Genetic Evaluation for Herd Life in Canada

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Genetic Evaluation for Herd Life in Canada

L. Jairath ¹, J.C.M. Dekkers ¹, L. R. Schaeffer ¹, Z. Liu ¹, E. B. Burnside ¹, and B. Kolstad ¹

¹ Centre for Genetic Improvement of Livestock, Department of Animal and Poultry Science, University of Guelph, Guelph, ON, Canada N1G 2W1

Methods were developed for the national genetic evaluationof herd life for Canadian Holstein sires. The genetic evaluationsincorporate information from survival (direct herd life) andinformation from conformation traits that are related to herdlife (indirect herd life) after adjustment for production infirst lactation to remove the effect of culling for production.Direct genetic evaluations for herd life were based on survivalin each of the first three lactations, which was analyzed usinga multiple-trait animal model. Sire evaluations thus obtainedfor survival in each of the first three lactations were combinedbased on their economic weights into an overall sire evaluationfor direct herd life. Sire evaluations for indirect herd lifewere based on an index of sire evaluations for mammary system,feet and legs, rump, and capacity. A multiple-trait sire modelbased on multiple-trait across country evaluation methodologywas used to combine direct and indirect genetic evaluationsfor herd life into an overall genetic evaluation for herd life.Sire evaluations for herd life were expressed in estimated transmittingability as the number of lactations and represent expected differencesamong daughters in functional herd life (number of lactations);the average functional herd life was set equal to three lactations.Estimated transmitting abilities were normally distributed andranged from 2.31 to 3.43 lactations.

Key Words: herd life • genetic evaluation • conformation

Submitted on April 22, 1997
Accepted on September 8, 1997

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				A. Sewalem, G. J. Kistemaker, F. Miglior, and B. J. Van Doormaal Analysis of the Relationship Between Type Traits and Functional Survival in Canadian Holsteins Using a Weibull Proportional Hazards Model J Dairy Sci, November 1, 2004; 87(11): 3938 - 3946. [Abstract] [Full Text] [PDF]

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