Abstract
A total of 16 people died and over 500 people were hospitalized due to diarrhoeal illness in the Bholakpur area of Hyderabad, India on 6th May 2009. A study was conducted with immediate effect to evaluate the quality of municipal tap water of the Bholakpur locality. The study consists of the determination of physico-chemical properties, trace metals, heavy metals, rare earth elements and microbiological quality of drinking water. The data showed the variation of the investigated parameters in samples as follows: pH 7.14 to 8.72, EC 455 to 769 μS/cm, TDS 303.51 to 515.23 ppm and DO 1.01 to 6.83 mg/L which are within WHO guidelines for drinking water quality. The water samples were analyzed for 27 elements (Li, Be, B, Na, Mg, Al, Si, K, Ca, V, Cr, Mn, Fe, Ni, Co, Cu, Zn, As, Se, Rb, Sr, Mo, Ag, Cd, Sb, Ba and Pb) using inductively coupled plasma-mass spectrometry (ICP-MS). The concentrations of Fe (0.12 to 1.13 mg/L), Pb (0.01 to 0.07 mg/L), Cu (0.01 to 0.19 mg/L), Ni (0.01 to 0.15 mg/L), Al (0.16 to 0.49 mg/L), and Na (38.36 to 68.69 mg/L) were obtained, which exceed the permissible limits of the World Health Organization (WHO) for drinking water quality guidelines. The remaining elements were within the permissible limits. The microbiological quality of water was tested using standard plate count, membrane filtration technique, thermotolerant coliform (TTC), and most probable number (MPN) methods. The total heterotrophic bacteria ranged from 1.0 × 105 to 18 × 107 cfu/ml. Total viable bacteria in all the water samples were found to be too numerable to count and total number of coliform bacteria in all water samples were found to be of order of 1,100 to >2,400 MPN index/100 ml. TTC tested positive for coliform bacteria at 44.2°C. All the water samples of the study area exceeded the permissible counts of WHO and that (zero and minimal counts) of the control site (National Geophysical Research Institute) water samples. Excessively high colony numbers indicate that the water is highly contaminated with microorganisms and is hazardous for drinking purposes. Bacteriological pollution of drinking water supplies caused diarrhoeal illness in Bholakpur, which is due to the infiltration of contaminated water (sewage) through cross connection, leakage points, and back siphoning.
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References
APHA (1985). Standard Methods for the Examination of water and waste (16th edn.).Washington, DC: American Public Health Association.
APHA (1998). Standards Methods for the Examination of water and wastewater (20th edn.). Washington, DC: American Public Health Association.
Ashbolt, N. J., Grabow, W. O., & Snozzi, M. (2001). Indicators of Microbial water quality. pp. 289–316.
Blatchley, E. R., Gong, W. L., Alleman, J. E., Rose, J. B., Huffman, D. E., Otaki, M., et al. (2007). Effects of waste water disinfection on waterborne bacteria and viruses. Water Environment Research, 79, 81–92.
Daniels, N. A., Neimann, J., Karpati, A., Parashar, U. D., Greene, K. D., Wells, J. G. , et al. (2000). Traveller’s diarrhea at sea: three outbreaks of waterborne enterotoxigenic Escherichia coli on cruise ships. Journal of Infectious Diseases, 181, 1491–1495.
Datta, N. (1975). Epidemiology and classification of plasmids. In D. Schlessinger (ed.), Microbiology-1974. Washington, D.C.: American Society for Microbiology pp. 9–15.
Derlet, R. W., & Carlson, J. R. (2006). Coliform bacteria in Sierra Nevada Wilderness Lakes and Streams: What is the impact of backpackers, pack animals and cattle? Wilderness & Environmental Medicine, 17, 15–20.
Dieter, H. H., & Muckter, H. (2007). Assessment of so called organic trace compounds in drinking water from the regulatory, health and aesthetic-quality points of view, with special consideration given to pharmaceuticals. Bundesgesundheitsblatt Gesundheitsforschung Gesundheitsschutz, 50, 322–331.
Edberg, S. C., Rice, E. W., Karlin, R. J., & Allen, M. J. (2000). Escherichia coli: the best biological drinking water indicator for public health protection. Society for Applied Microbiology Symposium Series, 29, 106S–116S.
Edrington, T. S., Looper, M. L., Duke, S. E., Callaway, T. R., Genovese, K. J., Anderson, R. C., et al. (2006). Effect of Ionophore supplementation on the incidence of Escherichia coli O157:H7 and Salmonella and anti-microbial susceptibility of fecal coliforms in Stocker Cattle. Food borne Pathogens Disease, 3(3), 284–291.
Fleischer, M., Sarofim, A. F., Fassett, D. W., Hammond, P., Shacklette, H. T., Nisbet, I. C. T., et al. (1974). Environmental impact of cadmium, a review by the panel on the hazardous traces substance. Environmental Health Perspectives, 7, 253–323.
Friberg, L., Piscator, M., Nordberg, G. F., & Kjellstrom, T. (1974). Cadmium in the environment (2nd edn.). Cleveland: CRC, p. 248.
Gardner, M. J., & Gunn, A. M. (1995). Speciation and bioavailability of aluminium in drinking water. Chemical Speciation and Bioavailability, 7, 9–16.
Ghosh, A., Singh, A., Ramteke, P., & Singh, V. (2000). Characterization of large plasmids encoding resistance to toxic heavy metals in Salmonella abortus equi. Biochemical and Biophysical Research Communications, 272, 6–11.
Huerta, M., Grotto, I., Gdalevich, M., Mimouni, D., Gavrieli, B., Yavzori, M., et al. (2000). A waterborne outbreak of gastroenteritis in the Golan Heights due to enterotoxigenic Escherichia coli. Infection, 28, 267–271.
International Organization for Standardization (2000). Water quality—detection and enumeration of Escherichia coli and coliform bacteria. Part 1. Membrane filtration method (ISO 9308-1:2000). Geneva: International Organization for Standardization.
ISI (1983). Indian Standard Specification for drinking water. New Delhi: Indian Standards Institute.
Knobeloch, L. (1994). Gastrointestinal upsets associated with ingestion of copper-contaminated water. Environmental Health Perspectives, 102(11), 958–961.
Lang, S., Fewtrell, L., & Bartram, J. (2001). Risk communication. WHO, IWA.
Lessard, R., Reed, D., Maheux, B., & Lambert, J. (1978). Lung cancer in New Caledonia, a nickel smelting island. Journal of occupational Medicine, 20, 815–817.
Mallin, M. A., Cahoon, L. B., Toothman, B. R., Parsons, D. C., McIver, M. R., Ortwine, M. L., et al. (2007). Impacts of a raw sewage spill on water and sediment quality in an urbanised estuary. Marine Pollution Bulletin, 54, 81–88.
McQuaig, S. M., Scott, T. M., Harwood, V. J., Farrah, S. R., & Lukasik, J. O. (2006). Detection of human-derived faecal pollution in environmental waters by use of a PCR-based human polyomavirus assay. Applied and Environmental Microbiology, 72, 7567–7574.
Moore, J. W., & Ramamoorthy, S. (1984). Heavy metals in natural waters. Applied Monitoring and Impact Assessment. New York : Springer, pp. 1–268.
O’Mahony, M. C., Noah, N. D., Evans, B., Harper, D., Rowe, B., Lowes, J. A., et al. (1986). An outbreak of gastroenteritis on a passenger cruise ship. Journal of Hygiene, 97, 229–236.
Papini, P., Faustini, A., Manganello, R., Borzacchi, G., Spera, D., & Perucci, C.A. (2005). Monitoring microbiological safety of small systems of water distribution. Comparison of two sampling programs in a town in Central Italy. Epidemiologia e Prevenzione, 29, 259–263.
Parry, J. (2009). Metal smelting plants poison hundreds of Chinese children. British Medical Journal, 339, b3433.
Paul, R. (2003). Hunter Drinking water and diarrhoeal disease due to Escherichia coli. Journal of Water and Health, 1, 2.
Peeler, K. A., Opsahl, S. P., & Chanton, J. P. (2006). Tracking anthropogenic inputs using caffeine, indicator bacteria and nutrients in rural freshwater and urban marine systems. Environmental Science & Technology, 40, 7616–7622.
Pillai, K. C. (1983). Heavy metals in aquatic environment, Water pollution and management (Varshey C.K.). New Delhi: Wiley, pp. 74–93.
Rasheed, M. A., Srinivasa Rao, P. L., Anuradha, B., Lakshmi, M., & Dayal, A. M. (2011). Assessment of Groundwater Quality using ICP-MS in the eastern region of Adilabad District, Andhra Pradesh, India. Journal of Environmental Protection and Ecology, 12. (in press).
Ribeiro Dias, J.C., Vicente, A.C. & Hofer, E. (1987). Fecal coliforms in sewage waters. I. Resistance to antibiotics, heavy metals and colicinogeny. MemoÂrias do Instituto Oswaldo Cruz, 82(3), 335–343.
Rivera, S. C., Hazen, T. C., & Toranzos, G. A. (1988). Isolation of fecal coliforms from pristine sites in a tropical rain forest. Applied and Environmental Microbiology, 54, 513–517.
Ryu, H., Alam, A., & Abbaszadegan, M. (2005). Microbial characterization and population changes in nonpotable reclaimed water distribution systems. Environmental Science and Technology, 39, 8600–8605.
Smith, D. H. (1967). R factors mediate resistance to mercury, nickel, and cobalt. Science, 156, 1114–1116.
Stenhammar, L. (1999). Diarrhoea following contamination of drinking water with copper. European Journal of Medical Research, 4, 217–218.
The Hindu New Paper (2009). Polluted water claims lives at the Bholakpur. India’s National Newspaper, Wednesday, May 06.
Thompson, T., & Khan, S. (2003). Situation analysis and epidemiology of infectious disease transmission: a South-Asian regional perspective. International Journal of Environmental Health Research, 1, S29–S39.
Trevett, A. F., Carter, R., & Tyrrel, S. (2004). Water quality deterioration: A study of household drinking water quality in rural Honduras. International journal of Environmental Health Research, 14, 273–283.
Trieff, N. M. (1980). Environmental and health. Michigan, Ann Arbor: Science, p. 652.
Trivedi, R. K. , & Goel, P. K. (1986). Chemical and biological methods for water pollution studies. Environmental Publication, Karad 415110. India. UNEP. 2001. State of the Environment Nepal. United Nations.
Underwood, E. J. (1977). Trace element in human nutrition. New York: Academic.
USEPA (1999). National primary drinking water regulation. United States Environmental Protection Agency.
Watanabe, T. (1971). Infectious drug resistance in bacteria. Current Topics in Microbiology and Immunology, 56, 43–98.
Watts, J. (2009). Lead poisoning cases spark riots in China. Lancet, 374(9693), 868.
WHO (1972). Health hazards of human environment. Geneva: WHO.
WHO (1980). Escherichia Coli Diarrhoea, WHO Scientific Working Group1. Bulletin of the WHO, 58(1), 23–36.
WHO (1984). Guidelines for drinking water quality. Geneva.
WHO (1993). Guidelines for drinking water quality (2nd edn., Vol. 1). Recommendations. Geneva: World Health Organisation. ISBN 94-4-154503.
WHO (2003). Emerging issues in water and infectious disease. Geneva: World Health Organization.
WHO (2004). Guidelines for drinking water quality. Vol. 1.
WHO (2006). Water sanitation and health. Geneva.
WHO/UNICEF (2000). Global water supply and sanitation assessment report. Geneva: World Health Organisation. ISBN 944156201.
WHO/UNICEF (2004). Meeting the MDG drinking water and sanitation: A mid-term assessment of progress. Geneva: WHO/UNICEF. ISBN 9241562781.
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Abdul, R.M., Mutnuri, L., Dattatreya, P.J. et al. Assessment of drinking water quality using ICP-MS and microbiological methods in the Bholakpur area, Hyderabad, India. Environ Monit Assess 184, 1581–1592 (2012). https://doi.org/10.1007/s10661-011-2062-2
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DOI: https://doi.org/10.1007/s10661-011-2062-2