Distribution and Transport of Fecal Bacteria at Spring Thaw in a Rural Alaskan Community
Publication: Journal of Cold Regions Engineering
Volume 22, Issue 1
Abstract
People living without piped water and sewer can be at increased risk for diseases transmitted by the fecal-oral route. One Alaskan community that relies on hauled water and sewage was studied to determine the pathways of fecal contamination of drinking water and the human environment so that barriers can be established to protect human health. Samples were tested for the fecal indicators Escherichia coli and Enterococcus. Several samples were tested for the pathogens Giardia lamblia and Cryptosporidium parvum and source tracking methods were employed. Surface water flow transported bacteria within the community during spring thaw and human fecal contamination was detected in town, but flow from the dump did not appear to contribute to contamination in town. Within the home, fecal bacteria were found on water dippers, kitchen counters and floors, and in hand-washing basins. Giardia was found at the dump, but not in water from the river adjacent to the community. Exposure to fecal contamination could be reduced by cleaning up after dogs, carefully disposing of wastewater, and by protecting stored drinking water.
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Acknowledgments
This work was funded by USDA Grant No. ALKR-04-01, Protecting Family Drinking Water in Rural Alaska. We are very grateful to the study community, including individual volunteers, the school, and the city and traditional councils for their cooperation. Research plans were approved by the Institutional Review Board at the University of Alaska Fairbanks as the study involved human subjects.
References
Adhikari, H. (2005). “Survivability of total coliforms in freezing and frozen soils.” MS thesis, Univ. of Alaska Fairbanks, Fairbanks, Alaska.
Babbott, J. G., Babbott, F. L., and Gordon, J. E. (1956). “Arctic environment and intestinal infection.” Am. J. Med. Sci., 231(3), 338–360.
Baele, M., Devriese, L. A., Butaye, P., and Haesebrouk, F. (2002). “Composition of enterococcal and streptococcal flora from pigeon intestines.” J. Appl. Microbiol., 92(2), 348–351.
Butler, J. C., Parkinson, A. J., Funk, E., Beller, M., Hayes, G., and Hughes, J. M. (1999). “Emerging infectious diseases in Alaska and the arctic: A review and strategy for the 21st century.” Alaska Med., 41(2), 35–43.
Byappanahalli, M. N., and Fujioka, R. S. (1998). “Evidence that tropical soil environment can support the growth of Escherichia coli.” Water Sci. Technol., 38(12), 171–174.
Centers for Disease Control and Prevention (CDC). (2005). “Summary of notifiable diseases—United States, 2003.” MMWR 2003, 52(54), 1–85.
Chambers, M. K. (2005). “Transport of fecal bacteria in a rural Alaskan community.” MS thesis, Univ. of Alaska Fairbanks, Fairbanks, Alaska.
Chambers, M. K., Ford, M. R., White, D. M., Schiewer, S., and Barnes, D. L. (2005). “Distribution and transport of fecal bacteria in a rural Alaskan community.” Proc., World Water and Environmental Resources Congress, ASCE, Reston, Va.
Clasen, T. F., and Bastable, A. (2003). “Faecal contamination of drinking water during collection and household storage: The need to extend protection to the point of use.” J. Water Health, 1(3), 109–115.
Cohen, J., and Shuval, H. I. (1973). “Coliforms, fecal coliforms, and fecal streptococci as indicators of water pollution.” Water, Air, Soil Pollut., 2(1), 85–95.
Cottle, R., Mathias, R. G., Donovan, C. A., Guasparini, R., and Moorhead, W. P. (1990). “Giardiasis outbreak from a chlorinated community water supply.” Can. J. Public Health, 81(5), 358–362.
Dufour, A. P. (1984). “Health effects criteria for fresh recreational waters.” EPA-600/1-84-004, EPA, Washington, D.C.
Eckner, K. F. (1998). “Comparison of membrane filtration and multiple-tube fermentation by the Colilert and Enterolert methods for detection of waterborne coliform bacteria, Escherichia coli and Enterococci used in drinking and bathing water quality monitoring in southern Sweden.” Appl. Environ. Microbiol., 64(8), 3079–3083.
Edberg, S. C., Allen, M. J., and Smith, D. B. (1991). “Defined substrate technology method for rapid and specific simultaneous enumeration of total coliforms and Escherichia coli from water: Collaborative study.” J. Assoc. Off Anal Chem., 74(3), 526–529.
EPA. (1986). “Bacteriological ambient water quality criteria for marine and fresh recreational waters.” EPA440/5-84-002, Washington, D.C.
EPA. (1995). “Federal field work group report to congress on Alaska rural sanitation.” EPA910/R-95-002, Washington, D.C.
EPA. (2001). “Method 1623: Cryptosporidium and Giardia in water by filtration/IMS/FA.” EPA-821-R-01-025, Washington, D.C.
EPA. (2003). “National primary drinking water standards.” EPA 816-F-03-016, Washington, D.C.
Esrey, S. A., Potash, J. B., Roberts, L., and Shiff, C. (1991). “Effects of improved water supply and sanitation on ascariasis, diarrhoea, dracunculiasis, hookworm infection, schistosomiasis and trachoma.” Bull. World Health Organ, 69(5), 609–621.
Fattal, B., Vasl, R. J., Katzenelson, E., and Shuval, H. I. (1983). “Survival of bacterial indicator organisms and enteric viruses in the Mediterranean coastal waters off Tel-Aviv.” Water Res., 17(4), 397–402.
Fleshman, J. K. (1968). “Health of Alaska native children.” Alaska Med., 10(1), 39–42.
Genthe, B., Strauss, N., Seager, J., Vundule, C., Maforah, F., and Kfri, R. (1997). “The effect of type of water supply on water quality in a developing community in South Africa.” Water Sci. Technol., 35(11–12), 35–40.
Hardina, C. M., and Fujioka, R. S. (1991). “Soil: The environmental source of Escherichia coli and Enterococci in Hawaii’s streams.” Environ.l Toxicol. Water Qua.: Int. J., 6(2), 185–195.
Hrudey, S. E., Huck, P. M., Payment, P., Gillham, R. W., and Hrudey, E. J. (2002). “Walkerton: Lessons learned in comparison with waterborne outbreaks in the developed world.” J. Environ. Eng. Sci., 1(6), 397–407.
Hyland, R., Byrne, J., Selinger, B., Graham, T., Thomas, J., Townshend, I., and Gannon, V. (2003). “Spatial and temporal distribution of fecal indicator bacteria within the Oldman River Basin of southern Alberta, Canada.” Water Qual. Res. J. Canada, 38(1), 15–32.
IDEXX. (2005). “Water testing.” IDEXX, ⟨http://www.idexx.com/water/index.jsp⟩ (October 18, 2005).
Indian Health Service (IHS). (2004). “Regional differences in Indian health 1998–1999.” ⟨http://www.ihs.gov/PublicInfo/Publications/trends98/region98.asp⟩ (August 4, 2005).
Jagals, P., Grabow, W., and Williams, E. (1997). “The effects of supplied water quality on human health in an urban development with limited basic subsistence facilities.” Water SA, 23(4), 373–378.
Jenkerson, S. A., and Middaugh, J. (1990). “Epidemiological surveillance of enteric diseases in Alaska—Value of case investigation.” Alaska Med., 32(1), 9–18.
Jin, G., Englande, A. J., Bradford, H., and Jeng, H. (2004). “Comparison of E. coli, enterococci, and fecal coliform as indicators for brackish water quality assessment.” Water Environ. Res., 76(3), 245–255.
Keusch, G. T. (1979). “Shigella infections.” Clin. Gastroenterol., 8(3), 645–662.
Kuntz, R. L., Hartel, P. G., Rodgers, K., and Segars, W. I. (2004). “Presence of Enterococcus faecalis in broiler litter and wild bird feces for bacterial source tracking.” Water Res., 38(16), 3551–3557.
Leclerc, H., Mossel, D. A. A., Edberg, S. C., and Struijk, C. B. (2001). “Advances in the bacteriology of the coliform group: Their suitability as markers of microbial water safety.” Annu. Rev. Microbiol., 55, 201–234.
Mac Kenzie, W. R., Hoxie, N. J., Proctor, M. E., Gradus, M. S., Blair, K. A., Peterson, D. E., Kazmierczak, J. J., Addiss, D. G., Fox, K. R., Rose, J. B., and Davis, J. P. (1994). “A massive outbreak in Milwaukee of Cryptosporidium infection transmitted through the public water supply.” N. Engl. J. Med., 331(3), 161–167.
McJunkin, F. E. (1982). “Water and human health.” U.S. National Demonstration Water Project for Agency for International Development, Washington, D.C.
Melby, K., Gondrosen, B., Gregusson, S., Ribe, H., and Dahl, O. P. (1991). “Waterborne campylobacteriosis in northern Norway.” Int. J. Food Microbiol., 12(2/3), 151–156.
Miescier, J. J., and Cabelli, V. J. (1982). “Enterococci and other microbial indicators in municipal wastewater effluents.” J. Water Pollut. Control Fed., 54(12), 1599–1606.
Parker, L. V., Yushak, M. L., Martel, J., and Reynolds, C. M. (2000). “Bacterial survival in snow made from wastewater.” ERDC/CRREL TR-00-9, U.S. Army Corps of Engineers, Cold Regions Research and Engineering Laboratory, Washington, D.C.
Parkinson, A. J., and Butler, J. C. (2001). “Prevention and control of infectious diseases in the arctic.” Arctic Research in the US, 15(1), 27–31.
Payment, P., Waite, M., and Dufour, A. (2003). “Introducing parameters for the assessment of drinking water quality.” Assessing microbial safety of drinking water: Improving approaches and methods, Organization for Economic Cooperation and Development, Word Health Organization, Paris, 47–77.
Sickbert-Bennett, E. E., Weber, D. J., Gergen-Teague, M. F., Sobsey, M. D., Samsa, G. P., and Rutala, W. A. (2005). “Comparative efficacy of hand hygiene agents in the reduction of bacteria and viruses.” AJIC, 33(2), 67–77.
State of Alaska Epidemiology. (2004). “2003 Annual (January-December) infectious disease report.” Bulletin No. 8.
Swerdlow, D. L., Mintz, E. D., Rodriguez, M., Tejada, E., Ocampo, C., Espejo, L., Greene, K. D., Saldana, W., Seminario, L., Tauxe, R. V., Wells, J. G., Bean, N. H., Ries, A. A., Pollak, M., Vertiz, B., and Blake, P. A. (1992). “Waterborne transmission of epidemic cholera in Trujillo, Peru: Lessons for a continent at risk.” Lancet, 340(8810), 28–32.
Wheeler, A. L., Hartel, P. G., Godfrey, D. G., Hill, J. L., and Segars, W. I. (2002). “Potential for Enterococcus faecalis as a human fecal indicator for microbial source tracking.” J. Environ. Qual., 31(4), 1286–1293.
World Health Organization (WHO). (2004). “Water, sanitation and hygiene links to health.” ⟨www.who.int/water_sanitation_health/publications/facts2004/en/print.html⟩ (August 1, 2005).
Wright, J., Gundry, S., and Conroy, R. (2004). “Household drinking water in developing countries: A systematic review of microbiological contamination between source and point-of-use.” Trop. Med. Int. Health, 9(1), 106–117.
Yakub, G. P., Castric, D. A., Stadterman-Knauer, K. L., Tobin, M. J., Blazina, M., Heineman, T. N., Yee, G. Y., and Frazier, L. (2002). “Evaluation of Colilert and Enterolert defined substrate methodology for wastewater applications.” Water Environ. Res., 74(2), 131–135.
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Published In
Journal of Cold Regions Engineering
Volume 22 • Issue 1 • March 2008
Pages: 16 - 37
Copyright
© 2008 ASCE.
History
Received: Aug 15, 2006
Accepted: Aug 17, 2007
Published online: Mar 1, 2008
Published in print: Mar 2008
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