Abstract
The problems of contamination caused by arsenic (As) and other toxic metals in groundwater, surface water and soils in the Bengal basin of Bangladesh have been studied. Altogether 10 groundwater, seven surface water and 31 soil samples were collected from arsenic-affected areas and analysed chemically. The geologic and anthropogenic sources of As and other toxic metals are discussed in this paper. The chemical results show that the mean As concentrations in groundwater in the Char Ruppur (0.253 mg As L−1), Rajarampur (1.955 mg As L−1) and Shamta areas (0.996 mg As L−1) greatly exceed the WHO recommended value, which is 0.01 mg As L−1. The concentrations of As in groundwater are very high compared to those in surface water and in surface soil in the three (As-affected) areas studied. This indicates that the source of As in groundwater could be bedrock. The relatively high concentrations of Cr, Cu, Ni, Pb and Zn in surface water, compared to world typical value, are due to the solubility of metal ions, organometalic complexes, coprecipitation or co-existance with the colloidal clay fraction. In the soil, the elevated concentrations of As, Cr, Cu, Ni, Pb and Zn are due to their strong affinity to organic matter, hydrous oxides of Fe and Mn, and clay minerals.
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Alam, M.: 1989, Geology and depositional history of Cenozoic sediments of the Bengal basin of Bangladesh, Palaeogeography, Palaeoclimatology, Palaeoecology 69, 125-139.
Balditine, M.I.: 1977, Major tectonic features of Pakistan, Part II. East Provincial science of India 4(2), 89-100.
Banerji, R.K.: 1981, Cretaceous-Eocene sedimentation, tectonism and bio-facies in the Bengal basin, India, Palaeogeography, Palaeoclimatology, Palaeoecology 34, 57-85.
Banerji, R.K.: 1984, Post-Eocene bio-facies, palaeoenvironments and alaeogeography of the Bengal basin, India, Palaeogeography, Palaeoclimatology, Palaeoecology 45(1), 49-74.
Borgono, J.M., Vincent, P., Venturino, H. and Infante, A.: 1977, Arsenic in the drinking water of the city of Antofagasta: epidemiological and clinical study before and after the installation of treatment plant, Environmental Health Perspectives 19, 103-105.
Chen, C-J., Kuo, T.-L. and Wu, M.-M.: 1988, Arsenic and cancers. The Lancet 1, 414-415.
Chen, C.W., Wu, M.-M. and Kuo, T.-L.: 1992, Cancer potential in liver, lung, bladder and kidney due to ingested inorganic arsenic in drinking water, British Journal of Cancer 66, 888-892.
Das, D., Samanta, G., Mandal, B.K., Chowdhury, T.R., Chanda, C.R., Chowdhury, P.P., Basu, G.K. and Chakraborti, D.: 1996, Arsenic in groundwater in six districts of West Bengal, India, Environmental Geochemistry and Health 18,5-15.
Erviö, R. and Palko, J.: 1984, Macronutrient and micronutrient status of cultivated acid sulphate soils at Tupos, Finland, Annales Agriculturae Fenniae 23, 121-134.
Goldschmidt, V.M.: 1954, Geochemistry, Clarendon, Oxford, 730 pp.
Guha, D.K.: 1978, Tectonic frame work and oil and gas prospects of Bangladesh, in: 4th Annual Conference Procedings, Bangladesh Geological Society, Dhaka, pp. 65-76.
Halonen, O., Tulkki, H. and Derome, J.: 1983, Nutrient analysis methods, Metsäntutkimuslaitoksen tiedonantoja 121, 28.
Islam, Md. R.: 1996, The ancient weathering crust in Finnish Lapland and the recent weathering crust in Banladesh-a comparison, Acta University of Oulu. A285, 129 (Ph.D. diss.).
Islam, M.A. and Miah, M.M. (eds.): 1981, Bangladesh in Maps, University of Dhaka, Bangladesh, 77 pp.
Irgolic, K.T., Greschonig, H. and Howard, A.G.: 1995, Arsenic. In: Analyst the Encyclopedia of Analytical Science, Academic, London.
Kabata-Pendias, A. and Pendias, H.: 1984, Trace Elements in Soils and Plants, CRC, Boca Raton, 315 pp.
Kähkönen, A.-M. 1996, The geochemistry of podzol soils and its relation to lake water chemistry, Finnish Lapland, Geological Survey of Finland, Bulletin, 385, 89 pp.
Khan, M.A.M.: 1980, A brief account of the geology and hydrocarbon exploration in Bangladesh, in: Offshore South East Asia Conference, February 1980, Singapoore, SEAPEX Session, 6 pp.
Khan, M.R. and Mominullah, M: 1980, Stratigraphy of Bangladesh, in: Petroleum and Mineral Resources of Bangladesh, Seminar and Exhibition, Dhaka, October 1980, pp. 35-40.
Mazumder, D.N.G., Chakraborty, A.K., Ghose, A., Jupta, J.D., Chakraborty, D.P., Dey, S.B. and Chattopadhyay, N.: 1988, Chronic arsenic toxicity from drinking tubewell water in rural West Bengal, Bulletin, WHO 66, 499-506.
Morgan, J.P. and McIntire, W.G.: 1959, Quaternary geology of the Bengal basin, Geological Society of America Bulletin 70(3), 319-341.
Nriagu, J.O., Wong, H.K.T. and LaZerte, B.D.: 1987, Aluminium speciation in pore waters of some lake sediments, in: Proceedings of the Conference on Heavy Metals in the Environment, New Orleans, CEP Consultants Ltd., Edinburgh, vol. 1, pp. 113-117.
Onishi, H.: 1969, in: K.H. Wedepohl (ed.) Hand book of Geochemistry, vol. II(2), Springer, New York.
Page, A.L., Miller, R.H. and Keeney, D.R.: 1982, Methods of soil analyses, Part 2. Chemical and Microbiological properties, Agronomy 9(2), 1159, American Society of Agronomy, Madison, WI.
Paul, D.D. and Lian, H.M.: 1975, Offshore Tertiary basins of South-East Asia: Bay of Bengal to South China sea, 9th World Petroleum Congress 3, 107-121.
Peterson, P.J., Girling, C.A., Benson, L.M. and Zeive, R.: 1981, Chapter 8:Metalloids, in: N.W. Lepp (ed.): Effect of Heavy Metals Pollution on Plants, Applied Science Publishers, London, vol. 1, p. 213 ff, esp. pp. 299-322.
Raju, A.T.R.: 1968, Geological evolution of Assam and Cambay Tertiary basins of India, American Association of Petroleum Geology Bulletin 52(12), 2422-2431.
Rashid, H.: 1977, Geography of Bangladesh, University Press Limited, Dhaka, 579 pp.
Dhar, R.K., Biswas, B.K., Samanta, G., Mandal, B.K., Chakraborti, D., Roy, S., Jafar, A., Islam, A., Ara, G., Kabir, S., Wadud Khan, A., Akther Ahmed, S. and Abdul Hadi, S.: 1997, Groundwater arsenic calamity in Bangladesh, Current Science 73(1), 48-59.
Reimann, K.-U.: 1993, Geology of Bangladesh, Gebruder Borutraeger, Berlin, Stuttgart, 160 pp.
Salminen, R., Kukkonen, M., Paukola, T. and Töllikkö, S.: 1997, Chemical composition of clays in southwestern Finland, Geological Survey of Finland, Special Paper 23, 117-126.
Samad, A.M.M.: 1986, Groundwater quality in the coastal areas of Bangladesh, Bangladesh Journal of Geology 5, 11-18.
Savory, J. and Wills,M.R.: 1984, Arsenic. In: E. Merian (ed.) Metalle in der Ummell, Verlag Chemie, Weinheim-Deerfirid Beach/Florida Basel, pp. 315-334.
Sengupta, S.: 1966, Geological and geophysical studies in western part of Bengal basin, India, American Association of Petroleum Geologist Belletin 50(5), 1001-1018.
School of Environmental Studies, Jadavpur University, Calcutta-700032, India: 1991, Groundwater arsenic contamination episode in five districts of West Bengal-A preliminary study, p. 32.
Statistical Year Book of Bangladesh: 1991, Bangladesh Beurau of Statistics, Dhaka, 729 pp.
Takamatsu, T., Aoki, H. and Yoshida, T.: 1982, Determination of arsenite, nomethylarsinate and dimethylarsinate in soil polluted with arsenic, Soil Science 133, 239-246.
Tseng, W.P.: 1977, Effects of dose-response relationships on skin cancer and blackfoot disease with arsenic, Environmental Health Perspectives 19, 109-119.
Tseng, W.P., Chu, H.M., How, S.W., Fong, J.M., Lin, C.S. and Yeh, S.: 1968, Prevalence of skin cancer in an epidemic area of chronic arsenism in Taiwan, JNCL 40, 435-463.
Wedepohl, K.H. (executive editor): 1969-1979, Handbook of Geochemistry, vols I and II, 1-5, Springer-Verlag, Berlin.
WHO (World Health Organization): 1993, Guidelines for Drinking Water Quality, Geneva, vol.1, 183 pp.
Zaher, M.A. and Rahman, A.: 1980, Prospects and investigations for minerals in the northern part of Bangladesh. In: Petroleum and Mineral Resources of Bangladesh, Seininar and Exhibition, Dhaka, October 1980, pp. 9-18.
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Islam, M.R., Salminen, R. & Lahermo, P.W. Arsenic and other toxic elemental contamination of groundwater, surface water and soil in Bangladesh and its possible effects on human health. Environmental Geochemistry and Health 22, 33–53 (2000). https://doi.org/10.1023/A:1006787405626
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DOI: https://doi.org/10.1023/A:1006787405626