Raymond, B and McInnes, J and Dambacher, J and Way, S and Bergstrom, DM, Qualitative modelling of invasive species eradication on subantarctic Macquarie Island, Journal of Applied Ecology, 48, (1) pp. 181-191. ISSN 0021-8901 (2011) [Refereed Article]
Copyright 2010 The Authors. Journal of Applied Ecology; Copyright 2010 British Ecological Society
1. Invaded ecosystems present complex management issues. This problem is exacerbated in many situations by a lack of knowledge about the ecosystem. However, delaying conservation action to collect further data and so reduce such uncertainty is often either impractical or inadvisable.
2. The Macquarie Island Pest Eradication Project, currently underway, is attempting to eradicate rabbits, rats, and mice from the island. We undertook qualitative modelling of this project, examining a range of likely outcomes and their possible ecological consequences. The results were aggregated across a large number of possible models, in order to account for uncertainty concerning interactions within the ecosystem.
3. The results strongly support the current actions of simultaneous eradication of all three pest species, as simulated eradications of only one or two generally led to continued impacts on the island's native biota. The results also provided support for the anticipated positive outcomes of the project, with predicted recoveries of tall tussock vegetation, and burrow- and surface-nesting seabirds.
4. However, the model predictions also highlighted potential risks: the eradication of mice from the island may not succeed, due in part to the structural position of this species within the ecosystem. Successful eradication of all three target species could potentially release the self-introduced, non-native redpolls and starlings, allowing expansion of their populations, with possible impacts on macro-invertebrates and vegetation.
5. Synthesis and applications. These results demonstrate that qualitative modelling approaches can in some cases deliver consistent results, despite high levels of uncertainty regarding interactions within the underlying ecosystem. Such outcomes can provide assistance in the development of strategic contingency plans and ongoing future management action.
|Item Type:||Refereed Article|
|Keywords:||cats, conservation, invasive species, mice, rabbits, rats, starlings, subantarctic island, uncertainty|
|Research Division:||Environmental Sciences|
|Research Group:||Ecological applications|
|Research Field:||Biosecurity science and invasive species ecology|
|Objective Division:||Environmental Management|
|Objective Group:||Other environmental management|
|Objective Field:||Other environmental management not elsewhere classified|
|UTAS Author:||Dambacher, J (Dr Jeffrey Dambacher)|
|Web of Science® Times Cited:||73|
|Deposited By:||Ecology and Biodiversity|
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