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Effects of dehydration on the heat tolerance of male and female New Zealand White rabbits

Published online by Cambridge University Press:  27 March 2009

C. J. Thwaites ,
N. B. Baillie  and
W. Kasa
C. J. Thwaites
Affiliation:
Department of Animal Science, University of New England, Armidale, NSW 2351, Australia
N. B. Baillie
Affiliation:
Department of Animal Science, University of New England, Armidale, NSW 2351, Australia
W. Kasa
Affiliation:
Department of Animal Science, University of New England, Armidale, NSW 2351, Australia
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Summary

Male and female New Zealand White rabbits were exposed for 3h to 34 °C and 36 °C (both at 40% r.h.) when hydrated and dehydrated. Females had lower rectal and skin temperatures and respiratory rates than males (P < 0·001). Differences between the sexes in rectal temperature were greater at 36 °C than at 34 °C. Withholding water for 24h significantly increased the responses in rectal temperature; the differentials between hydrated and dehydrated males and females being 0·3 °C and 0·2 °C, respectively. In contrast, respiratory rates were lower in dehydrated than in hydrated rabbits, suggesting that the former were attempting water homeostatis at the expense of thermoregulation.

The results suggest that the performance of rabbits in the tropics is likely to be maximized when drinking water is available at all times, and that of males, particularly breeding bucks, might be improved simply by housing them in the coolest available location. Significant individual differences in observed responses point to the need for genetic studies of heat tolerance and the possibility of developing better adapted genotypes.

Type
Animals
Information
The Journal of Agricultural Science , Volume 115 , Issue 3 , December 1990 , pp. 437 - 440
Copyright
Copyright © Cambridge University Press 1990

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References

REFERENCES

Bianca, W. (1965). Sweating in dehydrated steers. Research in Veterinary Science 6, 3367.CrossRefGoogle ScholarPubMed
Cheeke, P. R., Patton, N. M., Lukefahr, S. D. & McNitt, J. I. (1988). Rabbit Production, 6th edn.Danville, Illinois: Interstate Publishers.Google Scholar
Johnson, H. D., Ragsdale, A. C. & Cheng, C. S. (1957). Comparison of the effects of environmental temperatures on rabbits and cattle. Research Bulletin, Missouri Agricultural Research Station No. 646.Google Scholar
Lee, D. H. K., Robinson, K. W. & Hines, H. J. G. (1941). Reactions of the rabbit to hot atmospheres. Proceedings of the Royal Society of Queensland 53, 129144.CrossRefGoogle Scholar
Murray, D. M. & Yeates, N. T. M. (1967). Walking trials with cattle. II. A comparison of bulls, steers and heifers. Journal of Agricultural Science, Cambridge 69, 7178.CrossRefGoogle Scholar
Slee, J. (1970). Resistance to body cooling in male and female sheep, and the effects of previous exposure to chronic cold, acute cold and repeated short cold shocks. Animal Production 12, 1321.Google Scholar
Turner, H. G. (1982). Genetic variation of rectal temperature in cows and its relationship to fertility. Animal Production 35, 401412.Google Scholar
Yeates, N. T. M., Edey, T. N. & Hill, M. K. (1975). Animal Science: Reproduction, Climate, Meat, Wool. Sydney: Pergamon.Google Scholar