Giving Compass' Take:
- Climate change is making storms much wetter and more intense while increasing the potential for flooding across California towns.
- Experts also note that climate change will bring warmer temperatures that will melt snow faster and cause strain on flood management systems. How can relief efforts help bolster flood systems?
- Learn more about California's flood insurance.
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California is no stranger to big swings between wet and dry weather. The “atmospheric river” storms that have battered the state this winter are part of a system that has long interrupted periods of drought with huge bursts of rain — indeed, they provide somewhere between 30 and 50 percent of all precipitation on the West Coast.
The parade of storms that has struck California in recent months has dropped more than 30 trillion gallons of water on the state, refilling reservoirs that had sat empty for years and burying mountain towns in snow.
But climate change is making these storms much wetter and more intense, ratcheting up the risk of potential flooding in California and other states along the West Coast. That’s not only because the air over the Pacific will hold more moisture as sea temperatures rise, leading to giant rain and snow volumes, but also because warming temperatures on land will cause more precipitation to fall as rain in the future, which will lead to more dangerous floods.
“There’s a cascading chain of impacts,” said Tom Corringham, a researcher at the Scripps Institution of Oceanography at the University of California, San Diego. “As you push the rivers harder, as you push the flood protection system harder and harder, you get sort of exponentially increasing impacts. You flood the whole floodplain, or a levee breaks, and that’s where you get the really catastrophic events.”
An “atmospheric river” is a long, narrow ribbon of moisture that carries water vapor from the tropics to land at higher latitudes. One of the most well-known examples is the “Pineapple Express,” which streams eastward from Hawaii across the Pacific Ocean and makes landfall on the West Coast. The term atmospheric river originated back in the 1990s, and caught on because of the high volume of water that these ribbons can contain: A single one can move more than twice as much water through the sky as flows out of the mouth of the Amazon, the world’s largest river by volume.
Read the full article about climate change and atmospheric rivers by Jake Bittle at Grist.