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We infer that 2026 is likely to be the warmest year in the period of instrumental data, based on a physics-based approach with identifiable assumptions. This approach may help us learn something in 2026 about the mechanisms of climate change. The figures in this post and our other current papers will be continually updated on our website,2 when they remain relevant. We are also now on Substack3.

The European Center for Medium Range Weather Forecasts (ECMWF) earlier this year issued a forecast of a strong (“Super”) El Nino to begin later this year and peak in early 2027, as we have discussed in two earlier posts.3,4 El Ninos are important because of the large effects that they have on global weather, even though those effects are not always consistent from one El Nino to another. El Ninos have even greater effect in combination with ongoing global warming, e.g., Radfar et al.5 find that the combination of an El Nino with increasingly prevalent marine heat waves results in tropical cyclones consistently producing higher maximum wind speeds, storm surges, and precipitation rates, and Liu et al.6 describe evidence of El Ninos strengthened control over global climate anomalies in a warmer world

Canicule ! Le spectre des chaleurs extrêmes et de longue durée revient désormais à chaque été, voire dès le printemps. Voici un dossier pour mieux comprendre ces épisodes, leurs effets et le rôle du changement climatique dans l’implacable montée du thermomètre.

Young people will be exposed to a number of heatwaves that no one would have experienced in pre-industrial times. Young people will be exposed to a number of heatwaves that no one would have experienced in pre-industrial times.

Previous health impact assessments of temperature-related mortality in Europe indicated that the mortality burden attributable to cold is much larger than for heat. Questions remain as to whether climate change can result in a net decrease in temperature-related mortality. In this study, we estimated how climate change could affect future heat-related and cold-related mortality in 854 European urban areas, under several climate, demographic and adaptation scenarios. We showed that, with no adaptation to heat, the increase in heat-related deaths consistently exceeds any decrease in cold-related deaths across all considered scenarios in Europe. Under the lowest mitigation and adaptation scenario (SSP3-7.0), we estimate a net death burden due to climate change increasing by 49.9% and cumulating 2,345,410 (95% confidence interval = 327,603 to 4,775,853) climate change-related deaths between 2015 and 2099. This net effect would remain positive even under high adaptation scenarios, whereby a risk attenuation of 50%

Les températures atteignent de nouveaux sommets, mais le monde ne réduit (toujours) pas ses émissions - Résumé analytique

Un guide sur l’attribution pour les journalistes - traduction

Découvrez le rapport de la mission d'information et d'évaluation du conseil de Paris.

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Outil d'aide à la décision en efficacité énergétique des bâtiments du secteur tertiaire. Réalisé par Architecture et Climat, Faculté d'architecture, d'ingénierie architecturale, d'urbanisme (LOCI), site de Louvain-la-Neuve, Université catholique de Louvain, Belgique avec le soutien de la Wallonie.