<p>Climate change is expected to alter species assemblages by affecting the outcome of competition between species. Investigating processes of competition remains challenging in tree communities, as they unfold over extensive spatio-temporal scales. Here, we used a deep learning-based meta-model trained on 135 million simulated tree responses to climate across Europe to investigate changes in the competitiveness of nine major tree species under future climate. We harnessed projections from local process models to train a Deep Neural Network of forest state transitions to investigate climate-induced changes in competition at continental scale. We found decreasing competitive strength for evergreen conifers across their distribution, while deciduous broadleaved species increased in competitiveness. Most investigated species lost competitive strength at their warm range edges. Consequently, up to 25% of Europe’s forests could experience a change in the dominant tree species until the end of the 21<sup>st</sup> century, suggesting a profound climate-induced reassembly of Europe’s forests.</p>

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Loss of competitive strength in European conifer species under climate change

  • Marc Grünig,
  • Werner Rammer,
  • Martin Baumann,
  • Katharina Albrich,
  • Frédéric André,
  • Andrey L. D. Augustynczik,
  • Friedrich J. Bohn,
  • Meike Bouwman,
  • Harald Bugmann,
  • Alessio Collalti,
  • Irina Cristal,
  • Daniela Dalmonech,
  • Miquel De Caceres,
  • Francois De Coligny,
  • Laura Dobor,
  • Christina Dollinger,
  • David I. Forrester,
  • Jordi Garcia-Gonzalo,
  • José Ramón González-Olabarria,
  • Ulrike Hiltner,
  • Tomáš Hlásny,
  • Juha Honkaniemi,
  • Nica Huber,
  • Andreas Huth,
  • Mathieu Jonard,
  • Anna Maria Jönsson,
  • Fredrik Lagergren,
  • Marco Mina,
  • Frits Mohren,
  • Christine Moos,
  • Xavier Morin,
  • Bart Muys,
  • Mats Nieberg,
  • Mikko Peltoniemi,
  • Christopher P. O. Reyer,
  • Ilié Storms,
  • Dominik Thom,
  • Maude Toïgo,
  • Rupert Seidl

摘要

Climate change is expected to alter species assemblages by affecting the outcome of competition between species. Investigating processes of competition remains challenging in tree communities, as they unfold over extensive spatio-temporal scales. Here, we used a deep learning-based meta-model trained on 135 million simulated tree responses to climate across Europe to investigate changes in the competitiveness of nine major tree species under future climate. We harnessed projections from local process models to train a Deep Neural Network of forest state transitions to investigate climate-induced changes in competition at continental scale. We found decreasing competitive strength for evergreen conifers across their distribution, while deciduous broadleaved species increased in competitiveness. Most investigated species lost competitive strength at their warm range edges. Consequently, up to 25% of Europe’s forests could experience a change in the dominant tree species until the end of the 21st century, suggesting a profound climate-induced reassembly of Europe’s forests.