Niuatahi | |
---|---|
Summit depth | −1,270 m (−4,167 ft) [1] |
Location | |
Group | Northeast Lau Basin volcanoes |
Range | Tofua volcanic arc |
Coordinates | 15°22′44″S174°00′10″W / 15.37889°S 174.00278°W Coordinates: 15°22′44″S174°00′10″W / 15.37889°S 174.00278°W [1] |
Country | Tonga |
Geology | |
Type | Caldera |
Last activity | Unknown |
Niuatahi or also called Volcano O is a submarine volcano located in the far northern territory of Tonga. Since the cone in the middle is named Motutahi, the volcano is sometimes referred to as Niuatahi-Motutahi. Despite not having any record of any eruption, Niuatahi does have a record of recent hydrothermal activity. [2]
Niuatahi was named by the Tonga Ministry of Lands, Environment, Climate Change and Natural Resources. In the Tongan language, Niuatahi means sea. The name Motutahi means island in the sea in the Tongan language. [1]
The volcano can be found approximately 70 km (43 mi) northwest of Niuatoputapu and 240 km (149 mi) southwest of the Samoan Islands. It is also located 40 km (25 mi) southwest of the far more known and more active West Mata submarine volcano, located in the same volcanic group as Niuatahi. An active ridge can also be found just west of the caldera walls.
Niuatahi is a submarine volcano mostly known for its circular shape and enormous width. It is 15 km (9 mi) in diameter and with a depth of approximately 700 m (2,297 ft). The Motutahi cone located in the middle of the caldera which rises 730 m (2,395 ft) above the floor of the caldera. [1] Along the floor of the caldera can also be found active hydrothermal systems. [lower-alpha 1] [2]
The Niuatahi underwater volcano is located in an area of complex tectonics. It is located in the Lau Back-Arc Basin, which consists of oceanic crust that separates the remnant Lau-Colville Ridge and the active Tofua volcanic arc from each other. The back-arc basin is mainly formed by the rollback [lower-alpha 2] of the Tonga Trench. The Lau Basin is host to many different geologic structures that are both typical and unique compared to other Pacific back-arc basins. A typical characteristic includes the basin being located above a well-defined Wadati-Benioff zone that points to the location of the subduction of the Cretaceous Pacific Plate lithosphere into the Tonga Trench under the Australian Plate. The Wadati-Benioff zone of the area reaches as deep as 700 km (435 mi) under the North Fiji Basin. The seismic zone lies 140 km (87 mi) below the Tofua arc and 250 km (155 mi) under the Central and Eastern Lau Spreading Centers. [4]
More specifically, Niuatahi can be found in the northeastern part of the Lau Basin. Considering its unique tectonic setting, the NE Lau Basin hosts multiple types of submarine volcanism mostly composed by a subduction-related water-fluxed crust melting and crustal extension. Geochemically, the lavas from the NE Lau Basin vary from mid-ocean ridge basalt-like to arc-like lavas. [5]
The analysis of the lava rocks from the center of Niuatahi volcano revealed that the products were composed of aphyric to porphyritic with low-K dacite that consists of mostly glassy material. Meanwhile, in the southeastern part of the caldera, rock samples returned an olivine-bearing basalt composition, pointing to the products being mostly boninite which complies with past research in the area. [6]
No historical eruptions have been recorded however Niuatahi has been hydrothermally active since its discovery. [1] [7]
On the caldera floor and rims of Niuatahi can be found many hydrothermal vents. In 2018, a bathymetric survey expedition was executed and many ROV dives were made in 3 sites around the caldera including the southwest, the south-central and the north of the caldera. [7] In the southwest, venting with 293 °C with clear to gray smoke was observed at 1,680 m (5,512 ft) depth. [8] In the south-central area, clear to black smoke was observed at vents with temperatures of 334 °C at most at a depth similar to the southwest vents. [7] In the north, the vents are located at a shallower depth of 1,550 m (5,085 ft) and they emit clear to black smokes with temperatures of 316 °C at most. All of these vent sites have a sulfide composition, hence the yellowish colors can be seen in some vent smokes. [9]
Subduction is a geological process in which the oceanic lithosphere and some continental lithosphere is recycled into the Earth's mantle at convergent boundaries. Where the oceanic lithosphere of a tectonic plate converges with the less dense lithosphere of a second plate, the heavier plate dives beneath the second plate and sinks into the mantle. A region where this process occurs is known as a subduction zone, and its surface expression is known as an arc-trench complex. The process of subduction has created most of the Earth's continental crust. Rates of subduction are typically measured in centimeters per year, with rates of convergence as high as 11 cm/year.
The Ring of Fire is a region around much of the rim of the Pacific Ocean where many volcanic eruptions and earthquakes occur. The Ring of Fire is a horseshoe-shaped belt about 40,000 km (25,000 mi) long and up to about 500 km (310 mi) wide.
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A back-arc basin is a type of geologic basin, found at some convergent plate boundaries. Presently all back-arc basins are submarine features associated with island arcs and subduction zones, with many found in the western Pacific Ocean. Most of them result from tensional forces, caused by a process known as oceanic trench rollback, where a subduction zone moves towards the subducting plate. Back-arc basins were initially an unexpected phenomenon in plate tectonics, as convergent boundaries were expected to universally be zones of compression. However, in 1970, Dan Karig published a model of back-arc basins consistent with plate tectonics.
The geology of the Pacific Northwest includes the composition, structure, physical properties and the processes that shape the Pacific Northwest region of North America. The region is part of the Ring of Fire: the subduction of the Pacific and Farallon Plates under the North American Plate is responsible for many of the area's scenic features as well as some of its hazards, such as volcanoes, earthquakes, and landslides.
James Healy Seamount is a submarine volcano located among the South Kermadec Ridge Seamounts south of New Zealand's Kermadec Islands. It consists of a volcanic cone that reaches a depth of 1,150 metres (3,770 ft) below sea level, two 2–2.5 kilometres (1.2–1.6 mi) and 1.3 kilometres (0.81 mi) wide calderas and a parasitic cone that reaches a depth of 950 metres (3,120 ft) below sea level. The flanks of the volcano are covered with pumice and volcanic rocks, and hydrothermal venting occurs inside the caldera.
The Brothers Seamount is a Pacific Ocean submarine volcano in the Kermadec Arc, 340 kilometres (210 mi) north east of New Zealand's Whakaari/White Island. It is one of the South Kermadec Ridge Seamounts.
Axial Seamount is a seamount and submarine volcano in the Pacific Ocean, located on the Juan de Fuca Ridge, approximately 480 km (298 mi) west of Cannon Beach, Oregon. Standing 1,100 m (3,609 ft) high, Axial Seamount is the youngest volcano and current eruptive center of the Cobb–Eickelberg Seamount chain. Located at the center of both a geological hotspot and a mid-ocean ridge, the seamount is geologically complex, and its origins are still poorly understood. Axial Seamount is set on a long, low-lying plateau, with two large rift zones trending 50 km (31 mi) to the northeast and southwest of its center. The volcano features an unusual rectangular caldera, and its flanks are pockmarked by fissures, vents, sheet flows, and pit craters up to 100 m (328 ft) deep; its geology is further complicated by its intersection with several smaller seamounts surrounding it.
The Izu–Bonin–Mariana (IBM) arc system is a tectonic plate convergent boundary in Micronesia. The IBM arc system extends over 2800 km south from Tokyo, Japan, to beyond Guam, and includes the Izu Islands, the Bonin Islands, and the Mariana Islands; much more of the IBM arc system is submerged below sealevel. The IBM arc system lies along the eastern margin of the Philippine Sea Plate in the Western Pacific Ocean. It is the site of the deepest gash in Earth's solid surface, the Challenger Deep in the Mariana Trench.
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The North Fiji Basin (NFB) is an oceanic basin west of Fiji in the south-west Pacific Ocean. It is an actively spreading back-arc basin delimited by the Fiji islands to the east, the inactive Vitiaz Trench to the north, the Vanuatu/New Hebrides island arc to the west, and the Hunter fracture zone to the south. Roughly triangular in shape with its apex located at the northern end of the New Hebrides Arc, the basin is actively spreading southward and is characterised by three spreading centres and an oceanic crust younger than 12 Ma. The opening of the NFB began when a slab roll-back was initiated beneath the New Hebrides and the island arc started its clockwise rotation. The opening of the basin was the result of the collision between the Ontong Java Plateau and the Australian Plate along the now inactive Solomon–Vitiaz subduction system north of the NFB. The NFB is the largest and most developed back-arc basin of the south-west Pacific. It is opening in a complex geological setting between two oppositely verging subduction systems, the New Hebrides/Vanuatu and Tonga trenches and hence its ocean floor has the World's largest amount of spreading centres per area.
Monowai Seamount is a volcanic seamount to the north of New Zealand. It is formed by a large caldera and a volcanic cone just south-southeast from the caldera. The volcanic cone rises to depths of up to 100 metres (330 ft) but its depth varies with ongoing volcanic activity, including sector collapses and the growth of lava domes. The seamount and its volcanism were discovered after 1877, but only in 1980 was it named "Monowai" after a research ship of the same name.
Kemp Caldera and Kemp Seamount form a submarine volcano south of the South Sandwich Islands, in a region where several seamounts are located. The seamount rises to a depth of 80 metres (260 ft) below sea level; the caldera has a diameter of 8.3 by 6.5 kilometres and reaches a depth of 1,600 metres (5,200 ft). The caldera contains several Hydrothermal vents, including white smokers and diffuse venting areas, which are host to chemolithotrophic ecological communities. The seamount and caldera, which were discovered by seafloor mapping in 2009, are part of the South Georgia and the South Sandwich Islands Marine Protected Area.
Eifuku and NW Eifuku are two seamounts in the Pacific Ocean. The better known one is NW Eifuku, where an unusual hydrothermal vent called "Champagne" produced droplets of liquid CO
2. Both seamounts are located in the Northern Marianas and are volcanoes, part of the Izu-Bonin-Mariana Arc. NW Eifuku rises to 1,535 metres (5,036 ft) depth below sea level and is a 9 kilometres (5.6 mi) wide volcanic cone.
Volcano F is a submarine volcano in the Tonga Islands of the South Pacific Ocean. It is located 50 km (31 mi) northwest of Vavaʻu, between Late and Fonualei on the Tofua ridge. It is part of the highly active Kermadec-Tonga subduction zone and its associated volcanic arc, which extends from New Zealand north-northeast to Fiji, and is formed by the subduction of the Pacific Plate under the Indo-Australian Plate.
Macauley Island is a volcanic island in New Zealand's Kermadec Islands, approximately halfway between New Zealand's North Island and Tonga in the southwest Pacific Ocean. It is part of a larger submarine volcano that features a 10.5 by 7 kilometres wide underwater caldera northwest of Macauley Island. Two islets, Haszard Island and Newcome Rock, lie east offshore of Macauley Island. The island is mostly surrounded by high cliffs that make accessing it difficult; the inland parts are mostly gently sloping terrain covered with ferns and grasses.
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