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Inactivation of E. coli in UCFM 52.Reitsma, C.J. and Henning, D.R. (1996). Survival of Enterohemorrhagic Escherichia coli O157:H7during the manufacture and curing of cheddar cheese. J. Food Prot. 59:460-464.Ricke, S.C. and Keeton, J.T. (1997). Fermented meat, poultry, and fish products In: Food MicrobiologyFundamentals and Frontiers. pp 610-628 (Ed. M.P. Doyle, L.R. Beuchat, T.J. Montville). ASMPress, Washington D.C.Riordan, D.C.R., Duffy, G., Sheridan, J.J., Eblen, B.S., Whiting, R.C., Blair, I.S. and McDowell, D.A.(1998). Survival of Escherichia coli O157:H7 during the manufacture of Pepperoni. J. Food Prot.61:146-151.Ross, T. (1999) Assessment of a theoretical model for the effects of temperature on bacterial growthrate. Proceedings, International Institute of Refrigeration, Commission C2, Quimper, France, June,1997. pp. 64-71.Ross, T. and Nichols, D.S. (2000). Microbial Ecology of Bacteria and Fungi - Temperature. pp. 547 –556 in Encyclopaedia of Food Microbiology, Eds. Robinson, R., Batt, C. A. and Patel, P. AcademicPress, London.Salter, M.A. Ratkowsky, D.A. Ross, T. and McMeekin, T.A. (2000). Modelling the combined temperature andsalt (NaCl) limits for growth of a pathogenic Escherichia coli strain using generalised nonlinear regression.International Journal of Food Microbiology,61:159-167.Sauer, C.J., Majkowski, J., Green, S. and Eckel, R. (1997). Foodborne illness outbreak associatedwith a semi-dry fermented sausage product. J. Food Prot., 60, 1612-1617.Shadbolt, C.T., Ross, T. and McMeekin, T.A. (1999). Nonthermal death of Escherichia coli. Int. J.Food Microbiol. 49, 129-138.Shadbolt, C., Ross, T. and McMeekin, T.A. (2001). Differentiation of the effects of lethal pH and wateractivity: food safety implications. Letters in Applied Microbiology, 32: 99-102.Shaw, M.K., Marr, A.G., Ingraham, J.L., 1971. Determination of the minimal temperature for growth ofEscherichia coli. J. Bacteriol., 105:683-684Smith, J.L., Huhtanen, C.N., Kissinger, J.C. and Palumbo, S.A. (1975). Survival of salmonellae duringpepperoni manufacture. Appl Microbiol., 30:759-63.Tilden, J., Young, W., Mcnamara, A.M., Custer, C., Boesel, B., Lambertfair, M., Majkowski J., Vugia,D., Werner, S.B., Hollingsworth, J. and Morris, J.G. (1996). A new route of transmission forEscherichia coli - infection from dry fermented salami. Am. J. Public Health, 86:1142-1145.Tomicka, A., Chen, J., Barbut, S. and Griffiths, M.W. (1997). Survival of bioluminescent Escherichiacoli O157:H7 in a model system representing fermented sausage production. J. Food Prot., 60:1487-1492.Troller, J.A. and Christian, J.H.B. (1978). Water Activity and Food. Academic Press, New York.Vanderlinde, P.D. (1999). E. coli in uncooked fermented meat. Meat and Livestock Australia. ReportMSHE.008, Sydney.Wang, G., Zhao, T. and Doyle, M.P. (1996). Fate of enterohaemorrhagic Escherichia coli O157:H7 inbovine faeces. Appl. Environ. Microbiol., 62:2567 – 2570.Waterman, S.R. and Small, P.L. (1996). Characterization of the acid resistance phenotype and rpoSalleles of shiga-like toxin-producing Escherichia coli. Infect Immun. 64:2808-11.Wigley, R.C. (2000). Starter cultures. pp. 2084 – 2094 In Encyclopaedia of Food Microbiology, Eds.Robinson, R., Batt, C. A. and Patel, P. Academic Press, London.Williams, R.C., Isaacs, S., Decou, M.L., Richardson, E.A., Buffett, M.C., Slinger, R.W., Brodsky, M.H.,Ciebin, B.W., Ellis, A. and Hockin, A. (2000). Illness outbreak associated with Escherichia coliO157 : H7 in Genoa salami. Can. Med Ass. J., 162:1409-1413Wilson, P.D.G. and Hibberd, D.J. (2000). The prediction of pH in complex foods. Food Sci. Technol.Today, 14:72-75.Yu, C.F., and Chou, C.C. (1997). Fate of Escherichia coli O157:H7 in Chinese-style sausage duringthe drying step of the manufacturing process as affected by the drying condition and curing agent.J. Sci. Food Agric., 74:551-556.Page 52 of 59
Inactivation of E. coli in UCFM 53.APPENDIX 1: Nomenclature and characteristics of various UCFMReproduced from Ricke and Keeton (1997).Page 53 of 59
Page 1 and 2: Final reportFOOD SAFETYPrepared by:
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