Abstract
Mountain areas are particularly sensitive to climate change. Species distribution models predict important extinctions in these areas whose magnitude will depend on a number of different factors. Here we examine the possible impact of climate change on the Rhododendron ferrugineum (alpenrose) niche in Andorra (Pyrenees). This species currently occupies 14.6 km2 of this country and relies on the protection afforded by snow cover in winter. We used high-resolution climatic data, potential snow accumulation and a combined forecasting method to obtain the realized niche model of this species. Subsequently, we used data from the high-resolution Scampei project climate change projection for the A2, A1B and B1 scenarios to model its future realized niche model. The modelization performed well when predicting the species’s distribution, which improved when we considered the potential snow accumulation, the most important variable influencing its distribution. We thus obtained a potential extent of about 70.7 km2 or 15.1% of the country. We observed an elevation lag distribution between the current and potential distribution of the species, probably due to its slow colonization rate and the small-scale survey of seedlings. Under the three climatic scenarios, the realized niche model of the species will be reduced by 37.9–70.1 km2 by the end of the century and it will become confined to what are today screes and rocky hillside habitats. The particular effects of climate change on seedling establishment, as well as on the species’ plasticity and sensitivity in the event of a reduction of the snow cover, could worsen these predictions.
Highlights
Mountainous regions are biodiversity-rich areas [1], principally due to the pronounced topographical and climatic gradients that exist over short distances [2]
We examine the possible impact of climate change on the habitat suitability of the shrub Rhododendron ferrugineum, the alpenrose, in Andorra (Eastern Pyrenees)
These results provide a more than satisfactory prediction of a realized niche model of R. ferrugineum with the Psnow variable and so only this model will be considered for model projections under different climate change scenarios
Summary
Mountainous regions are biodiversity-rich areas [1], principally due to the pronounced topographical and climatic gradients that exist over short distances [2]. In the Pyrenees, for example, the predicted responses to climate change in mountain areas include the upward migration of Pinus uncinata, the most abundant conifer in this cordillera [14], an upstream colonization by the freshwater fish Barbus barbus [15], an important decline in climatically suitable habitat for the lycaenid butterfly Lycaena helle [16] and a little or no shrinkage in the distribution of the at-risk endemic Pyrenean desman Galemys pyrenaicus [17] These differing predicted responses by animal and plant species to climate change are directly related to each species’ sensitivity to climate change and so a general consideration of species-specific ecological niches is liable to reveal useful trends [18]
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