A climate change context for the decline of a foundation tree species in south-western Australia: insights from phylogeography and species distribution modelling.

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  • Additional Information
    • Source:
      Publisher: Oxford University Press Country of Publication: England NLM ID: 0372347 Publication Model: Print-Electronic Cited Medium: Internet ISSN: 1095-8290 (Electronic) Linking ISSN: 03057364 NLM ISO Abbreviation: Ann Bot Subsets: MEDLINE
    • Publication Information:
      Publication: 2002- : Oxford, UK : Oxford University Press
      Original Publication: Oxford [etc.]
    • Subject Terms:
      Climate Change* ; Genetic Variation*; Eucalyptus/*physiology; Biological Evolution ; DNA, Chloroplast/genetics ; Ecosystem ; Eucalyptus/genetics ; Genetics, Population ; Haplotypes ; Models, Theoretical ; Phylogeography ; South Australia ; Trees ; Western Australia
    • Abstract:
      Background and Aims: A worldwide increase in tree decline and mortality has been linked to climate change and, where these represent foundation species, this can have important implications for ecosystem functions. This study tests a combined approach of phylogeographic analysis and species distribution modelling to provide a climate change context for an observed decline in crown health and an increase in mortality in Eucalyptus wandoo, an endemic tree of south-western Australia.
      Methods: Phylogeographic analyses were undertaken using restriction fragment length polymorphism analysis of chloroplast DNA in 26 populations across the species distribution. Parsimony analysis of haplotype relationships was conducted, a haplotype network was prepared, and haplotype and nucleotide diversity were calculated. Species distribution modelling was undertaken using Maxent models based on extant species occurrences and projected to climate models of the last glacial maximum (LGM).
      Key Results: A structured pattern of diversity was identified, with the presence of two groups that followed a climatic gradient from mesic to semi-arid regions. Most populations were represented by a single haplotype, but many haplotypes were shared among populations, with some having widespread distributions. A putative refugial area with high haplotype diversity was identified at the centre of the species distribution. Species distribution modelling showed high climatic suitability at the LGM and high climatic stability in the central region where higher genetic diversity was found, and low suitability elsewhere, consistent with a pattern of range contraction.
      Conclusions: Combination of phylogeography and paleo-distribution modelling can provide an evolutionary context for climate-driven tree decline, as both can be used to cross-validate evidence for refugia and contraction under harsh climatic conditions. This approach identified a central refugial area in the test species E. wandoo, with more recent expansion into peripheral areas from where it had contracted at the LGM. This signature of contraction from lower rainfall areas is consistent with current observations of decline on the semi-arid margin of the range, and indicates low capacity to tolerate forecast climatic change. Identification of a paleo-historical context for current tree decline enables conservation interventions to focus on maintaining genetic diversity, which provides the evolutionary potential for adaptation to climate change.
      (© The Author 2015. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For Permissions, please email: [email protected].)
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    • Contributed Indexing:
      Keywords: Climate change; Eucalyptus wandoo; LGM; Myrtaceae; evolution; forest decline; haplotypes; last glacial maximum; phylogeography; refugia; species distribution modelling; tree decline.
    • Accession Number:
      0 (DNA, Chloroplast)
    • Publication Date:
      Date Created: 20150409 Date Completed: 20160815 Latest Revision: 20190108
    • Publication Date:
      20221213
    • Accession Number:
      PMC4640123
    • Accession Number:
      10.1093/aob/mcv044
    • Accession Number:
      25851142