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Multivariate genomic predictions for age at puberty in tropically adapted beef heifers

journal contribution
posted on 2019-05-21, 00:00 authored by BN Engle, Nicholas Corbet, JM Allen, AR Laing, G Fordyce, MR McGowan, BM Burns, RE Lyons, BJ Hayes
Heifers that have an earlier age at puberty often have greater lifetime productivity. Age at puberty is moderately heritable so selection should effectively reduce the number of days to puberty, and improve heifer productivity and profitability as a result. However, recording age at puberty is intensive, requiring repeat ovarian scanning to determine age at first corpus luteum (AGECL). Genomic selection has been proposed as a strategy to select for earlier age at puberty; however, large reference populations of cows with AGECL records and genotypes would be required to generate accurate GEBV for this trait. Reproductive maturity score (RMS) is a proxy trait for age at puberty for implementation in northern Australia beef herds, where large scale recording of AGECL is not feasible. RMS assigns a score of 0 to 5 from a single ovarian scan to describe ovarian maturity at ~600 d. Here we use multivariate genomic prediction to evaluate the value of a large RMS data set to improve accuracy of GEBV for age at puberty (AGECL). There were 882 Brahman and 990 Tropical Composite heifers with AGECL phenotypes, and an independent set of 974 Brahman, 1,798 Santa Gertrudis, and 910 Droughtmaster heifers with RMS phenotypes. All animals had 728,785 real or imputed SNP genotypes. The correlation of AGECL and RMS (h2 = 0.23) was estimated as -0.83 using the genomic information. This result also demonstrates that using genomic information it is possible to estimate genetic correlations between traits collected on different animals in different herds, with minimal or unknown pedigree linkage between them. Inclusion of heifers with RMS in the multi-trait model improved the accuracy of genomic evaluations for AGECL. Accuracy of RMS GEBV generally did not improve by adding heifers with AGECL phenotypes into the reference population. These results suggest that RMS and AGECL may be used together in a multi-trait prediction model to increase the accuracy of prediction for age at puberty in tropically adapted beef cattle.

Funding

Category 3 - Industry and Other Research Income

History

Volume

97

Issue

1

Start Page

90

End Page

100

Number of Pages

11

eISSN

1525-3163

ISSN

0021-8812

Publisher

Oxford University Press (OUP)

Peer Reviewed

  • Yes

Open Access

  • No

Acceptance Date

2018-11-06

External Author Affiliations

Texas A&M University; University of New England; University of Queensland

Era Eligible

  • Yes

Journal

Journal of Animal Science

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