Eye in the sky: observing wild dingo hunting behaviour using drones
Tahlia I. Pollock A * , Daniel O. Hunter B , David P. Hocking A C and Alistair R. Evans A DA School of Biological Sciences, Monash University, Clayton, Vic. 3800, Australia.
B School of Biological, Earth and Environmental Sciences, University of New South Wales, NSW, 2052, Australia.
C Zoology, Tasmanian Museum and Art Gallery, Hobart, Tas. 7000, Australia.
D Geosciences, Museums Victoria, Melbourne, Vic. 3001, Australia.
Wildlife Research 50(3) 212-223 https://doi.org/10.1071/WR22033
Submitted: 28 February 2022 Accepted: 27 September 2022 Published: 16 December 2022
© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing. This is an open access article distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND)
Abstract
Context: The behaviours used by mammalian predators to track, kill, and consume prey are some of the most dynamic interspecific interactions in nature. However, they are often challenging to follow through the landscape and observe directly without disturbing the animals being watched.
Aims: We describe the behaviours used by wild dingoes while hunting macropods in Namadgi National Park, Australian Capital Territory, Australia.
Methods: Footage was initially captured by wildlife cinematographers on behalf of documentary programs and was made available for viewing after production. Hunting events were filmed from an altitude of >50 m by using a ‘long lens’ fitted to either a drone or helicopter.
Results: We recorded a suite of hunting behaviours that would have been extremely challenging to observe from the ground via traditional methods. This includes some of the first video records published in the scientific literature of the behaviours used by dingoes to hunt and kill macropod prey, as well as some rare observations of mother and pup hunting dynamics. We did not observe any signs of disturbance as a result of filming for either predator or prey.
Conclusions: The varied repertoire of predatory behaviours displayed by dingoes is similar to that documented in wolves and asserts them as a behaviourally complex top predator in the Australian landscape. In addition, we highlight the use of drones as a valuable approach for directly observing wild behaviours. They offer a minimally invasive and relatively inexpensive and accessible alternative to helicopters. This project is also a case study exemplifying the value of collaborations between filmmakers and researchers that enable the sharing of archival documentary footage for the study of wild animal behaviour.
Implications: Future studies of wild animal behaviour should consider employing drones (at a safe distance and in accordance with published best practices and guidelines) as an additional tool to collect types of data that would be challenging using other methods.
Keywords: behaviour, dingo, drones, hunting, predation, predator, prey, UAVs.
References
Behrendorff, L (2018). Clever girl? An observation of innovative prey handling by a dingo (Canis dingo). Pacific Conservation Biology 24, 194–197.| Clever girl? An observation of innovative prey handling by a dingo (Canis dingo).Crossref | GoogleScholarGoogle Scholar |
Behrendorff, L, Belonje, G, and Allen, BL (2018). Intraspecific killing behaviour of canids: how dingoes kill dingoes. Ethology Ecology & Evolution 30, 88–98.
| Intraspecific killing behaviour of canids: how dingoes kill dingoes.Crossref | GoogleScholarGoogle Scholar |
Brook, LA, and Kutt, AS (2011). The diet of the dingo (Canis lupus dingo) in north-eastern Australia with comments on its conservation implications. The Rangeland Journal 33, 79–85.
| The diet of the dingo (Canis lupus dingo) in north-eastern Australia with comments on its conservation implications.Crossref | GoogleScholarGoogle Scholar |
Brunton, E, Bolin, J, Leon, J, and Burnett, S (2019). Fright or flight? Behavioural responses of kangaroos to drone-based monitoring. Drones 3, 41.
| Fright or flight? Behavioural responses of kangaroos to drone-based monitoring.Crossref | GoogleScholarGoogle Scholar |
Cairns, KM, Crowther, MS, Nesbitt, B, and Letnic, M (2022). The myth of wild dogs in Australia: are there any out there? Australian Mammalogy 44, 67–75.
| The myth of wild dogs in Australia: are there any out there?Crossref | GoogleScholarGoogle Scholar |
Clarke, JA, and Déaux, ÉC (2013). Dingo (Canis lupus dingo) acoustic repertoire: form and contexts. Behaviour 150, 75–101.
| Dingo (Canis lupus dingo) acoustic repertoire: form and contexts.Crossref | GoogleScholarGoogle Scholar |
Colman, NJ, Gordon, CE, Crowther, MS, and Letnic, M (2014). Lethal control of an apex predator has unintended cascading effects on forest mammal assemblages. Proceedings of the Royal Society B: Biological Sciences 281, 20133094.
| Lethal control of an apex predator has unintended cascading effects on forest mammal assemblages.Crossref | GoogleScholarGoogle Scholar |
Corbett LK (1995) ‘The dingo in Australia and Asia.’ (University of New South Wales Press: Sydney, NSW, Australia)
Corbett LK, Newsome AE (1975) Dingo society and its maintenance: a preliminary analysis. In ‘Wild canids: their systematics, behavioural ecology and evolution’. (Ed. MW Fox) pp. 369–379. (Van Nostrand Reinhold Company: New York, NY, USA)
Corbett, LK, and Newsome, AE (1987). The feeding ecology of the dingo. Oecologia 74, 215–227.
| The feeding ecology of the dingo.Crossref | GoogleScholarGoogle Scholar |
Coulson G (2008) Eastern grey kangaroo (Macropus giganteus). In ‘The mammals of Australia’. (Eds S Van Dyck, R Strahan) pp. 335–338. (New Holland Publishers: Sydney, NSW, Australia)
Crisler, L (1956). Observations of wolves hunting caribou. Journal of Mammalogy 37, 337–346.
| Observations of wolves hunting caribou.Crossref | GoogleScholarGoogle Scholar |
Dawson TJ (1995) ‘Kangaroos: biology of the largest marsupials.’ (Cornell University Press)
Doherty, TS, Davis, NE, Dickman, CR, Forsyth, DM, Letnic, M, Nimmo, DG, Palmer, R, Ritchie, EG, Benshemesh, J, Edwards, G, Lawrence, J, Lumsden, L, Pascoe, C, Sharp, A, Stokeld, D, Myers, C, Story, G, Story, P, Triggs, B, Venosta, M, Wysong, M, and Newsome, TM (2019). Continental patterns in the diet of a top predator: Australia’s dingo. Mammal Review 49, 31–44.
| Continental patterns in the diet of a top predator: Australia’s dingo.Crossref | GoogleScholarGoogle Scholar |
Ewer R (1973) ‘The carnivores.’ (Cornell University Press: Ithaca, NY, USA)
Fentress JC (1992) The covalent animal: on bonds and their boundaries in behavioral research. In ‘The inevitable bond: examining scientist–animal interactions’. (Eds H Davis, D Balfour) pp. 44–71. (Cambridge University Press: Cambridge)
Garshelis D (2009) Family Ursidae (bears). In ‘Handbook of mammals of the world’. (Eds RA Mittermeier, DE Wilson) pp. 448–497. (Lynx Edicions: Barcelona, Spain)
Haber GC (1977) Socio-ecological dynamics of wolves and prey in a subarctic ecosystem. PhD thesis. University of British Columbia, Canada.
Hodgson, JC, Mott, R, Baylis, SM, Pham, TT, Wotherspoon, S, Kilpatrick, AD, Raja Segaran, R, Reid, I, Terauds, A, and Koh, LP (2018). Drones count wildlife more accurately and precisely than humans. Methods in Ecology and Evolution 9, 1160–1167.
| Drones count wildlife more accurately and precisely than humans.Crossref | GoogleScholarGoogle Scholar |
Hunter DO (2018) ‘Top predators can induce ecological state-shifts over large spatio-temporal scales in Australian forest ecosystems.’ (UNSW: Sydney, NSW, Australia)
Hunter, DO, Lagisz, M, Leo, V, Nakagawa, S, and Letnic, M (2018). Not all predators are equal: a continent-scale analysis of the effects of predator control on Australian mammals. Mammal Review 48, 108–122.
| Not all predators are equal: a continent-scale analysis of the effects of predator control on Australian mammals.Crossref | GoogleScholarGoogle Scholar |
Jackson, SM, Fleming, PJS, Eldridge, MDB, Ingleby, S, Flannery, T, Johnson, RN, Cooper, SJB, Mitchell, KJ, Souilmi, Y, Cooper, A, Wilson, DE, and Helgen, KM (2019). The dogma of dingoes—taxonomic status of the dingo: a reply to smith et al. Zootaxa 4564, 198–212.
| The dogma of dingoes—taxonomic status of the dingo: a reply to smith et al.Crossref | GoogleScholarGoogle Scholar |
Karanth, KU (1995). Estimating tiger Panthera tigris populations from camera-trap data using capture: recapture models. Biological Conservation 71, 333–338.
| Estimating tiger Panthera tigris populations from camera-trap data using capture: recapture models.Crossref | GoogleScholarGoogle Scholar |
Kelsall JP (1968) ‘The migratory barren-ground caribou of Canada.’ (Queens Printer: Ottawa, Canada)
Krause, DJ, Hinke, JT, Perryman, WL, Goebel, ME, and LeRoi, DJ (2017). An accurate and adaptable photogrammetric approach for estimating the mass and body condition of pinnipeds using an unmanned aerial system. PLoS ONE 12, e0187465.
| An accurate and adaptable photogrammetric approach for estimating the mass and body condition of pinnipeds using an unmanned aerial system.Crossref | GoogleScholarGoogle Scholar |
Landeo-Yauri SS, Castelblanco-Martínez DN, Hénaut Y, Arreola MR, Ramos EA (2021) Behavioural and physiological responses of captive antillean manatees to small aerial drones. Wildlife Research.
Lehner PN (1998) ‘Handbook of ethological methods.’ (Cambridge University Press: Cambridge)
Letnic M, Fillios M, Crowther MS (2014) The arrival and impacts of the dingo. In ‘Carnivores of Australia: past, present and future’. (Eds AS Glen, CR Dickman) pp. 53–67. (CSIRO Publishing: Melbourne, Vic., Australia)
Lyons, MB, Mills, CH, Gordon, CE, and Letnic, M (2018). Linking trophic cascades to changes in desert dune geomorphology using high-resolution drone data. Journal of the Royal Society Interface 15, 20180327.
| Linking trophic cascades to changes in desert dune geomorphology using high-resolution drone data.Crossref | GoogleScholarGoogle Scholar |
Maffei, L, Cuéllar, E, and Noss, A (2004). One thousand jaguars (Panthera onca) in Bolivia’s Chaco? Camera trapping in the Kaa-Iya National Park. Journal of Zoology 262, 295–304.
| One thousand jaguars (Panthera onca) in Bolivia’s Chaco? Camera trapping in the Kaa-Iya National Park.Crossref | GoogleScholarGoogle Scholar |
Marsack, P, and Campbell, G (1990). Feeding-behavior and diet of dingoes in the Nullarbor Region, Western-Australia. Australian Wildlife Research 17, 349–357.
| Feeding-behavior and diet of dingoes in the Nullarbor Region, Western-Australia.Crossref | GoogleScholarGoogle Scholar |
McCullough DR, McCullough Y (2000) ‘Kangaroos in outback Australia.’ (Columbia University Press)
Mech, LD (1966). Hunting behavior of timber wolves in Minnesota. Journal of Mammalogy 47, 347–348.
| Hunting behavior of timber wolves in Minnesota.Crossref | GoogleScholarGoogle Scholar |
Mech LD (1970) ‘The wolf: the ecology and behavior of an endangered species.’ (The Natural History Press: New York, NY, USA)
Mech LD (1988) ‘The arctic wolf: living with the pack.’ (Voyageur Press: MI)
Mech LD (1991) ‘The way of the wolf.’ (Voyageur Press: Stillwater, MI)
Mech LD (1997) ‘The arctic wolf: ten years with the pack.’ (Raincoast Books: Vancouver, Canada)
Mech, LD (2007). Possible use of foresight, understanding, and planning by wolves hunting muskoxen. Arctic 60, 145–149.
Mech LD, Boitani L (2010) ‘Wolves: behavior, ecology, and conservation.’ (University of Chicago Press: Chicago, IL, USA)
Mech LD, Smith DW, MacNulty DR (2015) ‘Wolves on the hunt: the behavior of wolves hunting wild prey.’ (University of Chicago Press: Chicago, IL, USA)
Mittermeier RA, Wilson DE (2009) ‘Handbook of the mammals of the world: carnivores.’ (Lynx Ediciones: Barcelona, Spain)
Nelson, ME, and Mech, LD (1981). Deer social organization and wolf predation in Northeastern Minnesota. Wildlife Monographs 77, 3–53.
Nelson, ME, and Mech, LD (1984). Observation of a swimming wolf killing a swimming deer. Journal of Mammalogy 65, 143–144.
| Observation of a swimming wolf killing a swimming deer.Crossref | GoogleScholarGoogle Scholar |
Packard JM (2003) Wolf behaviour: reproductive, social and intelligent. In ‘Wolves: behavior, ecology, and conservation’. (Eds LD Mech, L Boitani) pp. 35–65. (University of Chicago Press)
Peterson RL (1978) ‘North American moose.’ (University of Toronto Press: Toronto, Canada)
Pirotta, V, Smith, A, Ostrowski, M, Russell, D, Jonsen, ID, Grech, A, and Harcourt, R (2017). An economical custom-built drone for assessing whale health. Frontiers in Marine Science 4, 425.
| An economical custom-built drone for assessing whale health.Crossref | GoogleScholarGoogle Scholar |
Poole, WE, Carpenter, SM, and Wood, JT (1982). Growth of grey kangaroos and the reliability of age determination from body measurements I. The eastern grey kangaroo, Macropus giganteus. Wildlife Research 9, 9–20.
| Growth of grey kangaroos and the reliability of age determination from body measurements I. The eastern grey kangaroo, Macropus giganteus.Crossref | GoogleScholarGoogle Scholar |
Purcell B (2010a) ‘Dingo.’ (CSIRO Publishing: Melbourne, Vic., Australia)
Purcell, BV (2010b). A novel observation of dingoes (Canis lupus dingo) attacking a swimming eastern grey kangaroo (Macropus giganteus). Australian Mammalogy 32, 201–204.
| A novel observation of dingoes (Canis lupus dingo) attacking a swimming eastern grey kangaroo (Macropus giganteus).Crossref | GoogleScholarGoogle Scholar |
Robbins, JR, Poncet, D, Evans, AR, and Hocking, DP (2019). A rare observation of group prey processing in wild leopard seals (Hydrurga leptonyx). Polar Biology 42, 1625–1630.
| A rare observation of group prey processing in wild leopard seals (Hydrurga leptonyx).Crossref | GoogleScholarGoogle Scholar |
Robertshaw, JD, and Harden, RH (1986). The ecology of the dingo in northeastern New-South-Wales. 4. Prey selection by dingoes, and its effect on the major prey species, the swamp wallaby, Wallabia bicolor (Desmarest). Wildlife Research 13, 141–163.
| The ecology of the dingo in northeastern New-South-Wales. 4. Prey selection by dingoes, and its effect on the major prey species, the swamp wallaby, Wallabia bicolor (Desmarest).Crossref | GoogleScholarGoogle Scholar |
Rovero, F, Rathbun, GB, Perkin, A, Jones, T, Ribble, DO, Leonard, C, Mwakisoma, RR, and Doggart, N (2008). A new species of giant sengi or elephant-shrew (genus Rhynchocyon) highlights the exceptional biodiversity of the Udzungwa Mountains of Tanzania. Journal of Zoology 274, 126–133.
| A new species of giant sengi or elephant-shrew (genus Rhynchocyon) highlights the exceptional biodiversity of the Udzungwa Mountains of Tanzania.Crossref | GoogleScholarGoogle Scholar |
Shepherd, NC (1981). Predation of red kangaroos, Macropus rufus, by the dingo, Canis familiaris dingo (Blumenbach) in north-western New South Wales. Wildlife Research 8, 255–262.
| Predation of red kangaroos, Macropus rufus, by the dingo, Canis familiaris dingo (Blumenbach) in north-western New South Wales.Crossref | GoogleScholarGoogle Scholar |
Smith B (2015) ‘The dingo debate: origins, behaviour and conservation.’ (CSIRO Publishing: Melbourne, Vic., Australia)
Smith, BP, Cairns, KM, Adams, JW, Newsome, TM, Fillios, M, Deaux, EC, Parr, WCH, Letnic, M, Van Eeden, LM, Appleby, RG, Bradshaw, CJA, Savolainen, P, Ritchie, EG, Nimmo, DG, Archer-Lean, C, Greenville, AC, Dickman, CR, Watson, L, Moseby, KE, Doherty, TS, Wallach, AD, Morrant, DS, and Crowther, MS (2019). Taxonomic status of the Australian dingo: the case for Canis dingo Meyer, 1793. Zootaxa 4564, 173–197.
| Taxonomic status of the Australian dingo: the case for Canis dingo Meyer, 1793.Crossref | GoogleScholarGoogle Scholar |
Sorrell, KJ, Clarke, RH, Holmberg, R, and McIntosh, RR (2019). Remotely piloted aircraft improve precision of capture–mark–resight population estimates of Australian fur seals. Ecosphere 10, e02812.
| Remotely piloted aircraft improve precision of capture–mark–resight population estimates of Australian fur seals.Crossref | GoogleScholarGoogle Scholar |
Sunquist M, Sunquist F (2002) ‘Wild cats of the world.’ (University of Chicago Press: London, UK)
Sunquist F, Sunquist M (2009) Family Felidae (cats). In ‘Handbook of mammals of the world’. (Eds DE Wilson, RA Mittermeier) pp. 54–68. (Lynx Edicions: Barcelona, Spain)
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 |
Thomson, PC, and Rose, K (1992). Age determination of dingoes from characteristics of canine teeth. Wildlife Research 19, 597–599.
| Age determination of dingoes from characteristics of canine teeth.Crossref | GoogleScholarGoogle Scholar |
Torney, CJ, Lamont, M, Debell, L, Angohiatok, RJ, Leclerc, L-M, and Berdahl, AM (2018). Inferring the rules of social interaction in migrating caribou. Philosophical Transactions of the Royal Society B: Biological Sciences 373, 20170385.
| Inferring the rules of social interaction in migrating caribou.Crossref | GoogleScholarGoogle Scholar |
Vas, E, Lescroël, A, Duriez, O, Boguszewski, G, and Grémillet, D (2015). Approaching birds with drones: first experiments and ethical guidelines. Biology Letters 11, 20140754.
| Approaching birds with drones: first experiments and ethical guidelines.Crossref | GoogleScholarGoogle Scholar |
Wikenros, C, Sand, H, Wabakken, P, Liberg, O, and Pedersen, HC (2009). Wolf predation on moose and roe deer: chase distances and outcome of encounters. Acta Theriologica 54, 207–218.
| Wolf predation on moose and roe deer: chase distances and outcome of encounters.Crossref | GoogleScholarGoogle Scholar |
Wirsing, AJ, Johnston, AN, and Kiszka, JJ (2022). Foreword to the Special Issue on ‘The rapidly expanding role of drones as a tool for wildlife research’. Wildlife Research 49, i–v.
| Foreword to the Special Issue on ‘The rapidly expanding role of drones as a tool for wildlife research’.Crossref | GoogleScholarGoogle Scholar |