1700 Cascadia earthquake explained

1700 Cascadia earthquake
Pre-1900:yes
Local-Time:circa 21:00 PST
Magnitude:8.7–9.2
Location:45°N -125°W
Fault:Cascadia subduction zone
Type:Megathrust
Tsunami:Yes
Casualties:Many Native Americans killed or displaced by shaking or subsequent tsunami
Anss-Url:official17000127050000000

The 1700 Cascadia earthquake occurred along the Cascadia subduction zone on January 26, 1700, with an estimated moment magnitude of 8.7–9.2. The megathrust earthquake involved the Juan de Fuca Plate from mid-Vancouver Island, south along the Pacific Northwest coast as far as northern California. The plate slipped an average of 20m (70feet) along a fault rupture about 1000sp=usNaNsp=us long.

The earthquake caused a tsunami which struck the west coast of North America and the coast of Japan.[1] Japanese tsunami records, along with reconstructions of the wave moving across the ocean, put the earthquake at about 9:00 PM Pacific Time on the evening of 26 January 1700.[2]

Evidence

The earthquake took place at about 21:00 PT on January 26, 1700 (NS). Although there are no written records for the region from the time, the timing of the earthquake has been inferred from Japanese records of a tsunami that does not correlate with any other Pacific Rim quake. The Japanese records exist primarily in the modern-day Iwate Prefecture, in communities such as Tsugaruishi, Miyako (Kuwagasaki) and Ōtsuchi.

Scientific research

The most important clue linking the tsunami in Japan and the earthquake in the Pacific Northwest comes from studies of tree rings (dendrochronology), which show that several "ghost forests" of red cedar trees in Oregon and Washington, killed by lowering of coastal forests into the tidal zone by the earthquake, have outermost growth rings that formed in 1699, the last growing season before the tsunami.[3] This includes both inland stands of trees, such as one on the Copalis River in Washington, and pockets of tree stumps that are now under the ocean surface and become exposed only at low tide.[4]

Sediment layers in these locations demonstrate a pattern consistent with seismic and tsunami events around this time.[5] Core samples from the ocean floor, as well as debris samples from some earthquake-induced landslides in the Pacific Northwest, also support this timing of the event. Archaeological research in the region has uncovered evidence of several coastal villages having been flooded and abandoned around 1700.

Cultural research

The contemporary indigenous groups of Cascadia had no known written documentation like that of the Japanese tsunami, but numerous oral traditions describing a great earthquake and inundation exist among indigenous coastal peoples from British Columbia to Northern California.[6] These do not specify a date, and not all earthquake stories in the region can be ascribed to the 1700 quake; however, virtually all of the native peoples in the region have at least one traditional story of an event of unmatched destructive power.

Some of the stories contain temporal clues—such as a time estimate in generations since the event—which suggest a date range in the late 1600s or early 1700s, or which concur with the event's timing in other ways. For instance, the Huu-ay-aht legend of a large earthquake and ocean wave devastating their settlements at Pachena Bay places the event on a winter evening shortly after the village's residents had gone to sleep (consistent with the 9pm reconstructed time). Every community on Pachena Bay was wiped out except for Masit on a mountainside 75feet above sea level.[7] The only other Panchena Bay survivor was a young woman named Anacla aq sop, who happened to be staying that day at Kiix-in, located on the less-tsunami-impacted Barkley Sound.

Kwakwaka'wakw (Kwakiutl) stories from the north end of Vancouver Island report a night-time earthquake that caused virtually all houses in their community to collapse; Cowichan stories from Vancouver Island's inner coast speak of a nighttime earthquake, causing a landslide that buried an entire village. Makah stories from Washington speak of a great night-time earthquake, of which the only survivors were those who immediately fled inland before the tsunami hit.[8] The Quileute people in Washington have a story about a flood so powerful that villagers in their canoes were swept inland all the way to Hood Canal.[9]

Ethnographic research has focused on a common regional pattern of art and mythology depicting a great battle between a thunderbird and a whale, as well as cultural signifiers such as earthquake-inspired ritual masks and dances.[10]

Future threats

The geological record reveals that great earthquakes with moment magnitude 8 or higher occur in the Cascadia subduction zone about every 500 years on average, often accompanied by tsunamis. There is evidence of at least 13 events at intervals from about 300 to 900 years with an average of 570–590 years.[11]

As seen in the 1700 quake, the 2004 Indian Ocean earthquake, and the 2011 Tōhoku earthquake and tsunami, subduction zone earthquakes can cause large tsunamis, and many coastal areas in the region have prepared tsunami evacuation plans in anticipation of a possible future Cascadia earthquake. However, the major nearby cities, notably Seattle, Portland, Vancouver, Victoria, and Tacoma might be sheltered from the full brunt of a tsunami. These cities do have many vulnerable structures, especially bridges and unreinforced brick buildings; consequently, most of the damage to the cities would probably be from the earthquake itself. One expert asserts that buildings in Seattle are inadequate even to withstand an event of the size of the magnitude 7.9 1906 San Francisco earthquake, let alone a more powerful one.[12]

Kenneth Murphy, who directs FEMA's Region X, the division responsible for Oregon, Washington, Idaho, and Alaska, stated, "Our operating assumption is that everything west of Interstate 5 will be toast."[13]

Recent findings conclude that the Cascadia subduction zone is more complex and volatile than previously believed.[14] In 2010, geologists predicted a 37% chance of a magnitude 8.2+ event within 50 years, and a 10% to 15% chance that the entire Cascadia subduction zone will rupture with a magnitude 9+ event within the same time frame.[15] [16] Geologists have also determined the Pacific Northwest is not prepared for such an earthquake. The tsunami produced could reach heights of 80feetto100feetft (toft).[17]

A 2004 study revealed the potential for relative mean sea level rise (caused by subsidence of coastal land) along the Cascadia subduction zone. It postulated that cities on the west coast of Vancouver Island, such as Tofino and Ucluelet, are at risk for a 1mto2mm (03feetto07feetm) subsidence, relative to mean sea level.[18]

The confirmation of their oral traditions about a great earthquake has led many aboriginal groups in the area to initiate projects to relocate their coastal communities to higher and safer ground in preparation for the predicted next earthquake. The Huu-ay-aht People have rebuilt their administration building on a high point in their territory; coastal residents are immediately evacuated to this building whenever a tsunami warning is issued, as an interim measure toward eventually relocating all residents to higher ground.[19] The Quileute people secured a land grant from the US government in 2012 to move their settlement inland, both as protection from a future tsunami threat and because of more frequent flooding on the Quillayute River. The Shoalwater Bay Indian Tribe also sought federal funding to move their community uphill receiving a FEMA PDM grant to build the first vertical evacuation tower on their coast, completed near the Tokeland Marina in 2022.[20] [21]

In 2023, Washington scientists reported on a detailed study of a high-pressure and high-temperature seafloor seep, likely on the plate boundary, offshore of Oregon.[22] The first seep found on the CSZ, it has been named 'Pythia's Oasis', and may play a role in the regulation of overpressures.[23]

Some other subduction zones have major earthquakes every 100 to 200 years; the longer interval here may indicate unusually large stress buildup and subsequent unusually large earthquake slip.[24]

Bridge of the Gods – Bonneville Slide

It was once conjectured that the Cascadia earthquake may also have been linked to the Bridge of the Gods – Bonneville Slide and the Tseax Cone eruption in British Columbia, Canada.[25] However, recent investigations using radiocarbon dating and dendrochronology date the Bonneville landslide around 1450.[26] [27] [28]

See also

Further reading

External links

General

Native and Japanese accounts

Current hazards

Notes and References

  1. Book: The Orphan Tsunami of 1700 – Japanese Clues to a Parent Earthquake in North America. B. F.. Atwater. Brian Atwater. S.. Musumi-Rokkaku. K.. Satake. Kenji Satake. T.. Yoshinobu. U.. Kazue. D. K.. Yamaguchi. 2005. U.S. Geological Survey Professional Paper 1707. United States Geological SurveyUniversity of Washington Press. 978-0-295-98535-0. registration.
  2. Kenji Satake . Kunihiko Shimazaki . Yoshinobu Tsuji . Kazue Ueda . 18 January 1996 . Time and size of a giant earthquake in Cascadia inferred from Japanese tsunami records of January 1700 . Nature . 379 . 6562 . 246–249 . 1996Natur.379..246S . 10.1038/379246a0 . 8305522.
  3. The Really Big One. Kathryn Schulz. Kathryn Schulz. The New Yorker. July 20, 2015.
  4. http://www.opb.org/news/series/unprepared/jan-26-1700-how-scientists-know-when-the-last-big-earthquake-happened-here/ "Jan. 26, 1700: How Scientists Know When The Last Big Earthquake Happened Here"
  5. http://www.amnh.org/explore/science-bulletins/earth/documentaries/tsunami-science-reducing-the-risk/ghosts-of-tsunamis-past "Ghosts of Tsunamis Past"
  6. Web site: Tsunamis and Earthquakes – Native American Legends of Tsunamis in Pacific NW – USGS PCMSC.
  7. http://www.ammsa.com/publications/ravens-eye/prepare-next-tsunami-says-chief "Prepare for next tsunami, says chief"
  8. http://indiancountrytodaymedianetwork.com/2014/12/16/cascadias-locked-fault-means-massive-earthquake-due-pacific-northwest-seismologists "Cascadia’s Locked Fault Means Massive Earthquake Is Due in Pacific Northwest: Seismologists"
  9. http://indiancountrytodaymedianetwork.com/2012/11/06/haida-gwaii-quake-brings-home-importance-quileute-relocation-legislation-144214 "Haida Gwaii Quake Brings Home the Importance of Quileute Relocation Legislation"
  10. https://www.theglobeandmail.com/arts/books-and-media/cascadias-fault-the-deadly-earthquake-that-will-devastate-north-america-by-jerry-thompson/article4359578/ "Get ready for the Big One"
  11. Great Cascadia earthquakes and tsunamis of the past 6700 years, Coquille River estuary, southern coastal Oregon. Robert C.. Witter. Harvey M.. Kelsey. Eileen. Hemphill-Haley. Geological Society of America Bulletin. 115. 10. 1289–1306. 2003GSAB..115.1289W . October 2003. 10.1130/b25189.1.
  12. News: Shake, Rattle, Seattle . Yanev, Peter . The New York Times . 27 March 2010 . WK11.
  13. The Really Big One. Schulz, Kathryn. The New Yorker. 20 July 2015.
  14. News: A Major Earthquake in the Pacific Northwest Looks Even Likelier . The Atlantic . August 16, 2016.
  15. Web site: Odds Are 1-In-3 That A Huge Quake Will Hit Northwest In Next 50 Years. 2010-05-24. 24 May 2010. https://web.archive.org/web/20100527090117/http://oregonstate.edu/ua/ncs/node/13426. 27 May 2010 . .
  16. Odds are about 1-in-3 that mega-earthquake will hit Pacific Northwest in next 50 years, scientists say . May 25, 2010 . . .
  17. News: Perilous Situation. 2009-05-12. https://web.archive.org/web/20090423024022/http://www.oregonlive.com/news/index.ssf/2009/04/big_earthquake_coming_sooner_t.html. 23 April 2009 . The Oregonian. 2009-04-19.
  18. Coseismic subsidence in the 1700 great Cascadia earthquake: Coastal estimates versus elastic dislocation models. Lucinda J. . Leonard . Roy D. . Hyndman . Stéphane . Mazzotti . 10.1130/B25369.1 . . 116 . 5–6 . 655–670 . 2004GSAB..116..655L . 2004.
  19. News: Monster earthquake threat looms over B.C. coastal communities . . March 8, 2012 . Margaret . Munro . January 27, 2019 . February 3, 2019 . https://web.archive.org/web/20190203170713/http://www.vancouversun.com/technology/Monster+earthquake+threat+looms+over+coastal+communities/6279087/story.html . dead .
  20. News: Coastal Washington tribe creates higher ground by building tsunami tower, first of its type here. 2023-02-10. https://web.archive.org/web/20230210052912/https://www.opb.org/article/2022/08/08/coastal-washington-shoalwater-bay-indian-tribe-earthquake-tsunami/. 10 February 2023. Oregon Public Broadcasting. 2022-08-08.
  21. News: Here's Where the U.S. Is Testing a New Response to Rising Seas. 2023-02-10. https://web.archive.org/web/20230210053619/https://www.nytimes.com/2022/11/02/climate/native-tribes-relocation-climate.html/. 10 February 2023. The New York Times. 2022-11-02.
  22. Web site: Hickey . Hannah . Warm liquid spewing from Oregon seafloor comes from Cascadia fault, could offer clues to earthquake hazards . UW News . 13 April 2023 . 10 Apr 2023.
  23. Brendan T. Philip . Fluid sources and overpressures within the central Cascadia Subduction Zone revealed by a warm, high-flux seafloor seep . Science Advances . 25 Jan 2023 . 9 . 4 . eadd6688 . 10.1126/sciadv.add6688 . 36696502 . 9876559 . 2023SciA....9D6688P .
  24. Web site: Cascadia Subduction Zone. Pacific Northwest Seismic Network.
  25. Web site: Great Cascadia Earthquake Penrose Conference . https://web.archive.org/web/20081024134333/http://earthquake.usgs.gov/regional/pacnw/paleo/greateq/20020515.php . 2008-10-24 . 2002-05-15 . Hill, Richard L. . The Oregonian.
  26. O'Connor . Jim E. . September 2004 . The Evolving Landscape of the Columbia River Gorge: Lewis and Clark and Cataclysms on the Columbia . Oregon Historical Quarterly . 105 . 3 . 390–421 . 10.1353/ohq.2004.0043 . 131976728 . 2009-09-07 . dead . https://web.archive.org/web/20090328125319/http://www.historycooperative.org/journals/ohq/105.3/oconnor.html . 2009-03-28 .
  27. Pringle . Patrick T. . 2009 . The Bonneville slide . Columbia Gorge Interpretive Center Museum Explorations . Fall-Winter 2009 . 2–3 . 2012-02-03 . https://web.archive.org/web/20180105011950/http://www.centralia.edu/academics/earthscience/pringle/pubs/pringle_2009_bonneville_landslide_explorations.pdf. 2018-01-05.
  28. Web site: 10,000 years of Cascadia earthquakes. The Oregonian. June 11, 2019.