Climate Change and Alpine Screes: No Future for Glacial Relict Papaver occidentale (Papaveraceae) in Western Prealps

Glacial relicts, especially those with very narrow habitat requirements, are particularly affected by global warming. We considered Papaver occidentale , a glacial relict endemic to the Western Prealps, belonging to the alpine poppy complex ( P. alpinum aggr.), as a model taxon to study the actual s...

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Bibliographic Details
Published in:Diversity
Main Authors: Yann Fragnière, Loïc Pittet, Benoît Clément, Sébastien Bétrisey, Emanuel Gerber, Michał Ronikier, Christian Parisod, Gregor Kozlowski
Format: Article in Journal/Newspaper
Language:English
Published: MDPI AG 2020
Subjects:
arctic-alpine flora
climate change
extinction risk
microrefugia
narrow endemism
Papaver alpinum aggr
Biology (General)
QH301-705.5
Arctic
Climate change
Global warming
Online Access:https://doi.org/10.3390/d12090346
https://doaj.org/article/02af67d24c1e46e993e756a0255f0ccc
Description
Summary:Glacial relicts, especially those with very narrow habitat requirements, are particularly affected by global warming. We considered Papaver occidentale , a glacial relict endemic to the Western Prealps, belonging to the alpine poppy complex ( P. alpinum aggr.), as a model taxon to study the actual status and potential future distribution of species restricted to particular microrefugia. For this study, all known localities were visited, each population was georeferenced and the number of individuals was estimated. Species Distribution Modelling (SDM) was used to evaluate the present and future potential distribution range and habitat suitability, taking into account the specificity of its habitat (calcareous screes). According to our study, there are globally 19 natural populations of P. occidentale , and a total of about 30,000 individuals. The taxon is a highly specialized alpine plant growing in the majority of natural sites between 1900 and 2100 m a.s.l. on north-facing screes. Predictions for the end of the 21st century indicate that a suitable area will significantly decrease (0–30% remaining). Under the most severe climatic scenarios (RCP 8.5), the species risks complete extinction. The long-term in situ conservation of P. occidentale , and all other taxa of the P. alpinum complex, is unlikely to be achieved without slowing global climate change. More generally, our fine-scale study shows that local environmental buffering of large-scale climate change in high-mountain flora may be very limited in specialised taxa of patchy environments such as screes.

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