News Release

'100-year' floods will happen every 1 to 30 years, according to new flood maps

Peer-Reviewed Publication

Princeton University, Engineering School

County-By-County Analysis of Flood Risk

image: Researchers at Princeton University calculated flood risks for 171 counties across four regions: New England (green), mid-Atlantic (orange), southeast Atlantic (blue), and Gulf of Mexico (red). They found that what used to be considered 100-year floods will occur far more often depending on the location. view more 

Credit: Reza Marsooli et al

A 100-year flood is supposed to be just that: a flood that occurs once every 100 years, or a flood that has a one-percent chance of happening every year.

But Princeton researchers have developed new maps that predict coastal flooding for every county on the Eastern and Gulf Coasts and find 100-year floods could become annual occurrences in New England; and happen every one to 30 years along the southeast Atlantic and Gulf of Mexico shorelines.

"The historical 100-year floods may change to one-year floods in Northern coastal towns in the U.S.," said Ning Lin, associate professor of civil and environmental engineering at Princeton University.

In a new paper published in the journal Nature Communications, researchers combined storm surge, sea level rise, and the predicted increased occurrence and strength in tropical storms and hurricanes to create a map of flood hazard possibility along the U.S. East Coast and Gulf of Mexico. Coastlines at northern latitudes, like those in New England, will face higher flood levels primarily because of sea level rise. Those in more southern latitudes, especially along the Gulf of Mexico, will face higher flood levels because of both sea level rise and increasing storms into the late 21st century.

"For the Gulf of Mexico, we found the effect of storm change is compatible with or more significant than the effect of sea level rise for 40% of counties. So, if we neglect the effects of storm climatology change, we would significantly underestimate the impact of climate change for these regions," said Lin.

The study's predictions are different than what else is currently available, said Reza Marsooli, assistant professor at the Stevens Institute of Technology, who worked on this study while a research scholar at Princeton, because they combine multiple variables that are typically addressed separately. For example the new maps use the latest climate science to look at how tropical storms will change in the future instead of what they are right now, or even looking backwards at previous storms, as federal disaster officials do to build their flood maps. These data, in turn, are integrated with sea level analysis.

The researchers hope that creating more accurate maps - especially those that are customized according to local conditions down to the county level - will help coastal municipalities prepare to face the effects of climate change head on.

"Policy makers can compare the spatial risk change, identify hotspots, and prioritize the resource allocation for risk reduction," said Lin. "Coastal counties can use the county-specific estimates in their decision making: Is their risk going to significantly change? Should they apply more specific, higher-resolution data to quantify the risk? Should they apply coastal flood defenses or other planning strategies or policy for reducing the future risk?"

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Kerry Emanuel, professor of earth, atmospheric and planetary science at the Massachusetts Institute of Technology; and Kairui Feng, doctoral candidate in civil and environmental engineering at Princeton University, are also authors on the paper.

This research was funded by National Science Foundation and the Princeton Environmental Institute at Princeton University.


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