Animal Waste, Water Quality and Human Health

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Transport of microbial pollution in catchment systems 191Kay, D., Edwards, A. C., Ferrier, B., Francis, C., Kay, C., Rushby, L., Watkins, J., McDonald,A. T., Wyer, M., Crowther, J. and Wilkinson, J. (2007a). Catchment microbialdynamics: the emergence of a research agenda. Progress in Physical Geography,31(1), 59–76.Kay, D., Aitken, M., Crowther, J., Dickson, I., Edwards, A. C., Francis, C., Hopkins, M.,Jeffrey, W., Kay, C., McDonald, A. T., McDonald, D., Stapleton, C. M., Watkins,J., Wilkinson, J. and Wyer, M. (2007b). Reducing fluxes of faecal indicatorcompliance parameters to bathing waters from diffuse agricultural sources, theBrighouse Bay study, Scotland. Environmental Pollution, 147, 139–149.Kay, D., Stapleton, C. M., Crowther, J., Wyer, M. D., Fewtrell, L., Edwards, A., McDonald,A. T., Watkins, J., Francis, F. and Wilkinson, J. (2008a). Faecal indicator organismcompliance parameter concentrations in sewage and treated effluents. WaterResearch, 42, 442–454.Kay, D., Crowther, J., Stapleton, C. M., Wyer, M. D., Anthony, S., Bradford, M., Edwards,A., Fewtrell, L., Francis, C., Hopkins, M., Kay, C., McDonald, A. T., Watkins, J. andWilkinson, J. (2008b). Faecal indicator organism concentrations and catchment exportcoefficients in the UK. Water Research, 42, 2649–2661.Kim, G., Choi, E. S. and Lee, D. (2005). Diffuse and point pollution impacts on the pathogenindicator organism level in the Geum River, Korea. Science of the Total Environment,350, 94–105.Lee, R., Kay, D., Wilkinson, R. J., Fewtrell, L. and Stapleton, C. M. (2002). Impact ofintermittent discharges on the microbial quality of shellfish. R & D TechnicalReport P2-266/TR, ISBN: 1844320464. Bristol: Environment Agency.Lewis, D. J., Atwill, E. R., Lennox, M. S., Hou, L., Karle, B. and Tate, K. W. (2005).Linking on-farm dairy management practices to storm-flow fecal coliform loadingfor California coastal waters. Environmental Monitoring and Assessment, 107,407–425.Line, D. E. (2003). Changes in a stream’s physical and biological conditions followinglivestock exclusion. Transactions of the American Society of Agricultural Engineers,46, 287–293.Mattikalli, M. and Richards, S. (1996). Estimation of surface water quality changes inresponse to land use change: application of the export coefficient model usingremote sensing and geographical information system. Journal of EnvironmentalManagement, 48, 263–282.McDonald, A. and Kay, D. (1981). Enteric bacterial Concentrations in Reservoir FeederStreams: baseflow characteristics and response to hydrograph events. WaterResearch, 15, 861–868.McDonald, A. T., Kay, D. and Jenkins, A. (1982). Generation of faecal and total coliformsurges in the absence of normal hydrometeorological stimuli. Applied andEnvironmental Microbiology, 44, 292–300.McGechan, M. and Vinten, A. (2003a). Parameterisation of the MACRO model to representtransport through the soil of livestock faeces-derived E.coli. Soil Use and Management,19, 321–323.
192Animal Waste, Water Quality and Human HealthMcGechan, M. B. and Vinten, A. J. A. (2003b). Simulation of transport through soil of E.coli derived from livestock slurry using the MACRO model. Soil Use andManagement, 19, 321–330.Meals, D. W. (1996). Watershed-scale response to agricultural diffuse pollution controlprograms in Vermont, USA. Water Science and Technology, 33, 197–204.Medema, G. J. and Schijven, J. F. (2001). Modelling the sewage discharge and dispersionof Cryptosporidium and Giardia in surface water. Water Research, 35(18),4307–4316.Moore, R. V. and Tindall, C. I. (2005). An overview of the open modelling interface andenvironment (the OpenMI). Environmental Science and Policy, 8, 279–286.Muirhead, R. W., Davies-Colley, R. J., Donnison, A. M. and Nagels, J. W. (2004). Faecalbacteria yields in artificial flood events: quantifying in-stream stores. Water Research,38, 1215–1224.Ogden, I. D., Fenlon, D. R., Vinten, A. J. A. and Lewis, D. (2001). The fate of Escherichiacoli O157 in soil and its potential to contaminate drinking water. International Journalof Food Microbiology, 66, 111–117.PLUARG (1983). Pollution from land use activities research group. Non-point sourcepollution abatement in the Great Lakes basin, Report to the Great Lakes WindsorOntarioater Quality Board of the International Joint Commission. W 129p.Pond, K. R., Rangdale, R., Meijer, W. G., Brandao, J., Falcao, L., Rince, A., Masterson, B.,Greaves, J., Gawler, A., McDonnell, E., Cronin, A. A. and Pedley, S. (2004).Workshop report: Developing pollution source tracking for recreational and shellfishwaters. Environmental Forensics, 5, 237–247.Roser, D., Skinner, J., LeMaitre, C., Marshall, L., Baldwin, J., Billington, K., Kotz, S.,Clarkson, K. and Ashbolt, N. (2002b). Automated event sampling formicrobiological and related analytes in remote sites: a comprehensive system. WaterScience and Technology: Water Supply, 2, 123–130.Roser, D. and Ashbolt, N. (2006). Source Water Quality and the Management of Pathogensin Surface Catchments and Aquifers, Salisbury SA, Australia: The cooperativeResearch Centre for Water Quality and Treatment.Roser, D. J., Ashbolt, N., Ho, G., Mathew, K., Nair, J., Ryken-Rapp, D. and Toze, S. (2005).Hydrogen sulphide production tests and the detection of groundwater faecalcontamination by septic seepage. Water Science Technology, 51, 291–300.Sanders, B. S., Anthony, S. G., Stapleton, C. M., Kay, D., Crowther, J. and Wilson, J. G. M.(2005). The Impact of de-Stocking on the Microbiological Quality of Rivers in theCaldew Catchment. Environment Agency Science Report SC020045/SR, Bristol.ISBN:1 84432 382 X.Shreeram, P. I. and Mostaghimi, S. (2002). A long-term watershed-scale evaluation of theimpacts of animal waste BMPs on indicator bacteria concentrations. Journal of theAmerican Water Resources Association, 38, 819–833.Sinton, L. W., Finlay, R. K. and Lynch, P. A. (1999). Sunlight inactivation of fecalbacteriophages and bacteria in sewage-polluted seawater. Applied andEnvironmental Microbiology, 65, 3605–3613.
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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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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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