-007 Katowice, Poland
autor
- University of Silesia, Bankowa 12, 40-007 Katowice, Poland
autor
- University of Silesia, Bankowa 12, 40-007 Katowice, Poland
Bibliografia
- 1. APPLETON J., LEE K. M., SAWICKA-KAPUSTA K., DAMEK M., COOK M., 2000. The heavy metal content of the teeth of the bank vole (Clethrionomys glareolus) as an exposure marker of environmental pollution in Poland, Environmental Pollution, Vol. 110, pp. 441–449.
- 2. BANFIELD J. F., BARKER W. W., WELCH S. A., TAUNTON A., 1999. Biological impact on mineral dissolution: Application of the lichen model to understanding mineral weathering in the rhizospheres, Proc. Natl. Acad. Sci USA, Vol. 96, pp. 3404-3411.
- 3. CABAŁA J., 2001. Development of oxidation in Zn-Pb deposits in Olkusz area, [In:] Mineral Deposits at the Beginning of the 21st century, Balkema. Publ., pp. 121-124.
- 4. CABAŁA J., KRUPA P., MISZ-KENNAN M., 2009. Heavy metal in myccorhizal rhizospheres contaminated by Zn-Pb mining and smelting around Olkusz in Southern Poland, Water, Air, & Soil Pollution, Vol. 199, No. 1, pp. 139-149.
- 5. CABAŁA J., 2009. Heavy metals in ground soil environment of the Olkusz area of Zn-Pb ire exploitation, Prace Naukowe Uniwersytetu Śląskiego nr 2729 (in Polish).
- 6. CABAŁA J., SUTKOWSKA K., 2006. Influence of former Zn-Pb ore exploitation and processing on the mineral composition of Technosols, Olkusz and Jaworzno regions, Prace Nauk. Inst. Górn. Polit. Wroc. 117, Studia i Materiały 32, pp. 13-22 (in Polish).
- 7. CABAŁA J., TEPER L. 2007. Metalliferous constituents of rhizosphere soils contaminated by Zn-Pb mining in southern Poland, Water, Air and Soil Pollution, 178, 1-4, pp. 351-362.
- 8. COURCHESNE F., GOBRAN G. R., 1997. Mineralogical variations of bulk and rhizosphere soils from a Norway spruce stand, Soil Science Society of America Journal, 61 (4), pp. 1245–1249.
- 9. DAHMANI-MULLER H., VAN OORT F., GELIE B., BALABANE M., 2000. Strategies of heavy metal uptake by three plant species growing near a metal smelter, Environmental Pollution, 109, pp. 231-238.
- 10. DEGRYSE F., SMOLDERS E., 2006. Mobility of Cd and Zn in polluted and unpolluted Spodosols, European Journal of Soil Science, 57, pp. 122–133.
- 11. GOOD J. A., 1999. Recolonisation by Staphylinidae (Coleoptera) of old metalliferous tailings and mine soils in Ireland, Proceeding of the Royal Irish Academy. Biology and Anvironment, 99B (1), pp. 27-35.
- 12. GULSON B., MIZON K., DAVIS J., PALMER J., VIMPANI G., 2004. Identification of sources of lead in children in a primary zinc-lead smelter environment, Environmental Health Perspectives, 112, pp. 52–60.
- 13. HEIJLEN W., MUCHEZ P. H., BANKS D. A., SCHNEIDER J., KUCHA H., KEPPENS E., 2003. Carbonate-hosted ZnPb deposits in Upper Silesia, Poland: origin and evolution of mineralizing fluids and constraints on genetic models, Economic Geology, 98, pp. 911-932.
- 14. JERZYKOWSKA I., MAJZLAN J., MICHALIK M., GOTTLICHER J., STEININGER R., BŁACHOWSKI A., RUEBENBAUER K., 2014. Mineralogy and speciation of Zn and As in Fe-oxide-clay aggregates in the mining waste at the MVT Zn–Pb deposits near Olkusz, Poland, Chemie der Erde - Geochemistry, Vol. 74, Is. 3, pp. 393–406.
- 15. LIS J., PASIECZNA A., 1999. Detailed geochemical map of Upper Silesia 1:25000. Promotional sheet Sławków, Warszawa, Państwowy Instytut Geologiczny (in Polish).
- 16. LOCK K., JANSSENS F., JANSSEN C. R., 2003. Effects of metal contamination on the activity and diversity of springtails in an ancient Pb-Zn mining area at Plombiers, Belgium, European Journal of Soil Biology, 39, pp. 25-29.
- 17. MARQUES M. J., MARTINEZ-CONDE E., ROVIRA J. V., ORDONEZ S., 2001. Heavy metals pollution of aquatic ecosystems in the vicinity of a recently closed underground lead-zinc mine (Basque Country, Spain), Environmental Geology, 40, pp. 1125–1137.
- 18. MASKALL J., WHITEHEAD K., GEE C., THORNTON I., 1996. Long-term migration of metals at historical smelting sites, Applied Geochemistry, 11, pp. 43–51.
- 19. MERRINGTON G., ALLOWAY B. J., 1994. The transfer and fate of Cd, Cu and Zn from two historic metalliferous mine sites in the UK, Applied Geochemistry, 9, pp. 677–687.
- 20. MOLES N. R., SMITH D., MAHER C. E., BEATTIE E. H., KELLY M., 2004. Dispersion of cerussite-rich tailings and plant uptake of heavy metals at historical lead mines near Newtownards, Nothern Ireland, Applied Earth Science (Transactions of the Institution of Mining Metallurgy. Section B), 113, pp. 21-30.
- 21. ROŻEK D., CABAŁA J., 2013. Pollution of habitat for plant vegetation in the Olkusz region (Southern Poland) by the Zn-Pb ore mining, Interdyscyplinarne zagadnienia w górnictwie i geologii. T. IV, pp. 185-192.
- 22. TRAFAS M., GRUSZCZYŃSKI S., GRUSZCZYŃSKA J., ZAWODNY Z., 1990. Changes in soil properties caused by industrial influence in the Olkusz region, Zeszyty Naukowe AGH 1368. Sozologia i Sozotechnika, 32, pp. 143–161 (in Polish).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-35be4b2e-fdb7-4f20-9aee-a79b9e196832