Geochemical and statistical methods in the evaluation of trace elements contamination: an application on canal sediments

• Autorzy: Sakan S. , Dordevic D.S. , Trifunovic S.S.
• Języki publikacji: EN

Abstrakty

EN

The contamination levels of V, Cr, Ni, Cu, Zn, Cd, and Pb in canal sediments (Danube alluvial formation) were assessed to evaluate environmental quality and potential contamination. Results indicate that silicates and oxides (Fe and Mn) are important for binding investigated elements (Cr, Zn, Cd, Ni, V Pb, and Cu). The values of calculated enrichment factors indicate that the investigated locations includes minor to moderate enrichment of sediment with Cr, V, Cu, Pb, Cd, Ni, and Zn, except for one location where sediment is severely enriched with Zn. Factor analysis shows two main anthropogenic sources: - Cr, Zn, Cd, Ni, V, and Pb are mainly derived from industrial sources and, - Cu and Pb are mainly derived from other local contamination sources combined with traffic sources. With increasing distance from the Refinery, the anthropogenic impacts of the metal content were lower and geochemical control of the contents of the element became dominat, which indicate the influence of the refinery on the metal pollution in the sediments.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2011
• Tom: 20
• Numer: 1
• Opis fizyczny: p.187-199,fig.,ref.

Twórcy

autor

Sakan S.

• IChTM, Department of Chemistry, Njegoseva 12, POB 815, Belgrade 11001, Serbia

autor

Dordevic D.S.

autor

Trifunovic S.S.

Bibliografia

• 1. KAUSAR R., AHMAD Z. Determination of toxic inorganic elements’ pollution in ground waters of the Kahuta Industrial Triangle Islamabad, Pakistan using inductively coupled plasma mass spectrometry. Environ. Monit. Assess. doi: 10.1007/s10661-008-0539-4, 2008.
• 2. SELINUS O., ALLOWAY B., CENTENO J.A., FINKELMAN R.B., FUGE R., LINDH U., SMEDLEY P. (Eds.). Essentials of Medical Geology. Impacts of the Natural Environment on Public Health. Elsevier, Amsterdam, pp. 812, 2005.
• 3. MADRID F., BIASIOLI M., AJMONE-MARSAN F. Availiability and Bioaccessibility of metals in fine particles of some urban soils. Arch. Environ. Contam. Toxicol. 55, 21, 2008.
• 4. Directive 2000/60/EC of the European Parliament and of the Council establishing a framework for Community action in the field of water policy, 2000.
• 5. Council Directive 86/278/EEC on the Protection of the Environment, and in Particular of the soil, When Sewage Sludge is used in Agriculture, 1986.
• 6. NGUYEN H.L., BRAUN M., SZALOKI I., BAEYENS W., VAN GRIEKEN R., LEERMARKERS M. Tracing the Metal Pollution History of the Tisza River Through the Analysis of a Sediment Depth Profile. Water Air Soil Pollut. doi: 10.1007/s11270-008-9898-2, 2008.
• 7. CHEN T.B., ZHENG Y.M., LEI M., HUANG Z.C., WU H.T., CHENG H., FAN K.K., YU K., WU X., TIAN Q.Z. Assessment of heavy metal pollution in surface soils of urban parks in Beijing, China. Chemosphere 60, 542, 2005.
• 8. CICCHELLA D., DE VIVO B, LIMA A, ALBANESE S, MC GILL R. A. R, PARRISH R. R. Heavy metal pollution and Pb isotopes in urban soils of Napoli, Italy. Geochem. Explor. Environ. Anal. 8, 103, 2008.
• 9. WONG, C.S.C., LI, X.D., THORNTON, I. Review on urban environmental geochemistry of trace metals. Environ. Pollut. 142, 1, 2006.
• 10. KARAGEORGIS A.P., KATSANEVAKIS S., KABERI H. Use of Enrichment Factors for the Assessment of Heavy Metal Contamination in the sediments of Koumoundourou Lake, Greece. Water Air Soil Pollut. doi: 10.1007/s11270-009-0041-9, 2009.
• 11. MASSAS I., EHALIOTIS C., GERONTIDIS S., SARRIS E. Elevated heavy metal contents in top soils of an Aegean island town (Greece): total and available forms, origin and distribution. Environ. Monit. Assess. 151, 105, 2009.
• 12. PRICA M., DALMACIJA B., RONČEVIĆ S., KRČMAR D., BEČELIĆ M. A comparison of sediment quality results with acid volatile sulfide (AVS) and simultaneously extracted metals (SEM) ratio in Vojvodina (Serbia) sediments. Sci. Total Environ. 389, 235, 2008.
• 13. SAKAN S., ĐORĐEVIĆ D., MANOJLOVIĆ D. Trace elements as tracers of environmental polluition in the canal sediments (alluvial formation of the Danube River, Serbia). Environ. Monit. Assess. doi: 10.1007/s10661-009-1044-0, 2009.
• 14. TESSIER A., CAMPBELL P.G.C., BISSON M. Sequential Extraction Procedure for the Speciation of Particulate Trace Metals. Anal. Chem. 51, (7), 844, 1979.
• 15. POLIĆ P., PFENDT P. Iron and manganese oxides as dominant nickel substrates in the Novi Beograd aquifer. J. Serb. Chem. Soc. 57, (10), 697, 1992.
• 16. SAKAN S., ĐORĐEVIĆ D., MANOJLOVIĆ D., POLIĆ P. Assessment of heavy metal pollutants accumulation in the Tisza river sediment. J. Environ. Manage. 90, 3382, 2009.
• 17. RELIĆ D., ĐORĐEVIĆ D., POPOVIĆ A., BLAGOJEVIĆ T. Speciations of trace metals in the Danube alluvial sediments within an oil refinery. Environ. Int. 31, 661, 2005.
• 18. SAKAN S., GRŽETIĆ I., ĐORĐEVIĆ D. Distribution and Fractionation of Heavy Metals in the Tisza (Tisza) River Sediments. Environ. Sci. Pollut. R. 14, (4), 229, 2007.
• 19. KALEMBKIEWICZ J., SITARZ-PALCZAK E. Validation and Optimization for the Sequential Extraction of Manganese from Ash. Polish J. of Environ. Stud. 14, (1), 41, 2005.
• 20. WALNA B., SIEPAK J., DRZYMALA S., SOBCZYŃSKI T. Research on Aluminium Speciation in Poor Forest Soils Using the Sequential Extraction Method. Polish J. of Environ. Stud. 14, (2), 243, 2005.
• 21. PETROVIC D., TODOROVIC M., MANOJLOVIC D., KRSMANOVIC V.D. Speciations of Trace Metals in the Accumulation Bogovina on the Crni Timok River. Polish J. of Environ. Stud. 18, (5), 873, 2009.
• 22. REIMANN C., FILZMOSER P. Normal and lognormal data distribution in geochemistry: death of a myth. Consequences for the statistical treatment of geochemical and environmental data. Environ. Geol. 39, (9), 1001, 1999.
• 23. FACCHINELLI A., SACCHI E., MALLEN L. Multivariate statistical and GIS-based approach to identify heavy metal sources in soils. Environ. Pollut. 114, 313, 2001.
• 24. COVELLI S., FONTOLAN G. Application of a normalization procedure in determining regional geochemical baselines. Environ. Geol. 30, (1/2), 34, 1997.
• 25. LIAGHATI T., PREDA M., COX M. Heavy metal distribution and controlling factors within coastal plain sediments, Bells Creek catchments, southeast Queensland, Australia. Environ. Int. 29, 935, 2003.
• 26. WOITKE P., WELLMITZ J., HELM D., KUBE P., LEPOM P., LITHERATY P. Analysis and assessment of heavy metal pollution in suspended solids and sediments of the river Danube. Chemosphere 51, 633, 2003.
• 27. KERSTEN M., SMEDES F. Normalization procedures for sediment contaminants in spatial and temporal trend monitoring. J. Environ. Monit. 4, 109, 2002.
• 28. ACEVEDO-FIGUEROA D., JIMENEZ B.D., RODIGUEZ-SIERRA C.J. Trace metals in sediments of two estuarine lagoons from Puerto Rico. Environ. Pollut. 141, 336, 2006.
• 29. DRAGOVIĆ S. Danger from salinisation of soil in irrigation systems in Vojvodina in Heavy metals and pesticides in soil. Heavy metals and pesticides in the soils of the Vojvodina Province. Faculty of Agriculture, Novi Sad, 2003.
• 30. KOSTIĆ N. Distribution and Chemical Speciation of some Heavy Metals in Soils of Vojvodina and Central Serbia. Proceedings of the 10th Congress of Yugoslav Soil Sci. Soc., CD copy by Soil Sciences Institute, Belgrade, 2001.
• 31. KASTORI R. Heavy metals and pesticides in soil: heavy metals and pesticides in soils of Vojvodina. Faculty of Agriculture, Novi Sad, 1993.
• 32. OKAY O.S., PEKEY H., MORKOC E., BAŞAK S., BAYKAL B. Metals in the surface sediments of Istanbul Strait (Turkey). J. Environ. Sci. Heal. A 43, 1725, 2008.
• 33. HELIOS RYBICKA E., CALMANO W., BREEGER A. Heavy metals sorption/desorption on competing clay minerals; an experimental study. Appl. Clay Sci. 9, 369, 1995.
• 34. MIDDLETON G.V. Encyclopedia of sediments and sedimentary rocks. Kluwer Academic Publishers, pp. 392, 2003.
• 35. PRUYSERS P.A., DE LANGE G., MIDDELBURG J.J. Geochemistry of eastern Mediterranean sediments: Primary sediment composition and diagenetic alterations. Mar. Geol. 100, 137, 1991.
• 36. HAWKES H.E., WEBB J.S. Geochemistry in mineral exploration. Harper and Row Publishers, New York and Evanston, 1962.
• 37. BHUIYAN M.A.H., PARVEZ L., ISLAM M.A., DAMPARE S.B., SUZUKI S. Heavy metal pollution of coal-mine affected agricultural soils in the northern part of Bangladesh. J. Hazard. Mater. doi: 10.1016/j.jhazmat.2009.05.085, 2009.
• 38. CICCHELLA D., DE VIVO B, LIMA, A. Background and baseline concentration values of elements harmful to human health in the volcanic soils of the metropolitan and provincial area of Napoli (Italy). Geochem. Explor. Environ. Anal. 5, 29, 2005.
• 39. CICCHELLA D., DE VIVO B., LIMA A., ALBANESE S., FEDELE L. Urban geochemical mapping in Campania region, Italy. Geochem. Explor. Environ. Anal. 8, 19, 2008.
• 40. YEUNG Z.L.L., KWOK R.C.W., YU K.N. Determination of multi-element profiles of street dust using energy dispersive X-ray fluorescence (EDXRF). Appl. Radiat. Isot., 58, 339, 2003.
• 41. SAKAN S., ĐORĐEVIĆ D., RADMANOVIĆ D., SPASOV LJ., ANĐELKOVIĆ I., JOVANČIĆEVIĆ B, POLIĆ P. The state of pollution of ground waters with Pb and Cd in the period ′97-00′ at the Pančevo Oil refinery locality. Proceedings, IV Yugoslav Symposium "Chemistry and Environment", 2001, September, 23-26. Zrenjanin, Jugoslavija, pp. 103-105, 2001.
• 42. POPOVIĆ A., ĐORĐEVIĆ D., RELIĆ D., VUKMIROVIĆ Z., MIHAJLIDI-ZELIĆ A., POLIĆ P. Speciation of Heavy Metals in geological Matter of the Serbian national Parks, Protected Areas and Cities within the Danube river Basin After the war Conflict in 1999. Hdb. Env. Chem. pp. 283-321, 2009.
• 43. KASTORI R. Heavy metals in the environment. Feljton, Novi Sad, 1997.