Species composition of coastal dune vegetation in Scotland has proved resistant to climate change over a third of a century

Robin J. Pakeman, Jim Alexander, Joan Beaton, Rob Brooker, Roger Cummins, Antonia Eastwood, Debbie Fielding, Julia Fisher, Sarah Gore, Richard Hewison, Russell Hooper, Jack Lennon, Ruth Mitchell, Emily Moore, Andrew Nolan, Katy Orford, Clare Pemberton, Dave Riach, Dave Sim, Jenni StockanClare Trinder, Rob Lewis

Research output: Contribution to journalArticle

12 Citations (Scopus)

Abstract

Climate change is expected to have an impact on plant communities as increased temperatures are expected to drive individual species' distributions polewards. The results of a revisitation study after c. 34years of 89 coastal sites in Scotland, UK, were examined to assess the degree of shifts in species composition that could be accounted for by climate change. There was little evidence for either species retreat northwards or for plots to become more dominated by species with a more southern distribution. At a few sites where significant change occurred, the changes were accounted for by the invasion, or in one instance the removal, of woody species. Also, the vegetation types that showed the most sensitivity to change were all early successional types and changes were primarily the result of succession rather than climate-driven changes. Dune vegetation appears resistant to climate change impacts on the vegetation, either as the vegetation is inherently resistant to change, management prevents increased dominance of more southerly species or because of dispersal limitation to geographically isolated sites.
Original languageEnglish
Pages (from-to)3738-3747
Number of pages10
JournalGlobal Change Biology
Volume21
Issue number10
Early online date03 Jul 2015
DOIs
Publication statusPublished - Oct 2015

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Climate change
dune
climate change
vegetation
Chemical analysis
vegetation type
plant community
climate
Temperature
temperature
distribution

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Pakeman, R. J., Alexander, J., Beaton, J., Brooker, R., Cummins, R., Eastwood, A., ... Lewis, R. (2015). Species composition of coastal dune vegetation in Scotland has proved resistant to climate change over a third of a century. Global Change Biology, 21(10), 3738-3747. https://doi.org/10.1111/gcb.12999
Pakeman, Robin J. ; Alexander, Jim ; Beaton, Joan ; Brooker, Rob ; Cummins, Roger ; Eastwood, Antonia ; Fielding, Debbie ; Fisher, Julia ; Gore, Sarah ; Hewison, Richard ; Hooper, Russell ; Lennon, Jack ; Mitchell, Ruth ; Moore, Emily ; Nolan, Andrew ; Orford, Katy ; Pemberton, Clare ; Riach, Dave ; Sim, Dave ; Stockan, Jenni ; Trinder, Clare ; Lewis, Rob. / Species composition of coastal dune vegetation in Scotland has proved resistant to climate change over a third of a century. In: Global Change Biology. 2015 ; Vol. 21, No. 10. pp. 3738-3747.
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Pakeman, RJ, Alexander, J, Beaton, J, Brooker, R, Cummins, R, Eastwood, A, Fielding, D, Fisher, J, Gore, S, Hewison, R, Hooper, R, Lennon, J, Mitchell, R, Moore, E, Nolan, A, Orford, K, Pemberton, C, Riach, D, Sim, D, Stockan, J, Trinder, C & Lewis, R 2015, 'Species composition of coastal dune vegetation in Scotland has proved resistant to climate change over a third of a century', Global Change Biology, vol. 21, no. 10, pp. 3738-3747. https://doi.org/10.1111/gcb.12999

Species composition of coastal dune vegetation in Scotland has proved resistant to climate change over a third of a century. / Pakeman, Robin J.; Alexander, Jim; Beaton, Joan; Brooker, Rob; Cummins, Roger; Eastwood, Antonia; Fielding, Debbie; Fisher, Julia; Gore, Sarah; Hewison, Richard; Hooper, Russell; Lennon, Jack; Mitchell, Ruth; Moore, Emily; Nolan, Andrew; Orford, Katy; Pemberton, Clare; Riach, Dave; Sim, Dave; Stockan, Jenni; Trinder, Clare; Lewis, Rob.

In: Global Change Biology, Vol. 21, No. 10, 10.2015, p. 3738-3747.

Research output: Contribution to journalArticle

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