News Release

Tsunami evacuation buildings: another way to save lives in the Pacific Northwest

Peer-Reviewed Publication

Geological Society of America

Schematic TEB

image: This is a schematic design of a proposed Tsunami Evacuation Building (TEB). view more 

Credit: Photo courtesy of Yumei Wang, Oregon Department of Geology and Mineral Industries

Boulder, CO, USA – Some time soon, a powerful earthquake will trigger a massive tsunami that will flood the Pacific Northwest, destroying homes and threatening the lives of tens of thousands of people, says Yumei Wang, a geotechnical engineer at the Oregon Department of Geology and Mineral Industries in Portland.

The region's geology makes an earthquake-triggered tsunami inevitable and imminent in geologic time, Wang says, yet coastal towns and cities in the northwest are woefully unprepared for such a large-scale natural disaster. In response, she is working with public officials and stakeholders to develop a series of tsunami evacuation buildings up and down the northwest coast. They would be the first buildings of their kind in the United States. And construction, she urges, can't start soon enough.

"Unless we do this, we will have lots of people dying in a tsunami," Wang says. "That's not how we want our people to die."

Wang will present recommendations in a session titled, Risks and Realities: Current Advances in Understanding Societal Risk and Resilience to Natural Hazards, at this month's Annual Meeting of the Geological Society of America in Portland, Oregon.

A line of volcanoes from northern California to British Columbia marks the eastern edge of a fault system (called the Cascadia subduction zone), where one plate is wedged under another. Those plates shift like geological clockwork every few hundred years, producing earthquakes that shake the region. The last major quake along the Cascadia subduction zone occurred on January 26, 1700. It produced a tsunami that damaged coastal towns as far away as Japan.

The region's next big earthquake could happen any day now, Wang says, or it might not happen for several hundred years. When the day comes, a tsunami—with inundation heights of 50 feet or more—could hit the northwest coast within 10 to 20 minutes.

The standard emergency response in cases like these is to move people inland and uphill, but there are plenty of communities where people simply won't be able to evacuate in time, Wang says. The resort town of Seaside, Ore., for example, is low-lying with inadequate roads and bridges. Kids and the elderly are particularly vulnerable.

In Cannon Beach, Ore., Wang has started meeting with officials to hold serious discussions on constructing the first tsunami evacuation building in the U.S. The building, a proposed rebuilding of the town's existing city hall, would have to be made of reinforced concrete with a deep foundation and strong columns, a post-tensioning structural system to keep it upright, an 18-foot tall first floor, and wave-dissipation structures in front and back, among many other design details.

Tsunami evacuation buildings won't be cheap. Wang estimates that the one in Cannon Beach would have an added cost of between $1 million and $2 million. But the building would provide a safe space that people could reach quickly and be ready for emergency response and long term recovery. Getting just one such building off the ground, Wang said, is a critical first step towards creating a network of buildings that will help save many thousands of lives.

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**WHEN & WHERE**

Tsunami evacuation buildings as a risk management solution
Tuesday, 20 October 2009, 10:15-10:30 a.m.
Oregon Convention Center, D135/136

View abstract at http://gsa.confex.com/gsa/2009AM/finalprogram/abstract_158149.htm

**CONTACT INFORMATION**

For on-site assistance during the 2009 Annual Meeting, 18-21 October, contact Christa Stratton in the Newsroom (7:30 a.m.-6:00 p.m. PDT), Oregon Convention Center, Room D133, +1-503-963-5708.

**IMAGES AVAILABLE**

Link to white paper supplement with images at http://www.geosociety.org/news/pr/0910_CBTEB.pdf


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