'Trapped Wave' Caused Unexpected Dennis Surge

Now, scientists at Florida State University and the National Oceanic and Atmospheric Administration have found that the surge in Apalachee Bay was amplified by a “trapped wave” that originated off the southwest Florida coast. The discovery of this previously undocumented storm surge phenomenon has changed how NOAA’s National Hurricane Center prepares storm surge models for the Gulf of Mexico. New modeling procedures will help improve the accuracy of storm surge forecasts for the entire Gulf coast from Florida to Texas.

Scientists Steven Morey, Mark Bourassa, Dmitry Dukhovskoy and James O’Brien of FSU’s Center for Ocean Atmospheric Prediction Studies and Stephen Baig of NOAA’s Tropical Prediction Center of the National Hurricane Center drew their conclusions after conducting numerical experiments with storm surge models. Their research was published in the Oct. 4 issue of the journal Geophysical Research Letters.

Hurricane Dennis formed from a tropical depression that originated near the southern Windward Islands on July 4, 2005. It strengthened as it traveled northwest through the Caribbean Sea until it made landfall in Cuba as a Category 4 hurricane. It then traveled west of the Florida Shelf, and the storm’s maximum sustained winds weakened to 54 mph before it made landfall on the western Florida Panhandle.

“Winds from Dennis forced water against the southwestern Florida coast creating a bulge of high sea level from Naples to around Tampa,” Morey explained. “Oceanographers know that this ‘bulge’ will form a long wave that, in the Northern Hemisphere, will travel as a wave with the coast to the right. Because Dennis traveled nearly parallel to the Florida Peninsula coast at the same speed as the wave, winds from Dennis amplified the wave as it traveled to Apalachee Bay.”

The trapped wave then piled up on the shore along Apalachee Bay on top of the surge generated by the winds over the bay, according to O’Brien.

“To address these findings, we will use as necessary a larger geographical grid in our operational storm surge model in the Gulf of Mexico,” said Baig, oceanographer and storm surge leader at NOAA’s National Hurricane Center. “This will provide a more comprehensive view of a storm’s potential impact in the Gulf by better accounting for the rare trapped wave effect.”

This type of remotely trapped wave could play a role in future storms that follow a path similar to Hurricane Dennis or travel westward south of the Louisiana coastline toward Texas, the scientists said.

Funding from a NOAA Applied Research Center grant supported the research. Wind fields for the study were developed under funding by NASA and the National Science Foundation.

Citation: Morey, S. L., S. Baig, M. A. Bourassa, D. S Dukhovskoy, and J. J. O'Brien (2006), Remote forcing contribution to storm-induced sea level rise during Hurricane Dennis, Geophys. Res. Lett., 33, L19603, doi:10.1029/2006GL027021.

Source: Florida State University

New studies find global warming will have significant economic impacts on Florida coasts
Leading Florida-based scientific researchers released two new studies today, including a Florida State University report finding that climate change will cause significant impacts on Florida's coastlines and economy due to increased sea level rise. A second study by researchers at Florida Atlantic University recommends that the state of Florida adopt a series of policy programs aimed at adapting to these large coastal and other impacts as a result of climate change. Key findings of the FAU report were included just this week by Florida Gov. Charlie Crist's Climate and Energy Action Team when it adopted the "Adaptation" section of its final report.
Hurricane Ike ravages Caribbean islands as Hanna hits US
Hurricane Ike lashed the Turks and Caicos Islands early Sunday and threatened to unleash its fury on the Bahamas, Cuba and the US Gulf Coast, as Tropical Storm Hanna continued to batter the US East Coast.
New tools to forecast hurricane rainfall inland
All eyes are on where hurricanes make landfall, but the massive storms actually cause the most deaths inland, where severe flooding often surprises residents.
Looking at the Impact of Hurricane Ivan on Florida Coasts
Ivan was just one of four strong hurricanes to directly hit Florida coasts within a 1-month period in 2004. A new study has examined the poststorm impact and the short-term recovery from Ivan along a 200-km stretch of coast from Fort Walton Beach to St. George Island. The study is published in the latest issue of the Journal of Coastal Research.
Lake Okeechobee at risk in hurricanes
Scientists say New Orleans is most vulnerable to hurricane storm surge-caused loss of life and property damage of all U.S. East Coast and Gulf Coast areas.
Palm Deaths Accelerating on Florida Coast; Likely Cause Is Rising Seas
Palm trees on Florida’s west coast appear to be dying more rapidly than in previous years because of sea level rise tied to global warming.
Time to ready your boat for a storm is now, UF researcher says
Boat owners should prepare for a hurricane now, not when a storm is bearing down on them, a University of Florida Sea Grant specialist warns.
Scientists catch a hurricane transforming itself
Hurricanes can completely re-structure themselves inside, and that presents forecasters with great uncertainty when predicting their effects on the general population.

'Trapped Wave' Caused Unexpected Dennis Surge

Related stories:

News discussion: