Abstract

Species distribution models (SDMs) are used to test ecological theory and to direct targeted surveys for species of conservation concern. Several studies have tested for an influence of species traits on the predictive accuracy of SDMs. However, most used the same set of environmental predictors for all species and/or did not use truly independent data to test SDM accuracy. We built eight SDMs for each of 24 plant species of conservation concern, varying the environmental predictors included in each SDM version. We then measured the accuracy of each SDM using independent presence and absence data to calculate area under the receiver operating characteristic curve (AUC) and true positive rate (TPR). We used generalized linear mixed models to test for a relationship between species traits and SDM accuracy, while accounting for variation in SDM performance that might be introduced by different predictor sets. All traits affected one or both SDM accuracy measures. Species with lighter seeds, animal‐dispersed seeds, and a higher density of occurrences had higher AUC and TPR than other species, all else being equal. Long‐lived woody species had higher AUC than herbaceous species, but lower TPR. These results support the hypothesis that the strength of species–environment correlations is affected by characteristics of species or their geographic distributions. However, because each species has multiple traits, and because AUC and TPR can be affected differently, there is no straightforward way to determine a priori which species will yield useful SDMs based on their traits. Most species yielded at least one useful SDM. Therefore, it is worthwhile to build and test SDMs for the purpose of finding new populations of plant species of conservation concern, regardless of these species’ traits.

Highlights

  • Species distribution models (SDMs) use known locations of a species along with geospatial data on climatic, topographic, edaphic, and land cover variables to predict habitat suitability or probability of occurrence across a region (Guisan & Zimmerman, 2000)

  • We evaluated the SDMs with independent presences and absences obtained from field surveys of 156 sites that varied in their predicted habitat suitability for each species

  • In a study at a much smaller extent (0.33 km2) and finer resolution, Moore and Elmendorf (2006) found that the ability of SDMs to predict plant species distributions was not affected by dispersal mechanism or seed size

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Summary

Introduction

Species distribution models (SDMs) use known locations of a species along with geospatial data on climatic, topographic, edaphic, and land cover variables to predict habitat suitability or probability of occurrence across a region (Guisan & Zimmerman, 2000). SDMs can predict areas of suitable habitat where field surveys might reveal previously undiscovered populations of species of conservation concern (Guisan et al, 2006). SDM-directed surveys have been shown to increase the efficiency of field surveys when compared to other sampling strategies (Guisan et al, 2006; van Manen et al, 2005; Rosner-Katz et al in revision). Knowing the locations of all extant occurrences of species of conservation concern is important in order to correctly assess their status and to design effective strategies for recovery

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