Hydrous Juvenile Lower Crust at the Western Yangtze Craton Margin as the Main Source of the Beiya Porphyry‐skarn Au Deposit
The Beiya porphyry‐skarn Au deposit is one of the largest gold deposits in China, temporally and spatially associated with Eocene intrusions in a post‐collisional setting in western Yunnan, China. In this study, we report new whole‐rock geochemistry, Sr‐Nd isotope, zircon U‐Pb geochronology and in s...
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| Published in | Acta geologica Sinica (Beijing) Vol. 96; no. 3; pp. 972 - 992 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
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01.06.2022
State Key Laboratory of Geological Processes and Mineral Resources and School of Earth Sciences and Resources,China University of Geosciences,Beijing 100083,China%School of Gemmology,China University of Geosciences,Beijing 100083,China%Institute of Geology,Chinese Academy of Geological Sciences,Beijing 100037,China%College of Resource Environment and Earth Sciences,Yunnan University,Kunming 650091,China |
| Edition | English ed. |
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| Abstract | The Beiya porphyry‐skarn Au deposit is one of the largest gold deposits in China, temporally and spatially associated with Eocene intrusions in a post‐collisional setting in western Yunnan, China. In this study, we report new whole‐rock geochemistry, Sr‐Nd isotope, zircon U‐Pb geochronology and in situ zircon Hf‐O isotopes of quartz‐monzonite and biotite‐monzonite porphyries from the Beiya deposit. The porphyry‐skarn mineralization at the Beiya deposit is mainly associated with the quartz monzonite porphyry (35.8 ± 0.6 Ma), while the biotite‐monzonite porphyry (34.3 ± 0.5 Ma) represents a post‐mineralization intrusion crosscutting the main orebodies and the quartz‐monzonite porphyry. Both intrusions have high‐K and adakitic composition and are characterized by high Sr/Y ratios, high SiO2 and Al2O3 concentrations (SiO2 = 69.80–73.86 wt%; Al2O3 = 14.11–15.19 wt%), and low MgO, Cr, and Ni concentrations (MgO = 0.2–1.0 wt%; Cr = 1.76–11.13 ppm; Ni = 2.52–11.72 ppm). Their Sr‐Nd isotope compositions (87Sr/86Sr = 0.7066–0.7077; εNd(t) = –5.3 to –1.5) are consistent with the lower crustal‐derived amphibolite xenoliths (87Sr/86Sr = 0.7060–0.7100; εNd(t) = –10.0 to 0.0), indicating that they might be derived from a thickened juvenile lower crust beneath the Yangtze Craton. The biotite‐monzonite porphyry has lower zircon δ18O values of +5.3‰ to +6.8‰ and higher εHf(t) values of –2.3 to +5.5 than those of the quartz‐monzonite porphyry with δ18O values of +7.1‰ to +8.2‰ and εHf(t) values of –3.8 to +1.5, implying that they were derived from different parts of the lower crust. High Ba/La and Pb/Ce ratios suggest that the quartz‐monzonite porphyry is derived from a volatiles‐rich reservoir. Relatively higher La/Yb, Sm/Yb and Dy/Yb ratios of the biotite‐monzonite porphyry indicate residual garnet in the source, indicating a deeper source than that of the quartz‐monzonite porphyry. The hydrous components should be represented by the amphibole‐rich lithologies, which has relatively shallower depth than that of the garnet‐bearing mafic thickened lower crust. Our data suggest that the mineralized quartz‐monzonite porphyry at the Beiya deposit is derived from partial melting of amphibole‐rich lithologies in the upper part of the thickened juvenile lower crust beneath the Yangtze Craton, while the post‐mineralization biotite‐monzonite porphyry is derived from the basal, and volatiles‐poor, part of the juvenile lower crust. |
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| AbstractList | The Beiya porphyry‐skarn Au deposit is one of the largest gold deposits in China, temporally and spatially associated with Eocene intrusions in a post‐collisional setting in western Yunnan, China. In this study, we report new whole‐rock geochemistry, Sr‐Nd isotope, zircon U‐Pb geochronology and in situ zircon Hf‐O isotopes of quartz‐monzonite and biotite‐monzonite porphyries from the Beiya deposit. The porphyry‐skarn mineralization at the Beiya deposit is mainly associated with the quartz monzonite porphyry (35.8 ± 0.6 Ma), while the biotite‐monzonite porphyry (34.3 ± 0.5 Ma) represents a post‐mineralization intrusion crosscutting the main orebodies and the quartz‐monzonite porphyry. Both intrusions have high‐K and adakitic composition and are characterized by high Sr/Y ratios, high SiO2 and Al2O3 concentrations (SiO2 = 69.80–73.86 wt%; Al2O3 = 14.11–15.19 wt%), and low MgO, Cr, and Ni concentrations (MgO = 0.2–1.0 wt%; Cr = 1.76–11.13 ppm; Ni = 2.52–11.72 ppm). Their Sr‐Nd isotope compositions (87Sr/86Sr = 0.7066–0.7077; εNd(t) = –5.3 to –1.5) are consistent with the lower crustal‐derived amphibolite xenoliths (87Sr/86Sr = 0.7060–0.7100; εNd(t) = –10.0 to 0.0), indicating that they might be derived from a thickened juvenile lower crust beneath the Yangtze Craton. The biotite‐monzonite porphyry has lower zircon δ18O values of +5.3‰ to +6.8‰ and higher εHf(t) values of –2.3 to +5.5 than those of the quartz‐monzonite porphyry with δ18O values of +7.1‰ to +8.2‰ and εHf(t) values of –3.8 to +1.5, implying that they were derived from different parts of the lower crust. High Ba/La and Pb/Ce ratios suggest that the quartz‐monzonite porphyry is derived from a volatiles‐rich reservoir. Relatively higher La/Yb, Sm/Yb and Dy/Yb ratios of the biotite‐monzonite porphyry indicate residual garnet in the source, indicating a deeper source than that of the quartz‐monzonite porphyry. The hydrous components should be represented by the amphibole‐rich lithologies, which has relatively shallower depth than that of the garnet‐bearing mafic thickened lower crust. Our data suggest that the mineralized quartz‐monzonite porphyry at the Beiya deposit is derived from partial melting of amphibole‐rich lithologies in the upper part of the thickened juvenile lower crust beneath the Yangtze Craton, while the post‐mineralization biotite‐monzonite porphyry is derived from the basal, and volatiles‐poor, part of the juvenile lower crust. The Beiya porphyry-skarn Au deposit is one of the largest gold deposits in China,temporally and spatially associated with Eocene intrusions in a post-collisional setting in western Yunnan,China.In this study,we report new whole-rock geochemistry,Sr-Nd isotope,zircon U-Pb geochronology and in situ zircon Hf-O isotopes of quartz-monzonite and biotite-monzonite porphyries from the Beiya deposit.The porphyry-skarn mineralization at the Beiya deposit is mainly associated with the quartz monzonite porphyry(35.8±0.6 Ma),while the biotite-monzonite porphyry(34.3±0.5 Ma)represents a post-mineralization intrusion crosscutting the main orebodies and the quartz-monzonite porphyry.Both intrusions have high-K and adakitic composition and are characterized by high Sr/Y ratios,high SiO2 and Al2O3 concentrations(SiO2=69.80-73.86 wt%;Al2O3=14.11-15.19 wt%),and low MgO,Cr,and Ni concentrations(MgO=0.2-1.0 wt%;Cr=1.76-11.13 ppm;Ni=2.52-11.72 ppm).Their Sr-Nd isotope compositions(87Sr/86Sr=0.7066-0.7077;eNd(t)=-5.3 to-1.5)are consistent with the lower crustal-derived amphibolite xenoliths(87Sr/86Sr=0.7060-0.7100;εNd(t)=-10.0 to 0.0),indicating that they might be derived from a thickened juvenile lower crust beneath the Yangtze Craton.The biotite-monzonite porphyry has lower zircon δ18O values of+5.3‰ to+6.8‰ and higher εH f(t)values of-2.3 to+5.5 than those of the quartz-monzonite porphyry with δ18O values of+7.1‰ to+8.2‰ and εHf(t)values of-3.8 to+1.5,implying that they were derived from different parts of the lower crust.High Ba/La and Pb/Ce ratios suggest that the quartz-monzonite porphyry is derived from a volatiles-rich reservoir.Relatively higher La/Yb,Sm/Yb and Dy/Yb ratios of the biotite-monzonite porphyry indicate residual garnet in the source,indicating a deeper source than that of the quartz-monzonite porphyry.The hydrous components should be represented by the amphibole-rich lithologies,which has relatively shallower depth than that of the garnet-bearing mafic thickened lower crust.Our data suggest that the mineralized quartz-monzonite porphyry at the Beiya deposit is derived from partial melting of amphibole-rich lithologies in the upper part of the thickened juvenile lower crust beneath the Yangtze Craton,while the post-mineralization biotite-monzonite porphyry is derived from the basal,and volatiles-poor,part of the juvenile lower crust. Abstract The Beiya porphyry‐skarn Au deposit is one of the largest gold deposits in China, temporally and spatially associated with Eocene intrusions in a post‐collisional setting in western Yunnan, China. In this study, we report new whole‐rock geochemistry, Sr‐Nd isotope, zircon U‐Pb geochronology and in situ zircon Hf‐O isotopes of quartz‐monzonite and biotite‐monzonite porphyries from the Beiya deposit. The porphyry‐skarn mineralization at the Beiya deposit is mainly associated with the quartz monzonite porphyry (35.8 ± 0.6 Ma), while the biotite‐monzonite porphyry (34.3 ± 0.5 Ma) represents a post‐mineralization intrusion crosscutting the main orebodies and the quartz‐monzonite porphyry. Both intrusions have high‐K and adakitic composition and are characterized by high Sr/Y ratios, high SiO 2 and Al 2 O 3 concentrations (SiO 2 = 69.80–73.86 wt%; Al 2 O 3 = 14.11–15.19 wt%), and low MgO, Cr, and Ni concentrations (MgO = 0.2–1.0 wt%; Cr = 1.76–11.13 ppm; Ni = 2.52–11.72 ppm). Their Sr‐Nd isotope compositions ( 87 Sr/ 86 Sr = 0.7066–0.7077; ε Nd ( t ) = –5.3 to –1.5) are consistent with the lower crustal‐derived amphibolite xenoliths ( 87 Sr/ 86 Sr = 0.7060–0.7100; ε Nd ( t ) = –10.0 to 0.0), indicating that they might be derived from a thickened juvenile lower crust beneath the Yangtze Craton. The biotite‐monzonite porphyry has lower zircon δ 18 O values of +5.3‰ to +6.8‰ and higher ε Hf ( t ) values of –2.3 to +5.5 than those of the quartz‐monzonite porphyry with δ 18 O values of +7.1‰ to +8.2‰ and ε H f ( t ) values of –3.8 to +1.5, implying that they were derived from different parts of the lower crust. High Ba/La and Pb/Ce ratios suggest that the quartz‐monzonite porphyry is derived from a volatiles‐rich reservoir. Relatively higher La/Yb, Sm/Yb and Dy/Yb ratios of the biotite‐monzonite porphyry indicate residual garnet in the source, indicating a deeper source than that of the quartz‐monzonite porphyry. The hydrous components should be represented by the amphibole‐rich lithologies, which has relatively shallower depth than that of the garnet‐bearing mafic thickened lower crust. Our data suggest that the mineralized quartz‐monzonite porphyry at the Beiya deposit is derived from partial melting of amphibole‐rich lithologies in the upper part of the thickened juvenile lower crust beneath the Yangtze Craton, while the post‐mineralization biotite‐monzonite porphyry is derived from the basal, and volatiles‐poor, part of the juvenile lower crust. |
| Author | XU, Bo XU, Peiyan HOU, Zengqian WU, Changda MA, Rui WANG, Zixuan SHEN, Yang ZHENG, Yuanchuan ZHANG, Aiping |
| AuthorAffiliation | State Key Laboratory of Geological Processes and Mineral Resources and School of Earth Sciences and Resources,China University of Geosciences,Beijing 100083,China%School of Gemmology,China University of Geosciences,Beijing 100083,China%Institute of Geology,Chinese Academy of Geological Sciences,Beijing 100037,China%College of Resource Environment and Earth Sciences,Yunnan University,Kunming 650091,China |
| AuthorAffiliation_xml | – name: State Key Laboratory of Geological Processes and Mineral Resources and School of Earth Sciences and Resources,China University of Geosciences,Beijing 100083,China%School of Gemmology,China University of Geosciences,Beijing 100083,China%Institute of Geology,Chinese Academy of Geological Sciences,Beijing 100037,China%College of Resource Environment and Earth Sciences,Yunnan University,Kunming 650091,China |
| Author_xml | – sequence: 1 givenname: Zixuan surname: WANG fullname: WANG, Zixuan organization: China University of Geosciences – sequence: 2 givenname: Yuanchuan surname: ZHENG fullname: ZHENG, Yuanchuan email: zhengyuanchuan@gmail.com organization: China University of Geosciences – sequence: 3 givenname: Bo surname: XU fullname: XU, Bo email: xubo@outlook.com.cn organization: China University of Geosciences – sequence: 4 givenname: Zengqian surname: HOU fullname: HOU, Zengqian organization: Chinese Academy of Geological Sciences – sequence: 5 givenname: Aiping surname: ZHANG fullname: ZHANG, Aiping organization: Yunnan University – sequence: 6 givenname: Yang surname: SHEN fullname: SHEN, Yang organization: China University of Geosciences – sequence: 7 givenname: Rui surname: MA fullname: MA, Rui organization: China University of Geosciences – sequence: 8 givenname: Changda surname: WU fullname: WU, Changda organization: Chinese Academy of Geological Sciences – sequence: 9 givenname: Peiyan surname: XU fullname: XU, Peiyan organization: China University of Geosciences |
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| Keywords | adakitic intrusion Beiya Au deposit magma fertility juvenile lower crust western Yangtze Craton |
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| Notes | phone: 18610492731. ZHENG Yuanchuan, male, born in 1982; Doctor; graduated from Nanjing University; He is now interested in the study on Mineralogy, Petrography and Economic Geology. E‐mail zane.wzx@foxmail.com phone: 15011361152. WANG Zixuan, male, born in 1991 in Shijiazhuang City, Hebei Province; Ph.D. candidate; graduated from China University of Geosciences, Beijing; He is now interested in the study on Mineralogy and Economic Geology. E‐mail zhengyuanchuan@gmail.com About the first author phone: 18611688625. About the corresponding authors XU Bo, male, born in 1988; Doctor; graduated from Macquarie University; He is now interested in the study on Mineralogy and Economic Geology. Email xubo@outlook.com.cn |
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| PublicationDate | June 2022 |
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| Publisher | Wiley Subscription Services, Inc State Key Laboratory of Geological Processes and Mineral Resources and School of Earth Sciences and Resources,China University of Geosciences,Beijing 100083,China%School of Gemmology,China University of Geosciences,Beijing 100083,China%Institute of Geology,Chinese Academy of Geological Sciences,Beijing 100037,China%College of Resource Environment and Earth Sciences,Yunnan University,Kunming 650091,China |
| Publisher_xml | – name: Wiley Subscription Services, Inc – name: State Key Laboratory of Geological Processes and Mineral Resources and School of Earth Sciences and Resources,China University of Geosciences,Beijing 100083,China%School of Gemmology,China University of Geosciences,Beijing 100083,China%Institute of Geology,Chinese Academy of Geological Sciences,Beijing 100037,China%College of Resource Environment and Earth Sciences,Yunnan University,Kunming 650091,China |
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| Snippet | The Beiya porphyry‐skarn Au deposit is one of the largest gold deposits in China, temporally and spatially associated with Eocene intrusions in a... Abstract The Beiya porphyry‐skarn Au deposit is one of the largest gold deposits in China, temporally and spatially associated with Eocene intrusions in a... The Beiya porphyry-skarn Au deposit is one of the largest gold deposits in China,temporally and spatially associated with Eocene intrusions in a... |
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| SubjectTerms | adakitic intrusion Aluminum oxide Amphiboles Amphibolites Beiya Au deposit Biotite Composition Cratons Eocene Garnet Garnets Geochemistry Geochronology Geochronometry Isotopes juvenile lower crust Juveniles Lanthanum Lead magma fertility Magnesium oxide Mineralization Quartz Radiometric dating Ratios Silica Silicon dioxide Strontium Strontium 87 Strontium isotopes Volatiles western Yangtze Craton Zircon |
| Title | Hydrous Juvenile Lower Crust at the Western Yangtze Craton Margin as the Main Source of the Beiya Porphyry‐skarn Au Deposit |
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