Abstract
Heatwaves with severe impacts have increased and projected to become more frequent under warming climate in India. Concurrent day and nighttime heatwaves can exacerbate human discomfort causing high morbidity and mortality; however, their changes in the observed and projected climate remain unrecognized. Here using observations and model simulations from climate of 20th century plus (C20C+) detection and attribution (D&A) and coupled model intercomparison project 5 (CMIP5) projects, we show that 1 and 3-day concurrent hot day and hot night (CHDHN) events have significantly increased during the observed climate in India. Our results show that the anthropogenic emissions contribute considerably to the increase of 1 and 3-day CHDHN events in India. The frequency of 3-day CHDHN events is projected to increase 12-fold of the current level by the end of 21st century and 4-fold by the mid 21st century under the high emission pathway of RCP 8.5. The increase in 3-day CHDHN events can be limited to only 2-fold by the end of 21st century under low emission scenario of RCP 2.6. One and 3-day CHDHN events are projected to increase by 4, 6, and 8 folds of the current level in India under the 1.5, 2, and 3 °C warming worlds, respectively. Restricting global mean temperature below 1.5° from the pre-industrial level can substantially reduce the risk of 1 and 3-day CHDHN events and associated implications in India.
Highlights
An increase in the frequency and intensity of severe heat events due to anthropogenic emissions has been observed across the globe[1,2,3,4,5]
We report the changes in the frequency of concurrent hot day and hot night (CHDHN) events in the future climate scenario using data from global climate models (GCMs) that participated in the Coupled Model Intercomparison Project Phase 5 (CMIP5)
North-eastern, and southern part of India have experienced an increase of about three events (3-day CHDHN) per year in the post-1984 period
Summary
An increase in the frequency and intensity of severe heat events due to anthropogenic emissions has been observed across the globe[1,2,3,4,5]. Exposure to the severe heatwaves[5], heat stress[6,7], and heat-related mortality[8] in India are projected to increase significantly in the future. Indicators to quantify the risks of heatwave vary and most of them are based on daily maximum temperature[9,10,12] Health risks due to daytime heatwave can substantially increase if human body does not get a break from the heat during night[13]. We provide a first-ever assessment based on concurrent hot day and hot night (CHDHN) events over India for the observed (1951–2016) and projected future climate. We report the changes in CHDHN events in India under the 1.5 °C, 2 °C, and 3 °C warming worlds
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