Petrogenesis of a Late Jurassic Peraluminous Volcanic Complex and its High-Mg, Potassic, Quenched Enclaves at Xiangshan, Southeast China

A late Mesozoic belt of volcanic–intrusive complexes occurs in SE China. Volcanic activity at Xiangshan in the NW of the belt took place mainly in the Late Jurassic (158–135 Ma). The volcanic rocks from the Xiangshan volcanic complex include rhyolitic crystal tuffs, welded tuffs, rhyolite lavas, por...

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Veröffentlicht in:	Journal of petrology 2005-06, Vol.46 (6), p.1121-1154
Hauptverfasser:	JIANG, YAO-HUI, LING, HONG-FEI, JIANG, SHAO-YONG, FAN, HONG-HAI, SHEN, WEI-ZHOU, NI, PEI
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Schlagworte:	back-arc extension setting geochemistry petrology quenched enclaves SE China volcanic complex Xiangshan
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description	A late Mesozoic belt of volcanic–intrusive complexes occurs in SE China. Volcanic activity at Xiangshan in the NW of the belt took place mainly in the Late Jurassic (158–135 Ma). The volcanic rocks from the Xiangshan volcanic complex include rhyolitic crystal tuffs, welded tuffs, rhyolite lavas, porphyritic lavas, and associated subvolcanic rocks. Mineral assemblages in these magmatic rocks include K-feldspar, plagioclase, quartz, Fe-rich biotite and minor amphibole, orthopyroxene and almandine. Mineral geothermometry indicates a high crystallization temperature (>850°C) for the Xiangshan magmas. The volcanic rocks are generally peraluminous; SiO2 contents are between 65·4% and 76·8% and the samples have high alkalis, rare earth elements (REE), high field strength elements and Ga contents and high Ga/Al ratios, but are depleted in Ba, Sr and transition metals. Trace element geochemistry and Sr–Nd–O isotope systematics imply that the Xiangshan magmas were probably derived from partial melting of Middle Proterozoic metamorphic lower-crustal rocks that had been dehydrated during an earlier thermal event. These features suggest an A-type affinity. Quenched mafic enclaves, hosted by the subvolcanic rocks, consist mainly of alkali feldspar, plagioclase, clinopyroxene, phlogopite and amphibole. Geothermometry calculations indicate that the primary magmas that chilled to form the quenched enclaves had anomalously high temperatures (>1200°C). The quenched enclaves have boninitic affinities; for example, intermediate SiO2 contents, high MgO and low TiO2 contents, high Mg-numbers and high concentrations of Sc, Ni, Co and V. However, they also have shoshonitic characteristics, e.g. enrichment in alkalis, high K2O contents with high K2O/Na2O ratios, high light REE and large ion lithophile element contents, low initial εNd values (−4·2) and high initial 87Sr/86Sr ratios (0·7081). We suggest a phlogopite-bearing spinel harzburgitic lithospheric mantle source for these high-Mg potassic magmas. Underplating of such anomalously high-temperature magmas could have induced granulite-facies lower-crustal rocks to partially melt and generate the Xiangshan A-type volcanic suite. A back-arc extensional setting, related to subduction of the Palaeo-Pacific plate, is favoured to explain the petrogenesis of the Xiangshan volcanic complex and quenched enclaves.
doi_str_mv	10.1093/petrology/egi012
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Volcanic activity at Xiangshan in the NW of the belt took place mainly in the Late Jurassic (158–135 Ma). The volcanic rocks from the Xiangshan volcanic complex include rhyolitic crystal tuffs, welded tuffs, rhyolite lavas, porphyritic lavas, and associated subvolcanic rocks. Mineral assemblages in these magmatic rocks include K-feldspar, plagioclase, quartz, Fe-rich biotite and minor amphibole, orthopyroxene and almandine. Mineral geothermometry indicates a high crystallization temperature (>850°C) for the Xiangshan magmas. The volcanic rocks are generally peraluminous; SiO2 contents are between 65·4% and 76·8% and the samples have high alkalis, rare earth elements (REE), high field strength elements and Ga contents and high Ga/Al ratios, but are depleted in Ba, Sr and transition metals. Trace element geochemistry and Sr–Nd–O isotope systematics imply that the Xiangshan magmas were probably derived from partial melting of Middle Proterozoic metamorphic lower-crustal rocks that had been dehydrated during an earlier thermal event. These features suggest an A-type affinity. Quenched mafic enclaves, hosted by the subvolcanic rocks, consist mainly of alkali feldspar, plagioclase, clinopyroxene, phlogopite and amphibole. Geothermometry calculations indicate that the primary magmas that chilled to form the quenched enclaves had anomalously high temperatures (>1200°C). The quenched enclaves have boninitic affinities; for example, intermediate SiO2 contents, high MgO and low TiO2 contents, high Mg-numbers and high concentrations of Sc, Ni, Co and V. However, they also have shoshonitic characteristics, e.g. enrichment in alkalis, high K2O contents with high K2O/Na2O ratios, high light REE and large ion lithophile element contents, low initial εNd values (−4·2) and high initial 87Sr/86Sr ratios (0·7081). We suggest a phlogopite-bearing spinel harzburgitic lithospheric mantle source for these high-Mg potassic magmas. Underplating of such anomalously high-temperature magmas could have induced granulite-facies lower-crustal rocks to partially melt and generate the Xiangshan A-type volcanic suite. A back-arc extensional setting, related to subduction of the Palaeo-Pacific plate, is favoured to explain the petrogenesis of the Xiangshan volcanic complex and quenched enclaves.</description><identifier>ISSN: 0022-3530</identifier><identifier>EISSN: 1460-2415</identifier><identifier>DOI: 10.1093/petrology/egi012</identifier><language>eng</language><publisher>Oxford: Oxford University Press</publisher><subject>back-arc extension setting ; geochemistry ; petrology ; quenched enclaves ; SE China ; volcanic complex ; Xiangshan</subject><ispartof>Journal of petrology, 2005-06, Vol.46 (6), p.1121-1154</ispartof><rights>Copyright Oxford University Press(England) Jun 2005</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-a439t-fdbaf8cb1f8a77fe7b2c72d7010778f24524616048510595289be96a95c133b83</citedby><cites>FETCH-LOGICAL-a439t-fdbaf8cb1f8a77fe7b2c72d7010778f24524616048510595289be96a95c133b83</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27924,27925</link.rule.ids></links><search><creatorcontrib>JIANG, YAO-HUI</creatorcontrib><creatorcontrib>LING, HONG-FEI</creatorcontrib><creatorcontrib>JIANG, SHAO-YONG</creatorcontrib><creatorcontrib>FAN, HONG-HAI</creatorcontrib><creatorcontrib>SHEN, WEI-ZHOU</creatorcontrib><creatorcontrib>NI, PEI</creatorcontrib><title>Petrogenesis of a Late Jurassic Peraluminous Volcanic Complex and its High-Mg, Potassic, Quenched Enclaves at Xiangshan, Southeast China</title><title>Journal of petrology</title><addtitle>J. Petrology</addtitle><description>A late Mesozoic belt of volcanic–intrusive complexes occurs in SE China. Volcanic activity at Xiangshan in the NW of the belt took place mainly in the Late Jurassic (158–135 Ma). The volcanic rocks from the Xiangshan volcanic complex include rhyolitic crystal tuffs, welded tuffs, rhyolite lavas, porphyritic lavas, and associated subvolcanic rocks. Mineral assemblages in these magmatic rocks include K-feldspar, plagioclase, quartz, Fe-rich biotite and minor amphibole, orthopyroxene and almandine. Mineral geothermometry indicates a high crystallization temperature (>850°C) for the Xiangshan magmas. The volcanic rocks are generally peraluminous; SiO2 contents are between 65·4% and 76·8% and the samples have high alkalis, rare earth elements (REE), high field strength elements and Ga contents and high Ga/Al ratios, but are depleted in Ba, Sr and transition metals. Trace element geochemistry and Sr–Nd–O isotope systematics imply that the Xiangshan magmas were probably derived from partial melting of Middle Proterozoic metamorphic lower-crustal rocks that had been dehydrated during an earlier thermal event. These features suggest an A-type affinity. Quenched mafic enclaves, hosted by the subvolcanic rocks, consist mainly of alkali feldspar, plagioclase, clinopyroxene, phlogopite and amphibole. Geothermometry calculations indicate that the primary magmas that chilled to form the quenched enclaves had anomalously high temperatures (>1200°C). The quenched enclaves have boninitic affinities; for example, intermediate SiO2 contents, high MgO and low TiO2 contents, high Mg-numbers and high concentrations of Sc, Ni, Co and V. However, they also have shoshonitic characteristics, e.g. enrichment in alkalis, high K2O contents with high K2O/Na2O ratios, high light REE and large ion lithophile element contents, low initial εNd values (−4·2) and high initial 87Sr/86Sr ratios (0·7081). We suggest a phlogopite-bearing spinel harzburgitic lithospheric mantle source for these high-Mg potassic magmas. Underplating of such anomalously high-temperature magmas could have induced granulite-facies lower-crustal rocks to partially melt and generate the Xiangshan A-type volcanic suite. A back-arc extensional setting, related to subduction of the Palaeo-Pacific plate, is favoured to explain the petrogenesis of the Xiangshan volcanic complex and quenched enclaves.</description><subject>back-arc extension setting</subject><subject>geochemistry</subject><subject>petrology</subject><subject>quenched enclaves</subject><subject>SE China</subject><subject>volcanic complex</subject><subject>Xiangshan</subject><issn>0022-3530</issn><issn>1460-2415</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2005</creationdate><recordtype>article</recordtype><recordid>eNo9kMFO3DAURS1UJKa0e5YW60l5tpM4WdIImNKpGFRaEBvrJeMkphl7sB0Ef9DPbuggVk-6Ouc-6RJyxOALg1KcbHX0bnDdy4nuDDC-R2YszSHhKcs-kBkA54nIBByQjyE8ALAphxn5u3r1Om11MIG6liJdYtT0cvQYgmnoSnscxo2xbgz0txsatFNauc120M8U7ZqaGOjCdH3yo5vTlYv_vTm9HrVter2mZ7YZ8EkHipHeGbRd6NHO6U83xl5jiLTqjcVPZL_FIejPb_eQ_Do_u6kWyfLq4lt1ukwwFWVM2nWNbdHUrC1QylbLmjeSryUwkLJoeZrxNGc5pEXGICszXpS1LnMss4YJURfikBzverfePY46RPXgRm-nl4qzsoRUCj5BsIMa70LwulVbbzboXxQD9Tq3ep9b7eaelGSnmBD18zuP_o_KpZCZWtzdq698cXNffL9VlfgHRPqGiw</recordid><startdate>20050601</startdate><enddate>20050601</enddate><creator>JIANG, YAO-HUI</creator><creator>LING, HONG-FEI</creator><creator>JIANG, SHAO-YONG</creator><creator>FAN, HONG-HAI</creator><creator>SHEN, WEI-ZHOU</creator><creator>NI, PEI</creator><general>Oxford University Press</general><general>Oxford Publishing Limited (England)</general><scope>BSCLL</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7UA</scope><scope>8BQ</scope><scope>8FD</scope><scope>C1K</scope><scope>F1W</scope><scope>FR3</scope><scope>H8D</scope><scope>H96</scope><scope>JG9</scope><scope>KR7</scope><scope>L.G</scope><scope>L7M</scope></search><sort><creationdate>20050601</creationdate><title>Petrogenesis of a Late Jurassic Peraluminous Volcanic Complex and its High-Mg, Potassic, Quenched Enclaves at Xiangshan, Southeast China</title><author>JIANG, YAO-HUI ; LING, HONG-FEI ; JIANG, SHAO-YONG ; FAN, HONG-HAI ; SHEN, WEI-ZHOU ; NI, PEI</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a439t-fdbaf8cb1f8a77fe7b2c72d7010778f24524616048510595289be96a95c133b83</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2005</creationdate><topic>back-arc extension setting</topic><topic>geochemistry</topic><topic>petrology</topic><topic>quenched enclaves</topic><topic>SE China</topic><topic>volcanic complex</topic><topic>Xiangshan</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>JIANG, YAO-HUI</creatorcontrib><creatorcontrib>LING, HONG-FEI</creatorcontrib><creatorcontrib>JIANG, SHAO-YONG</creatorcontrib><creatorcontrib>FAN, HONG-HAI</creatorcontrib><creatorcontrib>SHEN, WEI-ZHOU</creatorcontrib><creatorcontrib>NI, PEI</creatorcontrib><collection>Istex</collection><collection>CrossRef</collection><collection>Water Resources Abstracts</collection><collection>METADEX</collection><collection>Technology Research Database</collection><collection>Environmental Sciences and Pollution Management</collection><collection>ASFA: Aquatic Sciences and Fisheries Abstracts</collection><collection>Engineering Research Database</collection><collection>Aerospace Database</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) 2: Ocean Technology, Policy & Non-Living Resources</collection><collection>Materials Research Database</collection><collection>Civil Engineering Abstracts</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) Professional</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>Journal of petrology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>JIANG, YAO-HUI</au><au>LING, HONG-FEI</au><au>JIANG, SHAO-YONG</au><au>FAN, HONG-HAI</au><au>SHEN, WEI-ZHOU</au><au>NI, PEI</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Petrogenesis of a Late Jurassic Peraluminous Volcanic Complex and its High-Mg, Potassic, Quenched Enclaves at Xiangshan, Southeast China</atitle><jtitle>Journal of petrology</jtitle><addtitle>J. Petrology</addtitle><date>2005-06-01</date><risdate>2005</risdate><volume>46</volume><issue>6</issue><spage>1121</spage><epage>1154</epage><pages>1121-1154</pages><issn>0022-3530</issn><eissn>1460-2415</eissn><abstract>A late Mesozoic belt of volcanic–intrusive complexes occurs in SE China. Volcanic activity at Xiangshan in the NW of the belt took place mainly in the Late Jurassic (158–135 Ma). The volcanic rocks from the Xiangshan volcanic complex include rhyolitic crystal tuffs, welded tuffs, rhyolite lavas, porphyritic lavas, and associated subvolcanic rocks. Mineral assemblages in these magmatic rocks include K-feldspar, plagioclase, quartz, Fe-rich biotite and minor amphibole, orthopyroxene and almandine. Mineral geothermometry indicates a high crystallization temperature (>850°C) for the Xiangshan magmas. The volcanic rocks are generally peraluminous; SiO2 contents are between 65·4% and 76·8% and the samples have high alkalis, rare earth elements (REE), high field strength elements and Ga contents and high Ga/Al ratios, but are depleted in Ba, Sr and transition metals. Trace element geochemistry and Sr–Nd–O isotope systematics imply that the Xiangshan magmas were probably derived from partial melting of Middle Proterozoic metamorphic lower-crustal rocks that had been dehydrated during an earlier thermal event. These features suggest an A-type affinity. Quenched mafic enclaves, hosted by the subvolcanic rocks, consist mainly of alkali feldspar, plagioclase, clinopyroxene, phlogopite and amphibole. Geothermometry calculations indicate that the primary magmas that chilled to form the quenched enclaves had anomalously high temperatures (>1200°C). The quenched enclaves have boninitic affinities; for example, intermediate SiO2 contents, high MgO and low TiO2 contents, high Mg-numbers and high concentrations of Sc, Ni, Co and V. However, they also have shoshonitic characteristics, e.g. enrichment in alkalis, high K2O contents with high K2O/Na2O ratios, high light REE and large ion lithophile element contents, low initial εNd values (−4·2) and high initial 87Sr/86Sr ratios (0·7081). We suggest a phlogopite-bearing spinel harzburgitic lithospheric mantle source for these high-Mg potassic magmas. Underplating of such anomalously high-temperature magmas could have induced granulite-facies lower-crustal rocks to partially melt and generate the Xiangshan A-type volcanic suite. A back-arc extensional setting, related to subduction of the Palaeo-Pacific plate, is favoured to explain the petrogenesis of the Xiangshan volcanic complex and quenched enclaves.</abstract><cop>Oxford</cop><pub>Oxford University Press</pub><doi>10.1093/petrology/egi012</doi><tpages>34</tpages><oa>free_for_read</oa></addata></record>
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subjects	back-arc extension setting geochemistry petrology quenched enclaves SE China volcanic complex Xiangshan
title	Petrogenesis of a Late Jurassic Peraluminous Volcanic Complex and its High-Mg, Potassic, Quenched Enclaves at Xiangshan, Southeast China
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