Climate change threats to plant diversity in Europe

Climate change threats to plant diversity in Europe

Climate change has already triggered species distribution shifts in many parts of the world. Increasing impacts are expected for the future, yet few studies have aimed for a general understanding of the regional basis for species vulnerability. We projected late 21st century distributions for 1,350...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2005-06, Vol.102 (23), p.8245-8250
Main Authors: Thuiller, W, Lavorel, S, Araujo, M.B, Sykes, M.T, Prentice, I.C
Format: Article
Language:eng
Subjects:
Animal migration behavior
Biodiversity
Biodiversity and Ecology
Biological Sciences
Botany
Climate change
Climate models
community ecology
Earth and Related Environmental Sciences
Ecology
Ecology, environment
endangered species
Environmental Sciences
Europe
Extinct species
Extinction
flora
Geovetenskap och miljövetenskap
Greenhouse Effect
Intergovernmental Panel on Climate Change storylines
Life Sciences
Modeling
Models, Biological
Natural Sciences
Nature conservation
Naturgeografi
Naturvetenskap
niche-based model
Physical Geography
plant ecology
Plant Physiological Phenomena
Plants
Population Dynamics
Rain
Species
species diversity
Species extinction
species turnover
Temperature
Threatened species
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Summary:Climate change has already triggered species distribution shifts in many parts of the world. Increasing impacts are expected for the future, yet few studies have aimed for a general understanding of the regional basis for species vulnerability. We projected late 21st century distributions for 1,350 European plants species under seven climate change scenarios. Application of the International Union for Conservation of Nature and Natural Resources Red List criteria to our projections shows that many European plant species could become severely threatened. More than half of the species we studied could be vulnerable or threatened by 2080. Expected species loss and turnover per pixel proved to be highly variable across scenarios (27-42% and 45-63% respectively, averaged over Europe) and across regions (2.5-86% and 17-86%, averaged over scenarios). Modeled species loss and turnover were found to depend strongly on the degree of change in just two climate variables describing temperature and moisture conditions. Despite the coarse scale of the analysis, species from mountains could be seen to be disproportionably sensitive to climate change (≈60% species loss). The boreal region was projected to lose few species, although gaining many others from immigration. The greatest changes are expected in the transition between the Mediterranean and Euro-Siberian regions. We found that risks of extinction for European plants may be large, even in moderate scenarios of climate change and despite inter-model variability.
ISSN:0027-8424
1091-6490
1091-6490