Extreme weather events have been making headlines worldwide due to their increasing frequency and severity, often attributed to ongoing global-scale warming. The year 2022 was no exception, with record-breaking heatwaves and droughts of highly unusual spatial extent, duration, and intensity.
Researchers from the Institute of Atmospheric Physics (IAP) of the Chinese Academy of Sciences and the Met Office, the UK's national meteorological service, have delved into some of these events of particularly striking impacts that occurred in various parts of the world in 2022, shedding light on the causes and implications of these extreme weather phenomena.
Extreme droughts measured by surface soil moisture covered almost 50% of global land areas in 2022, marking the second most widespread year since 1980. In many places, these droughts were also accompanied by unprecedented heatwaves with hotspots in China's Yangtze River region, western Europe, the western U.S., the Horn of Africa and central South America.
By exploring the potential roles of circulation patterns, oceanic forcing (notably the "triple-dip" La Nina) and anthropogenic climate change, the study reviews potential causes of the events. With the global community increasingly concerned about the impacts of climate change, the study serves as a crucial reference for advancing our understanding, prediction, and attribution of extreme weather events, ultimately working towards a more resilient future.
Lead author Dr. ZHANG Lixia from IAP emphasized the significance of this research, "The extreme heatwaves and droughts of 2022 were unprecedented in their scale and impact. Our study seeks to unravel the complex interplay of factors that led to these events, with the ultimate goal of enhancing our ability to predict and mitigate the consequences of future extreme weather occurrences."
"What happened in 2022, and indeed, in other recent years, really does appear to be a foretaste of what is likely to become increasingly common in coming years and decades as climate change starts taking hold," said Robin Clark from Met Office, co-author of the study.
