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Lithospheric thinning and ignition of a Cordilleran magmatic flare-up: Geochemical and O-Hf isotopic constraints from Cretaceous plutons in southern Korea

[Display omitted] •The Cretaceous flare-up along central Korea commenced in the Albian.•The flare-up was ignited by delamination of an overthickened arc lithosphere.•Late Cretaceous granites were derived from rejuvenated crustal basement.•Zircon O-Hf isotopes reflect a selective input from mantle an...

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Published in:	Di xue qian yuan. 2023-01, Vol.14 (1), p.101492, Article 101492
Main Authors:	Cheong, Albert Chang-sik, Jung, Min-Ji, Jo, Hui Je, Kim, Jeongmin, Lee, Shinae, Jeong, Youn-Joong
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Language:	English
Subjects:	Anomalies Asthenosphere Basements Belts Chondrites Cordilleran arc Cretaceous flare-up Crustal rejuvenation Delamination Evolution Geochemistry Geochronology Granite Igneous rocks Isotopes Korean Peninsula Lava Lithospheric thinning Magma Massifs National parks Rare earth elements Rocks Shear zone Thinning Ytterbium Yttrium Zircon
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creator	Cheong, Albert Chang-sik Jung, Min-Ji Jo, Hui Je Kim, Jeongmin Lee, Shinae Jeong, Youn-Joong
description	[Display omitted] •The Cretaceous flare-up along central Korea commenced in the Albian.•The flare-up was ignited by delamination of an overthickened arc lithosphere.•Late Cretaceous granites were derived from rejuvenated crustal basement.•Zircon O-Hf isotopes reflect a selective input from mantle and crustal reservoirs.•Core-to-rim variation in zircon O-Hf isotopes reflects a sequence of magma process. Northeast Asian continental margins contain the products of magma emplacement driven by prolonged subduction of the (paleo-)Pacific plate. As observed in many Cordilleran arcs, magmatic evolution in this area was punctuated by high-volume pulses amid background periods. The present study investigates the early evolution of the Cretaceous magmatic flare-up using new and published geochronological, geochemical, and O-Hf isotope data from plutonic rocks in the southern Korean Peninsula. After a long (∼50 m.y.) magmatic hiatus and the development of the Honam Shear Zone through flat-slab subduction, the Cretaceous flare-up began with the intrusion of monzonites, granodiorites, and granites in the inboard Gyeonggi Massif and the intervening Okcheon Belt. Compared to Jurassic granitoids formed during the former flare-up, Albian (∼111 Ma) monzonites found in the Eopyeong area of the Okcheon Belt have distinctly higher zircon εHf(t) (−7.5 ± 1.3) and δ18O (7.78‰ ± 0.25‰) values and lower whole-rock La/Yb and Sr/Y ratios. The voluminous coeval granodiorite and granite plutons in the Gyeonggi Massif are further reduced in Sr/Y and to a lesser extent, in La/Yb, and have higher zircon εHf(t) values (−13 to −19) than the Precambrian basement (ca. −30). These chemical and isotopic features indicate that Early Cretaceous lithospheric thinning, most likely resulting from delamination of tectonically and magmatically overthickened lithospheric keel that was metasomatized during prior subduction episodes, and consequent asthenospheric upwelling played vital roles in igniting the magmatic flare-up. The O-Hf isotopic ranges of synmagmatic zircons from the Albian plutons and their Paleoproterozoic and Jurassic inheritance attest to the involvement of lithospheric mantle and crustal basement in magma generation during this decratonization event. Arc magmatism then migrated trenchward and culminated in the Late Cretaceous, yielding widespread granitoid rocks emplaced at shallow crustal levels. The early Late Cretaceous (94–85 Ma) granites now prevalent in Seoraksan-Woraksan-Sokrisa
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Northeast Asian continental margins contain the products of magma emplacement driven by prolonged subduction of the (paleo-)Pacific plate. As observed in many Cordilleran arcs, magmatic evolution in this area was punctuated by high-volume pulses amid background periods. The present study investigates the early evolution of the Cretaceous magmatic flare-up using new and published geochronological, geochemical, and O-Hf isotope data from plutonic rocks in the southern Korean Peninsula. After a long (∼50 m.y.) magmatic hiatus and the development of the Honam Shear Zone through flat-slab subduction, the Cretaceous flare-up began with the intrusion of monzonites, granodiorites, and granites in the inboard Gyeonggi Massif and the intervening Okcheon Belt. Compared to Jurassic granitoids formed during the former flare-up, Albian (∼111 Ma) monzonites found in the Eopyeong area of the Okcheon Belt have distinctly higher zircon εHf(t) (−7.5 ± 1.3) and δ18O (7.78‰ ± 0.25‰) values and lower whole-rock La/Yb and Sr/Y ratios. The voluminous coeval granodiorite and granite plutons in the Gyeonggi Massif are further reduced in Sr/Y and to a lesser extent, in La/Yb, and have higher zircon εHf(t) values (−13 to −19) than the Precambrian basement (ca. −30). These chemical and isotopic features indicate that Early Cretaceous lithospheric thinning, most likely resulting from delamination of tectonically and magmatically overthickened lithospheric keel that was metasomatized during prior subduction episodes, and consequent asthenospheric upwelling played vital roles in igniting the magmatic flare-up. The O-Hf isotopic ranges of synmagmatic zircons from the Albian plutons and their Paleoproterozoic and Jurassic inheritance attest to the involvement of lithospheric mantle and crustal basement in magma generation during this decratonization event. Arc magmatism then migrated trenchward and culminated in the Late Cretaceous, yielding widespread granitoid rocks emplaced at shallow crustal levels. The early Late Cretaceous (94–85 Ma) granites now prevalent in Seoraksan-Woraksan-Sokrisan National Parks are highly silicic and display flat chondrite-normalized rare earth element patterns with deep Eu anomalies. Synmagmatic zircons in these granites mimic their host rock’s chemistry. Delamination-related rejuvenation of crustal protoliths is indicated by zircon εHf(t) values of granites (−6 to −20) that are consistently higher than the Precambrian basement value. Concomitant core-to-rim variation in zircon O-Hf isotopic compositions reflects a typical sequence of crustal assimilation and fresh input into the magma chamber.</description><identifier>ISSN: 1674-9871</identifier><identifier>EISSN: 2588-9192</identifier><identifier>DOI: 10.1016/j.gsf.2022.101492</identifier><language>eng</language><publisher>Oxford: Elsevier B.V</publisher><subject>Anomalies ; Asthenosphere ; Basements ; Belts ; Chondrites ; Cordilleran arc ; Cretaceous flare-up ; Crustal rejuvenation ; Delamination ; Evolution ; Geochemistry ; Geochronology ; Granite ; Igneous rocks ; Isotopes ; Korean Peninsula ; Lava ; Lithospheric thinning ; Magma ; Massifs ; National parks ; Rare earth elements ; Rocks ; Shear zone ; Thinning ; Ytterbium ; Yttrium ; Zircon</subject><ispartof>Di xue qian yuan., 2023-01, Vol.14 (1), p.101492, Article 101492</ispartof><rights>2022 China University of Geosciences (Beijing) and Peking University</rights><rights>Copyright Elsevier Science Ltd. Jan 2023</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-a391t-80e0a5b650771776988daff25b908a77ba1e1305af82db1e29ccdb950d7d72463</citedby><cites>FETCH-LOGICAL-a391t-80e0a5b650771776988daff25b908a77ba1e1305af82db1e29ccdb950d7d72463</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,776,780,27903,27904</link.rule.ids></links><search><creatorcontrib>Cheong, Albert Chang-sik</creatorcontrib><creatorcontrib>Jung, Min-Ji</creatorcontrib><creatorcontrib>Jo, Hui Je</creatorcontrib><creatorcontrib>Kim, Jeongmin</creatorcontrib><creatorcontrib>Lee, Shinae</creatorcontrib><creatorcontrib>Jeong, Youn-Joong</creatorcontrib><title>Lithospheric thinning and ignition of a Cordilleran magmatic flare-up: Geochemical and O-Hf isotopic constraints from Cretaceous plutons in southern Korea</title><title>Di xue qian yuan.</title><description>[Display omitted] •The Cretaceous flare-up along central Korea commenced in the Albian.•The flare-up was ignited by delamination of an overthickened arc lithosphere.•Late Cretaceous granites were derived from rejuvenated crustal basement.•Zircon O-Hf isotopes reflect a selective input from mantle and crustal reservoirs.•Core-to-rim variation in zircon O-Hf isotopes reflects a sequence of magma process. Northeast Asian continental margins contain the products of magma emplacement driven by prolonged subduction of the (paleo-)Pacific plate. As observed in many Cordilleran arcs, magmatic evolution in this area was punctuated by high-volume pulses amid background periods. The present study investigates the early evolution of the Cretaceous magmatic flare-up using new and published geochronological, geochemical, and O-Hf isotope data from plutonic rocks in the southern Korean Peninsula. After a long (∼50 m.y.) magmatic hiatus and the development of the Honam Shear Zone through flat-slab subduction, the Cretaceous flare-up began with the intrusion of monzonites, granodiorites, and granites in the inboard Gyeonggi Massif and the intervening Okcheon Belt. Compared to Jurassic granitoids formed during the former flare-up, Albian (∼111 Ma) monzonites found in the Eopyeong area of the Okcheon Belt have distinctly higher zircon εHf(t) (−7.5 ± 1.3) and δ18O (7.78‰ ± 0.25‰) values and lower whole-rock La/Yb and Sr/Y ratios. The voluminous coeval granodiorite and granite plutons in the Gyeonggi Massif are further reduced in Sr/Y and to a lesser extent, in La/Yb, and have higher zircon εHf(t) values (−13 to −19) than the Precambrian basement (ca. −30). These chemical and isotopic features indicate that Early Cretaceous lithospheric thinning, most likely resulting from delamination of tectonically and magmatically overthickened lithospheric keel that was metasomatized during prior subduction episodes, and consequent asthenospheric upwelling played vital roles in igniting the magmatic flare-up. The O-Hf isotopic ranges of synmagmatic zircons from the Albian plutons and their Paleoproterozoic and Jurassic inheritance attest to the involvement of lithospheric mantle and crustal basement in magma generation during this decratonization event. Arc magmatism then migrated trenchward and culminated in the Late Cretaceous, yielding widespread granitoid rocks emplaced at shallow crustal levels. The early Late Cretaceous (94–85 Ma) granites now prevalent in Seoraksan-Woraksan-Sokrisan National Parks are highly silicic and display flat chondrite-normalized rare earth element patterns with deep Eu anomalies. Synmagmatic zircons in these granites mimic their host rock’s chemistry. Delamination-related rejuvenation of crustal protoliths is indicated by zircon εHf(t) values of granites (−6 to −20) that are consistently higher than the Precambrian basement value. Concomitant core-to-rim variation in zircon O-Hf isotopic compositions reflects a typical sequence of crustal assimilation and fresh input into the magma chamber.</description><subject>Anomalies</subject><subject>Asthenosphere</subject><subject>Basements</subject><subject>Belts</subject><subject>Chondrites</subject><subject>Cordilleran arc</subject><subject>Cretaceous flare-up</subject><subject>Crustal rejuvenation</subject><subject>Delamination</subject><subject>Evolution</subject><subject>Geochemistry</subject><subject>Geochronology</subject><subject>Granite</subject><subject>Igneous rocks</subject><subject>Isotopes</subject><subject>Korean Peninsula</subject><subject>Lava</subject><subject>Lithospheric thinning</subject><subject>Magma</subject><subject>Massifs</subject><subject>National parks</subject><subject>Rare earth elements</subject><subject>Rocks</subject><subject>Shear zone</subject><subject>Thinning</subject><subject>Ytterbium</subject><subject>Yttrium</subject><subject>Zircon</subject><issn>1674-9871</issn><issn>2588-9192</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><recordid>eNp9UUGOEzEQtBBIRMs-gJslzhNsJzO24YQi2EVE2gucrR67nTiasQfbg8RXeO06hDN1abW6qrtaRchbzrac8eH9ZXsqfiuYENd-r8ULshG9Up3mWrwkGz7IfaeV5K_JfSkX1iClkpJtyJ9jqOdUljPmYGk9hxhDPFGIjoZTDDWkSJOnQA8puzBNmCHSGU4z1Mb3E2Ts1uUDfcBkzzgHC9Nf8VP36Gkoqaal8WyKpWYIsRbqc5rpIWMFi2ktdJnW2sY0RFrSWpuRSL-ljPCGvPIwFbz_V-_Ijy-fvx8eu-PTw9fDp2MHO81rpxgy6Mehbz9xKQetlAPvRT9qpkDKETjyHevBK-FGjkJb60bdMyedFPthd0fe3fYuOf1csVRzSWuO7aQRsmEYFGONxW8sm1MpGb1Zcpgh_zacmWsK5mJaCuaagrml0DQfbxps9n8FzKbYgNGiCxltNS6F_6ifAXtTkdw</recordid><startdate>202301</startdate><enddate>202301</enddate><creator>Cheong, Albert Chang-sik</creator><creator>Jung, Min-Ji</creator><creator>Jo, Hui Je</creator><creator>Kim, Jeongmin</creator><creator>Lee, Shinae</creator><creator>Jeong, Youn-Joong</creator><general>Elsevier B.V</general><general>Elsevier Science Ltd</general><scope>6I.</scope><scope>AAFTH</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>8FD</scope><scope>H8D</scope><scope>L7M</scope></search><sort><creationdate>202301</creationdate><title>Lithospheric thinning and ignition of a Cordilleran magmatic flare-up: Geochemical and O-Hf isotopic constraints from Cretaceous plutons in southern Korea</title><author>Cheong, Albert Chang-sik ; Jung, Min-Ji ; Jo, Hui Je ; Kim, Jeongmin ; Lee, Shinae ; Jeong, Youn-Joong</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a391t-80e0a5b650771776988daff25b908a77ba1e1305af82db1e29ccdb950d7d72463</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2023</creationdate><topic>Anomalies</topic><topic>Asthenosphere</topic><topic>Basements</topic><topic>Belts</topic><topic>Chondrites</topic><topic>Cordilleran arc</topic><topic>Cretaceous flare-up</topic><topic>Crustal rejuvenation</topic><topic>Delamination</topic><topic>Evolution</topic><topic>Geochemistry</topic><topic>Geochronology</topic><topic>Granite</topic><topic>Igneous rocks</topic><topic>Isotopes</topic><topic>Korean Peninsula</topic><topic>Lava</topic><topic>Lithospheric thinning</topic><topic>Magma</topic><topic>Massifs</topic><topic>National parks</topic><topic>Rare earth elements</topic><topic>Rocks</topic><topic>Shear zone</topic><topic>Thinning</topic><topic>Ytterbium</topic><topic>Yttrium</topic><topic>Zircon</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Cheong, Albert Chang-sik</creatorcontrib><creatorcontrib>Jung, Min-Ji</creatorcontrib><creatorcontrib>Jo, Hui Je</creatorcontrib><creatorcontrib>Kim, Jeongmin</creatorcontrib><creatorcontrib>Lee, Shinae</creatorcontrib><creatorcontrib>Jeong, Youn-Joong</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</collection><collection>CrossRef</collection><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>Di xue qian yuan.</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Cheong, Albert Chang-sik</au><au>Jung, Min-Ji</au><au>Jo, Hui Je</au><au>Kim, Jeongmin</au><au>Lee, Shinae</au><au>Jeong, Youn-Joong</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Lithospheric thinning and ignition of a Cordilleran magmatic flare-up: Geochemical and O-Hf isotopic constraints from Cretaceous plutons in southern Korea</atitle><jtitle>Di xue qian yuan.</jtitle><date>2023-01</date><risdate>2023</risdate><volume>14</volume><issue>1</issue><spage>101492</spage><pages>101492-</pages><artnum>101492</artnum><issn>1674-9871</issn><eissn>2588-9192</eissn><abstract>[Display omitted] •The Cretaceous flare-up along central Korea commenced in the Albian.•The flare-up was ignited by delamination of an overthickened arc lithosphere.•Late Cretaceous granites were derived from rejuvenated crustal basement.•Zircon O-Hf isotopes reflect a selective input from mantle and crustal reservoirs.•Core-to-rim variation in zircon O-Hf isotopes reflects a sequence of magma process. Northeast Asian continental margins contain the products of magma emplacement driven by prolonged subduction of the (paleo-)Pacific plate. As observed in many Cordilleran arcs, magmatic evolution in this area was punctuated by high-volume pulses amid background periods. The present study investigates the early evolution of the Cretaceous magmatic flare-up using new and published geochronological, geochemical, and O-Hf isotope data from plutonic rocks in the southern Korean Peninsula. After a long (∼50 m.y.) magmatic hiatus and the development of the Honam Shear Zone through flat-slab subduction, the Cretaceous flare-up began with the intrusion of monzonites, granodiorites, and granites in the inboard Gyeonggi Massif and the intervening Okcheon Belt. Compared to Jurassic granitoids formed during the former flare-up, Albian (∼111 Ma) monzonites found in the Eopyeong area of the Okcheon Belt have distinctly higher zircon εHf(t) (−7.5 ± 1.3) and δ18O (7.78‰ ± 0.25‰) values and lower whole-rock La/Yb and Sr/Y ratios. The voluminous coeval granodiorite and granite plutons in the Gyeonggi Massif are further reduced in Sr/Y and to a lesser extent, in La/Yb, and have higher zircon εHf(t) values (−13 to −19) than the Precambrian basement (ca. −30). These chemical and isotopic features indicate that Early Cretaceous lithospheric thinning, most likely resulting from delamination of tectonically and magmatically overthickened lithospheric keel that was metasomatized during prior subduction episodes, and consequent asthenospheric upwelling played vital roles in igniting the magmatic flare-up. The O-Hf isotopic ranges of synmagmatic zircons from the Albian plutons and their Paleoproterozoic and Jurassic inheritance attest to the involvement of lithospheric mantle and crustal basement in magma generation during this decratonization event. Arc magmatism then migrated trenchward and culminated in the Late Cretaceous, yielding widespread granitoid rocks emplaced at shallow crustal levels. The early Late Cretaceous (94–85 Ma) granites now prevalent in Seoraksan-Woraksan-Sokrisan National Parks are highly silicic and display flat chondrite-normalized rare earth element patterns with deep Eu anomalies. Synmagmatic zircons in these granites mimic their host rock’s chemistry. Delamination-related rejuvenation of crustal protoliths is indicated by zircon εHf(t) values of granites (−6 to −20) that are consistently higher than the Precambrian basement value. Concomitant core-to-rim variation in zircon O-Hf isotopic compositions reflects a typical sequence of crustal assimilation and fresh input into the magma chamber.</abstract><cop>Oxford</cop><pub>Elsevier B.V</pub><doi>10.1016/j.gsf.2022.101492</doi><oa>free_for_read</oa></addata></record>
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subjects	Anomalies Asthenosphere Basements Belts Chondrites Cordilleran arc Cretaceous flare-up Crustal rejuvenation Delamination Evolution Geochemistry Geochronology Granite Igneous rocks Isotopes Korean Peninsula Lava Lithospheric thinning Magma Massifs National parks Rare earth elements Rocks Shear zone Thinning Ytterbium Yttrium Zircon
title	Lithospheric thinning and ignition of a Cordilleran magmatic flare-up: Geochemical and O-Hf isotopic constraints from Cretaceous plutons in southern Korea
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