Category Archives: coastal hazards

Netcasts – Pat Corcoran, Coastal Hazards Specialist

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In this episode of Netcasts, we travel to Astoria to visit Pat Corcoran, coastal hazards specialist for Oregon Sea Grant Extension.   Corcoran works with coastal community members and researchers around the world to prepare coastal residents for natural hazards, such as erosion and tsunamis.  Corcoran talks about his experiences bringing the findings of research conducted by OSU’s Peter Ruggiero to the community of Neskowin, where residents are exploring strategies to mitigate shoreline retreat.  Corcoran also shares some photographs and wisdom from his recent visit to Japan, where he was able to view the aftermath of the March 2011 tsunami.  Stay tuned to Sea Grant’s YouTube channel for more Netcasts.

 

Sea Grant teams with state agencies to prepare for Japanese quake debris

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Model of possible debris dispersal - image courtesy of NOAA

Model of possible debris dispersal (image courtesy of NOAA)

As the one-year anniversary of Japan’s devastating earthquake and tsunami nears, Oregon Sea Grant is teaming with state and local agencies, non-governmental groups and marine scientists to prepare for the possible arrival of earthquake debris on Oregon shores.

In a conference call this week, the group heard that state and county leaders, OSU Extension and the Hatfield Marine Science Center are receiving growing numbers of  questions about the debris currently floating toward US coastlines, and began charting a communication strategy to help answer those questions.

OSU oceanographer Jack Barth, an expert in ocean currents, said the debris is still months away from making West Coast landfall, although  occasional buoyant items might move more quickly.  In October, a Russian ship discovered a small Japanese fishing boat in the waters north of Hawaii, and it was definitively tied to the tsunami, Barth said. “It was about where we thought it should be, given the currents.”

Many questions about the debris have to do with concerns that it might be radioactive, given the the incidents at Japan’s Dai-ichi nuclear plant that followed the earthquake. Kathryn Higley, professor and head of the Department of Nuclear Engineering and Radiation Health Physics at OSU, said the lag time between the tsunami and the nuclear incident, coupled with the vastness of the ocean, makes it unlikely that the debris will pose any radioactive risk. The material has been tossed by wind and sea for months now, Higley said, and most traces of radioactive elements will have washed into the sea. “While we may be able to detect trace amounts of radioactive material on this debris, it’s really unlikely that there will be any substantial radiation risk,” she said.

Meanwhile, Oregon Sea Grant’s marine Extension specialists on the coast have been working with multiple public and private partners, from state and local governments to conservation and fishing industry groups, to map out a communication strategy for the debris landing.

Jamie Doyle, Sea Grant Extension specialist in in Coos and Curry counties, said one concern is what happens to personal effects that survive the ocean crossing and wind up on Oregon shores, where they may be found by beachcombers.

“A lot of people lost their lives, and many people still have family members who are missing,” Doyle said. “We need to be sensitive to the possibility of finding something that may be of personal significance to someone in Japan.”

The Seattle office of the Consulate General of Japan has asked that those who find something that could  be considered a personal keepsake or artifact report it to local authorities, or to  the consulate in Seattle at 206-682-9107.

Patrick Corcoran, Sea Grant’s Astoria-based Coastal Hazards specialist, said Oregon’s focus thus far has been on research and “building the capacity to respond” to the arrival of the debris. Specific information will be forthcoming, he said.

Learn more:

 

State rolls out new tsunami hazard maps

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Coos Bay tsunami mapThe state has issued the first of a planned series of 80 new, high-resolution maps that graphically illustrate the risks of tsunamis on the Oregon coast, this one covering Coos Bay.

The 48-by-52-inch map, published this week by the Oregon Department of Geology and Mineral Industries (DOGAMI) shows in great detail which low-lying areas around Coos Bay are greatest at risk for tsunami inundation, by either a near-shore Cascadia Subduction Zone earthquake or a more distant quake that sends waves traveling across the sea.

The agency is in the process of upgrading all its coastal tsunami maps, first produced in the early 1990s, to “incorporate all the best tsunami science that is available today,” according to a DOGAMI news release announcing the new map.

The map, in a printable, high-resolution format, is available on CD for $10.

The new, more detailed maps are based on the geologic record of previous tsunamis, as well as knowledge gained from recent earthquakes in Sumatra (2004), Chile (2010) and Japan (2011). They include projected tsunami wave height time series charts and a measurement of the exposure each community has to various tsunami scenarios, including a count of the number of buildings that would be inundated under each scenario. Evacuation routes are also shown.

DOGAMI has been working with many collaborators, including Oregon Sea Grant, to get the new maps produced and in the hands of the public, planners, emergency managers, elected officials and other local decision makers. The effort is tied to  NOAA’s National Tsunami Hazard Mitigation Program, which DOGAMI administers in Oregon.

The agency plans to release additional maps as soon as they are ready, with a goal of having new maps for the entire coast by the middle of next year. The next set, due for release in February, will cover the North Coast from Netarts to Rockaway Beach, including Tillamook.

Read more:

Sea Grant coastal erosion, climate work in Terra

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High waves on the Oregon coastIncreasing winter storms since the 1980s have been sending higher, harder waves crashing into the Oregon coast, cutting away at seacliffs, roads and infrastructure in an area never known for its seismic stability. Scientists say the increased storm activity is consistent with predictions for the sorts of hazards the world’s coastlines will face as an effect of changing climate.

In Oregon, Sea Grant is partnering with communities and researchers to better understand the growing risks of coastal erosion, and to help counties and towns come up with plans for adapting to changes happening now, and predicted for the future.

In the latest issue of Terra, Oregon State University’s research magazine, Nick Houtman focuses on coastal hazard research and public engagement, highlighting the work Oregon Sea Grant is doing with Tillamook County and the town of Neskowin, where coastal hazards specialist Pat Corcoran has been working with a local group to develop the state’s first coastal hazards action plan.

Read the full article at Terra online

PBS features OSU tsunami-proofing research

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PBS Newshour’s Science Thursday looks at research occurring in Japan and the US to try to harden coastal communities against the human loss and devastation caused by powerful tsunamis. Featured research includes work being done by Dan Cox’s team at OSU’s Hinsdale Wave Research Center on potential vertical evacuation towers:

 

(Text transcript here)

Learn more about Sea Grant-supported tsunami research and public education

Interactive tsunami inundation maps online

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NANOOs Tsunami Evacuation pageNew, interactive maps pinpointing how and where a tsunami might flood the Oregon and Washington coastlines – and the closest uphill evacuation spots – are online now at NANOOS, the Northwest Association of Networked Ocean Observing Systems.

The new Tsunami Evacuation Zone portal is a joint project of the Oregon Department of Geology and Mineral Industries, Washington Department of Natural Resources, and  the NANOOS Visualization System team.

The new maps allow users to enter an address, or click on the map, and see if their location is in a danger zone. Users can create multiple places, and if they sign up for a free myNANOOS account, save their own personalized maps for future use.

The maps show areas projected to be at risk of flooding by close and distant tsunamis, and the approximate time residents would have to evacuate those areas before the waves arrive. They also show nearby areas of high ground where residents and visitors can expect to be out of the reach of the incoming water.

All low-lying coastal areas, harbors, streams, and rivers in Oregon are vulnerable to tsunami inundation.  While the waves from distant earthquakes like the one that struck Japan in March 2011 can take several hours to arrive, a sea-floor earthquake in the seismically active Cascadia Subduction Zone, just off the coast, could generate devastating waves in a matter of minutes. Undersea landslides can also generate powerful, localized tsunamis.

Recent research suggests that powerful near-shore quakes have occurred off the Oregon coast at relatively regular intervals; scientists now put the chance of a magnitude 8-9 earthquake striking the region  at 37% within the next 50 years.

The new NANOOS site is tied to NOAA’s  West Coast and Alaska Tsunami Warning Center, and displays earthquake and tsunami alerts in real time. It also contains printable PDF versions of local tsunami evacuation brochures for specific coastal communities in Oregon and Washington. The brochures are also widely available in printed form at visitor centers, motels and other locations on the coast.

A powerful nearshore earthquake could disrupt communications, including Internet service, on the coast. The site emphasizes preparing in advance:  Developing family and workplace evacuation plans, obtaining or printing out evacuation brochures, walking local evacuation routes, and figuring out how you will reconnect with family members once the immediate danger has passed.

For more information about tsunami preparedness, visit Oregon Sea Grant’s Coastal Natural Hazards page.

 

Debris from Japanese tsunami slowly making its way toward West Coast

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Debris from Japanese tsunami floats in Pacific in mid MarchA massive trail of debris from the devastating tsunami that struck Japan on March 11 is slowly making its way across the Pacific Ocean en route to the West Coast of the United States, where scientists are predicting it will arrive in the next two to three years – right on schedule.

The mass of debris, weighing millions of tons and forming a trail a thousand miles long, will likely strike Oregon and Washington, according to models based on winds and currents.

But new accounts of where the trail has progressed suggest that at least some of that debris may peel off and enter the infamous “Garbage Patch,” a huge gyre in the Pacific where plastic and other debris has accumulated over the years, according to Jack Barth, an Oregon State University oceanographer and an expert on Pacific Ocean currents and winds.

“Recent reports of debris are from farther south than the axis of the main ocean currents sweeping across the north Pacific toward Oregon,” said Barth, a professor in OSU’s College of Oceanic and Atmospheric Sciences. “This means a fair amount of debris may enter the patch. We should still see some of the effects in Oregon and Washington, but between some of the materials sinking, and others joining the garbage patch, it might not be as bad as was originally thought.”

Read more from OSU News & Research Communications

(Photo courtesy of  US Pacific Fleet gallery on Flickr)

Sea level rise, increasing storms and the Pacific coast

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Storm waves hitting central Oregon coastNEWPORT – Oregon State University geoscientist Peter Ruggiero will speak at the Hatfield Marine Science Center tonight (Oct. 25) on “The Role of Sea Level Rise and Increasing Storminess in PNW Coastal Change and Flood Hazards.”

The talk starts at 7 pm in the Hennings Auditorium at the HMSC Visitor Center.

Ruggiero is part of a team of scientists from OSU and the Oregon Department of Geology and Mineral Industries who have been studying increased storm activity and resulting wave height off the Oregon coast, and its effects on erosion, flooding and other hazards.

This past January, the team published an assessment suggesting that maximum heights could be as much as 40 percent higher than previous record levels, especially in the stormy winter months of December and January.  The report said that the cause of these dramatically higher waves is not completely certain, but “likely due to Earth’s changing climate.”

Combined with the effects of sea level rise, higher maximum waves could have implications for erosion, flood control, property damage and development regulations up and down the Pacific Northwest coast.

Ruggiero’s team has received support for its work from Oregon Sea Grant (2008-2010) and from the NOAA Climate Program.

Outside magazine profiles Sea Grant’s Pat Corcoran

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PITY POOR CASSANDRA, blessed by Apollo with the power of prophecy, cursed with the fate of ­disbelief. She tells the people what’s coming. She suffers their laughter, absorbs their scorn. Then she watches her prediction come true. Yeah, you told us so, they’ll say as they bury the dead. Congratulations, jerk.

Patrick Corcoran feels her pain. It’s his job. Every day, he rises at dawn and goes out into the world to tell people to prepare to meet their doom. Or, rather, to prepare to escape it.

Corcoran is a professional geographer in Astoria, Oregon, a misty fishing port where the Columbia River meets the ­Pacific Ocean. He’s a high-energy guy, 50, with a little ­Billy Bob Thornton to his look. Loves his job and loves his coffee. Drives around in his ­Toyota ­Tacoma all day with an 11.5-foot-long Taka­yama paddleboard strapped to the rack. He’s a coastal natural-hazards specialist with Ore­gon Sea Grant, a marine version of an agri­cul­tural extension service affiliated with ­Oregon State University. Cor­coran prophesies earthquakes and tsunamis five days a week. …

(Read the whole article at Outside Online...)

A Tsunami on the Columbia

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What might happen if a nearshore tsunami caused by a local earthquake were to travel from the Oregon coast up the Columbia River? That was the focus of a recent research workshop funded by Oregon Sea Grant at Oregon State University (OSU), August 15-16.

“We know tsunamis can penetrate along rivers for long distances,” said OSU tsunami expert Harry Yeh, the workshop organizer. But, said Yeh, tsunami penetration up rivers has been largely unexplored until now.

“In the coastal plain they [tsunamis] can penetrate 2 to 5 kilometers [about 1 to 3 miles], but with the river they can penetrate up to 10 kilometers [about 6 miles] no problem.”

The Oregon Coast lies along the Cascadia subduction zone, a fault line that stretches from Northern California to British Columbia. The Cascadia subduction zone is similar to the subduction zone that caused Japan’s recent earthquake and tsunami. A magnitude 9.0 earthquake occurs along the Cascadia subduction zone once every 300-500 years. It had its most recent earthquake in 1700. This expected earthquake would most likely be accompanied by a tsunami, which could affect the Columbia River, said Yeh.

The 18 workshop attendees were asked by Yeh to model a section of the Columbia that stretches from Astoria, Oregon at the coast all the way to the Bonneville Dam. Yeh said the idea was to gather general data that could be used in future tsunami modeling.

“We are not trying to do detailed models of say Astoria or Longview, for instance,” said Yeh.  “Though, I think that’s next step.”

Many of Oregon’s coastal communities could one day feel the affects of a tsunami. Communities that could be flooded or inundated by tsunamis have been mapped by the Oregon Department of Geology and Mineral Industries into inundation zones. But these inundation maps don’t include the Columbia, said Yeh. Instead the maps stop at Astoria, which lies at the mouth of the Columbia. The workshop’s exploration of what might happen if a Tsunami penetrated the Columbia could change how tsunami inundation maps are made in the future, said Yeh.

“This work is very theoretical, very academic, but it has direct consequences and real applications, which is why I feel like this is important work,” said Yeh.

Events at the recent workshop included presentations by Yinglong Joseph Zhang of Oregon Health and Science University on how far a tsunami could penetrate the Columbia, as well as a presentation by David Jay of Portland State University, on the hydrodynamics of the river. Workshop discussions also included comparing different tsunami modeling techniques including those used by the National Oceanic and Atmospheric Administration (NOAA) and those used by the Japanese government.

Of particular interest to Yeh himself is a stretch of the Columbia that starts at Astoria and follows the Columbia until it turns south toward Portland at Longview, Oregon. Yeh says the bathmetry, or depth of the water in this area is very complex and includes marshes, and islands and other complex topography, which makes modeling complex. The islands, marshes, and other elements of the river’s landscape will play into what is known as the friction effect, which Yeh lead a discussion on during the workshop.

Yeh’s workshop also examined the affect the movement of the tide could have on a tsunami traveling from the Pacific Ocean to the Columbia River. Whether the tide is coming in or out could be very important, said Yeh.

Of particular interest to researchers at the workshop was whether a tsunami could reach Portland, Oregon.

“Even in the Portland area residents could feel the affects of a tsunami,” said Yeh. “Although this affect is going to be very small, it is going to be measurable.”

Yeh recently returned from Japan where he witnessed the results of the earthquake and tsunami that devastated the country, including how the recent tsunami traveled up the Kitakami River.

Yeh, who started studying tsunamis in 1985, saw the results of a tsunami first hand in 1992 after a large tsunami hit Nicaragua. His past research has included Oregon Sea Grant funded work with fellow OSU Professor Daniel Cox. In 2009, Cox created a model of the coastal Oregon city of Seaside that he, with the help of Yeh, then inundated with a simulated tsunami using the university’s O.H Hinsdale Wave Research Laboratory, a facility that contains a wave machine capable of creating scaled facsimiles of tsunamis. The model town received a scaled-down version of a tsunami that could hit Seaside if the Cascadia subduction zone experiences a 9.0 magnitude earthquake.

Yeh said the workshop went well and has resulted in a further collaboration between himself and several workshop attendees.