Body composition studies with the milk-fed lamb. III. The effect of the protein and energy intake on the composition of the live-weight gain

B. W. Norton; K. T. Jagusch; D. M. Walker

doi:10.1017/S002185960001697X

Summary

Nineteen male cross-bred lambs, aged between 2 and 5 days, were allotted to each of three dietary treatments. The protein contents of the diets (on a dry-matter basis) were 12·0% (diet A), 28·5% (diet B) and 45·5% (diet C). The energy intakes of groups of lambs within each dietary treatment varied from below maintenance to ad lib.

The experimental period was of 3 weeks and the composition of the live-weight gain was estimated by the comparative slaughter method.

Body composition within each dietary treatment was highly correlated with empty body weight, but not with the previous energy intake. The fat content of the gain decreased, and the water and protein contents increased, as the dietary-protein concentration increased.

When compared at the same empty body weight, the protein content of the fat-free body of lambs given diet C was significantly higher than that of lambs given diet A. This effect of dietary-protein concentration could not be explained by differences in the amounts of protein stored as wool.

References

REFERENCES

Agricultural Research Council (1965). The nutrient requirements of farm livestock. No. 2. Ruminants. Technical Reviews and Summaries. London: H.M.S.O.Google Scholar

Huxley, J. S. (1924). Constant differential growth-ratios and their significance. Nature, Lond. 114, 895–6.Google Scholar

Jagusch, K. T., Norton, B. W. & Walker, D. M. (1970). Body composition studies with the milk-fed lamb. 1. Chemical composition and calorific content of the body and organs of newly-born lambs. J. agric. Sci., Camb. 75, 273–7.Google Scholar

Langlands, J. P. & Sutherland, H. A. M. (1969). An estimate of the nutrients utilized for live-weight gain by Merino sheep. Br. J. Nutr. 23, 603–9.Google Scholar

Walker, D. M. & Cook, L. J. (1967). Nitrogen balance studies with the milk-fed lamb. 4. Effect of different nitrogen and sulphur intakes on live-weight gain and wool growth and on nitrogen and sulphur balances. Br. J. Nutr. 21, 237–56.Google Scholar

Walker, D. M. & Norton, B. W. (1970). Nitrogen balance studies with the milk-fed lamb. 9. Energy and protein requirements for maintenance, liveweight gain and wool growth. Br. J. Nutr. 24 (in the Press).Google Scholar

Weil, W. B. & Wallace, W. M. (1963). The effect of variable food intakes on growth and body composition. Ann. N.Y. Acad. Sci. 110, 358–73.Google Scholar

Crossref Citations

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

Jagusch, K. T. Norton, B. W. and Walker, D. M. 1970. Body composition studies with the milk-fed lamb. II. The effect of the age of the lamb and the protein content of the diet on the chemical composition of the body and its organs. The Journal of Agricultural Science, Vol. 75, Issue. 2, p. 279.

Norton, B. W. and Walker, D. M. 1971. Nitrogen balance studies with the milk-fed lamb. British Journal of Nutrition, Vol. 26, Issue. 1, p. 7.

Ørskov, E. R. McDonald, I. Fraser, C. and Corse, Elizabeth L. 1971. The nutrition of the early weaned lamb:III. The effect of ad libitum intake of diets varying in protein concentration on performance and on body composition at different live weights. The Journal of Agricultural Science, Vol. 77, Issue. 3, p. 351.

Kellaway, R. C. 1973. The effects of plane of nutrition, genotype and sex on growth, body composition and wool production in grazing sheep. The Journal of Agricultural Science, Vol. 80, Issue. 1, p. 17.

Donnelly, P.E. and Hutton, J.B. 1976. Effects of dietary protein and energy on the growth of Friesian bull calves. New Zealand Journal of Agricultural Research, Vol. 19, Issue. 4, p. 409.

Searle, T. W. and Griffiths, D. A. 1976. The body composition of growing sheep during milk feeding, and the effect on composition of weaning at various body weights. The Journal of Agricultural Science, Vol. 86, Issue. 3, p. 483.

Lindsay, J. A. and Davies, H. L. 1981. Dietary nitrogen concentration in growing cattle: the effect on growth rate, feed utilization and body composition. Animal Science, Vol. 32, Issue. 1, p. 85.

Dryden, G.McL. 1981. The simulation of growth rate in grazing sheep—A comparison of the NRC and ARC feeding standards. Agricultural Systems, Vol. 7, Issue. 3, p. 189.

Wilson, R. H. and Leibholz, Jane 1981. Digestion in the pig between 7 and 35 d of age. British Journal of Nutrition, Vol. 45, Issue. 2, p. 301.

Theriez, M Villette, Y and Castrillo, C 1982. Influence of metabolizable energy content of the diet and of feeding level on lamb performances. I. growth and body composition. Livestock Production Science, Vol. 9, Issue. 4, p. 471.

Gerson, T. John, A. Shelton, I. D. and Sinclair, B. R. 1982. Effects of dietary N on lipids of rumen digesta, plasma, liver, muscle and perirenal fat in sheep. The Journal of Agricultural Science, Vol. 99, Issue. 1, p. 71.

Jagusch, K. T. Duganzich, D. M. and Kidd, G. T. 1983. Efficiency of goat milk utilisation by milk-fed kids. New Zealand Journal of Agricultural Research, Vol. 26, Issue. 4, p. 443.

Walker, D. M 1986. Body composition of animals during sucking and the immediate post-weaning period. Proceedings of the Nutrition Society, Vol. 45, Issue. 1, p. 81.

Sanz Sampelayo, M. R. Ruiz, I. Gil, F. and Boza, J. 1990. Body composition of goat kids during sucking. Voluntary feed intake. British Journal of Nutrition, Vol. 64, Issue. 3, p. 611.

Blome, R. M. Drackley, J. K. McKeith, F. K. Hutjens, M. F. and McCoy, G. C. 2003. Growth, nutrient utilization, and body composition of dairy calves fed milk replacers containing different amounts of protein1. Journal of Animal Science, Vol. 81, Issue. 6, p. 1641.

Hegarty, R. S. Hopkins, D. L. Farrell, T. C. Banks, R. and Harden, S. 2006. Effects of available nutrition and sire breeding values for growth and muscling on the development of crossbred lambs. 2: Composition and commercial yield. Australian Journal of Agricultural Research, Vol. 57, Issue. 6, p. 617.

Danso, A. S. Morel, P. C. H. Kenyon, P. R. and Blair, H. T. 2016. Effect of different feeding regimens on energy and protein utilization and partitioning for maintenance and growth in pre-weaned lambs reared artificially1. Journal of Animal Science, Vol. 94, Issue. 12, p. 5359.

Danso, A.S. Morel, P.C.H. Kenyon, P.R. and Blair, H.T. 2018. Effects of dietary protein and energy intake on growth, body composition and nutrient utilisation in lambs reared artificially with milk replacers and pellet feeds. Animal Feed Science and Technology, Vol. 237, Issue. , p. 35.

Herath, H.M.G.P. Pain, S.J. Kenyon, P.R. Blair, H.T. and Morel, P.C.H. 2020. Effect of dietary protein to energy ratio of milk replacer on growth and body composition of pre-weaned lambs reared artificially. Animal Feed Science and Technology, Vol. 264, Issue. , p. 114478.

Article contents

Body composition studies with the milk-fed lamb. III. The effect of the protein and energy intake on the composition of the live-weight gain

Summary

Access options

References

REFERENCES

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

Article contents

Body composition studies with the milk-fed lamb. III. The effect of the protein and energy intake on the composition of the live-weight gain

Summary

Access options

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