| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
WANG Wenyuan, GAO Jianguo, LIU Xinkai, NONG Yangxia, CHEN Xinbin. 2018. Rb-Sr isotopic geochronology and C-O-S-Pb isotope geochemical characteristics of the Huangtian Pb-Zn deposit, Central Yunnan[J]. Geology in China, 45(3): 528-543. doi: 10.12029/gc20180308
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Rb-Sr isotopic geochronology and C-O-S-Pb isotope geochemical characteristics of the Huangtian Pb-Zn deposit, Central Yunnan
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Abstract
The Huangtian Pb-Zn deposit occurs along the contact zone between the carbonate rocks of lower Permian and Emeishan basalt of upper Permian. Orebodies are mainly bedded and lenticular in form. The ore minerals are mainly sphalerite and galena, whereas the gangue minerals are quartz, calcite and dolomite primarily. The composition of C and O isotopes of the hydrothermal calcite indicates that the carbon of CO2 in the ore-forming fluid is pluralistic, mainly from the mixed carbon of the mantle source and the marine carbonate rocks. The sulfur isotope composition of sulfide indicates that the sulfur in the lead-zinc deposit is dominated by magmatic sulfur and may be mixed with other sulfur sources (possibly including formation sulfate). The lead isotopes indicate that the metallogenic material mainly came from the surrounding rock. The lead isotopes indicate that the metallogenic material mainly came from the surrounding rock, basalt and Yanshanian granite, which is the product of multisource mixing. Isochron age of Rb-Sr isotope is (83.2±3.4) Ma, indicating the formation of the lead-zinc deposit in the late Yanshanian period. The metallogenic dynamic background of the Huangtian Pb-Zn deposit might have been related to the large-scale lithospheric extension of the Youjiang fold belt at the end of Mesozoic. The Late Permian marine eruption volcanic rocks played an important role in the formation of lead and zinc deposits in the aspect of cover and ore-bearing layer and mineralization. All the geochemical information suggests that the source of ore-forming metals and fluids of the Huangtian Pb-Zn deposit was mixed product. The type of the deposit is sedimentary and reformed deposit.
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WANG Wenyuan, GAO Jianguo, LIU Xinkai, NONG Yangxia, CHEN Xinbin. 2018. Rb-Sr isotopic geochronology and C-O-S-Pb isotope geochemical characteristics of the Huangtian Pb-Zn deposit, Central Yunnan[J]. Geology in China, 45(3): 528-543. doi: 10.12029/gc20180308
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Figure 1.
Tectonic location of the metallogenic area in central Yunnan(modified from Qin Dexian, 1998)
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Figure 2.
Geological sketch map of the Huangtian lead-zinc deposit (after No. 2 Geological Party, Yunnan Bureau of Geology and Mineral Exploration, 1993)
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Figure 3.
Geological map of the Huangtian deposit(modified from Xu Yunduan, 2014)
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Figure 4.
Geological section along No. 19 exploration line in the Huangtian deposit(modified from Xu Yunduan, 2014)
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Figure 5.
The characteristics of ore minerals in the Huangtian Pb-Zn deposit
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Figure 6.
The division of the metallogenic stage of the Huangtian Pb-Zn deposit(modified from Xu Yunduan, 2014)
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Figure 7.
Carbon isotope composition of calcite of the Huangtian Pb-Zn deposit (base map after Mao Jingwen, 2003, The Huize date after Huang Zhilong, 2004a)
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Figure 8.
δ13CPDB-δ18OSMOWcomposition of calcite of the Huangtian Pb-Zn deposit (base map after Liu Jiajun, 2004, the data of Reshuitang, Suzu-Muyang and Huamuqing are unpublished data. The Huize data after Huang Zhilong 2004a)
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Figure 9.
Sulfur isotopic histogram of the Huangtian Pb-Zn deposit
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Figure 10.
The lead isotope histogram of the Huangtian Pb-Zn ore deposit (base map after Zartman, 1981)
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Figure 11.
Rb-Sr isotope isochron of sphalerite from the Huangtian Pb-Zn ore deposit
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Figure 12.
87Sr/86Sr-Sr-1, 87Rb/86Sr-Rb-1 diagrams of sphalerite from the Huangtian Pb-Zn ore deposit
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Figure 13.
Breccia type ore structure of the Huangtian Pb-Zn ore deposit(modified from Xu Yunduan, 2014)