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RESEARCH ARTICLE
Contents Vol 47(10)

Sire and growth path effects on sheep meat production 1. Growth and carcass characteristics

D. L. Hopkins A B E , D. F. Stanley B , L. C. Martin B , E. N. Ponnampalam C and R. van de Ven D
+ Author Affiliations
- Author Affiliations

A Australian Sheep Industry Cooperative Research Centre, Armidale, NSW 2350, Australia.

B NSW Department of Primary Industries, Centre for Sheep Meat Development, Cowra, NSW 2794, Australia.

C Animal Production Sciences Platform, Department of Primary Industries, 600 Sneydes Road, Werribee, Vic. 3030, Australia.

D NSW Department of Primary Industries, Orange Agricultural Institute, Orange, NSW 2350, Australia.

E Corresponding author. Email: David.Hopkins@dpi.nsw.gov.au

Australian Journal of Experimental Agriculture 47(10) 1208-1218 https://doi.org/10.1071/EA06319
Submitted: 20 December 2006  Accepted: 2 April 2007   Published: 19 September 2007

Abstract

The growth and carcass characteristics of 627 crossbred lamb progeny from 20 Poll Dorset sires was studied. The sires were selected on the basis of Australian sheep breeding values (ASBVs) for postweaning growth (PWWT), depth of loin muscle (PEMD) and depth of subcutaneous fat (PFAT). Lambs were weaned either at 20- or 30-kg liveweight and then within each of these groups were maintained at their weaning weight for 55 days or fully fed, giving four treatment groups. Restricted lambs were realimented subsequent to the period of feed restriction and all lambs within each treatment group were slaughtered when their mean liveweight reached 45 kg. After adjusting for the weaning group and weaning age, liveweight at weaning depended on birthweight, rearing type and sex. For the late-weaning group, it also depended on whether the lamb was born as a single or a multiple and on sire ASBVs for PWWT and PEMD. This was such that liveweight increased by 0.14 ± 0.05 kg for each unit increase in sire ASBV for PWWT and decreased by 0.55 ± 0.20 kg for a unit increase in sire ASBV for PEMD. During the period of feed restriction, sire ASBV for PWWT had an effect on the growth rate of lambs in all treatments with a coefficient of 1.67 ± 0.52. Lamb growth rate during the realimentation phase increased with increasing ASBVs for PWWT at a rate estimated as 2.21 ± 0.49 g/day for each unit increase in PWWT. Early-weaned (20 kg), restricted lambs grew on average 26.0 ± 3.4 g/day faster during the refeeding period than the early-weaned, fully fed lambs, and for late-weaned lambs (30 kg) the difference was 35.5 ± 5.4 g/day. Lambs subjected to a restricted intake of pasture produced carcasses 0.79 ± 0.32 mm fatter on average than those fully fed as measured at the GR site (110 mm from the midline over the 12th rib). As the sire PFAT ASBV increased, the carcasses of the progeny were fatter at the GR site, fat C site (over the longissimus muscle at the 12th rib), the rump site (30-mm distal to the lumbar–sacral junction over the gluteus medius muscle) and in terms of carcass fat percentage. As the sire PEMD ASBV increased, progeny carcasses had larger loin muscle cross sectional areas, and as the sire PFAT ASBV increased, there was a decrease in loin cross sectional area. There was no impact of treatment group on lean percentage. As the sire PFAT ASBV increased, the carcasses contained less lean and as PEMD ASBV increased, the carcasses contained more lean equating to a potential 2% increase given the range of ASBVs in the experiment, which represents ~0.4 kg lean on average.


Acknowledgements

Technical support for this study was provided by Tony Markham, Jayce Morgan and Andrew Roberts, Geoff Casburn, Brent McLeod, Joe Brunner and Stuart McClelland (NSW Department of Primary Industries), Andrew Slack-Smith and Jason Siddell (University of New England), Peter Allingham (CSIRO), Dr Matt McDonagh, Peter Walker, Matt Kerr, Dete Hasse, Matt Knight, Erin Rutty, Paul Eason and Fahri Fahri (DPI, Victoria), Dr Greg Nattrass (SARDI), Mal Boyce and Grace Chan (Murdoch Uni), Dr Robin Jacob (DAFWA) and Linden Cowper, Janine Lau, Nathan Sheahan and Colin Cowell (MSA). Thanks to Dr A. Ball (LAMBPLAN) for providing the sire recommendations and to the breeders who allowed the purchase of semen. The study was funded by NSW Department of Primary Industries, Meat and Livestock Australia and the Australian Sheep Industry Cooperative Research Centre.


References


Anon.  (1992) ‘AUS-MEAT language.’ 4th edn. (Authority for Uniform Specification Meat and Livestock: Sydney)

Anon.  (1998) ‘Handbook of Australian meat.’ 6th edn. (Authority for Uniform Specification Meat and Livestock: Brisbane)

Anon.  (2004) ‘The breeder’s guide: a breeder’s guide to LAMBPLAN, Merino Genetic Services and KIDPLAN.’ (Meat & Livestock Australia: Sydney)

Atkins KD, Thompson JM (1979) Carcass characteristics of heavyweight crossbred lambs. I. Growth and carcass measurements. Australian Journal of Agricultural Research 30, 1197–1205.
Crossref | GoogleScholarGoogle Scholar | [Verified 27 July 2007]

Stanley DF, Hopkins DL, Martin LC, van de Ven R (2006b) Influence of sire growth EBV on early lamb growth. In ‘Australian Society of Animal Production 26th Biennial Conference’. Short communication No. 87. Available at http://www.asap.asn.au/livestocklibrary/2006/SC87-stanley.pdf [Verified 27 July 2007]

Suster D, Leury BJ, Hofmeyr CD, D’Souza DN, Dunshea FR (2004) The accuracy of dual energy X-ray absorptiometry (DXA), weight, and P2 back fat to predict half-carcass and primal-cut composition in pigs within and across research experiments. Australian Journal of Agricultural Research 55, 973–982.
Crossref | GoogleScholarGoogle Scholar | [Verified 27 July 2007]