Ryukyu Arc: Difference between revisions

{{Short description|Volcanic islandIsland arc between Kyushu and Taiwan}}

The '''Ryukyu Arc''' is an [[island arc]] which extends from the south of [[Kyushu]] along the [[Ryukyu Islands]] to the northeast of [[Taiwan]], spanning about {{convert|1200|km|mi}}.<ref name=":1">Kiszaki,{{cite journal |last1=Kizaki |first1=K. (1978). |title=Tectonics of the Ryukyu Island Arc. ''|journal=Journal of Physics of the Earth, |date=1978 |volume=26''( |issue=Supplement), |pages=S301–S307. https://|doi.org/=10.4294/jpe1952.26.Supplement_S301|doi-access=free }}</ref><ref name=":2">{{cite journal |last1=Shinjo, |first1=R., & |last2=Kato, |first2=Y. (2000). |title=Geochemical constraints on the origin of bimodal magmatism at the Okinawa Trough, an incipient back-arc basin. ''|journal=Lithos, |date=2000 |volume=54''(3-4), 117-137.|issue=3–4 https://|pages=117–137 |doi.org/=10.1016/S0024-4937(00)00034-7|bibcode=2000Litho..54..117S }}</ref><ref name=":3">{{cite journal |last1=Park, |first1=J. -O., |last2=Tokuyama, |first2=H., |last3=Shinohara, |first3=M., |last4=Suyehiro, |first4=K., & |last5=Taira, |first5=A. (1998). |title=Seismic record of tectonic evolution and backarc rifting in the southern Ryukyu island arc system. ''|journal=Tectonophysics, |date=1998 |volume=294''(1-2), 21-42.|issue=1–2 https://|pages=21–42 |doi.org/=10.1016/S0040-1951(98)00150-4|bibcode=1998Tectp.294...21P }}</ref> It is located along a section of the [[Convergent boundary|convergent plate boundary]] where the [[Philippine Sea Plate]] is subducting northwestward beneath the [[Eurasian Plate]] along the [[Ryukyu Trench]].<ref name=":2" /><ref name=":3" /><ref name=":4">{{cite journal |last1=Shinjo, |first1=R., |last2=Chung, |first2=S.-L., |last3=Kato, |first3=Y., and |last4=Kimura, |first4=M. (1999), |title=Geochemical and Sr-Nd isotopic characteristics of volcanic rocks from the Okinawa Trough and Ryukyu Arc: Implications for the evolution of a young, intracontinental back arc basin, ''J.|journal=Journal Geophys.of Res.,Geophysical Research: Solid Earth |date=1999 |volume=104''( |issue=B5), 10591– 10608,|pages=10591–10608 |doi:=10.1029/1999JB900040|bibcode=1999JGR...10410591S |doi-access=free }}</ref>. The arc has an overall northeast- to southwest trend and is located northwest of the [[Pacific Ocean]] and southeast of the [[East China Sea]].<ref name=":6">{{cite journal |last1=Nakae, |first1=S. (2013). |title=The radiolarian evidence for the accretion of the Fu-saki Formation with the inferred oceanic plate stratigraphy: A case of weakly-metamorphosed accretionary complex in Ishigaki Jima, southern Ryukyu Arc, Japan. ''|journal=Journal of Asian Earth Sciences, |date=2013 |volume=73'', 21-30|pages=21–30 |doi=10.1016/j.jseaes.2013.04.022|bibcode=2013JAESc..73...21N }}</ref>. It strikesruns parallel to the Ryukyu[[Okinawa TrenchTrough]], an active volcanic beltarc, and the [[OkinawaRyukyu Trough]]Trench.<ref name=":5">{{cite journal |last1=Kizaki, |first1=K. (1986). |title=Geology and tectonics of the Ryukyu Islands. ''|journal=Tectonophysics, |date=1986 |volume=125''(1 |issue=1–3 |pages=193–207 |doi=10.1016/0040-31951(86), 19390014-2074|bibcode=1986Tectp.125..193K }}</ref>. The Ryukyu Arc, based on its geomorphology, can be segmented from north to south into Northern Ryukyu, Central Ryukyu, and Southern Ryukyu; the Tokara Strait separates Northern Ryukyu and Central Ryukyu at about 130˚E while the [[Miyako Strait|Kerama Gap]] separates Central Ryukyu and Southern Ryukyu at about 127 ˚E.<ref name=":1" /><ref name=":4" /><ref name=":5" />. The geological units of the arc include [[Igneous rock|igneous]], [[Sedimentary rock|sedimentary]], and [[Metamorphicmetamorphic rock|metamorphic rocks]]s, ranging from the [[Paleozoic]] to [[Cenozoic]] in age.

A number of studies defined the extent of the Ryukyu Arc geographically and morphologically into three parts: Northern Ryukyu, which includes the [[Ōsumi Islands]]; Central Ryukyu, which includes [[Amami Islands]] and [[Okinawa Islands]]; Southern Ryukyu, which includes [[Miyako Islands]] and [[Yaeyama Islands]].<ref name=":1" /><ref name=":5" />. The northernmost and southernmost parts of the Ryukyu Arc terminate in Kyushu and Taiwan, respectively.<ref name=":9">{{cite report|last1=Foster,|first1= H. L. (|date=1965). ''|title=Geology of Ishigaki-shima, Ryukyu-retto''. |series=US Geol.Geological Surv.Survey, Prof.Professional Paper.Papers|publisher=US https://pubs.usgsGeological Survey|doi=10.gov3133/pp/0399a/report.pdfpp399A|volume=399-A|doi-access=free}}</ref>.

The geological and structural features of Southern Ryukyu are quite different from those of Northern and Central Ryukyu; Southern Ryukyu, and Northern and Central Ryukyu may have haddeveloped ain differentdisparate geological historysettings before the middle [[Miocene]].<ref name=":1" />. [[Accretionary wedge|Accretionary complexes]] in Northern and Central Ryukyu are considered as the extension of the Outer Zone of Southwest Japan,<ref name=":5" /><ref name=":25">{{cite book|last1=Taira,|first1= A.,|last2= Ohara,|first2= Y.,|last3= Wallis,|first3= S. R., |last4=Ishiwatari,|first4= A.,|last5= & Iryu,|first5= Y. (|date=2016). |chapter=Geological evolution of Japan: an overview. ''|title=The geology of Japan'', |pages=1–24|doi=10.1144/GOJ.1|editor-24first1=T.|editor-last1= Moreno|editor-first2= S. |editor-last2=Wallis|editor-first3= T. |editor-last3=Kojima|editor-first4=W. |editor-last4=Gibbons|isbn=9781862397064|publisher=The Geological Society}}</ref><ref name=":26">{{cite journal |last1=Takami, |first1=M., |last2=Takemura, |first2=R., |last3=Nishimura, |first3=Y., & |last4=Kojima, |first4=T. (1999). |title=Reconstruction of oceanic plate stratigraphies and unit division of Jurassic-Early Cretaceous accretionary complexes in the Okinawa Islands, central Ryukyu Island Arc. ''|journal=The Journal of the Geological Society of Japan, |date=1999 |volume=105''( |issue=12), 866-880.|pages=866–880 https://|doi.org/=10.5575/geosoc.105.866|doi-access=free }}</ref>, whereas metamorphic rocks in Southern Ryukyu are associated with the Inner Zone of Southwest Japan.<ref name=":2414" />. The arc might be united into the present configuration in the [[Pliocene]]-[[Pleistocene]] due to different rates of southeastward migration as tectonics proceeded.<ref name=":1" />.

[[File:Location of the Ryukyu Islands.JPG|thumb|upright=1.5|Location of the Ryukyu Islands.]]

The Okinawa Trough is the [[back-arc basin]] of the Ryukyu Arc, and ishas been formed by lithospheric extension of the continental Eurasian Plate.<ref name=":2" />. En echelon, extensionalExtensional [[Graben|grabensgraben]]s, withabout a10&nbsp;km widthwide ofand about 10 50–100&nbsp;km andlong, awith lengthen ofechelon about 50-100 kmalignment can be found in the middle to southern parts of Okinawa Trough.<ref name=":2" /><ref name=":4" />. Of the whole Okinawa Trough, the southern part is the most evolved and active, in that, its maximum depth, which is greater than other parts, is about 2200 m.<ref name=":3" />. The Okinawa Trough accommodates [[Terrigenousterrigenous sediment|terrigenous sediments]]s from the [[continental shelf]] of Asia and the Ryukyu Arc at a high rate.<ref name=":3" />.

The Ryukyu Arc is a site of active [[seismicity]] characterised by shallow earthquakes, given the ongoing convergence between the Philippine Sea Plate and Eurasian Plate .<ref name=":9" />. Seismic data of earthquakes have been used to detect seismic structures below the Ryukyu Arc .<ref name="a">{{cite journal |last1=Roecker, |first1=S. W., |last2=Yeh, |first2=Y. H., & |last3=Tsai, |first3=Y. B. (1987). Three‐dimensional|title=Three-dimensional P and S wave velocity structures beneath Taiwan: Deep structure beneath an arc‐continentarc-continent collision. ''|journal=Journal of Geophysical Research: Solid Earth, |date=1987 |volume=92''( |issue=B10), 10547-10570|pages=10547–10570 |doi=10.1029/JB092iB10p10547|bibcode=1987JGR....9210547R |doi-access=free }}</ref>. [[Low-velocity zone|Low seismic velocity zones]], which are possibly associated with the upwelling of magma, have been discovered beneath active volcanoes and the Okinawa Trough.<ref name="a">< /ref>.

[[File:M≥6.0 (1960-2022) Earthquakes in the Ryukyu Arc.png|thumb|546x480pxupright=1.5|M≥6.0 (1960-20221960–2022) Earthquakes in the Ryukyu Arc. Earthquake data from USGS-ANSS Catalog. Contours in 1000m1 km interval. Figure made with GeoMapApp (www.geomapapp.org) / CC BY / CC BY (Ryan et al., 2009).<ref name="fig" />]]

An active volcanic front lies 100km100&nbsp;km above the [[Wadati–Benioff zone|Wadati-Benioff zone]] (a planar zone of seismicity at the interface between the subducting and overriding plates) in Northern Ryukyu and gradually fades off in Central and Southern Ryukyu.<ref name=":4">< /ref>.

The Motobu and Yonamine Formations are [[Permian]] rocks that constitute the basement of the Motobu peninsula of [[Okinawa Island]], Central Ryukyu.<ref name=":10">{{cite journal |last1=Ishibashi, |first1=T. (1969). |title=Stratigraphy of the Triassic formationFormation in Okinawa-jima, Ryukyus. ''Mem.|journal=Memoirs Fac.of Sci.the KyushuFaculty Univ.of Science, serKyūsyū University. Series D, Geology, |date=1969 |volume=19''( |issue=3),373 |pages=373–385 |doi=10.5109/1543682|doi-385access=free |hdl=2324/1543682 |hdl-access=free }}</ref>.

The Motobu Formation consists mainly of [[limestone]] interbedded with [[chert]] and [[phyllite]].<ref name=":11">{{cite report|last1=Flint,|first1= D. E.,|last2= Saplis,|first2= R. A., & |last3=Corwin,|first3= G. (|date=1959). |title=Military geology of Okinawa-jima, RyukyuRyūkyū-retto.Rettō|volume=5 (Geology)|publisher= US Army Pacific, Office Eng.,of 5,the 88Engineer|url=https://books.google.com/books?id=65ocAQAAMAAJ|via=Google Books}}</ref>. The limestone and chert of the formation contain fossils ofcontains [[foraminifera]] andfossils [[Radiolaria|radiolarians]], respectively, suggesting aof Permian age.<ref name=":9" /><ref name=":12">Konishi, K. (1963). Pre-Miocene basement complex of Okinawa, and the tectonic belts of the Ryukyu Islands. ''Sci. Rep. Kanazawa Univ., 8'', 569-602.</ref>.

The Yonamine Formation, with strata of interbedded phyllite, [[slate]], [[sandstone]], limestone, greenstone, and chert,<ref name=":11" />, underlies the Motobu Formation<ref name=":12">{{cite journal|last1=Konishi|first1= K.|date=1963|title=Pre-Miocene basement complex of Okinawa, and the tectonic belts of the Ryukyu Islands|journal=Science Reports of Kanazawa University|volume=8|issue=2|pages= 569–602|url=http://scirep.w3.kanazawa-u.ac.jp/articles/08-02-017.pdf}}</ref> and contains Permian coralcorals.<ref name=":13">{{cite journal |last1=Haikawa, |first1=T., & |last2=Ishibashi, |first2=T. (1981). |title=Waagenophyllum (Waagenophyllum) okinawense, a new Permian coral from Okinawa-jima, Ryukyu Islands : Paleontological Study of the Ryukyu Islands-VII.Islands－VII ''Mem.|journal=Memoirs Fac.of Sci.the KyushuFaculty Univ.of Science, serKyūsyū University. Series D, Geology, |date=1981 |volume=24''( |issue=3), 179|pages=179–188 |doi=10.5109/1546074|doi-188access=free |hdl=2324/1546074 |hdl-access=free }}</ref>.

The Tomuru Formation is distributed in the [[Iriomote Island|Iriomote]] and [[Ishigaki Island|Ishigaki]] Islands of the Yaeyama Islands, Southern Ryukyu.<ref name=":5" /><ref name=":14">{{cite journal |last1=Nishimura, |first1=Y. (1998). |title=Geotectonic subdivision and areal extent of the Sangun belt, Inner Zone of Southwest Japan. ''|journal=Journal of metamorphicMetamorphic Geology, |date=1998 |volume=16''( |issue=1), 129|pages=129–140 |doi=10.1111/j.1525-1401314.1998.00059.x|bibcode=1998JMetG..16..129N |s2cid=128766454 }}</ref><ref name=":15">{{cite journal|last1=Nakagawa,|first1= H.,|last2= Doi,|first2= N.,|last3= Shirao,|first3= M.,|last4= Araki,|first4=Y. (|date=1982).|title= Geology of Ishigaki-jima and Iriomote-jima Yaeyama Gunto, Ryukyu Islands.|journal= ''Contributions from the Institute of Geology and Paleontology, Tohoku University|volume= 84'', 1-22|pages=1–22}}</ref>. The formation has an age of 220-190220–190 [[megaannum|Ma]] (million years ago) (Late [[Triassic]]-Early [[Jurassic]]) and comprises [[ultramafic rocksrock]]s and high pressure/temperature (P/T) metamorphic rocks, i.e., metagabbro and [[mafic]], [[Siliceous rock|siliceous]], and pelitic schists[[schist]]s.<ref name=":14">< /ref><ref name=":16">{{cite book|last1=Miyazaki,|first1= K.,|last2= Ozaki,|first2= M.,|last3= Saito,|first3= M.,|last4= Toshimitsu,|first4= S. (|date=2016). |chapter=The Kyushu-Ryukyu Arc. ''|title=The Geologygeology of Japan'' (pp|pages=139–174|doi=10.1391144/GOJ.6|editor-174)first1=T.|editor-last1= GeologicalMoreno|editor-first2= Society,S. London|editor-last2=Wallis|editor-first3= T. |editor-last3=Kojima|editor-first4=W. |editor-last4=Gibbons|isbn=9781862397064|publisher=The Geological Society}}</ref>.

The Fusaki Formation, located at the Ishigaki Island and [[Taketomi Island]] of the Yaeyama Islands in Southern Ryukyu,<ref name=":15" />, comprises weakly metamorphosed [[Olistostrome|olistromal rocks]]: [[allochthon|allochthonous blocks]] of chert, [[mudstone]], sandstone, and limestone are embedded in a muddy [[Matrix (geology)|matrix]].<ref name=":14" />. The metamorphic age of this formation ranges from 145- to 130 Ma (Early [[Cretaceous]]) and was determined by K-Ar phengitic micas dating.<ref name=":14" />. [[Radiolaria]] data show that the formation had accreted in the [[Toarcian]] in the Early Jurassic.<ref name=":6" />. This formation is part of an accretionary complex of a Middle Jurassic subduction zone.<ref name=":14" />.

On Ishigaki Island, this formation is thrusted beneath the Tomuru Formation along the Sokobaru [[Thrust fault|thrust]]<ref name=":14" /> and is intruded by [[Oligocene]] granitic rocks, named the Omoto Pluton.<ref name=":6" />

The Nakijin Formation is a 450-500m450–500m thick deposit of limestone, basalt, and a minor amount of [[calcareous]] [[siltstone]], tuffaceous and calcareous mudstone.<ref name=":10" />. Fossil records of [[Ammonoidea|ammonites]] and halobiids in this formation suggest a Late Triassic age.<ref name=":10" />.

The Nakijin Formation can be found in Central Ryukyu, i.e., [[Sesoko Island]] and the northwestern part of the Motobu peninsula of Okinawa Island.<ref name=":10" />. This formation overlies the Yonamine Formation along a reverse fault.<ref name=":10" />.

The Shimanto Group is a set of metamorphic rocks dated from Early Cretaceous- to earliest Miocene metamorphicwhich rocksare associated with the Shimanto belt.<ref name=":5" /><ref name=":24">{{cite journal |last1=Ujiie, |first1=K. (1997). Off‐scraping|title=Off-scraping accretionary process under the subduction of young oceanic crust: The Shimanto Belt of Okinawa Island, Ryukyu Arc. ''|journal=Tectonics, |date=1997 |volume=16''( |issue=2), 305-322.|pages=305–322 https://|doi.org/=10.1029/96TC03367|bibcode=1997Tecto..16..305U |s2cid=129383358 |doi-access=free }}</ref>. The Shimanto belt is an accretionary complex in the Outer Zone of Southwest Japan which extends from [[Honshu]], [[Shikoku]], and Kyushu to Northern and Central Ryukyu.<ref name=":1" />. The group comprises sedimentary and [[metasedimentary rocksrock]]s metamorphosed up to [[greenschist]] [[metamorphic facies|facies]], including [[flysch]]-type sandstone and slate with mafic greenstones.<ref name=":5" />.

Deformations such as NWnorthwest-dipping, isoclinal, overturned [[Fold (geology)|folds]] and SE-verging thrust faults can be found in the Shimanto SupergroupGroup of Central and Northern Ryukyu.<ref name=":5" />.

In Okinawa Island, Central Ryukyu, the Shimanto Group is separated into the Nago Formation and the Kayo Formation.<ref name=":27">{{cite journal |last1=Ujiie |first1=K. |title=Evolution and kinematics of an ancient décollement zone, mélange in the groupShimanto accretionary complex of Okinawa Island, Ryukyu Arc |journal=Journal of Structural Geology |date=2002 |volume=24 |issue=5 |pages=937–952 |doi=10.1016/S0191-8141(01)00103-1|bibcode=2002JSG....24..937U }}</ref> The Nago Formation comprises pelitic and mafic schist, phyllite, and slate, with minor chert and limestone,<ref name=":27" /> and crops out most of northern Okinawa Island.<ref name=":11" /> Though only [[trace fossil]]s have been found in the formation, it is thought to be Cretaceous to early Eocene in age by correlations with other formations in the island.<ref name=":27" /> The Kayo Formation features beds of turbidite containing mudstone, sandstone, and [[nummulite]] fossils that indicate middle Eocene age.<ref name=":21" /> ] It underlies the Nago Formation along a northwest-dipping thrust fault.<ref name=":27" /> Thrust-folding and metamorphism of the formation suggest a trench origin.<ref name=":21" /><ref name=":24" />.

The Eocene Miyara and Nosoko Formations crop out the Yaeyama Islands, Southern Ryukyu.<ref name=":5" />.

The Miyara Formation is a Ssouth-SWsouthwest-dipping succession of [[Conglomerate (geology)|conglomerate]], sandstone, [[shale]], and limestone that are deposited along the coast of Ishigaki Island.<ref name=":9" />. A large variety of marine fossils, efossils—e.g., calcareous algae, foraminifera, corals, [[Echinoderm|echinodermsechinoderm]]s, [[Bryozoa|bryozoansbryozoa]]ns, and [[Gastropoda|gastropods]],— have been preserved in the limestonelimestones, and [[Mollusca|molluscs]] were also found in the conglomerate.<ref name=":9" />. Foraminifera and calcareous algae in the limestones suggest a late Eocene age.<ref name=":9" />.

The Nosoko Formation is a 300m thick sequence of [[tuff]], volcanic sandstone and [[breccia]], and lavas with [[Dike (geology)|dykes]], [[Sill (geology)|sills]], and other small [[Igneous intrusion|intrusions]].<ref name=":9" />. This formation is widely exposed at the Nosoko peninsula in northern Ishigaki Island.<ref name=":9" />. It also lies conformably above the Miyara Formation.<ref name=":21" />. [[Paleomagnetism|Paleomagnetic]] data of the Nosoko Formation indicate a mean deflection of the magnetic direction at about 30˚ clockwise away from the expected pole.<ref name=":17">{{cite journal |last1=Miki, |first1=M. (1995). Two‐phase|title=Two-phase opening model for the Okinawa Trough inferred from paleomagnetic study of the Ryukyu arc. ''|journal=Journal of Geophysical Research: Solid Earth, |date=1995 |volume=100''( |issue=B5), 8169-8184.|pages=8169–8184 https://|doi.org/=10.1029/95JB00034|bibcode=1995JGR...100.8169M |doi-access=free }}</ref>. This data, coupled with [[Radiometric dating|radiometric]] ages, suggest that Southern Ryukyu might have rotated about 25˚ with respect to the Asian continent in the Miocene at 6-106–10 Ma.<ref name=":17" />.

The Yaeyama Group is a set of sedimentary rocks comprising sandstoneprimarily interbeddedsandstone with coalinterbeds seamsof conglomerate, mudstonelimestone, conglomeratemudstone, and limestonecoal seams, foundand incropping out the Yaeyama IslandIslands, Southern Ryukyu .<ref name=":1" /><ref name=":5" />, and theThe age of the group is Earlyearly Miocene, as suggested by palaeontological[[Paleontology|paleontological]] data.<ref name=":15" /> Coal seams, cross laminae, and trace fossils reveal that the group is possibly derived from sediments in a continental shelf .<ref name=":1" /><ref name=":5" />. The group shows less deformation such as tilting and folding than the Eocene formations of Southern Ryukyu, suggesting that Southern Ryukyu has been stable since the early Miocene.<ref name=":1" />.

The Shimajiri Group consists of an upper and a lower member. The upper member (Shinzato) of late Miocene or Pliocene age consists of tuff and shale; the lower member (Yonabaru) of Miocene age contains shale interbedded with siltstone and sandstone.<ref name=":18">{{cite report|last1=LeRoy,|first1= L. W. (|date=1964). |title=Smaller foraminifera from the late Tertiary of southern Okinawa|doi=10. ''3133/pp454F|series=US Geological Survey Professional Paper,Papers|volume= 454'', 1|pages=1–58|doi-58.access=free}}</ref>.

The Shimajiri Group is the first geological unit to be found across Northern, Central, and Southern Ryukyu.<ref name=":1" /><ref name=":5" />. Northern and, Central Ryukyu, and Southern Ryukyu may have had different basins and tectonic settings prior to the Late Miocene (the age of deposition of the group).<ref name=":1" />. Despite being widely distributed inacross the East China Sea, the Ryukyu Arc and its [[forearc]], the group does not occur in the southern Okinawa Trough.<ref name=":3" />. Rifting[[Rift]]ing of the southern Okinawa Trough preceded the deposition of the group .<ref name=":3" />.

The Ryukyu Group is Pleistocene deposits formed after the development of the Shimajiri Group but before [[Holocene]] sediments had been deposited.<ref name=":19">{{cite journal|last1=Furukawa,|first1= H. (|date=1979). |title=Quaternary geologic history of the Ryukyu Islands.|journal= Bulletin of the Science and Engineering Division, University of the Ryukyus (Mathematics and Natural Sciences),|volume= 27,|pages= 99-161. http://99–161|hdl.handle.net/=20.500.12000/23768}}</ref>. It is distributed in Central and Southern Ryukyu and is marked by a distinct [[unconformity]] above the Shimajiri Group.<ref name=":19">< /ref>. The group comprises predominantly the Ryukyu Limestone and Terrace Deposits of sand and gravel.<ref name=":19">< /ref>. The Ryukyu Limestone is generally 40-60m40–60m thick and is characterised by post-depositional faulting, which resulted in the formation of terraces and the associated sediments (Terrace Deposits).<ref name=":19">< /ref>.

Following the deposition of the Ryukyu Limestone, prevalent NW-SEnorthwest–southeast faulting across the Ryukyu Arc resulted in an episode of dome-like [[tectonic uplift|uplifting]] of basement rocks in the Ryukyu Islands, named the ‘Uruma'Uruma Movement’Movement'.<ref name=":20">{{cite journal|author1=Quaternary ReasechResearch Group of Southwest Japan. (|date=1968).|title=西南日本の第四紀地殻変動|trans-title= Quaternary Crustal Movements in Southwest Japan|language=Japanese |volume= 2|pages= 15–24|journal=地質学論集|url=https://dl.ndl.go.jp/view/download/digidepo_10808937_po_ART0003485601.pdf?contentNo=1&alternativeNo=}}</ref>

[[File:Evolution of the Ryukyu Arc.png|thumb|513x480pxupright=1.8|right|Evolution of the Ryukyu Arc. Modified from Ujiie (1994).<ref name=":21" />]]

Along the Ryukyu Trench, the Philippine Sea Plate is subducting northwestward under the Eurasian Plate at an estimated velocity of 5-7 5–7&nbsp;cm/year.<ref name=":7" />. The subduction angles become increasingly oblique to the arc toward south.<ref name=":7">{{cite journal |last1=Seno, |first1=T., |last2=Stein, |first2=S., & |last3=Gripp, |first3=A. E. (1993). |title=A model for the motion of the Philippine Sea platePlate consistent with NUVEL‐1NUVEL-1 and geological data. ''|journal=Journal of Geophysical Research: Solid Earth, |date=1993 |volume=98''( |issue=B10 |pages=17941–17948 |doi=10.1029/93JB00782|bibcode=1993JGR....9817941S }}</ref> Global Positioning System data show that southern Kyushu and the Ryukyu Arc migrate southeastward (toward the Ryukyu Trench) relative to Eurasia, 17941as compared to the westward-17948northwestward migration of other arcs of Japan.</ref name=":8">{{cite journal |last1=Sagiya |first1=T. |last2=Miyazaki |first2=S. |last3=Tada |first3=T. |title=Continuous GPS Array and Present-day Crustal Deformation of Japan |journal=Pure and Applied Geophysics |date=2000 |volume=157 |issue=11 |pages=2303–2322 |doi=10.1007/PL00022507}}</ref>

Permian-Jurassic accretionary prisms accumulated along the eastern side of [[Pangaea|Pangea]], where the [[Panthalassa|ancient Pacific]] Plate subducted under the ancient Asian continental block.<ref name=":23">{{cite journal |last1=Taira, |first1=A. (2001). |title=Tectonic evolutionEvolution of the Japanese islandIsland arcArc system.System ''|journal=Annual Review of Earth and Planetary Sciences, |date=2001 |volume=29''( |issue=1), |pages=109–134 |doi=10.1146/annurev.earth.29.1.109-134|bibcode=2001AREPS..29..109T }}</ref>. Vast regions of the Japan Island Arc, including the Ryukyu Arc, developed from accretionaryaccretions processespertinent associated withto the subduction induring the Jurassic.<ref name=":23" />. Fossil and paleomagnetic evidence from the Shimanto Group suggests that subduction of a young oceanic plate took placeoccurred in the Late Cretaceous (about 70 Ma) to the Paleogene.<ref name=":23" />. Subduction and accretion may have stopped in late Eocene prior to the deposition of the Neogene-Quaternary Shimajiri Group.<ref name=":21" />.

Deposition of continental shelf sediments (the Yaeyama Group) took place in Southern Ryukyu, which at the time was stable and had no crustal movement, during early Miocene.<ref name=":1" /><ref name=":6" /><ref name=":21">{{cite journal |last1=Ujiié, |first1=H. (1994). |title=Early Pleistocene birth of the Okinawa Trough and Ryukyu Island Arc at the northwestern margin of the Pacific: evidence from Late Cenozoic planktonic foraminiferal zonation. ''|journal=Palaeogeography, Palaeoclimatology, Palaeoecology, |date=1994 |volume=108''(3-4), 457-474.|issue=3–4 https://|pages=457–474 |doi.org/=10.1016/0031-0182(94)90246-1|bibcode=1994PPP...108..457U }}</ref>. After a cessation of subduction around 10-610–6 Ma, the Philippine Sea Plate resumed subducting since the late Miocene (about 6 Ma), leading to back-arc spreading of the Okinawa Trough.<ref name=":22">{{cite journal |last1=Kamata, |first1=H., & |last2=Kodama, |first2=K. (1994). |title=Tectonics of an arc-arc junction: an example from Kyushu Island at the junction of the Southwest Japan Arc and the Ryukyu Arc. ''|journal=Tectonophysics, |date=1994 |volume=233''(1-2), 69-81.|issue=1–2 https://|pages=69–81 |doi.org/=10.1016/0040-1951(94)90220-8|bibcode=1994Tectp.233...69K }}</ref>. Initial rifting of the northern Okinawa Trough may have caused a counterclockwise rotation in Northern Ryukyu and southern Kyushu after 6 Ma.<ref name=":22" />. Meanwhile, paleomagnetic data suggestrecord thata Southernclockwise Ryukyurotation rotatedof clockwiseSouthern Ryukyu after 10 Ma.<ref name=":17" />. [[Reflection seismology|Seismic reflection]] surveys indicate thatinitial tectonicrifting processesof relatedthe tosouthern initialpart riftingof likethe crustalOkinawa doming,Trough erosionin the early Pleistocene, subsidencewhich andgave sedimentationrise dominatedto thedistinct Okinawatectonic Troughprocesses, duringi.e., the[[sedimentation]], earlycrustal Pleistocenedoming, [[erosion]], and [[Tectonic subsidence|subsidence]].<ref name=":3" /> The emergence of the Ryukyu Arc, together with the subsidence of the Okinawa Trough, may have occurred in the late Pleistocene (1.7-07–0.5 Ma) after the development of the Shimajiri Group and before that of the Ryukyu Group.<ref name=":21" />. The back-arc rifting and associated sedimentation in the southern Okinawa Trough have continued since 2 Ma.<ref name=":3" />.

[[Category:VolcanicIsland arcs]]