Animal Waste, Water Quality and Human Health

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Transport of livestock-derived pathogens within catchments 253Oliver, D. M., Heathwaite, A. L., Hodgson, C. J. and Chadwick, D. R. (2007). Mitigationand current management attempts to limit pathogen survival and movement withinfarmed grasslands. Advances in Agronomy, 93, 95–152.Pachepsky, Y. A., Sadeghi, A. M. et al. (2006). Transport and fate of manure-bornepathogens: Modeling perspective. Agricultural Water Management, 86(1–2),81–92.Perkins, J. and Hunter, C. (2000). Removal of enteric bacteria in a surface flow constructedwetland in Yorkshire, England. Water Research, 34(6), 1941–1947.Reinoso, R., Torres, L. A. et al. (2008). Efficiency of natural systems for removal of bacteriaand pathogenic parasites from wastewater. Science of the Total Environment, 395(2–3),80–86.Roodsari, R. M., Shelton, D. R. et al. (2005). Fecal coliform transport as affected by surfacecondition. Transactions of the ASAE, 48(3), 1055–1061.Ross, C. and Donnison, A. (2003). Campylobacter and farm dairy effluent irrigation. NewZealand Journal of Agricultural Research, 46(3), 255–262.Schellinger, G. R. and Clausen, J. C. (1992). Vegetative filter treatment of dairy barnyardrunoff in cold regions. Journal of Environmental Quality, 21(1), 40–45.Schmitt, T. J., Dosskey, M. G. et al. (1999). Filter strip performance and processes fordifferent vegetation, widths, and contaminants. Journal of Environmental Quality,28(5), 1479–1489.SEPA (2009). SEPA Agricultural Best Management Practices (BMPs). Edinburgh, ScottishEnvironment Protection Agency (Retrieved 19/8/2009, from http://apps.sepa.org.uk/bmp/Default.aspx).Scottish Executive (2005). Prevention of Environmental Pollution from AgriculturalActivity: A Code of Good Practice, Scottish Executive, Edinburgh.Song, Z., Wu, L., Yang, G., Xu, M. and Wen, S. (2008). Indicator microorganisms andpathogens removal function performed by copepods in constructed wetlands.Bulletin of Environmental Contamination and Toxicology, 81, 459–463.Song, Z., Zheng, Z., Lie, J., Sun, X., Han, X., Wang, W. and Xu, M. (2005). Seasonal andannual performance of a full-scale constructed wetland system for sewage treatment inChina. Ecological Engineering, 26, 272–282.Stapleton, C. M., Lowe, N. et al. (2006). Reducing the amount of bacteria discharged fromsmall sewage treatment works: Results of field studies at ten tertiary treatment plants.Technical Report. Report to Environment Agency (NW Region). ICREW PilotAction 6: Sustainable Sewage Solutions, pp. 155. http://www.icrew.myzen.co.uk/documents/6/UKPA6_Project_Final_Technical_Report.pdfStatutory Instrument (SI) [England and Wales] (1991). Control of pollution (silage, slurryand agricultural fuel oil) regulations 1991. SI No. 324. HMSO.Stout, W. L., Pachepsky, Y. A., Shelton, D. R., Sadeghi, A. M., Saporito, L. S. and Sharpley,A. N. (2005). Runoff transport of faecal coliforms and phosphorus released frommanure in grass buffer conditions. Letters in Applied Microbiology, 41, 230–234.Struck, S. D., Selvakumar, A. and Borst, M. (2006). Performance of stormwater retentionponds and constructed wetlands in reducing microbial concentrations. United States.
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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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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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196Animal Waste, Water Quality and
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Page 268 and 269: 7ExposureWill Robertson and Gordon
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Page 288 and 289: Exposure 277duodenalis in surface w
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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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