Abstract
The effect of an upgraded Finnish evaluation model on bias in estimated breeding values for protein yield was investigated. Evaluations based on repeatability animal model and on random regression test-day model without and with heterogeneous variance adjustment were compared. Comparisons were based on the average difference between pedigree indices and the future estimated breeding values, based on own or on daughter performance records. This was defined as empirical bias. The pedigree indices were computed from reduced data sets where four years of the most recent data were excluded. Results showed an upward bias in the protein yield pedigree indices for Ayrshire young sires of 2.2 kg, 2.5 kg and 1.8 kg from the repeatability animal model, random regression test-day model and random regression test-day model with heterogeneous variance adjustment, respectively. Pedigree indices for daughters of young sires were upward biased, whereas pedigree indices for daughters of proven sires were slightly underestimated when heterogeneous variance was not accounted. Inclusion of test-day yields from the fourth lactation onwards increased the bias. Moving from repeatability animal model to random regression test-day model did not reduce the bias, whereas adjustment of heterogeneous variance reduced bias.;
Highlights
Genetic evaluation for production traits in Finnish dairy cattle has always relied on the most advanced methods available
Lidauer M. et al Bias in genetic evaluation over the repeatability animal model (RPAM) for several reasons: first and later lactations are considered as two different traits and the breeding value for each trait is presented by a RR function, which accommodates breeding values for part lactations, 305-day yield, and persistency
Increase in the standard deviation of cow estimated breeding values (EBV)’s when using a TD model rather than a 305-d yield model for the breeding value estimation. They used the same heritability for both models and argued that the increase in the standard deviation was due to the better modelling of the environment, which increases the reliabilities of the EBV’s
Summary
Genetic evaluation for production traits in Finnish dairy cattle has always relied on the most advanced methods available. Lidauer M. et al Bias in genetic evaluation over the repeatability animal model (RPAM) for several reasons: first and later lactations are considered as two different traits and the breeding value for each trait is presented by a RR function, which accommodates breeding values for part lactations, 305-day yield, and persistency. It accounts for the stage of pregnancy and allows better modelling of the herd environment. Better modelling of the environmental effects in the TD model and adjustment for heterogeneous variance should reduce a possible bias in the breeding values
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