Fires drive quokka change
Scientists have observed adaptations among quokkas in response to prescribed burns.
Quokkas residing in WA’s Northern Jarrah Forest have been using fire exclusion zones to ensure their own safety and longevity.
A groundbreaking study conducted by researchers at Murdoch University’s Harry Butler Institute, working with the Department of Biodiversity, Conservation and Attractions, has shed light on their adaptive behaviour following periods of prescribed burns.
Researcher Leticia Povh led the study and said understanding how animals use their space after prescribed burning is crucial for effective conservation management, particularly for threatened species like the quokka.
“The study aimed to determine how individual quokkas changed their home ranges following burns,” she said.
“In a world of rising temperatures and decreasing rainfall across southwest WA, this study has important conservation significance in determining how we manage habitat for our mainland quokkas into the future.”
Over the course of two years, the movement patterns of 20 quokkas were meticulously tracked before and after prescribed burns.
Home-range area calculations were performed for each individual, and behavioural change point analysis was conducted to detect any alterations in their space use.
“The key results revealed a remarkable shift in the behaviour of six quokkas that had previously resided in areas subjected to prescribed burns,” Povh said.
“These individuals moved into fire exclusion zones, actively avoiding the burn areas for an average of three months.
“After this time, these quokkas spent no more than 2% of their time in the burn areas. In contrast, quokkas inhabiting fire exclusion and control sites did not exhibit any changes in their space use.
“This study highlights the importance of appropriately sized fire exclusion zones to ensure the preservation of populations of species dependent on dense vegetation.”
Quokkas, like many other fauna species, rely on dense cover for refuge from introduced predators such as the feral cat and red fox, making fire exclusion areas a crucial component of prescribed burn planning.
By providing refuge and food sources, these areas contribute to the long-term viability of quokka populations and other species with similar habitat requirements.
As prescribed burns continue to be used in land management, the findings of this study offer useful insights for conservation practitioners.
By incorporating appropriately sized and located fire exclusion areas into prescribed burn planning, land managers can assist in preserving critical habitat for vulnerable wildlife like the quokka.
The full study is available in the International Journal of Wildland Fire.