Abstract
In this research, geological and hydrogeological studies were conducted to determine the source of high arsenic levels in the surficial aquifer of Simav Plain, Kutahya, Turkey. One of the two aquifer systems isolated in the study area was a deep confined aquifer composed of fractured metamorphic rocks that supply hot geothermal fluid. The other one was an unconfined alluvial aquifer, which developed within the graben area as a result of sediment deposition from the highlands. This aquifer serves as the primary water resource within the plain. A water quality sampling campaign conducted in 27 wells drilled in the surficial aquifer has yielded an average arsenic concentration of 99.1 µg/L with a maximum of 561.5 µg/L. Rock and sediment samples supported the fact that local metamorphic rocks contained significant amounts of sulfur minerals where arsenic-containing lenses are present inside. It was also determined that a Cu–Pb–Zn mine was operated in the past in the same formation. Arsenic-containing wastes of this mine were deposited near the Simav district center in an uncontrolled manner. This mined formation had arsenic levels reaching to levels as high as 660 mg/kg, which was found out to be the highest arsenic level in the area. Another potential arsenic source in the study area was the geothermal fluid that was used extensively in three geothermal fields with levels reaching to levels as high as 594 µg/L. Uncontrolled discharges of waste geothermal fluid and overexploitation of groundwater were also found to contribute to arsenic pollution in surface/subsurface waters of the plain. Thus, natural sources and anthropogenic influences of arsenic were found to create high concentrations in local water reserves of the area and influence human health. Consequently, death statistics from the 1995 to 2005 period collected from the area has revealed increased rates of gastrointestinal cancers above Turkish average.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Akay, E. (2009). Geology and petrology of the Simav Magmatic Complex (NW Anatolia) and its comparison with the Oligo-Miocene granitoids in NW Anatolia: implications on Tertiary tectonic evolution of the region. International Journal of Earth Sciences. doi:10.1007/s00531-008-0325-0.
Akdeniz, N., & Konak, N. (1979). The situation of rocky units of Menderes Massive around Simav and metabasic, metaultrabasic rocks. Bulletin of Turkish Geology Association, 22, 175–183. in Turkish.
Aksoy, N., Simsek, C., & Gunduz, O. (2009). Groundwater contamination mechanisms in a geothermal field: A case study of Balcova, Turkey. Journal of Contaminant Hydrology, 103(1–2), 13–28. doi:10.1016/j.jconhyd.2008.08.006.
Ali, M., & Tarafdar, S. A. (2003). Arsenic in drinking water and in scalp hair by EDXRF: A major recent health hazard in Bangladesh. Journal of Radioanalytical and Nuclear Chemistry, 256, 297–305. doi:10.1023/A:1023997620268.
Alverez, R., Ordonez, A., & Loredo, J. (2006). Geochemical assessment of an arsenic mine adjacent to water reservoir (Leon, Spain). Environmental Geology, 50, 873–884. doi:10.1007/s00254-006-0259-4.
Arsenic Project (2008). http://phys4.harvard.edu/%7Ewilson/arsenic/arsenic_project_introduction.html.
Atabay, E. (2005). Medical Geology. TMMOB Chamber of Geological Engineers, Publication No: 88. (in Turkish).
ATSDR (2000). Toxicological profile for arsenic (update). US Department of Health and Human Services Agency for Toxic Substances and Disease Registry PB/2000/108021, Atlanta, Georgia.
Ayotte, J. D., Montgomery, D. L., Flanagan, S. M., & Robinson, K. W. (2003). Arsenic in groundwater in Eastern New England: Occurrence, controls, and human health implications. Environmental Science and Technology, 37, 2075–2083.
Ball, J. W., Nordstrom, D. K., Jenne, E. A., & Vivit, D. V. (1998). Chemical analyses of hot springs, pools, geysers, and surface waters from Yellowstone National Park, Wyoming and vicinity, 1974–1975. USGS Open-File Report 98–182.
Bibi, M. H., Ahmed, F., & Ishiga, H. (2006). Distribution of arsenic and other trace elements in the Holocene sediments of the Meghna River Delta, Bangladesh. Environmental Geology, 50, 1243–1253.
Chatterjee, A., & Mukherjee, A. (1999). Hydrogeological investigation of groundwater arsenic contamination in South Calcuta. Science of the Total Environment, 225, 249–262.
Colak, M., Gemici, U., & Tarcan, G. (2003). The effects of colemanite deposits on the arsenic consentration of soil and groundwater in Igdekoy-Emet, Kutahya, Turkey. Water, Air, and Soil Pollution, 149, 127–143.
Das, D., Chatterjee, A., Mandal, B. K., Samanta, G., & Chakraborti, D. (1995). Arsenic in groundwater in six districts of West Bengal, India: The biggest arsenic calamity in the world. Part 2. Arsenic concentration in drinking water, hair, nails, urine, skin-scale and liver tissue (biopsy) of the affected people. Analyst, 120, 917–924.
DMI (2005). Simav Meteorological Report. State Meteorological Organization (in Turkish).
EA (2002). Contaminants in soil: Collation of toxicological data and intake values for humans - Arsenic. Department for Environment, Food and Rural Affairs and the Environment Agency, Bristol, BS324UD.
Ercan, T., Gunay, E., & Savascin, Y. (1984). Regional evaluation of Cenozoic-aged volcanism in Simav and its environs. MTA Journal, 97/98, 86–101. in Turkish.
EPA (2003). Office of Water National Primary Drinking Water Standards. Environmental Protection Agency.
Firat, D., & Celik, I. (1998). Cancer statistics in Turkey and in the world (1993–1995). Ankara: Turkish Association for Cancer Research and Control.
Focazio, M. J., Welch, A. H., Watkins, S. A., Helsel, D. R., & Horn, M. A. (2000). A retrospective analysis on the occurrence of arsenic in ground-water resources of the United States and limitations in drinking-water-supply characterizations. US Geological Survey Water-Resources Investigations Report 99–4279, Reston, VI.
Fritzsche, A., Dienemann, H., & Duel, E. G. (2006). Arsenic fixation on iron-hydroxide-rich and plant litter-containing sediments in natural environments. Environmental Geology, 51, 133–142.
Gemici, U., & Tarcan, G. (2002). Hydrogeochemistry of the Simav geothermal field, western Anatolia, Turkey. Journal of Volcanology and Geothermal Research, 116, 215–233.
Gemici, U., & Tarcan, G. (2004). Hydrogeological and hydrogeochemical features of the Heybeli Spa, Afyon, Turkey: Arsenic and other contaminants in the thermal waters. Bulletin of Environmental Contamination and Toxicology, 72, 1107–1114.
Guilbert, J. M., & Park, C. F. (2007). The geology of ore deposits. Prospects Heights: Waveland.
Gunduz, O., & Simsek, C. (2007). Mechanisms of arsenic contamination of a surficial aquifer in Turkey. In Trefry MG (Ed.), Proceedings of the 6th Groundwater Quality Conference (GW07: Securing Groundwater Quality in Urban and Industrial Environments), Fremantle, Western Australia, ISBN 978-0-643-09551-9.
Hasozbek, A. (2003). Geology, petrology and the evolution of the Egrigoz magmatic complex. Dokuz Eylul University Graduate School of Natural and Applied Sciences, MS Thesis, Izmir (unpublished).
Hem, J. D. (1985). Study and interpretation of the chemical characteristic of natural water, 3rd ed., USGS Water Supply Paper 2254.
ITASHY (2005). Regulation on waters for human consumption. Official Gazette dated 17/02/2005, No.25730, Ankara. (in Turkish).
Lee, J. S., Chon, H. T., & Kim, K. W. (2005). Human risk assessment of As, Cd, Cu and Zn in the abandoned metal mine site. Environmental Geochemistry and Health, 27, 185–191.
Liu, C. W., Wang, S. W., Jang, C. S., & Lin, K. H. (2006). Occurence of arsenic in groundwater in the Choushui River Alluvial Fan, Taiwan. Journal of Environmental Quality, 35, 68–75.
Mazumder, D. N. G., Das Gupta, J., Chakraborti, A. K., Chatterjee, A., Das, D., & Chakraborti, D. (1992). Environmental pollution and chronic arsenicosis in South Calcutta, West Bengal. Bulletin of the World Health Organization, 70, 481–485.
Mazumder, D. N. G., Haque, R., Ghosh, N., De, B. K., Santra, A., Chakraborti, D., et al. (2000). Arsenic in drinking water and the prevalence of respiratory effects in West Bengal, India. International Journal of Epidemiology, 29, 1047–1052.
McArthur, J. M., Ravenscroft, P., Safiullah, S., & Thirlwall, M. F. (2001). Arsenic in groundwater: Testing pollution mechanisms for sedimentary aquifers in Bangladesh. Water Resources Research, 37(1), 109–117.
MTA (1996). Borehole drilling report. General Directorate of Mineral Research and Exploration (in Turkish).
NRC (1997). Arsenic: Medical and biological effects of environmental pollutants. Committee on Medical and Biological Effects of Environmental Pollutants, National Research Council.
O’Shea, B., Jankowski, J., & Sammut, J. (2007). The sources of naturally occurring arsenic in coastal sand aquifer of eastern Australia. Science of the Total Environment, 379, 151–166.
Robles-Arenas, V. M., Rodriquez, R., Garcia, C., Manteca, J. I., & Candela, L. (2006). Sulphide-mining impacts in the physical environment; Sierra de Cartagena-La Union (SE Spain) case study. Environmental Geology, 51, 47–64.
Sengelen, M. (2002). Cancer Statistics in Turkey. Hacettepe University Institute of Medical Sciences, MS Thesis, Ankara.
Sengor, A. M. C., Satir, M. G., & Akkok, R. (1984). Timing of tectonic events in the Menderes massif, Western Turkey: Implications for tectonic evolution and evidence for Pan-African basement in Turkey. Tectonics, 3, 693–707.
Sengor, A. M. C., Gorur, N., & Saroglu, F. (1985). Strike-slip faulting and related basin formation in zones of tectonic escape: Turkey as a case study. In Biddke, K.T. and Christie-Blick, N. (Eds.), Strike-slip Faulting and Basin Formation, Society of Econ. Paleont. Min. Special Publication, 227–264.
Seyitoglu, G. (1997). The Simav Graben: An example of young E–W trending structures in the late Cenozoic extensional system of Western Turkey. Turkish Journal of Earth Sciences, 6, 135–142.
Simsek, C. (2005). Boron and arsenic contamination in Balcova Geothermal Field. Geothermal Energy. TMMOB Chamber of Mechanical Engineers Publication, E/2005/393-2, 361-368 (in Turkish).
Simsek, C., & Gunduz, O. (2007). IWQ index: A GIS-integrated technique to assess irrigation water quality. Environmental Monitoring and Assessment, 128, 277–300.
Smith, A. H., Hopenhayn-Rich, C., Bates, M. N., Goeden, H. M., Hertz-Picciotto, I., Duggan, H. M., et al. (1992). Cancer risks from arsenic in drinking water. Environmental Health Perspectives, 97, 259–267.
Stauffer, R. E., & Thompson, J. M. (1984). Arsenic and antimony in geothermal waters of Yellowstone National Park, Wyoming, USA. Geochimica et Cosmochimica Acta, 48, 2547–2561.
Tsuji, J. S., Benson, R., Schoff, R. A., & Hook, G. C. (2004). Health effect levels for risk assessment of childhood exposure to arsenic. Regulatory Toxicology and Pharmacology, 39(2), 99–110.
TUIK (2007). Census results for Kutahya Province. Ankara: Turkish Statistical Institute. (in Turkish).
Vedat, O., & Erler, A. (1999). Comparison of epithermal and base metal mineralizations along Simav Graben. In: 52nd Turkish Geology Congress, Proceedings Book, pp. 129–136.
Wang, S., & Mulligan, C. N. (2006). Occurrence of arsenic contamination in Canada: Sources behavior and distribution. Science of the Total Environment, 366, 701–721.
WHO (2001). Arsenic and arsenic compounds (2nd ed.). Geneva: World Health Organization.
WHO (2004). Guidelines for drinking water quality, Third Edition, Vol. 1. Geneva: World Health Organization.
Wilkie, J. A., & Hering, J. G. (1998). Rapid oxidation of geothermal arsenic(III) in stream waters of Eastern Sierra Nevada. Environmental Science and Technology, 32, 657–662.
Acknowledgments
The authors would like to express their gratitude to the municipalities of Citgol and Kelemyenice for their support throughout this study. The authors also acknowledge the support of Mr. Osman Erdemirtekin during field work and laboratory analysis and Mr. Mesut Karaca, M.D., during statistical death analysis.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Gunduz, O., Simsek, C. & Hasozbek, A. Arsenic Pollution in the Groundwater of Simav Plain, Turkey: Its Impact on Water Quality and Human Health. Water Air Soil Pollut 205, 43–62 (2010). https://doi.org/10.1007/s11270-009-0055-3
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11270-009-0055-3