The San Francisco Bay Area is getting flooded with relentless rain and strong winds, just like it did a week ago, and fears of rising water are now becoming very serious. Major news stations, weather channels, Web outlets and social media are all suddenly talking about the “atmospheric river” that is bringing deluge after deluge to California, as well as the coast of Washington. What is this thing? How rare is it? And how big of a threat could it be? Here are some answers. And see our graphics, below, taken from a brilliant and prescient feature article written by Michael Dettinger and Lynn Ingram in Scientific American in January 2013.God help the Sacramento River delta if the levees were to fail. Real-time weather data here.
Not interested? In 1861 an atmospheric river that brought storms for 43 days turned California’s Central Valley into an inland sea 300 miles long and 20 miles wide. Thousands of people died, 800,000 cattle drowned and the state went bankrupt. A similar disaster today would be much more devastating, because the region is much more populated and it is the single largest food producer in the U.S.
So maybe 1861 was an oddity. Not really. Geologic core samples show that extreme floods like the one in 1861 have happened in California about every 200 years, since the year 200 A.D. So the next disaster could be coming around the bend. The West Coast has actually been slowly constructing large, specialized, meteorological observatories that can sense atmospheric rivers as they develop, so forecasters can give early warnings.
An atmospheric river is a conveyor belt of vapor that extends thousands of miles from out at sea, carrying as much water as 15 Mississippi Rivers. It strikes as a series of storms that arrive for days or weeks on end. Each storm can dump inches of rain or feet of snow. Meteorologists sometimes call small occurrences “pineapple expresses,” because they tend to flow in a straight line from around Hawaii toward the U.S. West Coast. The graphic below explains the details.
Thursday, December 11, 2014
From Drought to Deluge
Scientific American:
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