Solomon Sea Plate

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Solomon Sea Plate
Solomon Sea Plate
Approximate surface projections of active tectonic plates. Key: '"`UNIQ--templatestyles-00000000-QINU`"'  Solomon Sea Plate , '"`UNIQ--templatestyles-00000001-QINU`"'  South Bismarck Plate, '"`UNIQ--templatestyles-00000002-QINU`"'  Trobriand Plate, '"`UNIQ--templatestyles-00000003-QINU`"'  Woodlark Plate, '"`UNIQ--templatestyles-00000004-QINU`"'  Active trench subduction boundaries, '"`UNIQ--templatestyles-00000005-QINU`"'  Inactive trench subduction boundaries, '"`UNIQ--templatestyles-00000006-QINU`"'  current spreading boundary. The Australian Plate to the southeast and the Pacific Plate to the northwest are not shown, but their complex collision has created these microplates. Click and then mouse over shows feature names.
Type Minor
Approximate area250,000 km2 [1]
Movement1north
Speed186mm/year
Features Pacific Ocean
1Relative to the African Plate

The Solomon Sea Plate (also known as the Solomon Plate [2] ) is a minor tectonic plate to the northwest of the Solomon Islands archipelago in the south Pacific Ocean. It roughly corresponds with the Solomon Sea east of Papua New Guinea. The plate boundaries are associated with high earthquake activity as part of the New Britain subduction zone.

Contents

Tectonics

The red shading indicates the approximate location of the Solomon Microplate. The labelling and size of the Woodlark Plate is mistaken as is based on a now replaced 2003 tectonic model. SolomonSeaPlate.png
The red shading indicates the approximate location of the Solomon Microplate. The labelling and size of the Woodlark Plate is mistaken as is based on a now replaced 2003 tectonic model.

The tectonic regime in this part of the world is extremely complex and involves a number of minor as well as major plates. The Solomon Sea Plate is an oceanic crustal plate remnant which is likely disappearing into three subduction zones, to its north, east and west. [4] Its southeast margin runs along the Woodlark Rise, which extends into a transform fault called the Nubara Transform Fault marking the boundary with the adjoining Woodlark Plate. [4]

The northern subduction zone is located where the Solomon Plate is diving below the South Bismarck Plate to the northwest and the Pacific Plate to the northeast at the New Britain Trench. This is area is extremely active seismologically. [5] [6] The northwest part of the subduction zone is called the New Britain Subduction Zone. New Britain in Papua New Guinea is the volcanic island formed from this collision and resulting volcanism. The complexities of its known geology, that of its island neighbour of New Ireland and the known Tabar, Lihir, Tanga and Feni Islands groups with undersaturated alkaline volcanics, some of which have been recently active, may not have resulted in a single accepted tectonic model to the north of the Solomon Sea Plate that explains all observed features. [7] [8]

The southwestern subduction zone is where the Solomon Sea Plate has been diving below the former Indo-Australian Plate and has complexities still not fully resolved, but suggesting the possibility of a still active Trobriand Plate separating it from the present Australian Plate. [4] If the Trobriand Plate is presently fixed along the Solomon Sea Plate's definite former subduction zone of the Trobriand Trough with the Solomon Sea Plate, the Solomon Sea Plate becomes quite a large microplate with much more complex tectonics. Accordingly at this time more details on such tectonics are in the article on the Trobriand Plate on the assumption that the Trobriand Trough is still an active subducting plate boundary.

See also

Related Research Articles

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<span class="mw-page-title-main">Solomon Sea</span> A sea in the Pacific Ocean between Papua New Guinea and Solomon Islands

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<span class="mw-page-title-main">Macquarie Fault Zone</span> Lateral-moving transform fault south of New Zealand

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<span class="mw-page-title-main">Caroline Plate</span> Minor oceanic tectonic plate north of New Guinea

The Caroline Plate is a minor tectonic plate that straddles the Equator in the eastern hemisphere located north of New Guinea. It forms a subduction zone along the border with the Bird's Head Plate and other minor plates of the New Guinea region to the south. A transform boundary forms the northern border with the Pacific Plate. Along the border with the Philippine Sea Plate is a convergent boundary that transitions into a rift.

<span class="mw-page-title-main">Maoke Plate</span> Small tectonic plate in western New Guinea

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<span class="mw-page-title-main">North Bismarck Plate</span> Small tectonic plate in the Bismarck Sea north of New Guinea

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<span class="mw-page-title-main">Solomon Islands (archipelago)</span> Archipelago in the South Pacific spreading over two countries

The Solomon Islands (archipelago) is an island group in the western South Pacific Ocean, north-east of Australia. The archipelago is in the Melanesian subregion and bioregion of Oceania and forms the eastern boundary of the Solomon Sea. The many islands of the archipelago are distributed across Papua New Guinea and Solomon Islands (country). The largest island in the archipelago is Bougainville Island, which is a part of the Autonomous Region of Bougainville along with Buka Island, the Nukumanu Islands, and a number of smaller nearby islands. Much of the remainder falls within the territory of Solomon Islands and include the atolls of Ontong Java, Sikaiana, the raised coral atolls of Bellona and Rennell, and the volcanic islands of Choiseul, Guadalcanal, Makira, Malaita, New Georgia, the Nggelas, Santa Isabel, and the Shortlands. The Santa Cruz Islands are not a part of the archipelago.

The 2000 New Ireland earthquakes occurred off the coast of New Ireland Province, Papua New Guinea on November 16 and 17.

<span class="mw-page-title-main">Woodlark Plate</span> Small tectonic plate located to the east of the island of New Guinea

The Woodlark Plate is a small almost triangular shaped tectonic plate located east of the island of New Guinea and situated mainly within the northern half of the Woodlark Basin. It is located in a very complex tectonic environment, that because of associated features, has been extensively studied since it was first proposed to exist. It is now known to be much smaller than originally proposed, mainly because of information from GPS stations on islands and sea floor studies that have fully defined its margins.

<span class="mw-page-title-main">West Melanesian Trench</span> Oceanic trench in the Bismarck Sea north of Papua New Guinea

The West Melanesian Trench is an oceanic trench in the Bismarck Sea north of Papua New Guinea delineating the plate tectonic boundary between the Caroline and North Bismarck plates.

<span class="mw-page-title-main">Kilinailau Trench</span> Ocean trench in south western Pacific Ocean

The Kilinailau Trench is an oceanic trench delineating the former oceanic crust boundary between the Pacific Plate and the now inactive North Bismarck Plate, in the area to the west of Papua New Guinea. To its south west is the inactive North Solomon Trench. The collision of the Ontong Java Plateau in the then subducting oceanic crust of the Pacific Plate, initially to the trench's south-east, changed the plate collision dynamics relative to the then Indo-Australian Plate to the west. Now the Ontong Java Plateau is just to the east of the trench and its great depth of crust appears to explain why subduction stalled here, and moved to the opposite direction along the far side of New Britain and the Solomons. The Melanesian ocean arc ridge structures formed when the trench was active are to its west and would include the north eastern part of New Ireland.

<span class="mw-page-title-main">New Britain Trench</span> Oceanic trench in the southern Pacific Ocean

The New Britain Trench has formed due to subduction of the floor of the Solomon Sea and has some of the highest current seismic activity in the world.

<span class="mw-page-title-main">Woodlark Basin</span> Oceanic basin located to the east of the island of New Guinea

The Woodlark Basin is a young geologic structural basin located in the southwestern Pacific Ocean, found to the southeast of the island country of Papua New Guinea. The basin is an extensional basin that is actively spreading and has a seafloor spreading center. The basin formed between the then Indo-Australian Plate and the Solomon microplate creating the presently independent Woodlark Plate. The Woodlark Basin has a complex geologic history dating back twenty million years to the initial opening of the basin but most of the spreading has happened in the last 3.6 million years.

<span class="mw-page-title-main">Oblique subduction</span> Tectonic process

Oblique subduction is a form of subduction for which the convergence direction differs from 90° to the plate boundary. Most convergent boundaries involve oblique subduction, particularly in the Ring of Fire including the Ryukyu, Aleutian, Central America and Chile subduction zones. In general, the obliquity angle is between 15° and 30°. Subduction zones with high obliquity angles include Sunda trench and Ryukyu arc.

<span class="mw-page-title-main">Trobriand Plate</span> Small tectonic plate located to the east of the island of New Guinea

The Trobriand Plate was, and likely is, an independent microplate between New Guinea and the Solomon Islands. It has some unique geology, having the presence of the youngest metamorphic core complexes on earth. If there is presently active subduction between it and the Solomon Plate, at the Trobriand Trough, it continues to be an active microplate. Otherwise in the latest tectonic models it has merged with the Solomon Sea Plate, which becomes somewhat larger than predicted by Bird's 2003 model of Tectonic Plates. As a smaller Solomon Sea Plate is totally underwater, global positioning data can not resolve this issue. The area of the plate is associated with earthquake and volcanic activity as part of the Pacific Ring of Fire.

The New Britain subduction zone is one of the most recently formed and most active subduction zones on earth, producing great earthquakes, with potential for tsunami hazard, and being associated with active volcanism, as part of the Pacific Ring of Fire. It has a close relationship to an area of subduction tectonic activity that extends south eastward from New Britain to the Vanuatu subduction zone, involving the north eastern portion of the Australian Plate and its complicated collision dynamics with the south-western portion of the Pacific Plate.

References

  1. "What You Should Know About Plate Tectonics".
  2. Hédervári, P.; Papp, Z. (1977). "Seismicity maps of the New Guinea-Solomon Islands region". Tectonophysics. 42 (2–4): 261–281. doi:10.1016/0040-1951(77)90170-6. ISSN   0040-1951.
  3. Bird, Peter (2003). "An updated digital model of plate boundaries". Geochemistry, Geophysics, Geosystems. 4 (3). Bibcode:2003GGG.....4.1027B. doi: 10.1029/2001GC000252 .
  4. 1 2 3 4 Benyshek, E. K.; Taylor, B. (2021). "Tectonics of the Papua-Woodlark region". Geochemistry, Geophysics, Geosystems. 22 (e2020GC009209). doi: 10.1029/2020GC009209 .
  5. Heidarzadeh, M; Gusman, AR; Harada, T; Satake, K. (28 July 2015). "Tsunamis from the 29 March and 5 May 2015 Papua New Guinea earthquake doublet (Mw 7.5) and tsunamigenic potential of the New Britain trench". Geophysical Research Letters. 42 (4): 5958–5965. doi: 10.1002/2015GL064770 .
  6. Yang, Guangliang; Shen, Chongyang; Wang, Jiapei; Xuan, Songbai; Wu, Guiju; Tan, Hongbo (2018). "Isostatic anomaly characteristics and tectonism of the New Britain Trench and neighboring Papua New Guinea". Geodesy and Geodynamics. 9 (5): 404–410. doi: 10.1016/j.geog.2018.04.006 . ISSN   1674-9847.
  7. Lindley, I. David (2006). Lavecchia, G.; Scalera, G. (eds.). "Extensional and vertical tectonics in the New Guinea islands: implications for island arc evolution" (PDF). Annals of Geophysics (Annali di geofisica). 49(supp.): 403–426. ISSN   1593-5213 . Retrieved 13 August 2023.
  8. Holm, RJ; Richards, SW (2013). "A re-evaluation of arc–continent collision and along-arc variation in the Bismarck Sea region, Papua New Guinea". Australian Journal of Earth Sciences. 60 (5): 605–19. doi:10.1080/08120099.2013.824505.


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