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Accounting for adaptive capacity and uncertainty in assessments of species’ climate‐change vulnerability
Author(s) -
Wade Alisa A.,
Hand Brian K.,
Kovach Ryan P.,
Luikart Gordon,
Whited Diane C.,
Muhlfeld Clint C.
Publication year - 2017
Publication title -
conservation biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.2
H-Index - 222
eISSN - 1523-1739
pISSN - 0888-8892
DOI - 10.1111/cobi.12764
Subject(s) - climate change , adaptive capacity , threatened species , vulnerability (computing) , habitat , fish migration , environmental science , ecology , sympatric speciation , environmental resource management , geography , biology , computer science , computer security
Climate‐change vulnerability assessments (CCVAs) are valuable tools for assessing species’ vulnerability to climatic changes, yet failure to include measures of adaptive capacity and to account for sources of uncertainty may limit their effectiveness. We took a more comprehensive approach that incorporates exposure, sensitivity, and capacity to adapt to climate change. We applied our approach to anadromous steelhead trout ( Oncorhynchus mykiss ) and nonanadromous bull trout ( Salvelinus confluentus ), threatened salmonids within the Columbia River Basin (U.S.A.). We quantified exposure on the basis of scenarios of future stream temperature and flow, and we represented sensitivity and capacity to adapt to climate change with metrics of habitat quality, demographic condition, and genetic diversity. Both species were found to be highly vulnerable to climate change at low elevations and in their southernmost habitats. However, vulnerability rankings varied widely depending on the factors (climate, habitat, demographic, and genetic) included in the CCVA and often differed for the 2 species at locations where they were sympatric. Our findings illustrate that CCVA results are highly sensitive to data inputs and that spatial differences can complicate multispecies conservation. Based on our results, we suggest that CCVAs be considered within a broader conceptual and computational framework and be used to refine hypotheses, guide research, and compare plausible scenarios of species’ vulnerability to climate change.