CNRS
The European Alps is certainly one of the most scrutinized mountain range in the world, as it forms a true open-air laboratory showing how climate change affects biodiversity. Although many studies have independently demonstrated the impact of climate change in the Alps on either the seasonal activity (i.e. phenology) or the migration of plants and animals, no systematic analysis has been carried out on both consequences simultaneously. A European team of ecologists1, including Jonathan Lenoir, CNRS Researcher in the research unit Écologie et Dynamique des Systèmes Anthropisés (CNRS/University of Picardie Jules Verne), has just published a review that quantifies seasonal changes and elevational movements of more than 2,000 species of plants, animals and fungi that live in the Alps. This review shows that species have shifted their life cycles (e.g. bud burst for plants or nesting for birds) earlier during the season2 and their distribution higher along the elevational gradie
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The European Alps is certainly one of the most scrutinized mountain range in the world, as it forms a true open-air laboratory showing how climate change affects biodiversity. Although many studies have independently demonstrated the impact of climate change in the Alps on either the seasonal activity (i.e. phenology) or the migration of plants and animals, no systematic analysis has been carried out on both consequences simultaneously. A European team of ecologists1, including Jonathan Lenoir, CNRS Researcher in the research unit Écologie et Dynamique des Systèmes Anthropisés (CNRS/University of Picardie Jules Verne), has just published a review that quantifies seasonal changes and elevational movements of more than 2,000 species of plants, animals and fungi that live in the Alps. This review shows that species have shifted their life cycles (e.g. bud burst for plants or nesting for birds) earlier during the season2 and their distribution higher along the elevational gr