4.6 Article

The 'Goldilocks Zone' of predation: the level of fox control needed to select predator resistance in a reintroduced mammal in Australia

期刊

BIODIVERSITY AND CONSERVATION
卷 30, 期 6, 页码 1731-1752

出版社

SPRINGER
DOI: 10.1007/s10531-021-02166-y

关键词

Invasive predator; Adaptation; Extinction; Predator naivete; Reintroduction; Conservation; Predator management; Critical weight range; Beyond the fence

资金

  1. ACT Government
  2. Australian National University
  3. Mulligans Flat-Goorooyarroo Woodland Experiment
  4. ACT Woodlands and Wetlands Trust
  5. Australian Government's National Environmental Science Program through the Threatened Species Recovery Hub
  6. Woodlands and Wetlands Trust
  7. Japan Society for Promotion of Science (JSPS) [P19084]

向作者/读者索取更多资源

This study examines the reintroduction of mammal species to the mainland and the potential for driving evolution of predator-resistant traits through exposure to low levels of predation. The research suggests that reducing predation can establish a 'Goldilocks Zone' that drives selection for individuals with predator-resistant characteristics, contributing to the broader field of evolutionary conservation biology.
A large component of the anthropogenic biodiversity crisis is the loss of animal species. In response, there has been significant investment in reintroductions of species to their historical ranges. Predation by native and exotic predators, however, remains a barrier to success. Over the past 200 years, Australia has seen the highest rate of mammal extinction on earth, with mammals within a critical weight range (CWR: 35 g-5.5 kg) most affected due to predation by exotic predators. Populations of some threatened species now exist only in Tasmania, offshore islands, or predator-proof sanctuaries. The next critical step is to return native populations outside of predator-free areas, 'beyond-the-fence', on the continental mainland. Given our current inability to completely remove exotic predators from mainland ecosystems, how can we achieve successful mammal reintroductions? A potential solution is to drive adaptation of reintroduced animals towards predator-resistance by exposing them to low levels of predation. We propose the concept of a 'Goldilocks Zone'-the 'just right' levels of predation needed to drive selection for predator-resistant native species, while ensuring population viability. We experimentally reintroduced a mammal, the eastern bettong (Bettongia gaimardi), to mainland Australia, 100 years after its local extinction. Using an intense baiting regime, we reduced the population density of the red fox (Vulpes vulpes), the main factor behind the eastern bettong's extirpation from the continent. Reducing bait take to 15% of previous levels allowed differential survival among bettongs; some surviving under 100 days and others over 450 (similar to 4 times longer than some similar trials with related species). Surviving individuals were generally larger at release than those that died earlier, implying selection for larger bettongs. Our results suggest that reducing predation could establish a Goldilocks Zone that could drive selection for bettongs with predator-resistant traits. Our work contributes to a growing body of literature that explores a shift towards harnessing evolutionary principles to combat the challenges posed by animal management and conservation.

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