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Environmental Earth Sciences

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01.01.2011 | Original Article

Temporal variations in arsenic concentration in the groundwater of Murshidabad District, West Bengal, India

verfasst von: S. H. Farooq, D. Chandrasekharam, S. Norra, Z. Berner, E. Eiche, P. Thambidurai, D. Stüben

Erschienen in: Environmental Earth Sciences | Ausgabe 2/2011

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Abstract

Systematic investigations on seasonal variations in arsenic (As) concentrations in groundwater in both space and time are scarce for most parts of West Bengal (India). Hence, this study has been undertaken to investigate the extent of As pollution and its temporal variability in parts of Murshidabad district (West Bengal, India). Water samples from 35 wells were collected during pre-monsoon, monsoon and post-monsoon seasons and analyzed for various elements. Based on the Indian permissible limit for As (50 μg/L) in the drinking water, water samples were classified into contaminated and uncontaminated category. 18 wells were reported as uncontaminated (on average 12 μg/L As) and 12 wells were found contaminated (129 μg/L As) throughout the year, while 5 wells could be classified as either contaminated or uncontaminated depending on when they were sampled. Although the number of wells that alternate between the contaminated and uncontaminated classification is relatively small (14%), distinct seasonal variation in As concentrations occur in all wells. This suggests that investigations conducted within the study area for the purpose of assessing the health risk posed by As in groundwater should not rely on a single round of water samples. In comparison to other areas, As is mainly released to the groundwater due to reductive dissolution of Fe-oxyhydroxides, a process, which is probably enhanced by anthropogenic input of organic carbon. The seasonal variation in As concentrations appear to be caused mainly by dilution effects during monsoon and post-monsoon. The relatively high concentrations of Mn (mean 0.9 mg/L), well above the WHO limit (0.4 mg/L), also cause great concern and necessitate further investigations.

Nächster Artikel Stability assessment and characterization of colloids in coastal groundwater aquifer system at Kalpakkam

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Acharyya SK, Shah BA, Ashyiya ID, Panday Y (2005) Arsenic contamination ion groundwater from parts of Ambagarh chowki block, Chattisgarh, India: source and release mechanism. Environ Geol 49:148–158CrossRef

Ahamed S, Sengupta MK, Mukharjee A, Hossain AM, Das B, Nayak B, Pal A et al (2006) Arsenic groundwater contamination and its health effects in the state of Uttar Pradesh (UP) in upper and middle Ganga plain, India: a severe danger. Sci Total Environ 370:310–322CrossRef

Ahmed KM, Bhattacharya P, Hasan MA, Akhter SH, Alam SMM, Bhuyian MAH, Imam MB, Khan AA, Sracek O (2004) Arsenic enrichment in groundwater of the alluvial aquifers in Bangladesh: an overview. Appl Geochem 19:181–200CrossRef

Ahmed S, Sayed MHS, Khan MH, Karim MN, Haque MA, Bhuiyan MSA, Rahman MS, Faruquee MH (2007) Sociocultural aspects of arsenicosis in Bangladesh: community perspective. J Environ Sci Health A 42:1945–1958CrossRef

Appelo CAJ, van der Weiden MH, Tournassat C, Charlet L (2002) Surface complexation of ferrous ion and bicarbonate on ferrihydrite and the mobilization of arsenic. Environ Sci Technol 36:3096–3103CrossRef

Arnold HL, Odam RB, James WD (1990) Disease of the skin: clinical dermatology, 8th edn. WB Saunders, Philadelphia, p 121

Bagla P, Kaiser J (1996) India’s spreading health crisis draws global arsenic experts. Science 274(5285):174–175CrossRef

Baker WE (1973) The role of humic acids from Tasmanian podzolic soils in mineral degradation and metal mobilization. Geochim Cosmochim Acta 37:269–281CrossRef

Bauer M, Blodau C (2006) Mobilization of arsenic by dissolved organic matter from iron oxides, soils, and sediments. Sci Total Environ 354:179–190CrossRef

Berg M, Tran HC, Nguyen TC, Pham HV, Schertenleib R, Giger W (2001) Arsenic contamination of groundwater and drinking water in Vietnam: a human health threat. Environ Sci Technol 35:2621–2626CrossRef

BGS and DPHE (2001) Arsenic contamination of groundwater in Bangladesh, vol 2. Final Report, BGS Technical Report WC/00/19

Bhattacharjee S, Chakravarty S, Maity S, Dureja V, Gupta KK (2005) Metal contents in the groundwater of Sahebganj district, Jharkhand, India, with special reference to arsenic. Chemosphere 58:1203–1217CrossRef

Bhattacharya P, Chatteriee D, Jacks G (1997) Occurrence of arsenic contaminated groundwater in alluvial aquifers from the Delta Plains, eastern India: options for safe drinking water supply. Int J Water Resour Manag 13:79–92CrossRef

Bhattacharya P, Jacks G, Ahmed KM, Khan AA, Routh J (2002) Arsenic in groundwater of the Bengal Delta Plain aquifers in Bangladesh. Bull Environ Contam Toxicol 69:538–545CrossRef

Chakraborti D, Das D, Samanta BK, Mandal BK, Chowdhury RT, Chanda CR, Chowdhury PP, Basu GK (1996) Arsenic in groundwater in six districts of West Bengal, India. Environ Geochem Health 18:5–15CrossRef

Chakraborti D, Biswas BK, Basu GK, Mandal BK, Chowdhury UK, Mukherjee S, Gupta SD, Chaudhury SR, Rathore KC (1999) Arsenic groundwater contamination and sufferings of people in Rajnandgaon district, Madhya Pradesh, India. Curr Sci 77:502–504

Chakraborti D, Mukherjee SC, Pati S, Sengupta MK, Rahman MM, Chaudhury UK et al (2003) Arsenic groundwater contamination in Middle Ganga plain, Bihar, India: a future danger. Environ Health Prospect 111:1194–1201CrossRef

Chandrasekharam D, Karmakar J, Berner Z, Stuben D (2001) Arsenic contamination in groundwater, Murshidabad district, West Bengal. In Cidu A (ed) Proceedings of the 10th international symposium on water-rock interaction, vol 2, pp 1051–1054

Chatterjee A, Das D, Mandal B (1995) Arsenic in groundwater of six districts of West Bengal: the biggest arsenic calamity in the world. Part 1. Arsenic species in drinking water and urine of affected people. Analyst 120:640–650CrossRef

Chen CJ, Wu MM, Lee SS, Wang JD, Cheng SH, Wu HY (1988) Atherogenicity and carcinogenicity of high-arsenic artesian well water: multiple risk factors and related malignant neoplasms of blackfoot diseases. Arteriosclerosis 8:452–460

Chen CJ, Chiou HY, Chiang MH, Lin LJ, Tai TY (1996) Dose-response relationship between ischemic heart disease mortality and long-term arsenic exposure. Arterioscler Thromb Vasc Biol 16(4):504–510

Cheng Z, van Geen A, Seddique AA, Ahmed KM (2005) Limited temporal variability of arsenic concentrations in 20 wells monitored for 3 years in Araihazar, Bangladesh. Environ Sci Technol 39:4759–4766CrossRef

Das D, Chatterjee A, Samanta G, Mandal B, Chowdhury TR, Samanta G, Chowdhury PP, Chanda C, Basu G, Lodh D, Nandi S, Chakraborty T, Mandal S, Bhattacharya SM, Chakraborti D (1994) Arsenic contamination in ground water in six districts of West Bengal: the biggest arsenic calamity in the world. Analyst 119:168–170CrossRef

Das D, Samanta G, Mandal BK, Chowdhury TR, Chanda CR, Chowdhury PP, Basu GK, Chakraborti D (1996) Arsenic in groundwater in six districts of West Bengal, India. Environ Geochem Health 18:5–15CrossRef

Dhar RK, Zheng Y, Stute M, van Geen A, Cheng Z, Shanewaz M, Shamshudduha M, Haque MA, Rahman MW, Ahmed KM (2008) Temporal variability of groundwater chemistry in shallow and deep aquifers of Araihazar, Bangladesh. J Contam Hydrol 99:97–111CrossRef

Eiche E, Neumann T, Berg M, Weinman B, van Geen A, Norra S, Berner Z, Pham TKT, Pham HV, Stüben D (2008) Geochemical processes underlying a sharp contrast in groundwater arsenic concentrations in a village on Red River Delta, Vietnam. Appl Geochem 23:3143–3154CrossRef

Harvey CH, Swartz C, Badruzzaman ABM, Keon-Blute N, Yu W, Ali MA, Jay J, Beckie R, Niedan V, Brabander D, Oates P, Ashfaque KN, Islam S, Hemond HF, Ahmed MF (2002) Arsenic mobility and groundwater extraction in Bangladesh. Science 298:1602–1606CrossRef

Kalbitz K, Wennrich R (1998) Mobilization of heavy metals and arsenic in polluted wetland soils and its dependence on dissolved organic matter. Sci Total Environ 209:27–39CrossRef

Karim M (2000) Arsenic in groundwater and health problems in Bangladesh. Water Resour 34:304–310CrossRef

Kim MJ, Nriagu J, Haack S (2000) Carbonate ions and arsenic dissolution by groundwater. Environ Sci Technol 34:3094–3100CrossRef

Kinniburgh DG, Smedley PL (2001) Arsenic contamination of groundwater in Bangladesh, vol 2. Final Report, British Geological Survey, BGS Technical Report No WC/00/19

McArthur JM, Banerjee DM, Hudson-Edwards KA, Mishra R, Purohit R, Ravenscroft P, Cronin A, Howarth RJ, Chatterjee A, Talukder T, Lowry D, Houghton S, Chadha DK (2004) Natural organic matter in sedimentary basins and its relation to arsenic in anoxic ground water: the example of West Bengal and its worldwide implications. Appl Geochem 19:1255–1293CrossRef

National Research Council (1999) Arsenic in drinking water. National Academy Press, Washington, DC

Nickson RT, McArthur JM, Ravenscroft P, Burgess WG, Ahmed KM, Rahman M (1998) Arsenic poisoning of Bengal groundwater. Nature 395:338CrossRef

Nickson RT, McArthur JM, Ravenscroft P, Burgess WG, Ahmed KM (2000) Mechanism of arsenic release to groundwater, Bangladesh and West Bengal. Appl Geochem 15:403–413CrossRef

Norra S, Berner Z, Aggarwala P, Wagner F, Chandrasekharam D, Stüben D (2005) Impact of irrigation with As-rich groundwater on soil and crops: a geochemical case study in Maldah District, West Bengal. Appl Geochem 20:1890–1906CrossRef

Nriagu JO, Bhattacharya P, Mukherjee AB, Bundschuh J, Zevenhoven R, Loeppert RH (2008) Arsenic in soil and groundwater: an overview. In: Bhattacharya P, Mukherjee AB, Bundschuh J, Zevenhoven R, Loeppert R (eds) Trace metals and other contaminants in the environment. Elsevier, The Netherlands, pp 3–63

Paul AB, Kar D (2004) Ground water arsenic in Assam: a report from Brahmaputra and Barak valley. Environ Ecol 22:588–589

Ravenscroft P, McArthur JM, Hoque BA (2001) Geochemical and paleohydrological controls on pollution of groundwater by arsenic. In: Chappell W, Abernathy CO, Calderon R (eds) Arsenic exposure, heals effects (IV). Elsevier, Oxford, pp 78–83

Savarimuthu X, Hira-Smith MM, Yuan Y, von Ehrenstein OS, Das S, Ghosh N, Guha DN, Smith AH (2006) Seasonal variation of arsenic concentration in tube wells in West Bengal, India. J Health Popul Nutr 24:1–5

Sensei N, Brunetti G, La CP, Miano TM (1994) Adsorption of alachlor by humic acids from sewage sludge and amended and non-amended soils. Soil Sci 157:176–184CrossRef

Smedley PL, Kinniburgh DG (2002) A review of the source, behaviour and distribution of arsenic in natural waters. Appl Geochem 17:517–568CrossRef

Stüben D, Berner Z, Chandrasekharam D, Karmakar J (2003) Arsenic enrichment in groundwater of West Bengal, India: geochemical evidence for mobilization of As under reducing conditions. Appl Geochem 18:1417–1434CrossRef

Sun G (2004) Arsenic contamination and arsenicosis in China. Toxicol Appl Pharmacol 198:268–271CrossRef

Sun G, Li X, Pi J, Sun Y, Li B, Jin Y, Xu Y (2006) Current research problems of chronic arsenicosis in China. J Health Popul Nutr 24(2):176–181

van Geen A, Radloff K, Aziz Z, Cheng Z, Huq MR, Ahmed KM, Weinman B, Goodbred S, Jung HB, Zheng Y, Berg M, Trang PTK, Charlet L, Metral J, Tisserand D, Guillot S, Chakraborty S, Gajurel AP, Upreti BN (2008) Comparison of arsenic concentrations in simultaneously-collected groundwater and aquifer particles from Bangladesh, India, Vietnam, and Nepal. Appl Geochem 23:3244–3251CrossRef

Wagner F, Berner ZA, Stuben D (2005) Arsenic in groundwater in Bengal Delta Plain: geochemical evidences for small scale redox zonation in the aquifer. In: Bundschuh J, Bhattacharya P, Chandrasekharam D (eds) Natural arsenic in groundwater: occurrence, remediation and management. Taylor & Francis Group, London, pp 3–15

World Health Organization (2006) Guidelines for drinking-water quality. Recommendations, vol 1, 3rd edn. World Health Organization, Geneva

Yakota H, Tanabe K, Sezaki M, Akiyoshi Y, Miyata T, Kawahara K, Tsushima S, Hironaka H, Takafuji H, Rahaman M, Ahmad SKA, Sayed MHSU, Faruquee MH (2001) Arsenic contamination of ground and pond water and water purification system using pond water in Bangladesh. Eng Geol 60:323–331CrossRef

Titel: Temporal variations in arsenic concentration in the groundwater of Murshidabad District, West Bengal, India
verfasst von: S. H. Farooq
D. Chandrasekharam
S. Norra
Z. Berner
E. Eiche
P. Thambidurai
D. Stüben
Publikationsdatum: 01.01.2011
Verlag: Springer-Verlag
Erschienen in: Environmental Earth Sciences / Ausgabe 2/2011
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI: https://doi.org/10.1007/s12665-010-0516-4

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