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Expect More Floods as Global Water Cycle Speeds Up

There is nearly 20 percent more freshwater flowing into the world’s oceans than there was 10 years ago–a sign of climate change and a harbinger of more flooding.

A new indicator has joined the century-long rise in temperature to signal that the planet’s climate is changing: the global water cycle is speeding up. Using satellite observations, NASA and university researchers have found that rivers and melting ice sheets delivered 18 percent more water to the oceans in 2006 than in 1994.

The findings, which appear in this week’s Proceedings of the National Academy of Sciences, suggest that the volume of water running off the land toward the sea is expanding by the equivalent of roughly one Mississippi River each year.

Sukkur Flooding
Image of flooding in Sukkur, Pakistan, on August 18, 2010 by NASA (See more pictures of the Pakistan flood)

On the face of it that might sound like a good thing–more water in rivers means more water to tap for agriculture, industry, and growing cities. But most of the increase is occurring in places where extra water isn’t needed, like the wet tropics or the remote Arctic, or is being delivered through torrential storms that overwhelm human infrastructure and coping capacities. Though no single weather episode can be pinned to climate change, the massive rains that recently flooded a fifth of Pakistan is the kind of event scientists expect to see more of–and that nations should prepare for.

Why is the water cycle speeding up? As the atmosphere warms from the addition of carbon dioxide and other greenhouse gases, it can hold more moisture. As a result, more water evaporates from the oceans, leading to thicker clouds that then dump more rainfall over the land. That heavier-than-normal rain can then produce massive flooding as it runs back toward the sea, where the cycle begins all over again.

Scientists have expected global warming to speed up the water cycle in this way, but the use of satellite data allowed the trend to be observed and measured for the first time. The research team, led by Jay Famiglietti of the University of California at Irvine, used satellite records of sea level rise, precipitation, and evaporation to compile a unique 13-year record, the first of its kind.

As the scientific evidence mounts that more severe floods and droughts are on the horizon, getting on with ways of adapting to climatic change becomes just as urgent as slowing the pace of that change.

Keywords: Flooding, water cycle, Freshwater Initiative, National Geographic, global warming

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Below photo Photo by Van Royko
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Sandra Postel

Contributing Magazine Author
National Geographic Freshwater Fellow
Director, Global Water Policy Project

Sandra Postel is National Geographic's freshwater fellow. The National Geographic Society’s freshwater initiative is a multi-year global effort to inspire and empower individuals and communities to conserve freshwater and the extraordinary diversity of li

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