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Rapid attribution analysis of the extraordinary heatwave on the Pacific Coast of the US and Canada June 2021.

Authors :
Philip, Sjoukje Y.
Kew, Sarah F.
Oldenborgh, Geert Jan van
Anslow, Faron S.
Seneviratne, Sonia I.
Vautard, Robert
Coumou, Dim
Ebi, Kristie L.
Arrighi, Julie
Singh, Roop
Aalst, Maarten van
Marghidan, Carolina Pereira
Wehner, Michael
Yang, Wenchang
Li, Sihan
Schumacher, Dominik L.
Hauser, Mathias
Bonnet, Rémy
Luu, Linh N.
Lehner, Flavio
Source :
Earth System Dynamics Discussions. 11/12/2021, p1-34. 34p.
Publication Year :
2021

Abstract

Towards the end of June 2021, temperature records were broken by several degrees Celsius in several cities in the Pacific northwest areas of the U.S. and Canada, leading to spikes in sudden deaths, and sharp increases in hospital visits for heat-related illnesses and emergency calls. Here we present a multi-model, multi-method attribution analysis to investigate to what extent human-induced climate change has influenced the probability and intensity of extreme heatwaves in this region. Based on observations and modeling, the occurrence of a heatwave with maximum daily temperatures (TXx) as observed in the area 45° N-52° N, 119° W-123° W, was found to be virtually impossible without human-caused climate change. The observed temperatures were so extreme that they lie far outside the range of historically observed temperatures. This makes it hard to quantify with confidence how rare the event was. In the most realistic statistical analysis, which uses the assumption that the heatwave was a very low probability event that was not caused by new nonlinearities, the event is estimated to be about a 1 in 1000 year event in today's climate. With this assumption and combining the results from the analysis of climate models and weather observations, an event, defined as daily maximum temperatures (TXx) in the heatwave region, as rare as 1 in a 1000 years would have been at least 150 times rarer without human-induced climate change. Also, this heatwave was about 2 °C hotter than a 1 in 1000-year heatwave that at the beginning of the industrial revolution would have been (when global mean temperatures were 1.2 °C cooler than today). Looking into the future, in a world with 2 °C of global warming (0.8 °C warmer than today), a 1000-year event would be another degree hotter. It would occur roughly every 5 to 10 years in such global warming conditions. Our results provide a strong warning: our rapidly warming climate is bringing us into uncharted territory with significant consequences for health, well-being, and livelihoods. Adaptation and mitigation are urgently needed to prepare societies for a very different future. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
21904995
Database :
Academic Search Index
Journal :
Earth System Dynamics Discussions
Publication Type :
Academic Journal
Accession number :
153810177
Full Text :
https://doi.org/10.5194/esd-2021-90