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The grazing ecology of hill and upland swards

Published online by Cambridge University Press:  27 February 2018

J. Hodgson  and
Sheila A. Grant
J. Hodgson
Affiliation:
Hill Farming Research Organisation, Bush Estate, Penicuik, Midlothian EH26 0PY
Sheila A. Grant
Affiliation:
Hill Farming Research Organisation, Bush Estate, Penicuik, Midlothian EH26 0PY
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Abstract

The grazing ecology of hill and upland swards is discussed in terms of (a) the influence of sward characteristics (species composition; plant maturity and morphology; canopy structure) on the ingestive behaviour, diet selection and herbage intake of sheep and cattle, (b) the reciprocal influence of grazing activity upon the species balance of natural and sown plant communities and (c) the importance of plant responses in limiting the impact of variations in grazing managements upon the net rate of herbage production from sown swards. Emphasis is given to the importance of objective criteria of plant morphology and sward canopy structure both in understanding sward and animal responses to management manipulation and in applying the results of grazing studies in farming practice.

Type
Research Article
Information
BSAP Occasional Publication , Volume 10: Hill and Upland Livestock Production , 1985 , pp. 77 - 84
Copyright
Copyright © British Society of Animal Production 1985

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References

Alldfn, W. G. and Whittaker, I. A. McD, . 1970. The determination of herbage intake by grazing sheep: the interrelationship of factors influencing herbage intake and availability. Aust. J: agric. Res. 21: 755766.Google Scholar
Arnold, G. W. 1981. Grazing behaviour. In Grazing Animals (ed. Morley, F. W. H.). pp. 79104. World Animal Science, Vol. B1. Elsevier,Amsterdam.Google Scholar
Ball, D. F., Dale, J., Sheall, J. and Heal, O. W. 1982. Vegetation Change in Upland Landscapes. Institute of Terrestrial Ecology.Google Scholar
Bircham, J. S. 1981. Herbage growth and utilisation under continuous stocking management. Ph.D. Thesis, Univ. Edinburgh.Google Scholar
Bircham, J. S. and Hodgson, J. 1983. The influence of sward condition on rates of herbage growth and senescence in mixed swards under continuous stocking management. Grass and Forage Sci. 38: 323331.Google Scholar
Burlison, A. J. and Hodgson, J. 1985. The influence of sward structure on the mechanics of the grazing process in sheep. Anim. Prod. 40: 530 (Abstr.).Google Scholar
Eadie, J. 1967. The nutrition of grazing hill sheep: utilisation of hill pastures. Hill Farming Research Organisation Fourth Report, 1964-1967, pp. 3845.Google Scholar
Forbes, T. D. A. 1982. Ingestive behaviour and diet selection in grazing cattle. Ph.D. Thesis, Univ. Edinburgh.Google Scholar
Forbes, T. D. A. and Hodgson, J. 1985a. Comparative studies of the influence of sward conditions on the ingestive behaviour of cows and sheep. Grass and Forage Sci. 40: 6977.Google Scholar
Forbes, T. D. A. and Hodgson, J. 1985b. The reaction of grazing sheep and cattle to the presence of dung from the same or the other species. Grass and Forage Sci. 40: 177182.Google Scholar
Freer, M. 1981. The control of food intake by grazing animals. In Grazing Animals (ed. Morley, F. H. W.), pp. 105124. World Animal Science, Vol. B1. Elsevier, Amsterdam.Google Scholar
Grant, S. A., Bartiiram, G. T., Torvell, L., King, J. and Smith, H. K. 1983. Sward management, lamina turnover and tiller population density in continuously stocked Lolium perenne-dominated swards. Grass and Forage Sci. 38: 333344.Google Scholar
Grant, S. A., Bolton, G. R. and Torvell, L. 1985. The responses of blanket bog vegetation to controlled grazing by hill sheep. J. appl. Ecol. 22: In press.Google Scholar
Grant, S. A. and Hodgson, J. 1980. Comparative studies of diet composition and herbage intake by sheep and cattle grazing a range of native hill pastures. Proc. 8th Gen. Mtg European Grassland Federation, Zagreb, 1980. pp. 5.395.47.Google Scholar
Grant, S. A., King, J. and Barthram, G. T. 1985. The role of sward adaptations in buffering herbage production responses to management manipulation. Proc. 15th Int. Grassld Cor. In press.Google Scholar
Grant, S. A., Suckling, D. E., Smith, H. K., Torvell, L., Forbes, T. D. A. and Hodgson, J. 1985. Comparative studies of diet selection by sheep and cattle: the hill grasslands. J. Ecol. 73: In press.Google Scholar
Hendricksen, R. and Minson, D. J. 1980. The feed intake and grazing behaviour of cattle grazing a crop of Lablab purpureus cv. Rongai. J. agric. Sci., Camb. 95: 547554.Google Scholar
Hill Farming Research Organisation. 1981. Indoor studies: in vivo and in vitro digestibility of the diet and voluntary herbage intake. Biennial Report, 1979-81, pp. 4041.Google Scholar
Hodgson, J. 1977. Factors limiting herbage intake by the grazing animal. Proc. Int. Mtg Anim. Prod, from Temp. Grassland, Dublin, pp. 7075.Google Scholar
Hodgson, J. 1982. Influence of sward characteristics on diet selection and herbage intake by the grazing animal. In Nutritional Limits to Animal Production from Pastures (ed. Hacker, J. B.), pp. 153166. CAB, Farnham Royal.Google Scholar
Hodgson, J. 1985. The control of herbage intake in the grazing ruminant. Proc. Nutr. Soc. 44: 339346.Google Scholar
Hodgson, J. and Grant, Sheila A. 1981. Grazing animals and forage resources in the hills and uplands. In The Effective Use of Forage and Animal Resources in the Hills and Uplands (ed. Frame, J.), pp. 4157. Br. Grassld Soc. occ. Symp. No 12.Google Scholar
Hunter, R. F. 1962. Hill sheep and their pasture: a study of sheep-grazing in south-east Scotland. J. Ecol. 50: 651680.Google Scholar
Jones, Ll. I. 1967. Studies on hill land in Wales. Welsh Plant Breeding Station Tech. Bull. No. 12.Google Scholar
Jones, M. G. 1933. Grassland management and its influence on the sward. III. The management of a grassy sward and its effects. Emp. J. exp. Agric. 1: 223234.Google Scholar
King, J. and Nicholson, I. A. 1964. Grasslands of the forest and sub-alpine zones. In The Vegetation of Scotland (ed. Burnett, J. H.), pp. 168231. Oliver and Boyd, London.Google Scholar
King, J., Sim, E. M. and Grant, S. A. 1984. Photosynthetic rate and carbon balance of grazed ryegrass pastures. Grass and Forage Sci. 39:8192.Google Scholar
Maxwell, T. J., Grant, S. A., Milne, J. A. and Sibbald, A. R. 1986. Systems of sheep production on heather moorland. Proc. Hill Land Symposium, Galway. In press.Google Scholar
Milne, J. A., Hodgson, J., Thompson, R., Souter, W. G. and Barthram, G. T. 1982. The diet ingested by sheep grazing swards differing in white clover and perennial ryegrass content. Grass and Forage Sci. 37: 209218.Google Scholar
Parsons, A. J., Leafe, E. L., Collett, B., Penning, P. D. and Lewis, J. 1983. The physiology of grass production under grazing. II. Photosynthesis, crop growth, and animal intake of continuously-grazed swards. J. appl. Ecol. 20: 127139.Google Scholar
Van Dyne, G. M., Brockington, N. R., Szocs, Z., Duek, K. and Ribic, C. A. 1980. Large herbivore sub-system. In Grasslands, Systems Analysis and Man (ed. Bremeyer, A. I. and Dyne, G. M. Van), pp. 269537. Cambridge Univ. Press, Cambridge.Google Scholar