npj Climate and Atmospheric Science (Feb 2024)

Convection-permitting climate models offer more certain extreme rainfall projections

  • Giorgia Fosser,
  • Marco Gaetani,
  • Elizabeth J. Kendon,
  • Marianna Adinolfi,
  • Nikolina Ban,
  • Danijel Belušić,
  • Cécile Caillaud,
  • João A. M. Careto,
  • Erika Coppola,
  • Marie-Estelle Demory,
  • Hylke de Vries,
  • Andreas Dobler,
  • Hendrik Feldmann,
  • Klaus Goergen,
  • Geert Lenderink,
  • Emanuela Pichelli,
  • Christoph Schär,
  • Pedro M. M. Soares,
  • Samuel Somot,
  • Merja H. Tölle

DOI
https://doi.org/10.1038/s41612-024-00600-w
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 10

Abstract

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Abstract Extreme precipitation events lead to dramatic impacts on society and the situation will worsen under climate change. Decision-makers need reliable estimates of future changes as a basis for effective adaptation strategies, but projections at local scale from regional climate models (RCMs) are highly uncertain. Here we exploit the km-scale convection-permitting multi-model (CPM) ensemble, generated within the FPS Convection project, to provide new understanding of the changes in local precipitation extremes and related uncertainties over the greater Alpine region. The CPM ensemble shows a stronger increase in the fractional contribution from extreme events than the driving RCM ensemble during the summer, when convection dominates. We find that the CPM ensemble substantially reduces the model uncertainties and their contribution to the total uncertainties by more than 50%. We conclude that the more realistic representation of local dynamical processes in the CPMs provides more reliable local estimates of change, which are essential for policymakers to plan adaptation measures.