Invasive species and climate change

Published today “Buffel grass and climate change: a framework for projecting invasive species distributions when data are scarce” in Biological Invasions.  In this paper we show how to project invasive species distributions when empirical data are lacking, using Bayesian Networks.

Martin, T.G., Murphy, H., Liedloff, A., Thomas, C., Chades, I., Cook, G., Fensham, R., McIvor, J., van Klinken, R., 2015. Buffel grass and climate change: a framework for projecting invasive species distributions when data are scarce. Biological Invasions 17, 3197-3210. PDF

Buffel grass invasion of MacDonald Ranges, Central Australia

Buffel grass invasion of MacDonald Ranges, Central Australia

Abstract
Invasive species pose a substantial risk to native biodiversity. As distributions of invasive species shift in response to changes in climate so will management priorities and investment. To develop cost-effective invasive species management strategies into the future it is necessary to understand how species distributions are likely to change over time and space. For most species however, little data are available on their current distributions, let alone projected future distributions. We demonstrate the benefits of Bayesian Networks (BNs) for projecting distributions of invasive species under various climate futures, when empirical data are lacking. Using the introduced pasture species, buffel grass (Cenchrus ciliaris) in Australia as an example, we employ a framework by which expert knowledge and available empirical data are used to build a BN. The framework models the susceptibility and suitability of the Australian continent to buffel grass colonization using three invasion requirements; the introduction of plant propagules to a site, the establishment of new plants at a site, and the persistence of established, reproducing populations. Our results highlight the potential for buffel grass management to become increasingly important in the southern part of the continent, whereas in the north conditions are projected to become less suitable. With respect to biodiversity impacts, our modelling suggests that the risk of buffel grass invasion within Australia’s National Reserve System is likely to increase with climate change as a result of the high number of reserves located in the central and southern portion of the continent. In situations where data are limited, we find BNs to be a flexible and inexpensive tool for incorporating existing process-understanding alongside bioclimatic and edaphic variables for projecting future distributions of species invasions.

 

 

 

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