Identifying indicator traits for breech strike in Merino sheep in a Mediterranean environment
J. C. Greeff A B , L. J. E. Karlsson A and A. C. Schlink AA Department of Agriculture and Food Western Australia, 3 Baron Hay Court, South Perth, WA 6151, Australia.
B Corresponding author. Email: Johan.greeff@agric.wa.gov.au
Animal Production Science 54(2) 125-140 https://doi.org/10.1071/AN12233
Submitted: 4 July 2012 Accepted: 13 March 2013 Published: 3 May 2013
Abstract
Data from 2833 unmulesed Merino lambs from 49 sires and 1535 dams that were born from 2005 to 2009, were used to identify indicator traits for breech strike in a Mediterranean environment. Sheep were managed in a normal production environment where no preventative treatments were applied to protect them from being struck by flies, but were immediately treated when found to be fly struck. Seventy-seven skin, body conformation, wool, disease and production traits that may contribute to breech strike and that could qualify as potential indicator traits were recorded on progeny at birth, weaning, post-weaning, yearling, spring and at pre- and post-hogget age at ~18 months of age. In all, 31% of ewes and 22% of rams were fly struck in the breech area between birth and hogget shearing. The heritability of and the phenotypic and genetic correlations between the potential indicator traits and breech strike were estimated. The results showed that breech strike is a heritable trait (h2 = 0.51 ± 0.10), and that the most important indicator traits for breech strike were dags, scored at any time, especially at hogget age (rg = 0.81 ± 0.15), spring (rg = 0.77 ± 0.13) or at weaning (rg = 0.64 ± 0.00), urine stain scored at weaning (rg = 0.54 ± 0.13) and marking (rg = 0.51 ± 0.15), neck wrinkle at hogget age (rg = 0.46 ± 0.13) and breech cover (rg = 0.32 ± 0.15) scored at post-weaning shearing. These traits could be used to select indirectly for breech strike resistance in a Mediterranean environment.
Additional keywords: breech cover, dags, genetic correlation, heritability, selection, skin wrinkles, urine stain.
References
AWI (2007) ‘Visual sheep scores.’ (Australian Wool Innovation and Meat and Livestock Australia: Sydney)Belschner HG (1953) ‘Sheep management and diseases.’ (Angus and Robertson: Sydney)
Brown DJ, Swan AA, Gill JS (2010) Within- and across-flock genetic relationships for breech flystrike indicator traits. Animal Production Science 50, 1060–1068.
| Within- and across-flock genetic relationships for breech flystrike indicator traits.Crossref | GoogleScholarGoogle Scholar |
Cloete SWP, Misztal I, Olivier JJ (2009) Genetic parameters and trends for lamb survival and birth weight in a Merino flock divergently selected for multiple rearing ability. Journal of Animal Science 87, 2196–2208.
| Genetic parameters and trends for lamb survival and birth weight in a Merino flock divergently selected for multiple rearing ability.Crossref | GoogleScholarGoogle Scholar |
Donoghue KA, Rekaya R, Bertrand JK, Misztal I (2004) Threshold-linear analysis of measures of fertility in artificial inseminations data and days to calving in beef cattle. Journal of Animal Science 82, 987–993.
Dun RB, Eastoe R (1970) ‘Science and the Merino breeder.’ New South Wales Department of Agriculture. (Government printer: Sydney)
Edwards NM, Hebart M, Hynd PI (2009) Phenotypic and genotypic analysis of bare breech trait in Merino sheep as a potential replacement for surgical mulesing. Animal Production Science 49, 56–64.
| Phenotypic and genotypic analysis of bare breech trait in Merino sheep as a potential replacement for surgical mulesing.Crossref | GoogleScholarGoogle Scholar |
Falconer DS (1989) ‘Introduction to Quantitative genetics.’ (Longman Scientific Technical: New York)
Genstat (2011) ‘Users manual. Version14.1.’ (VSN International: Hemel Hempstead, UK)
Gherardi SG, Sutherland SS, Monzu N, Johnson KG (1983) Field observations on body strike in sheep affected with dermatophilosis and fleece-rot. Australian Veterinary Journal 60, 27–28.
| Field observations on body strike in sheep affected with dermatophilosis and fleece-rot.Crossref | GoogleScholarGoogle Scholar | 6830546PubMed |
Gilmour AR, Gogel BJ, Cullis BR, Thompson R (2006) ‘ASReml user guide. Release 2.0.’ (VSN International: Hemel Hempstead, UK)
Greeff JC, Cox G (2006) Genetic changes generated within the Katanning Merino resource flocks. Australian Journal of Experimental Agriculture 46, 803–808.
| Genetic changes generated within the Katanning Merino resource flocks.Crossref | GoogleScholarGoogle Scholar |
Greeff JC, Karlsson LJE (2009) Opportunities to breed for resistance to breech strike in Merino sheep in a Mediterranean environment. In ‘Proceedings of the 18th conference of the Association for the Advancement of Animal Breeding and Genetics’. pp. 272–278.
Greeff JC, Karlsson LJE, Schlink AC (2010) Final report to Australia Wool Innovations Ltd on Breeding for breech strike resistance. Australian Wool Innovations Ltd final report of Project EC940, Sydney.
Huisman AE, Brown DJ, Ball AJ, Graser H-U (2008) Genetic parameters for body weight, wool, and disease resistance and reproduction traits in Merino sheep. 1. Description of traits, model comparison, variance components and their ratios. Australian Journal of Experimental Agriculture 48, 1177–1185.
| Genetic parameters for body weight, wool, and disease resistance and reproduction traits in Merino sheep. 1. Description of traits, model comparison, variance components and their ratios.Crossref | GoogleScholarGoogle Scholar |
James PJ (2006) Genetic alternatives to mulesing and tail docking in sheep: a review. Australian Journal of Experimental Agriculture 46, 1–18.
| Genetic alternatives to mulesing and tail docking in sheep: a review.Crossref | GoogleScholarGoogle Scholar |
Karlsson LJE, Greeff JC (2006) Selection response in fecal worm egg counts in the Rylington Merino parasite resistant flock. Australian Journal of Experimental Agriculture 46, 809–811.
| Selection response in fecal worm egg counts in the Rylington Merino parasite resistant flock.Crossref | GoogleScholarGoogle Scholar |
Karlsson LJE, Pollott GE, Eady SJ, Bell A, Greeff JC (2004) Relationship between faecal worm egg counts and scouring in Australian Merino sheep. Animal Production in Australia 25, 100–103.
Larsen JWA, Anderson N, Vizard AL, Anderson GA, Hoste H (1994) Diarrhoea in Merino ewes during winter: association with trichostrongylid larvae. Australian Veterinary Journal 71, 365–372.
| Diarrhoea in Merino ewes during winter: association with trichostrongylid larvae.Crossref | GoogleScholarGoogle Scholar |
Lee D, Misztal I, Bertrand K, Rekaya R (2002) National evaluation of calving ease, gestation length and birth weight by linear and threshold model methodologies. Journal of Applied Genetics 43, 209–216.
Lewer RP, Gherardi SG, Sutherland SS (1987) Realised heritability estimates for resistance to dermatophilosis in Merino sheep. In ‘Merino improvement programs in Australia. Proceedings of a national symposium, Leura, New South Wales’. (Ed. BJ McGuirk) pp. 347–350. (Australian Wool Corporation: Melbourne)
McGuirk B, Atkins KD (1980) Indirect selection for increased resistance to fleece rot and body strike. In ‘Proceedings of the 13th Australian Society for Animal Production’. pp. 92–95.
Misztal I, Tsuruta S, Strabel T, Auvray B, Druet T, Lee DH (2002) BLUPF90 and related programs (BGF90). In ‘Proceedings of the 7th world congress on genetics applied to livestock production’. pp. 743–744. (Montpellier, France)
Ntzoufras I (2009) ‘Bayesian modeling using Winbugs.’ (John Wiley and Sons: New York)
Raadsma HW (2000) Genetic aspects of resistance to ovine cutaneous myiasis. In ‘Breeding for disease resistance in farm animals’. (Eds RFE Axford, SC Bishop FW Nicholas, JB Owen) pp. 171–193. (CAB International: Wallingford, UK)
Raadsma HW, Rogan IM (1987) Genetic variation in resistance to blowfly strike. In ‘Merino improvement programs in Australia. Proceedings of a national symposium, Leura, New South Wales’. (Ed. BJ McGuirk) pp. 321–340. (Australian Wool Corporation: Melbourne)
Scholtz AJ, Cloete SWP, van Wyk JB, Misztal I, du Toit E, van der Linde TC de K (2010) Genetic covariances between wrinkle score and absence of breech strike in mulesed and unmulesed Merino sheep, using a threshold model. Animal Production Science 50, 201–218.
| Genetic covariances between wrinkle score and absence of breech strike in mulesed and unmulesed Merino sheep, using a threshold model.Crossref | GoogleScholarGoogle Scholar |
Scobie DR, O’Connell DO, Bray A, Cunningham P (2002) Breech strike can be reduced by increased area of naturally bare skin around the perineum of lambs. In ‘Proceedings of the 24th Animal Production Society of Australia’. pp. 201–204.
Scobie DR, O’Connell DO, 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 Experimental Agriculture 58, 161–167.
Scobie DR, O’Connell DO, Morris CA, Hickey SM (2008) Dag score is negatively correlated with breech bareness score in sheep. Australian Journal of Experimental Agriculture 48, 999–1003.
| Dag score is negatively correlated with breech bareness score in sheep.Crossref | GoogleScholarGoogle Scholar |
Seddon HR, Belschner HG, Mulhearn CR (1931) Studies on cutaneous myiasis of sheep (sheep blowfly attack). Science Bulletin, No. 37. New South Wales Department of Agriculture.
Smith J, Brewer H, Dyall T (2009) Heritability and phentopyic correlations for breech strike and breech strike resistance indicators in Merino. In ‘Proceedings of the 18th conference of the Association for the Advancement of Animal Breeding and Genetics’. pp. 334–337.
Turner HN, Young SSY (1969) ‘Quantitative genetics in sheep breeding.’ (MacMillan of Sydney)
Watts JE, Merritt GC (1981) Body strike in sheep. In ‘Proceedings no. 58. Refresher course for veterinarians, 10–14 August 1981, the Stephen Roberts Lecture Theatre, The University of Sydney’. pp. 171–193.
Williams AR, Karlsson LJE, Palmer DG, Vercoe PE, Williams IH, Greeff JC, Emery DL (2010) Relationships between faecal dry matter, worm burdens and inflammatory mediators and cells in parasite-resistant Merino rams. Veterinary Parasitology 171, 263–272.
| Relationships between faecal dry matter, worm burdens and inflammatory mediators and cells in parasite-resistant Merino rams.Crossref | GoogleScholarGoogle Scholar | 20430531PubMed |