Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Wildlife Research Wildlife Research Society
Ecology, management and conservation in natural and modified habitats
Shopping Cart: ( empty )
You are here: Home > Journals > WR > WR04091
RESEARCH ARTICLE
Contents Vol 32(7)

Effectiveness of the eastern grey kangaroo foot thump for deterring conspecifics

Helena Bender
+ Author Affiliations
- Author Affiliations

Department of Zoology, University of Melbourne, Parkville, Vic. 3010, Australia. Email: h.bender@zoology.unimelb.edu.au

Wildlife Research 32(7) 649-655 https://doi.org/10.1071/WR04091
Submitted: 1 October 2004  Accepted: 22 September 2005   Published: 24 November 2005

Abstract

Overabundant wild populations of herbivores often present challenges to primary industry, competing with stock, and damaging crops and property. Eastern grey kangaroos (Macropus giganteus) are one of seven macropodid species that are considered a problem in agriculture in Australia. Most deterrent devices available commercially use sounds that do not occur in nature (i.e. artificial sounds), which often have a short-lived or no effect on the target species, whereas trials with biologically significant sounds are often more effective and provide greater resistance to habituation. I used a playback trial of an eastern grey kangaroo foot thump, a biologically significant signal that is given in response to a predator and is usually followed by flight. I determined its effectiveness compared with a recording of background noise (control) for deterring kangaroos over a seven-week period. Kangaroos significantly increased their vigilance levels in response to the foot thump, but not in response to the control signal. Just over 60% of kangaroos took flight in response to the foot thump and the control signals, but more kangaroos took flight in the first 3 s when the foot thump was played. The foot thump shows potential as a deterrent of eastern grey kangaroos for primary industry, and is less likely to suffer from habituation because it is a natural sound.


Acknowledgments

I am greatly indebted to G. Maguire, who willingly took over fieldwork on very short notice. Many thanks to M. Padgham, K. Blackmeer, C. Nave, and others who volunteered their time and advice. I thank M. Littlejohn for loan of acoustic equipment, access to his laboratory, and helpful advice. I thank R. Dunn, N. Pratt and other Melbourne Water staff at Yan Yean for access to the catchment. I thank G. Coulson for being my mentor and providing helpful comments on the manuscript. This study was funded by the Holsworth Wildlife Fund and approved by the University of Melbourne Animal Experimentation Ethics Committee.


References

Arnold, G. W. , Steven, D. E. , and Weeldenburg, J. R. (1989). The use of surrounding farmland by western grey kangaroos living in a remnant of Wandoo woodland and their impact on crop production. Australian Wildlife Research 16, 85–93.
Crossref | GoogleScholarGoogle Scholar | Bender H. (2005a). Auditory stimuli as a method to deter kangaroos in agriculture and road environments. Ph.D. Thesis, University of Melbourne.

Bender, H. (2005b). Structure and function of the eastern grey kangaroo foot thump. Journal of Zoology ,in press
Conover M. R. (1994). How birds interpret distress calls: implications for applied uses of distress call playbacks. In ‘Proceedings of the Vertebrate Pest Conference, Santa Clara, USA, 28 Feb. – 3 Mar.’. (Eds W. S. Halverson and A. C. Crabb.) pp. 233–234. (University of California: Santa Clara, CA.)

Coulson G. (1996). Anti-predator behaviour in marsupials. In ‘Comparison of Marsupial and Placental Behaviour’. (Eds D. B. Croft and U. Gansloßer.) pp 158–186. (Filander Verlag GmbH: Furth, Germany.)

Coulson, G. (1997). Repertoires of social behaviour in captive and free-ranging grey kangaroos, Macropus giganteus and Macropus fuliginosus (Marsupialia: Macropodidae). Journal of Zoology 242, 119–130.
Coulson G. (2001). Overabundant kangaroo populations in southeastern Australia. In ‘Wildlife, Land, and People: Priorities for the 21st Century. Proceedings of the Second International Wildlife Management Congress, Sun City, South Africa’. (Eds R. Field, R. J. Warren, H. Okarma and P. R. Sievert.) pp. 238–242. (The Wildlife Society: Sun City, South Africa.)

Coulson G., Alviano P., Ramp D., and Way S. (1999). The kangaroos of Yan Yean: history of a problem population. In ‘Proceedings of the Royal Society of Victoria Conference’. pp. 121–130. (Royal Society of Victoria Inc.: Melbourne.)

Coulson G., Alviano P., Ramp D., Way S., McLean N., and Yazgin V. (2000). The kangaroos of Yan Yean: issues for a forested water catchment in a semi-rural matrix. In ‘Nature Conservation 5: Nature Conservation in Production Environments: Managing the Matrix’. (Eds J. L. Craig, N. Mitchell and D. A. Saunders.) pp 146–156. (Surrey Beatty: Sydney.)

Croft, D. B. (1981). Behaviour of red kangaroos, Macropus rufus in northwestern New South Wales, Australia. Australian Mammalogy 4, 5–58.
Edwards G. P. (1989). The interaction between macropodids and sheep: a review. In ‘Kangaroos, Wallabies and Rat-kangaroos’. (Eds G. Grigg, P. Jarman and I. Hume.) pp. 795–803. (Surrey Beatty: Sydney.)

Edwards K., and Oogjes G. (1998). Management of native animals – animal welfare and rights. In ‘Managing Marsupial Overabundance for Conservation Benefits’. (Ed. P. E. Cowan.) pp. 8–12. Issues in Conservation and Management of Marsupials – Occasional Papers of the Marsupial CRC No. 1. (Marsupial Cooperative Research Centre: Macquarie Centre, NSW.)

Ezealor, A. U. , and Giles, R. H. (1997). Vertebrate pests of a Sahelian wetland agro-ecosystem – perceptions and attitudes of the indigenes and potential management strategies. International Journal of Pest Management 43, 97–104.
Crossref | GoogleScholarGoogle Scholar | Gibson L. M., and Young M. (1987). Kangaroos: counting the cost. The economic effects of kangaroos and kangaroo culling on agricultural production. CSIRO Division of Wildlife and Rangelands Research, Deniliquin, Australia.

Guppy A. (1985). Comparative acoustical and physiological studies of hearing and directionality in vertebrates. Ph.D. Thesis, Australian National University, Canberra.

Kaufmann, J. H. (1974). Habitat use and social organization of nine sympatric species of macropodid marsupials. Journal of Mammalogy 55, 66–80.
Pfeifer W. K., and Goos M. W. (1982). Guard dogs and gas exploders as coyote depredation control tools in North Dakota. In ‘Proceedings of the Vertebrate Pest Conference, Davis, USA’. (Ed. R. E. Marsh.) pp. 55–61. (University of California: Davis, CA.)

Reiter, D. K. , Brunson, M. W. , and Schmidt, R. H. (1999). Public attitudes toward wildlife damage management and policy. Wildlife Society Bulletin 27, 746–758.
Statham M. (1991). Non-toxic control of wallabies. In ‘Australian Vertebrate Pest Control Conference, Adelaide, Australia, 15–19 April’. pp. 328–331. (Department of Primary Industry, Tasmania: Launceston, Tas.)

Statham M. (1993). Effectiveness of an ultrasonic device to repel wallabies. Department of Primary Industries and Fisheries. Report No. 1. Launceston, Tasmania.

Stevens, G. R. , and Clark, L. (1998). Bird repellents – development of avian-specific tear gases for resolution of human–wildlife conflicts. International Biodeterioration & Biodegradation 42, 153–160.
Crossref | GoogleScholarGoogle Scholar | Tanner Z., and Hocking G. (2001). Status and management of the forester kangaroo in Tasmania, 2000. Department of Primary Industries, Water and Environment. Report No. 1. Hobart, Tasmania.

Woronecki P. P. (1988). Effect of ultrasonic, visual, and sonic devices on pigeon numbers in a vacant building. In ‘Proceedings of the Vertebrate Pest Conference, Davis, USA’. (Eds A. C. Crabb and R. E. Marsh.) pp. 266–272. (University of California: Davis, CA.)