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21st century climate change threatens mountain flora unequally across Europe

Publikationsart Peer-reviewed
Publikationsform Originalbeitrag (peer-reviewed)
Autor/in Engler Robin, Randin Christophe F., Thuiller Wilfried, Dullinger Stefan, Zimmermann Niklaus E., Araujo Miguel B., Pearman Peter B., Le Lay Gwenaelle, Piedallu Christian, Albert Cecile H., Choler Philippe, Coldea Gheorghe, De Lamo Xavier, Dirnbock Thomas, Gegout Jean-Claude, Gomez-Garcia Daniel, Grytnes John-Arvid, Heegaard Einar, Hoistad Fride, Nogues-Bravo David, Normand Signe, Puscas Mihai, Sebastia Maria-Teresa, Stanisci Angela, Theurillat Jean-Paul,
Projekt Spatially Explicit Evolution of Diversity (SPEED)
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Originalbeitrag (peer-reviewed)

Volume (Issue) 17(7)
Seite(n) 2330 - 2341
Titel der Proceedings GLOBAL CHANGE BIOLOGY


Continental-scale assessments of 21st century global impacts of climate change on biodiversity have forecasted range contractions for many species. These coarse resolution studies are, however, of limited relevance for projecting risks to biodiversity in mountain systems, where pronounced microclimatic variation could allow species to persist locally, and are ill-suited for assessment of species-specific threat in particular regions. Here, we assess the impacts of climate change on 2632 plant species across all major European mountain ranges, using high-resolution (ca. 100 m) species samples and data expressing four future climate scenarios. Projected habitat loss is greater for species distributed at higher elevations; depending on the climate scenario, we find 36–55% of alpine species, 31–51% of subalpine species and 19–46% of montane species lose more than 80% of their suitable habitat by 2070–2100. While our high-resolution analyses consistently indicate marked levels of threat to cold-adapted mountain florae across Europe, they also reveal unequal distribution of this threat across the various mountain ranges. Impacts on florae from regions projected to undergo increased warming accompanied by decreased precipitation, such as the Pyrenees and the Eastern Austrian Alps, will likely be greater than on florae in regions where the increase in temperature is less pronounced and rainfall increases concomitantly, such as in the Norwegian Scandes and the Scottish Highlands. This suggests that change in precipitation, not only warming, plays an important role in determining the potential impacts of climate change on vegetation.