Origin of the Tudigou intrusion and associated porphyry Cu mineralization in the southern Qinling, Central China: Implication for regional tectonic setting

The Tudigou porphyry Cu deposit is located in the central part of the southern Qinling belt. Copper mineralization is closely associated with monzogranite porphyry. Zircon LA–ICP–MS U–Pb dating of monzogranite porphyry suggests that the ages of magmatism at Tudigou vary between 150 ± 1 and 148 ± 1 M...

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Veröffentlicht in:	Geological journal (Chichester, England) England), 2023-01, Vol.58 (1), p.368-392
Hauptverfasser:	Zhang, Zhong‐Yu, Wang, Yin‐Hong, Liu, Jia‐Jun, Lin, Shan‐Yuan, Zhang, Fang‐Fang, Bo, Zhen‐Yu, Zhang, Wei, Gao, Jian, Li, Hong‐Yu
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Sprache:	eng
Schlagworte:	Belts Compression Copper Depletion Fugacity Igneous rocks Intrusion Isotopes Jurassic Lanthanum Lava LA–ICP–MS zircon U Lithosphere Lu–Hf isotope Magma Mathematical analysis Mesozoic Mineralization Moho Moisture content Molybdenite molybdenite Re–Os dating Orogeny Plutons Porphyry copper porphyry‐type mineralization Radiometric dating Ratios Tectonics Tudigou U‐Pb zircon dating Water content Zircon
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description	The Tudigou porphyry Cu deposit is located in the central part of the southern Qinling belt. Copper mineralization is closely associated with monzogranite porphyry. Zircon LA–ICP–MS U–Pb dating of monzogranite porphyry suggests that the ages of magmatism at Tudigou vary between 150 ± 1 and 148 ± 1 Ma and overlap with the molybdenite Re–Os age of 150–148 Ma, indicating that the Tudigou intrusion and associated mineralization formed during the Late Jurassic. The enrichment in large‐ion lithophile elements, depletion in high‐field‐strength elements, high Ba/Th and La/Yb ratios, and negative correlation between Dy/Yb and La/Sm ratios, together with narrow ranges of εHf(t) values (εHf(t) = −4.0 to +1.4) suggest monzogranite porphyry was derived from a metasomatized lithospheric mantle with minor crustal components contribution, which is also evidenced by the lead isotopic result. The La/Yb ratios of 30 Mesozoic plutons in the southern Qinling belt were used to calculate the Moho depth, which suggests that the magmatism and mineralization in the region occurred during lithosphere thinning in response to the tectonic transition from compression to extension transitional regime. The calculated oxygen fugacity of the Late Mesozoic porphyry deposits in the Qinling–Dabie orogen have identical ΔFMQ values (averaging +1.4 to +2.4). However, the V/Sc ratios (the proxy for water content) are distinct among different deposit sizes, indicating that the dissolved water in the magma plays a critical role in porphyry‐type mineralization. The Tudigou porphyry Cu deposit, which is located in the central part of the southern Qinling belt, formed during lithosphere thinning in response to compression to extension transitional regime. The dissolved water in the magma is the sine qua non of the porphyry‐type mineralization.
doi_str_mv	10.1002/gj.4598
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Copper mineralization is closely associated with monzogranite porphyry. Zircon LA–ICP–MS U–Pb dating of monzogranite porphyry suggests that the ages of magmatism at Tudigou vary between 150 ± 1 and 148 ± 1 Ma and overlap with the molybdenite Re–Os age of 150–148 Ma, indicating that the Tudigou intrusion and associated mineralization formed during the Late Jurassic. The enrichment in large‐ion lithophile elements, depletion in high‐field‐strength elements, high Ba/Th and La/Yb ratios, and negative correlation between Dy/Yb and La/Sm ratios, together with narrow ranges of εHf(t) values (εHf(t) = −4.0 to +1.4) suggest monzogranite porphyry was derived from a metasomatized lithospheric mantle with minor crustal components contribution, which is also evidenced by the lead isotopic result. The La/Yb ratios of 30 Mesozoic plutons in the southern Qinling belt were used to calculate the Moho depth, which suggests that the magmatism and mineralization in the region occurred during lithosphere thinning in response to the tectonic transition from compression to extension transitional regime. The calculated oxygen fugacity of the Late Mesozoic porphyry deposits in the Qinling–Dabie orogen have identical ΔFMQ values (averaging +1.4 to +2.4). However, the V/Sc ratios (the proxy for water content) are distinct among different deposit sizes, indicating that the dissolved water in the magma plays a critical role in porphyry‐type mineralization. The Tudigou porphyry Cu deposit, which is located in the central part of the southern Qinling belt, formed during lithosphere thinning in response to compression to extension transitional regime. 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Copper mineralization is closely associated with monzogranite porphyry. Zircon LA–ICP–MS U–Pb dating of monzogranite porphyry suggests that the ages of magmatism at Tudigou vary between 150 ± 1 and 148 ± 1 Ma and overlap with the molybdenite Re–Os age of 150–148 Ma, indicating that the Tudigou intrusion and associated mineralization formed during the Late Jurassic. The enrichment in large‐ion lithophile elements, depletion in high‐field‐strength elements, high Ba/Th and La/Yb ratios, and negative correlation between Dy/Yb and La/Sm ratios, together with narrow ranges of εHf(t) values (εHf(t) = −4.0 to +1.4) suggest monzogranite porphyry was derived from a metasomatized lithospheric mantle with minor crustal components contribution, which is also evidenced by the lead isotopic result. The La/Yb ratios of 30 Mesozoic plutons in the southern Qinling belt were used to calculate the Moho depth, which suggests that the magmatism and mineralization in the region occurred during lithosphere thinning in response to the tectonic transition from compression to extension transitional regime. The calculated oxygen fugacity of the Late Mesozoic porphyry deposits in the Qinling–Dabie orogen have identical ΔFMQ values (averaging +1.4 to +2.4). However, the V/Sc ratios (the proxy for water content) are distinct among different deposit sizes, indicating that the dissolved water in the magma plays a critical role in porphyry‐type mineralization. The Tudigou porphyry Cu deposit, which is located in the central part of the southern Qinling belt, formed during lithosphere thinning in response to compression to extension transitional regime. The dissolved water in the magma is the sine qua non of the porphyry‐type mineralization.</description><subject>Belts</subject><subject>Compression</subject><subject>Copper</subject><subject>Depletion</subject><subject>Fugacity</subject><subject>Igneous rocks</subject><subject>Intrusion</subject><subject>Isotopes</subject><subject>Jurassic</subject><subject>Lanthanum</subject><subject>Lava</subject><subject>LA–ICP–MS zircon U</subject><subject>Lithosphere</subject><subject>Lu–Hf isotope</subject><subject>Magma</subject><subject>Mathematical analysis</subject><subject>Mesozoic</subject><subject>Mineralization</subject><subject>Moho</subject><subject>Moisture content</subject><subject>Molybdenite</subject><subject>molybdenite Re–Os dating</subject><subject>Orogeny</subject><subject>Plutons</subject><subject>Porphyry copper</subject><subject>porphyry‐type mineralization</subject><subject>Radiometric dating</subject><subject>Ratios</subject><subject>Tectonics</subject><subject>Tudigou</subject><subject>U‐Pb zircon dating</subject><subject>Water content</subject><subject>Zircon</subject><issn>0072-1050</issn><issn>1099-1034</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><recordid>eNp1kM1KxDAUhYMoOI7iKwRcuNBq0v-6k6LjyMAgjOuS5qeT0klqkiL1VXxZU-vW1Tnc-93D5QBwidEdRii8b9q7OCnyI7DAqCgCjKL4GCwQykLvE3QKzqxtEcIYxXgBvrdGNlJBLaDbc7gbmGz0AKVyZrBSK0gUg8RaTSVxnMFem34_mhGWAzxIxQ3p5BdxE-lTpgirBy9GwTepOqmaW1hyn0Y6WO6lIg9wfeg7SecboQ00vPHW7x2nTitJoeXO-ctzcCJIZ_nFny7B-_PTrnwJNtvVunzcBDTMizwQdcJTynPBRJ5yGsa1yApB0qxmOQ0ZSbCfIZbXScJqXBcoyhgiBY-TKPbCoyW4mnN7oz8Gbl3V6sH4j2wVZqnvNArjyFPXM0WNttZwUfVGHogZK4yqqfmqaaupeU_ezOSn7Pj4H1atXn_pH0fIh7Y</recordid><startdate>202301</startdate><enddate>202301</enddate><creator>Zhang, Zhong‐Yu</creator><creator>Wang, Yin‐Hong</creator><creator>Liu, Jia‐Jun</creator><creator>Lin, Shan‐Yuan</creator><creator>Zhang, Fang‐Fang</creator><creator>Bo, Zhen‐Yu</creator><creator>Zhang, Wei</creator><creator>Gao, Jian</creator><creator>Li, Hong‐Yu</creator><general>John Wiley & Sons, Inc</general><general>Wiley Subscription Services, Inc</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7ST</scope><scope>7UA</scope><scope>C1K</scope><scope>F1W</scope><scope>H96</scope><scope>L.G</scope><scope>SOI</scope><orcidid>https://orcid.org/0000-0002-1156-6785</orcidid></search><sort><creationdate>202301</creationdate><title>Origin of the Tudigou intrusion and associated porphyry Cu mineralization in the southern Qinling, Central China: Implication for regional tectonic setting</title><author>Zhang, Zhong‐Yu ; 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Copper mineralization is closely associated with monzogranite porphyry. Zircon LA–ICP–MS U–Pb dating of monzogranite porphyry suggests that the ages of magmatism at Tudigou vary between 150 ± 1 and 148 ± 1 Ma and overlap with the molybdenite Re–Os age of 150–148 Ma, indicating that the Tudigou intrusion and associated mineralization formed during the Late Jurassic. The enrichment in large‐ion lithophile elements, depletion in high‐field‐strength elements, high Ba/Th and La/Yb ratios, and negative correlation between Dy/Yb and La/Sm ratios, together with narrow ranges of εHf(t) values (εHf(t) = −4.0 to +1.4) suggest monzogranite porphyry was derived from a metasomatized lithospheric mantle with minor crustal components contribution, which is also evidenced by the lead isotopic result. The La/Yb ratios of 30 Mesozoic plutons in the southern Qinling belt were used to calculate the Moho depth, which suggests that the magmatism and mineralization in the region occurred during lithosphere thinning in response to the tectonic transition from compression to extension transitional regime. The calculated oxygen fugacity of the Late Mesozoic porphyry deposits in the Qinling–Dabie orogen have identical ΔFMQ values (averaging +1.4 to +2.4). However, the V/Sc ratios (the proxy for water content) are distinct among different deposit sizes, indicating that the dissolved water in the magma plays a critical role in porphyry‐type mineralization. The Tudigou porphyry Cu deposit, which is located in the central part of the southern Qinling belt, formed during lithosphere thinning in response to compression to extension transitional regime. The dissolved water in the magma is the sine qua non of the porphyry‐type mineralization.</abstract><cop>Hoboken, USA</cop><pub>John Wiley & Sons, Inc</pub><doi>10.1002/gj.4598</doi><tpages>25</tpages><orcidid>https://orcid.org/0000-0002-1156-6785</orcidid></addata></record>
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subjects	Belts Compression Copper Depletion Fugacity Igneous rocks Intrusion Isotopes Jurassic Lanthanum Lava LA–ICP–MS zircon U Lithosphere Lu–Hf isotope Magma Mathematical analysis Mesozoic Mineralization Moho Moisture content Molybdenite molybdenite Re–Os dating Orogeny Plutons Porphyry copper porphyry‐type mineralization Radiometric dating Ratios Tectonics Tudigou U‐Pb zircon dating Water content Zircon
title	Origin of the Tudigou intrusion and associated porphyry Cu mineralization in the southern Qinling, Central China: Implication for regional tectonic setting
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