Genetic parameters for liveweight, wool and worm resistance traits in multi-breed Australian meat sheep. 1. Description of traits, fixed effects, variance components and their ratios
D. J. Brown A C , A. A. Swan A , J. S. Gill B , A. J. Ball B and R. G. Banks AA Animal Genetics and Breeding Unit*, University of New England, Armidale, NSW 2351, Australia.
B Meat and Livestock Australia, PO Box U254, University of New England, Armidale, NSW 2351, Australia.
C Corresponding author. Email: dbrown2@une.edu.au
Animal Production Science 56(9) 1442-1448 https://doi.org/10.1071/AN14787
Submitted: 1 September 2014 Accepted: 18 February 2015 Published: 21 May 2015
Abstract
Sheep breeders in Australia that focus on lamb production simultaneously breed sheep that have higher growth rate, improved carcass quality and are resistant to internal parasites. The objective of this study was to estimate genetic parameters for 11 traits recorded in Australian meat sheep, covering liveweight, carcass and internal parasite resistance traits. As the population of meat sheep in this database have become increasingly crossbred this study also investigates the genetic variation within and between breeds. The data comprised 1 046 298 animals from 149 Poll Dorset, 17 Suffolk, 24 Texel and 118 White Suffolk flocks. The results are averages of analyses of 10 datasets constructed by randomly sampling 25% of these flocks. There was considerable genetic variation in all traits analysed: the lowest heritabilities (0.12) were found for weaning weight and the highest heritabilities (0.31–0.32) for eye muscle depth. There were also significant differences between breeds for most traits, which breeders appear to be utilising through crossbreeding. Direct heterosis effects were small and only significant for the liveweight traits ranging from 2% to 3.4% of the phenotypic means. Maternal heterosis was not significant for any trait studied. The inclusion of heterosis effects in the model did not significantly influence the estimated genetic parameters. The results from this study have been used to review the genetic parameters used in the LAMBPLAN routine genetic evaluations conducted by Sheep Genetics.
Additional keywords: field data, maternal effects.
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