Abstract
More than 50 tanneries are operated in Kula, Turkey which is located on highly permeable geological units. The untreated effluents from the tanneries discharged onto the ground surface may cause pollution in surface waters, in groundwater, and in soil. Since the water resources of the region are used for drinking, agricultural, and industrial purposes, the quality assessment of groundwaters and surface waters is completed in the content of this study. Additionally, the surface soil samples are analyzed for their heavy metal content to describe the size of the pollution. The results obtained from the analysis of the water samples show that the concentrations are mostly within drinking water limits. But, concentrations are expected to increase in the next years as no effective effluent collection and treatment is present in the tanneries. Although the concentrations of K, SO4, Mg, Na, and Cl exceed the permissible limits for drinking water in some cases, they may not directly be caused by tannery activities. Nevertheless, they should be assessed as an indicator of the beginning of groundwater pollution. Also, soil samples collected near the tannery district are extremely polluted. This paper discusses the assessment of the geochemical dispersals of Cr and other pollutants derived from the tannery activities within soil and water in Kula.
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Aksoy, N., Şimşek, C., & Gunduz, O. (2009). Groundwater contamination mechanism in a geothermal field: A case study of Balcova, Turkey. Journal of Contaminant Hydrology, 103, 13–28.
APHA (2005). American Public Health Association. American Water Works Association, and Water Environment Federation. Standard Methods for the Examination of Water and Wastewater, 21st ed., Washington, DC.
Apte, A. D., Verma, S., Tare, V., & Bose, P. (2005). Oxidation of Cr (III) in tannery sludge to Cr (VI): Field observations and theoretical assessment. Journal of Hazardous Materials, B-121, 215–222.
Bajza, Z., & Vrcek, I. V. (2001). Water quality analysis of mixtures obtained from tannery waste effluents. Ecotoxicology and Environmental Safety, 50(1), 15–18.
Barceloux, D. G. (1999). Chromium. Journal of Toxicology. Clinical Toxicology, 37(2), 173–194.
Barnhart, J. (1997). Occurrences, uses, and properties of chromium. Regulatory Toxicology and Pharmacology, 1(2), 3–7.
Chaudry, M. A., Ahmad, S., & Malik, M. T. (1997). Supported liquid membrane technique applicability for removal of chromium from tannery wastes. Waste Management, 17(4), 211–218.
Ercan, T., Türkecan, A., Dinçel, A., & Erdoğdu, G. (1983). Kula-Selendi (Manisa) dolaylarının jeolojisi. Jeoloji Mühendisliği Dergisi (in Turkish), 17, 3–28.
Gemici, Ü. (2008). Evaluation of the water quality related to the acid mine drainage of an abandoned mercury mine (Alaşehir, Turkey). Environmental Monitoring Assessment, 147, 93–106.
Gemici, Ü., & Tarcan, G. (2004). Hydrogeological and hydrogeochemical features of the Heybeli Spa, Afyon, Turkey: Arsenic and the other contaminants in the thermal waters. Bulletin of Environmental Contamination and Toxicology, 72, 1107–1114.
Gemici, Ü., & Tarcan, G. (2007). Assessment of the pollutants in farming soils and waters around untreated abandoned Türkönü mercury mine (Turkey). Bulletin of Environmental Contamination and Toxicology, 79, 20–24.
Google Image (2006). http://earth.google.com, Google Image 2006 Digital Globe.
Gökgöz, A., & Tarcan, G. (2006). Mineral equilibria and geothermometry of the Dalaman-Köyceğiz thermal springs, southern Turkey. Applied Geochemistry, 21, 253–268.
Kornhauser, C., Wrobel, K., Wrobel, K., Malacara, J. M., Nava, L. E., & Gomez, L. (2002). Possible adverse effect of chromium in occupational exposure of tannery workers. Industrial Health, 40(2), 207–213.
Leghouichi, E., Laib, E., & Guerbet, M. (2009). Evaluation of chromium contamination in water, sediment and vegetation caused by the tannery of Jijel (Algeria): A case study. Environmental Monitoring and Assessment, 153, 111–117.
Loska, K., Wiechula, D., & Korus, I. (2004). Metal contamination of farming soils affected by industry. Environment International, 30, 159–165.
MTA. (1979). Unpublished geological map in 1/100 000 scale prepared by A. Türkecan, E. Günay, N. Gültekin, A. Dinçel, H. Gün, T. Ercan, A. Küçükoyman, F. Göktaş.
Müller, G. (1969). Index of geoaccumulation in sediments of the Rhine River. GeoJournal, 2, 108–118.
Nishida, H., Miyai, M., Tada, F., & Suzuki, S. (1982). Computation of the index of pollution caused by heavy metals in river sediment. Environmental Pollution Series B, Chemical and Physical, 4(4), 241–248.
Shacklette, H. T., & Boerngen, J. G. (1984). Element concentrations in soils and other surficial materials of the conterminous US. USGS Professional paper, p 1270.
Sponza, D., & Karaoğlu, N. (2002). Environmental geochemistry and pollution studies of Aliağa metal industry district. Environment International, 27, 541–553.
Stoyanova, A. M. (2004). Determination of chromium (VI) by a catalytic spectrophotometric method in the presence of p-Aminobenzoic Acid. Turkish Journal of Biochemistry (Türk Biyokimya Dergisi), 29(2), 204–207.
Tarcan, G. (2005). Mineral saturation and scaling tendencies of waters discharged from wells (>150°C) in geothermal areas of Turkey. Journal of Volcanology and Geothermal Research, 142(3–4), 263–283.
Tarcan, G., & Gemici, Ü. (2005). Effects of the contaminants from Turgutlu-Urganlı thermomineral waters on the cold ground and surface waters. Bulletin of Environmental Contamination and Toxicology, 74, 485–492.
Tarcan, G., Gemici, Ü., & Aksoy, N. (2005). Hydrogeological and geochemical assessments of the Gediz Graben geothermal areas, western Anatolia, Turkey. Environmental Geology, 47, 523–534.
Tariq, S. R., Shah, M. H., Shaheen, N., Khalique, A., Manzoor, S., & Jaffar, M. (2005). Multivariate analysis of selected metals in tannery effluents and related soil. Journal of Hazardous Materials, A-122, 17–22.
Tokçaer, M. (2000). Geochemistry of Kula Geothermal Area. Dokuz Eylül University, MSc thesis, İzmir, p 122.
Tokçaer, M., Agostini, S., & Savaşçın, M. Y. (2005). Geotectonic setting and origin of the youngest Kula volcanics (Western Anatolia), with a new emplacement model. Turkish Journal of Earth Sciences, 14, 145–166.
TS-266. (2005). Turkish Standards, Sular-İnsani Tüketim Amaçlı Sular (Water intended for human consumption) (p. 10). Ankara: Türk Standartları Enstitüsü.
TS-266. (1997). Turkish Standards, Sular-İçme ve kullanma suları (Waters: For drinking and other purposes). Türk Standartları Enstitüsü, Ankara, ICS 13.060, p 25.
Turkish Water Pollution Control Regulation. (2004). by Turkish Ministry of Environment and Forestry, Official Journal No 25687, p 32.
Van Groenestijn, J. W., Langerwerf, J. S., & Lucas, M. (2002). Reducing environmental emissions in tanneries. Journal of Environmental Science and Health Part A- Toxic/ Hazardous Substance & Environmental Engineering, 37(4), 737–743.
Acknowledgments
The authors acknowledge the financial supports of Dokuz Eylül University Research Fund. Thanks are due to authorities of the Leather Trade Industry in Kula for their assistance during the field studies. Critical reviews by two anonymous reviewers in an earlier version of this manuscript are gratefully acknowledged.
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Tarcan, G., Akıncı, G. & Danışman, M.A. Assessment of the Pollution from Tannery Effluents upon Waters and Soils in and Around Kula Vicinity, Turkey. Water Air Soil Pollut 213, 199–210 (2010). https://doi.org/10.1007/s11270-010-0378-0
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DOI: https://doi.org/10.1007/s11270-010-0378-0