Hugh F. Davies scite author profile

Aim To investigate whether feral cats influence the distribution of Australia's largest remnant population of the threatened brush‐tailed rabbit‐rat Conilurus penicillatus and examine whether they influenced the extinction probability of C. penicillatus over a 15‐year period (2000–2015). Location Melville Island, northern Australia. Methods In 2015, small mammal surveys were conducted at 88 sites across Melville Island, 86 of which had previously been surveyed in 2000–2002. We used single‐season occupancy models to investigate correlates of the current distribution of C. penicillatus and dynamic occupancy models to investigate correlates of C. penicillatus local extinction. Results Our results show that C. penicillatus, which once occurred more widely across the island, is now restricted to parts of the island where feral cats are rarely detected and shrub density is high. Our results suggest that feral cats are driving C. penicillatus towards extinction on Melville Island, and hence have likely been a significant driver in the decline of this species in northern Australia more broadly. The impact of feral cats appears to be mitigated by vegetation structure. Main conclusions The ongoing development and implementation of methods to effectively reduce feral cat densities, coupled with the management of landscape processes to maintain shrub density, through fire management and the removal of large exotic herbivores, will contribute substantially to conserving this threatened species. This study demonstrates that the distribution of species can be strongly influenced by top‐down factors such as predation, thereby highlighting the importance of including biotic interactions when investigating the distribution of predation‐susceptible species.

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Declining populations in one of the last refuges for threatened mammal species in northern Australia

Davies

McCarthy

Firth

et al. 2018

Austral Ecology

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Australia has contributed a disproportionate number of the world's mammal extinctions over the past 200 years, with the greatest loss of species occurring through the continent's southern and central arid regions. Many taxonomically and ecologically similar species are now undergoing widespread decline across the northern Australian mainland, possibly driven by predation by feral cats and changed fire regimes. Here, we report marked recent declines of native mammal species in one of Australia's few remaining areas that support an intact mammal assemblage, Melville Island, the largest island off the northern Australian coast. We have previously reported a marked decline on Melville Island of the threatened brush-tailed rabbit-rat (Conilurus penicillatus) over the period 2000-2015, linked to predation by feral cats. We now report a 62% reduction in small mammal trapsuccess and a 36% reduction in site-level species richness over this period. There was a decrease in trap-success of 90% for the northern brown bandicoot (Isoodon macrourus), 64% for the brush-tailed rabbit-rat and 63% for the black-footed tree-rat (Mesembriomys gouldii), but no decline for the common brushtail possum (Trichosurus vulpecula). These results suggest that populations of native mammals on Melville Island are exhibiting similar patterns of decline to those recorded in Kakadu National Park two decades earlier, and across the northern Australian mainland more generally. Without the implementation of effective management actions, these species are likely to be lost from one of their last remaining strongholds, threatening to increase Australia's already disproportionate contribution to global mammal extinctions.

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Habitat structural complexity explains patterns of feral cat and dingo occurrence in monsoonal Australia

Stobo‐Wilson

Stokeld

Einoder

et al. 2020

Diversity and Distributions

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AimAn interaction between reduced habitat structural complexity and predation by feral cats (Felis catus) has been hypothesized as the primary driver of mammal decline in northern Australia. However, we have a limited understanding of the drivers of the distribution and abundance of feral cats at a landscape scale, including whether the occurrence of a top predator, the dingo (Canis familiaris [dingo]), limits feral cat populations. We modelled feral cat and dingo site occurrence, to provide the first broad‐scale assessment of their distributional patterns and co‐occurrence within monsoonal Australia.LocationAbout 370,000 km2 of monsoonal area in the Northern Territory.MethodsWe surveyed 376 sites using camera traps. We used single‐ and two‐species occupancy models to investigate feral cat and dingo site occurrence and the influence of dingoes on feral cat occupancy. We included predictor variables that relate to hypotheses of predator occurrence, including both environmental and disturbance‐related variables.ResultsFeral cat occurrence and dingo occurrence were best predicted by indices of habitat structural complexity; feral cat occurrence declined with increasing productivity, except in areas of relatively high fire activity (fire frequency and extent), and dingo occurrence declined with terrain ruggedness. We found no evidence that dingoes are spatially limiting feral cat occurrence.Main conclusionsOur findings suggest the protection and enhancement of habitat structural complexity at both the local and landscape scale could enable conservation managers to reduce the exposure of small‐ and medium‐sized mammals to feral cats and dingoes. This can most likely be achieved through improved fire and feral herbivore management, which is a more feasible management option than lethal predator control.

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Bottom-up and top-down processes influence contemporary patterns of mammal species richness in Australia's monsoonal tropics

Stobo‐Wilson

Stokeld

Einoder

et al. 2020

Biological Conservation

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Feral cats are more abundant under severe disturbance regimes in an Australian tropical savanna

2020

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ContextThere is an increasing awareness that feral cats play a key role in driving the ongoing decline of small mammals across northern Australia; yet, the factors that control the distribution, abundance and behaviour of feral cats are poorly understood. These key knowledge gaps make it near-impossible for managers to mitigate the impacts of cats on small mammals. AimsWe investigated the environmental correlates of feral cat activity and abundance across the savanna woodlands of Melville Island, the larger of the two main Tiwi Islands, northern Australia. MethodsWe conducted camera-trap surveys at 88 sites, and related cat activity and abundance to a range of biophysical variables, either measured in the field or derived from remotely sensed data. Key resultsWe found that feral cat activity and abundance tended to be highest in areas characterised by severe disturbance regimes, namely high frequencies of severe fires and high feral herbivore activity. ConclusionsOur results have contributed to the growing body of research demonstrating that in northern Australian savanna landscapes, disturbance regimes characterised by frequent high-severity fires and grazing by feral herbivores may benefit feral cats. This is most likely to be a result of high-severity fire and grazing removing understorey biomass, which increases the time that the habitat remains in an open state in which cats can hunt more efficiently. This is due to both the frequent and extensive removal, and longer-term thinning of ground layer vegetation by severe fires, as well as the suppressed post-fire recovery of ground layer vegetation due to grazing by feral herbivores. ImplicationsManagement that reduces the frequency of severe fires and the density of feral herbivores could disadvantage feral cat populations on Melville Island. A firm understanding of how threatening processes interact, and how they vary across landscapes with different environmental conditions, is critical for ensuring management success.

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Hugh F. Davies

Top‐down control of species distributions: feral cats driving the regional extinction of a threatened rodent in northern Australia

Declining populations in one of the last refuges for threatened mammal species in northern Australia

Habitat structural complexity explains patterns of feral cat and dingo occurrence in monsoonal Australia

Bottom-up and top-down processes influence contemporary patterns of mammal species richness in Australia's monsoonal tropics

Feral cats are more abundant under severe disturbance regimes in an Australian tropical savanna

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