On August 25, 2009 at approximately 1pm, a landslide along Porcupine Bay (part of the Coulee Dam Recreational Area) failed, probably something akin to a debris avalanche. The landslide plunged into the lake, creating a seiche, approximately 5-6 feet high. The seiche struck a camp dock across the bay, damaging some boats and destroying the dock. The landslide also injured two boys, who were thrust under the dock, resulting in minor injuries.

The landslide is reported to be up to an acre in size. The material of the landslide is probably Fraser age glaciolactustrine beds (equivalent to Vashon Stade in Western Washington). It is difficult to determine a trigger mechanism at this point, but this has been a fairly dry year and the lake level might have been dropping fairly rapidly, resulting in a rapid dewatering of the material, resulting in an increase in instability. Unfortunately, such things are hard to determine in photos.

Porcupine Bay Landslide

Photo from NWCN

Porcupine Bay Landslide Photo from KREM

Porcupine Bay Landslide Photo from KREM

I haven’t been able to imbed this within the website, but here is a link to the raw video by Karen Mustard, a camper at Porcupine Bay, who caught the landslide on video:
Watch Video

This is the second landslide this year to have caused a seiche in the Lake Roosevelt area. A landslide that moved in January caused a seiche and damaged docks. No injuries were reported. Link to the January Lake Roosevelt Landslide

Media Links:
KREM
Northwest Cable News
KiroTV
Seattle Times
Spokane Spokesman
KATU (Portland)
Seattle PI Washington GeoHazards Blog

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Each week we will feature a new landslide in Washington State. Washington State is covered with dynamic and sometimes quirky landslides.

Bonneville Landslide, Skamania County

The Bonneville landslide is perhaps the second most well known landslide in Washington State, following the 1980 Debris Avalanche of Mt. St. Helens. The landslide was probably first recognized by the Klickitat Nation (also known as the Qwû’lh-hwai-pûm, or loosely translated as prairie people). The landslide is known as the Bridge of the Gods and served as a water crossing for trade routes across the Columbia River. The Bridge of the Gods has many stories of its origin, perhaps the most well known is the story by the Klickitat people.

From Wikipedia:
“Native American lore contains numerous legends to explain the eruptions of Mount St. Helens and other volcanoes in the Cascade Volcanic Arc. The most famous of these is the Bridge of the Gods legend told by the Klickitats. In their tale, the chief of all the gods, Tyhee Saghalie and his two sons, Pahto (also called Klickitat) and Wy’east, traveled down the Columbia River from the Far North in search for a suitable area to settle.

They came upon an area that is now called The Dalles and thought they had never seen a land so beautiful. The sons quarreled over the land and to solve the dispute their father shot two arrows from his mighty bow; one to the north and the other to the south. Pahto followed the arrow to the north and settled there while Wy’east did the same for the arrow to the south. Saghalie then built Tanmahawis, the Bridge of the Gods, so his family could meet periodically.

When the two sons of the Saghalie fell in love with a beautiful maiden named Loowit, she could not choose between them. The two young chiefs fought over her, burying villages and forests in the process. The area was devastated and the earth shook so violently that the huge bridge fell into the river, creating the Cascades Rapids of the Columbia River Gorge.

For punishment, Saghalie struck down each of the lovers and transformed them into great mountains where they fell. Wy’east, with his head lifted in pride, became the volcano known today as Mount Hood and Pahto, with his head bent toward his fallen love, was turned into Mount Adams. The fair Loowit became Mount St. Helens, known to the Klickitats as Louwala-Clough which means “smoking or fire mountain” in their language (the Sahaptin called the mountain Loowit).”

The story captures two important keys to the landslide. A strong shaking and burying of forests and villages. Early research into the Bonneville Landslide places the landslide movement around 1,100AD. However, a recent find of a buried douglas fir log about 150 feet deep in the landslide mass places the landslide failure somewhere between 250 and 400 years ago. This conceivably places the Bonneville Landslide at the 1700 Cascadia Earthquake. This would follow the story of the Klickitat People or great shaking and landslide movement. When the landslide moved, it completely blocked the Columbia River, creating a temporary dammed lake. The waters would have slowly cut through the material, reestablishing the channel.

Cascade Landslide Complex

The Bonneville Landslide is part of a larger complex of landslides. The ages are not well constrained and may have occurred with episodic movement through time. The two landslides that are most recent are the Bonneville Landslide (probably failed around 1700) and the Carpenters Lake Landslide (Age Unknown).

Cascade Landslide Complex

Cascade Landslide Complex

The two smaller landslides, the Greenleaf Basin and the Piper Road Landslides are more recent, smaller landslides.

Geology
The Cascade Landslide is composed mostly of debris of the Yakima Basalt, Eagle Creek Formation, and a platy olivine basalt flow (Wise, 1961). The landslide is suggested to have a depth of about 300 to 400 feet and slides on a clay layer at the base of the Eagles Creek Formation. The units are gently dipping southward, which probably adds to the instability of the area.

Current Hazards
The Cascade Landslide Complex is perhaps one of the more dangerous landslides in Washington State. The Bonneville Dam sits on the landslide debris of the Bonneville Landslide. Major pipelines, powerlines, and transportation routes cross the landslide. Future movements (potentially during a Cascadia Subduction Earthquake) would result in major disruptions in utilities and the potential for the redamming of the Columbia River. The other problem, it might not occur in the Cascade Landslide Complex at all, large landslides dot the area surrounding this area and some might have the potential to also partially or completely block the Columbia River. A damming of the Columbia River would be devastating. The waters would form into a lake, flooding low lying communities, further impacting transportation routes and utilities. The potential exists for the Columbia to then rupture the dam, creating a massive damburst flood. That flood has one major target in its way, Portland. Although this is a very extreme example (and the odds for the events to occur this way are very slim), a large debris flood through the Columbia River would cause unprecedented damage, especially for a landslide. However, chances are future landslide movements would be less extreme, although the likely major disruption of utilities and transportation would be felt throughout western Washington and Oregon.

At about 10:53am on August 6, 2009, a landslide damaged a railroad track, causing two Kettle Falls International Railway Companies engines and a box car to fall about 50 feet down a hillside. Two railroad employees suffered minor injuries.

The area where the landslide occurred had landslides previously mapped in the area. The Roosevelt Lake has a lot of unstable areas along the bluffs and surrounding areas. See map below.

Area where landslide caused a train derailment

Area where landslide caused a train derailment

I am currently trying to get in contact with Stevens County for more information, stay tuned.