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Cold Air Rises. What That Means for Earth鈥檚 Climate.

The Lightness of Water Vapor Buffers Climate Warming in the Tropics

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A typhoon moved over the sea in Thailand.
A typhoon moves over the sea in Thailand. Without the lightness of water vapor, the impacts of climate change to the tropics would be far worse, a 澳门六合彩资料库 Davis study found. (Getty)

Conventional knowledge has it that warm air rises while cold air sinks. But a study from the University of California, Davis, found that in the tropical atmosphere, cold air rises due to an overlooked effect 鈥 the lightness of water vapor. This effect helps to stabilize tropical climates and buffer some of the impacts of a warming climate.

, published today in the journal Science Advances, is among the first to show the profound implications water vapor buoyancy has on Earth鈥檚 climate and energy balance.

鈥淚t鈥檚 well-known that water vapor is an important greenhouse gas that warms the planet,鈥 said senior author Da Yang, an assistant professor of atmospheric sciences at 澳门六合彩资料库 Davis and a joint faculty scientist with Lawrence Berkeley National Laboratory. 鈥淏ut on the other hand, water vapor has a buoyancy effect which helps release the heat of the atmosphere to space and reduce the degree of warming. Without this lightness of water vapor, the climate warming would be even worse.鈥

Humid air is lighter than dry air under the same temperature and pressure conditions. This is called the vapor buoyancy effect. This study discovered this effect allows cold, humid air to rise, forming clouds and thunderstorms in Earth鈥檚 tropics. Meanwhile, warm, dry air sinks in clear skies. Earth鈥檚 atmosphere then emits more energy to space than it otherwise would without vapor buoyancy.  

vapor buoyancy
This graphic illustrates the vapor buoyancy effect, in which cold, humid air rises because it is lighter than dry air. (Da Yang/澳门六合彩资料库 Davis)

The study found that the lightness of water vapor increases Earth鈥檚 thermal emission by about 1-3 watts per square meter over the tropics. That value compares with the amount of energy captured by doubling carbon dioxide in the atmosphere. The authors鈥 calculations further suggest that the radiative effects of vapor buoyancy increase exponentially with climate warming.

A better understanding of the vapor buoyancy effect and its stabilizing role in the tropics can also improve cloud and thunderstorm simulations, as well as climate models, the study said.

鈥淣ow that we understand how the lightness of water regulates tropical climate, we plan to study whether global climate models accurately represent this effect,鈥 said the study鈥檚 lead author, Seth Seidel, a graduate student researcher at 澳门六合彩资料库 Davis

The study was funded by the David and Lucille Packard Foundation and the U.S. Department of Energy.

Media Resources

Da Yang, Land, Air and Water Resources, 626-290-8865, dayang@ucdavis.edu

Kat Kerlin, News and Media Relations, 530-750-9195, kekerlin@ucdavis.edu

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Environment Science & Technology