News Release

Climate change lowers precipitation, leads to ‘inevitable drought’ in Southwest

Peer-Reviewed Publication

Cornell University

CORNELL UNIVERSITY MEDIA RELATIONS OFFICE

FOR RELEASE: July 9, 2025

 

Kaitlyn Serrao

607-882-1140

kms465@cornell.edu

Climate change lowers precipitation, leads to ‘inevitable drought’ in Southwest

ITHACA, N.Y. – A new Cornell University study, published July 9 in Nature Geoscience, shows that climate change and aerosols have led to lower precipitation in the Southwest and made drought inevitable. The research is the first to isolate the variables of human-caused climate change and air pollution to show how they directly affect the region’s precipitation; the study predicts that drought conditions will likely continue as the planet warms.

“What we find is that precipitation is more directly influenced by climate change than we previously thought, and precipitation is pretty sensitive to these external influences that are caused by humans,” said Flavio Lehner, senior author and assistant professor of earth and atmospheric sciences. 

A trend towards lower precipitation in the Southwest started around 1980, with the onset largely attributed to La Niña-like conditions, a climate phenomenon that results in cooler surface temperatures in the tropical Pacific Ocean. The new research shows that even if El Niño-like conditions had prevailed instead, the Southwest would not have experienced a corresponding increase in precipitation.

“In our models, if we see a warming trend in the tropical Pacific, we would expect more precipitation in the Southwestern United States, but that’s not the case here,” said first-author and doctoral student Yan-Ning Kuo. “On top of the El Niño and La Niña sea surface temperature trends, there’s a uniform warming trend because of historical climate change, as well as emissions from anthropogenic aerosols, that both create a certain circulation pattern over the North Pacific. Those two factors prevent the precipitation for the Southwestern U.S. from increasing, even under El Niño-like trends.”

Lehner said the results point to a bigger shift in the connection between the weather in the tropical Pacific and in the U.S., due to climate change and aerosols.

“What we call a teleconnection from that region to the Southwestern U.S. is changing systematically,” he said, “and these external influences really modulate that relationship, so it doesn’t behave exactly how we expect it to behave.”

There is some good news. Researchers expect that the concentration of aerosols – which includes the emissions from vehicles and industry – will drop as China and other countries in East Asia implement policies to improve air quality. But Lehner said warming temperatures may offset those improvements.

“Most experts expect the world as a whole to reduce air pollution, and globally, it’s already going down quite quickly. That’s good news on the precipitation side,” Lehner said. “At the same time, the warming is going to continue as far as we can tell, and that will gradually outweigh those benefits, as a warmer atmosphere tends to be thirstier, gradually drying out the Southwest.”

The study was supported by NOAA, the U.S. Department of Energy, the National Science Foundation and the Australian Research Council Centre of Excellence for Climate Extremes.

For additional information, read this Cornell Chronicle story.

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