Hostname: page-component-848d4c4894-sjtt6 Total loading time: 0 Render date: 2024-06-29T22:15:40.221Z Has data issue: false hasContentIssue false
  • English
  • Français

A review of mulesing and other methods to control flystrike (cutaneous myiasis) in sheep

Published online by Cambridge University Press:  01 January 2023

CJC Phillips
CJC Phillips*
Affiliation:
Centre for Animal Welfare and Ethics, School of Veterinary Sciences, University of Queensland, Gatton Campus, Queensland 4343, Australia
*
email: c.phillips@uq.edu.au
Get access Rights & Permissions [Opens in a new window]

Abstract

Flystrike (cutaneous myiasis) in sheep has the potential to have a major impact on the welfare of significant numbers of sheep worldwide, but particularly in Australia. The main control method used in Australia, the mulesing operation to remove folds of skin from the hindquarters of the sheep, is effective in controlling the disease, but will be terminated from 2010 as a result of concerns that the operation itself has too great a negative impact on sheep welfare. Alternative treatment methods are considered, and it is proposed that they need to be appraised for each farm separately, based on the conditions prevailing and the potential to apply the different treatments. Sheep are predisposed to flystrike if their fleece is wet or contaminated with faeces or urine. Monitoring and awareness of the weather conditions will enable farmers to strategically treat their sheep with insecticides, or to observe them and treat affected animals more regularly. Frequent removal of wool by crutching, dagging and shearing will aid wool desiccation after rainfall and decrease the likelihood of fleece contamination with excreta. Some control of diarrhoea can be achieved by good grazing management and treatment of diseases that predispose sheep to the disorder. Reducing fly populations can be achieved by the use of traps, and parasitoid wasps also offer some promise. Alternative methods of removing wool and wrinkles from the hindquarters of sheep, including the topical application of quarternary ammonium compounds, phenols, caustic soda or plastic clips, have yet to be proven to be effective, without severely impacting on the welfare of the animal as well as compromising operator safety. In the long term, the breeding of sheep without wrinkles or wool on their hindquarters offers the most likely method of control, although a small proportion of sheep are affected on other parts of their body.

Keywords

animal welfarecutaneous myiasisflystrikeLucilia cuprinamulesingsheep
Type
Research Article
Information
Animal Welfare , Volume 18 , Issue 2 , May 2009 , pp. 113 - 121
Copyright
© 2009 Universities Federation for Animal Welfare

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Anderson, PJ, Shipp, E, Anderson, JME and Dobbie, W 1988 Population maintenance of Lucilia cuprina (Wiedemann) in the arid zone. Australian Journal of Zoology 36: 241249CrossRefGoogle Scholar
Australian Pesticides and Veterinary Medicines Authority (APVMA) 2006 The Reconsideration of Approvals of the Active Constituent Diazinon, Registrations of Products Containing Diazinon and Approval of their Associated Labels (Part 2): Preliminary Review of Findings. 30 June 2006, Canberra, AustraliaGoogle Scholar
Australian Wool Innovation (AWI) Ltd Undated Clip Alternatives to mulesing. http://www.wool.com.au/mediaLibrary/attachments/Publications/Insight_Clip_211106.pdf (Accessed August 2007)Google Scholar
Australian Wool Innovation/Meat and Livestock Australia (AWI/MLA) 2007 Visual Sheep Scores 56 pp. Australian Wool Innovation: Sydney, NSW, AustraliaGoogle Scholar
Belschner, HG 1937a A review of the sheep blowfly problem in New South Wales. Scientific Bulletin of the Department of Agriculture of New South Wales 54: 760Google Scholar
Belschner, HG 1937b Observations on fleece rot and body strike in sheep, particularly in relation to their incidence, type of sheep susceptible and economic importance. Scientific Bulletin of the Department of Agriculture of New South Wales 54: 6195Google Scholar
Belschner, HG and Seddon, HR 1937 The classification according to susceptibility to breech strike. Scientific Bulletin of the Department of Agriculture of New South Wales 54: 111122Google Scholar
Bishop, DM, Heath, ACG and Haack, NA 1996 Distribution, prevalence and host associations of hymenoptera parasitic on calliphoridae occurring in flystrike in New Zealand. Medical and Veterinary Entomology 10: 365370CrossRefGoogle ScholarPubMed
Bowles, VM, Meeusen, ENNT, Young, AR, Andrews, AE, Nash, AD and Brandon, MR 1996 Vaccination of sheep against larvae of the sheep blowfly (Lucilia cuprina). Vaccine 14: 13471352CrossRefGoogle ScholarPubMed
Broughan, JM and Wall, R 2006 Control of sheep blowfly strike using fly-traps. Veterinary Parasitology 135: 5763CrossRefGoogle ScholarPubMed
Chapman, RE, Fell, LR and Shutt, DA 1994 A comparison of stress in surgically and non-surgically mulesed sheep. Australian Veterinary Journal 71: 243247CrossRefGoogle ScholarPubMed
Colditz, IG, Walkden-Brown, SW and Daly, BL 2005 Some physiological responses associated with reduced wool growth during blowfly strike in Merino sheep. Australian Veterinary Journal 11: 695699CrossRefGoogle Scholar
Colditz, IG, Lloyd, JB, Paull, DR, Lee, C, Girado, A, Pizzato, C and Fisher, AD 2009a Assessment of welfare of suckling lambs following intradermal injection of cetrimide as a non-surgical alternative to conventional mulesing. Australian Veterinary Journal 87: 1218CrossRefGoogle ScholarPubMed
Colditz, IG, Lloyd, JB, Paull, DR, Lee, C, Girado, A, Pizzato, C and Fisher, AD 2009b Effect of the non-steroidal anti-inflammatory drug, carprofen, on weaned sheep following non-surgical mulesing by intradermal injection of cetrimide. Australian Veterinary Journal 87: 1926CrossRefGoogle ScholarPubMed
Commonwealth Scientific Industrial and Research Organisation (CSIRO) 2007 Breech Strike Genetics pp 6. CSIRO: Armidale, New South Wales, AustraliaGoogle Scholar
Cruickshank, I and Wall, R 2002 Population dynamics of the sheep blowfly Lucilia sericata: seasonal patterns and implications for control. Journal of Applied Ecology 39: 493501CrossRefGoogle Scholar
Davidson, BS, Chaplin, SJ and Laird, C 2006 Effect of fibre supplementation on dag formation and flystrike in sheep grazing spring pastures. Australian Journal of Experimental Agriculture 46: 783786CrossRefGoogle Scholar
Eastoe, RD 1966 Mulesing by contract. Agricultural Gazette of New South Wales 77: 466467Google Scholar
Elkington, RA and Mahony, TJ 2007 A blowfly strike vaccine requires an understanding of host-pathogen interactions. Vaccine 25: 51335145CrossRefGoogle ScholarPubMed
Fell, LR and Shutt, DA 1988 Salivary cortisol and behavioural indicators of stress in sheep. Proceedings of the Australian Society of Animal Production 17: 186189Google Scholar
Fell, LR and Shutt, DA 1989 Behavioural and hormonal responses to acute surgical stress in sheep. Applied Animal Behaviour Science 22: 283294CrossRefGoogle Scholar
French, NP, Wall, R and Morgan, KL 1994 Lamb tail docking: a controlled field study of the effects of tail amputation on health and productivity. Veterinary Record 134: 463467CrossRefGoogle Scholar
Giraudo, A, Paton, M, Martin, T and Fisher, A 2008 A quantitative approach to welfare assessment of mulesing and flystrike. In: Boyle, L, O’Connell, N and Hanlon, A (eds) Proceedings of the 42nd Congress of the International Society of Applied Ethology pp 205. 5-9 August 2008. Wageningen Academic Publishers: NetherlandsGoogle Scholar
Gleeson, DM and Sarre, S 1997 Mitochondrial DNA variability and geographic origin of the sheep blowfly, Lucilia cuprina (Diptera: Calliphoridae), in New Zealand. Bulletin of Entomological Research 87: 265272CrossRefGoogle Scholar
Hayman, RH 1953 Studies in fleece-rot in sheep. Australian Journal of Agricultural Research 4: 430463CrossRefGoogle Scholar
Hayman, RH 1955 Studies in fleece-rot of sheep: some ecological aspects. Australian Journal of Agricultural Research 6: 466475CrossRefGoogle Scholar
Heath, ACG 1994 Ectoparasites of livestock in New Zealand. New Zealand Journal of Zoology 21: 2338CrossRefGoogle Scholar
Heath, ACG and Bishop, DM 2006 Flystrike in New Zealand: an overview based on a 16-year study, following the introduction and dispersal of the Australian sheep blowfly, Lucilia cuprina Wiedemann (Diptera: Calliphoridae). Veterinary Parasitology 137: 333344CrossRefGoogle ScholarPubMed
Hebart, M, Penno, N and Hynd, P 2006 Understanding the bare breech phenotypes. Proceedings of the 8th World Congress on Genetics applied to Livestock Production. 8-13 August 2006, Belo Horizonte, BrazilGoogle Scholar
Hohenhaus, MA, East, IJ, Eisemann, CH, Pearson, LD, Douch, PGC, Green, RS and Outteridge, PM 1995 Variation in immune reponsiveness of sheep to the antigens of intestinal nematodes and blowfly larvae. International Journal for Parasitology 25: 629636CrossRefGoogle Scholar
Hughes, PB and Levot, GW 1987 Simulation of fly-waves to assess the ability of diflubenzuron to protect sheep against fly-strike by Lucilia Cuprina. Veterinary Parasitology 24: 275284CrossRefGoogle Scholar
James, PJ 2006 Genetic alternatives to mulesing and tail docking in sheep: a review. Australian Journal of Experimental Agriculture 46: 118CrossRefGoogle Scholar
Joint Blowfly Committee 1933 The sheep blowfly problem in Australia. Pamphlet of the Council for Scientific and Industrial Research (Australia) No. 37, Council for Scientific and Industrial Research: Melbourne, AustraliaGoogle Scholar
Jongman, EC, Morris, JP, Barnett, JL and Hemsworth, PH 2000 EEG changes in 4-week-old lambs in response to castration, tail docking, and mulesing. Australian Veterinary Journal 78: 339343CrossRefGoogle ScholarPubMed
Karlsson, LJE, Pollott, GE, Eady, SJ and Greeff, JC 2004 Relationship between faecal worm egg count and scouring in Australian Merino sheep. Australian Society of Animal Production 25: 100103Google Scholar
Leathwick, DM and Heath, ACG 2001 Specialist forages: a role in flystrike management? Proceedings of the Flystrike and Lice IPM Control Strategies Conference pp 374379. 25-27 June 2001, Launceston, TasmaniaGoogle Scholar
Lee, C and Fisher, AD 2007 Welfare consequences of mulesing of sheep. Australian Veterinary Journal 85: 8993CrossRefGoogle ScholarPubMed
Lomax, S, Sheil, M and Windsor, PA 2008 Impact of topical anaesthesia on pain alleviation and wound healing in lambs after mulesing. Australian Veterinary Journal 86: 159168CrossRefGoogle ScholarPubMed
Mahon, RJ, Wardhaugh, KG, Vangerwen, ACM and Whitby, WA 1993 Reproductive development and survival of Lucilia cuprina Wiedermann when fed sheep dung containing Ivermectin. Veterinary Parasitology 48: 193204CrossRefGoogle Scholar
Morley, FHW and Johnstone, IL 1983 Mules operation: a review of development and adoption. In: Raadsma, HW (ed) Sheep Blowfly and Flystrike in Sheep. Second National Symposium. December 1983, Sydney, AustraliaGoogle Scholar
Murray, B, Karlsson, J and Greef, J 2007 Breeding for Breech Strike Resistance Project pp 4. Department of Agriculture, Government of Western Australia: Perth, AustraliaGoogle Scholar
O’Halloran, WJ, Donnelly, FB, Ferguson, BD and Baillie, BG 1983 A comparison of tail lengths and mulesing techniques on Merino lambs at marking. Sheep Blowfly and Flystrike in Sheep, Second National Symposium pp 2933. December 1983, Sydney, AustraliaGoogle Scholar
Paull, DR, Lee, C, Colditz, IG, Atkinson, SJ and Fisher, AD 2007 The effect of a topical anaesthetic formulation, systemic flunixin and carprofen, singly or in combination, on cortisol and behavioural responses of merino lambs to mulesing. Australian Veterinary Journal 85: 98106CrossRefGoogle ScholarPubMed
Paull, DR, Colditz, I, Lee, C, Atkinson, SJ, and Fisher, A 2008a Effectiveness of non-steroidal anti-inflammatory drugs and epidural anaesthesia in reducing the pain and stress responses to a surgical husbandry procedure (mulesing) in sheep. Australian Journal of Experimental Agriculture 48: 10341039CrossRefGoogle Scholar
Paull, DR, Lee, C, Atkinson, SJ, and Fisher, A 2008b Effects of meloxicam or tolfenamic acid administration on the pain and stress responses of Merino lambs to mulesing. Australian Veterinary Journal 86: 303311CrossRefGoogle ScholarPubMed
Peers, A, Mellor, DJ, Wintour, EM and Dodic, M 2002 Blood pressure, heart rate, hormonal and other acute responses to rubber-ring castration and tail docking of lambs. New Zealand Veterinary Journal 50: 5662CrossRefGoogle ScholarPubMed
Phillips, CJC, Margerison, JK, Azazi, S, Chamberlain, AG and Omed, H 1991 The effect of adding surface water to herbage on its digestion by ruminants. Grass and Forage Science 46: 333338CrossRefGoogle Scholar
Rathie, KA, Tierney, ML and Mulder, JC 1994 Assessing Wiltshire Horn-Merino crosses 1. Wool shedding, blowfly strike and wool production traits. Australian Journal of Experimental Agriculture 34: 717728CrossRefGoogle Scholar
Rendell, D, Rentsch, T and Lehmann, D 2002 Survey of faecal egg count reduction trials that included half-dose ivermectin and rametin mixture treatment groups. Wool Technology and Sheep Breeding 50: 574580Google Scholar
Sandeman, RM 1992 Biotechnology and the control of myiasis diseases. In: Yong, WK (ed) Animal Parasite Control Utilizing Biotechnology pp 275301. CRC Press Inc: Boca Raton, USAGoogle Scholar
Scobie, DR, Bray, AR and O’Connell, D 1999 A breeding goal to improve the welfare of sheep. Animal Welfare 8: 391406Google Scholar
Scobie, DR, O’Connell, D, Bray, AR and Cunningham, P 2002 Breech strike can be reduced by increased area of naturally bare skin around the perineum of lambs. Proceedings of the Australian Society of Animal Production 24: 201204Google Scholar
Scobie, DR, Young, SR and O’Connell, D 2005a Skin wrinkles affect wool characteristics and the time taken to harvest wool from Merino and halfbred sheep. New Zealand Journal of Agricultural Research 48: 177185CrossRefGoogle Scholar
Scobie, DR, Young, SR, O’Connell, D and Eythorsdottir, E 2005b Skin wrinkles of the sire adversely affect Merino and half-bred pelt characteristics and other production traits. Australian Journal of Experimental Agriculture 45: 15511557CrossRefGoogle Scholar
Scobie, DR, O’Connell, D, Morris, CA and 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: 161167CrossRefGoogle Scholar
Scobie, DR, O’Connell, D, Morris, CA and Hickey, SM 2008 Dag score is negatively correlated with breech bareness score of sheep. Australian Journal of Experimental Agriculture 48: 9991003CrossRefGoogle Scholar
Shanahan, GJ and Hart, RJ 1966 Change in response of Lucilia cuprina (Weid.) to organophosphorus insecticides in Australia. Nature 212: 14661467CrossRefGoogle Scholar
Shutt, DA, Fell, LR, Connell, R, Bell, AK, Wallace, CA and Smith, AI 1987 Stress-induced changes in plasma concentrations of immunoreactive β-endorphin and cortisol in response to routine surgical procedures in lambs. Australian Journal of Biological Science 40: 97103CrossRefGoogle ScholarPubMed
Stevens, JR, West, H and Wall, R 2008 Mitochondrial genomes of the sheep blowfly, Lucilia sericata, and the secondary blowfly, Chrysomya megacephala. Medical and Veterinary Entomology 22: 8991CrossRefGoogle ScholarPubMed
Tellam, RL and Bowles, VM 1997 Control of blowfly strike in sheep: Current strategies and future prospects. International Journal of Parasitology 27: 261273CrossRefGoogle ScholarPubMed
Thornton, PD and Waterman-Pearson, AE 2002 Behavioural responses to castration in lambs. Animal Welfare 11: 203212Google Scholar
Waghorn, G, Gregory, NG, Todd, SE and Wesselink, R 1999 A look at faeces and reasons for dag formation. Proceedings of the New Zealand Grassland Association 61: 4349CrossRefGoogle Scholar
Wall, R, French, NP and Fenton, A 2000 Sheep blowfly strike: a model approach. Research in Veterinary Science 69: 19CrossRefGoogle ScholarPubMed
Ward, MP and Farrell, R 2003 Sheep blowfly strike reduction using a synthetic lure system. Preventive Veterinary Medicine 59: 2126CrossRefGoogle ScholarPubMed
Wardhaugh, KG, Mahon, RJ and Bedo, D 2001 Factors affecting the incidence of flystrike in sheep: a description and analysis of data from three separate areas in eastern Australia. Proceedings of the Flystrike and Lice IPM Control Strategies Conference pp 8087. 25-27 June 2001, Launceston, TasmaniaGoogle Scholar
Wardhaugh, KG, Mahon, RJ, Whitby, W and van Gerwen, ACM 2008 The relationship between dung quality and oocyte resorption in laboratory and field populations of Lucilia cuprina. Entomologia Experimentalis et Applicata 126: 179193CrossRefGoogle Scholar
Ware, JKW, Vizard, AL and Lean, GR 2000 Effects of tail amputation and treatment with an albendazole controlled-release capsule on the health and productivity of prime lambs. Australian Veterinary Journal 78: 838842CrossRefGoogle ScholarPubMed
Watts, JE and Marchant, RS 1977 Effects of diarrhoea, tail length and sex on incidence of breech strike in modified mulesed Merino sheep. Australian Veterinary Journal 53: 118123CrossRefGoogle ScholarPubMed
Watts, JE, Murray, MD and Graham, NPH 1979 The blowfly strike problem of sheep in New South Wales. Australian Veterinary Journal 55: 325334CrossRefGoogle ScholarPubMed
Wilson, JA, Heath, AC, Stringfellow, L, Haack, NA and Clark, AG 1996 Relative efficacy of organophosphorus insecticides against susceptible and resistant strains of the strike blowfly Lucilia cuprina (Calliphoridae) in New Zealand sheep. New Zealand Veterinary Journal 44: 185187CrossRefGoogle ScholarPubMed