Study: Record-shattering heatwaves caused by pace of warming
People cool off at a water fountain during a hot summer day at Gorky Park, Moscow on June 21, 2021 AFP
Current rates of warming are likely to continue for at least another 10 to 20 years no matter how quickly humanity reduces the carbon pollution, the study warns
Heatwaves that obliterate temperature records as in western Canada last month and Siberia last year are caused by the rapid pace, rather than the amount, of global warming, researchers said on Monday.
The findings, reported in Nature Climate Change, suggest that humanity is likely to see a lot more deadly scorchers in the coming decades.
“Because we are in a period of very rapid warming, we need to prepare for more heat events that shatter previous records by large margins,” head author Erich Fischer, a senior scientist at ETH Zurich and a lead author of the UN climate science assessment currently under review, told AFP.
The heatwave that ravaged British Columbia saw temperatures hit 49.6°C, more than five degrees above the hottest day recorded in Canada up to that point.
Current rates of warming — about 0.2°C per decades — are likely to continue for at least another 10 to 20 years no matter how quickly humanity reduces the carbon pollution that drives global heating, the study warns.
But efforts to curb greenhouse gases over the next decade will pay off later.
“The future probability of record-shattering extremes depends on the emissions pathway that gets us to a given level of warming,” Fischer said.
Up to now, research on how global warming will affect heatwaves has focused mostly on how much temperatures have risen compared to some reference period rather than on how quickly.
That is, of course, critically important, and the science has shown without a doubt that a warmer world will produce more and hotter heatwaves.
But not taking into account how quickly temperatures rise fails to capture a key part of the picture.
Climate on steroids
“Without climate change, one would expect record temperatures to become rarer the longer we measure,” Fischer explained.
Likewise, if average global temperatures stabilize — at, say, 1.5°C above mid-19th century levels, the aspirational target of the Paris Agreement — dramatic new records would progressively become less frequent.
Fischer compares it to track and field, where the longer a discipline exists, the harder it is top a world record. The long and high jump records, for example, have stood for decades, or are only ever surpassed by a centimetre or two.
But if athletes start taking performance-enhancing drugs, as happened in US baseball during the late 1990s, records are suddenly broken often and by a lot.
“The climate currently behaves like an athlete on steroids,” Fischer said.
At current rates of greenhouse gas emissions, the world is on track to continue warming at current rates to more than 3°C by 2100.
“This is a very important study,” commented Tim Palmer, a research professor at the University of Oxford who was not involved in the findings.
But climate models with far higher resolution — like a camera with 64 mega-pixels rather than 16 — are needed to simulate the monster heatwaves observed the world over the last 20 years.
“This new study shines a valuable spotlight on the high potential for record-shattering extremes,” including the kind of extreme rainfall that ravaged Germany and China earlier this month, noted Rowan Sutton, a professor at the University of Reading’s National Centre for Atmospheric Science, in Britain.
“Whilst it may not seem rapid to us, Earth is warming at a rate that is unprecedented in the history of human civilization.”