Abstract
There are several abandoned Hg mines located in western Turkey. Hg production in these mines was eventually halted in the early 1990s because of low prices and environmental concerns (Gemici, 2004). However, acid mine drainage waste causes potential environmental problems near the Hg mines. In Türkönü Hg mine (Fig. 1) nearly 7,000 flasks of mercury had been produced in recent years. In 1965 a private company began to investigate the deposit and by 1968 had installed a 100-tpd rotary furnace. Since, the ore supply has been inadequate and the furnace plant used to process ore hauled from other deposits. Mercury production was terminated in 1975, owing to low prices, and in 1976 the furnace plant was used to process antimony ore (Yıldız and Bailey, 1978). Areas near the mine are currently being used for agricultural purposes. Soils are directly influenced by contaminants, leaching from the mine wastes, which are transported by surface waters in the rainy season. The aim of this study is to evaluate the geochemical dispersal within soil and water,of Hg derived from the abandoned Türkönü mine relating to past mining activities.
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References
Buat-Menard P, Chesselet R (1979) Variable influence of the atmospheric flux on the trace metal chemistry of oceanic suspended matter. Earth and Planet Sci Lett 42:398–411
Dora OÖ, Candan O, Kaya O, Dürr S, Koralay E (2002) Menderes Masifi’ndeki Leptit-Gnaysların Kökeninin Yeniden Yorumlanması, Metamorfizmaları ve Jeotektonik Ortamları. TÜBİTAK Projesi, Pr. No: YDABÇAG-554
Gemici U (2004) Impact of Acid Mine Drainage from the Abandoned Halıköy Mercury Mine (western Turkey) on Surface and Groundwaters. Bull Environ Contam Toxicol 72(3):482–489
Herr C, Gray NF (1995) Environmental impact of acid mine drainage on the Avoca River: Technical report 14, Water Technology Research, Trinity College, University of Dublin, 36pp
Loska K, Wiechula D, Korus I (2004) Metal contamination of farming soils affected by industry. Environ Int 30:159–165
Müller G (1969) Index of geoaccumulation in sediments of the Rhine River. Geojournal 2:108–18
Nimick DA, Moore JM (1991) Prediction of water soluble metal concentrations in fluvially deposited tailings sediments, upper Clark ork Valley, Montana, USA, Appl Geochem 6:635–646
Nishida H, Miyai M, Tada F, Suzuki S (1982) Computation of the index of pollution caused by heavy metals in river sediment. Env Poll B 4:241–248
Salomons W, Förstner U (1984) Metals in Hydrocycle. Springer-Verlag, Berlin Heidelberg
Shacklette HT, Boerngen JG (1984) Element concentrations in soils and other surficial materials of the conterminous US. USGS Professional paper, 1270
Sutherland RA (2000) Bed sediment-associated trace metals in an urban stream, Oahu, Hawaii. Environ Geol 39(6):611–626
Turekion KK, Wedepohl KH (1961) Distribution of the elements in some major units of the Earth’s crust. Bull Geol Soc Am 72:175–192
World Health Organization (1993) WHO guidelines for drinking water quality, vol 2. Health criteria and other supporting information, Geneva
Yıldız M, Bailey EH (1978) Mercury deposits in Turkey. United States Geological Survey Bulletin 1456
Acknowledgements
The authors acknowledge the partial financial supports of TUBITAK research fund (project no. YDABAG 103Y115) and the Turkish Academy of Sciences (TUBA).
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Gemici, Ü., Tarcan, G. Assessment of the Pollutants in Farming Soils and Waters Around Untreated Abandoned Türkönü Mercury Mine (Turkey). Bull Environ Contam Toxicol 79, 20–24 (2007). https://doi.org/10.1007/s00128-007-9087-9
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DOI: https://doi.org/10.1007/s00128-007-9087-9