Heatwave Future Changes From an Ensemble of Km‐Scale Regional Climate Simulations Within CORDEX‐FPS Convection

L. Sangelantoni; S. P. Sobolowski; P. M. M. Soares; K. Goergen; R. M. Cardoso; M. Adinolfi; A. Dobler; E. Katragkou; E. Scoccimarro; R. Ferretti; M. Tölle; H. Feldmann

doi:10.1029/2024GL111147

Geophysical Research Letters (Jan 2025)

Heatwave Future Changes From an Ensemble of Km‐Scale Regional Climate Simulations Within CORDEX‐FPS Convection

L. Sangelantoni,
S. P. Sobolowski,
P. M. M. Soares,
K. Goergen,
R. M. Cardoso,
M. Adinolfi,
A. Dobler,
E. Katragkou,
E. Scoccimarro,
R. Ferretti,
M. Tölle,
H. Feldmann

Affiliations

L. Sangelantoni: CMCC Foundation ‐ Euro‐Mediterranean Center on Climate Change Bologna Italy
S. P. Sobolowski: NORCE Norwegian Research Centre Bergen Norway
P. M. M. Soares: Universidade de Lisboa Faculdade de Ciências Instituto Dom Luiz Lisbon Portugal
K. Goergen: Institute of Bio‐ and Geosciences (IBG‐3 Agrosphere) Research Centre Jülich Jülich Germany
R. M. Cardoso: Universidade de Lisboa Faculdade de Ciências Instituto Dom Luiz Lisbon Portugal
M. Adinolfi: CMCC Foundation ‐ Euro‐Mediterranean Center on Climate Change Bologna Italy
A. Dobler: Norwegian Meteorological Institute Oslo Norway
E. Katragkou: Department of Meteorology and Climatology School of Geology Aristotle University of Thessaloniki Thessaloniki Greece
E. Scoccimarro: CMCC Foundation ‐ Euro‐Mediterranean Center on Climate Change Bologna Italy
R. Ferretti: University of L’Aquila Department of Physics and Chemical Sciences L’Aquila Italy
M. Tölle: CESR (Center for Environmental Systems Research) University of Kassel Kassel Germany
H. Feldmann: Institute of Meteorology and Climate Research (IMKTRO) Karlsruhe Germany

DOI: https://doi.org/10.1029/2024GL111147
Journal volume & issue: Vol. 52, no. 2
pp. n/a – n/a

Abstract

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Abstract As global temperatures continue to rise, the impact of heatwaves becomes increasingly striking. The increasing frequency and intensity of these events underscore the critical need to understand regional‐scale mechanisms and feedback, exacerbating or mitigating heatwave magnitude. Here, we use an ensemble of convection‐permitting regional climate models (CPRCMs) to elucidate future heatwave changes at fine spatial scales. We explore whether the recently highlighted drier/warmer signal introduced by CPRCMs improves summer temperature extremes representation and if it modulates future heatwave changes compared to convection‐parameterizing regional climate models (RCMs). In historical runs, CPRCMs show a more realistic representation of summer maximum temperature especially on a ground‐station‐based evaluation. CPRCMs project substantially drier conditions than RCMs. This is associated with a modulation of heatwave temperature changes which show diversified spatial patterns, magnitudes, and signs. CPRCMs ensemble shows an overall reduction in heatwave metrics future changes inter‐model spread compared to the RCMs ensemble.

Published in Geophysical Research Letters

ISSN: 0094-8276 (Print); 1944-8007 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/19448007

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