A pilot study into the use of global navigation satellite system technology to quantify the behavioural responses of sheep during simulated dog predation events
Jaime K. Manning A C , Eloise S. Fogarty A , Mark G. Trotter B , Derek A. Schneider B , Peter C. Thomson A , Russell D. Bush A and Greg M. Cronin AA Faculty of Veterinary Science, The University of Sydney, Camden, NSW 2570, Australia.
B Precision Agriculture Research Group and CRC for Spatial Information, University of New England, Armidale, NSW 2351, Australia.
C Corresponding author. Email: jman3386@uni.sydney.edu.au
Animal Production Science 54(10) 1676-1681 https://doi.org/10.1071/AN14221
Submitted: 12 March 2014 Accepted: 18 June 2014 Published: 19 August 2014
Abstract
The predation of sheep (Ovis aries) by wild and domestic dogs (Canis lupis) is a major issue in Australia, causing serious welfare issues to inflicted animals. The estimated cost of sheep and cattle production losses caused by wild dogs when combined with an extensive range of control measures, costs the Australian economy AU$66 million annually. Spatio-temporal data derived from global navigation satellite system (GNSS) devices were used to quantify the behavioural responses of two flocks of 15 Merino ewes ranging from 2 to 8 years old (average 4.5 years) during simulated dog predation events. Each sheep was fitted with a GNSS collar, and the behavioural responses of the sheep were video recorded during six trials (three per flock). The behavioural data collated from video recordings were then compared with the movement metrics derived from the GNSS collars. Derived metrics include the spatial distribution of flock members, speed of animal movement and specific behavioural changes including centripetal rotation (circling behaviour of the flock, with individual sheep seeking the centre). While the spatial distribution data did not appear to be specific enough to enable identification of a predation event, the velocity of sheep was higher (P < 0.001) during compared with before and after a simulated dog predation event. Centripetal rotation occurred in 80% of the simulated predation events during this study, and may provide a means for identifying predation. The spatio-temporal data from GNSS devices have potential as a research tool to assist in understanding sheep movement patterns during a dog attack. While further research and mathematical modelling of predation events is clearly required, the application of remote sensing technology has the potential to improve future livestock monitoring.
Additional keywords: behaviour, dog attack, global positioning system, remote monitoring.
References
Allen L, Fleming P (2004) Review of canid management in Australia for the protection of livestock and wildlife – potential application to coyote management. Sheep and Goat Research Journal 19, 97–104.Allen B, West P (2013) Influence of dingoes on sheep distribution in Australia. Australian Veterinary Journal 91, 261–267.
| Influence of dingoes on sheep distribution in Australia.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BC3sjktVOhsw%3D%3D&md5=c72ddb836295f18689074cf0e23e0d01CAS | 23782018PubMed |
Arnold G, Dudzinski M (1978) ‘Ethology of free-ranging domestic animals.’ (Elsevier Scientific Publishing Company: Amsterdam)
Australian Wool Innovation (2010) Strategic plan 2010 to 2013: full version. Available at http://www.wool.com/Content/en-GB/AWI0640_AWI_Strategic_Plan_Full_Version-revised310810.pdf [Verified 20 October 2013]
Averós X, Lorea A, de Heredia IB, Ruiz R, Marchewka J, Arranz J, Estevez I (2014) The behaviour of gestating dairy ewes under different space allowances. Applied Animal Behaviour Science 150, 17–26.
| The behaviour of gestating dairy ewes under different space allowances.Crossref | GoogleScholarGoogle Scholar |
Beyer H (2012) Geospatial modeling environment (version 0.7.2.1). Available at http://www.spatialecology.com/gme [Verified 14 March 2013]
Dwyer C (2004) How has the risk of predation shaped the behavioural responses of sheep to fear and distress? Animal Welfare (South Mimms, England) 13, 269–281.
Dwyer C, Lawrence A (1999) Ewe–ewe and ewe–lamb behaviour in a hill and a lowland breed of sheep: a study using embryo transfer. Applied Animal Behaviour Science 61, 319–334.
| Ewe–ewe and ewe–lamb behaviour in a hill and a lowland breed of sheep: a study using embryo transfer.Crossref | GoogleScholarGoogle Scholar |
Ekesbo I (2011) ‘Farm animal behaviour: characteristics for assessment of health and welfare.’ (CABI: Wallingford, UK)
Fleming P, Korn T (1989) Predation of livestock by wild dogs in eastern New South Wales. The Rangeland Journal 11, 61–66.
| Predation of livestock by wild dogs in eastern New South Wales.Crossref | GoogleScholarGoogle Scholar |
Fleming P, Allen L, Lapidge S, Robley A, Saunders G, Thomson P (2006) A strategic approach to mitigating the impacts of wild canids: proposed activities of the Invasive Animals Cooperative Research Centre. Animal Production Science 46, 753–762.
| A strategic approach to mitigating the impacts of wild canids: proposed activities of the Invasive Animals Cooperative Research Centre.Crossref | GoogleScholarGoogle Scholar |
Gluesing E, Balph D, Knowlton F (1980) Behavioral patterns of domestic sheep and their relationship to coyote predation. Applied Animal Ethology 6, 315–330.
| Behavioral patterns of domestic sheep and their relationship to coyote predation.Crossref | GoogleScholarGoogle Scholar |
González M, Averós X, Heredia I, Ruiz R, Arranz K, Estévez I (2013) The effect of social buffering on fear responses in sheep (Ovis aries). Applied Animal Behaviour Science 149, 13–20.
| The effect of social buffering on fear responses in sheep (Ovis aries).Crossref | GoogleScholarGoogle Scholar |
Hulbert I, Wyllie J, Waterhouse A, French J, McNulty D (1998) A note on the circadian rhythm and feeding behaviour of sheep fitted with a lightweight GPS collar. Applied Animal Behaviour Science 60, 359–364.
| A note on the circadian rhythm and feeding behaviour of sheep fitted with a lightweight GPS collar.Crossref | GoogleScholarGoogle Scholar |
Jennens G (1998) Dog attacks on livestock. In ‘Proceedings of the seventh national conference on urban animal management’. (Ed. S Hassett) pp. 17–25. (Australian Veterinary Association: Artamon, NSW)
King A, Wilson A, Wilshin S, Lowe J, Haddadi H, Hailes S, Morton A (2012) Selfish-herd behaviour of sheep under threat. Current Biology 22, R561–R562.
| Selfish-herd behaviour of sheep under threat.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC38XhtVymsLvP&md5=dd69b345a60e2fa112a13e1b66e57250CAS | 22835787PubMed |
Laporte I, Muhly T, Pitt J, Alexander M, Musiani M (2010) Effects of wolves on elk and cattle behaviors: implications for livestock production and wolf conservation. PLoS ONE 5, 119–134.
| Effects of wolves on elk and cattle behaviors: implications for livestock production and wolf conservation.Crossref | GoogleScholarGoogle Scholar |
Martin, P, Bateson P (2007) ‘Measuring behaviour: an introductory guide.’ (Cambridge University Press: Cambridge, UK)
McLeod R, Norris A (2004) ‘Counting the cost: impact of invasive animals in Australia, 2004.’ (Cooperative Research Centre for Pest Animal Control: Canberra)
Michelena P, Sibbald A, Erhard H, McLeod J (2009) Effects of group size and personality on social foraging: the distribution of sheep across patches. Behavioral Ecology 20, 145–152.
| Effects of group size and personality on social foraging: the distribution of sheep across patches.Crossref | GoogleScholarGoogle Scholar |
Morris J, Cronin G, Bush R (2011) Improving sheep production and welfare in extensive systems through precision sheep management. Animal Production Science 52, 665–670.
Schaefer J, Andrews R, Dinsmore J (1981) An assessment of coyote and dog predation on sheep in Southern Iowa. The Journal of Wildlife Management 45, 883–893.
| An assessment of coyote and dog predation on sheep in Southern Iowa.Crossref | GoogleScholarGoogle Scholar |
Thomson PC (1992) The behavioural ecology of dingoes in north-western Australia. III. Hunting and feeding behaviour, and diet. Wildlife Research 19, 531–541.
| The behavioural ecology of dingoes in north-western Australia. III. Hunting and feeding behaviour, and diet.Crossref | GoogleScholarGoogle Scholar |
Trotter M, Lamb D, Hinch G, Guppy C (2010) Global navigation satellite system livestock tracking: system development and data interpretation. Animal Production Science 50, 616–623.
| Global navigation satellite system livestock tracking: system development and data interpretation.Crossref | GoogleScholarGoogle Scholar |
Vine I (1971) Risk of visual detection and pursuit by a predator and the selective advantage of flocking behaviour. Journal of Theoretical Biology 30, 405–422.
| Risk of visual detection and pursuit by a predator and the selective advantage of flocking behaviour.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaE3M7js1Cnsw%3D%3D&md5=79ee0ed481299e2fef473af3225b5e4cCAS | 5102198PubMed |
VSN International (2013) ‘Genstat for Windows.’ 15th edn. (VSN International: Hemel Hempstead, UK) Available at https://www.vsni.co.uk/software/genstat [Verified 20 July 2013]
Whateley J, Kilgour R, Dalton D (1974) Behaviour of hill country sheep breeds during farming routines. In ‘Proceedings of the New Zealand Society of Animal Production’. (Ed. JL Adam) pp. 28–36. (Editorial Services Limited: Wellington, New Zealand)
Wool Producers Australia (2013) ‘National Wild Dog Action Plan: exposure draft.’ (WoolProducers Australia: Barton, ACT) Available at http://www.woolproducers.com.au/national-wild-dogs-action-plan/ [Verified 20 August 2013]
Woolf A, O’Shea T, Gilbert D (1970) Movements and behavior of bighorn sheep on summer ranges in Yellowstone National Park. The Journal of Wildlife Management 34, 446–450.
| Movements and behavior of bighorn sheep on summer ranges in Yellowstone National Park.Crossref | GoogleScholarGoogle Scholar |