2014
DOI: 10.1038/nclimate2113
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Life history and spatial traits predict extinction risk due to climate change

Abstract: There is an urgent need to develop e ective vulnerability assessments for evaluating the conservation status of species in a changing climate 1 . Several new assessment approaches have been proposed for evaluating the vulnerability of species to climate change 2-5 based on the expectation that established assessments such as the IUCN Red List 6 need revising or superseding in light of the threat that climate change brings. However, although previous studies have identified ecological and life history attribute… Show more

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Cited by 369 publications
(384 citation statements)
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“…Community-level models also provide a promising way forward because they facilitate the modelling of all species, including the rare or poorly-sampled ones (Olden 2003), while expanding the possibility to account for the observation process (Iknayan et al 2014). In the case of incomplete information about species' distributions, trait-based approaches might be the most straightforward solution to provide reliable estimates of future species' extinction risk (Pearson et al 2014) and spread (Santini et al 2016) in data-scarce areas. Understanding and projecting real, multi-species community (re)assembly represents a significant challenge, but also a great opportunity to better anticipate future changes in biodiversity.…”
Section: Forecast Future Homogenisation In a Rapidly Changing Worldmentioning
confidence: 99%
“…Community-level models also provide a promising way forward because they facilitate the modelling of all species, including the rare or poorly-sampled ones (Olden 2003), while expanding the possibility to account for the observation process (Iknayan et al 2014). In the case of incomplete information about species' distributions, trait-based approaches might be the most straightforward solution to provide reliable estimates of future species' extinction risk (Pearson et al 2014) and spread (Santini et al 2016) in data-scarce areas. Understanding and projecting real, multi-species community (re)assembly represents a significant challenge, but also a great opportunity to better anticipate future changes in biodiversity.…”
Section: Forecast Future Homogenisation In a Rapidly Changing Worldmentioning
confidence: 99%
“…At present, the most commonly identified threats to species on the IUCN Red List are habitat loss, overexploitation and invasive species (IUCN, 2015b), while only 8% of the 67,000 species assessed under the current criteria system (IUCN, 2001) are recorded as threatened by climate change (IUCN, 2015b). The IUCN Red List Criteria effectively account for climate change in threatened species (Akcakaya et al, 2014;Pearson et al, 2014), although a number of factors may still prevent the adequate listing of climate change for threatened species: species may be perceived as susceptible to climate change, but may not yet be exposed to significant changes, or vice versa ; assessors may approach climate change threats inconsistently due to uncertainties surrounding current projections of climate change and their effects on species (Keith et al, 2014;Westoby and Burgman, 2006); other threats, acting synergistically with climate change, may be more easily understood and recorded, thus underestimating the importance of climate change (Hof et al, 2011).…”
Section: Introductionmentioning
confidence: 99%
“…Full details of the model specification and software implementation are provided in the electronic supplementary material, appendix A. rate 0.001, tree complexity of 5, k-fold cross-validation procedure) and extinction risk (binomial error structure). Similar approaches were recently used to identify the importance of disease effects on prey availability for black-footed ferrets [47], and life-history and spatial traits on the extinction risk of vertebrates [48].…”
Section: Resultsmentioning
confidence: 99%