Hunter Fracture Zone

Hunter Fracture Zone
Hunter Fracture Zone
	Fiji Vanuatu New; Caledonia Zealandia North; Fiji; Basin Lau; Basin New Hebrides; Trench Hunter; Fracture; Zone Lau; Ridge South; Fiji; Basin Tonga; Trench Minerva; Abyssal; Plain Tonga-; Kerm-; adec; Ridge Cook; fracture; zone Colville; Ridge Three; Kings; Ridge Geographical and geological relationships of the Hunter Fracture Zone. Zealandia is outlined in black.
Etymology	Hunter Island
Coordinates	20°40′01″S177°00′00″W / 20.667°S 177.0°W
Tectonics
Plate	Australian, New Hebrides and the Conway Reef Microplate
Status	Active
Age	Miocene-current

Last updated January 06, 2024

The Hunter Fracture Zone is a sinistral (left-lateral) transform faulting fracture zone,^[1] that to its south is part of a triple junction with the New Hebrides Trench, and the North Fiji Basin Central Spreading Ridge.^[2] The Hunter Fracture Zone, with the Hunter Ridge, an area with recent volcanic activity to its north, is the southern boundary of the North Fiji Basin.^[3] This boundary area in the south-western part of the Hunter Fracture Zone is associated with hot subduction, and a unique range of volcanic geochemistry.^[4]

Geography

The Hunter Fracture Zone is located to the south and southwest of Fiji and starts where the southern part of the New Hebrides Trench ends due to the increasing obliqueness of convergence lending to more strike slip faulting than subducting. It terminates around the International Date Line, with the Kadavu Islands immediately to its north.^[5] However some earlier work has postulated that the fault structures around Suva on Fiji itself are related and different authors have defined the zone variably.^[6]

Seismicity

Approximate surface projection on Pacific Ocean of tectonic seismic zones near Hunter Fracture Zone including spreading activity in the North Fiji Basin to its north. White land top right are islands of Fiji. Key:'"`UNIQ--templatestyles-0000000F-QINU`"'

Up to 70 km (43 mi) deep shallow-focus earthquakes

'"`UNIQ--templatestyles-00000010-QINU`"'

70–300 km (43–186 mi) deep shallow-focus earthquakes

'"`UNIQ--templatestyles-00000011-QINU`"'

More than 300 km (190 mi) deep shallow-focus earthquakes

'"`UNIQ--templatestyles-00000012-QINU`"'

(orange) Hunter Fracture Zone

'"`UNIQ--templatestyles-00000013-QINU`"'

(blue) Active subduction trenches (New Hebrides Trench)

'"`UNIQ--templatestyles-00000014-QINU`"'

(light blue) Inactive trenches

'"`UNIQ--templatestyles-00000015-QINU`"'

(brown) Selected oceanic floor ridges (Hunter Ridge)

'"`UNIQ--templatestyles-00000016-QINU`"'

(yellow) Spreading centers or rifts

. Mouse over shows feature names.

The western Hunter Fracture Zone is an area of fair shallow seismicity.^[7] Large (more than M_w 6) earthquakes have occurred in historic times.^[8]

Tectonics

It defines part of the plate boundary between the New Hebrides and the Conway Reef Microplate with the Australian Plate, with the rest of the convergence being accommodated by subduction and rifting. The major present subduction and rifting is in an area where the Hunter Ridge is being split that is called the Monzier Rift.^[9]. This is active volcanically as part of a separate subduction system to the rest of the Vanuatu subduction zone that has been called the Matthew and Hunter subduction zone.^[10] The Hunter Ridge and Hunter Fracture Zone are the south eastern terminus of the Vanuatu subduction zone's subduction and its associated slab edge. From 3 million years ago the southernmost Central Spreading Ridge of the North Fiji Basin propagated southward and has now intersected with the New Hebrides Trench and the Hunter Fracture Zone to form the current triple junction.^[1]

Related Research Articles

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Island arcs are long chains of active volcanoes with intense seismic activity found along convergent tectonic plate boundaries. Most island arcs originate on oceanic crust and have resulted from the descent of the lithosphere into the mantle along the subduction zone. They are the principal way by which continental growth is achieved.

<span class="mw-page-title-main">Australian Plate</span> Major tectonic plate separated from Indo-Australian Plate about 3 million years ago

The Australian Plate is a major tectonic plate in the eastern and, largely, southern hemispheres. Originally a part of the ancient continent of Gondwana, Australia remained connected to India and Antarctica until approximately 100 million years ago when India broke away and began moving north. Australia and Antarctica had begun rifting by 96 million years ago and completely separated a while after this, some believing as recently as 45 million years ago, but most accepting presently that this had occurred by 60 million years ago.

Hunter Island and Matthew Island are two small and uninhabited volcanic islands in the South Pacific, located 300 kilometres (190 mi) east of New Caledonia and south-east of Vanuatu archipelago. Hunter Island and Matthew Island, 70 km (43 mi) apart, are claimed by Vanuatu as part of Tafea Province, and considered by the people of Aneityum part of their custom ownership, and as of 2007 were claimed by France as part of New Caledonia.

Conway Reef, known since 1976 by its Fijian name Ceva-I-Ra Reef, is a coral reef of the atoll type.

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<span class="mw-page-title-main">Izu–Bonin–Mariana Arc</span> Convergent boundary in Micronesia

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.

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

The 1,600 kilometres (990 mi) long Macquarie Fault Zone is a major right lateral-moving transform fault along the seafloor of the south Pacific Ocean which runs from New Zealand southwestward towards the Macquarie Triple Junction. It is also the tectonic plate boundary between the Australian Plate to the northwest and the Pacific Plate to the southeast. As such it is a region of high seismic activity and recorded the largest strike-slip event on record up to May 23, 1989, of at least M_w8.0

The New Hebrides Plate, sometimes called the Neo-Hebridean Plate, is a minor tectonic plate located in the Pacific Ocean. While most of it is submerged as the sea bottom of the North Fiji Basin, the island country of Vanuatu, with multiple arc volcanoes, is on the western edge of the plate. It is bounded on the south-west by the Australian Plate, which is subducting below it at the New Hebrides Trench. The Vanuatu subduction zone is seismically active, producing many earthquakes of magnitude 7 or higher. To its north is the Pacific Plate, north-east the Balmoral Reef Plate and to its east the Conway Reef Plate.

The Lau Basin is a back-arc basin at the Australian-Pacific plate boundary. It is formed by the Pacific plate subducting under the Australian plate. The Tonga-Kermadec Ridge, a frontal arc, and the Lau-Colville Ridge, a remnant arc, sit to the eastern and western sides of the basin, respectively. The basin has a raised transition area to the south where it joins the Havre Trough.

The 1999 Ambrym earthquake occurred on November 26 at 00:21:17 local time with a moment magnitude of 7.4 and a maximum Mercalli intensity of VII. The back arc thrust event occurred within the Vanuatu archipelago, just to the south of the volcanic island of Ambrym. Vanuatu, which was previously known as New Hebrides, is subject to volcanic and earthquake activity because it lies on an active and destructive plate boundary called the New Hebrides Subduction Zone. While the National Geophysical Data Center classified the total damage as moderate, a destructive local tsunami did result in some deaths, with at least five killed and up to 100 injured.

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.

The d'EntrecasteauxRidge (DER) is a double oceanic ridge in the south-west Pacific Ocean, north of New Caledonia and west of Vanuatu Islands. It forms the northern extension of the New Caledonia–Loyalty Islands arc, and is now actively subducting in the Vanuatu subduction zone under the Vanuatu/New Hebrides arc. The subduction of the DER is responsible for the anomalous morphology of the central part of New Hebrides arc whose movement more closely matches the north-east direction of the subducting Australian Plate.

The Chile Ridge, also known as the Chile Rise, is a submarine oceanic ridge formed by the divergent plate boundary between the Nazca Plate and the Antarctic Plate. It extends from the triple junction of the Nazca, Pacific, and Antarctic plates to the Southern coast of Chile. The Chile Ridge is easy to recognize on the map, as the ridge is divided into several segmented fracture zones which are perpendicular to the ridge segments, showing an orthogonal shape toward the spreading direction. The total length of the ridge segments is about 550–600 km.

The New Hebrides Trench is an oceanic trench which is over 7.1 km (4.4 mi) deep in the Southern Pacific Ocean. It lies to the northeast of New Caledonia and the Loyalty Islands, to the southwest of Vanuatu, east of Australia, and south of Papua New Guinea and the Solomon Islands. The trench was formed as a result of a subduction zone. The Australian Plate is being subducted under the New Hebrides Plate causing volcanism which produced the Vanuatu archipelago.

The Havre Trough is a currently actively rifting back-arc basin about 100 km (62 mi) to 120 km (75 mi) wide, between the Australian Plate and Kermadec microplate. The trough extends northward from New Zealand's offshore Taupō Volcanic Zone commencing at Zealandia's continental shelf margin and continuing as a tectonic feature, as the Lau Basin which currently contains active seafloor spreading centers. Its eastern margin is defined by the Kermadec Ridge created by Pacific Plate subduction under the Kermadec microplate, while the western margin is the remnant Lau-Colville Ridge.

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Magmatism along strike-slip faults is the process of rock melting, magma ascent and emplacement, associated with the tectonics and geometry of various strike-slip settings, most commonly occurring along transform boundaries at mid-ocean ridge spreading centres and at strike-slip systems parallel to oblique subduction zones. Strike-slip faults have a direct effect on magmatism. They can either induce magmatism, act as a conduit to magmatism and magmatic flow, or block magmatic flow. In contrast, magmatism can also directly impact on strike-slip faults by determining fault formation, propagation and slip. Both magma and strike-slip faults coexist and affect one another.

The Hunter Ridge, is an active volcanic arc oceanic ridge located on the oceanic New Hebrides Plate in the south-west Pacific Ocean extending at least 550 km (340 mi). It defines the south-western limit of the North Fiji Basin (NFB) and is an area of unique range in volcanic geochemistry, which transpires to have been due partially to a new, previously unrecognised, subduction zone.

References

1 2 Durance et al. 2012 , p915
↑ Durance et al. 2012 , p929
↑ Sigurdsson, IA; Kamenetsky, VS; Crawford, AJ; Eggins, SM; Zlobin, SK (1993). "Primitive island arc and oceanic lavas from the Hunter ridge-Hunter fracture zone. Evidence from glass, olivine and spinel compositions". Mineralogy and Petrology. 47 (2): 149–69. Bibcode:1993MinPe..47..149S. doi:10.1007/BF01161564. S2CID 53477063.
↑ Durance et al. 2012 , p929
↑ Begg, Graham (13 July 2002). "Arc dynamics and tectonic history of Fiji based on stress and kinematic analysis of dikes and faults of the Tavua Volcano, Viti Levu Island, Fiji". AGU Tectonics. 21 (4): 1023. Bibcode:2002Tecto..21.1023B. doi: 10.1029/2000TC001259 . S2CID 129542546.
↑ Shorten, GG (1990). "Structural geology of Suva Peninsula and Harbour and its implications for the Neogene tectonics of Fiji". New Zealand Journal of Geology and Geophysics. 33 (3): 495–506. Bibcode:1990NZJGG..33..495S. doi:10.1080/00288306.1990.10425704.
↑ Hamburger, MW; Isacks, BL (1994). "Shallow Seismicity in the North Fiji Basin". Shallow seismicity in the north Fiji basin. In Basin Formation, Ridge Crest Processes, and Metallogenesis in the North Fiji Basin. Circum-Pacific Council for Energy and Mineral Resources Earth Science Series. Berlin, Heidelberg: Springer Berlin Heidelberg. pp. 21–32. doi:10.1007/978-3-642-85043-1_3. ISBN 9783642850431 . Retrieved 4 July 2023.
↑ "Seismotectonics of the Eastern Margin of the Australia Plate" (PDF). Retrieved 3 July 2023.
↑ McCarthy et al. 2022, 1. Introduction.
↑ McCarthy et al. 2022, 2.1. The Vanuatu – Hunter Ridge subduction system.

Sources

Durance, PM; Jadamec, MA; Falloon, TJ; Nicholls, IA (1 August 2012). "Magmagenesis within the Hunter Ridge Rift Zone resolved from olivine-hosted melt inclusions and geochemical modelling with insights from geodynamic models". Australian Journal of Earth Sciences. 59 (6): 913–31. Bibcode:2012AuJES..59..913D. doi:10.1080/08120099.2012.682096. S2CID 67848457.
McCarthy, A; Falloon, TJ; Danyushevsky, LV; Sauermilch, I; Patriat, M; Jean, MM; Maas, R; Woodhead, JD; Yogodzinski, GM (15 July 2022). "Implications of high-Mg# adakitic magmatism at Hunter Ridge for arc magmatism of the Fiji-Vanuatu region". Earth and Planetary Science Letters. 590 (117592). Bibcode:2022E&PSL.59017592M. doi: 10.1016/j.epsl.2022.117592 . hdl: 20.500.11850/553552 .

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[Durance2012p915-1] 1 2 Durance et al. 2012 , p915

[2] Durance et al. 2012 , p929

[Sigurdsson1993-3] Sigurdsson, IA; Kamenetsky, VS; Crawford, AJ; Eggins, SM; Zlobin, SK (1993). "Primitive island arc and oceanic lavas from the Hunter ridge-Hunter fracture zone. Evidence from glass, olivine and spinel compositions". Mineralogy and Petrology. 47 (2): 149–69. Bibcode:1993MinPe..47..149S. doi:10.1007/BF01161564. S2CID 53477063.

[4] Durance et al. 2012 , p929

[Arc_Dynamics_and_Tectonic_History_of_Fiji-5] Begg, Graham (13 July 2002). "Arc dynamics and tectonic history of Fiji based on stress and kinematic analysis of dikes and faults of the Tavua Volcano, Viti Levu Island, Fiji". AGU Tectonics. 21 (4): 1023. Bibcode:2002Tecto..21.1023B. doi: 10.1029/2000TC001259 . S2CID 129542546.

[6] Shorten, GG (1990). "Structural geology of Suva Peninsula and Harbour and its implications for the Neogene tectonics of Fiji". New Zealand Journal of Geology and Geophysics. 33 (3): 495–506. Bibcode:1990NZJGG..33..495S. doi:10.1080/00288306.1990.10425704.

[7] Hamburger, MW; Isacks, BL (1994). "Shallow Seismicity in the North Fiji Basin". Shallow seismicity in the north Fiji basin. In Basin Formation, Ridge Crest Processes, and Metallogenesis in the North Fiji Basin. Circum-Pacific Council for Energy and Mineral Resources Earth Science Series. Berlin, Heidelberg: Springer Berlin Heidelberg. pp. 21–32. doi:10.1007/978-3-642-85043-1_3. ISBN 9783642850431 . Retrieved 4 July 2023.

[8] "Seismotectonics of the Eastern Margin of the Australia Plate" (PDF). Retrieved 3 July 2023.

[FOOTNOTEMcCarthyFalloonDanyushevskySauermilch20221._Introduction-9] McCarthy et al. 2022, 1. Introduction.

[FOOTNOTEMcCarthyFalloonDanyushevskySauermilch20222.1._The_Vanuatu_–_Hunter_Ridge_subduction_system-10] McCarthy et al. 2022, 2.1. The Vanuatu – Hunter Ridge subduction system.

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