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Obiri‐Danso, K., & Jones K. (1999).  Distribution and seasonality of microbial indicators and thermophilic campylobacters in two freshwater bathing sites on the River Lune in northwest England. Journal of Applied Microbiology. 87(6), 
Wade, T. J., Pai N., Eisenberg J. N. S., & Colford J. M. (2003).  Do US EPA water quality guidelines for recreational waters prevent gastrointestinal illness? A systematic review and meta-analysis. Environmental Health Perspectives. 111,
Teunis, P.., Takumi K.., & Shinagawa K.. (2004).  Dose response for infection by Escherichia coli O157:H7 from outbreak data. Risk Analysis: An Official Publication of the Society for Risk Analysis. 24, 401-407.
Chen, L., Geys H., Cawthraw S., Havelaar A., & Teunis P. (2006).  Dose response for infectivity of several strains of Campylobacter jejuni in chickens. Risk Analysis. 26, 1613–1621.
Chen, L.., Geys H.., Cawthraw S.., Havelaar A.., & Teunis P.. (2006).  Dose response for infectivity of several strains of ''Campylobacter jejuni'' in chickens. Risk Analysis. 1613-1621.
Chen, L.., Geys H.., Cawthraw S.., Havelaar A.., & Teunis P.. (2006).  Dose response for infectivity of several strains of Campylobacter jejuni in chickens. Risk Analysis: An Official Publication of the Society for Risk Analysis. 26, 1613-1621.
Chen, L.., Geys H.., Cawthraw S.., Havelaar A.., & Teunis P.. (2006).  Dose Response for Infectivity of Several Strains of Campylobacter jejuni in Chickens. Risk Analysis. 26, 6.
Njc, S., Doyle M.. P., Kasuga F.., Rotariu O.., & Ogden I.. D. (2005).  Dose response modelling of Escherichia coli O157 incorporating data from foodborne and environmental outbreaks. International Journal of Food Microbiology. 103, 1.
Njc, S., & (2005).  Dose response modelling of Escherichia coli O157 incorporating data from foodborne and environmental outbreaks. International Journal of Food Microbiology. 103, 35-47.
Strachan, N.. J. C. al. (2005).  Dose response modelling of Escherichia coli O157 incorporating data from foodborne and environmental outbreaks. International Journal of Food Microbiology. 103, 35-47.
Hamilton, K., Weir M., & Haas C. (2016).  Dose response models and a quantitative microbial risk assessment framework for the Mycobacterium avium complex that account for recent developments in molecular biology, taxonomy, and epidemiology. Water Research. 109,
Teunis, P. F. M., Nagelkerke N. J. D., & Haas C. N. (1999).  Dose response models for infectious gastroenteritis. Risk Analysis. 19(6), 
Murphy, B.. R., Clements M.. L., Madore H.. P., Steinberg J.., O’Donnell S.., Betts R.., et al. (1984).  Dose Response of Cold-Adapted, Reassortant Influenza A/California/10/78 Virus (H1N1) in Adult Volunteers. Journal of Infectious Diseases. 149, 5.
Murphy, B.. R., Clements M.. L., Tierney E.. L., Black R.. E., Stienberg J.., & Chanock R.. M. (1985).  Dose Response of Influenza A/Washington/897/80 (H3N2) Avian-Human Reassortant Virus in Adult Volunteers. The Journal of Infectious Diseases. 152, 1.
Watanabe, T.., Bartrand T.. A., Omura T.., & Haas C.. N. (2012).  Dose-Response Assessment for Influenza A Virus Based on Data Sets of Infection with its Live Attenuated Reassortants. Risk Analysis. 32, 555–565.
Powell, M. R., & (2000).  Dose-response envelope for Escherichia coli. Quantitative Microbiology. 2, 141-163.
Powell, M.. R. (2000).  Dose-response envelope for Escherichia coli O157:H7. Quantitative Microbiology. 2, 141-163.
Smith, M.. A., Takeuchi K.., Anderson G.., Ware G.. O., McClure H.. M., Raybourne R.. B., et al. (2008).  Dose-Response Model for Listeria monocytogenes-Induced Stillbirths in Nonhuman Primates. Infection and Immunity. 76, 2.
Tamrakar, S. B., Haluska A., Haas C. N., & Bartrand T. A. (2011).  Dose-Response Model of Coxiella burnetii (Q Fever). Risk Analysis. 31, 120–128.
Tamrakar, S.. B., Haluska A.., Haas C.. N., & Bartrand B.. A. (2011).  Dose-Response Model of Coxiella burnetii (Q Fever). Risk Analysis. 31, 120-128.
Weir, M.. H. (2016).  Dose-Response Modeling and Use: Challenges and Uncertainties in Environmental Exposure. In Manual of Environmental Microbiology. 3, 5.
Bartrand, T.. A., Weir M.. H., & Haas C.. N. (2008).  Dose-Response Models for Inhalation of Bacillus anthracis Spores: Interspecies Comparisons. Risk Analysis. 28, 4.
Williams, D.., Irvin E.. A., Chmielewski R.. A., & May) F. J. F.( (Submitted).  Dose-Response of Listeria monocytogenes after Oral Exposure in Pregnant Guinea Pigs. Journal of Food Protection. 70, 5.
Roser, DJ. (2015).  Dose–response algorithms for water-borne Pseudomonas aeruginosa folliculitis.
Kitajima, M.., Huang Y.., Watanabe T.., Katayama H.., & Haas C.. N. (2011).  Dose–response time modelling for highly pathogenic avian influenza A (H5N1) virus infection. Letters in applied microbiology. 53, 438–444.