CARSON CITY, Nev. — There’s a chance water levels in the two largest man-made reservoirs in the United States could dip to critically low levels by 2025, jeopardizing the steady flow of Colorado River water that more than 40 million people rely on in the American West.
After a relatively dry summer, the U.S. Bureau of Reclamation released models on Tuesday suggesting looming shortages in Lake Powell and Lake Mead are more likely than previously projected.
Compared with an average year, only 55% of Colorado River water is flowing from the Rockies to Lake Powell on the Utah-Arizona line. Due to the below-average runoff, government scientists say the reservoirs are 12% more likely to fall to critically low levels by 2025 than they projected in the spring.
“This is a pretty significant increase over what was projected in April due to the declining runoff this year,” hydrologist Carly Jerla said.
The forecast could complicate already-fraught negotiations between Arizona, California, Colorado, New Mexico, Nevada, Utah, Wyoming and Mexico over future shares of the river that supplies their cities and farms. Those talks will draw up new agreements by 2026 over use of the river that’s under siege from climate change and prolonged drought.
Some urban and agricultural water users have been forced to conserve water to secure the river longterm, but it remains overtapped. And as cities like Phoenix and Las Vegas keep growing, the region is only getting thirstier.
“We know that warmer temperatures have contributed to the drought of the last 21 years, and we know that they have exacerbated it,” Bureau of Reclamation Commissioner Brenda Burman said.
Unlike the 24-month projections that the agency uses to allocate water to the seven states and Mexico, the models released Tuesday simulate various weather and usage patterns to help water users prepare for different scenarios.
Scientists use what’s called the Colorado River Simulation System to project future levels of the two reservoirs. They employed “stress testing” techniques based on river flows since 1988 to determine potential shortages if drought conditions persist.