Effect of time in lairage on caecal and carcass salmonella contamination of slaughter pigs

I. R. Morgan; F. L. Krautil; J. A. Craven

doi:10.1017/S0950268800062075

Summary

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

A longitudinal study of the effect of time spent in lairage on salmonellas in the caecum and on the skin surface of 450 slaughter pigs from a single producer was conducted. Pigs were tested in 6 groups at 2 abattoirs, with one-third of a group being slaughtered after 18 h, one-third after 42 h and one-third after 66 h spent in lairage. The salmonella isolation rate from caeca and carcass surfaces increased significantly with increasing time spent in lairage. Salmonellas were isolated from the caeca of 18·5% of pigs held less than 24 h in lairage, 24·1% of pigs held a further 24 h and 47·7% of pigs held for 66 h in lairage before slaughter. The salmonella isolation rates from carcasses were 9·3%, 12·8% and 27·3% for the same groups. Thirteen salmonella serotypes were isolated from the caecal contents and carcasses over the 6 weeks of the trial. One abattoir had a higher salmonella isolation rate from pigs than the other and this was probably related to lairage management. It appeared that lairage is an important factor in the manipulation of the salmonella contamination of pig carcasses.

References

REFERENCES

Childers, A. B., Keahey, E. E. & Kotula, A. W. (1977). Reduction of salmonella and fecal contamination of pork during swine slaughter. Journal of the American Veterinary Medical Association 171, 1161–1164.Google Scholar

Craven, J. A. & Hurst, D. B. (1982). The effect of time in lairage on the frequency of salmonella infection in slaughtered pigs. Journal of Hygiene 88, 107–111.CrossRef Google Scholar PubMed

Gallwey, W. J. & Tarrant, P. V. (1979). Influence of environmental and genetic factors on the ultimate pH in commercial and pure-bred pigs. Acta Agriculturae Seandinavica Supplement 21, 32–38.Google Scholar

Haddock, R. L. (1970). Efficacy of examining rectal swabs to detect swine salmonella carriers. American Journal of Veterinary Research 31, 1509–1512.Google Scholar PubMed

Hansen, R., Rogers, R., Emge, S. & Jacobs, N. (164). Incidence of salmonella in the hog colon as affected by handling practices prior to slaughter. Journal of the American Veterinary Medical Association 145, 139–140.Google Scholar

Schulz, V. (1983). Influence of delay between transport and slaughter on the prevalence of salmonella in slaughter pigs. Inaugural Dissertation, Justus-Liebig Universitat, Giessen. pp. 109 In Veterinary Bulletin (1984) 54, abstract no. 3967.Google Scholar

Shotts, E. B., Martin, W. T. & Galton, M. M. (1962). Further studies on salmonella in human and animal foods and in the environment of processing plants. Proceedings of the US Livestock Sanitary Association 65, 309–318.Google Scholar

Vassiliadis, P., Kalopathaki, V., Tricuopoulus, D., Marrommati, C. H. & Serie, C. H. (1981). Improved isolation of salmonella from naturally contaminated meat products by using Rappaport-Vassiliadis enrichment broth. Applied and Environmental Microbiology 42, 615–618.Google Scholar

Williams, L. P. & Newell, K. W. (1968). Sources of salmonellas in market swine. Journal of Hygiene 66, 281–293.CrossRef Google Scholar PubMed

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Prohászka, L. Jayarao, B. M. Fábián, Á. and Kovács, S. 1990. The Role of Intestinal Volatile Fatty Acids in the Salmonella Shedding of Pigs. Journal of Veterinary Medicine, Series B, Vol. 37, Issue. 1-10, p. 570.

BENSINK, JC EKAPUTRA, IGMA and TALIOTIS, C 1991. The isolation of salmonella from kangaroos and feral pigs processed for human consumption. Australian Veterinary Journal, Vol. 68, Issue. 3, p. 106.

Coe, Nancy E. Frank, Dagmar E. Wood, Richard L. and Roth, James A. 1992. Alteration of neutrophil function in BCG-treated and non-treated swine after exposure to Salmonella typhimurium. Veterinary Immunology and Immunopathology, Vol. 33, Issue. 1-2, p. 37.

Coe, Nancy E. and Wood, Richard L. 1992. The effect of exposure to a Δcya/ Δcrp mutant of Salmonella typhimurium on the subsequent colonization of swine by the wild-type parent strain. Veterinary Microbiology, Vol. 31, Issue. 2-3, p. 207.

Fedorka-Cray, Paula J. Whipp, Shannon C. Isaacson, Richard E. Nord, Nels and Lager, Kris 1994. Transmission of Salmonella typhimurium to swine. Veterinary Microbiology, Vol. 41, Issue. 4, p. 333.

Huis in 't Veld, J.H.J. Mulder, R.W.A.W. and Snijders, J.M.A. 1994. Impact of animal husbandry and slaughter technologies on microbial contamination of meat: Monitoring and control. Meat Science, Vol. 36, Issue. 1-2, p. 123.

Gray, Jeffrey T. Fedorka-Cray, Paula J. Stabel, Thomas J. and Ackermann, Mark R. 1995. Influence of inoculation route on the carrier state of Salmonella choleraesuis in swine. Veterinary Microbiology, Vol. 47, Issue. 1-2, p. 43.

SOCKETT, P.N. 1995. THE EPIDEMIOLOGY AND COSTS OF DISEASES OF PUBLIC HEALTH SIGNIFICANCE, IN RELATION TO MEAT AND MEAT PRODUCTS. Journal of Food Safety, Vol. 15, Issue. 2, p. 91.

MULDER, R.W.A.W. 1995. IMPACT OF TRANSPORT AND RELATED STRESSES ON THE INCIDENCE AND EXTENT OF HUMAN PATHOGENS IN PIGMEAT AND POULTRY. Journal of Food Safety, Vol. 15, Issue. 3, p. 239.

Berends, B.R. Urlings, H.A.P. Snijders, J.M.A. and Van Knapen, F. 1996. Identification and quantification of risk factors in animal management and transport regarding Salmonella spp. in pigs. International Journal of Food Microbiology, Vol. 30, Issue. 1-2, p. 37.

Berends, B.R. Van Knapen, F. Snijders, J.M.A. and Mossel, D.A.A. 1997. Identification and quantification of risk factors regarding Salmonella spp. on pork carcasses. International Journal of Food Microbiology, Vol. 36, Issue. 2-3, p. 199.

1998. Micro-Organisms in Foods. p. 1.

Nattress, F.M. and Murray, A.C. 2000. Effect of Antemortem Feeding Regimes on Bacterial Numbers in the Stomachs and Ceca of Pigs. Journal of Food Protection, Vol. 63, Issue. 9, p. 1253.

2000. Micro-Organisms in Foods 6. p. 1.

Swanenburg, M. Urlings, H.A.P. Keuzenkamp, D.A. and Snijders, J.M.A. 2001. Salmonella in the Lairage of Pig Slaughterhouses. Journal of Food Protection, Vol. 64, Issue. 1, p. 12.

Stege, H Christensen, J Nielsen, J.P and Willeberg, P 2001. Data-quality issues and alternative variable-screening methods in a questionnaire-based study on subclinical Salmonella enterica infection in Danish pig herds. Preventive Veterinary Medicine, Vol. 48, Issue. 1, p. 35.

Hurd, H.Scott Mckean, James D. Wesley, Irene V. and Karriker, Locke A. 2001. The Effect of Lairage on Salmonella Isolation from Market Swine. Journal of Food Protection, Vol. 64, Issue. 7, p. 939.

Hurd, H. Scott Gailey, Jared K. McKean, James D. and Rostagno, Marcos H. 2001. Rapid infection in market-weight swine following exposure to a Salmonella Typhimurium-contaminated environment. American Journal of Veterinary Research, Vol. 62, Issue. 8, p. 1194.

Lo Fo Wong, D.M.A Hald, T van der Wolf, P.J and Swanenburg, M 2002. Epidemiology and control measures for Salmonella in pigs and pork. Livestock Production Science, Vol. 76, Issue. 3, p. 215.

Stärk, Katharina D.C Wingstrand, Anne Dahl, Jan Møgelmose, Vibeke and Lo Fo Wong, Danilo M.A 2002. Differences and similarities among experts’ opinions on Salmonella enterica dynamics in swine pre-harvest. Preventive Veterinary Medicine, Vol. 53, Issue. 1-2, p. 7.

Download full list

Article contents

Effect of time in lairage on caecal and carcass salmonella contamination of slaughter pigs

Summary

References

REFERENCES

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests