New research has found rising sea levels and stronger storms associated with climate change will produce longer-lasting, more intense periods of flooding.
New research has found rising sea levels and stronger storms associated with climate change will produce longer-lasting, more intense periods of flooding.
Many studies predict that future sea-level rise along the U.S. Atlantic and Gulf coasts will increase flooding. Others suggest that the human-caused warming driving this rise will also boost the intensity and frequency of big coastal storms.
Up to now, though, these two hazards have been assessed mostly in isolation from each other. Now, a new study quantifies how they could interact to produce alarming spikes in the combined height and duration of flooding. It projects that coastal flooding could possibly shoot up several hundredfold by 2100, from the Northeast to Texas. The study appears this week in the journal Nature Climate Change.
“When you look at hazards separately, it’s bad enough, but when you consider the joint effects of two hazards together, you can get some surprises,” said Radley Horton, a climate scientist at Columbia University’s Earth Institute and study coauthor. “Sometimes, 1 plus 1 can equal 3.”
Over the past century, the East Coast has seen sea-level rise far above the 8-inch global average—up to a foot in much of the Mid-Atlantic and Northeast, including New York City. Global rise is being driven mainly by melting of ice and expansion of seawater as the ocean warms. In this region, sinking land and currents that chronically drive water coastward have worsened matters. Most projections call for a further 2- to 4-foot rise by 2100; some go as high as 6 feet.
At the same time, separate studies suggest that the intensity of the biggest storms generated in the North Atlantic may increase, because warmer waters contain more energy. Projections of this phenomenon are somewhat less certain, but scientists are taking them with increasing seriousness.
The new study shows how the two factors may work together. The authors analyzed 15 climate models at five locations: Atlantic City, N.J.; Charleston, S.C.; Key West, Fla.; Pensacola, Fla.; and Galveston, Tex. They not only considered both factors, but the chances that they would be correlated—in other words, the probability that they could act together in time to produce more than the sum of their parts. Five models simulated both high local sea-level rises and increases in the strongest storms.
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Flood image via Shutterstock.
