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Northwestern Mediterranean Heavy Precipitation Events in a Warmer Climate: Robust Versus Uncertain Changes With a Large Convection-Permitting Model Ensemble

TitoloNorthwestern Mediterranean Heavy Precipitation Events in a Warmer Climate: Robust Versus Uncertain Changes With a Large Convection-Permitting Model Ensemble
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione2024
AutoriCaillaud, Cécile, Somot Samuel, Douville Hervé, Alias Antoinette, Bastin Sophie, Brienen Susanne, Demory Marie-Estelle, Dobler Andreas, Feldmann Hendrik, Frisius Thomas, Goergen Klaus, Kendon Elizabeth J., Keuler Klaus, Lenderink Geert, Mercogliano Paola, Pichelli Emanuela, Soares Pedro M. M., Tölle Merja H., and de Vries Hylke
RivistaGeophysical Research Letters
Volume51
Type of ArticleArticle
ISSN00948276
Abstract

Taking advantage of a large ensemble of Convection Permitting-Regional Climate Models on a pan-Alpine domain and of an object-oriented dedicated analysis, this study aims to investigate future changes in high-impact fall Mediterranean Heavy Precipitation Events at high warming levels. We identify a robust multi-model agreement for an increased frequency from central Italy to the northern Balkans combined with a substantial extension of the affected areas, for a dominant influence of the driving Global Climate Models for projecting changes in the frequency, and for an increase in intensity, area, volume and severity over the French Mediterranean. However, large quantitative uncertainties persist despite the use of convection-permitting models, with no clear agreement in frequency changes over southeastern France and a large range of plausible changes in events' properties, including for the most intense events. Model diversity and international coordination are still needed to provide policy-relevant climate information regarding precipitation extremes. © 2024. The Authors.

Note

Cited by: 0; All Open Access, Gold Open Access

URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85188285627&doi=10.1029%2f2023GL105143&partnerID=40&md5=c214b7c4917bf8ded143cdf7bba0f9a1
DOI10.1029/2023GL105143
Citation KeyCaillaud2024