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For every 1 degree Celsius rise in temperature, the air’s capacity to hold moisture increases by 6 to 7 percent.
The hot-and-humid air, thus, makes more water available to fall as rain, making wet-hot extremes likelier, the scientists said in their study published in the journal Earth’s Future.
Events such as floods and landslides could become frequent because under wet-hot conditions, the heat waves first dry out the soil, thereby reducing its ability to absorb water.
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Wet-hot extremes will also cover a larger area and be more severe than dry-hot extremes, they projected.
While regions such as South Africa, the Amazon and parts of Europe are expected to become drier, many regions, including the eastern United States, eastern and southern Asia, Australia and central Africa, will receive more precipitation, the researchers found using climate models under current emissions scenario.
The regions likely to be hit hard by such ”compound climate extremes” include many heavily populated areas already prone to geologic hazards, such as landslides and mudflows, and which produce many of the world’s crops.
”These compound climate extremes have attracted considerable attention in recent decades due to their disproportionate pressures on the agricultural, industrial and ecosystems sectors — much more than individual extreme events alone,” said Haijiang Wu, lead researcher, Northwest A&F University, China.
The European floods of 2021 is an example of the world already experiencing wet-hot extremes.
That summer, record high temperatures dried out the soil. Soon after, heavy rainfall poured across the parched soil’s surface and triggered massive landslides and flash floods, washing away houses and claiming lives.
Climate adaptation strategies should thus account for wet-hot conditions.
”If we overlook the risk of compound wet-hot extremes and fail to take sufficient early warning, the impacts on water-food-energy security would be unimaginable,” said Wu.