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Wildlife Research Wildlife Research Society
Ecology, management and conservation in natural and modified habitats
RESEARCH ARTICLE

Distribution and diet of feral cats (Felis catus) in the Wet Tropics of north-eastern Australia, with a focus on the upland rainforest

Jesse Rowland A C , Conrad J. Hoskin B and Scott Burnett A
+ Author Affiliations
- Author Affiliations

A School of Science and Engineering, University of the Sunshine Coast, 90 Sippy Downs Drive, Sippy Downs, Qld 4556, Australia.

B College of Science and Engineering, James Cook University, 1 James Cook Drive, Douglas, Qld 4811, Australia.

C Corresponding author. Email: jesse.rowland@research.usc.edu.au

Wildlife Research 47(8) 649-659 https://doi.org/10.1071/WR19201
Submitted: 18 October 2019  Accepted: 3 March 2020   Published: 10 June 2020

Abstract

Context: Feral cats have been identified as a key threat to Australia’s biodiversity, particularly in arid areas and tropical woodlands. Their presence, abundance and potential impacts in rainforest have received less attention.

Aims: To investigate the distribution and diet of feral cats (Felis catus) in upland rainforest of the Wet Tropics.

Methods: We collated available occurrence records from the Wet Tropics, and data from upland camera-trapping surveys over an 8-year period, to assess geographic and elevational distribution of feral cats in the bioregion. We also assessed the diet of feral cats from scats collected at upland sites.

Key results: Feral cats are widespread through the Wet Tropics bioregion, from the lowlands to the peaks of the highest mountains (>1600 m), and in all vegetation types. Abundance appears to vary greatly across the region. Cats were readily detected during camera-trap surveys in some upland rainforest areas (particularly in the southern Atherton Tablelands and Bellenden Ker Range), but were never recorded in some areas (Thornton Peak, the upland rainforest of Windsor Tableland and Danbulla National Park) despite numerous repeated camera-trap surveys over the past 8 years at some of these sites. Scat analysis suggested that small mammals comprise ~70% of the diet of feral cats at an upland rainforest site. Multivariate analysis could not detect a difference in mammal community at sites where cats were detected or not.

Conclusions: Feral cats are widespread in the Wet Tropics and appear to be common in some upland areas. However, their presence and abundance are variable across the region, and the drivers of this variability are not resolved. Small mammals appear to be the primary prey in the rainforest, although the impacts of cats on the endemic and threatened fauna of the Wet Tropics is unknown.

Implications: Given their documented impact in some ecosystems, research is required to examine the potential impact of cats on Wet Tropics fauna, particularly the many upland endemic vertebrates. Studies are needed on (1) habitat and prey selection, (2) population dynamics, and (3) landscape source–sink dynamics of feral cats in the Wet Tropics.

Additional keywords: camera trap, invasive predator, prey, small mammal.


References

Atlas of Living Australia (ALA) (2019). Felis catus. Available at http://www.ala.org.au/ [verified 29 August 2019].

Brunner, H., and Coman, B. J. (1974). ‘The identification of mammalian hair.’ (Inkata Press: Melbourne, Vic., Australia.)

Burnett, S. E. (2001). Ecology and conservation status of the northern spot-tailed quoll, Dasyurus maculatus with reference to the future of Australia’s marsupial carnivores. Ph.D. Thesis, James Cook University, Townsville, Qld, Australia.

Burnett, S., and Marsh, H. (2004). Conservation of the spotted-tailed quoll Dasyurus maculatus: a conceptual and applied model with particular reference to populations of the endangered D. m. gracilis. In ‘Conserving Australia’s Forest Fauna’. (Ed. D. Lunney.) pp. 624–638. (Royal Zoological Society of New South Wales: Sydney, NSW, Australia.)

Byrnes, P. (2002). Activity of feral pigs and cats associated with roads and powerline corridors within the Wet Tropics of Queensland World Heritage Area. B.Sc.(Hons) Thesis, James Cook University, Townsville Qld, Australia.

Catling, P., Burt, R., and Forrester, R. (2002). Models of the distribution and abundance of ground-dwelling mammals in the eucalypt forests of north-eastern New South Wales in relation to environmental variables. Wildlife Research 29, 313–322.
Models of the distribution and abundance of ground-dwelling mammals in the eucalypt forests of north-eastern New South Wales in relation to environmental variables.Crossref | GoogleScholarGoogle Scholar |

DELWP (Department of Environment, Land, Water and Planning) (2016). ‘National Recovery Plan for the Spotted-tailed Quoll Dasyurus maculatus.’ (Australian Government: Canberra, ACT, Australia.)

DNRME (Department of Natural Resources Mines and Energy) (2019). ‘Baseline Roads and Tracks: Queensland.’ (Department of Natural Resources, Mines and Energy: Brisbane, Qld, Australia.)

DNRM (Department of Natural Resources and Mines) (2011). ‘Australian 1 Second SRTM Derived Digital Smoothed Elevation Model. DEM-S Version 1.’ (Geoscience Australia: Canberra, ACT, Australia.)

Doherty, T. S., Davis, R. A., van Etten, E. J., Algar, D., Collier, N., Dickman, C. R., Edwards, G., Masters, P., Palmer, R., and Robinson, S. (2015). A continental‐scale analysis of feral cat diet in Australia. Journal of Biogeography 42, 964–975.
A continental‐scale analysis of feral cat diet in Australia.Crossref | GoogleScholarGoogle Scholar |

Doherty, T. S., Dickman, C. R., Johnson, C. N., Legge, S. M., Ritchie, E. G., and Woinarski, J. C. (2017). Impacts and management of feral cats Felis catus in Australia. Mammal Review 47, 83–97.
Impacts and management of feral cats Felis catus in Australia.Crossref | GoogleScholarGoogle Scholar |

Fairfax, R. J. (2019). Dispersal of the introduced red fox (Vulpes vulpes) across Australia. Biological Invasions 21, 1259–1268.
Dispersal of the introduced red fox (Vulpes vulpes) across Australia.Crossref | GoogleScholarGoogle Scholar |

Fancourt, B. A. (2015). Making a killing: photographic evidence of predation of a Tasmanian pademelon (Thylogale billardierii) by a feral cat (Felis catus). Australian Mammalogy 37, 120–124.
Making a killing: photographic evidence of predation of a Tasmanian pademelon (Thylogale billardierii) by a feral cat (Felis catus).Crossref | GoogleScholarGoogle Scholar |

Fisher, D. O., Johnson, C. N., Lawes, M. J., Fritz, S. A., McCallum, H., Blomberg, S. P., VanDerWal, J., Abbott, B., Frank, A., Legge, S., Letnic, M., Thomas, C. R., Fisher, A., Gordon, I. J., and Kutt, A. (2014). The current decline of tropical marsupials in Australia: is history repeating? Global Ecology and Biogeography 23, 181–190.
The current decline of tropical marsupials in Australia: is history repeating?Crossref | GoogleScholarGoogle Scholar |

Frank, A. S., Johnson, C. N., Potts, J. M., Fisher, A., Lawes, M. J., Woinarski, J. C., Tuft, K., Radford, I. J., Gordon, I. J., Collis, M. A., and Legge, S. (2014). Experimental evidence that feral cats cause local extirpation of small mammals in Australia’s tropical savannas. Journal of Applied Ecology 51, 1486–1493.
Experimental evidence that feral cats cause local extirpation of small mammals in Australia’s tropical savannas.Crossref | GoogleScholarGoogle Scholar |

Goldingay, R. L., and Whelan, R. J. (1997). Powerline easements: do they promote edge effects in eucalypt forest for small mammals? Wildlife Research 24, 737–744.
Powerline easements: do they promote edge effects in eucalypt forest for small mammals?Crossref | GoogleScholarGoogle Scholar |

Gordon, G. (1991). Feral cats in Queensland. In ‘The Impact of Cats on Native Wildlife’. (Ed. K. Potter.) pp. 38–44. (Endangered Species Unit, Australian National Parks and Wildlife Service: Canberra, ACT, Australia.)

Hendry, H., and Mann, C. (2018). Camelot: intuitive software for camera-trap data management. Oryx 52, 15.
Camelot: intuitive software for camera-trap data management.Crossref | GoogleScholarGoogle Scholar |

Hohnen, R., Tuft, K., McGregor, H. W., Legge, S., Radford, I. J., and Johnson, C. N. (2016). Occupancy of the invasive feral cat varies with habitat complexity. PLoS One 11, e0152520.
Occupancy of the invasive feral cat varies with habitat complexity.Crossref | GoogleScholarGoogle Scholar | 27655024PubMed |

Kutt, A. S. (2011). The diet of the feral cat (Felis catus) in north-eastern Australia. Acta Theriologica 56, 157–169.
The diet of the feral cat (Felis catus) in north-eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Legge, S., Murphy, B. P., McGregor, H., Woinarski, J. C. Z., Augusteyn, J., Ballard, G., Baseler, M., Buckmaster, T., Dickman, C. R., Doherty, T., Edwards, G., Eyre, T., Fancourt, B., Ferguson, D., Forsyth, D. M., Geary, W. L., Gentle, M., Gillespie, G., Greenwood, L., Hohnen, R., Hume, S., Johnson, C. N., Maxwell, M., McDonald, P. J., Morris, K., Moseby, K., Newsome, T., Nimmo, D., Paltridge, R., Ramsey, D., Read, J., Rendall, A., Rich, M., Ritchie, E., Rowland, J., Short, J., Stokeld, D., Sutherland, D. R., Wayne, A. F., Woodford, L., and Zewe, F. (2017). Enumerating a continental-scale threat: how many feral cats are in Australia? Biological Conservation 206, 293–303.
Enumerating a continental-scale threat: how many feral cats are in Australia?Crossref | GoogleScholarGoogle Scholar |

May, S. A., and Norton, T. (1996). Influence of fragmentation and disturbance on the potential impact of feral predators on native fauna in Australian forest ecosystems. Wildlife Research 23, 387–400.
Influence of fragmentation and disturbance on the potential impact of feral predators on native fauna in Australian forest ecosystems.Crossref | GoogleScholarGoogle Scholar |

McComb, L. B., Lentini, P. E., Harley, D. K., Lumsden, L. F., Antrobus, J. S., Eyre, A. C., and Briscoe, N. J. (2019). Feral cat predation on Leadbeater’s possum (Gymnobelideus leadbeateri) and observations of arboreal hunting at nest boxes. Australian Mammalogy 41, 262–265.
Feral cat predation on Leadbeater’s possum (Gymnobelideus leadbeateri) and observations of arboreal hunting at nest boxes.Crossref | GoogleScholarGoogle Scholar |

McDonald, P. J., Brim-Box, J., Nano, C. E., Macdonald, D. W., and Dickman, C. R. (2018). Diet of dingoes and cats in central Australia: does trophic competition underpin a rare mammal refuge? Journal of Mammalogy 99, 1120–1127.
Diet of dingoes and cats in central Australia: does trophic competition underpin a rare mammal refuge?Crossref | GoogleScholarGoogle Scholar |

McGregor, H. W., Legge, S., Jones, M. E., and Johnson, C. N. (2014). Landscape management of fire and grazing regimes alters the fine-scale habitat utilisation by feral cats. PLoS One 9, e109097.
Landscape management of fire and grazing regimes alters the fine-scale habitat utilisation by feral cats.Crossref | GoogleScholarGoogle Scholar | 25329902PubMed |

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., Cliff, H. B., and Kanowski, J. (2016). Habitat preference for fire scars by feral cats in Cape York Peninsula. Australian Wildlife Research 43, 623–633.
Habitat preference for fire scars by feral cats in Cape York Peninsula.Crossref | GoogleScholarGoogle Scholar |

Mifsud, G., and Woolley, P. (2012). Predation of the Julia Creek dunnart (Sminthopsis douglasi) and other native fauna by cats and foxes on Mitchell grass downs in Queensland. Australian Mammalogy 34, 188–195.
Predation of the Julia Creek dunnart (Sminthopsis douglasi) and other native fauna by cats and foxes on Mitchell grass downs in Queensland.Crossref | GoogleScholarGoogle Scholar |

Moritz, C., Hoskin, C., Graham, C. H., Hugall, A., and Moussalli, A. (2005). Historical biogeography, diversity and conservation of Australia’s tropical rainforest herpetofauna. In ‘Phylogeny and Conservation’. (Eds A. Purvis, J. L. Gittleman, and T. Brooks.) pp. 243–264. (Cambridge University Press: Cambridge, UK.)

Morrant, D. S., Johnson, C. N., Butler, J. R., and Congdon, B. C. (2017). Biodiversity friend or foe: land use by a top predator, the dingo in contested landscapes of the Australian Wet Tropics. Austral Ecology 42, 252–264.
Biodiversity friend or foe: land use by a top predator, the dingo in contested landscapes of the Australian Wet Tropics.Crossref | GoogleScholarGoogle Scholar |

Neldner, V. J., Wilson, B. A., Dillewaard, H. A., Ryan, T. S., Butler, D. W., McDonald, W. J. F., Addicott, E. P., and Appelman, C. N. (2019). ‘Methodology for Survey and Mapping of Regional Ecosystems and Vegetation Communities in Queensland. Version 5.0.’ Updated March 2019. (Queensland Herbarium, Department of Environment and Science: Brisbane, Qld, Australia.)

Oksanen, J., Blanchet, F., Kindt, R., Legendre, P., O’hara, R., Simpson, G., Solymos, P., Stevens, M. H. H., and Wagner, H. (2011). ‘vegan: Community Ecology Package. R package version 1.17-12.’ (R Foundation for Statistical Computing: Vienna, Austria.)

Queensland Herbarium (2018). ‘Remnant 2017 Broad Vegetation Groups of Queensland (BVG). Version 4.’ December 2018. (Department of Environment and Science: Brisbane, Qld, Australia.)

R Development Team Core (2017). R: a Language and Environment for Statistical Computing.

Radford, J. Q., Woinarski, J. C., Legge, S., Baseler, M., Bentley, J., Burbidge, A. A., Bode, M., Copley, P., Dexter, N., Dickman, C. R., Gillespie, G., Hill, B., Johnson, C. N., Kanowski, J., Latch, P., Letnic, M., Manning, A., Menkhorst, P., Mitchell, N., Morris, K., Moseby, K., Page, M., and Ringma, J. (2018). Degrees of population-level susceptibility of Australian terrestrial non-volant mammal species to predation by the introduced red fox (Vulpes vulpes) and feral cat (Felis catus). Wildlife Research 45, 645–657.
Degrees of population-level susceptibility of Australian terrestrial non-volant mammal species to predation by the introduced red fox (Vulpes vulpes) and feral cat (Felis catus).Crossref | GoogleScholarGoogle Scholar |

Read, J., Dagg, E., and Moseby, K. (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 |

Rowland, J., Hoskin, C. J., and Burnett, S. (2020). Camera traps are an effective method for identifying individuals and determining the sex of spotted-tailed quolls (Dasyurus maculatus gracilis). Australian Mammalogy , .
Camera traps are an effective method for identifying individuals and determining the sex of spotted-tailed quolls (Dasyurus maculatus gracilis).Crossref | GoogleScholarGoogle Scholar |

Singhal, S., Hoskin, C. J., Couper, P., Potter, S., and Moritz, C. (2018). A framework for resolving cryptic species: a case study from the lizards of the Australian Wet Tropics. Systematic Biology 67, 1061–1075.
A framework for resolving cryptic species: a case study from the lizards of the Australian Wet Tropics.Crossref | GoogleScholarGoogle Scholar | 29635540PubMed |

Stokeld, D., Fisher, A., Gentles, T., Hill, B., Triggs, B., Woinarski, J. C., and Gillespie, G. R. (2018). What do predator diets tell us about mammal declines in Kakadu National Park? Wildlife Research 45, 92–101.
What do predator diets tell us about mammal declines in Kakadu National Park?Crossref | GoogleScholarGoogle Scholar |

WildNet (2019). ‘WildNet Database. (Department of Environment and Science.) Available at https://www.qld.gov.au/environment/plants-animals/species-information/wildnet [verified 1 September 2019].

WildNet (2020). ‘WildNet Database.’ (Department of Environment and Science.) Available at https://www.qld.gov.au/environment/plants-animals/species-information/wildnet [verified 28 January 2020].

Williams, S. E., Bolitho, E. E., and Fox, S. (2003). Climate change in Australian tropical rainforests: an impending environmental catastrophe. Proceedings of the Royal Society of London. Series B, Biological Sciences 270, 1887–1892.
Climate change in Australian tropical rainforests: an impending environmental catastrophe.Crossref | GoogleScholarGoogle Scholar |

Williams, S., VanDerWal, J., Isaac, J., Shoo, L., Storlie, C., Fox, S., Bolitho, E. E., Moritz, C., Hoskin, C. J., and Williams, Y. (2010). Distributions, life‐history specialization, and phylogeny of the rain forest vertebrates in the Australian Wet Tropics. Ecology 91, 2493.
Distributions, life‐history specialization, and phylogeny of the rain forest vertebrates in the Australian Wet Tropics.Crossref | GoogleScholarGoogle Scholar |

Woinarski, J. C., Burbidge, A. A., and Harrison, P. L. (2015). Ongoing unraveling of a continental fauna: decline and extinction of Australian mammals since European settlement. Proceedings of the National Academy of Sciences of the United States of America 112, 4531–4540.
Ongoing unraveling of a continental fauna: decline and extinction of Australian mammals since European settlement.Crossref | GoogleScholarGoogle Scholar | 25675493PubMed |

Woolley, L. A., Geyle, H. M., Murphy, B. P., Legge, S. M., Palmer, R., Dickman, C. R., Augusteyn, J., Comer, S., Doherty, T., Eager, C., Edwards, G., Harley, D. K. P., Leiper, I., McDonald, P. J., McGregor, H. W., Moseby, K. E., Myers, C., Read, J. L., and Riley, J. (2019). Introduced cats Felis catus eating a continental fauna: inventory and traits of Australian mammal species killed. Mammal Review 49, 354–368.
Introduced cats Felis catus eating a continental fauna: inventory and traits of Australian mammal species killed.Crossref | GoogleScholarGoogle Scholar |

World Wildlife Fund-Australia (WWF) (2018). Bettongia tropica population status, distribution, habitat use and impact of fire. Final report. WWF–Australia, Sydney, NSW, Australia.

Wysong, M. L., Tulloch, A. I., Valentine, L. E., Hobbs, R. J., Morris, K., and Ritchie, E. G. (2019). The truth about cats and dogs: assessment of apex-and mesopredator diets improves with reduced observer uncertainty. Journal of Mammalogy 100, 410–422.
The truth about cats and dogs: assessment of apex-and mesopredator diets improves with reduced observer uncertainty.Crossref | GoogleScholarGoogle Scholar |

Yip, S. J., Rich, M.-A., and Dickman, C. R. (2015). Diet of the feral cat, Felis catus, in central Australian grassland habitats during population cycles of its principal prey. Mammal Research 60, 39–50.
Diet of the feral cat, Felis catus, in central Australian grassland habitats during population cycles of its principal prey.Crossref | GoogleScholarGoogle Scholar |