TSR Hub researchers will establish as many as 41 malleefowl monitoring sites across southern Australia in one of the largest adaptive management experiments
ever attempted in Australia.
“This project will demonstrate how management and monitoring can be coordinated on a national scale to help us better understand drivers of population declines,” says Project 3.3 deputy leader Dr Darren Southwell.
“We’ve seen malleefowl populations decline over the past hundred years in response to habitat fragmentation, altered fire regimes, livestock grazing and predation by foxes and cats.
“The current approach to managing malleefowl is to suppress predators through fox and cat baiting. However, it’s difficult for us to tell how effective these measures have been.”
Recent qualitative modeling developed by TSR Hub researcher Michael Bode revealed the importance of resolving the uncertainty surrounding these measures to improve malleefowl conservation.
Feral predators will be managed in and around treated sites but remain unchecked in control sites, allowing researchers to gauge the effect of predator suppression on the malleefowl population.
The sites will be grouped into clusters of similar climate and vegetation in order to provide as clear a comparison as possible.
The sites were identified by TSR Hub partners Joe Benshemesh and Tim Burnard, and historic and pilot data have been analysed by José Lahoz-Monfort, Rosanna van Hespen and Cindy Hauser.
“Our findings suggest we will begin to discern the signal coming from predator management through the noise of population fluctuations and imperfect monitoring within about five years of targeted monitoring,” says Dr Hauser.
Sites will be monitored by managers and local volunteers each year for both malleefowl and predator activity.
“The good news is that there are already a handful of sites collecting data, with the remainder soon to be established,” Dr Southwell says.
The National Malleefowl Recovery Team and The University of Melbourne are also in the early stages of building an internet database to store the predator-focused monitoring data captured.
Malleefowl breeding activity and data is already collated and stored in the National Malleefowl Monitoring Database.
The scale of the project means The University of Melbourne researchers are working in close collaboration with the National Malleefowl Recovery Team, Bush Heritage, the Australian Wildlife Conservancy and state government agencies in NSW, SA, Victoria and WA (in addition to several other conservation and volunteer organisations) to establish and monitor the sites. The project is also supported by Mount Gibson Mining and Karara Mining Ltd.
Representatives from these groups met in Mildura and Perth earlier this year to discuss the progress made so far and plan how the project will be managed over the next five years.
Image: Malleefowl by Cindy Hauser
The Threatened Species Recovery Hub has undertaken a conservation assessment of every Australian eucalypt tree species and found that over 190 species meet internationally recognised criteria for listing as threatened: most of these are not currently listed as threatened.
A national photo competition has drawn attention to the beauty of Australia’s iconic eucalypts. The competition was run to coincide with a national assessment of the conservation status of every one of Australia’s 822 eucalypt species.
With other concerned conservation biologists, researchers from the Threatened Species Recovery Hub have developed a ‘blueprint’ for management responses to the 2019-20 wildfires. This report can be downloaded from our website.
The Threatened Species Recovery Hub of the National Environmental Science Program expresses our sympathy to everyone whose life has been impacted by these horrific fires, and acknowledges the heartbreak of families who have lost everything, including loved ones.
Many landscapes in Australia are fire-prone, and increasingly so. Altered fire regimes can have a serious negative impact on threatened plant species and ecological communities. A Threatened Species Recovery Hub project is working to better understand the effects of different fire regimes on threatened flora in order to improve fire management strategies and conservation outcomes.