Genetic Parameters for First and Second Lactation Milk Yields of Polish Black and White Cattle with Random Regression Test-Day Models

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Genetic Parameters for First and Second Lactation Milk Yields of Polish Black and White Cattle with Random Regression Test-Day Models

T. Strabel ¹ and I. Misztal ¹

¹ Department of Animal and Dairy Science, University of Georgia, Athens 30602

Single- and two-trait random regression models were appliedto estimate variance components of test-day records of milk,fat, and protein yields in the first and second lactation ofPolish Black and White cattle. The model included fixed herdtest-day effect, three covariates to describe lactation curvenested within age-season classes, and random regressions foradditive genetic and permanent environmental effects. In two-paritymodels, each parity was treated as a separate trait. For milkand the two-parity model, heritabilities were in the range of0.14 to 0.19 throughout first lactation and 0.10 to 0.16 throughoutsecond lactation. For fat, heritabilities were within 0.11 to0.16 and 0.11 to 0.22 throughout first and second lactations,respectively. For protein in the two-parity model, heritabilitieswere within 0.10 to 0.15 throughout most of first lactationand within 0.06 to 0.15 throughout the most of second lactation.For milk, genetic correlations between the first and secondparities were 0.6 at the beginning of the lactation, risingto 0.9 in the middle, and 0.8 at the end of the lactation. Forfat, the corresponding correlations were 0.6, 0.8, and 0.7,respectively, and for protein were 0.6, 0.8, and 0.8, respectively.Heritability estimates for all traits were flatter for the two-paritymodel. Relatively smooth genetic and permanent environmentalvariances with the two-parity model indicated that large swingsof heritabilities could be artifacts of single-trait randomregression models. High correlations between most of test dayrecords across lactations suggested that a repeatability modelcould be considered as an alternative to a multiple-trait modelto analyze multiple parities.

Key Words: test day models • random regressions • genetic parameters

Submitted on April 23, 1999
Accepted on July 28, 1999

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