Abstract

AbstractMost climate change vulnerability assessments of species focus on characterizing the degree to which species are likely to be affected by changes in mean climatic conditions. Yet, there has been little progress in the explicit assessment of species vulnerability to extreme climatic events (ECEs) which have the potential to cause substantial environmental disturbance and potentially catastrophic declines of wildlife populations. Using a trait‐based approach, we assessed the relative vulnerability of populations of wild animal species to hurricanes, focusing on 25 terrestrial mammals at high risk of extinction in Mexico. Our assessment uses biological traits associated with heightened sensitivity (low vagility and territoriality) and low adaptive capacity (restricted diet and habitat specialization) in relation to their predicted exposure to hurricanes, based on records of occurrence of hurricanes in their geographical range over the past 45 years. We found that territoriality was present in most of the species assessed (n = 20) followed by habitat specialization (n = 6), low vagility (n = 6) and diet specialization (n = 3). Two subspecies of spider monkeys Ateles geoffroyi vellerosus and A. g. yucatanensis, two howler monkeys Alouatta pigra and Alouatta palliata mexicana and the silky anteater Cyclopes didactylus all emerged from this assessment as highly vulnerable to population declines from exposure to hurricanes. In the absence of any robust predictive framework for assessing risk to species from ECEs we suggest that the integration of data on hurricane exposure and species’ intrinsic biology, as presented here, represents a coherent and informative basis for risk evaluation and the design of possible mitigation strategies.

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