Ä¢¹½´«Ã½

In this study two heat stress indices (HI and UTCI) were applied to to assess the robust changes in heat stress over Africa during the late 21st century under the SSP1-2.6, SSP2-4.5 and SSP5-8.5 forcing scenarios. The analysis includes spatial extent, frequency and population exposure of different risk levels (Safe, Caution, Extreme Caution and Danger) gradually rising as the value of the heat index increases. The projections show a recession of Safe areas and a robust expansion of the Caution and Extreme caution classes, irrespective of the seasons and scenarios.

The largest change of fractional areal cover, estimated between 23.9% and 30.7% of Africa land areas, occurs for the Extreme caution category over West Africa, East Africa, Central Africa and part of East southern Africa in JJA under the SSP5-8.5 scenario. Furthermore, regions north of 5°S are projected to face an average annual increase of the number of days with high-end heat stress conditions intensifying as greenhouse gas forcing increases. Under the SSP5-8.5, the change in the number of days with Extreme caution ranges between 60% and 80%, while that of days in the Danger category reaches 10%–20%. As a result, the total population exposure to the Extreme caution category is projected to increase over West Africa, East Africa, and Central Africa under both SSP2-4.5 and SSP5-8.5 scenarios, while for the Danger class, the exposure increase is limited to the Sahel regions under SSP5-8.5. These exposures are due to the intensification of heat stress but also to its interaction with an increased population. Our results thus highlight the need of adaptation measures to extreme heat in Africa in order to ensure healthy population and safe and efficient working conditions.