Weeds in a warmer world: Predicting the impact of climate change on Australia's alien plant species using MaxEnt

Peter D. Wilson; Paul O. Downey; Michelle Leishman; Rachael Gallagher; Lesley Hughes; Jessica O'Donnell

Weeds in a warmer world: Predicting the impact of climate change on Australia's alien plant species using MaxEnt

Peter D. Wilson, Paul O. Downey, Michelle Leishman, Rachael Gallagher, Lesley Hughes, Jessica O'Donnell

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

Abstract

Australia is now host to many thousands of introduced plant species, and about 3000 of these have established self-sustaining populations in the wild. Of these, approximately 450 are classified as invasive weeds nationally or regionally, and are being targeted with control measures. Two questions arise in the context of climate change: what changes might occur in the distribution of the 450 species known to be highly invasive, and which species in the pool of 3000 might emerge to become future serious pests. We are applying an advanced modelling tool MaxEnt, to provide a strategic overview of a large portion of the 450 highly invasive species. Preliminary results suggest differing responses of weed species in northern and southern Australia linked to predicted major shifts in rainfall pattern.

Original language	English
Pages (from-to)	84-87
Number of pages	4
Journal	Plant Protection Quarterly
Volume	24
Issue number	3
Publication status	Published - Sept 2009
Externally published	Yes

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Cite this

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AU - Hughes, Lesley

AU - O'Donnell, Jessica

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AB - Australia is now host to many thousands of introduced plant species, and about 3000 of these have established self-sustaining populations in the wild. Of these, approximately 450 are classified as invasive weeds nationally or regionally, and are being targeted with control measures. Two questions arise in the context of climate change: what changes might occur in the distribution of the 450 species known to be highly invasive, and which species in the pool of 3000 might emerge to become future serious pests. We are applying an advanced modelling tool MaxEnt, to provide a strategic overview of a large portion of the 450 highly invasive species. Preliminary results suggest differing responses of weed species in northern and southern Australia linked to predicted major shifts in rainfall pattern.

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ER -

Weeds in a warmer world: Predicting the impact of climate change on Australia's alien plant species using MaxEnt

Abstract

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