{"title":"波兰西南Nowa Sól铜银矿床沉积层中页岩矿石的银、钴、镍矿物学和地球化学","authors":"T. Bieńko, J. Wierchowiec, A. Pietrzela","doi":"10.1144/geochem2023-035","DOIUrl":null,"url":null,"abstract":"The Nowa Sól deposit is a part of the newly discovered Northern Copper Belt and is situated some 30 km north-west of the Lubin-Sieroszowice Mining District (so called New Copper District) in SW Poland. The ore horizon spans across the upper part of the Lower Permian (Rotliegend) terrestrial redbeds and the lower part of the Upper Permian (Zechstein) marine rocks and comprises three lithotypes: sandstone, shale and carbonate. The high-grade shale ore has polymetallic characteristics and is a crucial host for by-product metals such as silver, cobalt, and nickel (studied in this paper), but also molybdenum, vanadium, and rhenium. The results of bulk-rock and electron microprobe as well as mineralogical (optical and scanning electron microscope) data of the mineralized, organic-rich shale ore from the Nowa Sól deposit are presented. This thin stratigraphic horizon, ranging from 0.06 m to 0.59 m, shows notable concentrations of critical metals, including on average 15.9 wt. % copper, 715 g/t silver, 318 g/t cobalt, and 345 g/t nickel. It constitutes less than 10% of the total ore mass, but accounts for 36% of the silver, 40% of the nickel, and 42% of the cobalt found within the deposit. The ore sulfides in the mineralized shale in the Nowa Sól deposit include chalcocite, djurleite, bornite, accompanied by digenite, covellite, tennantite, galena, sphalerite, and pyrite. The silver content within the copper sulfides exhibits a linear decrease: chalcocite > djurleite > bornite. Three primary silver minerals are identified within the shale ore, namely native silver, silver amalgam, and stromeyerite. Two types of silver amalgam are observed: Hg-rich and Hg-poor. Cobaltite and gersdorffite represent the primary cobalt and nickel minerals, occurring as micrometer-sized inclusions within chalcocite and djurleite. Textural observations suggest that the silver, cobalt, and nickel mineralization postdates the major phase of copper sulfide precipitation. It is shown that in the Nowa Sól deposit, the Kupferschiefer horizon has acted as a geochemical barrier for abovementioned metals during protracted time – from early, syndepositional to late, epigenetic stage of basin evolution. 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The ore horizon spans across the upper part of the Lower Permian (Rotliegend) terrestrial redbeds and the lower part of the Upper Permian (Zechstein) marine rocks and comprises three lithotypes: sandstone, shale and carbonate. The high-grade shale ore has polymetallic characteristics and is a crucial host for by-product metals such as silver, cobalt, and nickel (studied in this paper), but also molybdenum, vanadium, and rhenium. The results of bulk-rock and electron microprobe as well as mineralogical (optical and scanning electron microscope) data of the mineralized, organic-rich shale ore from the Nowa Sól deposit are presented. This thin stratigraphic horizon, ranging from 0.06 m to 0.59 m, shows notable concentrations of critical metals, including on average 15.9 wt. % copper, 715 g/t silver, 318 g/t cobalt, and 345 g/t nickel. It constitutes less than 10% of the total ore mass, but accounts for 36% of the silver, 40% of the nickel, and 42% of the cobalt found within the deposit. The ore sulfides in the mineralized shale in the Nowa Sól deposit include chalcocite, djurleite, bornite, accompanied by digenite, covellite, tennantite, galena, sphalerite, and pyrite. The silver content within the copper sulfides exhibits a linear decrease: chalcocite > djurleite > bornite. Three primary silver minerals are identified within the shale ore, namely native silver, silver amalgam, and stromeyerite. Two types of silver amalgam are observed: Hg-rich and Hg-poor. Cobaltite and gersdorffite represent the primary cobalt and nickel minerals, occurring as micrometer-sized inclusions within chalcocite and djurleite. Textural observations suggest that the silver, cobalt, and nickel mineralization postdates the major phase of copper sulfide precipitation. It is shown that in the Nowa Sól deposit, the Kupferschiefer horizon has acted as a geochemical barrier for abovementioned metals during protracted time – from early, syndepositional to late, epigenetic stage of basin evolution. 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引用次数: 0
摘要
Nowa Sól矿床是新发现的北铜带的一部分,位于波兰西南部Lubin-Sieroszowice矿区(所谓的新铜矿区)西北约30公里处。矿层横跨下二叠统(Rotliegend)陆相红层上部和上二叠统(Zechstein)海相岩下部,包括砂岩、页岩和碳酸盐岩三种岩型。高品位页岩矿具有多金属特征,是副产物金属如银、钴、镍(本文研究)以及钼、钒、铼的重要宿主。本文介绍了Nowa Sól矿床富有机质矿化页岩矿石的体岩、电子探针和矿物学(光学和扫描电镜)资料。这个薄的地层层位,范围从0.06米到0.59米,显示出显著的关键金属浓度,包括平均15.9 wt. %的铜,715 g/t的银,318 g/t的钴和345 g/t的镍。它占总矿石质量的不到10%,但占矿床中发现的银的36%,镍的40%和钴的42%。Nowa Sól矿床矿化页岩中矿石硫化物主要有辉铜矿、闪铜矿、斑铜矿,伴生有银长铜矿、银长石、天长石、方铅矿、闪锌矿和黄铁矿。铜硫化物中银的含量呈线性下降趋势:辉铜矿;djurleite祝辞斑铜矿。在页岩矿石中鉴定出三种原生银矿物,即天然银、银汞合金和闪辉石。观察到两种类型的银汞合金:富汞和贫汞。钴矿和辉闪石是主要的钴和镍矿物,以微米大小的包裹体存在于辉铜矿和辉闪岩中。结构观测表明,银、钴和镍矿化发生在硫化铜沉淀的主要阶段之后。结果表明,在Nowa Sól矿床中,从盆地演化早期同沉积到晚期的表成阶段,Kupferschiefer层位在较长时间内对上述金属起着地球化学屏障的作用。补充资料:https://doi.org/10.6084/m9.figshare.c.6873631
Silver, cobalt and nickel mineralogy and geochemistry of shale ore in the sediment-hosted stratiform Nowa Sól Cu-Ag deposit, SW Poland
The Nowa Sól deposit is a part of the newly discovered Northern Copper Belt and is situated some 30 km north-west of the Lubin-Sieroszowice Mining District (so called New Copper District) in SW Poland. The ore horizon spans across the upper part of the Lower Permian (Rotliegend) terrestrial redbeds and the lower part of the Upper Permian (Zechstein) marine rocks and comprises three lithotypes: sandstone, shale and carbonate. The high-grade shale ore has polymetallic characteristics and is a crucial host for by-product metals such as silver, cobalt, and nickel (studied in this paper), but also molybdenum, vanadium, and rhenium. The results of bulk-rock and electron microprobe as well as mineralogical (optical and scanning electron microscope) data of the mineralized, organic-rich shale ore from the Nowa Sól deposit are presented. This thin stratigraphic horizon, ranging from 0.06 m to 0.59 m, shows notable concentrations of critical metals, including on average 15.9 wt. % copper, 715 g/t silver, 318 g/t cobalt, and 345 g/t nickel. It constitutes less than 10% of the total ore mass, but accounts for 36% of the silver, 40% of the nickel, and 42% of the cobalt found within the deposit. The ore sulfides in the mineralized shale in the Nowa Sól deposit include chalcocite, djurleite, bornite, accompanied by digenite, covellite, tennantite, galena, sphalerite, and pyrite. The silver content within the copper sulfides exhibits a linear decrease: chalcocite > djurleite > bornite. Three primary silver minerals are identified within the shale ore, namely native silver, silver amalgam, and stromeyerite. Two types of silver amalgam are observed: Hg-rich and Hg-poor. Cobaltite and gersdorffite represent the primary cobalt and nickel minerals, occurring as micrometer-sized inclusions within chalcocite and djurleite. Textural observations suggest that the silver, cobalt, and nickel mineralization postdates the major phase of copper sulfide precipitation. It is shown that in the Nowa Sól deposit, the Kupferschiefer horizon has acted as a geochemical barrier for abovementioned metals during protracted time – from early, syndepositional to late, epigenetic stage of basin evolution. Supplementary material: https://doi.org/10.6084/m9.figshare.c.6873631
期刊介绍:
Geochemistry: Exploration, Environment, Analysis (GEEA) is a co-owned journal of the Geological Society of London and the Association of Applied Geochemists (AAG).
GEEA focuses on mineral exploration using geochemistry; related fields also covered include geoanalysis, the development of methods and techniques used to analyse geochemical materials such as rocks, soils, sediments, waters and vegetation, and environmental issues associated with mining and source apportionment.
GEEA is well-known for its thematic sets on hot topics and regularly publishes papers from the biennial International Applied Geochemistry Symposium (IAGS).
Papers that seek to integrate geological, geochemical and geophysical methods of exploration are particularly welcome, as are those that concern geochemical mapping and those that comprise case histories. Given the many links between exploration and environmental geochemistry, the journal encourages the exchange of concepts and data; in particular, to differentiate various sources of elements.
GEEA publishes research articles; discussion papers; book reviews; editorial content and thematic sets.