Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
Shopping Cart: ( empty )
You are here: Home > Journals > AN > AN09033
RESEARCH ARTICLE
Contents Vol 50(3)

Genetic (co)variances between wrinkle score and absence of breech strike in mulesed and unmulesed Merino sheep, using a threshold model

A. J. Scholtz A C H , S. W. P. Cloete B C , J. B. van Wyk D , I. Misztal E , E. du Toit F and T. C. de K. van der Linde G
+ Author Affiliations
- Author Affiliations

A Centre for Sustainable Agriculture and Rural Development, Faculty of Natural and Agricultural Sciences, University of the Free State, PO Box 339, Bloemfontein 9300, South Africa.

B Department of Animal Sciences, University of Stellenbosch, Private Bag X1, Matieland 7599, South Africa.

C Institute for Animal Production, Elsenburg, Private Bag X1, Elsenburg 7607, South Africa.

D Department of Animal, Wildlife and Grassland Sciences, University of the Free State, PO Box 339, Bloemfontein 9300, South Africa.

E Department of Animal and Dairy Science, University of Georgia, Athens, GA 30605, USA.

F Institute for Animal Production, Tygerhoek Research Farm, PO Box 25, Riviersonderend 7250, South Africa.

G Department of Zoology and Entomology, University of the Free State, PO Box 339, Bloemfontein 9300, South Africa.

H Corresponding author. Email: ansies@elsenburg.com

Animal Production Science 50(3) 210-218 https://doi.org/10.1071/AN09033
Submitted: 28 February 2009  Accepted: 15 February 2010   Published: 8 April 2010

Abstract

Heritability estimates for, and genetic correlations among neck wrinkle score, body wrinkle score, breech wrinkle score and the absence of breech strike were determined on 2918 16-month hoggets from a selection experiment with South African Merinos. Data were obtained from the lamb drops of 9 years between 1998 and 2007, born as the progeny of 247 sires and 1250 dams. All progeny born until 2002 were subjected to the Modified Mules operation as lambs (n = 1799). However, due to international pressure to phase out the Mules operation, animals from 2003 onwards were not mulesed (n = 1119). During both periods, the experimental animals were maintained in single flocks (separated on sex) after weaning. Progeny were subjected to visual appraisal of wrinkle scores (range) on the neck (1–6), body (1–5) and breech (1–6) at an age of ~16 months. The occurrence of blowfly strike in the breech area (breech strike) was recorded in all animals during the wool growth period of a year from shearing as weaners. Two four-trait animal models were fitted to obtain (co)variance components and ratios from the separate datasets with neck wrinkle score; body wrinkle score, breech wrinkle score and the absence of breech strike, all defined as threshold traits. Estimates of heritability for breech wrinkle score amounted to 0.27 and 0.45 for the mulesed and unmulesed groups, respectively. The absence of breech strike on the underlying scale was also heritable for the mulesed (0.33) and unmulesed (0.46) groups; translating to heritability estimates of 0.074 and 0.157, respectively, on the observed scale. The genetic correlations of wrinkle scores with absence of breech strike were generally favourable, but significant only for neck wrinkle score (–0.57) and breech wrinkle score (–0.45) in the unmulesed group. It was concluded that South African Merino sheep would respond to selection against breech strike under conditions of adequate challenge. Based on results from unmulesed sheep, selection for plainer sheep is also expected to result in a favourable correlated response in breech strike.

Additional keywords: binomial distribution, blowfly strike, genetic correlation, heritability.


Acknowledgements

We are grateful to all those involved in the maintenance and recording of the research flock (Mr H. Vaaltyn). The establishment and maintenance of the breeding flock would have been impossible without the financial support of the South African Wool Industry and the THRIP program of the South African Department of Trade and Industry.


References


Atkins KD (1980) Selection for skin folds and fertility. Skin folds as a breeding objective. Proceedings of the Australian Society of Animal Production 13, 174–176. [Verified 22 February 2010]

Jackson N, James JW (1970) Comparison of three Australian Merino strains for wool and body traits. II. Estimates of between-stud genetic parameters. Australian Journal Agricultural Science 21, 837–856.
Crossref | GoogleScholarGoogle Scholar | [Verified 23 March 2008]

National Woolgrower’s Association (2009) No mulesing in SA! Wolboer/Wool Farmer July, 5.

Peam H (2007) Welfare issues with mulesing: the progress and the problems. Available at http://vip.vetsci.usyd.edu.au/contentUpload/content_2867/HelenPeam.pdf [Verified 22 February 2010]

People for the Ethical Treatment of Animals (2004) ‘An examination of two major forms of cruelty in Australian wool production: mulesing and live exports.’ (People for the Ethical Treatment of Animals: Norfolk, VA) Available at http://www.livexports.com/mulesing.txt [Verified 22 February 2010]

Raadsma HW (1989) Fleece rot and body strike in Merino sheep. III. Significance of fleece moisture following experimental induction of fleece rot. Australian Journal of Agricultural Research 40, 897–912.
Crossref | GoogleScholarGoogle Scholar | open url image1

Raadsma HW (1991 a) Genetic variation in resistance to fleece rot and flystrike in sheep. In ‘Breeding for disease resistance in farm animals’. (Eds JB Owen, RFE Axford) pp. 263–290. (CAB International: Wallingford, UK)

Raadsma HW (1991b) Fleece rot and body strike in Merino sheep. V. Heritability of liability to body strike in weaner sheep under flywave conditions. Australian Journal of Agricultural Research 42, 279–293.
Crossref | GoogleScholarGoogle Scholar | open url image1

Raadsma HW (1991c) The susceptibility to body strike under high rainfall conditions of flocks selected for and against fleece rot. Australian Journal of Experimental Agriculture 31, 757–759.
Crossref | GoogleScholarGoogle Scholar | open url image1

Raadsma HW , Rogan IM (1987) Genetic variation in resistance to blowfly strike. In ‘Merino improvement programs in Australia’. (Ed. BJ McGuirk) pp. 321–340. (Australian Wool Corporation: Melbourne)

Raadsma HW, Sandeman RM, Sasiak AB, Engwerda CR, O’Meara TJ (1992) Genetic improvement in resistance to body strike in Merino sheep: where are we at with indirect selection? Proceedings of the Australian Association of Animal Breeding and Genetics 10, 143–146. open url image1

Scholtz AJ, Cloete SWP, Laubscher JM, De Beer EF (2000) A preliminary evaluation of a sheep blowfly trap in the Western Cape. Journal of the South African Veterinary Association 71, 148–152.
CAS | PubMed |
open url image1

Scholtz AJ , Cloete SWP , Laubscher JM , Du Toit E , Techman WB , De Beer EF (2001) The application of trapping, using the Lucitrap system, in an integrated blowfly management program in South Africa. In ‘Proceedings of the Flystrike and Lice IPM Control Strategy Conference (FLICS)’. (Ed. B Horton) pp. 279–285. (Tasmanian Institute of Agricultural Research: Hobart)

Scholtz AJ, Cloete SWP, Van Wyk JB, Kruger ACM, Van der Linde TC (2010) The influence of divergent selection for reproduction on the occurrence of breech strike in mature Merino ewes. Animal Production Science in press. , open url image1

Scobie DR , Bray AR , O’Connell D (1997) The ethically improved sheep concept. Proceedings of the New Zealand Society of Animal Production 57, 84–87.

Scobie DR, Bray AR, O’Connell D (1999) A breeding goal to improve the welfare of sheep. Animal Welfare 8, 391–406. open url image1

Scobie DR, O’Connell DO, Bray AR, Cunningham P (2002) Breech strike can be reduced by increased area of naturally bare skin around the perineum of lambs. Proceedings of the Animal Production Society of Australia 24, 201–204. open url image1

Scobie DR, O’Connell D, Morris CA, Hickey SM (2007) A preliminary genetic analysis of breech and tail traits with the aim of improving the welfare of sheep. Australian Journal of Agricultural Research 58, 161–167. open url image1

Scobie DR, O’Connell D, Morris CA, Hickey SM (2008) Dag score is negatively correlated with breech bareness score of sheep. Australian Journal of Experimental Agriculture 48, 999–1003.
Crossref | GoogleScholarGoogle Scholar | open url image1

Seddon HR (1931) Conditions which predispose sheep to blowfly attack. Agricultural Gazette of New South Wales 42, 581–594. open url image1

Seddon HR, Belschner HG (1937) The classification according to susceptibility to breech strike. New South Wales Department of Agriculture. Science Bulletin 54, 111–122. open url image1

Seddon HR , Belschner HG , Mulhearn CR (1931) Studies on cutaneous myiasis of sheep (sheep blowfly attack). New South Wales Department of Agriculture. Science Bulletin 37.

Smith JL, Brewer HG, Dyall T (2009) Heritability and phenotypic correlations for breech strike and breech strike resistance indicators in Merinos. Proceedings of the Association for the Advancement of Animal Breeding and Genetics 18, 334–337. open url image1

Tellam RL, Bowles VM (1997) Control of blowfly strike in sheep: current strategies and future prospects. International Journal for Parasitology 27, 261–273.
Crossref | GoogleScholarGoogle Scholar | CAS | PubMed | open url image1

Turner HN (1977) Australian sheep breeding research. Animal Breeding Abstracts 45, 9–31. open url image1