Effect of previous reproductive performance on current reproductive rate in South Australian Merino ewes
David O. Kleemann A I , Simon K. Walker A , Raul W. Ponzoni B , Dennis R. Gifford C , James R. W. Walkley D , Darryl H. Smith E , Richard J. Grimson F , Kaylene S. Jaensch A , Samuel F. Walkom G and Forbes D. Brien HA South Australian Research and Development Institute, Turretfield Research Centre, Holland Road, Rosedale, SA 5350, Australia.
B Departamento de Produccion Animal Facultad de Agronomia, Avenuenida Garzon 780, Sayago 12900 Montevideo, Uruguay.
C 24 Cork Road, Gawler East, SA 5118, Australia.
D 77 Lambert Road, Joslin, SA 5070, Australia.
E 21 Finch Close, Andrews Farm, SA 5114, Australia.
F 508 Rosedale Road, Rosedale, SA 5350, Australia.
G Animal Breeding and Genetics Unit, University of New England, Armidale, NSW 2251, Australia.
H School of Animal and Veterinary Sciences, University of Adelaide, Roseworthy, SA 5371, Australia.
I Corresponding author. Email: Dave.Kleemann@sa.gov.au
Animal Production Science 56(4) 716-725 https://doi.org/10.1071/AN15114
Submitted: 28 February 2015 Accepted: 29 June 2015 Published: 20 August 2015
Abstract
Reproductive performance of ewes in the current year may be influenced by their performance in the previous year and by the ability of seasonal and management conditions to facilitate full recovery before the next breeding cycle. This possibility was tested by analysing reproductive data from 2100 South Australian Merino ewes mated to Merino rams annually from 1991 to 1997. The model fitted to the data included the fixed effects of previous reproductive performance (PRP) (no lambs born; single or multiple lambs born, none reared; single lambs born, singles reared; multiples born, singles reared; multiples born, multiples reared), age of ewe (2.5, 3.5, 4.5 years), year (1992–1997), bloodline (A, B, L, X) and all two-way interactions. Current-year parameters were net reproduction rate (NRR, lambs weaned of ewes joined) and its components of fertility (ewes lambing of ewes joined), fecundity (lambs born of ewes lambing) and lamb survival (lambs weaned of lambs born). Other parameters were lamb liveweight at weaning per ewe joined and pre-mating liveweight. In addition, repeatability values were calculated across ages for these parameters. NRR was higher in the current year for those groups of ewes that reared lambs in the previous year; this was associated with the highly productive multiple-bearing and -rearing groups having a liveweight at the next mating similar compared to that of groups that did not rear lambs. Repeatability values of 0.27 for NRR and 0.40 for fertility suggest there are genetic and permanent environmental components contributing to the differences observed among the PRP groups for NRR, particularly so for fertility. Selecting ewes after their first lambing opportunity on fertility alone at a rate of 90% would give a non-cumulative increase in fertility of 3.4% at subsequent lambing opportunities. Hence, improvements in the current ewe flock for NRR by graziers managing flocks of the South Australian Merino strain are likely to come from (1) identifying and selecting those ewes of high fertility from early records and (2) attending to management factors impacting on fecundity and lamb survival.
Additional keywords: fecundity, fertility, lamb survival, reproduction.
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