Trace elements of magnetite and iron isotopes of the Zankan iron   deposit, westernmost Kunlun, China: A case study of seafloor   hydrothermal iron deposits

doi:10.1016/j.oregeorev.2016.09.020

CORC > 北京大学 > 地球与空间科学学院

	Trace elements of magnetite and iron isotopes of the Zankan iron deposit, westernmost Kunlun, China: A case study of seafloor hydrothermal iron deposits
	Zhou, Zhen-Ju ; Tang, Hao-Shu ; Chen, Yan-Jing ; Chen, Zheng-Le
刊名	ORE GEOLOGY REVIEWS
	2017
关键词	Magnetite Trace element Fe isotope Zankan iron deposit West Kunlun Orogen LA-ICP-MS POTASSIC MICROGRANULAR ENCLAVES FEMTOSECOND LASER-ABLATION NW TIBETAN PLATEAU MID-ATLANTIC RIDGE 125 DEGREES-C FE-ISOTOPE GREENSTONE-BELT REDOX STATE GEOCHEMICAL CHARACTERISTICS
DOI	10.1016/j.oregeorev.2016.09.020
英文摘要	The large Zankan iron deposit is hosted in the pre-Devonian Bulunkuole metamorphic complex within the Taxkorgan terrane, West Kunlun Orogen, southwestern China. The deposit is unique for its mineral association of magnetite, pyrite and anhydrite in variable proportions, forming disseminations, banded and massive ores. Magnetite grains from the ores show variable contents of many elements, such as Mg (182-1167 ppm), Al (198-2691 ppm), Ti (898-1677 ppm), V (112-8468 ppm), Mn (821-4695 ppm), Co (7-26 ppm), Ni (129 ppm), Zn (5-45 ppm), and Ga (20-62 ppm). The high Al, Ti and V contents are interpreted to result from relatively reduced, Al-Ti-rich seafloor hydrothermal activities. The magnetite coexisting with sulfide has lower Co concentrations (7.8-13 ppm) than those not coexisting with sulfides (Co = 22-26 ppm). Compositional variations of magnetite possibly related to oxygen fugacity, temperature and coexisting minerals. The delta Fe-56 values in magnetite range from -0.3 to 0.5 parts per thousand, suggesting a changing hydrothermal precipitation environment The Fe isotope fractionation between pyrite and magnetite (Delta delta Fe-57(py)-mag) range 0.2-1.1 parts per thousand, implying a high-temperature crystallization (>= 236 degrees C). The delta Fe-56 ratios in pyrite range 0.6-0.8 parts per thousand, higher than the coexisting magnetite. Such a negligible variation of positive delta Fe-56 values indicates that the pyrite possibly originated from a slow precipitation or a transformation from FeS (mackinawite), which was induced by the rise of atmospheric oxygen at similar to 0.6 Ga. Integrating the data obtained from the studies including regional geology, ore geology, magnetite composition and Fe isotope geochemistry, we conclude that the Zankan Fe deposit was formed from an Early Cambrian seafloor hydrothermal system developed in a volcanic arc caused by southward subduction of Proto-Tethyan plate. (C) 2016 Elsevier B.V. All rights reserved.; National Natural Science Foundation of China [41402061, 41672086, U1403292]; China Geological Survey Bureau [1212011140056]; National Key Technology Research and Development Program of the Ministry of Science and Technology of China [2015BAB05B04]; SCI(E); ARTICLE; 1191-1205; 80
语种	英语
内容类型	期刊论文
源URL	[http://ir.pku.edu.cn/handle/20.500.11897/476540]
专题	地球与空间科学学院
推荐引用方式 GB/T 7714	Zhou, Zhen-Ju,Tang, Hao-Shu,Chen, Yan-Jing,et al. Trace elements of magnetite and iron isotopes of the Zankan iron deposit, westernmost Kunlun, China: A case study of seafloor hydrothermal iron deposits[J]. ORE GEOLOGY REVIEWS,2017.
APA	Zhou, Zhen-Ju,Tang, Hao-Shu,Chen, Yan-Jing,&Chen, Zheng-Le.(2017).Trace elements of magnetite and iron isotopes of the Zankan iron deposit, westernmost Kunlun, China: A case study of seafloor hydrothermal iron deposits.ORE GEOLOGY REVIEWS.
MLA	Zhou, Zhen-Ju,et al."Trace elements of magnetite and iron isotopes of the Zankan iron deposit, westernmost Kunlun, China: A case study of seafloor hydrothermal iron deposits".ORE GEOLOGY REVIEWS (2017).