ARLINGTON, Va. — The U.S. Midwest region and surrounding states have endured increasingly more frequent floods during the last half-century, according to results of a new study.
The researchers, affiliated with the University of Iowa (UI) and funded by the National Science Foundation (NSF), based their findings on daily records collected by the U.S. Geological Survey at 774 stream gauges in 14 states from 1962-2011, a data collection period in common for all the stations.
They found that 264, or 34 percent, of the stations had an increase in frequency in the number of flood events, while only 66 stations, 9 percent, showed a decrease.
“We have been experiencing a larger number of big floods,” says Gabriele Villarini, UI civil and environmental engineer and corresponding author of a paper reporting the results published in the journal Nature Climate Change.
The findings likely come as no surprise to millions of people in the Midwest and bordering states. During the past several decades, large floods have plagued the region in 1993, 2008, 2011, 2013 and again in 2014.
“Floods have the potential to take an immense toll on society in economic damages and other long-term effects,” saidAnjuli Bamzai, program director in NSF’s Division of Atmospheric and Geospace Sciences, which funded the research. “This study looks at how such events may have changed over recent decades across the central U.S.”
The floods caused agricultural and other economic losses in the billions of dollars, displaced people and led to loss of life.
“There is a pattern with increasing frequency of flood events from North Dakota south to Iowa and Missouri and east into Illinois, Indiana and Ohio,” said Iman Mallakpour, UI civil and environmental engineer and lead author of the paper. “We related this increasing number of big floods to changes in rainfall and temperature,” adds Villarini.
Seasonal analysis revealed that most of the flood peaks in the upper Midwest occur in the spring and stem primarily from snowmelt, rain falling on frozen ground, and rain-on-snow events.
Spring—a season with heavy rains—also has the strongest increase in temperature over most of the northern part of the region studied. The findings fit well with current thinking among scientists about how the hydrologic cycle is being affected by climate change. In general, as the atmosphere becomes warmer, it can hold more moisture. One consequence of higher water vapor concentrations is more frequent, intense precipitation.
Villarini said the current study did not attempt to link the increase in the number of episodes with climate change.
“What causes the observed changes in precipitation and temperature is not something we have addressed because of the difficulties in doing so based on observational records,” he said. The study region included Iowa, Illinois, Indiana, Wisconsin, Ohio, Michigan, Minnesota, Kansas, Nebraska, Missouri, West Virginia, Kentucky, North Dakota and South Dakota.
The method used involved establishing a threshold level of two flood events per year, on average, for each of the 774 stream gauges in the study. To avoid counting the same event twice, the researchers allowed for the recording of only one event within a 15-day period.
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