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The effects of breed, breeding system and other factors on lamb mortality: 3. Factors influencing the incidence of weakly lambs as a cause of death

Published online by Cambridge University Press:  27 March 2009

Carol Woolliams ,
G. Wiener  and
N. S. M. Macleod
Carol Woolliams
Affiliation:
Agricultural Research Council Animal Breeding Research Organisation. King's Buildings, West Mains Road, Edinburgh, EH9 3JQ
G. Wiener
Affiliation:
Agricultural Research Council Animal Breeding Research Organisation. King's Buildings, West Mains Road, Edinburgh, EH9 3JQ
N. S. M. Macleod
Affiliation:
Veterinary Investigation Centre, East of Scotland College of Agriculture, Bush Estate, Penicuik, Midlothian, EH26 OQE
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Summary

The incidence of lamb mortality from weakness at birth, underdevelopment, exposure and starvation was examined over 6 years in an upland flock and analysed in relation to breed, breeding system and other factors. These causes accounted for more than a quarter of the deaths and contributed to many more.

The frequency of death due to these causes was greater in lambs light at birth. The incidence of these causes of death differed significantly between the breeds, Scottish Blackface, Cheviot and Welsh Mountain and their crosses, but for the separate categories breed variation was significant only for the incidence of death by starvation, which was also less frequent in cross-breds than purebreds. Mortality from several of these causes was increased by inbreeding (25–59%), but decreased by crossing inbred lines. Lambs born to line-cross or other non-inbred dams had a relatively low incidence of these various causes of death. For underdeveloped lambs variation due to maternal inbreeding was significant. When classes were adjusted for difference in birth weight, breed variation in mortality was greatly enhanced but variation due to inbreeding much reduced.

Slightly more twins than single-born lambs died from these causes and triplets fared worst, but such variation was significant only for death from exposure. Mortality from these causes varied significantly with parity of dam, being highest in the first, and mortality in males was slightly but not significantly higher than in females.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 100 , Issue 3 , June 1983 , pp. 563 - 570
Copyright
Copyright © Cambridge University Press 1983

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References

Alexander, G. & Peterson, J. E. (1961). Neonatal mortality in lambs. Intensive observations during lambing in a flock of maiden Merino ewes. Australian Veterinary Journal 37, 371381.CrossRefGoogle Scholar
Croker, K. P. (1968). Lamb mortality on Agricultural Research Stations. Journal of Agriculture, Western Australia 9, 5155.Google Scholar
Dalton, D. C., Knight, T. W. & Johnson, D. L. (1980). Lamb survival in sheep breeds on New Zealand hill country. New Zealand Journal of Agricultural Research 23, 167173.CrossRefGoogle Scholar
Hight, G. K. & Jury, K. E. (1969). Lamb mortality in hill country flocks. Proceedings of the New Zealand Society of Animal Production 29, 219232.Google Scholar
Johnston, W. S. (1977). Caithness sheep loss survey: perinatal lamb losses. In Perinatal Losses in Lambs. A collection of papers from a symposium at Stirling University, February 1975. Publication of the East of Scotland College of Agriculture.Google Scholar
Johnston, W. S., Maclachlan, G. K. & Murray, I. S. (1980). A survey of sheep losses and their causes on commercial farms in the North of Scotland. Veterinary Record 106, 238240.CrossRefGoogle ScholarPubMed
Leech, F. B., Vessey, M. P. & Menzies, D. W. (1964). An analysis of the results of post-mortem examinations of sheep. November 1959–October 1961. In Animal Diseases Surveys: Report No. 3. Ministry of Agriculture, Fisheries and Food. London: H.M.S.O.Google Scholar
McDonald, J. W. (1966). Variation in perinatal mortality of lambs with age and parity of ewes. Proceedings of the Australian Society of Animal Production 6, 6062.Google Scholar
McFarlane, D. (1955). Neonatal lamb mortality in the Gisborne area. Proceedings of the New Zealand Society of Animal Production 15, 104119.Google Scholar
Macleod, N. S. M., Wiener, G. & Woolliams, C. (1983). The effects of breed, breeding system and other factors on lamb mortality. 4. Factors influencing the incidence of infectious and non-infectious diseases as causes of death. Journal of Agricultural Science, Cambridge 100, 571580.CrossRefGoogle Scholar
Samson, D. E. & Slee, J. (1981). Factors affecting resistance to induced body cooling in newborn lambs of 10 breeds. Animal Production 33, 5965.Google Scholar
Slee, J. (1982). Survival of the ovine neonate under cold stress. In Technical Report, World Meteorological Organisation (in the Press).Google Scholar
Slee, J., Griffiths, R. G. & Samson, D. E. (1980). Hypothermia in newborn lambs induced by experimental immersion in a water bath and by natural exposure outdoors. Research in Veterinary Science 28, 275280.CrossRefGoogle Scholar
Smith, I. D. (1964). Ovine neonatal mortality in Western Queensland. Proceedings of the Australian Society of Animal Production 5, 100106.Google Scholar
Speedy, A. W., Linklater, K. A., Mackenzie, C. G., Macmillan, D. R. & Blance, E. W. (1977). A survey of perinatal mortality in upland sheep flocks in South East Scotland. In Perinatal Losses in Lambs. A collection of papers from a symposium at Stirling University, February 1975. Publication of the East of Scotland College of Agriculture.Google Scholar
Sykes, A. R., Griffiths, R. G. & Slee, J. (1976). Influence of breed, birth weight and weather on the body temperature of newborn lambs. Animal Production 22, 395402.Google Scholar
Vetter, R. L., Norton, H. W. & Garrigus, U. S. (1960). A study of preweaning death losses in lambs. Journal of Animal Science 19, 616619.CrossRefGoogle Scholar
Wiener, G., Woolliams, C. & Macleod, N. S. M. (1983). The effects of breed, breeding system and other factors on lamb mortality. 1. Causes of death and effects on the incidence of losses. Journal of Agricultural Science, Cambridge 100, 539551.CrossRefGoogle Scholar
Woolliams, C., Wiener, G. & Macleod, N. S. M. (1983). The effects of breed, breeding system and other factors on lamb mortality. 2. Factors influencing the incidence of delayed birth, dystokia, congenital defects and miscellaneous causes of early death. Journal of Agricultural Science, Cambridge 100, 553561.CrossRefGoogle Scholar