Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
Shopping Cart: ( empty )
You are here: Home > Journals > AN > AN13249
RESEARCH ARTICLE
Contents Vol 54(6)

Season and reproductive status rather than genetics factors influence change in ewe weight and fat over time. 3. Analysis of Merino ewes

S. F. Walkom A B E , F. D. Brien A B C , M. L. Hebart B , S. I. Mortimer A D and W. S. Pitchford B
+ Author Affiliations
- Author Affiliations

A Cooperative Research Centre for Sheep Industry Innovation, Armidale, NSW 2351, Australia.

B School of Animal and Veterinary Sciences, University of Adelaide, Roseworthy Campus, SA 5371, Australia.

C Formerly South Australian Research and Development Institute, Roseworthy, SA 5371, Australia.

D New South Wales Department of Primary Industries, Agricultural Research Centre, Trangie, NSW 2823, Australia.

E Corresponding author. Email: samuel.walkom@adelaide.edu.au

Animal Production Science 54(6) 821-830 https://doi.org/10.1071/AN13249
Submitted: 17 June 2013  Accepted: 26 March 2014   Published: 22 April 2014

Abstract

The profitability of southern Australian sheep production systems depends on the optimisation of stocking rates by meeting the nutritional demands of the breeding ewe while effectively utilising grown pasture. The aim of the study was to evaluate the genetic variation in liveweight and body condition of Merino ewes across their breeding life within a wool-based enterprise. The results were consistent with findings in crossbred ewes and showed that the genetic component of weight and body condition remained constant across the production cycle and age. The overall additive genetic effect accounted for 92% of the genetic variation in weight of Merino ewes bred across five production cycles. A genetic correlation of 0.85 suggested that ewes that were superior at maintaining their condition when rearing a single lamb would maintain this superiority when rearing multiple lambs. To improve weight and condition of Merino ewes during the ‘tough’ times, when nutrient requirements are not met by the pasture, selection can be made at any time and this will result in increased genetic condition at all times.


References

ABS (2013) ‘Value of agricultural commodities produced, Australia.’ Catalogue No. 7503.0. (Australian Bureau of Statistics: Canberra, ACT)

Arango JA, Cundiff LV, Van Vleck LD (2002) Genetic parameters for weight, weight adjusted for body condition score, height, and body condition score in beef cows. Journal of Animal Science 80, 3112–3122.

Cameron ND, Curran MK (1995) Genotype with feeding regime interaction in pigs divergently selected for components of efficient lean growth rate. Animal Science 61, 123–132.
Genotype with feeding regime interaction in pigs divergently selected for components of efficient lean growth rate.Crossref | GoogleScholarGoogle Scholar |

Chilliard Y, Ferlay A, Faulconnier Y, Bonnet M, Rouel J, Bocquier F (2000) Adipose tissue metabolism and its role in adaptations to undernutrition in ruminants. The Proceedings of the Nutrition Society 59, 127–134.
Adipose tissue metabolism and its role in adaptations to undernutrition in ruminants.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3cXktF2gsrY%3D&md5=c7f5fea3b611436c8dac19314d4d47e6CAS | 10828182PubMed |

Curnow M, Oldham CM, Behrendt R, Gordon DJ, Hyder MW, Rose IJ, Whale JW, Young JM, Thompson AN (2011) Successful adoption of new guidelines for the nutritional management of ewes is dependent on the development of appropriate tools and information. Animal Production Science 51, 851–856.
Successful adoption of new guidelines for the nutritional management of ewes is dependent on the development of appropriate tools and information.Crossref | GoogleScholarGoogle Scholar |

Edwards JEH, Copping KJ, Thompson AN (2011) Managing the nutrition of twin-bearing ewes during pregnancy using Lifetimewool recommendations increases production of twin lambs. Animal Production Science 51, 813–820.
Managing the nutrition of twin-bearing ewes during pregnancy using Lifetimewool recommendations increases production of twin lambs.Crossref | GoogleScholarGoogle Scholar |

Freer M, Moore AD, Donnelly JR (1997) GRAZPLAN: decision support systems for Australian grazing enterprises. II. The animal biology model for feed intake, production and reproduction and the GrazFeed DSS. Agricultural Systems 54, 77–126.
GRAZPLAN: decision support systems for Australian grazing enterprises. II. The animal biology model for feed intake, production and reproduction and the GrazFeed DSS.Crossref | GoogleScholarGoogle Scholar |

Gilmour AR, Gogel BJ, Cullis BR, Thompson R (2009) ‘ASReml user guide release 3.0.’ (VSN International: Hemel Hempstead, UK)

Hermesch S, Jones R, Bunter K, Gilbert H (2010) Consequences of selection for lean growth and prolificacy on sow attributes. In ‘Proceedings of the 9th world congress on genetics applied to livestock production’, 1–6 August 2010, Leipzig, Germany. Paper 292. (German Society for Animal Science, International Committee for World Congresses on Genetics Applied to Animal Production: Bonn, Germany)

Lee GJ, Atkins KD (1996) Prediction of lifetime reproductive performance of Australian Merino ewes from reproductive performance in early life. Australian Journal of Experimental Agriculture 36, 123–128.
Prediction of lifetime reproductive performance of Australian Merino ewes from reproductive performance in early life.Crossref | GoogleScholarGoogle Scholar |

Lee GJ, Atkins KD, Sladek MA (2009) Heterogeneity of lifetime reproductive performance, its components and associations with wool production and liveweight of Merino ewes. Animal Production Science 49, 624–629.
Heterogeneity of lifetime reproductive performance, its components and associations with wool production and liveweight of Merino ewes.Crossref | GoogleScholarGoogle Scholar |

Morley FHW (1956) Selection for economic characters in Australian Merino sheep. VII. Interactions between genotype and plane of nutrition. Australian Journal of Agricultural Research 7, 140–146.
Selection for economic characters in Australian Merino sheep. VII. Interactions between genotype and plane of nutrition.Crossref | GoogleScholarGoogle Scholar |

Mortimer SI, Atkins KD (1989) Genetic evaluation of production traits between and within flocks of Merino sheep. I. Hogget fleece weights, body weight and wool quality. Australian Journal of Agricultural Research 40, 433–443.
Genetic evaluation of production traits between and within flocks of Merino sheep. I. Hogget fleece weights, body weight and wool quality.Crossref | GoogleScholarGoogle Scholar |

Oldham CM, Thompson AN (2004) Lifetime wool. 5. Carryover effects on ewe reproduction. In ‘Animal production in Australia. Proceedings of the Australian Society of Animal Production. Vol. 25’. p. 291. (Australian Society of Animal Production)

Osorio-Avalos J, Montaldo HH, Valencia-Posadas M, Castillo-Jua’rez H, Ulloa-Arvizu R (2012) Breed and breed x environmnet interaction effects for growth traits and survival rate from birth to weaning in crossbred lambs. Journal of Animal Science 90, 4239–4247.
Breed and breed x environmnet interaction effects for growth traits and survival rate from birth to weaning in crossbred lambs.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXns1Smtw%3D%3D&md5=50eb5e9c7ff538fb3e1ae4649e7f1442CAS | 22952357PubMed |

Rauw WM, Thain DS, Teglas MB, Wuliji T, Sandstrom MA, Gomez-Raya L (2010) Adaptability of pregnant Merino ewes to the cold desert climate in Nevada. Journal of Animal Science 88, 860–870.
Adaptability of pregnant Merino ewes to the cold desert climate in Nevada.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXktVOquro%3D&md5=23edaab65333b685c862aeff6de621bdCAS | 19933439PubMed |

Rose G, Kause A, Mulder HA, van der Werf JHJ, Thompson AN, Ferguson MB, van Arendonk JAM (2013) Merino ewes can be bred for body weight change to be more tolerant to uncertain feed supply. Journal of Animal Science 91, 2555–2565.
Merino ewes can be bred for body weight change to be more tolerant to uncertain feed supply.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXpvFCrs7o%3D&md5=8acb7ca13e92a35ecdd4ea076136ac53CAS | 23508033PubMed |

Rowe JB (2010) The Australian sheep industry – undergoing transformation. Animal Production Science 50, 991–997.
The Australian sheep industry – undergoing transformation.Crossref | GoogleScholarGoogle Scholar |

Russel AJF, Doney JM, Gunn RG (1969) Subjective assessment of body fat in live sheep. The Journal of Agricultural Science 72, 451–454.
Subjective assessment of body fat in live sheep.Crossref | GoogleScholarGoogle Scholar |

Shackell GH, Cullen NG, Greer GJ (2011) ‘Genetic parameters associated with adult ewe liveweight and body condition.’ (Association for the Advancement of Animal Breeding and Genetics: Armidale, NSW)

Snowder GD, Fogarty NM (2009) Composite trait selection to improve reproduction and ewe productivity: a review. Animal Production Science 49, 9–16.
Composite trait selection to improve reproduction and ewe productivity: a review.Crossref | GoogleScholarGoogle Scholar |

Vernon RG, Clegg RA, Flint DJ (1981) Metabolism of sheep adipose-tissue during pregnancy and lactation – adaptation and regulation. Biochemical Journal 200, 307–314.

Walkom SF, Brien FD, Hebart ML, Fogarty NM, Hatcher S, Pitchford WS (2014a) Season and reproductive status rather than genetics factors influence change in ewe weight and fat over time. 1. Analysis of crossbred ewes. Animal Production Science 54, 802–813.
Season and reproductive status rather than genetics factors influence change in ewe weight and fat over time. 1. Analysis of crossbred ewes.Crossref | GoogleScholarGoogle Scholar |

Walkom SF, Brien FD, Hebart ML, Fogarty NM, Hatcher S, Pitchford WS (2014b) Season and reproductive status rather than genetics factors influence change in ewe weight and fat over time. 2. Spline analysis of crossbred ewes. Animal Production Science 54, 814–820.
Season and reproductive status rather than genetics factors influence change in ewe weight and fat over time. 2. Spline analysis of crossbred ewes.Crossref | GoogleScholarGoogle Scholar |

Young JM, Thompson AN, Curnow M, Oldham CM (2011) Whole-farm profit and the optimum maternal liveweight profile of Merino ewe flocks lambing in winter and spring are influenced by the effects of ewe nutrition on the progeny’s survival and lifetime wool production. Animal Production Science 51, 821–833.
Whole-farm profit and the optimum maternal liveweight profile of Merino ewe flocks lambing in winter and spring are influenced by the effects of ewe nutrition on the progeny’s survival and lifetime wool production.Crossref | GoogleScholarGoogle Scholar |