Integrating climate change vulnerability assessments from species distribution models and trait-based approaches

S. G. Willis; W. Foden; D. J. Baker; E. Belle; N. D. Burgess; J. A. Carr; N. Doswald; R. A. Garcia; A. Hartley; C. Hof; T. Newbold; C. Rahbek; R. J. Smith; P. Visconti; B. E. Young; S. H. M. Butchart

doi:10.1016/j.biocon.2015.05.001

Integrating climate change vulnerability assessments from species distribution models and trait-based approaches

S. G. Willis, W. Foden, D. J. Baker, E. Belle, N. D. Burgess, J. A. Carr, N. Doswald, R. A. Garcia, A. Hartley, C. Hof, T. Newbold, C. Rahbek, R. J. Smith, P. Visconti, B. E. Young, S. H. M. Butchart

Research output: Contribution to journal › Article › Research › peer-review

58 Citations (Scopus)

Abstract

To accommodate climate-driven changes in biological communities, conservation plans are increasingly making use of models to predict species' responses to climate change. To date, species distribution models have been the most commonly used approach for assessing species' vulnerability to climate change. Biological trait-based approaches, which have emerged recently, and which include consideration of species' sensitivity and adaptive capacity, provide alternative and potentially conflicting vulnerability assessments and present conservation practitioners and planners with difficult choices. Here we discuss the differing objectives and strengths of the approaches, and provide guidance to conservation practitioners for their application. We outline an integrative methodological framework for assessing climate change impacts on species that uses both traditional species distribution modelling approaches and biological trait-based assessments. We show how these models can be used conceptually as inputs to guide conservation monitoring and planning.

Original language	English
Pages (from-to)	167-178
Number of pages	12
Journal	Biological Conservation
Volume	190
DOIs	https://doi.org/10.1016/j.biocon.2015.05.001
Publication status	Published - Oct 2015
Externally published	Yes

Keywords

Conservation planning for climate change
Model integration
Species climate vulnerability traits
Species distribution modelling

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.biocon.2015.05.001

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Willis, S. G., Foden, W., Baker, D. J., Belle, E., Burgess, N. D., Carr, J. A., Doswald, N., Garcia, R. A., Hartley, A., Hof, C., Newbold, T., Rahbek, C., Smith, R. J., Visconti, P., Young, B. E., & Butchart, S. H. M. (2015). Integrating climate change vulnerability assessments from species distribution models and trait-based approaches. Biological Conservation, 190, 167-178. https://doi.org/10.1016/j.biocon.2015.05.001

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abstract = "To accommodate climate-driven changes in biological communities, conservation plans are increasingly making use of models to predict species' responses to climate change. To date, species distribution models have been the most commonly used approach for assessing species' vulnerability to climate change. Biological trait-based approaches, which have emerged recently, and which include consideration of species' sensitivity and adaptive capacity, provide alternative and potentially conflicting vulnerability assessments and present conservation practitioners and planners with difficult choices. Here we discuss the differing objectives and strengths of the approaches, and provide guidance to conservation practitioners for their application. We outline an integrative methodological framework for assessing climate change impacts on species that uses both traditional species distribution modelling approaches and biological trait-based assessments. We show how these models can be used conceptually as inputs to guide conservation monitoring and planning.",

keywords = "Conservation planning for climate change, Model integration, Species climate vulnerability traits, Species distribution modelling",

author = "Willis, {S. G.} and W. Foden and Baker, {D. J.} and E. Belle and Burgess, {N. D.} and Carr, {J. A.} and N. Doswald and Garcia, {R. A.} and A. Hartley and C. Hof and T. Newbold and C. Rahbek and Smith, {R. J.} and P. Visconti and Young, {B. E.} and Butchart, {S. H. M.}",

year = "2015",

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doi = "10.1016/j.biocon.2015.05.001",

language = "English",

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Willis, SG, Foden, W, Baker, DJ, Belle, E, Burgess, ND, Carr, JA, Doswald, N, Garcia, RA, Hartley, A, Hof, C, Newbold, T, Rahbek, C, Smith, RJ, Visconti, P, Young, BE & Butchart, SHM 2015, 'Integrating climate change vulnerability assessments from species distribution models and trait-based approaches', Biological Conservation, vol. 190, pp. 167-178. https://doi.org/10.1016/j.biocon.2015.05.001

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AU - Willis, S. G.

AU - Foden, W.

AU - Baker, D. J.

AU - Belle, E.

AU - Burgess, N. D.

AU - Carr, J. A.

AU - Doswald, N.

AU - Garcia, R. A.

AU - Hartley, A.

AU - Hof, C.

AU - Newbold, T.

AU - Rahbek, C.

AU - Smith, R. J.

AU - Visconti, P.

AU - Young, B. E.

AU - Butchart, S. H. M.

PY - 2015/10

Y1 - 2015/10

N2 - To accommodate climate-driven changes in biological communities, conservation plans are increasingly making use of models to predict species' responses to climate change. To date, species distribution models have been the most commonly used approach for assessing species' vulnerability to climate change. Biological trait-based approaches, which have emerged recently, and which include consideration of species' sensitivity and adaptive capacity, provide alternative and potentially conflicting vulnerability assessments and present conservation practitioners and planners with difficult choices. Here we discuss the differing objectives and strengths of the approaches, and provide guidance to conservation practitioners for their application. We outline an integrative methodological framework for assessing climate change impacts on species that uses both traditional species distribution modelling approaches and biological trait-based assessments. We show how these models can be used conceptually as inputs to guide conservation monitoring and planning.

AB - To accommodate climate-driven changes in biological communities, conservation plans are increasingly making use of models to predict species' responses to climate change. To date, species distribution models have been the most commonly used approach for assessing species' vulnerability to climate change. Biological trait-based approaches, which have emerged recently, and which include consideration of species' sensitivity and adaptive capacity, provide alternative and potentially conflicting vulnerability assessments and present conservation practitioners and planners with difficult choices. Here we discuss the differing objectives and strengths of the approaches, and provide guidance to conservation practitioners for their application. We outline an integrative methodological framework for assessing climate change impacts on species that uses both traditional species distribution modelling approaches and biological trait-based assessments. We show how these models can be used conceptually as inputs to guide conservation monitoring and planning.

KW - Conservation planning for climate change

KW - Model integration

KW - Species climate vulnerability traits

KW - Species distribution modelling

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EP - 178

JO - Biological Conservation

JF - Biological Conservation

SN - 0006-3207

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Integrating climate change vulnerability assessments from species distribution models and trait-based approaches

Abstract

Keywords

UN SDGs

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