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28-792: Over time, the central part of the Farallon plate was subducted under the southwestern part of the North American plate. The remains of the Farallon plate are the Explorer , Gorda , and Juan de Fuca plates, which are subducting under the northern part of the North American plate ; the Cocos plate subducting under Central America ; and the Nazca plate subducting under the South American plate . The Farallon plate

56-547: A dextral strike-slip fault along Sumatra Island (about 1,900 km). The formation of this fault zone is related to the subduction zone in the west of Sumatra. Palu-Koro fault is another major structural feature formed in the central part of Indonesia. This fault runs across the central part of Sulawesi Island and extends offshore to the west across Makassar Strait , and ends in the Mangkalihat Peninsula in Borneo. The fault

84-472: A different perspective on the history of collision. Based on this model, the plate moved west, causing the following geologic events to occur: When the final archipelago , the Siletzia archipelago, lodged as a terrane, the associated trench stepped west. When this happened, the trench that had been characterized as an oceanic-oceanic subduction environment approached the North American margin and eventually became

112-650: A highly variable basin between 1,400 metres (4,600 ft) and 2,200 metres (7,200 ft) in depth. The eastern boundary of the Explorer plate is being subducted under the North American plate. The southern boundary is a collection of transform faults , the Sovanco Fracture Zone , separating the Explorer plate from the Pacific plate . To the southeast is another transform boundary, the Nootka Fault , which separates

140-432: A tear in the slab, where a piece of the subducted Farallon plate has broken off, creating multiple slab remnants. This is supported by tomography studies and provides some more explanation of the formation of Laramide structures that are further inland from the edge. A 2013 study proposed two additional now-subducted plates that would account for some of the unexplained complexities of the accreted terranes, suggesting that

168-450: Is a problem of time frame and not of tectonic activity. While it may only take a hundred years for a large-scale earthquake to occur off the coast of Sumatra, it may take roughly 500 years off the coast of western Java. Off the coast of western Java there is potentially a backthrust fault. The existence of the backthrust could increase the height of tsunamis off the coast. There are two megathrust segments, one off of Southeastern Sumatra and

196-457: Is also responsible for transporting old island arcs and various fragments of continental crust , which have rifted off of other distant plates. These fragments from elsewhere are called terranes (sometimes, "exotic" terranes). During the subduction of the Farallon plate, it accreted these island arcs and terranes to the North American plate . Much of western North America is composed of these accreted terranes. As an ancient tectonic plate,

224-621: Is hypothesized to have altered the regional climate, especially with respect to monsoons , beginning ~4 million years ago. The stratigraphy of the western part of Indonesia is dominated by Cenozoic age formations, ranging from Paleogene to Quaternary . Minor Mesozoic and Paleozoic formations were found in places. Devonian limestones were found in Telen River, East Kalimantan , as fragments within Paleogene clastic sediments . Eastern Indonesia has generally older stratigraphy compared to

252-794: Is located between two continental plates: the Sahul Shelf and the Sunda Plate ; and between two oceanic plates: the Pacific Plate and the Philippine Sea Plate . The subduction of the Indian Plate beneath the Sunda Plate formed the volcanic arc in western Indonesia, one of the most seismically active areas on the planet with a long history of powerful eruptions and earthquakes. This chain of active volcanoes formed Sumatra , Java , Bali , and

280-457: Is named after the capital city of Central Sulawesi, Palu , on the west coast of Sulawesi and the Koro River, which is formed by the fault zone. Sorong fault is a significant left lateral fault in the eastern part of Indonesia, named after Sorong City . It has east-west orientation and extends from the northern part of West Papua to East Sulawesi for about 2000 km. The various formations in

308-564: Is partially subducted under the North American plate . Along with the Juan de Fuca plate and Gorda plate , the Explorer plate is a remnant of the ancient Farallon plate , which has been subducted under the North American plate. The Explorer plate separated from the Juan de Fuca plate roughly 4 million years ago. In its smoother, southern half, the average depth of the Explorer plate is roughly 2,400 metres (7,900 ft) and rises up in its northern half to

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336-426: Is the most seismically active area of Canada, but is anomalous as a subduction zone since most of the seismic activity occurs around the plate's perimeter rather than at the subduction interface. Events are generally centered around the southern and north-western areas where the borders of the plate are in contact with other plates; however, the newer ocean crust created at Explorer ridge and Juan de Fuca ridge reduces

364-567: The Indonesian Archipelago and New Guinea 's Torres Strait form geologic choke points to shipping and aqueous transport , particularly at depths below 100m (where said aqueous transport is largely closed); such routes, whether closed or still extant, collectively comprise the Indonesian Seaway between the Pacific and Indian oceans. Tectonic uplift of the region, exacerbated by lowered sea levels during recent glaciation ,

392-489: The Lesser Sunda Islands , most of which, particularly Java and Bali, emerged within the last 2–3 million years. The Pacific and Sahul plate movements controlled the tectonics of the eastern portion of Indonesia. Subduction occurs along Southeastern Sumatra and West Java. Sumatra is more active in recent years despite being in the same subduction margin. The reason for the lack of frequent seismic activity over West Java

420-570: The Explorer plate from the Juan de Fuca plate and forms a triple junction with the North American plate. To the northwest is a divergent boundary with the Pacific plate forming the Explorer Ridge , and the Winona Basin located within the northwest boundaries and the Pacific continental shelf. The Queen Charlotte triple junction is located where the Pacific plate and North American plate meets with

448-415: The Explorer plate. The subducted portion of the plate extends downward to more than 300 km (186 mi) depth, and laterally as far as mainland Canada. The relative buoyancy of the subducting plate and the underlying mantle may be inhibiting the Explorer plate's ability to descend further into the mantle. There is an ongoing debate regarding the process of subduction of the Explorer plate and how

476-455: The Explorer plate. Upon breaking apart 4 million years ago, the Juan De Fuca plate continued moving northeast at 26 mm/year (1 in/year) while the Explorer plate's velocity changed, stalling or moving slowly north up to 20 mm/year. The Nootka Fault boundary between the Juan De Fuca plate and the Explorer plate has varied in length and direction since their separation. The formation of

504-470: The Farallon plate must be studied using methods that allow researchers to see deep beneath the Earth's surface. The understanding of the Farallon plate has evolved as details from seismic tomography provide improved details of the submerged remnants. Since the North American west coast has a convoluted structure, significant work has been required to resolve the complexity. Seismic tomography can be used to image

532-514: The Farallon should be partitioned into Northern Farallon, Angayucham , Mezcalera and Southern Farallon segments based on recent tomographic models. Under this model, the North American continent overrode a series of subduction trenches, and several microcontinents (similar to those in the modern-day Indonesian Archipelago ) were added to it. These microcontinents must have had adjacent oceanic plates that are not represented in previous models of Farallon subduction, so this interpretation brings forth

560-549: The Nookta Fault and the shearing of plate boundaries has caused a clockwise rotation, reorienting the Sovanco Fracture Zone northwards along the North American plate and slowing the Explorer plate's subduction. The Sovanco Fracture Zone originated as a spreading center offset more than 7 million years ago which shows southward movement from the influence of the Explorer ridge and results in uneven spreading eastward unto

588-555: The boundary between the Explorer plate and the North American plate are defined: As a part of the Pacific Ring of Fire , the Explorer plate has a high level of seismic activity. However, the activity consists of low-magnitude events; no earthquake above magnitude 6.5 has been recorded in the region, though a swarm of several dozen magnitude 5–6 earthquakes occurred just north of the Seminole Seamount in 2008. The Explorer plate

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616-537: The current Cascadia subduction zone . This created a slab window . Other models have been proposed for the Farallon's influence on the Laramide orogeny, including the dewatering of the slab which led to intense uplift and magmatism . Notes Bibliography Explorer plate The Explorer plate is an oceanic tectonic plate beneath the Pacific Ocean off the west coast of Vancouver Island , Canada, which

644-596: The other off of Western Java. These segments contribute to tsunamis that average at 11 m (36 ft) in size but that can reach 34 m (112 ft). The combination of megathrusts and backthrusts are reasons for such massive tsunamis. The tectonics processes in Indonesia formed major structures in Indonesia. The most prominent fault in the west of Indonesia is the Semangko Fault or the Great Sumatran Fault,

672-405: The remainder of the subducted plate because it is still "cold," as in, it has not reached thermal equilibrium with the mantle. This is important for the use of tomography because seismic waves have different velocities in materials of different temperatures, so the Farallon slab appears as a velocity anomaly on the tomography model. Multiple studies show that the subduction of the Farallon plate

700-478: The rigidity of the region and contributes to the low magnitude of events in the region. Geology of Indonesia This is a brief summary of the geology of Indonesia . Indonesia is located between two major tectonic plates namely, the Australian Plate and the newly-separated Sunda Plate . The tectonics of Indonesia are very complex, as it is a meeting point of several tectonic plates . Indonesia

728-430: The slab also occurred due to this flat subduction phenomenon, which has been imaged by seismic tomography. There is a concentration of velocity anomalies in the tomography that is thicker than the slab itself should be, indicating that folding and deformation occurred beneath the surface during subduction. In other words, more of the slab should be in the lower mantle, but the deformation has caused it to remain shallower, in

756-600: The upper mantle. Multiple hypotheses have been proposed to explain this shallow subduction angle and resulting deformation. Some studies suggest that the faster movement of the North American plate caused the slab to flatten, resulting in slab rollback . Another cause of flat slab subduction may be slab buoyancy , a characteristic influenced by the presence of oceanic plateaus (or oceanic flood basalts). In addition to influencing slab buoyancy, some oceanic plateaus may have also become accreted to North America. It has been suggested that this deformation may go so far as to include

784-561: Was characterized by a period of " flat-slab subduction ," which is the subduction of a plate at a relatively shallow angle to the overriding crust (in this case, North America). This phenomenon is one that accounts for the far-inland orogenisis of the Rocky Mountains and other ranges in North America which are much farther from the convergent plate boundary than is typical of a subduction-generated orogeny . Significant deformation of

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