Geochronological, isotopic and mineral geochemical constraints on the   genesis of the Diyanqinamu Mo deposit, Inner Mongolia, China

doi:10.1016/j.oregeorev.2014.09.006

CORC > 北京大学 > 地球与空间科学学院

	Geochronological, isotopic and mineral geochemical constraints on the genesis of the Diyanqinamu Mo deposit, Inner Mongolia, China
	Sun, Hairui ; Huang, Zhilong ; Li, Wenbo ; Ye, Lin ; Zhou, Jiaxi
刊名	ore geology reviews
	2015
关键词	Porphyry Mo deposit Great Xing&apos Diyanqinamu Geochronology Sr, Nd and Pb isotopes Mineral geochemistry U-PB AGES XILAMULUN METALLOGENIC BELT PORPHYRY MOLYBDENUM DEPOSIT PHANEROZOIC CRUSTAL GROWTH HYDROTHERMAL ORE-DEPOSITS HIGH-OXYGEN FUGACITY ASIAN OROGENIC BELT GREAT XINGAN RANGE NE CHINA NORTHEASTERN CHINA an Range
DOI	10.1016/j.oregeorev.2014.09.006
英文摘要	The Diyanqinamu Mo deposit, located in central Inner Mongolia in China, is a newly discovered Mo deposit. Due to the lack of detailed deposit-scale studies, the metallogenesis of the deposit has been a matter of debate. In this study, petrography, zircon U-Pb geochronology, Sr, Nd and Pb isotopes, and apatite mineral geochemistry have been used to constrain the genesis of the Diyanqinamu Mo deposit. Petrographic evidence indicates that the granites in the Diyanqinamu deposit have experienced fluid exsolution, as demonstrated by the corroded quartz in the porphyritic granites, skeletal quartz in the aplitic granites, and the unidirectional solidification texture (UST) in the apex of the aplitic granites. Sr and Nd isotopic data of the purple fluorite from the fluorite +/- molybdenite veins, showing the (Sr-87/Sr-86)(i) (0.7046-0.7052, avg. 0.7048) and epsilon Nd(t) values (2.4-3.8, avg. 3.3) are similar to those of the porphyritic- and aplitic granites. This similarity implies that the Mo ore-forming fluids may have been derived from the granitic magmas. The hypothesis is further supported by the fluorine content (3.79-5.48 wt.%, avg. 453 wt.%) in apatite from the porphyritic granites and the widely distributed fluorite in the hydrothermal alteration mineral assemblages, which indicate that the porphyritic granites contain high F content and the hydrothermal fluids are also F-rich. Petrographic observation also shows that magnetite occurs commonly in the hydrothermal mineral assemblages, indicating that the hydrothermal fluids are characterized by high oxygen fugacity (fO(2)). It is important to note that the intruding granites are essentially barren, and the Mo is mainly hosted in the andesite and volcanidastic rocks. In comparison, Pb isotopic compositions of molybdenite are similar to those of both the andesite and K-feldspar from the porphyritic granites, which suggests that both the intruding granites and ore-hosting andesite have contributed to the ore-forming materials. This hypothesis is further supported by the abnormally high Mo for the andesite. Our new evidence suggests that the Diyanqinamu Mo deposit may have formed in a post-collisional extensional environment. Ore-forming materials may have been derived mainly from the granites and minimally from the host rocks. The ore fluids are characterized by high fO(2) and being F-rich, and the trigger for the Mo mineralization has been attributed to the reduction of fO(2) and/or temperature for the ore fluids. (C) 2014 Elsevier B.V. All rights reserved.; Geology; Mineralogy; Mining & Mineral Processing; SCI(E); EI; 0; ARTICLE; huangzhilong@vip.gyig.ac.cn; P1; 70-83; 65
语种	英语
内容类型	期刊论文
源URL	[http://ir.pku.edu.cn/handle/20.500.11897/206341]
专题	地球与空间科学学院
推荐引用方式 GB/T 7714	Sun, Hairui,Huang, Zhilong,Li, Wenbo,et al. Geochronological, isotopic and mineral geochemical constraints on the genesis of the Diyanqinamu Mo deposit, Inner Mongolia, China[J]. ore geology reviews,2015.
APA	Sun, Hairui,Huang, Zhilong,Li, Wenbo,Ye, Lin,&Zhou, Jiaxi.(2015).Geochronological, isotopic and mineral geochemical constraints on the genesis of the Diyanqinamu Mo deposit, Inner Mongolia, China.ore geology reviews.
MLA	Sun, Hairui,et al."Geochronological, isotopic and mineral geochemical constraints on the genesis of the Diyanqinamu Mo deposit, Inner Mongolia, China".ore geology reviews (2015).