Is cat hunting by Indigenous tracking experts an effective way to reduce cat impacts on threatened species?
Rachel Paltridge A , Nolia Napangati Ward B , John Tjupurrula West B and Kate Crossing AA Kiwirrkurra Indigenous Protected Area, Desert Support Services, 76 Wittenoom Street, East Perth, WA 6004, Australia.
B Tjamu Tjamu Aboriginal Corporation, Kiwirrkurra Community, PMB 83 via Alice Springs, NT 0872, Australia.
C Corresponding author. Email: rachelpaltridge@dss.org.au
Wildlife Research 47(8) 709-719 https://doi.org/10.1071/WR20035
Submitted: 1 April 2020 Accepted: 26 June 2020 Published: 1 September 2020
Abstract
Context: Feral cat is a favoured food item in some Australian Indigenous communities. We describe how cats are hunted and whether cat hunting can contribute to the persistence of threatened species.
Aims: To determine whether cat hunting by expert trackers has the potential to be an effective method of managing predation impacts on threatened species at key sites.
Methods: We recorded all cats captured on the Kiwirrkurra Indigenous protected area (Kiwirrkurra IPA) over a 5-year period by offering incentive payments for hunters to report their catch. For a subset of hunts, we measured the duration and distance of the hunt. We compared the frequency of occurrence of cat tracks in 2-ha track plots between the hunting zone and more remote, unmanaged areas. At a finer scale, we compared cat presence at bilby burrows inside and outside the hunting zone.
Key results: In all, 130 cats were removed from the Kiwirrkurra IPA from 2014 to 2019. Hunts took an average of 62 min to complete and a team of four hunters could catch up to four cats in a single day. Although cats still occurred throughout the hunting zone, we found that cat detections at track plots were less likely in the areas where cats were hunted. Long-term data suggest that threatened species have persisted better in areas where there is an active presence of hunters.
Conclusions: Cat hunting by Indigenous tracking experts is an efficient method of despatching cats at localised sites. Following footprints on foot facilitates the targeting of individual cats that are hunting at threatened species burrows. More rigorous studies are required to determine whether cat hunting significantly reduces predation on threatened species, or whether there are other co-benefits of maintaining a presence of hunters in the landscape (such as fine-scale fire management) that are more important for the persistence of vulnerable prey.
Implications: Wherever open sandy substrates occur, there is potential to employ Indigenous expert trackers to assist with the removal of problem cats, such as, for example, to complete cat eradication inside fenced reintroduction sites, or at times of peak prey vulnerability, such as breeding events or after bushfires.
Additional keywords: ethnozoology, pest control, threatened species.
References
Abbott, I. (2002). Origin and spread of the cat, Felis catus, on mainland Australia, with a discussion of the magnitude of its early impact on native fauna. Wildlife Research 29, 51–74.| Origin and spread of the cat, Felis catus, on mainland Australia, with a discussion of the magnitude of its early impact on native fauna.Crossref | GoogleScholarGoogle Scholar |
Abbott, I. (2008). The spread of the cat, Felis catus, in Australia: re-examination of the current conceptual model with additional information. Conservation Science Western Australia 7, 1–17.
Balme, J., and O’Connor, S. (2016). Dingoes and Aboriginal social organization in Holocene Australia. Journal of Archaeological Science: Reports 7, 775–781.
| Dingoes and Aboriginal social organization in Holocene Australia.Crossref | GoogleScholarGoogle Scholar |
Bliege Bird, R., Bird, D., Fernandez, L., Taylor, N., Taylor, W., and Nimmo, D. (2018). Aboriginal burning promotes fine-scale pyrodiversity and native predators in Australia’s Western Desert. Biological Conservation 219, 110–118.
| Aboriginal burning promotes fine-scale pyrodiversity and native predators in Australia’s Western Desert.Crossref | GoogleScholarGoogle Scholar |
Burgess, C. P., Johnston, F. H., Berry, H. L., McDonnell, J., Yibarbuk, D., Gunabarra, C., Mileran, A., and Bailie, R. S. (2009). Healthy country, healthy people: the relationship between Indigenous health status and ‘caring for country’. The Medical Journal of Australia 190, 567–572.
| Healthy country, healthy people: the relationship between Indigenous health status and ‘caring for country’.Crossref | GoogleScholarGoogle Scholar | 19450204PubMed |
Burrows, N., and Thoomes, E. (2017). Effectiveness of aerial and ground baiting on introduced predators on Matuwa (Lorna Glen), winter 2017. Unpublished report to Department of Biodiversity, Conservation and Attractions, Perth, WA, Australia.
Carnegie, D. W. (1898). ‘Spinifex and Sand: a Narrative of Five Years’ Pioneering and Exploration in Western Australia.’ (C.A. Pearson: London, UK.)
Christensen, P., and Burrows, N. (1995). Project desert dreaming: experimental reintroduction of mammals to the Gibson Desert, Western Australia. In ‘Reintroduction Biology of Australian and New Zealand Fauna’. (Ed. M. Serena.) pp. 199–207. (Surrey Beatty: Sydney, NSW, Australia.)
Comer, S., Speldewinde, P., Tiller, C., Clausen, L., Pinder, J., Cowen, S., and Algar, D. (2018). Evaluating the efficacy of a landscape scale feral cat control program using camera traps and occupancy models. Scientific Reports 8, 5335–5339.
| Evaluating the efficacy of a landscape scale feral cat control program using camera traps and occupancy models.Crossref | GoogleScholarGoogle Scholar | 29593271PubMed |
Finlayson, H. H. (1961). On central Australian mammals. Part IV. The distribution and status of central Australian species. Records of the South Australian Museum 14, 141–191.
Gibson, D. F., Lundie-Jenkins, G., Langford, D. G., Cole, J. R., Clarke, D. E., and Johnson, K. A. (1994). Predation by feral cats, Felis catus, on the rufous hare-wallaby, Lagorchestes hirsutus, in the Tanami Desert. Australian Mammalogy 17, 103–107.
Hampton, J. O., and Hyndman, T. H. (2019). Underaddressed animal‐welfare issues in conservation. Conservation Biology 33, 803–811.
| Underaddressed animal‐welfare issues in conservation.Crossref | GoogleScholarGoogle Scholar | 30549308PubMed |
Johnson, K. (1991). Feral cats: the Northern Territory perspective. In ‘The Impact of Feral Cats on Native Wildlife’. Proceedings of a workshop held 8–9 May 1991. (Ed. C. Potter.) pp. 45–52. (Australian National Parks and Wildlife Service: Canberra, ACT, Australia.)
Liddle, N. (2016). The availability and use of root-dwelling larvae as a food source for the greater bilby, Macrotis lagotis, in the fire prone Tanami Desert of the Northern Territory. B.Sc.(Hons) Thesis, Charles Darwin University, Alice Springs, NT, Australia.
McDonald, P. J., Brittingham, R., Nano, C., and Paltridge, R. (2015). A new population of the critically endangered central rock-rat (Zyzomys pedunculatus) discovered in the Northern Territory. Australian Mammalogy 37, 97–100.
| A new population of the critically endangered central rock-rat (Zyzomys pedunculatus) discovered in the Northern Territory.Crossref | GoogleScholarGoogle Scholar |
McGregor, H., Legge, S., Jones, M. E., and Johnson, C. N. (2015). Feral cats are better killers in open habitats, revealed by animal-borne video. PLoS ONE 10, e0133915.
| Feral cats are better killers in open habitats, revealed by animal-borne video.Crossref | GoogleScholarGoogle Scholar | 26288224PubMed |
McGregor, H. W., Hampton, J. O., Lisle, D., and Legge, S. (2016). Live-capture of feral cats using tracking dogs and darting, with comparisons to leg-hold trapping. Wildlife Research 43, 313–322.
| Live-capture of feral cats using tracking dogs and darting, with comparisons to leg-hold trapping.Crossref | GoogleScholarGoogle Scholar |
Molsher, R. L. (2001). Trapping and demographics of feral cats (Felis catus) in central New South Wales. Wildlife Research 28, 631–636.
| Trapping and demographics of feral cats (Felis catus) in central New South Wales.Crossref | GoogleScholarGoogle Scholar |
Moore, D., Kearney, M. R., Paltridge, R., McAlpin, S., and Stow, A. (2018). Feeling the pressure at home: predator activity at the burrow entrance of an endangered arid‐zone skink. Austral Ecology 43, 102–109.
| Feeling the pressure at home: predator activity at the burrow entrance of an endangered arid‐zone skink.Crossref | GoogleScholarGoogle Scholar |
Moseby, K. E., and Hill, B. M. (2011). The use of poison baits to control feral cats and red foxes in arid South Australia I. Aerial baiting trials. Wildlife Research 38, 338–349.
| The use of poison baits to control feral cats and red foxes in arid South Australia I. Aerial baiting trials.Crossref | GoogleScholarGoogle Scholar |
Moseby, K. E., Read, J. L., Paton, D. C., Copley, P., Hill, B. M., and Crisp, H. A. (2011). Predation determines the outcome of 10 reintroduction attempts in arid South Australia. Biological Conservation 144, 2863–2872.
Moseby, K. E., Peacock, D. E., and Read, J. L. (2015). Catastrophic cat predation: a call for predator profiling in wildlife protection programs. Biological Conservation 191, 331–340.
| Catastrophic cat predation: a call for predator profiling in wildlife protection programs.Crossref | GoogleScholarGoogle Scholar |
Paltridge, R. (2002). The diets of cats, foxes and dingoes in relation to prey availability in the Tanami Desert, Northern Territory. Wildlife Research 29, 389–403.
| The diets of cats, foxes and dingoes in relation to prey availability in the Tanami Desert, Northern Territory.Crossref | GoogleScholarGoogle Scholar |
Read, J. L., Dagg, E., and Moseby, K. E. (2019). Prey selectivity by feral cats at central Australian rock-wallaby colonies. Australian Mammalogy 41, 132–141.
| Prey selectivity by feral cats at central Australian rock-wallaby colonies.Crossref | GoogleScholarGoogle Scholar |
Rich, M., Nolan, B., Gentle, M., and Speed, J. (2014). Lessons in feral cat control. Can adaptive management provide the solution? A case study from Astrebla Downs National Park, western Queensland. In ‘16th Australasian Vertebrate Pest Conference’. (Ed. M. Gentle.) p. 43. (Brisbane, Qld, Australia.)
RSPCA (2004). A national approach towards humane vertebrate pest control. Discussion paper. In ‘Proceedings of an RSPCA Australia–AWC–VPC Joint Workshop’, 4–5 August 2004, Melbourne, Vic., Australia. (RSPCA Australia: Canberra, ACT, Australia.)
Schubert, A., and Paltridge, R. (2015). Kiwirrkurra fire mapping report. Unpublished report to Central Desert Native Title Service, Alice Springs, NT, Australia.
Sharp, T., and Saunders, G. (2011). ‘A Model for Assessing the Relative Humaness of Pest Animal Control Methods.’ 2nd edn. (Australian Government Department of Agriculture, Fisheries and Forestry: Canberra, ACT, Australia.)
Sims, C., Morris, K., and Blythman, M. (2017). Rangelands Restoration: Fauna recovery at Matuwa (Lorna Glen), Western Australia – Annual Report 2016. Department of Parks and Wildlife, Perth, WA, Australia.
Thomson, D. (1975). ‘Bindibu Country.’ (Thomas Nelson: Melbourne, Vic., Australia.)
Walsh, F. (2008). To hunt and to hold: Martu Aboriginal people’s uses and knowledge of their country, with implications for co-management in Karlamilyi (Rudall River) National Park and the Great Sandy Desert, Western Australia. Ph.D. Thesis, Departments of Anthropology and Plant Biology, The University of Western Australia, Perth, WA, Australia.
West, J., Nangala, J., Wright, B., and Crossing, K. (2018). Interview with John Tjupurrula West and Josephine Nangala. In ‘Eat the Problem’. (Eds K. Kaechele, A. Fogarty, and P. Dickson.) pp. 262–264. (Museum of Old and New Art: Hobart, Tas., Australia.)
Woinarski, J. C. Z., Burbidge, A. A., and Harrison, P. L. (2014). ‘The Action Plan for Australian Mammals 2012.’ (CSIRO Publishing: Melbourne, Vic., Australia.)
Woinarski, J. C. Z., Legge, S. M., and Dickman, C. R. (2019). ‘Cats in Australia: Companion and Killer.’ (CSIRO Publishing: Melbourne, Vic., Australia.)