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Crossbreeding beef cattle in Western Uganda 3. Genetic analysis of body weight

Published online by Cambridge University Press:  02 September 2010

J. C. M. Trail ,
G. D. Sacker  and
I. L. Fisher
J. C. M. Trail
Affiliation:
Ministry of Animal Industry, Game and Fisheries, Uganda
G. D. Sacker
Affiliation:
Ministry of Animal Industry, Game and Fisheries, Uganda
I. L. Fisher
Affiliation:
Ministry of Animal Industry, Game and Fisheries, Uganda
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Summary

Genetic influences on body weights, taken at three-monthly intervals from birth to two years, were measured in the progeny of Angus, Boran and Red Poll bulls mated to Ankole, Boran and local Zebu cows. At two years old, progeny of Angus and Red Poll sires were 9% heavier than progeny of Boran sires. Progeny of Boran dams were 15% heavier than progeny of Zebu dams and 8% heavier than progeny of Ankole dams at two years. Differential performance by progeny of Ankole dams in different years suggested that genetic × environment interaction might be of some importance, and indicated the necessity of testing breed types over several years. Low and variable heritability estimates of weight-for-age up to two years old, and significant hybrid vigour effects on weight, indicated that in this environment, exploitation of hybrid vigour could be of great importance. Repeatability estimates for calf pre-weaning weights averaged 0·42.

Type
Research Article
Information
Animal Production , Volume 13 , Issue 1 , February 1971 , pp. 153 - 163
Copyright
Copyright © British Society of Animal Science 1971

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References

REFERENCES

Blackwell, R. L., Knox, J. H., Shelby, C. E. and Clark, R. T. 1962. Genetic analysis of economic characteristics of young Hereford cattle. J. Anim. Sci. 21: 101107.CrossRefGoogle Scholar
Brinks, J. S., Clark, R. T., Kieffer, N. M. and Quesenberry, J. R. 1962. Genetic and environmental factors affecting performance of Hereford bulls. J. Anim. Sci. 21: 777786.CrossRefGoogle Scholar
Brinks, J. S., Clark, R. T., Kieffer, N. M. and Urick, J. J. 1964. Estimates of genetic, environmental and phenotypic parameters in range Hereford females. J. Anim. Sci. 23: 711716.CrossRefGoogle Scholar
Carter, R. C. and Kincaid, C. M. 1959. Estimates of genetic and phenotypic parameters in beef cattle. III. Genetic and phenotypic correlations among economic characters. J. Anim. Sci. 18: 331335.CrossRefGoogle Scholar
Gregory, K. E., Blunn, C. T. and Baker, M. L. 1950. A study of some of the factors influencing the birth and weaning weights of beef calves. J. Anim. Sci. 9: 338346.CrossRefGoogle ScholarPubMed
Harvey, W. R. 1960. Least-squares analysis of data with unequal subclass numbers. United States Department of Agriculture, ARS-20-8.Google Scholar
Koch, R. M. 1951. Size of calves at weaning as a permanent characteristic of range Hereford cows. J. Anim. Sci. 10: 768775.CrossRefGoogle Scholar
Koch, R. M. and Clark, R. T. 1955. Genetic and environmental relationships among economic characters in beef cattle. I. Correlation among paternal and maternal half-sibs. J. Anim. Sci. 14: 775785.CrossRefGoogle Scholar
Koger, M. and Knox, J. M. 1947. The repeatability of the yearly production of range cows. J. Anim. Sci. 6: 461466.CrossRefGoogle ScholarPubMed
Minyard, J. A. and Dinkel, C. A. 1965. Heritability and repeatability of weaning weight in beef cattle. J. Anim. Sci. 24: 10721074.CrossRefGoogle Scholar
Robertson, Alan. 1959. [Population genetics and quantitative inheritance.] In Handbuch der Tierzüchtung, Bd. 2, pp. 77104. Paul Parey, Hamburg and Berlin.Google Scholar
Sacker, G. D., Trail, J. C. M. and Fisher, I. L. 1971. Crossbreeding beef cattle in Western Uganda. 2. Environmental influence on body weight. Anim. Prod. 13: 143152.Google Scholar
Shelby, C. E., Harvey, W. R., Clark, R. T., Quesenberry, J. R. and Woodward, R. R. 1963. Estimates of phenotypic and genetic parameters in ten years of Miles City R.O.P. steer data. J. Anim. Sci. 22: 346353.CrossRefGoogle Scholar
Swiger, L. A. 1961. Genetic and environmental influences on gains of beef cattle during various periods of life. J. Anim. Sci. 20: 183188.CrossRefGoogle Scholar
Swiger, L. A., Koch, R. M., Gregory, K. E. and Arthaud, V. H. 1961. Effect of length of the feeding period on accuracy of selection for gain and feed consumption in beef cattle. J. Anim. Sci. 20: 802808.CrossRefGoogle Scholar
Trail, J. C. M., Sacker, G. D. and Fisher, I. L. 1971. Crossbreeding beef cattle in Western Uganda. 1. Performance of Ankole, Boran and Zebu cows. Anim. Prod. 13: 127141.Google Scholar
Warwick, E. J. 1958. Fifty years of progress in breeding beef cattle. J. Anim. Sci. 17: 922943.CrossRefGoogle Scholar