In the late 1970s in southeast Queensland, a silent killer arrived on Australian shores. The victims were our unique frogs, with the first to fall being the remarkable gastric brooding frog, last seen in 1981.
This fungus is responsible for the presumed extinction of a further five Queensland frog species, and the decline and disappearances of many local populations across Australia’s entire east coast and tablelands, including species that were once widespread and common. Globally, hundreds of amphibian species have also suffered major declines or are now considered to be extinct as a result of this disease.
In a study published in Wildlife Research, we and our colleagues identify seven more Australian frogs that are at immediate risk of extinction at the hands of chytrid fungus, including the iconic Corroboree frogs (both southern and northern species), Baw Baw frog, spotted tree frog, Kroombit tinker frog, armoured mist frog and the Tasmanian tree frog. We predict that the next few years may provide the last chance to save these species.
While the six already extinct Queensland species all declined rapidly after the arrival of chytrid, declines in southern regions have been slower. Chytrid is yet to arrive in areas of Tasmania’s Wilderness World Heritage Area, although the consequences are likely to be just as severe.
Our work aimed to prioritise frog conservation efforts across Australia, identifying the species most at risk of chytrid, and therefore most in need of urgent action. Worryingly, we found that five of the seven high-risk species that we identified lack a sustained and adequately funded monitoring program to protect them.
In addition to the seven species at immediate risk of extinction, we identified a further 22 that are at moderate to low risk. We also assessed the adequacy of current conservation efforts for all of these species, and found that most recovery efforts rely on the goodwill of individuals and are poorly resourced.
It is possible to manage the threat posed by chytrid fungus, but rapid action is urgently needed. We have identified six critical management actions that are required to prevent further extinctions of Australian frogs and call for an independent management and research fund to address the imminent threat.
The seven species at high risk require proactive recovery programs. Critical management actions may include: broad-scale surveys; intensive monitoring; precise risk assessment; the development of husbandry techniques for the establishment of assurance colonies; re-introductions and or translocations; and new management strategies to maintain wild populations.
Australia initially led the world in efforts to identify and manage chytrid fungus, which was listed as a “key threatening process” by state and federal governments in 2002
In 2006, a plan was drawn up to combat the disease, delivering more research funding and resulting in greatly improved biosecurity measures and increased understanding of the fungus.
In 2012 the plan was reviewed, and a revised plan that incorporates recent research developments now awaits approval. But action is required to manage the impact of the fungus, and disappointingly there has been no funding allocated to implement the new plan.
The past decade has also seen major cuts in both state and federal government resources for wildlife conservation. State agencies have disbanded dedicated recovery teams and there has been a shift away from single species conservation measures in an effort to maximise limited funding. This is despite the obligations set out in legislation to conserve individual threatened species. These cuts have severely undermined frog conservation efforts.
On a positive note, management interventions have saved the critically endangered Southern Corroboree Frog from extinction for now, but it remains threatened by chytrid fungus and requires ongoing management and research. Without swift action, government support and the dedicated efforts of many individuals, this species would undoubtedly already be gone.
David Newell, Lecturer, School of Environment, Science & Engineering; Benjamin Scheele, Postdoctoral Research Fellow in Ecology, James Cook University; Lee Berger, Senior Research Fellow, James Cook University, and Lee Skerratt, Principal Research Fellow, One Health Research Group, University of Melbourne