共查询到19条相似文献,搜索用时 93 毫秒
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Baode Wang Shuyin Niu Aiqun Sun Yaming Liu Yan Xie Xiaoping Jiang Yongli Zhao Yincang Gao Fuwang Zhao 《中国地球化学学报》2010,29(3):270-277
This study was conducted following research on metallogenesis in the Zhangjiajie-Xuanhua and East Hebei mantle branch structure zones. The Fuping mantle branch structure zone is one where Au, Cu and Ag polymetallic ore resources are concentrated in North Hebei. However, there has existed a long-standing controversy on the temporal-spatial distribution of ore resources and their ore-forming material sources. In terms of age dating and the comprehensive analysis of S, Pb, O, C and Si isotopes, it is considered that the temporal-spatial distribution of ore resources in this mantle branch structure zone is obviously controlled by the Fuping mantle branch structure. In space there is developed such a metallogenic pattern as to be Ag, Pb and Zn polymetallic ore deposits with gold appearing inside and copper appearing outside. Metallogenesis is dated mainly at Yanshanian, the ore-forming mate-rials were derived predominantly from the deep interior of the Earth, and ore-forming fluids were derived largely from Yanshanian magmatism. 相似文献
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Aiqun Sun Shuyin Niu Baode Wang Yuchou Han Minhui Wei Baojun Ma Zhiyuan Zhao Dong Xia 《中国地球化学学报》2011,30(1):1-13
The region of Northwest Hebei is an area where Au-Ag polymetallic ore depsits are concentrated in Hebei Province. There were divided the Au ore-concentrated region with the magmatic-metamorphic diamictite zone as the center and the perpheral cover-strata zone and Ag-polymetallic metallogenic zone along the line of Xuanhua-Songli-Chicheng. Research on mantle branch structure indicates that Au-Ag polymetallic ore-forming materials come mainly from the deep interior of the Earth. The ore-forming materials tend to migrate upwards through the multi-stage evolution of mantle plume, and are concentrated as ores in the favourable tectonic expansion zone of a mantle branch structure. As viewed in plane, from the center to the periphery and as viewed in space, from the lower part to the upper part there exists Au-Ag-Pb-Zn zonation, as evidenced by drilling data from a number of mines. So, there is still great potential for ore prospecting in the region of Northwest Hebei. 相似文献
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交代岩石圈地幔与大型金矿床之间的成因联系受到越来越多的关注.研究成矿金属在地幔源区的富集程度和幔源岩浆中的金含量,以及金从地幔源区释放、迁移并大规模富集成矿的机制和过程可以帮助我们更好地认识交代岩石圈地幔对金富集成矿的重要作用.金是高度亲铜元素,同时还具有流体活动性,在地幔岩浆作用、岩浆热液演化和富集成矿等诸多过程中的行为较为复杂.主要从金的地球化学行为出发,通过梳理金在各类地幔岩石和幔源岩浆中的分布,以及岩浆热液中金的主要行为及其受控因素,探讨交代岩石圈地幔对巨量金成矿的关键控制机制.主要认识包括:(1)交代岩石圈地幔可能是形成大规模热液型金矿床的重要源区,但金在源区的异常富集可能并不是成矿的必要条件;(2)地幔交代组分(特别是挥发分)有助于金从地幔源区中有效释放、并通过跨岩石圈尺度的深大断裂迁移富集;(3)富挥发分的岩浆热液中金的富集沉淀过程远比一个富金的地幔源区对大规模金成矿作用的贡献更大.因此,深刻理解岩石圈地幔长期演化过程中金在地幔交代和岩浆-热液演化过程中的行为与富集机制是解析大型金矿床成因的关键. 相似文献
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Types and distribution of silver ore deposits in China 总被引:2,自引:0,他引:2
Silver is generally recovered as a by- and co-product along with Au, Pb, Zn, Cu, Sb, Bi, Hg, Sn and W from polymetallic and
gold mines in China. Chinese silver deposits can be classified into five principal types according to host rocks. These types
and their host rocks are: (1) marine volcanic-sedimentary rocks hosting (la) massive sulfide Pb-Zn-(Cu)-Ag ores and (1b) stratiform
Ag-(Au) ores; (2) continental volcanic-sedimentary rocks containing (2a) various polymetallic-silver veins and/or stockworks,
and (2b) Ag-(Au) veins in pyroclastic rocks; (3) rocks affected by metasomatic processes including (3a) complex Sn-polymetallic-Ag
ores, (3b) Pb-Zn-(Cu)-Ag skarns, (3c) associated W-Ag quartz veins and/or skarns, and (3d) Ag-(Au) zones and veins in altered
carbonate rocks; (4) metamorphic-intrusive rocks, principally Ag-(Au) veins in sheared and brecciated metamorphic rocks; and
(5) sedimentary rocks including (5a) stratiform Pb-Zn-Ag ores in carbonate rocks, (5b) Ag-V mantos in black shales, and (5c)
Cu-(Ag) layers in red sandstones. A sixth grouping includes gossans. The tectonic settings, geological features, and temporal
and spatial distribution of these different types of silver occurrences indicate that silver mineralization reflects to a
great extent the evolution of tectonic environments in China throughout geological time. Type 1 is generally developed in
association with several fold belts from the Caledonian to Yanshanian orogens, while types 2, 3 and 4 correlate with rejuvenation
of the eastern China continent during the Mesozoic period. The three subgroups of type 5 are recognized in different stages
and various sedimentry and diagenetic environments during the development of paraplatforms and fold belts. Type 6 results
from recent weathering of existing sulfide ores or protores.
Editorial handling: DR 相似文献
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石湖金矿101、116矿脉深部延伸稳定,品位有所提高,产状变化不大,南于深部探矿进展较好,而使其成为太行山中段大型金矿.石湖金矿的矿脉明显受断裂构造控制,总体属岩浆期后热液石英脉-断裂构造蚀变岩型矿床.本文采用幔枝构造新视角开展研究,通过对地质背景研究及铅、硫、硅、碳、氢、氧同位素的分析表明:石湖金矿成矿物质主要来源于地球深部,成矿溶液主要为岩浆水,混有部分大气水.进而探讨了其成矿作用,建立了成矿模式,提出了具体找矿建议. 相似文献
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吉林夹皮沟成矿带金成矿作用与太古宇变质岩系、幔源岩浆活动、韧性剪切带密切相关.成矿流体以地幔流体为主,成矿物质主要来源于地幔,地幔活动形成的韧性剪切带及其伴生的次一级断裂构造不仅是成矿流体的运移通道,而且是矿体就位的有利空间.论述了新立屯-马家店、大朝阳沟地区具有金矿成矿的基本地质条件——太古宇变质岩系广泛分布,幔源岩浆、韧性-脆性构造活动强烈;金矿化体(石英脉)受韧性剪切带两侧的次一级断裂控制,伴随金矿化有黄铁矿化、黄铜矿化、方铅矿化及闪锌矿化等,金品位与金属硫化物含量呈正相关;与矿化关系密切的围岩蚀变是硅化(-钾长石化).金矿化、围岩蚀变特征与矿带内已知金矿床相似.找矿研究表明,新立屯矿化点深部具有较强烈的主成矿期热液活动,且围岩条件、构造条件适宜金矿成矿作用;马家店矿点、大朝阳沟地区的矿化点同样具有较大的成矿潜力.因此,夹皮沟成矿带南东部外围具有良好的成矿远景. 相似文献