Meanwhile, the number of days each year on which the atmospheric rivers bring “extreme” amounts of rain and snow to the region could increase by more than a quarter.

The results of the study were “consistent” with findings from earlier modeling-based studies, said Scripps Institution of Oceanography researcher Marty Ralph, who wasn’t involved with it. He said the study went further than others in demonstrating that the projections were likely to play out in the real world, rather than being the result of any modeling errors.

“In California, the majority of the variation from one year to the next in total precipitation is the result of just the few wettest days each year,” said Ralph, who is based in California. “The drought we’re in is a result of the absence of the atmospheric rivers.”

Although storms caused by atmospheric rivers are needed to quench landscapes and fill reservoirs, they can also deliver deadly hazards.

Momentous floods of the early 1860s, which affected several Western states, evacuating Californian lawmakers from Sacramento after the Central Valley filled like a tub, were linked to a series of atmospheric rivers. Scientists warn such floods could again beset the region under a winter storm scenario they call ARkStorm.

“What we noticed is that the entire West Coast of North America will experience increased atmospheric river frequency,” said Samson Hagos, a Pacific Northwest National Laboratory earth system scientist who led the new study.

That’s largely because a warmer atmosphere can hold more moisture. Which would mean worse floods, more often.

“The strongest atmospheric river events along the West Coast during the 20th century are strongly linked to flood events of historical significance,” said Daniel Swain, a PhD candidate at Stanford who researches extreme weather.

“A reasonable inference to draw from these studies is that the risk of severe flood events along the West Coast will likely increase,” Swain said.

The findings may also have implications for projecting tempestuous conditions in other regions as well.

“This paper provides a nice framework for exploring storm variability in other regions of the world,” said Sarah Kapnick, a National Oceanic and Atmospheric Administration climate change scientist.

But it’s harder to say what such findings might mean for the frequency or severity of droughts.

Recent research has suggested that higher temperatures linked to global warming exacerbated the intensity of California’s ongoing drought, by drying out the state. It’s far less clear what effect climate change had on the likelihood that such a drought would occur.

“The role of anthropogenic influences on the lack of precipitation is still an open question,” said Kevin Anchukaitis, a paleoclimatologist and earth systems geographer at the University of Arizona. “Different research groups have come to different conclusions.”

Rising temperatures are expected to accelerate evaporation and lead to drier conditions across the West — producing what scientists call hot droughts.

Anchukaitis said atmospheric rivers don’t necessarily affect the conditions that produce hot droughts.

But the “severity and duration” of droughts, Anchukaitis said, “will depend on a complex interplay between temperature increases, uncertain long-term precipitation trends and the punctuated role of drought-busting atmospheric rivers.”