Future summer mega-heatwave and record-breaking temperatures in a warmer France climate

Bador, Margot ; Terray, Laurent ; Boé, Julien ; Somot, Samuel ; Alias, Antoinette ; Gibelin, Anne-Laure ; Dubuisson, Brigitte

Année de publication
2017

This study focuses on future very hot summers associated with severe heatwaves and record-breaking temperatures in France. Daily temperature observations and a pair of historical and scenario (greenhouse gas radiative concentration pathway 8.5) simulations with the high-resolution (~12.5?km) ALADIN regional climate model provide a robust framework to examine the spatial distribution of these extreme events and their 21st century evolution.
Five regions are identified with an extreme event spatial clustering algorithm applied to observed temperatures. They are used to diagnose the 21st century heatwave spatial patterns. In the 2070s, we find a simulated mega-heatwave as severe as the 2003 observed heatwave relative to its contemporaneous climate. A 20-member initial condition ensemble is used to assess the sensitivity of this future heatwave to the internal variability in the regional climate model and to pre-existing land surface conditions. Even in a much warmer and drier climate in France, late spring dry land conditions may lead to a significant amplification of summer extreme temperatures and heatwave intensity through limitations in evapotranspiration. By 2100, the increase in summer temperature maxima exhibits a range from 6?°C to almost 13?°C in the five regions in France, relative to historical maxima. These projections are comparable with the estimates given by a large number of global climate models.

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