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Invasive species distribution models - how violating the equilibrium assumption can create new insights

Laure Gallien, Rolland Douzet, Steve Pratte, Niklaus E. Zimmermann, Wilfried Thuiller
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Journal Article
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Aim Two core assumptions of species distribution models (SDMs) do not hold when modelling invasive species. Invasives are not in equilibrium with their envi- ronment and niche quantification and transferability in space and time are limited. Here, we test whether combining global- and regional-scale data in a novel frame- work can overcome these limitations. Beyond simply improving regional niche modelling of non-native species, the framework also makes use of the violation of regional equilibrium assumptions, and aims at estimating the stage of invasion, range filling and risk of spread in the near future for 27 invasive species in the French Alps. Innovation For each invader we built three sets of SDMs using a committee averaging method: one global model and two regional models (a conventional model and one using the global model output to weight pseudo-absences).Model performances were compared using the area under the receiver operating charac- teristic curve, the true skill statistic, sensitivity and specificity scores. Then, we extracted the predictions for observed presences and compared them to global and regional models. This comparison made it possible to identify whether invasive species were observed within or outside of their regional and global niches. Main conclusions This study provides a novel methodological framework for improving the regional modelling of invasive species, where the use of a global model output to weight pseudo-absences in a regional model significantly improved the predictive performance of regional SDMs.Additionally, the compari- son of the global and regional model outputs revealed distinct patterns of niche estimates and range filling among the species. These differences allowed us to draw conclusions about the stage of invasion and the risk of spread in the near future, which both correspond to experts’ expectations. This framework can be easily applied to a large number of species and is therefore useful for control of biological invasions and eradication planning.

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