| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
HE Chengguang, WANG Shiyan, FANG Huaibin, CHAI Jianyu, SU Jiancang, CHANG Yongwei, WANG Liulin, CHEN Denghui. 2019. Redefination and ore-forming significance of Maeryang Forming, Taxkorgan, Western Kunlun Mountains[J]. Geology in China, 46(3): 517-536. doi: 10.12029/gc20190306
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Redefination and ore-forming significance of Maeryang Forming, Taxkorgan, Western Kunlun Mountains
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Abstract
The Taxkorgan large-scale iron metallogenic belt is located in the western part of Kunlun orogenic belt. Research on metamorphic rocks shows that the protolith of the iron-bearing strata is a assemblage of bimodal volcanic rocks-clastic rockscarbonate rocks formation. The strata have undergone widespread greenschist facies metamorphism and multi-superimposed deformation. The meta-andesite in Laobing area yielded an U-Pb ziron age of (603±10) Ma, suggesting that the eruption age of volcanic rocks is early Sinian. Combined with other age data available, the authors redefined the iron-bearing strata as "SinianCambrian Terreneuvian Maeryang Formation" (Z€1m.), which doesn't belong to the previously defined "Paleoproterozoic Bulunkuole Group". The formation of the bimodal volcanic rocks proved that there was an extensional tectonic event in Taxkorgan area from Sinian to early Cambrian. Discrimination of tectonic setting on the metamorphic volcano-sedimentary formation indicates that the iron-bearing strata were formed in the continental margin rift. The gypsum (Ba)-iron formation was the volcanosedimentary response to the changes of "Marinoan Snowball Earth"'system after late Neoproterozoic glacial event.
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Keywords:
- Western Kunlun /
- Taxkorgan /
- iron-bearing strata /
- Maeryang Formation /
- bimodal volcanic rocks /
- Simian -Cambrian /
- margin rift
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HE Chengguang, WANG Shiyan, FANG Huaibin, CHAI Jianyu, SU Jiancang, CHANG Yongwei, WANG Liulin, CHEN Denghui. 2019. Redefination and ore-forming significance of Maeryang Forming, Taxkorgan, Western Kunlun Mountains[J]. Geology in China, 46(3): 517-536. doi: 10.12029/gc20190306
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Figure 1.
Tectonic units and geological sketch map of Maeryang in western Kunlun orogenic belt
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Figure 2.
Geological section of iron-bearing strata in Maeryang area
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Figure 3.
Field and microscopic features of iron-bearing strata in Maeryang area
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Figure 4.
Chondrite−normalized REE patterns (a, c, e) and trace element spider diagram (b, d, f) of metamorphic rocks in the Maeryang Formation (chondrite data for Normalization and values of primitive mantle after Sun S S and McDonough, 1989, values of Ocean ridge granites after Pearce et al., 1984)
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Figure 5.
CL image (a) of zircons and LA−ICP−MS U−Pb concordia diagram (b, c) of meta−andesite in the Maeryang Formation
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Figure 6.
Simonen plot (a after Wang Renmin et al., 1987) and Al2O3-(Na2O+K2O) diagram (b after Qiu Jiaxiang and Lin Jingqian, 1991) of metamorphic rocks in the Maeryang Formation
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Figure 7.
Sandstone discriminant diagram (a, after Herron, 1988) and La/Th versus Hf diagram (b, after Floyd et al., 1987) of felsic schist in the Maeryang Formation
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Figure 8.
SiO2-K2O diagram (a, after Xu Xisheng and Qiu Jiansheng, 2010) and Zr/TiO2-SiO2 diagram (b, after Winchester and Floyd, 1977) of metamorphic rocks in the Maeryang Formation
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Figure 9.
Zr-Zr/Y diagram (a, after Pearce, 1982), Ta/Hf-Th/Hf diagram (b, after Wang Yunliang et al., 2001) and Ti/100-Zr-3Y diagram (c, after Pearce and Cann, 1973) of amphibolite schist in the Maeryang Formation
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Figure 10.
K2O/Na2O-SiO2 diagram (a, after Roser and Korsch, 1986), Th-Sc-Zr/10 diagram (b, after Bhatia and Crook, 1986), La-Th-Sc diagram (c, after Bhatia and Crook, 1986) and ICV-CIA diagram (d, after Wang Renmin et al., 1987) of felsic schist in the Maeryang Formation
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Figure 11.
Rb-Sr diagram (a after Condie and Been, 2006) and Zr/Y-Zr diagram (b after Wang Yunliang et al., 2015) of amphibolite schist in the Maeryang Formation