Hostname: page-component-848d4c4894-pjpqr Total loading time: 0 Render date: 2024-06-20T13:33:47.813Z Has data issue: false hasContentIssue false
  • English
  • Français

The growth and carcass characteristics of crosses of Hereford and Friesian with Angoni, Barotse and Boran cattle in Zambia

Published online by Cambridge University Press:  27 March 2009

W. Thorpe ,
D. K. R. Cruickshank  and
R. Thompson
W. Thorpe
Affiliation:
Central Research Station, Mazabuka, Zambia
D. K. R. Cruickshank
Affiliation:
Central Research Station, Mazabuka, Zambia
R. Thompson
Affiliation:
A.B.C. Unit of Statistics, University of Edinburgh
Get access Rights & Permissions [Opens in a new window]

Summary

Seven hundred and fifty purebred Angoni, Barotse and Boran cattle and their crosses sired by Friesian and Hereford bulls were compared for live-weight and carcass characters in Zambia. The cattle were born between September and December in three consecutive years and were reared on unimproved veld. In the first year all females and a random half of the males received supplementary feed in winter and the males were slaughtered at 2·5 years of age. The remaining males received the same total amount of winter supplementary feed prior to slaughter at 3·0 years of age. The males born in the second year were pen fed for a period prior to slaughter at 3·0 years of age. Males born in the third year were slaughtered at 3·5 years of age and received no supplementary feed.

Genotype differences were important at all live weights and there were year of birth x genotype interactions at the 0·5, 1·0 and 1·5 year weights and a genotype × feed treatment interaction at the 2×0 year weight. Boran purebreds were heavier than the Angoni and Barotse purebreds; at 3·0 years the differences were +42·3 kg ( + 12·9%) and + 25·2 kg (+ 7·7 %) respectively. Cross-breds had heavier live weights than their corresponding purebreds with Boran crosses consistently heavier than the Angoni and Barotse crosses. The Friesian and Hereford sired Boran cross-breds were + 51·0 kg (+13·5 %) and + 43·0 kg (+ 11·6 %) heavier respectively than the purebred Borans at 3·0 years of age.

There were large differences between the genotypes for all carcass characters with Borans having heavier carcasses than the Angonis and Barotses by + 20·3 kg (+ 10·6 %) and + 19·1 kg ( + 10·0%) respectively. The average carcass weight advantages of Friesian and Hereford crosses with the Angoni, Barotse and Boran breeds over the corresponding purebreds were + 40·3 kg ( + 19·0%), + 33·6 kg ( + 16·2%) and + 31·0 kg ( + 14·0%) respectively. There were few important carcass differences between the corresponding Friesian and Hereford crosses.

The mortality rate during the experiment was 8·2% with only small differences between genotypes.

The interactions found in the experiment indicated that breed comparisons should be conducted over a number of years and at various management levels. For growth and carcass production under the conditions of the experiment the use of exotic crossbreds is clearly advantageous.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 93 , Issue 2 , October 1979 , pp. 423 - 430
Copyright
Copyright © Cambridge University Press 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

AGRICULTURAL RESEARCH COUNCIL (1965). Recommended Procedures for Use in the Measurement of Beef Cattle and Carcasses. London: Agricultural Research Council.Google Scholar
Kebede, B., Galal, E. S. E., Woldb, A. G., O'Donovan, P. B., Gebrelul, S., Woldegebriel, A. & Mariam, H. G. (1977). Study on growth rate of F1 calves. Animal Production Bulletin No. 1. Institute of Agricultural Research, Addis Ababa.Google Scholar
Koger, M. (1973). Alternative procedures in crossbreeding. In Crossbreeding Beef Cattle, series 2 (ed. Koger, M., Cunha, T. J. and Warnick, A. C.), pp. 448453. Gainesville: University of Florida Press.Google Scholar
Ledges, H. P., Gilliver, B. & Robb, J. M. (1973). An examination of sample joint and specific gravity techniques for assessing the carcass composition of steers slaughtered in commercial abattoirs. Journal of Agricultural Science, Cambridge 80, 381392.CrossRefGoogle Scholar
Mason, I. L. & Maule, J. P. (1960). The Indigenous Livestock of Eastern and Southern Africa. Commonwealth Agricultural Bureau.Google Scholar
Rakha, A. M., Hale, D. & Igboeli, G. (1970). The age of puberty in local breeds of cattle in Central Africa. Journal of Reproduction and Fertility 22, 369370.CrossRefGoogle ScholarPubMed
Rakha, A. M., Igboeli, G. & King, J. L. (1971). Calving interval, gestation and postpartum periods of indigenous Central African cattle under a restricted system of breeding. Journal of Animal Science 32, 507509.CrossRefGoogle Scholar
Rennte, T., Light, D., Rutherford, A., Miller, M., Fisher, I., Pratchett, D., Capper, B., Buck, N. & Trail, J. (1977). Beef cattle productivity under traditional and improved management in Botswana. Tropical Animal Health and Production 9, 16.CrossRefGoogle Scholar
Smith, C. A. (1959). Studies on the Northern Rhodesian Hyparrhenia veld. Part 1. The grazing behaviour of indigenous cattle grazed at light and heavy stocking rates. Journal of Agricultural Science, Cambridge 52, 369375.CrossRefGoogle Scholar
Tonn, R. (1974). The suitability of the Boran and its crosses with European breeds for range beef production in the tropics, investigated on ranches in the Rift Valley of Kenya. Thesis, Georg-August-Universitat, Gottingen.Google Scholar
Trail, J. C. M. (1969). A study of performance traits of crossbred cattle in a new beef cattle ranching area of Uganda. Ph.D. Thesis, University of Edinburgh.Google Scholar
Trail, J. C. M., Buck, N. G., Light, D., Rennie, T. W., Rutherfobd, A., Miller, M., Pratchett, D. & Capper, B. S. (1977). Productivity of Africander, Tswana, Tuli and crossbred beef cattle in Botswana Animal Production 24, 5762.Google Scholar
Trail, J. C. M., Sacker, G. D. & Mabples, H. J. S. (1971). Crossbreeding beef cattle in Western Uganda. 5. Growth and carcass evaluation of castrated males. Animal Production 13, 171180.Google Scholar
Turner, H. N. (1967). Genetic aspects of characteristics to be considered in the evaluation and utilization of indigenous livestock. World Review of Animal Production 3, 1726.Google Scholar
Walker, C. A. (1964). The growth and development of the beef qualities of Angoni cattle (East African zebu). Journal of Agricultural Science, Cambridge 63, 135172.CrossRefGoogle Scholar