Landscape ecology of the burrowing bettong: fire and marsupial biocontrol of shrubs in semi-arid Australia
James C. Noble A D , David S. Hik B and Anthony R. E. Sinclair CA CSIRO Sustainable Ecosystems, GPO Box 284, Canberra, ACT 2601, Australia.
B Department of Biological Sciences, University of Alberta, Edmonton T6G 2E9, Canada.
C Centre for Biodiversity Research, 6270 University Boulevard, University of British Columbia, Vancouver, V6T 1Z4, Canada.
D Corresponding author. Email: jim.noble@csiro.au
The Rangeland Journal 29(1) 107-119 https://doi.org/10.1071/RJ06041
Submitted: 31 October 2006 Accepted: 14 December 2006 Published: 14 June 2007
Abstract
Prior to European settlement, medium-sized marsupials, especially bettongs (Bettongia spp.), were widely distributed across arid and semi-arid Australia. Most disappeared rapidly in the late 1800s in the earliest settled rangelands such as the West Darling region of western New South Wales following the spread of domestic herbivores, rabbit invasion, exotic predators and loss of habitat. Because the burrowing bettong (Bettongia lesueur) is the only fossorial macropod species, it left a clearly visible record of its past presence, distribution and habitat preferences in the form of substantial relict warrens, particularly in stony, ‘hard-red’ habitats.
With the reduction in fire frequency because of excessive grazing pressures following European settlement in the 19th century, there was a rapid increase in the density of unpalatable native shrubs. We examine the hypothesis that periodic wildfires and browsing by bettongs were together able to regulate shrub densities in semi-arid rangelands in Australia. Information from various sources concerning the effects of fire, rainfall and browsing on the demography of shrubs was used to construct a model of shrub population dynamics. The model indicates the potential for two states for a given bettong density: first, a low shrub density maintained by a combination of periodic fire and bettong browsing; and second, a high shrub density in the absence of fire. These results have broad implications for pastoral and conservation management in Australian semi-arid rangelands.
Additional keywords: foregut fermentation, mesomarsupials, multiple states, woodlands.
Acknowledgements
Steven Cork provided important insights into marsupial digestive systems and plant chemical defences. Brian Cooke, David Eldridge, Charles Krebs, Roger Pech, Hugh Tyndale-Biscoe, Wal Whalley and an anonymous reviewer read earlier drafts of this paper and their constructive comments are gratefully acknowledged. Gil Pfitzner assisted in the final preparation of some of the Figures. A.R.E.S. was supported by a Canada Council Senior Killam fellowship and a grant from NSERC, Canada. He thanks CSIRO Sustainable Ecosystems for the use of their facilities at Gungahlin, Canberra.
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for grasses and Cunningham et al. (1992) for all other species.
2 Details of the computer model are available from Dr D. Hik, Department of Biological Sciences, University of Alberta, Edmonton T6G 2E9, Canada.
