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Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

The effect of annual shearing time on wool production by a spring-lambing Merino flock in south-eastern Australia

A. J. D. Campbell A B , J. W. A. Larsen A and A. L. Vizard A
+ Author Affiliations
- Author Affiliations

A Mackinnon Project, Faculty of Veterinary Science, University of Melbourne, 250 Princes Highway, Werribee, Vic. 3030, Australia.

B Corresponding author. Email: a.campbell@unimelb.edu.au

Animal Production Science 51(10) 939-951 https://doi.org/10.1071/AN10270
Submitted: 9 December 2010  Accepted: 29 July 2011   Published: 11 October 2011

Abstract

Time of shearing affects many aspects of wool production and sheep health but no study has examined these factors concurrently in a spring-lambing, self-replacing Merino flock in southern Australia. A 5-year field experiment compared wool production in spring-lambing Merino ewes and their progeny shorn at different times and managed under commercial conditions in south-eastern Australia. Groups of 200 adult ewes were shorn in December, March or May, and their progeny were shorn in December or October, March or June, or May or July, respectively. There was no consistent association between time of shearing and the staple strength of wool (P = 0.73). December-shorn ewes produced significantly lighter and finer fleeces (average 19.1 μm, 3.0 kg clean weight) than did March-shorn ewes (19.4 μm, 3.1 kg). Fleeces from ewes shorn in May were of similar weight to those from March-shorn ewes (3.1 kg), but they were of significantly broader diameter (19.7 μm). In young sheep, desirable changes in some wool characteristics for each shearing group were offset by undesirable changes in others. On the basis of median historical (1991–2006) wool prices, shearing ewes in March and their progeny first in June produced the greatest total value of wool over a sheep’s lifetime ($161/head). The wool values per head for other shearing times were as follows: March (weaners)–March (ewes): $158; October–December: $157; December–December: $153; July–May: $151; and May–May: $148. Thus, December and March shearing were appropriate alternatives for maximising wool value produced from a self-replacing Merino flock in south-eastern Australia, whereas May was a less preferable shearing time because it always produced wool of lesser value.

Additional keywords: fleece, fleece weight, sheep, staple strength.


References

Adams NR, Kelly RW (2000) Staple strength. Asian–Australasian Journal of Animal Sciences 13, 20–29.

Adams NR, Oldham C, Suiter R, Wilson G (Eds) (2000) ‘Managing wool production for quality and profit.’ (Premium Quality Wool Cooperative Research Centre: Perth)

Arnold GW, Charlick AJ, Eley JR (1984) Effects of shearing time and time of lambing on wool growth and processing characteristics. Australian Journal of Experimental Agriculture and Animal Husbandry 24, 337–343.
Effects of shearing time and time of lambing on wool growth and processing characteristics.Crossref | GoogleScholarGoogle Scholar |

AWI (2011) ‘Woolcheque.’ (Australian Wool Innovation: Sydney) Available at http://www.wool.com/Woolcheque [Verified 15 April 2011].

Barton J, Baker SK, Purser DB (1994) Staple strength in seasonal environments in south-western Australia. Proceedings of the Australian Society of Animal Production 20, 293–296.

Bottomley GA (1979) Weather conditions and wool growth. In ‘Physiological and environmental limitations to wool growth’. (Eds JL Black, PJ Reis) pp. 115–126. (University of New England Publishing Unit: Armidale, NSW)

Butler LG (1994) Factors affecting staple strength with particular reference to Tasmania. Wool Technology and Sheep Breeding 42, 213–230.

Butler LG, Gibson WR, Head GM (1994) The effect of age, shearing date and reproduction on seasonal wool growth patterns, staple strength and position of break. Proceedings of the Australian Society of Animal Production 20, 269–272.

Chapman RE, Wheeler JL (1963) Dye-banding: a technique for fleece growth studies. Australian Journal of Science 26, 53–54.

Cloete SWP, Muller CJC, Durand A (2000) The effects of shade and shearing date on the production of Merino sheep in the swartland region of south Africa. South African Journal of Animal Science – Suid-Afrikaanse Tydskrif vir Veekunde 30, 164–171.

Couchman RC, Hanson PJ, Stott KJ, Vlastuin C (1993) Wool quality: implications for worsted processing, grower receipts and R&D. In ‘Proceedings of a national workshop on management for wool quality in Mediterranean environments’. (Eds PT Doyle, JA Fortune, NR Adams) pp. 1–23. (Department of Agriculture, Western Australia: Perth)

Davis GH, Wallis TR, Bray AR (1981) Marked udder method (MUM) – a technique for identifying the progeny of ewes where identification at birth is not practicable. In ‘Proceedings of the New Zealand Society of Animal Production’. (Ed. KHC Lewis) pp. 229–232. (New Zealand Society of Animal Production (Inc.): Hamilton, New Zealand)

Donnelly FB (1991) Shearing Merino sheep with significantly less than twelve months wool growth – some field experiences. Wool Technology and Sheep Breeding 39, 40–42.

Douglas SAS (1989) TEAM project – presentation of report on trials evaluating additional measurements 1981–1988. Wool Technology and Sheep Breeding 37, 56–62.

Doyle PT, Plaisted TW, Love RA (1995) Supplementary feeding pattern and rate of liveweight gain in winter–spring affect wool production of young Merino sheep on the south coast of Western Australia. Australian Journal of Experimental Agriculture 35, 1093–1100.
Supplementary feeding pattern and rate of liveweight gain in winter–spring affect wool production of young Merino sheep on the south coast of Western Australia.Crossref | GoogleScholarGoogle Scholar |

Foot JZ, Vizard AL (1993) Current sheep management: South Australia and Victoria. In ‘Proceedings of a national workshop on management for wool quality in Mediterranean environments’. (Eds PT Doyle, JA Fortune, NR Adams) pp. 67–79. (Department of Agriculture, Western Australia: Perth)

Francis SM, Bray AR, Scales GH (2000) Wool quality characteristics of purebred Merino and Merino crossbred lambs from three to twelve months of age. Wool Technology and Sheep Breeding 48, 259–268.

Gloag CM, Behrendt R, Ferguson MB, Beattie L (2002) Wool quality variation in south-west Victoria. Wool Technology and Sheep Breeding 50, 222–227.

Hanley JA (2003) Re: ’Statistical analysis of correlated data using generalized estimating equations: an orientation‘ – the first author replies. American Journal of Epidemiology 158, 289–290.
Re: ’Statistical analysis of correlated data using generalized estimating equations: an orientation‘ – the first author replies.Crossref | GoogleScholarGoogle Scholar |

Hanley JA, Negassa A, Edwardes MDD, Forrester JE (2003) Statistical analysis of correlated data using generalized estimating equations: an orientation. American Journal of Epidemiology 157, 364–375.
Statistical analysis of correlated data using generalized estimating equations: an orientation.Crossref | GoogleScholarGoogle Scholar |

Hansford KA (1987) Collation and analyses of available information on additional measurement relevant to improved management of sheep. Australian Wool Corporation, Melbourne.

Hansford KA (1997) A study of the specification and topmaking performance of Western Australian fleeces and sale lots. International Wool Textile Organisation – Technology and Standards Committee, Report No. 15, Nice.

Hudson JM, Bottomley GA (1978) The effect of shearing on feed requirements. Tasmanian Journal of Agriculture 49, 17–21.

Independent Commodity Services (2005) ‘MLS analyser version 4.0.’ (Independent Commodity Services Pty Ltd: Wagga Wagga, NSW)

Irving RF (1991) Factors which influence the selection of a time for shearing on a property in gippsland. Master of Veterinary Studies Thesis, University of Melbourne.

Kleemann DO (1997) Increasing efficiency of wool production. CSIRO, Work-in-progress report, Canberra.

Larsen JWA, Vizard AL, Counsell DJ, Scrivener C, Hygate L, Webb Ware JK (2002) Linking Australian woolgrowers with research: The South Roxby project. Wool Technology and Sheep Breeding 50, 266–273.

Lean GR, Vizard AL, Webb Ware JK (1997) Changes in productivity and profitability of wool-growing farms that follow recommendations from agricultural and veterinary studies. Australian Veterinary Journal 75, 726–731.
Changes in productivity and profitability of wool-growing farms that follow recommendations from agricultural and veterinary studies.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaK1c%2FmvFOhuw%3D%3D&md5=92d9e457080f0a27de04a4844e79f5a1CAS |

Lightfoot RJ (1967) The effects of shearing time and stocking rate on wool production. Journal of Agriculture, Western Australia 8, 90–98.

Lloyd Davies H (1987) Studies of time of lambing in ewes grazing subterranean clover based pasture in relation to stocking rates in south-western Australia. Western Australian Department of Agriculture Technical Bulletin, Perth.

McGarry WL, Stott IK (1960) Autumn v spring shearing. Journal of Agriculture, Western Australia 1, 147–149.

McGuirk BJ, Paynter JR, Dun RB (1966) The effect of frequency and time of shearing on the reproduction and wool growth of bungaree south Australian Merino ewes. Australian Journal of Experimental Agriculture and Animal Husbandry 6, 305–310.
The effect of frequency and time of shearing on the reproduction and wool growth of bungaree south Australian Merino ewes.Crossref | GoogleScholarGoogle Scholar |

Morley FHW (1983) Blowfly strike. In ‘Proceedings no. 67: sheep production and preventive medicine’. (Ed. TG Hungerford) pp. 103–114. (University of Sydney Post-Graduate Committee in Veterinary Science: Sydney)

Morley FHW (Ed.) (1994) ‘Merinos, money and management.’ (University of Sydney Post-Graduate Committee in Veterinary Science: Sydney)

Mullaney PD, Brown GH, Young SSY, Hyland PG (1969) Genetic and phenotypic parameters for wool characteristics in fine-wool Merino, Corriedale, and Polwarth sheep 1. Influence of various factors on production. Australian Journal of Agricultural Research 20, 1161–1176.
Genetic and phenotypic parameters for wool characteristics in fine-wool Merino, Corriedale, and Polwarth sheep 1. Influence of various factors on production.Crossref | GoogleScholarGoogle Scholar |

Ponzoni RW (1986) A profit equation for the definition of the breeding objective of Australian Merino sheep. Journal of Animal Breeding and Genetics – Zeitschrift Fur Tierzuchtung Und Zuchtungsbiologie 103, 342–357.
A profit equation for the definition of the breeding objective of Australian Merino sheep.Crossref | GoogleScholarGoogle Scholar |

Rogan IM, Atkins KD, Coelli KA (1995) Shearing Merino ram weaners – is it worth it? Wool Technology and Sheep Breeding 43, 56–68.

Saul GR (1988) The effect of season of birth, breed and pasture type on the fibre strength of wool from weaner sheep. Proceedings of the Australian Society of Animal Production 17, 467

Scrivener C, Vizard AL (1997) The relationship between reproductive performance, time of lambing and the staple strength of wool from Merino ewes. Wool Technology and Sheep Breeding 45, 120–128.

StataCorp (2005) ‘Stata statistical software for Windows.’ (StataCorp LP: College Station, TX)

Thornberry KJ, Denney GD, Sladek MA (1988) Variation in wool staple strength, staple length, and position of break among experimental sheep on commercial properties. Proceedings of the Australian Society of Animal Production 17, 475

Vizard AL (1997) The Roxby Park experience and plans. In ‘Proceedings of the 38th annual conference of the Grassland Society of Victoria’. (Eds P Sale, LW Warn) pp. 91–98. (Grassland Society of Victoria Inc.: Mornington, Vic.)

Warn LK, Geenty KG, McEachern S (2006) What is the optimum wool–meat enterprise mix? International Journal of Sheep and Wool Science 54, 40–49.

Warr GJ, Gilmour AR, Wilson NK (1979) Effect of shearing time and location on vegetable matter components in the New South Wales woolclip. Australian Journal of Experimental Agriculture and Animal Husbandry 19, 684–688.
Effect of shearing time and location on vegetable matter components in the New South Wales woolclip.Crossref | GoogleScholarGoogle Scholar |

Williams OB, Chapman RE (1966) Additional information on the dye-banding technique of wool growth measurement. Journal of the Australian Institute of Agricultural Science 32, 298–300.