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Estimates of genetic parameters for milk and fat yield for the first three lactations in British Friesian cows

Published online by Cambridge University Press:  02 September 2010

Karin Meyer
Karin Meyer
Affiliation:
Institute of Animal Genetics, West Mains Road, Edinburgh EH9 3JN†
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Abstract

A multivariate restricted maximum-likelihood procedure was used to estimate variance and covariance components between and within sires. This method, which considered all lactations simultaneously, accounted for the bias in later lactation records due to selection on dairy performance. Analysis was carried out for a mixed model with herd-year-seasons as fixed and sires as random effects, and fitting lactation length, calving age and month within season of calving as covariables. The data included 26 176 first, 19 978 second and 14 868 third lactation records for 679 test sires, and were analysed in 13 subsets. Additional records for proven sires, treated as fixed effects, were included to improve the data structure.

Estimates for all components were higher in later than in earlier data sets, probably, to a large extent, because of a scale effect. Pooled estimates of heritabilities for lactations 1 to 3 were 0·28, 0·19 and 0·24 for milk yield, and 0·27, 0·21 and 0·25 for fat yield. Genetic correlations of 0·91, 0·91 and 0·95 for milk yield, and 0·91, 0·91 and 0·99 for fat yield, were found between lactations 1 and 2, 1 and 3, and 2 and 3, respectively. Results suggest that dairy performance in all lactations is almost identical genetically.

Type
Research Article
Information
Animal Production , Volume 38 , Issue 3 , June 1984 , pp. 313 - 322
Copyright
Copyright © British Society of Animal Science 1984

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References

REFERENCES

Barker, J. S. F. and Robertson, A. 1966. Genetic and phenotypic parameters for the first three lactations in Friesian cows. Anim. Prod. 8: 221240.Google Scholar
Harville, D. A. 1977. Maximum likelihood approaches to variance component estimation and to related problems. J. Am. statist. Ass. 72: 320338.Google Scholar
Hill, W. G., Edwards, M. R., Ahmed, M.-K. A. and Thompson, R. 1983. Heritability of milk yield and composition at different levels and variability of production. Anim. Prod. 36: 5968.Google Scholar
Hill, W. G. and Thompson, R. 1978. Probabilities of non-positive definite between-group or genetic covariance matrices. Biometrics 34: 429439.Google Scholar
Hocque, M. and Hodges, J. 1980. Genetic and phenotypic parameters of lifetime production traits in Holstein cows. J. Dairy Sci. 63: 19001910.CrossRefGoogle Scholar
Maijala, K. and Hanna, M. 1974. Reliable phenotypic and genetic parameters in dairy cattle. Proc. 1st Wld Congr. Genet. Appl. Livest. Prod., Madrid, Vol. 1, pp. 541563.Google Scholar
Meyer, K. 1982. Estimation of genetic parameters for later lactations in dairy cattle. Proc. 2nd Wld Congr. Genet. Appl. Livest. Prod., Madrid, Vol. 7, pp. 256260.Google Scholar
Meyer, K. 1983a. Maximum likelihood procedures for estimating genetic parameters for later lactations of dairy cattle. J. Dairy Sci. 66: 19881997.Google Scholar
Meyer, K. 1983b. Scope for evaluating dairy sires using first and second lactation records. Livestock Prod. Sci. 10: 531553.Google Scholar
Meyer, K. and Thompson, R. 1984. Bias in variance and covariance component estimators due to selection on a correlated trait. Z. Tierzücht. ZüchtBiol. In press.Google Scholar
Pape, H.-C. 1982. [Genetic-statistical studies on the population of Angeln cattle in Schleswig-Holstein.] Schrift. Inst. Tierzucht Tierhaltung Christian- Albrechts- Univ., Kiel, No. 6.Google Scholar
Rothschild, M. F. and Henderson, C. R. 1979. Maximum likelihood estimates of parameters of first and second lactation milk records. J. Dairy Sci. 62: 990995.Google Scholar
Thompson, R. 1982. Methods of estimation of genetic parameters. Proc. 2nd Wld Congr. Genet. Appl. Livest. Prod., Madrid, Vol. 5, pp. 95103.Google Scholar
Tong, A. K. W., Kennedy, B. W. and Moxley, J. E. 1979. Heritabilities and genetic correlations for the first three lactations from records subject to culling. J. Dairy Sci. 62: 17841790.Google Scholar
Ufford, G. R., Henderson, C. R., Keown, J. F. and van vleck, L. D. 1979. Accuracy of first lactation versus all lactation sire evaluations by best linear unbiased prediction. J. Dairy Sci. 62: 603612.Google Scholar