Abstract
The Fractionation of Fe, Zn, Cu, Pb, Mn and Cd in the sediments of the Achankovil River, Western Ghats, India using a sequential extraction method was carried out to understand the metal availability in the basin for biotic and abiotic activities. Spatial distribution of heavy metals has been studied. Sediment grain size has significant control over the heavy metal distribution. The fluctuations in their concentration partly depend upon the lithology of the river basin and partly the anthropogenic activities. The sediments are dominated by sand and are moderately to strongly positively skewed and are very leptokurtotic in nature. The quartzite and feldspars are abundant minerals along with significant amount of mica with low clay content. The core sediments show increasing trend of heavy metal concentration with depth due to the recent addition of anthropogenic sources and post-diagenic activities. Significant amount of Cd (18%) was found in carbonate fraction, which may pose environmental problems due to its toxic nature. Small concentrations of metals, except Cd and Cu, are in exchangeable fraction, which indicate low bio-availability. Enrichment Factor (EF) for individual metals shows the contribution from terrregious and in part from anthropogenic sources. Selective Sequential Extraction (SSE) study shows the variation in specific metal distribution pattern, their distribution in different phases and their bio-availability. Maximum amount of the metals were bound to the non-residual fractions (mainly Fe-oxides). Overall, bio-availability of these micronutrients from sediments seems to be very less. Non-residual phase is the most important phase for majority of heavy metals studied. Among the non-residual fraction, maximum amount of the heavy metals bound to Fe-oxides. The study high lights the need for in-depth study of heavy metals distribution and fractionation in the smaller river basins to get precise information on the behavior and transport of heavy metals in the fluvial environment and their contribution to the world ocean.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ahumuda, I., Mendoza, J. and Ascar, L.: 1999, ‘Sequential extraction of heavy metals in soils irrigated with wastewater’, Commun. Soil Sci. Plant Anat. 30, 1507–1519.
Aurada, K. D.: 1983, ‘Physiographic and anthropogenic controls of global and regional run off’, in: B. W. Webb (ed.), Dissolved Loads of Rivers and Surface Water Quantity/Quality Relationship. 141, Proc. Symp. Hamburg. IAHS Publication, pp. 31–39.
Bala Krishna Prasad, M. and Ramanathan, A. L.: 2005, ‘Solute acquisition process in Achankovil River Basin, Western Ghats, South India’, Hydrol. Sci. Jour. 50(2), 341–354.
Balasoiu, C. F., Zagury, G. J. and Deschenes, L.: 2001, ‘Partitioning and speciation of chromium, copper and arsenic in CCA-contaminated soil: Influence of soil composition’, Sci. Total Environ. 280, 239–255.
Biksham, G. and Subramanian, V.: 1988, ‘Elemental composition of Godavari sediments (central and southern Indian subcontinent)’, Chem. Geol. 70, 275–286.
Biksham, G., Subramanian, V., Ramanathan, A. L. and Van Grieken, R.: 1991, ‘Heavy metal distribution in the Godavari river basin’, Environ. Geol. Wter Sci. 17(2), 117–126.
Bodek, I., Lyman, W. J., Reehl, W. F. and Rosenbalt, D. H.: 1998, Environmental Inorganic Chemistry. Pergamon Press.
Canfield, D. E.: 1989, ‘Reactive iron in marine sediments’, Geochemica et Cosmochimica Acta 53, 619–632.
Chakrapani, G. J. and Subramanian, V.: 1993, ‘Heavy metal distribution and fractionation in sediments of the Mahanadi river basin, India’, Environ. Geol. 22, 80–87.
Chakrapani, G. J. and Subramanian, V.: 1996, ‘Fractionation of heavy metals and phosphorus in suspended sediments of the Yamuna river, India’, Environ. Monitor. Assess. 43, 117–124.
Copeland, R. A. and Ayers, J. C.: 1972, Trace Element Distribution in the Water, Sediment, Phytoplankton, Zooplankton and the Benthos of Lake Michigan: A Baseline Study with Calculation of Concentrations and Build up of Radioisotopes in the Food Web. Ann Arbor, Michigan: Environmental Research Group. pp 271.
Dahlberg, E. C.: 1968, ‘Application of a selective simulation and sampling techniques to interpretation of stream sediments copper anomalies near South Mountains’, Pa. Econ. Goel. 63, 409–417.
Datta, D. K. and Subramanian, V.: 1998, ‘Distribution and fractionation of heavy metals in the surface sediments of the Ganges-Brahmaputra-Meghna river system in the Bengal basin’, Environ. Geol. 36(1–2), 93–101.
Davidson, C. M., Thomas, R. P., Mcvey, S. E., Perala, R., Littlejohn, D. and Ure, A. M.: 1994, ‘Evaluation of sequential extraction procedure for the speciation of heavy metals in the sediments’, Analytica Chemica Acta. 291, 277–286.
Förstner, U. and Wittmann, W.: 1981, Metal pollution in the aquatic environment. Springer, Berlin Heidelberg, New York.
Fytianos, A. and Lourantou, A.: 2004, ‘Speciation of elements in sediment samples collected at lakes Volvi and Koronia, N. Grerce’, Environ. Intern. 30, 11–17.
Garrel, R. M., Mackenzie, F. T. and Hunt, C.: 1975, Chemical cycles and the Global Environment–assessing human influences. C.A. William Kaufman Co.
Gibbs, R. J.: 1977, ‘Transport phases of transition metals in the Amazon and Yukon Rivers’, Goel. Soc. Amer. Bull. 88, 829–843.
Griffiths, J. C.: 1967, Scientific Methods in Analysis of Sediments. Mc Graw Hill, New York.
Gutiérrez, M., Neill, H. and Grand, R. V.: 2004, ‘Metals in sediments of springs and cave streams as environmental indicators in karst areas’, Environ. Geol. 46, 1079–1085.
Iyenger, S. S., Martens, D. C. and Miller, W. P.: 1981, ‘Distribution and plant availability of soil zinc fractions’, Soil Sci Soc. Am. J. 45, 735–739.
Jenne, F. A.: 1968, ‘Controls of Mn, Fe, Co, Ni, Cu and Zn concentrations in the soils and water: The significance of hydrous Mn and Fe oxides’, in: R. F. Gould (ed.), Trace in Organics in the Waters, Advances in Chemistry Series 73, Washington DC, American Chemistry Society, pp 337– 387.
Jones, B. and Turki, A.: 1997, ‘Distribution and speciation of heavy metals in surfacial sediments from Tees Estuary, North-East England’, Marine Pollution Bulletin 34, 768–779.
Kotoky, P., Bora, B. J., Baruah, J. Baruah and Borah, G. C.: 2004, ‘Chemical fractionation of heavy metals in soils around oil installations, Assam’, Chem. Speciat. Bioavail. 15(4), 115–126.
Leleyter, L. and Probst, J. L.: 1999, ‘A new sequential extraction procedure for the speciation of particulate trace elements in the river sediments,’ J. Environ. Anal. Chem. 73, 109–128.
Li, X. D., Wai, O. W. H., Li, Y. S., Coles, B. J., Ramsey, M. H. and Thornton, I.: 2000, ‘Heavy metal distribution in the sediment profiles of the Pearl River Estuary, South China’, Appl. Geochem. 15, 567–581.
LopezSanchez, J. F., Rubio, R., Samitier, C. and Rauret, G.: 1996, ‘Trace metal partitioning in marine sediments and sludges deposited off the coast of Barcelona (Spain)’, Wat. Res. 30, 153–159.
Loska, K. and Wiechula, D.: 2002, ‘Speciation of Cd in the bottom sediments of Rubnik reservoir’, Water, Air and soil Pollution 141, 73–89.
Mcbride, M. B.: 1994, Environmental Chemistry of Soils. Oxford University Press, New York.
Panda, D., Subramanian, V. and Panigrahy, R. C.: 1995, ‘Geochemical fractionation of heavy metals in Chilka Lake (East Coast of India) – a tropical Coastal lagoon’, Environmental Geology 26, 199–210.
Paropkari, A. Z., Topgi, R. S., Rao, C. M. and Murthy, P. S. N.: 1980, ‘Distribution of Fe, Mn, Ni, Co, Cu and Zn in non-lithogenous fractions of sediments of Gulf of Kutch’, Indian J. Mar. Sci. 9, 54–56.
Petersen, W., Wallmann, K., Li, P. L., Schroeder, F. and Knauth, H. D.: 1995, ‘Exchange of trace elements of the sediment–water interface during early diagenic processes’, Marine and Fresh Water Research 46, 19–26.
Ramanathan, A. L., Vaithiyanathan, P., Subramanian, V. and Das, B. K.: 1993, ‘Geochemistry of the Cauvery Estuary, East Coast of India’, Estuaries 16(3), 459–474.
Ramesh, R., Subramanian, V., Van Grieken, R. and Van't Dack, L.: 1989, ‘The elemental chemistry of sediments in the Krishna basin’, Chem. Geol. 74, 331–341.
Sahuquillo, A., Lopez-J. F., Rubio, R., Rauret, G., Thomas, R. P. and Davidson: 1999, ‘Use of a certified reference material for extractable trace metals to assess sources of uncertainty in the BCR three stage sequential extraction procedure’, Analytica Chimica Acta. 382, 317–327.
Schuman, L. M.: 1985, ‘Fractionation methods for soil microelements’, Soil Sci. 140, 11–22.
Singh, S. K. and Subramanian, V.: 1984, ‘Hydrous Fe and Mn oxides-scavengers of heavy metals in the aquatic environment’, CRC Crit. Rev. Environ. Control 14(1), 33–90.
Sterckman, A. and Gomez, A.: 1996, ‘Soil and waste analysis for environmental risk assessment in France’, Sci. Total Environ. 178, 63–69.
Subramanian, V., Van't Dack, L. and Van Grieken, R.: 1985, ‘Chemical composition of river sediments from the Indian subcontinent’, Chem. Geol. 48, 271–279.
Szefer, P., Kusak, A., Szefer, K., Glasby, G. P., Jankowska, H., Wolowicz, M. and Ali, A. A.: 1998, ‘Evaluation of the anthropogenic influx of metallic pollutants into Puck Bay, Southern Baltic’, Applied Geology 13, 293–304.
Tessier, A., Campbell, P. G. C. and Bisson, M.: 1979, ‘Sequential extraction procedure for the speciation of trace metals’, Analytical Chemistry 51(7), 844–861.
Todorovic, Z., Polic, P., Djordjevic, D. and Antonijevic, S.: 2001, ‘Lead distribution in water and its association with sediment constituents of the “Barje” lake (Leskovac, Yugoslavia)’, J. Serb. Chem. Soc. 66(10), 697–708.
Warren, L. J.: 1981, ‘Contamination of sediments by lead, zinc and cadmium – a review’, Environ. Pollut. Ser. 2, 401–436.
Wu, J., Laird, D. A. and Thompson, M. L.: 1999, ‘Sorption and desorption of copper on soil clay components’, J. Envir. Qual. 28, 334–338.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Prasad, M.B.K., Ramanathan, A.L., Shrivastav, S.K. et al. Metal Fractionation Studies in Surfacial and Core Sediments in the Achankovil River Basin in India. Environ Monit Assess 121, 77–102 (2006). https://doi.org/10.1007/s10661-005-9108-2
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10661-005-9108-2