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RESEARCH ARTICLE

Evaluation of Bonsmara and Belmont Red cattle breeds in South Africa. 2. Genetic parameters for growth and fertility

N. J. Corbet A E , R. K. Shepherd B , H. M. Burrow C , K. C. Prayaga A , J. van der Westhuizen D and D. J. Bosman D
+ Author Affiliations
- Author Affiliations

A CSIRO Livestock Industries, Box 5545, Rockhampton, Qld 4702, Australia.

B Central Queensland University, North Rockhampton, Qld 4702, Australia.

C CRC for Cattle and Beef Quality, University of New England, NSW 2351, Australia.

D ARC Animal Improvement Institute, Private Bag X2, Irene 1672, South Africa.

E Corresponding author. Email: nick.corbet@csiro.au

Australian Journal of Experimental Agriculture 46(2) 213-223 https://doi.org/10.1071/EA05224
Submitted: 24 August 2005  Accepted: 15 December 2005   Published: 3 March 2006

Abstract

Genetic parameters were estimated for growth and fertility indicator traits in a South African beef cattle population. Measurements on 5601 pedigreed progeny of 96 Bonsmara sires, 18 Belmont Red sires and 20 Bonsmara × Belmont Red cross sires were recorded over 19 years in 4 diverse climatic regions of South Africa. Growth traits were measured on growing stock from birth to 18 months at pasture. Cow weights were measured at calving and weaning. Age at first calving, and repeated measurements of calving day and calving interval were recorded on 1993 breeding females as indicators of reproductive performance. The traits were analysed using univariate and bivariate animal models with maternal effects fitted.

Direct heritability of growth traits (0.11–0.42) and female fertility traits (0.02–0.13) suggested that genetic progress could be made by selection for some traits. Genetic correlations between growth and fertility traits were variable (–0.47–0.85) and indicated that multi-trait selection would be the best method of dealing with multidirectional forces on productivity traits. Genetic correlations between direct and maternal effects on liveweight traits were mostly negative indicating that genetic improvement of traits with strong maternal influence, such as weaning weight, would be complicated and supported the use of post-weaning weights with less maternal influence as selection criteria to improve the direct additive component of growth. The genetic parameter estimates provide useful reference values for estimation of breeding values in a proposed combined-breed genetic evaluation program.

Additional keywords: genetic correlation, heritability, maternal effects.


Acknowledgments

This study reports on data collected for the South African National Beef Cattle Performance Testing Scheme. The generation of Belmont Red progeny data relied on the initiative of Australian CSIRO and South African Agricultural Department staff to form a collaborative research project in 1981 and introduce semen from Australia to South Africa. Dr George Seifert (ex CSIRO, Australia) and Dr Jan Hofmeyr (ex South African Department of Agriculture) were key personnel involved with the genesis of the collaborative project. We thank the owners of the herds involved with the project and all those responsible for collection, maintenance and retrieval of the data (especially Leslie Bergh, Bernice Mostert, Rain Gerhard, Phillip Strydom and Annette Exley at the Irene Animal Improvement Institute). The study was partly funded by the CSIRO and the Cooperative Research Centre (CRC) for Cattle and Beef Quality.


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