Chemostratigraphy at the Brunswick No. 6 Volcanic-Sediment-Hosted Massive Sulfide Deposit, New Brunswick: Resolving Geometry from Drill Core in Deformed Felsic Volcanic Rocks

Exploration and Mining Geology Pub Date : 2006-07-01 DOI:10.2113/GSEMG.15.3-4.35

A. O. Wills, D. Lentz, G. Roy

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引用次数: 11

Abstract

Diamond-drill hole DDH-B357, located 1.5 km north of the Brunswick No. 6 Zn-Pb- Cu-Ag volcanic-sediment-hosted massive sulfide (VSHMS) deposit, intersects three exhalative horizons within variably altered felsic volcanic rocks of the Nepisiguit Falls and Flat Landing Brook formations. These three petrographically indistinguishable iron formation intervals (Fe 2 O 3 T ≥ 21.4 wt.%) likely represent cogenetic hydrothermal sedimentary units because they display a common geochemical signature: Fe2O3 T = 42.9 ± 10.5 wt.%, MnO = 5.4 ± 3.1 wt.%, elevated base metal values (Zn+Pb = 1999 ± 1091 ppm), strong enrichment in additional exhalative components (CaO = 5.3 ± 3.9 wt.%; P2O5 = 1.43 ± 1.00 wt.%), oxidized signature (Fe/Mn = 10 ± 6), as well as a common immobile element signature (Zr/TiO2 = 0.025 ± 0.007) representative of a pelagic source. The calc-alkaline to transitional host volcanic rocks can be discriminated by Zr/TiO 2 , and to a lesser extent by Th/Nb: Nepisiguit Falls Formation: Zr/TiO 2 = 0.053 ± 0.004, Th/Nb = 1.08 ± 0.37; Flat Landing Brook Formation: Zr/TiO2 = 0.107 ± 0.043, Th/Nb = 0.86 ± 0.17. A symmetrical repetition of the footwall-iron formation-hanging wall stratigraphic sequence is observed in DDH-B357, with distinct felsic volcanic rock domains separated by the three iron formations. This is best explained by parasitic F2 folds on the west flank of the south-plunging Brunswick antiform, similar to the fold closures known to host massive sulfide accumulations in the Brunswick No. 6 and No. 12 mines. Iron formation geochemistry and felsic volcanic rock chemostratigraphy from drill core sampling can provide an effective mineral exploration tool for the structurally complex rocks of the Bathurst Mining Camp. © 2007 Canadian Institute of Mining, Metallurgy and Petroleum. All rights reserved.

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新布伦瑞克6号火山-沉积块状硫化物矿床的化学地层学:从变形长英质火山岩岩心中解析几何形状

钻石钻孔DDH-B357位于Brunswick 6号Zn-Pb- Cu-Ag火山沉积物含大量硫化物(VSHMS)矿床以北1.5公里处，在Nepisiguit Falls和Flat Landing Brook地层的变蚀长英质火山岩中相交三个喷出层。这三个岩石学上难以区分的铁形成层段(Fe2O3 T≥21.4 wt.%)可能代表同生热液沉积单元，因为它们显示出共同的地球化学特征:Fe2O3 T = 42.9±10.5 wt.%， MnO = 5.4±3.1 wt.%，贱金属值升高(Zn+Pb = 1999±1091 ppm)，额外的排气组分强烈富集(CaO = 5.3±3.9 wt.%;P2O5 = 1.43±1.00 wt.%)，氧化特征(Fe/Mn = 10±6)，以及常见的固定元素特征(Zr/TiO2 = 0.025±0.007)，代表了远洋来源。钙碱性-过渡性火山岩可通过Zr/ tio2进行判别，Th/Nb也有一定的判别作用:Nepisiguit Falls组Zr/ tio2 = 0.053±0.004,Th/Nb = 1.08±0.37;平地溪组:Zr/TiO2 = 0.107±0.043,Th/Nb = 0.86±0.17。hdh - b357地区具有下盘-铁组-上盘地层序的对称重复，三组铁组分隔出明显的长英质火山岩域。这最好的解释是，位于南倾的Brunswick反形体西侧的寄生F2褶皱，类似于在Brunswick 6号和12号矿中发现大量硫化物聚集的褶皱闭包。岩心取样的铁组地球化学和长英质火山岩化学地表学可以为巴瑟斯特矿营构造复杂岩石提供有效的找矿工具。©2007加拿大矿业、冶金和石油学会。版权所有。

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Exploration and Mining Geology

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