Fungi consumed by translocated Gilbert’s potoroos (Potorous gilbertii) at two sites with contrasting vegetation, south coastal Western Australia
N. L. Bougher A and J. A. Friend BA Department of Environment and Conservation, Locked Bag 104, Bentley Delivery Centre, Bentley, WA 6983, Australia. Email: neale.bougher@dec.wa.gov.au
B Department of Environment and Conservation, 120 Albany Highway, Albany, WA 6330, Australia. Email: tony.friend@dec.wa.gov.au
Australian Mammalogy 31(2) 97-105 https://doi.org/10.1071/AM09012
Submitted: 20 April 2009 Accepted: 2 September 2009 Published: 26 October 2009
Abstract
Gilbert’s potoroo (Potorous gilbertii) was previously widespread in south-west Australia but is now restricted to one location – a granitic area of shrubby heath at Two Peoples Bay Nature Reserve on the south coast of Western Australia. To alleviate the threat of extinction a program is under way to establish potoroos in other locations. At Two Peoples Bay Gilbert’s potoroos feed almost exclusively on truffle fungi. However, it was not known whether potoroos translocated to any new areas would be able to rapidly access and consume fungi after translocation, or whether truffles could be a sustainable food supporting breeding populations of potoroos in translocation sites. Furthermore, it was not known whether translocation of potoroos would be successful only in areas with vegetation similar to their refuge at Two Peoples Bay. The current study addressed these questions by analysing the diet of potoroos translocated into two contrasting areas – one on Bald Island with similar topography and vegetation to that of Two Peoples Bay, and the other a 14-ha enclosure on the mainland dominated by Eucalyptus–Allocasuarina woodland. The diet of potoroos was characterised by microscopic examination of scats from individuals trapped after their translocation to these areas. At Bald Island a diverse range of fungi was consumed immediately after translocation. Four potoroos released onto the island only 4–8 days previously consumed 23 species of fungi. Consumption was sustained over time. Three potoroos released onto Bald Island 1–2 years previously and one island-born individual consumed 27 species of fungi during a two-day sampling period. Nine of the 27 fungi species were the same as those that had been consumed by the potoroos within days after their release onto the island. This indicates that production of fungi and their consumption by potoroos on the island was sustained at least 1–2 years after translocation. Potoroos bred on Bald Island during this period. During the same period, two potoroos that were moved from captivity to the mainland site (Ryedene) were consuming six species of truffles within 29 days after release, and 14 species within three months. Such data indicate that a wider selection of vegetation types and areas than just those similar to where potoroos occur at Two Peoples Bay may be able to sustain potoroos and should be investigated for future translocations.
Additional keywords: fungi, mycophagy, Potorous gilbertii, translocation, truffles.
Acknowledgements
We thank Louisa Bell, Stephanie Hill, Tim Button, Val Hack and Susanne Schreck, DEC Science Division Albany, for excellent technical assistance, and Peter Collins, DEC Albany District, for his superb boatmanship during our trips between the mainland and Bald Island, contributions that made possible the activities outlined in this paper. Funding for aspects of the Gilbert’s potoroo recovery program central to this study was provided by the Australian Government’s Natural Heritage Trust program delivered through South Coast NRM, the Foundation for Australia’s Most Endangered Species, and DEC’s Saving Our Species and Remote Regions Conservation Programs.
Bougher, N. L. , and Lebel, T. (2001). Sequestrate (truffle-like) fungi of Australia and New Zealand. Australian Systematic Botany 14, 439–484.
| Crossref | GoogleScholarGoogle Scholar |
Claridge, A. W. , Tanton, M. T. , and Cunningham, R. B. (1993a). Hypogeal fungi in the diet of the long-nosed potoroo (Potorous tridactylus) in mixed-species and regrowth eucalypt forest stands in south-eastern Australia. Wildlife Research 20, 321–337.
| Crossref | GoogleScholarGoogle Scholar |
Friend, J. A. (2006). Diets of native quokkas and introduced Gilbert’s potoroos on Bald Island, Western Australia. Australian Mammal Society Newsletter October 2006, 64.
Nguyen, V. P. , Needham, A. D. , and Friend, J. A. (2005). A quantitative dietary study of the ‘critically endangered’ Gilbert’s potoroo Potorous gilbertii. Australian Mammalogy 27, 1–6.
Sinclair, E. A. , Danks, A. , and Wayne, A. F. (1995). Rediscovery of Gilbert’s potoroo, Potorous tridactylus, in Western Australia. Australian Mammalogy 19, 69–72.
Tory, M. K. , May, T. W. , Keane, P. J. , and Bennett, A. F. (1997). Mycophagy in small mammals: a comparison of the occurrence and diversity of hypogeal fungi in the diet of the long-nosed potoroo Potorous tridactylus and the bush rat Rattus fuscipes from southwestern Victoria, Australia. Australian Journal of Ecology 22, 460–470.
| Crossref | GoogleScholarGoogle Scholar |
Wallis, I. R. (1994). The rate of passage of digesta through the gastrointestinal tracts of potoroine marsupials: more evidence about the role of the potoroine foregut. Physiological Zoology 67, 771–795.