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Salmonella montevideo infection in sheep and cattle in Scotland, 1970–81

Published online by Cambridge University Press:  15 May 2009

J. C. M. Sharp ,
W. J. Reilly ,
K. A. Linklater ,
D. M. Inglis ,
W. S. Johnston  and
J. K. Miller
J. C. M. Sharp
Affiliation:
Communicable Diseases (Scotland) Unit, Ruchill Hospital, Glasgow, G20 9NB
W. J. Reilly
Affiliation:
Communicable Diseases (Scotland) Unit, Ruchill Hospital, Glasgow, G20 9NB
K. A. Linklater
Affiliation:
Veterinary Investigation Centre, East of Scotland College of Agriculture, Greycrooks, St. Boswells, TD6 OEU
D. M. Inglis
Affiliation:
Veterinary Investigation Laboratory, North of Scotland College of Agriculture, Mill of Craibstone, Bucksburn, Aberdeen, AB2 9TS
W. S. Johnston
Affiliation:
Veterinary Investigation Laboratory, North of Scotland College of Agriculture, Newlands of Geise, Janetstown, Thurso, KW14 7XF
J. K. Miller
Affiliation:
Veterinary Investigation Centre, East of Scotland College of Agriculture, Bush Estate, Penicuik, EH26 OQE
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Summary

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Outbreaks of abortion associated with infection by Salmonella montevideo have affected sheep in the east, especially the south-east, of Scotland each year since 1972. Disease in the north and north-east was usually less severe.

Between 1 January 1970 and 31 December 1981, a total of 67 incidents affecting sheep were reported by veterinary laboratories to the Communicable Diseases (Scotland) Unit, 87 % of which presented during the main lambing months of February, March and April. Twenty-one episodes of bovine infection were also recorded over the same period, 17 of which involved single animals only, usually an aborted cow or a scouring calf.

Despite intensive investigations, neither the origin nor the mode of spread of S. montevideo infection among sheep and cattle in Scotland has been established with any certainty, although there has been considerable evidence indicating the role of scavenging wild birds, particularly seagulls, as vectors transmitting infection to other farms in the same district. Also largely unexplained are the differences in the epidemiology and clinical pattern of disease in the south-east compared to the north and north-east, while sheep in the west of Scotland have remained virtually unaffected throughout.

Type
Research Article
Information
Journal of Hygiene , Volume 90 , Issue 2 , April 1983 , pp. 225 - 232
Copyright
Copyright © Cambridge University Press 1983

References

REFERENCES

Communicable Diseases Scotland Weekly Report (1980). 80/41 Salmonella montevideo in sheep in the Grampian area in the spring, 1980.Google Scholar
Fenlon, D. R. (1981). Seagulls (Larus spp.) as vectors of salmonellae: an investigation into the range of serotypes and numbers of salmonellae in gull faeces. Journal of Hygiene 86, 195202.Google Scholar
Johnston, W. S., Maclachlan, G. K. & Hopkins, G. F. (1979). The possible involvement of seagulls (Larus sp.) in the transmission of salmonella in dairy cattle. Veterinary Record 105, 526527.Google ScholarPubMed
Johnston, W. S., Munro, D. S., Reilly, W. J. & Sharp, J. C. M. (1981). An unusual sequel to imported Salnwonella zanzibar. Journal of Hygiene 87, 525528.Google Scholar
Lee, J. A. (1974). Recent trends in human salmonellosis in England and Wales: the epidemiology of prevalent serotypes other than Salmonella typhimurium. Journal of Hygiene 72, 185195.Google Scholar
Linklater, K. A. (1983). Abortion in sheep associated with Salmonella montevideo infection. Veterinary Record (In Press).Google Scholar
McCoy, J. H., (1975). Trends in salmonella food poisoning in England and Wales 1941–72. Journal of Hygiene 74, 271282.Google Scholar
Reid, H. W., Buxton, D., Gardiner, A. C., Pow, I., Finlayson, J. & MacLean, M. J. (1982). Immunosuppression in Toxoplasmosis: studies in lambs and sheep affected with louping-ill virus. Journal of Comparative Pathology 92, 181190.CrossRefGoogle Scholar
Reilly, W. J., Forbes, G. I., Paterson, G. M. & Sharp, J. C. M. (1981). Human and animal salmonellosis in Scotland associated with environmental contamination, 1973–79. Veterinary Record 108, 553555.CrossRefGoogle ScholarPubMed
Report (1947). The bacteriology of spray-dried egg with particular reference to food poisoning. Medical Research Council Special Reports Series No 260, London: HMSO.Google Scholar
Report (1965). Sources of salmonellae, 1951–1963. Part I. Monthly Bulletin of the Ministry of Health and Public Health Laboratory Service 24, 167229.Google Scholar
Reports (1970–81). Salmonellosis: Annual Summaries of Isolations. Communicable Diseases (Scotland) Unit.Google Scholar
Reports (1976–81). Animal Salmonellosis: Annual Summaries (Reports under the Zoonoses Order). Ministry of Agriculture, Fisheries and Food.Google Scholar
Sojka, W. J., Wray, C., Shreeve, J. & Benson, A. J. (1977). Incidence of salmonella infection in animals in England and Wales, 1968–74. Journal of Hygiene 78, 4356.Google Scholar
Wray, C., Sojka, W. J. & Bell, J. C. (1981). Salmonella infection in horses in England and Wales, 1973–1979. The Veterinary Record 109, 398401.Google Scholar