'Worse Than Anything Seen in 2,000 Years' as Megadrought Threatens Western States

A new study warns that the chances of western states in the U.S. experiencing a multi-decade ‘megadrought’—not seen in historical climate records in over 2,000 years—has a much higher chance of occurring in the decades ahead than previously realized. In fact, scientists are warning, the drought now being experienced in California and elsewhere could be just the beginning of an unprecedented water crisis across the west and southwest regions of the country.

“As we add greenhouse gases into the atmosphere – and we haven’t put the brakes on stopping this – we are weighting the dice for megadrought… This will be worse than anything seen during the last 2,000 years.” —Toby Ault, Cornell University

The research—a project between scientists at Cornell University, the University of Arizona, and the U.S. Geological Survey—shows that chances for a decade-long drought this century is now at fifty-fifty, and that a drought lasting as long as 35 years—defined as a “megadrought”—has a twenty- to fifty-percent chance of occurring.

“For the southwestern U.S., I’m not optimistic about avoiding real megadroughts,” Toby Ault, Cornell assistant professor of earth and atmospheric sciences and lead author of the paper, told the Cornell Chronicle. “As we add greenhouse gases into the atmosphere – and we haven’t put the brakes on stopping this – we are weighting the dice for megadrought.”

And if such a megadrought does occur, warned Ault, “This will be worse than anything seen during the last 2,000 years.”

And as USA Today notes, “The difference now, of course, is the Western USA is home to more than 70 million people who weren’t here for previous megadroughts. The implications are far more daunting.”

The study—entitled Assessing the Risk of Persistent Drought Using Climate Model Simulations and Paleoclimate Data—used both “climate model projections as well as observational (paleoclimate) information” as it looked back over the historic records of drought in the region while also looking forward by using advanced predictive techniques used to measure the possible impacts of current and future global warming.

According to the study’s abstract, its findings “are important to consider as adaptation and mitigation strategies are developed to cope with regional impacts of climate change, where population growth is high and multidecadal megadrought—worse than anything seen during the last 2000 years—would pose unprecedented challenges to water resources in the region.”

“The picture is not pretty,” said Julia Cole, a professor of geosciences and atmospheric sciences at the University of Arizona and co-author of the study. “We hope this opens up new discussions about how to best use and conserve the precious water that we have.”