Hostname: page-component-78c5997874-j824f Total loading time: 0 Render date: 2024-11-14T04:39:03.180Z Has data issue: false hasContentIssue false

Allometry of food intake and grazing behaviour with body size in cattle

Published online by Cambridge University Press:  27 March 2009

A. W. Illius
Affiliation:
School of Agriculture, University of Edinburgh, West Mains Road, Edinburgh EH9 3JG, UK

Summary

In 2 years two groups of 32 grazing cattle were used to examine the effects of previous grazing treatment and of body size on grazing behaviour and herbage organic matter intake (HOMI). Compensatory intake resulted from differences in grazing time only in the first year. There were no sex differences in intake when account was taken of differences in mature size raised to the power 0·73. Bite weight was related to the degree of maturity by the allometric coefficient of 0·46, and HOMI was similarly related by the coefficient of 0·36. This accords with the predicted effects of restricted grazing conditions on animals of different weight, and with allometric changes with weight in incisor breadth. Decreases in intake under grazing were similar in animals differing in maturity and weight. It is suggested that under constant grazing conditions the change in grazed herbage intake as animals mature reflects the allometric change in bite weight and a corresponding decline in bite numbers, resulting in consumption of a constant proportion of ad libitum intake.

Type
Review
Copyright
Copyright © Cambridge University Press 1989

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Agricultural Research Council. (1980). The Nutritional Requirements of Ruminant Livestock. Slough: Commonwealth Agricultural Bureaux.Google Scholar
Allden, W. G. & Whittaker, I. A. MCD. (1970). The determinants of herbage intake by grazing sheep: the interrelationship of factors influencing herbage intake and availability. Australian Journal of Agricultural Research 21, 755766.CrossRefGoogle Scholar
Arnold, G. W. (1981). Grazing behaviour. In Grazing Animals (Ed. Morley, F. H. W.), pp. 76104. Amsterdam: Elsevier.Google Scholar
Barthram, G. T. (1980). Sward structure and the depth of the grazed horizon. Grass and Forage Science 36, 130131.Google Scholar
Hodgson, J. (1982). Ingestive behaviour In Herbage Intake Handbook (Ed. Leaver, J. D.) Hurley: British Grassland Society.Google Scholar
Hodgson, J. (1985). The control of herbage intake in the grazing ruminant. Proceedings of the Nutrition Society 44, 339346.CrossRefGoogle ScholarPubMed
Hodgson, J. & Rodriguez Capriles, J. M. (1971). The measurement of herbage intake in grazing studies. Annual Report 1970, Grassland Research Institute, Hurley 132140.Google Scholar
Hodgson, J. & Wilkinson, J. M. (1967). The relationship between live weight an herbage intake in grazing cattle. Animal Production 9, 365376.Google Scholar
Illius, A. W. & Gordon, I. J. (1987). The allometry of food intake in grazing ruminants. Journal of Animal Ecology 56, 989999.CrossRefGoogle Scholar
Illius, A. W., Lowman, B. G. & Hunter, E. A. (1987). Control of sward conditions and apparent utilisation of energy in the buffer grazing system. Grass and Forage Science 42, 283295.CrossRefGoogle Scholar
Jamieson, W. S. & Hodgson, J. (1979a). The effect of daily herbage allowance and sward characteristics upon the ingestive behaviour and herbage intake of calves under strip-grazing management. Grass and Forage Science 34, 261271.CrossRefGoogle Scholar
Jamieson, W. S. & Hodgson, J. (1979b). The effects of variation in sward characterstics upon the ingestive behaviour and herbage intake of calves and lambs under a continuous stocking management. Grass and Forage Science 34, 273282.CrossRefGoogle Scholar
O'Donovan, P. B. (1984). Compensatory gain in cattle and sheep. Nutrition Abstracts and Reviews, Series B 54, 389410.Google Scholar
Taylor, St. C. S. (1965). A relation between mature weight and time taken to mature in mammals. Animal Production 7, 203220.Google Scholar
Taylor, St. C. S., Moore, A. J. & Thiessen, R. B. (1986). Voluntary food intake in relation to body weight among British breeds of cattle. Animal Production 42, 1119.Google Scholar
Taylor, St. C. S. & Murray, J. I. (1987). Voluntary food intake of cattle differing in breed size in a time-control feeding system. Animal Production 45, 433452.Google Scholar
Taylor, St. C. S., Murray, J. I. & Illius, A. W. (1987). Relative growth of incisor arcade breadth and eating rate in cattle and sheep. Animal Production 45, 453458.Google Scholar
Taylor, St. C. S., Turner, H. G. & Young, G. B. (1981). Genetic control of equilibrium maintenance efficiency in cattle. Animal Production, 33, 179194.Google Scholar
Zoby, J. L. F. & Holmes, W. (1983). The influence of size of animal and stocking rate in the herbage intake and grazing behaviour of cattle. Journal of-Agricultural Science, Cambridge 100, 139148.CrossRefGoogle Scholar