Earth:Juan de Fuca Plate

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Short description: Small tectonic plate in the eastern North Pacific


Juan de Fuca Plate
The Juan de Fuca Plate
TypeMicro
Approximate area250,000 km2 (96,000 sq mi)[1]
Movement1North-east
Speed126 mm/year (1.0 in/year)
FeaturesPacific Ocean
1Relative to the African Plate
Cutaway of the Juan de Fuca Plate
Image source: USGS

The Juan de Fuca Plate is a small tectonic plate (microplate) generated from the Juan de Fuca Ridge that is subducting beneath the northerly portion of the western side of the North American Plate at the Cascadia subduction zone.[2] It is named after the explorer of the same name. One of the smallest of Earth's tectonic plates, the Juan de Fuca Plate is a remnant part of the once-vast Farallon Plate, which is now largely subducted underneath the North American Plate.

In plate tectonic reconstructions, the Juan de Fuca Plate is referred to as the Vancouver Plate between the break-up of the Farallon Plate c. 55–52 Ma and the activation of the San Andreas Fault c. 30 Ma.[3]

Origins

The Juan de Fuca Plate system has its origins with Panthalassa's oceanic basin and crust. This oceanic crust has primarily been subducted under the North American Plate, and the Eurasian Plate. Panthalassa's oceanic plate remnants are understood to be the Juan de Fuca, Gorda, Cocos and the Nazca plates, all four of which were part of the Farallon Plate.

Extent

A map of the Juan de Fuca Plate with noted seismic incidents, including the 2001 Nisqually earthquake

The Juan de Fuca Plate is bounded on the south by the Blanco Fracture Zone (running northwest off the coast of Oregon), on the north by the Nootka Fault (running southwest off Nootka Island, near Vancouver Island, British Columbia) and along the west by the Pacific Plate (which covers most of the Pacific Ocean and is the largest of Earth's tectonic plates). The Juan de Fuca Plate itself has since fractured into three pieces, and the name is applied to the entire plate in some references, but in others only to the central portion. The three fragments are differentiated as such: the piece to the south is known as the Gorda Plate and the piece to the north is known as the Explorer Plate. The separate pieces are demarcated by the large offsets of the undersea spreading zone.

Volcanism

This subducting plate system has formed the Cascade Range, the Cascade Volcanic Arc, and the Pacific Ranges, along the west coast of North America from southern British Columbia to northern California . These in turn are part of the Pacific Ring of Fire, a much larger-scale volcanic feature that extends around much of the rim of the Pacific Ocean.

Earthquakes

The last megathrust earthquake at the Cascadia subduction zone was the 1700 Cascadia earthquake, estimated to have a moment magnitude of 8.7 to 9.2. Based on carbon dating of local tsunami deposits, it is inferred to have occurred around 1700.[4] Evidence of this earthquake is also seen in the ghost forest along the bank of the Copalis River in Washington. The rings of the dead trees indicate that they died around 1700, and it is believed that they were killed when the earthquake occurred and sank the ground beneath them causing the trees to be flooded by saltwater.[5] Japanese records indicate that a tsunami occurred in Japan on 26 January 1700, which was likely caused by this earthquake.[6]

In 2008, small earthquakes were observed within the Juan de Fuca Plate. The unusual quakes were described as "more than 600 quakes over the past 10 days in a basin 150 miles [240 km] southwest of Newport". The quakes were unlike most quakes in that they did not follow the pattern of a large quake, followed by smaller aftershocks; rather, they were simply a continual deluge of small quakes. Furthermore, they did not occur on the tectonic plate boundary, but rather in the middle of the plate. The subterranean quakes were detected on hydrophones, and scientists described the sounds as similar to thunder, and unlike anything previously recorded.[7]

Carbon sequestration potential

The basaltic formations of the Juan de Fuca Plate could potentially be suitable for long-term CO2 sequestration as part of a carbon capture and storage (CCS) system. Injection of CO2 would lead to the formation of stable carbonates. It is estimated that 100 years of US carbon emissions (at current rate) could be stored securely, without risk of leakage back into the atmosphere.[8][9]

Tearing

In 2019, scientists from the University of California, Berkeley, published a study in Geophysical Research Letters in which they reported that by utilizing data from over 30,000 seismic waves and 217 earthquakes to create a three-dimensional map, they had revealed the existence of a hole in the subducted part of the Juan de Fuca Plate, and speculated that the hole is an indication of a 150 kilometres (93 mi) deep tear in the plate along a "preexisting zone of weakness". According to William B. Hawley and Richard M. Allen, the authors of the study, the hole may be the cause of volcanism and earthquakes on the plate, and is causing deformation of the offshore part of the plate. The deformation may cause the plate to fragment, with the remaining un-subducted small pieces becoming attached to other plates nearby.[10][11]

Lithosphere–asthenosphere boundary beneath Juan de Fuca

In 2016, a geophysical study was published on the possible presence of a layer of buoyant material between the Earth's lithosphere and the asthenosphere under the Juan de Fuca Plate. The study extends the theory of partial melt in the lithosphere-asthenosphere boundary to subduction zones, specifically in the convergent margins.[12]

Using teleseismic body-wave tomography, a low-velocity zone of thickness 50~100 km in the sublithospheric region beneath the Juan de Fuca plate was detected. The observation, along with fluid-mechanical calculations that factor in Couette and Poiseuille flows, support the hypothesis of the accumulation of a buoyant material, characterized by low viscosity. The exact source of this anomaly remains unknown, although its highly-conductive nature and low-seismic wave velocity are well observed.[13]

See also

References

  1. "Sizes of Tectonic or Lithospheric Plates". Geology.about.com. 5 March 2014. http://geology.about.com/library/bl/blplate_size_table.htm. 
  2. How Many Tectonic Plates Are There?
  3. Seton, M.; Müller, R.D.; Zahirovic, S.; Gaina, C.; Torsvik, T.; Shephard, G.; Talsma, A.; Gurnis, M. et al. (2012). "Global continental and ocean basin reconstructions since 200Ma". Earth-Science Reviews 113 (3): 212–270. doi:10.1016/j.earscirev.2012.03.002. Bibcode2012ESRv..113..212S. https://www.researchgate.net/publication/235762480. Retrieved 23 October 2016. 
  4. Wong, Florence L.. "Seaside, Oregon, Tsunami Pilot Study GIS, USGS Data Series 236, home page". https://pubs.usgs.gov/ds/2006/236/. 
  5. Schulz, Kathryn (June 20, 2015). "The Earthquake That Will Devastate the Pacific Northwest". The New Yorker. http://www.newyorker.com/magazine/2015/07/20/the-really-big-one. 
  6. Satake, Kenji; Wang, Kelin; Atwater, Brian F. (1 November 2003). "Fault slip and seismic moment of the 1700 Cascadia earthquake inferred from Japanese tsunami descriptions". Journal of Geophysical Research: Solid Earth 108 (B11): 2535. doi:10.1029/2003JB002521. ISSN 2156-2202. Bibcode2003JGRB..108.2535S. 
  7. "Unusual Earthquake Swarm Off Oregon Coast Puzzles Scientists". Science News. ScienceDaily. 2008-04-14. https://www.sciencedaily.com/releases/2008/04/080413184801.htm. 
  8. Goldberg, D. S. (2008-07-22). "Carbon dioxide sequestration in deep-sea basalt". Proceedings of the National Academy of Sciences 105 (29): 9920–9925. doi:10.1073/pnas.0804397105. PMID 18626013. Bibcode2008PNAS..105.9920G. 
  9. Fairley, Jerry (January 2013). "Sub-seafloor Carbon Dioxide Storage Potential on the Juan de Fuca Plate, Western North America" (in en). Energy Procedia 37: 5248–5257. doi:10.1016/j.egypro.2013.06.441. 
  10. Hawley, William B.; Allen, Richard M. (2019). "The Fragmented Death of the Farallon Plate". Geophysical Research Letters 46 (13): 7386–7394. doi:10.1029/2019GL083437. Bibcode2019GeoRL..46.7386H. 
  11. Nield, David, (July 31, 2019) "A Tectonic Plate Under Oregon Is Being Slowly Ripped Apart", Science Alert
  12. Rychert, Catherine A.; Harmon, Nicholas; Constable, Steven; Wang, Shunguo (2020). "The Nature of the Lithosphere‐Asthenosphere Boundary" (in en). Journal of Geophysical Research: Solid Earth 125 (10). doi:10.1029/2018JB016463. ISSN 2169-9313. https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2018JB016463. 
  13. Hawley, William B.; Allen, Richard M.; Richards, Mark A. (2016). "Tomography reveals buoyant asthenosphere accumulating beneath the Juan de Fuca plate". Science 353 (6306): 1406–1408. ISSN 0036-8075. https://www.jstor.org/stable/44710656. 

External links