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Studies in the environmental physiology of cattle in Northern Rhodesia. I. The relation between the changes in the haemoglobin index with age and the development of the heat toleration coefficient

Published online by Cambridge University Press:  27 March 2009

C. A. Walker
C. A. Walker
Affiliation:
Central Research Station, Mazabuka, Northern Rhodesia
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Extract

An investigation has been made on the changes in the haemoglobin index with age in four breeds of indigenous African and two breeds of European cattle.

1. Support is given to previous findings that the haemoglobin index was high and variable at birth and fell to an individual more stable adult level at between 2 and 3 years of age.

2. The haemoglobin levels for mature animals of the four tropical breeds are higher than mean figures quoted for other tropical cattle, but still fall within the ranges quoted.

3. The haemoglobin levels for the Friesian agreed with those quoted from temperate regions, but those for the Jersey were higher, agreeing most nearly with Jamaican figures. A reason for this is advanced.

4. The haemoglobin levels of the tropical breeds were significantly higher than those of the two temperate breeds examined.

5. Confirmation was given to the association of a high haemoglobin index with a high heat toleration coefficient.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 51 , Issue 1 , August 1958 , pp. 119 - 122
Copyright
Copyright © Cambridge University Press 1958

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References

REFERENCES

Benezra, M. V. (1953). A new index for measuring the adaptability of cattle to tropical conditions. Cent. Univ. Venezuela Publ.Google Scholar
Bonsma, J. (1948). Fmg in S. Afr. 23, 439Google Scholar
Daubney, K. (1942). E. Afr. Agric. J. 7, 127.Google Scholar
Duckworth, J. & Rattray, G. B. (1948). Emp. J. Exp. Agric. 16, 14.Google Scholar
Findlay, J. D. (1950). The effects of temperature, humidity, air movement and solar radiation upon the behaviour and physiology of cattle and other farm animals. Bull. Hannah Dairy Inst., no. 9.Google Scholar
Galaas, B. F. (1947 a). J. Dairy Sci. 30, 7985.Google Scholar
Galaas, B. F. (1947 b). Science, 106, 416.Google Scholar
Lee, D. H. K. (1953). Johns Hopk. Univ. Publ.Google Scholar
Manresa, M. (1939). Philipp. J. Agric. 28, 187.Google Scholar
Manresa, M., Gomez, F. & Santos, F. O. (1939). Philipp. J. Agric. 28, 79.Google Scholar
Payne, W. J. A. & Hancock, J. (1957). Emp. J. Exp. Agric. 25, 321.Google Scholar
Rhoad, A. O. (1944). Trop. Agric. 21, 162.Google Scholar
Stewart, J. (1945). J. Gomp. Path. 55, 46.Google Scholar