Hostname: page-component-7479d7b7d-68ccn Total loading time: 0 Render date: 2024-07-13T00:22:51.689Z Has data issue: false hasContentIssue false
  • English
  • Français

Studies of rectal temperature, respiratory rates and heat tolerance in cattle in the humid tropics

Published online by Cambridge University Press:  02 September 2010

S. F. Amakiri  and
O. N. Funsho
S. F. Amakiri
Affiliation:
Department of Veterinary Anatomy, University of Ibadan, Nigeria
O. N. Funsho
Affiliation:
Department of Veterinary Anatomy, University of Ibadan, Nigeria
Get access

Abstract

The rectal temperature and respiratory rates of German Brown, Friesian, German Brown/Friesian crosses, N'Dama and German Brown/N'Dama (BN) crosses were studied with a view to establishing baseline data for cattle in the humid tropical environment of Nigeria.

Mean morning (38·62°C) and late afternoon (39·19°C) rectal temperatures for the various breeds were found to differ significantly (P<0·01). However, general breed differences as well as differences between heifers, milking cows, bulls and calves were not significant. Respiratory rates (counts/min) were also significantly higher (P<0·01) in the afternoon than in the morning and appeared related to changes in atmospheric temperature and relative humidity. Breed differences in respiratory rates were also significant, being within the range 17 to 34 in N'Dama, 24 to 43 in BNs and 29 to 51 in the German Brown and Friesian.

Heat tolerance indices were very high (89 to 91) for all the breeds studied but showed that the Friesian and German Brown were less heat tolerant than the BNs, and the N'Dama and White Fulani. The results indicate the need to consider diurnal changes in rectal temperature and respiratory rates in the use of these parameters for clinical diagnostic purposes.

Type
Research Article
Information
Animal Production , Volume 28 , Issue 3 , June 1979 , pp. 329 - 335
Copyright
Copyright © British Society of Animal Science 1979

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

Allen, T. E. 1962. Responses of Zebu, Jersey and Zebu Jersey crossbred heifers to rising body temperature with particular reference to sweating. Aust. J. agric. Res. 13: 165179.CrossRefGoogle Scholar
Amakiri, S. F. 1974. Sweat gland measurements in some tropical and temperate breeds of cattle in Nigeria. Anim. Prod. 18: 285291.Google Scholar
Amakiri, S. F. and Mordi, R. 1975. The rate of cutaneous evaporation in some tropical and temperate breeds of cattle in Nigeria. Anim. Prod. 20: 6368.Google Scholar
Benezra, M. V. 1954. A new index for measuring the adaptability of cattle to tropical conditions. J. Anim. Sci. 13: 1015.Google Scholar
Bianca, W. 1963. Rectal temperature and respiratory rate as indicators of heat tolerance i n cattle. J. agric. Sci., Camb. 60: 113120.Google Scholar
Brody, S. 1956. Climatic physiology of cattle. J. Dairy Sci. 39: 715725.Google Scholar
Burns, M. 1969. Some observations on the adaptations of livestock to tropical environments. Ghana J. Sci. 9: 4149.Google Scholar
Findlay, J. D. 1950. The effects of temperature, humidity, air movement and solar radiation on the behaviour and physiology of cattle and other farm animals. Hannah Dairy Res. Jnst. Bull., No. 9.Google Scholar
Gaalaas, R. F. 1947. A study of heat tolerance in Jersey cows. J. Dairy Sci. 30: 7985.CrossRefGoogle Scholar
Hill, D. H. 1960. Skin and hair fibre structure in relation to heat tolerance studies in cattle. 3rd Ann. Conf. West Afr. Sci. Ass., Univ. Ibadan, Nigeria.Google Scholar
Kahoun, J. 1971. Heat tolerance in West African cattle. Ghana J. Sci. 11: 1926.Google Scholar
McDowell, R. E. 1972. Improvement of Livestock Production in Warm Climates, pp. 5153, 711. W. H. Freeman and Co, San Francisco.Google Scholar
Ojo, O. 1971. Bovine energy balance climatology and livestock potential in Nigeria. Agric. Met. 8: 353369.Google Scholar
Ojo, O. 1973. The distribution of solar radiation and net heat load on cattle in Nigeria. J. Trop. Geogr. 36: 5059.Google Scholar
Payne, W. J. A. 1952. Breeding studies. Agric. J. Fiji 23: 913.Google Scholar
Quartermain, A. R. and Broadbent, M. P. 1974. Some patterns of response to climate by the Zambian goat. E. Afr. agric. For. J. 40: 115124.Google Scholar
Rhoad, A. O. 1944. The Iberia heat tolerance test for cattle. Trop. Agric, Trin. 21: 162164.Google Scholar
Shafie, M. M. and El Sheikh-Aly, L. M. 1970. Heat tolerance of Friesian cattle under Egyptian climatic conditions. UAR. J. Anim. Prod. 10: 99114.Google Scholar
Steinbach, J. 1977. The effect of tropical climate on pig fertility. Anim. Res. Develop. 5: 7378.Google Scholar
Walker, C. A. 1957. Studies of the cattle of Northern Rhodesia. 11. The apocrine gland population of the skin of Northern Rhodesian cattle and its connexion with the heat toleration coefficient. J. agric. Sci., Camb. 49: 401404.Google Scholar