Invasive toads shift predator-prey densities in animal communities by removing top predators

Jeremiah Sean Doody, Rebekah Soanes, Christina M Castellano, David Anthony Rhind, Brian Green, Colin McHenry, Simon Clulow

Research output: Contribution to journalArticleResearchpeer-review

43 Citations (Scopus)


Although invasive species can have substantial impacts on animal communities, cases of invasive species facilitating native species by removing their predators have rarely been demonstrated across vertebrate trophic linkages. The predictable spread of the invasive cane toad (Rhinella marina), however, offered a unique opportunity to quantify cascading effects. In northern Australia, three species of predatory monitor lizards suffered severe population declines due to toad-induced lethal toxic ingestion (yellow-spotted monitor [Varanus panoptes], Mertens' water monitor [V. mertensi], Mitchell's water monitor [V. mitchelli]). We, thus, predicted subsequent increases in the abundance and recruitment of prey species due to the reduction of those predators. Toad-induced population-level declines in the water monitor species approached 50% over a five-year period spanning the toad invasion, apparently causing fledging success of the Crimson Finch (Neochmia phaeton) to increase from 55% to 81%. The consensus of our original and published long-term data is that invasive cane toads are causing predators to lose a foothold on top-down regulation of their prey, triggering shifts in the relative densities of predator and prey in the Australian tropical savannah ecosystem.
Original languageEnglish
Pages (from-to)2544-2554
Number of pages11
Issue number9
Publication statusPublished - 2015


  • cane toad
  • common tree snake
  • Crimson Finch
  • Crocodylus johnstoni
  • Gilbert’s dragon lizard
  • monitor lizard
  • Neochmia phaeton
  • Rhinella marina
  • top predator
  • trophic cascade
  • Varanus spp

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