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Effect of air temperature and feed intake on live weight and water balance in sheep

Published online by Cambridge University Press:  27 March 2009

A. A. Degen  and
B. A. Young
A. A. Degen
Affiliation:
Department of Animal Science, University of Alberta, Edmonton, Alberta, Canada T6G 2E3
B. A. Young
Affiliation:
Department of Animal Science, University of Alberta, Edmonton, Alberta, Canada T6G 2E3
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Extract

Environmental conditions (Clark & Quin, 1949; Daws & Squires, 1974; Degen & Young, 1980) and total feed intake (Clark & Quin, 1949; Forbes, 1968; Degen & Young, 1980) influence the water intake of sheep. In general, high temperatures increase the requirements for water needed for evaporative cooling and high feed intakes necessitate more water for excretion of waste products. This study was designed to measure water intake and estimate the partition of water output in sheep maintained at four air temperatures and offered four levels of a ration.

Type
Short Note
Information
The Journal of Agricultural Science , Volume 96 , Issue 2 , April 1981 , pp. 493 - 496
Copyright
Copyright © Cambridge University Press 1981

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References

REFERENCES

Anand, R. S., Parker, A. H. & Parker, H. R. (1966). Total body water and water turnover in sheep. American Journal of Veterinary Research 27, 899902.Google ScholarPubMed
Bailey, C. B. (1964). Effect of environmental temperature on feed digestion, water metabolism, body temperature, and certain blood characteristics of sheep. Canadian Journal of Animal Science 44, 6875.CrossRefGoogle Scholar
Clark, R. & Quin, J. I. (1949). Studies on the water requirements of farm animals in South Africa. II. The relationship between water consumption, food consumption and atmospheric temperature as studied on Merino sheep. Onderstepoort Journal of Veterinary Science and Animal Industry 22, 345356.Google Scholar
Daws, G. T. & Squires, V. R. (1974). Observations on the effects of temperature and distance to water on the behaviour of Merino and Border Leicester sheep. Journal of Agricultural Science, Cambridge 82, 383390.CrossRefGoogle Scholar
Degen, A. A. (1977). Responses to dehydration in native fat-tailed Awassi and imported German Mutton Merino sheep. Physiological Zoology 50, 284293.CrossRefGoogle Scholar
Degen, A. A. & Young, B. A. (1980). Effect of cold exposure on live weight and body fluid compartments in sheep. Canadian Journal of Animal Science 60, 3341.CrossRefGoogle Scholar
Donnelly, J. R. & Freer, M. (1974). Prediction of body composition in live sheep. Australian Journal of Agricultural Research 25, 825834.CrossRefGoogle Scholar
Forbes, J. M. (1968). The water intake in ewes. British Journal of Nutrition 22, 3343.CrossRefGoogle ScholarPubMed
MacFarlane, W. V. & Howard, B. (1974). Ruminant water metabolism in arid areas. In Studies of the Australian Arid Zone. II. Animal Production (ed. Wilson, A. D.), pp. 722. Australia: C.S.I.R.O.Google Scholar
National Research Council (1969). Joint United States-Canadian Tables of Feed Composition. Washington, D.C.: National Research Council.Google Scholar
Panaretto, B. A. (1963). Body composition in vivo. III. The composition of living ruminants and its relation to the tritiated water spaces. Australian Journal of Agricultural Research 14, 944952.CrossRefGoogle Scholar
Panaretto, B. A. (1968). Some metabolic effects of cold stress on undernourished non-pregnant owes. Australian Journal of Agricultural Research 19, 273282.CrossRefGoogle 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
Wallace, J. D., Hyder, K. L. & Knox, K. L. (1972). Water metabolism in sheep fed forage rations differing in digestibility. American Journal of Veterinary Research 33, 921927.Google ScholarPubMed