Research Journal of Biological Sciences
Year:
2012
Volume:
7
Issue:
3
Page No.
102 - 106
References
Adams, M.R. and M.O. Moss, 2008. Salmonella. In: Food Microbiology, Adams, M.R. and M.O. Moss (Eds.). RSC Publishing, Guildford, UK., pp: 235-248.
Austin, B. and D. Mclnotsh, 1991. New bacterial fish pathogens and their implications for fish farming. Rev. Med. Microbiol., 2: 230-236.
Bell, C. and A. Kyriakides, 2002. Salmonella. In: Foodborne Pathogenes, Blackburn, C.W. and P.J. McClure, (Eds.). Woodhead Publishing, Cambridge, MA., USA., pp: 307-335.
Clark, G.M., A.F. Kaufmann, E.J. Gangarosa and M.A. Thompson, 1973. Epidemiology of an international outbreak of
Salmonella agona. Lancet, 302: 490-493.
CrossRef | D'Aoust, J.Y., A.M. Sewell and C. McDonald, 1995. Recovery of
Salmonella spp. from refrigerated pre-enrichment cultures of dry food composites. J. Assoc. Official Agric. Chem. Int., 78: 1322-1327.
PubMed | D'Aoust, J.Y., A.M. Sewell and P. Greco, 1993. Detection of
Salmonella in dry foods using refrigerated pre-enrichment and enrichment broth cultures: Interlaboratory study. J. Assoc. Official Agric. Chem. Int., 76: 814-821.
PubMed | D'Aoust, J.Y., A.M. Sewell and P. Greco, 1994. Detection of
Salmonella in dry foods using refrigerated pre-enrichment and enrichment broth cultures: Summary of collaborative study. J. Assoc. Official Agric. Chem. Int., 77: 1490-1491.
PubMed | D'Aoust, J.Y., J. Mauer and J.S. Bailey, 2001. Salmonella Species. In: Food Microbiology, Fundamentals and Frontiers, Doyle, M.E., L.R. Beuchat and T.J. Montville (Eds.). ASM Press, Washington, DC., USA., pp: 141-178.
Donlan, R.M. and J.W. Costerton, 2002. Biofilms: Survival mechanisms of clinically relevant microorganisms. Clin. Microbiol. Rev., 15: 167-193.
CrossRef | PubMed | Direct Link | Grau, F.H., 1994.
Salmonella: Physiology, Pathogenicity and Control. In: Foodborne Microorganisms of Public Health Significance, Buscle, K.A., J.A. Davey, M.J. Eyles, A.D. Hocking, K.G. Newton and E.J. Suttard (Eds.). Australian Institute of Food Science and Technology (NSW Branch), Australia, pp: 85-96.
Humphrey, T.J., E. Slater, K. McAlpine, R.J. Rowbury and R.J. Gilbert, 1995.
Salmonella enteritidis phage type 4 isolates more tolerant of heat, acid, or hydrogen peroxide also survive longer on surfaces. Applied Environ. Microbiol., 61: 3161-3164.
PubMed | Direct Link | Huss, H.H., L. Ababouch and L. Gram, 2004. Assessment and Management of Seafood Safety and Quality. 1st Edn., FAO, Rome, ISBN: 92-5-104954-8, pages: 26.
Juven, B.J., N.A. Cox, J.S. Bailey, J.E. Thomson, O.W. Charles and J.V. Shutze, 1984. Survival of
Salmonella in dry food and feed. J. Food Prot., 47: 445-448.
Komitopoulou, E. and W. Penaloza, 2009. Fate of
Salmonella in dry confectionary raw materials. J. Applied Microbiol., 106: 1892-1900.
CrossRef | PubMed | Direct Link | Lunestad, B.T., L. Nesse, J. Lassen, B. Svihus and T. Nesbakken
et al., 2007.
Salmonella in fish feed: Occurrence and implications for fish and human health in Norway. Aquaculture, 165: 1-8.
CrossRef | Nesse, L.L., K. Nordby, E. Heir, B. Bergsjo, T. Vardund, H. Nygard and G. Holstad, 2003. Molecular analysis of
Salmonella enterica isolates from fish feed factories and fish feed ingredients. Applied Environ. Microbiol., 69: 1075-1081.
PubMed | Direct Link | Nesse, L.L., T. Lovold, B. Bergsjo, K. Nordby, C. Wallace and G. Holstad, 2005. Persistence of orally administered
Salmonella enterica serovars Agona and Montevideo in Atlantic salmon (
Salmo salar L.). J. Food Prot., 68: 1336-1339.
PubMed | Nesse, L.L., T. Refsum, E. Heir, K. Nordby, T. Vardund and G. Holstad, 2005. Molecular epidemiology of
Salmonella spp. isolates from gulls, fish-meal factories, feed factories, animals and humans in Norway based on pulsed-field gel electrophoresis. Epidemiol. Infect., 133: 53-58.
CrossRef | PubMed | Direct Link | Vestby, L., T. Moretro, S. Langsrud, E. Heir and L.L. Nesse, 2009. Biofilm forming abilities of
Salmonella are correlated with persistence in fish meal and feed factories. BMC Vet. Res., 5: 1-6.
Direct Link |