Ishita Ranganath|Feb 6, 2023
Floods, heatwaves to rise manifold in India due to climate change: IIT Gandhinagar study
IITGN research team studied the weather from 1951 to 2020 to quantify India's risk of sequential extreme weather events like floods and heatwaves.
NEW DELHI: The frequency of extreme weather events such as floods and heatwaves is projected to rise manifold in India in the future due to climate change, according to a study by researchers at the Indian Institute of Technology, Gandhinagar.
The research team studied the period from 1951 to 2020 to quantify India's risk of sequential extremes -- heatwaves in the summer and extreme rainfall in the following summer monsoon season over the same regions. One of the examples of sequential extremes is the heatwave and flood in Pakistan this year that affected millions of people.
Similar extremes occur in India with large implications for agricultural production, public health, and infrastructure, the researchers said. The study, published in the One Earth journal on Friday, found that the risk will increase significantly under the warming climate and variability in the El Nino-Southern Oscillation (ENSO) -- a recurring climate pattern involving changes in the temperature of waters in the central and eastern tropical Pacific Ocean.
"The frequency of sequential extremes is projected to rise manifold in the future due to climate change," Vimal Mishra, Professor, Civil Engineering and Earth Sciences, IIT Gandhinagar in Gujarat, told PTI. "The fraction of the total population and urban area exposed to sequential extremes will increase rapidly if the global mean temperature rises above 1.5 degrees Celsius from the pre-industrial level," Mishra said. The researchers noted that climate mitigation and reduction in vulnerability could help in reducing the risk.
The study highlighted that mega-heatwaves occurred during the summer of 1995 and 1998, with 20 per cent and 8 per cent of the country being affected by sequential extremes. The area affected by the sequential extremes is significantly higher during the positive phase (El Nino) than the negative phase, the researchers said. Going forward, the study found that the fraction of the total population and urban area exposed to sequential extremes will increase rapidly if the global mean temperature rises above 1.5 degrees Celsius from the pre-industrial level.
The heatwave duration is projected to increase from, on average, 3 days in the current climate (1981–2010) to 11 days by the end of the 21st century (2071–2100) under lowest emission scenario, the researchers said. However, the duration of heatwaves is projected to rise to 33 days by the end of the century under the highest emission scenario, they said. The study found that the fraction of the population of India exposed to sequential extremes will rise considerably with an increase in global mean temperature above the pre-industrial level.
For instance, median population exposure increases from 27 per cent at 1.5 degrees Celsius to 36 per cent and 45 per cent at 3 and 4 degrees Celsius global warming levels, respectively, it said. The researchers noted that a considerable reduction in vulnerability by improving socioeconomic livelihood and infrastructure will be needed to maintain the same risk (at 1.5 degrees Celsius global warming level) at higher global warming levels.
"Uttar Pradesh, Bihar, Jharkhand, Chhattisgarh, and Karnataka have higher projected risk of sequential extremes than the other states," Mishra said. "The risk of sequential extremes can rise up to 10 times for a few states if global mean temperature rises by 3 degrees Celsius," he added. The researchers noted that India's large population experiences adaptation challenges due to severe heat waves in the summer and extreme rainfall during the monsoon season.
Heatwaves cause mortality and pose challenges for public health infrastructure, while prolonged extreme rainfall results in floods, which damage agriculture and infrastructure and cause human migration and loss of lives, they said. "India will need a significant reduction in vulnerability and climate change mitigation to reduce the risk of extremes," the researchers added.
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