1. Isotope (S–Sr–Nd–Pb) constraints on the genesis of the ca. 850 Ma Tumen Mo–F deposit in the Qinling Orogen, China.
- Author
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Deng, Xiao-Hua, Chen, Yan-Jing, Bagas, Leon, Zhou, Hong-Ying, Yao, Jun-Ming, Zheng, Zhen, and Wang, Pin
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LEAD isotopes , *CONSTRAINTS (Physics) , *PYRITES , *CARBONATE rocks , *HYDROTHERMAL deposits - Abstract
The Tumen Mo–F deposit is located on the southern margin of the North China Craton in central China. The deposit represents a fluorite-vein system hosted by carbonate rocks in the Neoproterozoic Luanchuan Group. Previous studies identify four hydrothermal stages at the deposit characterized by: Stage 1 veins of white fluorite, Stage 2 purple fluorite–molybdenite–pyrite (–galena), Stage 3 calcite–galena–pyrite–sphalerite (–chalcopyrite), and Stage 4 carbonate assemblages. The δ 34 S values for sulfides from the Tumen deposit range between −7.1 and 5.0‰, with a bimodal distribution. The Stage 2 sulfides have δ 34 S values of −2.7 to 5.0‰ that are similar to that of granitic rocks, but different from andesite in the Xiong’er Group, amphibolitic gneiss in the Taihua Supergroup and the carbonaceous shale and chert in the Luanchuan Group. The near-zero δ 34 S values indicate a possible magmatic source for the Stage 2 fluids. However, the δ 34 S values for the Stage 3 sulfides have negative mean and a restricted range from −7.1 to −4.6‰, which is different from that of the Xiong’er Group and Taihua Supergroup. The 34 S-depleted fluid for the Stage 3 sulfides was inherited from the host rocks in the Luanchuan Group with low δ 34 S values of −12.4 to 7.2‰. New Sr–Nd–Pb isotope data obtained from fluorite at Tumen indicate that the fluorite has higher Pb-isotope ratios, higher ɛ Nd(t) and lower I Sr (t) values than the host rocks. The results suggests that the ore-forming fluids had ɛ Nd(t) > −4.8, I Sr (t) < 0.7068, ( 206 Pb/ 204 Pb) i > 17.998, ( 207 Pb/ 204 Pb) i < 15.576 and ( 208 Pb/ 204 Pb) i < 38.201, which overlap the values of ( ɛ Nd(t) = −3.8 to −1.3, I Sr (t) = 0.7006–0.7061 for Neoproterozoic syenite in Qinling Orogen. This suggests that the deposit is related to a magmatic hydrothermal vein system associated with Neoproterozoic syenitic magmatism. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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