Asia heatwaves made 30 times more likely by climate change: study
NEW DELHI, India – Climate change made record-breaking deadly heatwaves in Bangladesh, India, Laos and Thailand last month at least 30 times more likely, according to a study published Wednesday.
Parts of India saw temperatures above 44 degrees Celsius (111 Fahrenheit) in mid-April, with at least 11 deaths near Mumbai attributed to heat stroke on a single day. In Bangladesh, Dhaka suffered its hottest day in almost 60 years.
The city of Tak in Thailand saw its highest-ever temperature of 45.4 Celsius, while Sainyabuli province in Laos hit 42.9 Celsius, an all-time national temperature record, the study by the World Weather Attribution group said.
Two deaths were reported in Thailand, but the real toll was likely higher as the extreme heat caused widespread hospitalizations, with the poor and vulnerable the worst affected.
The new study by international climate scientists looked at the average maximum temperature and the maximum heat index, which includes humidity.
Article continues after this advertisement“In both regions, the researchers found that climate change made the humid heatwave at least 30 times more likely, with temperatures at least 2 degrees Celsius hotter than they would have been without climate change,” WWA said in a statement.
Article continues after this advertisement“Until overall greenhouse gas emissions are halted, global temperatures will continue to increase and events like this will become more frequent and severe,” it added.
The analysis also found that such events in India and Bangladesh, previously once-a-century, can now be expected around once every five years because of human-caused climate change.
For Laos and Thailand, if global temperatures rise by two degrees Celsius — as will happen within around 30 years if emissions are not cut rapidly — such extreme events could happen every 20 years, compared to every two centuries now, the study said.
“We see again and again that climate change dramatically increases the frequency and intensity of heatwaves, one of the deadliest weather events there are,” said Friederike Otto of the Grantham Institute for Climate Change and the Environment, who was involved in the study.
“Still, heat action plans are only being introduced very slowly across the globe. They need to be an absolute priority adaptation action everywhere, but in particular in places where high humidity enhances the impacts of heatwaves,” she added.
Scientists were previously reluctant to directly link a particular event to climate change, but in recent years a new field of “attribution science”, like that done by the WWA, has emerged.
Some weather events have a more complicated relationship to global warming than others, with the relationship to heatwaves and increased rainfall relatively easy to study.
Other phenomena such as droughts, snowstorms, tropical storms and wildfires are more complicated however, according to the WWA.