Environmental Monitoring and Assessment

, Volume 123, Issue 1–3, pp 219–231 | Cite as

Heavy Metal Pollution Assessment in Sediments of the Izmit Bay, Turkey

  • Hakan PekeyEmail author


Surface sediments in the fraction < 63 μm collected from eight stations along the north coastline of Izmit Bay, north-eastern Marmara Sea, Turkey, were analyzed for major (organic carbon, Al, Ba, Fe and Mg) and trace (As, Cd, Co, Cr, Cu, Mo, Ni, Pb and Zn) elements by using inductively coupled plasma atomic emission spectrometry (ICP-AES). Sediments heavily contaminated are evaluated by the Sediment Quality Guidelines (SQG) of US EPA. The results were compared with the marine sediment quality standards (SQS), as well as literature values reported to assess the pollution status of the sediments. The enrichment factors (EFs) were calculated to evaluate actual level of contamination for all the elements using the earth crust as reference matrix, based on elemental values by Mason which show a normal pattern near to unity. The analysis revealed two groups of elements: (i) Arsenic, Cd, Pb, and Zn are the most enriched elements; (ii) Barium, Co, Cr, Cu, Fe, Mg, Mo and Ni are at background levels. The results show that road traffic run-offs, paint industries and coal combustion are among the most significant sources.


heavy metal pollution sediments total organic carbon sediment quality guidelines sediment quality standards enrichment factors Izmit Bay 


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  1. Ackerman, F.: 1980, ‘A procedure for correcting the grain size effect in heavy metal analyses of estuarine and coastal sediments’, Environ. Technol. Lett. 1, 518–527.CrossRefGoogle Scholar
  2. Adams, W. J., Kimerle, R. A. and Barnett, Jr. J. W.: 1992, ‘Sediment quality and aquatic life assessment’, Environ. Sci. Technol. 26, 1865–1875.Google Scholar
  3. Algan, O.: 1996, ‘Distribution of sediments in İzmit Bay’, in: E., Morkoç, S.O., Okay and A., Geveci (eds.), Towards a Clean İzmit Bay. Technical Report, TÜBİTAK-MRC Publications, Kocaeli, Turkey.Google Scholar
  4. ASTM: 1991 (American Society for Testing and Materials). Standart guide for collection, storage, characterization and manipulation of sediments for toxicological testing. Publ. E. 1391–90, ASTM, Philadelphia.Google Scholar
  5. Atgın, R. S., El-Agha, O., Zararsız, A., Kocataş, A., Parlak, H. and Tuncel, G.: 2000, ‘Investigation of the sediment pollution in Izmir Bay: Trace elements’, Spectrochim Acta B. 55, 1151–1164.CrossRefGoogle Scholar
  6. Atgın, R. S.: 2000, ‘Investigation of the sediments of İzmir Bay: Trace elements’, M.S. Thesis, The Department of Environmental Engineering, METU, Ankara.Google Scholar
  7. Balls, P. W., Hull, S., Miller, B. S., Pirie, J. M. and Proctor, W.: 1997, ‘Trace metal in Scottish estuarine and coastal sediments’, Mar. Pollut. Bull. 34, 42–50.CrossRefGoogle Scholar
  8. Bowen, H. J. M.: 1979, Environmental Chemistry of the Elements, Academic Press, London.Google Scholar
  9. Daskalakis, K. D. and O'Connor, T. P.: 1995, ‘Normalization and elemental sediment contamination in the coastal United States’, Environ. SciTechnol. 29, 470–477.Google Scholar
  10. Ergin, M., Saydam, C., Baştürk,Ö., Erdem, E. and Yörük, R.: 1991, ‘Heavy metal concentrations in surface sediments from the two coastal inlets (Golden Horn Estuary and Izmit Bay) of the northeastern Sea of Marmara’, Chem. Geol. 91, 269–285.CrossRefGoogle Scholar
  11. Fang, T. H. and Hong, E.: 1999, ‘Mechanisms influencing the spatial distribution of trace metals in surficial sediments off the south-western Taiwan’, Mar. Pollut. Bull. 38(11), 1026–1037.CrossRefGoogle Scholar
  12. Jones, B. and Turki, A.: 1997, ‘Distribution and speciation of heavy metals in surficial sediments from the Tees Estuary, north-east England’, Mar. Pollut. Bull. 34(10), 768–779.CrossRefGoogle Scholar
  13. Klavins, M., Briede, A., Rodinov, V., Kokorite, I., Parele, E. and Klavina, I.: 2000, ‘Heavy metals in Rivers of Latvia’, Sci Total Environ. 262, 175–183.CrossRefGoogle Scholar
  14. Loring, D. H.: 1990, ‘Lithium-a new approach for the granulometric normalization of trace metal data’, Mar. Chem. 29, 155–168.CrossRefGoogle Scholar
  15. Loring, D. H., Naes, K., Dahle, S., Matishow, G. G. and Illin, G.: 1995, ‘Arsenic, trace metals, and organic micro contaminants in sediments from the Pechora Sea, Russia’, Mar. Geol. 128, 153–167.CrossRefGoogle Scholar
  16. Mason, B. J.: 1966, Introduction to Geochemistry. 3rd (ed)., John Wiley, New York.Google Scholar
  17. Morkoç, E., Okay, O. S., Tolun, L., Tüfekçi, V., Tüfekçi, H. and Legoviç, T.: 2001, ‘Towards a clean Izmit Bay’, Environ. Int. 26, 157–161.CrossRefGoogle Scholar
  18. Mucha, A. P., Vasconcelos, M. T. S. D. and Bordalo, A. A.: 2003, ‘Macrobenthic community in the douro estuary: Relations with trace metals and natural sediment characteristics’, Environ. Pollut. 121, 169–180.CrossRefGoogle Scholar
  19. Odabaşı, M., Müezzinoglu, A. and Bozlaker, A.: 2002, ‘Ambient concentrations and dry deposition fluxes of trace elements in Izmir, Turkey’, Atmos. Environ. 36, 5841–5851.CrossRefGoogle Scholar
  20. Okay O. S., Egesel, L., Tüfekçi, V., Morkoç, E. and Gaines, A.: 1998, ‘Investigation of three wastewaters entering Izmit Bay (Turkey) by means of batch and chemostat culture algal bioassays’, Mar. Environ. Res. 46(1–5), 283–288.CrossRefGoogle Scholar
  21. Okay, O. S., Tolun, L., Telli-Karakoç, F., Tüfekçi, V., Tüfekçi, H. and Morkoç, E.: 2001, ‘Izmit Bay (Turkey) ecosystem after Marmara earthquake and subsequent refinery fire: The long-term data’, Mar. Pollut. Bull. 42(5), 361–369.CrossRefGoogle Scholar
  22. Pekey, H., Karakaş, D., Ayberk, S., Tolun, L. and Bakoğlu, M.: 2004a, ‘Ecological risk assessment using trace elements from surface sediments of İzmit Bay (Northeastern Marmara Sea) Turkey’, Mar. Pollut. Bull. 48(9–10), 946–953.CrossRefGoogle Scholar
  23. Pekey, H., Karakaş, D. and Bakoğlu, M.: 2004b, ‘Source apportionment of trace metals in surface waters of a polluted stream using multivariate statistical analyses’, Mar. Pollut. Bull. 49(9–10), 809–818.CrossRefGoogle Scholar
  24. Pekey, H., Bakoğlu, M. and Pekey, B.: 2005, ‘Sources of heavy metals in the Western Bay of Izmit surface sediments’, Int J. Environ. An. Ch. 85(14), 1025–1036.CrossRefGoogle Scholar
  25. Pekey, H.: The Distribution and Sources of Heavy Metals in İzmit Bay Surface Sediments Affected by a Polluted Stream, Mar Pollut Bull. in press.Google Scholar
  26. Perin, G., Bonardi, M., Fabris, R., Simoncini, B., Manente, S., Tosi, L. and Scotto, S.: 1997, ‘Heavy metal pollution in central Venice lagoon bottom sediments: Evaluation of the metal bioavailability by geochemical speciation procedure’, Environ. Technol. 18, 593–604.CrossRefGoogle Scholar
  27. Rivail Da Silva, M., Lamotte, M., Donard, O. F. X., Soriano-Sierra, E. J. and Robert, M.: 1996, ‘Metal contamination in surface sediments of mangroves, lagoons and southern Bay in Florianopolis Island’, Environ. Technol. 17, 1035–1046.Google Scholar
  28. Rowlatt, S. M. and Lovell, D. R.: 1994, ‘Lead, zinc and chromium in sediments around England and Wales’, Mar. Pollut. Bull. 28(5), 324–329.CrossRefGoogle Scholar
  29. Rubio, B., Nombela, M. A. and Vilas, F.: 2000, ‘Geochemistry of major and trace elements in sediments of the Ria de Vigo (NW Spain): An assessment of metal pollution’, Mar. Pollut. Bull. 40(11), 968–980.CrossRefGoogle Scholar
  30. Salomons, W. and Förstner, U.: 1984, Metals in the hydrocycle, Springer-Verlag, Berlin, Heidelberg, New York, Tokyo.Google Scholar
  31. SPO: (2000a), (Republic of Turkey, Prime Ministry State Planning Organization). Eighth five-year development plan, Iron and Steel industry special expertise commission report, pp. 217, Ankara, Turkey.Google Scholar
  32. SPO: (2000b), (Republic of Turkey, Prime Ministry State Planning Organization). Eighth five-year development plan, Chemical industry special expertise commission report, pp.6, Ankara, Turkey.Google Scholar
  33. Statgraphics Plus Software Version 3.1, Statistical Graphics Corporation, Rockville, MD (1997).Google Scholar
  34. Szefer, P., Szefer, K., Glasby, G. P., Pempkowiak, J. and Kaliszan, R.: 1996, ‘Heavy metal pollution in surficial sediments from the Southern Baltic Sea off Poland’, J. Environ. Sci. Heal. A, 31(10), 2723–2754.Google Scholar
  35. Tam, N. F. Y. and Wong, Y. S.: 2000, ‘Spatial variation of heavy metals in surface sediments of Hong Kong mangrove swamps’, Environ. Pollut. 110, 195–205.CrossRefGoogle Scholar
  36. Taylor, S. R.: 1972, ‘Abundance of chemical elements in the continental crust; a new table’, Geochim Cosmochim Ac. 28, 1273–1285.CrossRefGoogle Scholar
  37. Telli-Karakoç, F., Tolun, L., Henkelmann, B., Klimm, C., Okay, O. and Schramm, K.W.: 2002, ‘Polycyclic aromatic hydrocarbons (PAHs) and polychlorinated biphenyls (PCBs) distributions in the Bay of Marmara Sea: Izmit Bay’, Environ. Pollut. 119, 383–397.CrossRefGoogle Scholar
  38. Turekian, K. K. and Wedepohl, K.H.: 1961, ‘Distribution of the elements in some major units of the earth's crust’, Bull. Geol. Soc. Am. 72, 175–192.Google Scholar
  39. US EPA: 1996, (United States Environmental Protection Agency). SW-846 Method 6010B. Inductively Coupled Plasma-Atomic Emission Spectrometry.Google Scholar
  40. US EPA: 1999, (United States Environmental Protection Agency). SW-846 Method 3050B. Standart Operating Procedure for the Digestion of Soil/Sediment Samples Using a Hotplate/Beaker Digestion Technique. Chicago, Illinois.Google Scholar
  41. Verardo, D. J., Froelich, P. N. and McIntyre, A.: 1990, ‘Determination of organic carbon and nitrogen in marine sediments using the Carlo Erba NA-1500 analyzer’, Deep. Sea. Res. 37, 157–165.CrossRefGoogle Scholar
  42. Vinogradov, A. P.: 1959, The Geochemistry of Rare and Dispersed Chemical Elements in Soils. 2nd ed., Consultants Bur., New York.Google Scholar
  43. Wedepohl, K. H.: 1968, Origin and distribution of the elements, Ahrens, L.H. (ed.), Pergamon Press, London, pp. 999–1016.Google Scholar
  44. WDOE: 1995, (Washington State Department of Ecology). Sediment management standards. Olympia, WA: Chapter 173–204–320 WAC.Google Scholar
  45. Windom, H. L., Schropp, S. J., Calder, F. D., Ryan, J. D., Smith, R. G., Burney, L. C., Lewis, F. G. and Rawlinson, C. H.: 1989, ‘Natural trace metal concentrations in estuarine and coastal marine sediments of the Southeastern United States’, Environ. Sci. Technol. 23(3), 314–320.CrossRefGoogle Scholar
  46. Wright, P. and Mason, C. F.: 1999, ‘Spatial and seasonal variation in heavy metals in the sediments and biota of two adjacent estuaries, the Orwell and the Stour, in eastern England’, Sci. Total. Environ. 226, 139–156.CrossRefGoogle Scholar
  47. Yaşar, D., Aksu, A. E. and Uslu, O.: 2001, ‘Anthropogenic pollution in Izmit Bay: Heavy metal concentrations in surface sediments’, Turkish J. Eng. Environ. Sci. 25, 299–313.Google Scholar

Copyright information

© Springer Science+Business Media, Inc. 2006

Authors and Affiliations

  1. 1.Department of Environmental ProtectionKocaeli UniversityKocaeliTurkey

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