Abstract
Simple SummaryThe objective of this study was to use a model to predict breeding values for sires and cows at an early stage of the first lactation of cows and progeny groups in the Iranian Holstein population to support the early selection of sires. Our results show that we can select sires according to their daughters’ early lactation performance before they finish first lactation. Cross-validation results show that early selection accuracy can be high, and such an early selection can decrease the generation interval and lead to an increased genetic gain in the Iranian Holstein population.The objective of this study was to use a model to predict breeding values for sires and cows at an early stage of the first lactation of cows and progeny groups in the Iranian Holstein population to enable the early selection of sires. An additional objective was to estimate genetic and phenotypic parameters associated with this model. The accuracy of predicted breeding values was investigated using cross-validation based on sequential genetic evaluations emulating yearly evaluation runs. The data consisted of 2,166,925 test-day records from 456,712 cows calving between 1990 and 2015. (Co)-variance components and breeding values were estimated using a random regression test-day model and the average information (AI) restricted maximum likelihood method (REML). Legendre polynomial functions of order three were chosen to fit the additive genetic and permanent environmental effects, and a homogeneous residual variance was assumed throughout lactation. The lowest heritability of daily milk yield was estimated to be just under 0.14 in early lactation, and the highest heritability of daily milk yield was estimated to be 0.18 in mid-lactation. Cross-validation showed a highly positive correlation of predicted breeding values between consecutive yearly evaluations for both cows and sires. Correlation between predicted breeding values based only on records of early lactation (5–90 days) and records including late lactation (181–305 days) were 0.77–0.87 for cows and 0.81–0.94 for sires. These results show that we can select sires according to their daughters’ early lactation information before they finish the first lactation. This can be used to decrease generation interval and to increase genetic gain in the Iranian Holstein population.
Highlights
Genetic progress in dairy cattle strongly depends on the merit of bulls used as sires for the generation
Recognizing superior sires as soon as possible results in selecting sires sooner than when waiting for their daughters to finish their first lactation. This early selection leads to a decrease in generation interval, and speeds up genetic changes in the population, which is profitable for the dairy industry [1]
Milk yield increased from the age of 20 months and peaked around 26–28 months, whereafter yield gradually decreased as the cows become older at first calving
Summary
Genetic progress in dairy cattle strongly depends on the merit of bulls used as sires for the generation. A higher population accuracy of selection candidates connotes genetic progress [3,4]. The traditional selection of dairy bulls is based on pedigree selection and progeny testing. The selection of dairy bulls is based on genotyped information from dense SNP arrays to predict genomic EBV using genomic prediction procedures. This information can be used for accurate parentage assignment and pedigree reconstruction [7]. Genomic selection is replacing the traditional selection based on pedigree [7,8,9]
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