Contrasting the influence of extent and severity of fire on the occupancy of two marsupial gliders in New South Wales
Loading...
Date
Authors
Robinson, Natasha
Beranek, Chad T.
Southwell, Darren
DeGabriel, Jane
Journal Title
Journal ISSN
Volume Title
Publisher
Access Statement
Abstract
Context. The 2019–2020 Australian wildfires were the largest and most severe fires recorded for
south-eastern Australia. Two glider species, the southern greater glider Petauroides volans and the
yellow-bellied glider Petaurus australis, were predicted to be severely affected due to widespread
habitat loss and vulnerability to the scale and severity of the fires. However, despite similar
ecological requirements, differences in species traits were expected to influence their response
to fire. Aim. Our aim was to investigate the probability of occupancy of each species following the
2019–2020 wildfiresin relation to fire severity and spatial extent, and other environmental covariates.
We predicted different fire responses for each species, according to their individual species traits.
Methods. We surveyed for gliders using spotlighting and call-playback, 3 years post-fire across 223
sites, covering the breadth of their ranges in New South Wales. We used occupancy-detection
models of each species to compare model fit with four extents (site, 300 m, 500 m and 1000 m)
across three severity classes (unburnt, low-moderate and high) while controlling for other factors
that are correlated with glider occupancy (e.g. forest disturbance and mean temperatures).
Key results. Our results reveal strong negative relationships between occupancy of both glider
species and high-severity fire. This effect was most significant for the southern greater glider at
the largest spatial scale (1000 m), whereas for the yellow-bellied glider the response was more
significant at the site level. For both species, low-moderate severity fire at all spatial scales was less
predictive than other covariates. Conclusions. Southern greater gliders, with their highly specialised
diet, small home ranges and limited dispersal capacity, are particularly sensitive to high-severity fire
that consumes essential canopy resources at large scales. Yellow-bellied gliders likely have greater
resilience to landscape fire due to greater mobility and a broader, more generalised diet.
Implications. Both glider species are sensitive to forest disturbance, including canopy consuming
fire. Low-moderate fire is less disruptive, in line with expectations that both species are resilient to
partial canopy scorch, where essential resources remain. Species traits can be used to predict species
responses to disturbances beyond the natural disturbance regime
Description
Keywords
Citation
Collections
Source
Wildlife Research
Type
Book Title
Entity type
Publication
Access Statement
License Rights
DOI
Restricted until
Downloads
File
Description