Wildlife Research Wildlife Research Society
Ecology, management and conservation in natural and modified habitats

The short-term responses of small mammals to wildfire in semiarid mallee shrubland, Australia

Luke T. Kelly A C , Dale G. Nimmo A , Lisa M. Spence-Bailey B , Michael F. Clarke B and Andrew F. Bennett A
+ Author Affiliations
- Author Affiliations

A Landscape Ecology Research Group, School of Life and Environmental Sciences, Deakin University, Burwood, Vic. 3125, Australia.

B Department of Zoology, La Trobe University, Bundoora, Vic. 3086, Australia.

C Corresponding author. Email: ltke@deakin.edu.au

Wildlife Research 37(4) 293-300 https://doi.org/10.1071/WR10016
Submitted: 5 February 2010  Accepted: 13 May 2010   Published: 28 June 2010


Context. Wildfire is a major driver of the structure and function of mallee eucalypt- and spinifex-dominated landscapes. Understanding how fire influences the distribution of biota in these fire-prone environments is essential for effective ecological and conservation-based management.

Aims. We aimed to (1) determine the effects of an extensive wildfire (118 000 ha) on a small mammal community in the mallee shrublands of semiarid Australia and (2) assess the hypothesis that the fire-response patterns of small mammals can be predicted by their life-history characteristics.

Methods. Small-mammal surveys were undertaken concurrently at 26 sites: once before the fire and on four occasions following the fire (including 14 sites that remained unburnt). We documented changes in small-mammal occurrence before and after the fire, and compared burnt and unburnt sites. In addition, key components of vegetation structure were assessed at each site.

Key results. Wildfire had a strong influence on vegetation structure and on the occurrence of small mammals. The mallee ningaui, Ningaui yvonneae, a dasyurid marsupial, showed a marked decline in the immediate post-fire environment, corresponding with a reduction in hummock-grass cover in recently burnt vegetation. Species richness of native small mammals was positively associated with unburnt vegetation, although some species showed no clear response to wildfire.

Conclusions. Our results are consistent with the contention that mammal responses to fire are associated with their known life-history traits. The species most strongly affected by wildfire, N. yvonneae, has the most specific habitat requirements and restricted life history of the small mammals in the study area. The only species positively associated with recently burnt vegetation, the introduced house mouse, Mus domesticus, has a flexible life history and non-specialised resource requirements.

Implications. Maintaining sources for recolonisation after large-scale wildfires will be vital to the conservation of native small mammals in mallee ecosystems.

Additional keywords: conservation, fauna, fire, disturbance, habitat, marsupials.


Funding and support for the study were provided by Land and Water Australia, Department for Environment and Heritage (SA), Parks Victoria, Department of Sustainability and Environment (Vic.), Mallee Catchment Management Authority, NSW National Parks and Wildlife Service, Department of Environment and Climate Change (NSW), Lower Murray–Darling Catchment Management Authority, Natural Heritage Trust, Birds Australia, Australian Wildlife Conservancy, and the Murray Mallee Partnership. This research was undertaken in accordance with Department for Environment and Heritage Permit No. 13/2006-M2, with approval from the Animal Ethics Committees of Deakin University (A41/2006) and La Trobe University (AEC06/07(L)V2). Thanks go to Lauren Brown, Kate Callister and members of the Mallee Fire and Biodiversity Project; Clare Kelly; the many volunteers who assisted with fieldwork; and to two referees and editorial staff for providing useful comments on the manuscript. We are grateful to Duncan MacKenzie and the Gluepot Management Committee for granting access to field sites and providing the use of on-site facilities.


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