Bomb Cyclone and ‘Atmospheric River’ Pummel California With Rain and Wind
Much of the Bay Area was under a flash flood watch on Sunday, with the National Weather Service warning of the potential for mudslides across the region.,
California bore the brunt on Sunday of what meteorologists referred to as a “bomb cyclone” and an “atmospheric river,” a convergence of storms that brought more than half a foot of rain to parts of the Bay Area, along with high winds, concerns about flash floods and the potential for heavy snow in the Sierra Nevada.
The National Weather Service warned that the rainfall could cause mudslides, especially in areas scorched by wildfires.
From Marin County to the area just south of Big Sur along the Pacific Coast, flash flood watches were in effect until late Sunday night and, in some areas, early Monday morning, including parts of the San Francisco peninsula.
As of 10:45 a.m. local time on Sunday, at least 50,000 utility customers in the Bay Area had lost power, according to a Pacific Gas and Electric outage map. The most outages were reported in Sonoma, San Mateo and Marin Counties.
At San Francisco International Airport, 139 flights had been delayed and 52 others had been canceled as of 10:10 a.m. local time, said Cathy Morrison, an airport duty manager.
“The atmospheric river is aiming a fire hose, if you will, into our area,” Sean Miller, a meteorologist for the Weather Service in Monterey, Calif., the forecast office for the Bay Area, said on Sunday.
An atmospheric river is a concentrated plume of moisture that extends over the ocean, typically in the troposphere, the lowest layer of the atmosphere, Mr. Miller said, adding that the current trough was angled toward the North Bay.
In the Pacific Northwest, a bomb cyclone, a type of storm known for its falling atmospheric pressure, was expected to push the atmospheric river south, affecting areas south of San Francisco, Mr. Miller said.
“This is more typical of something we tend to see in December or January,” he said, pointing out that the confluence of the two meteorological phenomena was “anomalous.”