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The effect of plane of nutrition on the body composition of two breeds of wearier sheep fed a high protein diet

Published online by Cambridge University Press:  27 March 2009

T. W. Searle
Affiliation:
CSIRO, Division of Animal Production, P.O. Box 239, Blacktoun, N.S.W., 2148, Australia
N. McC. Graham
Affiliation:
CSIRO, Division of Animal Production, P.O. Box 239, Blacktoun, N.S.W., 2148, Australia
J. B. Donnelly
Affiliation:
CSIRO, Division of Mathematics and Statistics, P.O. Box 239, Blacktoun, N.S.W., 2148, Australia

Summary

Corriedale and Dorset Horn castrate male (wether) lambs reared at pasture were weaned at 19 kg live weight (LW), brought indoors and fed a high protein diet such that half of each group grew at ca. 200 g/day and the other half at ca. 100 g/day. Animals were slaughtered at 25 and 30 kg LW and chemical composition (protein, fat, energy, water and ash) of the body determined. The relationship between each body component and shorn empty-body weight was examined by regression analysis.

Within levels of feeding the results were similar in the two breeds. When comparisons were made between feeding levels, the slower-growing animals contained more fat, energy and ash than the faster-growing group, less water, but similar amounts of protein at any given empty-body weight.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1982

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References

REFERENCES

Andrews, R. P. & Ørakov, E. R. (1970). The nutrition of the early weaned lamb. II. The effect of dietary protein concentration, feeding level and sex on body composition at two live weights. Journal of Agricultural Science, Cambridge 75, 1926.CrossRefGoogle Scholar
Black, J. L. (1974). Manipulation of body composition through nutrition. Proceedings of the Australian Society of Animal Production 10, 211218.Google Scholar
Burton, J. H. & Reid, J. T. (1969). Interrelationships among energy input, body size, age and body composition of sheep. Journal of Nutrition 97, 517524.CrossRefGoogle ScholarPubMed
Commonwealth Agricultural Bureaux (1980). The Nutrient Requirements of Ruminant Livestock. Commonwealth Agricultural Bureaux, Farnham Royal.Google Scholar
Ferguson, K. A., Hemsley, J. A. & Reis, P. J. (1967). Nutrition and wool growth: the effect of protecting dietary protein from microbial degradation in the rumen. Australian Journal of Science 30, 215217.Google Scholar
Graham, N. McC, Black, J. L. & Faichney, G. J. (1976). Computer simulation of energy and nitrogen utilization in sheep. Proceedings of the 1st International Symposium on Feed Composition, Animal Nutrient Requirements and Computerization of Diets, pp. 447455. (USU: Logan, U.S.A.)Google Scholar
Graham, N. McC. & Searle, T. W. (1982). Energy and nitrogen utilization in young sheep of two breeds with differing capacities for wool growth. Australian Journal of Agricultural Research (in the Press).CrossRefGoogle Scholar
Graham, N. McC, Searle, T. W. & Griffiths, D. A. (1974). Basal metabolic rate in lambs and young sheep. Australian Journal of Agricultural Research 25, 957971.CrossRefGoogle Scholar
Kellaway, R. C. (1973). The effects of plane of nutrition, genotype and sex on growth, body composition and wool production in grazing sheep. Journal of Agricultural Science, Cambridge 80, 1727.CrossRefGoogle Scholar
Margan, D. E., Faichney, G. J., Graham, N. McC. & Donnelly, J. B. (1982). Digestion of a ground and pelleted diet in the stomach and intestines of young sheep of two breeds. Australian Journal of Agricultural Research (in the Press).CrossRefGoogle Scholar
Milligan, L. P. (1971). Energetic efficiency and metabolic transformations. Federation Proceedings 30, 14541458.Google ScholarPubMed
Reid, J. T. (1972). Body composition of animals: interspecific, sex and age peculiarities, and the influence of nutrition. Festskrift Til Knut Breirem — L. S. Spildo, Thor Homb, Harald Hvidsten, Oslo Editorial Committee; Publishers Mariendals Boktrykkeri A. s. Gjøvik.Google Scholar
Searle, T. W. (1970). Body composition in lambs and young sheep and its prediction in vivo from tritiated water space and body weight. Journal of Agricultural Science, Cambridge 74, 357362.CrossRefGoogle Scholar
Searle, T. W., Graham, N. McC. & O'Callaqhan, M. (1972). Growth in sheep. I. The chemical composition of the body. Journal of Agricultural Science, Cambridge 79, 371382.CrossRefGoogle Scholar
Searle, T. W. & Griffiths, D. A. (1976). Differences in body composition between three breeds of sheep. Proceedings of the Australian Society of Animal Production 11, 5760.Google Scholar
Weston, R. H. & Hogan, J. P. (1967). The digestion of chopped and ground roughages by sheep. I. The movement of digesta through the stomach. Australian Journal of Agricultural Research 18, 789801.CrossRefGoogle Scholar