Animal Waste, Water Quality and Human Health

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Indicators, sanitary surveys and source attribution techniques 357Simpson, J., Santo Domingo, J., & Reasoner, D. (2002). Microbial source tracking: state ofthe science. Environ Sci. Technol., 36(24), 5279–5288.Smith, J., Howington, J., & McFeters, G. (1994). Survival, physiological response andrecovery of enteric bacteria exposed to a polar marine environment. Appl. Environ.Microbiol., 60(8), 2977–2984.Somerville, D., & Pruitt, B. (2004). Physical stream assessment: a review of selectedprotocols for use in the clean water act section 404 programme. Washington, D.C.:United States Environmental Protection Agency. Prepared for the USEPA, Office ofWetlands, Oceans, and Watersheds – Wetlands Division, Order #3W-0503- NATX.,US.Staley, Z., Staley, C., Wapnick, C., & Harwood, V. (2009). A weight of evidence approachallows more accurate assessment of sources of faecal indicator bacteria in surfacewaters. Water Environment Federation TMDL Conference Aug 9–12, 2009,Minneapolis, Minn.Stapleton, C., Wyer, M., Kay, D., Crowther, J., McDonald, A., Walters, M., Gawler, A., &Hindle, T. (2007). Microbial source tracking: a forensic technique for microbial sourceidentification? J. Environ. Monit., 9, 427–439.Stapleton, C., Kay, D., Wyer, M., Davies, C., Watkins, J., Kay, C., McDonald, A., Porter, J.,& Gawler, A. (2009). Evaluating the operational utility of a Bacteroidales quantitativePCR-based MST approach in determining the source of faecal indicator organisms at aUK bathing water. Wat. Res., 43, 4888–4899 doi:10.1016/j.watres.2009.09.015.Stewart, J., Ellender, R., Gooch, J., Jiang, S., Myoda, S., & Weisberg, S. (2003).Recommendations for microbial source tracking: Lessons from a methodscomparison study. J. Wat. Health, 1(4), 225–231.Stewart-Pullaro, J., Daugomah, J., Chestnut, D., Graves, D., Sobsey, M., & Scott, G. (2006).F+ RNA coliphage typing for microbial source tracking in surface waters. J. Appl.Microbiol., 101, 1015–1026.Stoeckel, D., Mathes, M., Hyer, K., Hagedorn, C., Kator, H., Lukasik, J., O’Brien, T.,Fenger, T., Samadpour, M., Strickler, K., & Wiggins, B. (2004). Comparison ofseven protocols to identify faecal contamination sources using Escherichia coli.Environ. Sci. Technol., 38(22), 6109–6117.Stoeckel, D., & Harwood, V. (2007). Performance, design, and analysis in microbial sourcetracking studies. Appl. Environ. Microbiol., 73(8), 2405–2415.Sullivan, D., Brooks, P., Tindale, N., Chapman, S., & Ahmed, W. (2010). Faecal sterolsanalysis for the identification of human faecal pollution in a non-sewered catchment.Wat. Sci. Technol., 61(5), 1355–1361.Tizard, I. (2004). Salmonellosis in wild birds. Seminars in avian and exotic pet medicine,13(2), 50–66.Toranzos, G. (1991). Current and possible alternate indicators of faecal contamination intropical waters: A short review. Environ. Toxicol. Wat. Qual.: An Internat. J., 6,121–130.Ulrich, J., & Nieber, J. (2008). Streambank and bluff erosion modeling for the knife river,Minnesota. American Society of Agricultural and Biological Engineers, #084478.Providence, Rhode Island, June 29 – July 2, 2008.
358Animal Waste, Water Quality and Human HealthUS Congress (2000). United States Federal Water Pollution Control Act, as amended by theBEACH Act of 2000. US Congress, Washington, D.C.US EPA (1976). Quality criteria for water. United States Environmental Protection Agency,Washington, D.C.US EPA. (1986). Ambient water quality criteria for bacteria. Washington, D.C., UnitedStates Environmental Protection Agency. Office of Water Regulation and Standards,Criteria and Standards Division, United States Environmental Protection Agency,#EPA 440/5-84-002.US EPA. (2005). Microbial source tracking guide document. United States EnvironmentalProtection Agency. Office of Research and Development, # EPA-600/R-05/064,Washington, D.C.USEPA. (2007). Proceedings of the Expert’s Scientific Workshop on Critical ResearchNeeds for the Development of New or Revised Recreational Water Quality Criteria.Washington, D.C., United States Environmental Protection Agency. #EPA-823/R-07/006.Vanden Heuvel, A., McDermott, C., Pillsbury, R., Sandrin, T., Kinzelman, J., Ferguson, J.,Sadowsky, M., Byappanahalli, M., Whitman, R., & Kleinheinz, G. (2009). The greenalga, Cladophora, promotes E. coli growth and contamination of recreational waters inLake Michigan. J. Environ. Qual., 39(1), 333–344.Vogel, J., Stoeckel, D., Lamendella, R., Zelt, R., Santo Domingo, J., Walker, S., & Oerther,D. (2007). Identifying faecal sources in a selected catchment reach using multiplesource-tracking tools. J. Environ. Qual., 36, 718–729.Wade, T., Calderon, R., Sams, E., Beach, M., Brenner, K., Williams, A., & Dufour, A. (2006).Rapidly measured indicators of water quality are predictive of swimming-associatedgastrointestinal illness. Environ. Health. Perspect., 114(1), 24–28.Walters, S., & Field, K. (2006). Persistence and growth of faecal Bacteroidales assessed bybromodeoxyuridine immunocapture. Appl. Environ. Microbiol., 72, 4532–4539.Walters, S., Gannon, V., & Field, K. (2007). Detection of Bacteroidales Faecal Indicatorsand the Zoonotic Pathogens E. coli O157:H7, Salmonella, and Campylobacter inRiver Water. Environ. Sci. Technol., 41(6), 1856–1862.Wapnick, C., Korajkic, A., & Harwood, V. (2007). Application of microbial source tracking(MST) methods in assessment of the sources of faecal pollution in tributaries. In: 9thBiennial Conference on Stormwater Research and Watershed Management. Orlando,FL, USA.Wapnick, C., Harwood, V., Staley, C., & Singleton, T. (2008). A cost-effective method forassessing faecal contamination in Florida tributaries. Stormcon ’08 Conference, Aug3–8 2008, Orlando, FL. Forester Press, Santa Barbara, CA.Weaver, W., Entry, J., & Graves, A. (2005). Numbers of faecal streptococci and Escherichiacoli in fresh and dry cattle, horse, and sheep manure. Canadian J. Microbiol., 51(10),847–851.Weidhaas, J., Macbeth, T., Olsen, R., Sadowsky, M., Nora, D., & Harwood, V. (2009).Identification of a Brevibacterium marker gene specific to poultry litter and thedevelopment of a quantitative PCR assay. J. Appl. Microbiol., 109(1), 334–347.
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Emerging Issues in Water and Infect
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World Health Organization and IWA P
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Published on behalf of the World He
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viiiAnimal Waste, Water Quality and
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3Zoonotic waterborne pathogen loads
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Zoonotic waterborne pathogen loads
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the cause of a variety of food- and
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4Zoonotic waterbornepathogens in li
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Zoonotic waterborne pathogens in li
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controlling E. coli-associated diar
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5Transport of microbial pollution i
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Transport of microbial pollution in
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7ExposureWill Robertson and Gordon
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Exposure 259main components influen
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Exposure 261rainfall events (Atherh
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Exposure 263contact activities, the
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Exposure 265Table 7.1 Notable studi
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Exposure 267Table 7.2 Notable studi
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Exposure 269water than zoonotic pat
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Exposure 2711999). As suggested by
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Exposure 273leptospirosis is primar
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are severely underreported. As with
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Exposure 277duodenalis in surface w
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Exposure 279Keeley, A. and Faulkner
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Exposure 281Schultz-Fademrecht, C.,
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IndexAgricultural runoff, 122, 168,
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Index 463Biogas, 137-139, 291Bio-se
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Index 465Critical control points, 1
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Index 467290-291, 293, 295, 300, 30
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Index 469Hazard detection, 285Hazar
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Index 471pathogens, 2, 4-14, 17-21,
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Index 473Probiotics, 132-133Protozo
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Index 475Molecular, 16, 19, 22, 27,
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