Abstract
Geochemical fractionation of iron (Fe), manganese (Mn), copper (Cu), chromium (Cr), lead (Pb), zinc (Zn), and nickel (Ni) were determined using five-stage sequential extraction in sediments collected from estuarine stretches of Cauvery River delta on the eastern coast of India with emphasis on seasonal variation. Abundance of metals in terms of sum of total fractionations varied in the following order: Fe > Mn > Cr > Zn > Cu > Ni > Pb. Exchangeable fraction, believed to be bioavailable, showed differential abundances during the dry and wet seasons in the following order: Pb > Zn > Cu > Mn > Ni > Cr > Fe and Zn > Cu > Cr > Ni > Mn > Pb > Fe, respectively, indicating the possibility of anthropogenic influence. Among nonlithogenic fraction, organic matter–bound fraction is the second largest and a key scavenger for all of the heavy metals studied except Fe and Mn. A significant portion of Cu-associated organic matter fraction shows strong association of Cu with organic matter at most of the sampling sites. Environmental risk of metals evaluated using risk-assessment code and mobility factor showed low to high risk for Pb, Zn, and Cu. The results of the present study also hint at notable enrichment of heavy metals in the certain pockets of the Cauvery Estuary.
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Ahmad S, Siddiqui EN, Khalid S (1996) Studies on certain physico chemical properties of soil of two fresh water ponds of Darbhanga. Environ Pollut 31:31–39
Ahumada I, Mendoza J, Navarrete E, Ascar L (1999) Sequential extraction of heavy metals in soils irrigated with wastewater. Commun Soil Sci Plant Anal 30:1507–1519
Alagarsamy R (1991) Organic carbon in the sediments of Mandovi estuary, Goa. Indian J Marine Sci 20:221–222
Ananthan G, Sampathkumar P, Palpandi C, Kannan L (2006) Distribution of heavy metals in Vellar estuary, Southeast coast of India. J Ecotoxicol Environ Monit 16:185–191
Blais JF, Djedidi Z, Cheikh RB, Tyagi RD, Mercier G (2008) Metals precipitation from effluents: Review. Pract Period Hazard Toxic Radioact Waste Manag 12:135–149
Botte SE, Freije RH, Marcovecchio JE (2010) Distribution of several heavy metals in tidal flats sediments within Bahia Blanca Estuary (Argentina). Water Air Soil Pollut 210:371–388
Boxall ABA, Comber SD, Conrad AU, Howcroft J, Zaman N (2000) Inputs, monitoring and fate modelling of antifouling biocides in UK estuaries. Mar Pollut Bull 40:898–905
Buggy CJ, Tobin JM (2008) Seasonal and spatial distribution of metals in surface sediments of an urban estuary. Environ Pollut 155:308–319
Caccia VG, Millero FJ, Palanques A (2003) The distribution of trace metals in Florida Bay sediments. Mar Pollut Bull 46:1420–1433
Chakraborty P, Chakrabarti CL (2008) Competition from Cu II, Zn II and Cd II in Pb II binding to Suwannee River fulvic acid. Water Air Soil Pollut 195:63–71
Chakraborty P, Raghunadh Babu PV, Sarma VV (2012) A study of lead and cadmium speciation in some estuarine and coastal sediments. Chem Geol 294-295:217–225
Dekov DM, Araujo F, Subramanian V, Van Grieken R (1998) Chemical composition of sediments and suspended matter from the Cauvery and Brahmaputra river (India). Sci Total Environ 212:89–105
Department of Environment (2001) Department of Environment, Government of Tamilnadu, India. Available at: http://www.tnenvis.nic.in/DtProfiles/trichy. Accessed 21 June 2006
Dessai DVG, Nayak GN (2009) Distribution and speciation of selected metals in surface sediments from the tropical Zuari estuary, Central west coast of India. Environ Monit Assess 158:117–137
Dhanakumar S, Mani U, Murthy RC, Veeramani M, Mohanraj R (2011) Heavy metals and their fractionation profile in surface sediments of upper reaches in the Cauvery river delta, India. Int J Geol Earth Environ Sci 1:38–47
Duzzin B, Pavoni B, Donazolo R (1988) Macroinvertabrate communities and sediments as pollution indicators for heavy metals in the River Adige Italy. Water Res 22:1353–1363
Fergusson JE (1990) The heavy elements, chemistry, environmental impact and health effects. Pergamon, London, Oxford, p 614
Fernandes HM (1997) Heavy metal distribution in sediments and ecological risk assessment: The role of diagenetic processes in reducing metal toxicity in bottom sediments. Environ Pollut 97:317–325
Forstner U (1985) Chemical forms and reactivities of metals in sediments. In: Leschber R, Davis RR, L’Hermite P (eds) Chemical methods for assessing bioavailable metals in sludges and soils. Elsevier, London, pp 1–30
Fuentes MV, De Astudillo LR, Diaz A, Martínez G (2010) Heavy metal distribution in superficial sedimenta at Saco, Gulf of Cariaco, Sucre, Venezuela. Rev Biol Trop 58:129–140
Gonzalez JL, Thouvenin B, Dange C, Chiffoleau JF, Boutier B (2006) Role of particle sorption properties in the behavior and speciation of trace metals in macro tidal estuaries: The cadmium example. Handbook Environ Chem Ser 5:265–301
Hang X, Wang H, Zhou J, Du C, Chen X (2009) Characteristics and accumulation of heavy metals in sediments originated from an electroplating plant. J Hazard Mater 163:922–930
Howari FM, Banat KM (2001) Assessment of Fe, Zn, Cd, Hg, and Pb in the Jordan and Yarmouk River sediments in relation to their physicochemical properties and sequential extraction characterization. Water Air Soil Pollut 1321:43–59
Iwegbue CMA, Arimoro FO, Nwajei GE, Eguavoen OI (2012) Concentrations and distribution of trace metals in water and streambed sediments of Orogodo River, southern Nigeria. Soil Sediment Contam 213:382–406
Jain CK, Gupta H, Chakrapani G (2008) Enrichment and fractionation of heavy metals in bed sediments of River Narmada, India. Environ Monit Assess 141:35–47
Jingchun L, Chongling Y, Macnair MR, Jun H, Yuhong L (2006) Distribution and speciation of some metals in mangrove sediments from Jiulong River Estuary, People’s Republic of China. Bull Environ Contam Toxicol 76:815–822
Jonasson IR (1977) Geochemistry of sediment/water interactions of metals, including observations on availability. In: Shear H, Watson AEP (eds) Proceedings of Workshop on the Fluvial Transport of Sediment-Associated Nutrients and Contaminants. International Joint Commission, Pollution from Land Use Activities Reference Group, Windsor, Ontario, pp 255–271
Kabala C, Singh BR (2001) Fractionation and mobility of copper, lead and zinc in soil profiles in the vicinity of a copper smelter. J Environ Qual 30:485–492
Karbassi AR, Monavari SM, Gh R, Nabi B, Nouri J, Nematpour K (2008) Metal pollution assessment of sediment and water in the Shur River. Environ Monit Assess 147:107–116
Karthikeyan R, Vijayalakshmi S, Balasubramanian T (2007) Monthly variations of heavy metals and metal resistant bacteria from the Uppanar estuary Southeast coast of India. Res J Microbiol 2:50–57
Kim KW, Myung JH, Ahn JS, Chon HT (1998) Heavy metal contamination in dusts and stream sediments in the Taejon area, Korea. J Geochem Explor 64:409–419
Kuang-Chung Y, Li-Jyur T, Shih-Hsiuns C, Shien-Tsong H (2001) Correlation analyses binding behavior of heavy metals with sediment matrices. Water Res 35:2417–2428
Li X, Shen Z, Wai OWH, Li YS (2001) Chemical forms of Pb, Zn and Cu in the sediment profiles of the Pearl River Estuary. Mar Pollut Bull 42:215–223
Lopez-Sanchez JF, Rubio R, Rauret G (1993) Comparison of two sequential extraction procedures for trace metal partitioning in sediments. Int J Environ Anal Chem 51:113–121
MacDonald DD, Ingersoll CG, Dawn ES, Rebekka AL (2003) Development and applications of sediment quality criteria for managing contaminated sediment in British Columbia. MacDonald Environmental Science Ltd., British Columbia
MacDonald DD, Scottcarr R, Calder FD, Long ER, Ingersoll CG (1996) Development and evalution of sediment quality guidelines for Florida coastal waters. Ecotoxicology 5:253–278
Madras Science Foundation (2000) Kaveri Riverine system—an environmental study. Madras Science Foundation, Chennai
Maina HM, Egila JN, Shagal MH (2012) Chemical speciation of some heavy metals in sediments in the vicinity of Ashaka Cement Factory, Gombe State, Nigeria. J Res Environ Sci Toxicol 1:186–194
Mathew M, Mohanraj R, Azeez PA, Pattabhi S (2003) Speciation of heavy metals in bed sediments of wetlands in urban Coimbatore, India. Bull Environ Contam Toxicol 70:800–808
Nriagu JO, Pacyna JM (1988) Quantitative assessment of worldwide contamination of air, water and soils by trace metals. Nature 333:134–139
Oyeyiola AO, Olayinka KO, Alo BI (2011) Comparison of three sequential extraction protocols for the fractionation of potentially toxic metals in coastal sediments. Environ Monit Assess 172:319–327
Perin G, Craboledda L, Lucchese M, Cirillo R, Dotta L, Zanette ML (1985) Heavy metal speciation in the sediments of Northern Adriatic sea—a new approach for environmental toxicity determination. In: Lekkas TD (ed) Heavy metal in the environment, vol 2., CEP ConsultantsEdinburg, Scotland, pp 454–456
Pursty BG, Sahu KC, Godgul G (1994) Metal contamination due to mining and milling activities at the Zawar zinc mine, Rajasthan, India. Chem Geol 112:275–291
Pustisek N, Milacic R, Veber M (2001) Use of the BCR three-step sequential extraction procedure for the study of the partitioning of Cd, Pb, and Zn in various soil samples. J Soil Sediment 1:25–29
Quevauvaviller P (1998) Operationally defined extraction procedures for soil and sediment Analysis. Trends Anal Chem 17:289–298
Rajasegar M, Srinivasan M, Ajmal Khan S (2002) Distribution of sediment nutrients of Vellar estuary in relation to shrimp farming. Indian J Marine Sci 31:153–156
Rajendran RB, Subramanian AN (1999) Chlorinated pesticide residues in surface sediments from the river Kaveri, South India. J Environ Sci Health B 342:269–288
Rajendran A, Dileep Kumar M, Bakker JF (1992) Control of manganese and iron in Skagerrak sediments northeastern North Sea. Chem Geol 98:111–129
Ramanathan AL, Subramaian V, Vaithiyanathan P (1988) Chemical and sediment characteristics of the upper reaches of the Cauvery estuary. Indian J Marine Sci 17:114–120
Ramanathan AL, Vaithiyanathan P, Subramanian V, Das BK (1993) Geochemistry of the Cauvery Estuary, East Coast of India. Estuaries 16:459–474
Rauret G, Lopez-Sanchez JF, Sahuquillo A, Rubio R, Davidson C, Ure A et al (1999) Improvement of the BCR three step sequential extraction procedure prior to the certification of new sediment and soil reference materials. J Environ Monit 1:57–61
Reyes-Gutiérrez LR, Romero-Guzmán ET, Cabral-Prieto A, Rodríguez-Castillo R (2007) Characterization of chromium in contaminated soil studied by SEM, EDS, XRD and Mossbauer spectroscopy. J Miner Mater Charact Eng 7:59–70
Sakan S, Grnetic I, Worpevic D (2007) Distribution and fractionation of heavy metals in the Tisa Tisza River sediments. Environ Sci Pollut Res 14:229–236
Salomons W, Forstner U (1980) Trace metal analysis on polluted sediments. Part II, evaluation of environmental impact. Environ Technol Lett 1:506–517
Santos-Echeandia J, Laglera LM, Prego R, Constant MG, Berg VD (2008) Copper speciation in continental inputs to the Vigo Ria, Sewage discharges versus river fluxes. Mar Pollut Bull 56:308–317
Schuler LJ, Hoang TC, Rand GM (2008) Aquatic risk assessment of copper in freshwater and saltwater ecosystems of South Florida. Ecotoxicology 17:642–659
Senthilnathan S (2004) Micro level environmental status report of River Noyyal basin. Environmental cell division. Public Works Department, Coimbatore
Sharma S (1994) Productivity of some submerged macrophytes in relations to the physico-chemical characteristics of water and bottom sediments of lakes Mansar and Surinsar, Jammu. Doctoral thesis, University of Jammu, India
Singh AP, Srivastava PC, Srivastava P (2008) Relationships of heavy metals in natural lake waters with physico-chemical characteristics of waters and different chemical fractions of metals in sediments. Water Air Soil Pollut 188:181–193
Solaraj G, Dhanakumar S, Murthy KR, Mohanraj R (2010) Water quality in select regions of Cauvery delta River basin, southern India, with emphasis on monsoonal variation. Environ Monit Assess 166:435–444
Sundaray SK (2007) Water quality assessment of Mahanadi River, Orissa, India using multivariate statistical approach. Doctoral thesis, Utkal University, Bhubaneshwar
Sundaray SK, Nayak BB, Lin S, Bhatta D (2011) Geochemical speciation and risk assessment of heavy metals in the river estuarine sediments—a case study, Mahanadi Basin India. J Hazard Mater 186:1837–1846
Sutherland RA, Tack FMG (2003) Fractionation of Cu, Pb, and Zn in certified reference soils SRM 2710 and SRM 2711 using the optimized BCR sequential extraction procedure. Adv Environ Res 8:37–50
Svete P, Milacic R, Pihlar B (2001) Partitioning of Zn, Pb, and Cd in river sediments from a lead and zinc mining area using the BCR three-step sequential extraction procedure. J Environ Monit 3:586–590
Taylor KG, Owens PN (2009) Sediments in urban river basins: a review of sediment-contaminant dynamics in an environmental system conditioned by human activities. J Soils Sediments 9:281–303
Tessier A, Cambell PGC, Bission M (1979) Sequential extraction procedure for the speciation of particulate traces metals. Anal Chem 51:844–851
United States Environmental Protection Agency (2004) Sewer sediment and control. Office of Research and Development, Edison, NJ
Walkley A, Black IA (1934) An examination of the Degljareff method for determining soil organic matter and a proposed modification of the chromic acid titration method. Soil Sci 37:29–38
Weisz M, Polyak K, Hlavay J (2000) Fractionation of elements in sediment samples collected in rivers and harbors at Lake Balaton and its catchment area. Microchem J 67:207–217
Wolters EC, Huang CC, Clark C (1989) Positron emission tomography in manganese intoxication. Ann Neurol 26:647–651
Xian X (1987) Chemical partitioning of cadmium, zinc, lead, and copper in soils near smelters. J Environ Sci Health A 226:527–541
Yang Y, Chen F, Zhang L, Liu J, Wu S, Kang M (2012) Comprehensive assessment of heavy metal contamination in sediment of the Pearl River Estuary and adjacent shelf. Mar Pollut Bull 64:1947–1955
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Dhanakumar, S., Murthy, K.R., Solaraj, G. et al. Heavy-Metal Fractionation in Surface Sediments of the Cauvery River Estuarine Region, Southeastern Coast of India. Arch Environ Contam Toxicol 65, 14–23 (2013). https://doi.org/10.1007/s00244-013-9886-4
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DOI: https://doi.org/10.1007/s00244-013-9886-4