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长江中下游是中国东部中生代大规模成矿的重要地区之一,是中国东部一个重要的Cu-Fe-Au-Mo多金属成矿区带。鄂东南地区铜铁多金属矿床是长江中下游地区金属成矿带的重要组成部分,但关于岩体年龄及岩体热年代学的研究比较少,本文以湖北大冶与矽卡岩型铁矿床有关的铁山岩体中的黑云母与角闪石为研究对象,利用40Ar-39Ar阶段加热同位素定年方法对该岩体进行了成岩时代的研究,获得了黑云母、角闪石的40Ar-39Ar坪年龄分别为(133.0±1.0)Ma、(137.0±2.0)Ma,等时线年龄分别为(133.4±1.5)Ma、(137.3±1.6)Ma,结合前人的资料,认为黑云母、角闪石的40Ar-39Ar坪年龄代表了铁山岩体的成岩时代,结果与鄂东南地区和长江中下游地区成矿岩体年龄一致。与铜陵地区主要成矿岩体年龄对比,利用岩体冷速率与成矿关系以及小岩体成大矿的原理,铁山岩体冷速率偏高,成矿规模一般与冷速率呈反相关,但可能由于其有着特殊的生长结构,浅部小侵入体可以得到一定深度岩浆房的成矿流体和热能补充,以致会出现"小岩体成大矿"的现象。同时,在结合已有的岩石学、地球化学以及矿床同位素年龄资料基础上,可以推断出鄂东南地区早白垩世矽卡岩铁矿床形成于岩石圈伸展-减薄环境。 相似文献
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华北地区是我国最大的矽卡岩型富铁矿床集中区,但目前对区域铁矿床的成矿年代学研究尚不系统和全面,从而制约了对其成矿构造背景的理解。山东莱芜张家洼矽卡岩型铁矿床是华北克拉通东部最重要平炉富铁矿产地之一,铁矿体主要赋存于早白垩世矿山岩体与中奥陶统碳酸盐岩的接触带、石炭系本溪组与奥陶系间不整合面的层间构造破碎带。金云母是张家洼铁矿床最主要的含水矽卡岩矿物,且与磁铁矿密切共生,对其进行40Ar/39Ar定年可为张家洼铁矿床的成矿时代提供约束。本文对张家洼铁矿床I号矿区和港里矿区的两件金云母单矿物样品进行了激光阶段加热40Ar/39Ar同位素分析,获得很好的坪年龄,分别为129. 7±0. 8 Ma和131. 5±1. 2 Ma (2σ)。上述年龄数据与矿山岩体的锆石和矽卡岩中热液榍石的U- Pb年龄一致,证实张家洼铁矿床的成矿时代为130 Ma左右。对张家洼及华北克拉通其他矽卡岩型铁矿床现有同位素年龄数据的综合分析表明,整个华北克拉通内的矽卡岩型铁矿成矿作用具有同时性和爆发性,绝多大数矿床均形成于130 Ma左右,指示华北地区大规模矽卡岩型铁成矿作用是对华北克拉通岩石圈减薄和破坏的响应。 相似文献
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个旧卡房层状铜矿床金云母和云英岩化白云母40Ar-39Ar同位素年龄及意义 总被引:1,自引:0,他引:1
在个旧锡铜多金属矿集区发育有矽卡岩型和热液脉型等锡铜矿化体,其形成时代是晚白垩世,属与花岗岩有关的岩浆热液成因矿床。赋存于三叠纪蚀变玄武岩层中,呈(似)层状的铜矿体的精确年龄尚未有报道,成因仍备受争议。文章选择赋存于卡房矿田蚀变玄武岩层中,呈(似)层状分布的铜矿体中的金云母,及新山岩体接触带云英岩中的白云母为研究对象,利用40Ar-39Ar阶段加热同位素定年方法对它们进行了年代学研究,获得了金云母和白云母的40Ar-39Ar同位素坪年龄分别为(79.55±0.47) Ma和(79.53±0.57) Ma,对应等时线年龄分别为(79.8±1.3) Ma和(79.7±1.0) Ma,反等时线年龄分别为(79.7±2.0) Ma和(79.61±0.75) Ma,两者年龄基本一致。结合矿物共生组合特征和流体包裹体测温资料,认为金云母的坪年龄(79.55±0.47) Ma,可以代表卡房蚀变玄武岩中(似)层状铜矿的形成时代,而白云母的坪年龄(79.53±0.57) Ma,则代表新山岩体形成后期岩浆热液活动的年龄。这2个年龄与个旧锡铜多金属矿床的成矿时代基本一致,应是同一构造-岩浆-流体活动形成的成矿系列产物。 相似文献
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个旧变玄武岩系中热液型铜锡多金属矿床主要分布于老厂、卡房矿田西部。文章利用40Ar-39Ar同位素测年方法对老卡隐伏花岗岩体的钾长石、老卡矿田"玄武岩型"铜矿的金云母进行年龄测试。结果显示,老卡岩体钾长石的40Ar-39Ar同位素坪年龄为71.6±0.29 Ma;老厂和卡房"玄武岩型"铜矿蚀变矿物金云母坪年龄分别为81.99±0.85 Ma和82.46±0.85 Ma,表明其形成时代皆为晚白垩世。结合区域资料,指出个旧锡-铜多金属矿田经历了较长的岩浆-热液演化时期,"玄武岩型"铜多金属矿床与燕山晚期花岗岩浆活动相关,为晚白垩世软流圈上涌、岩石圈大规模伸展减薄的产物。 相似文献
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青海它温查汉铁多金属矿床40Ar-39Ar年代学 研究及意义 总被引:2,自引:0,他引:2
它温查汉铁多金属矿床是新近发现于柴达木盆地和祁漫塔格山结合部位靠近盆地覆盖区一侧、风成沙覆盖严重、成矿元素组合复杂的矽卡岩型多金属矿床.文章主要探讨了其地质特征和成矿年代学,利用云母Ar-Ar法同位素定年技术,获得该矿床钻孔岩芯矽卡岩磁铁矿矿石中白云母40Ar-39Ar坪年龄和等时线年龄分别为(230.7±2.0) Ma和(229.9±3.5) Ma(MSWD=1.8),等时线年龄与坪年龄在误差范围内完全一致,厘定了该矿床成矿年龄为中三叠世晚期.结合区域多金属矿床最新成岩成矿年代学数据,认为该矿床形成于碰撞向后碰撞转换的地质构造环境,构成本区十分重要的与印支期碰撞造山有关的铁铜铅锌金多金属矿床成矿系列. 相似文献
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西藏嘎拉勒矽卡岩型金(铜)矿床为近几年由西藏自治区第二地质大队发现的具有一定规模和潜力的矿床。本文以嘎拉勒金铜矿床中矽卡岩中金云母为研究对象,通过40Ar/39Ar同位素定年的方法,精确厘定了嘎拉勒矽卡岩型金铜矿床的成矿时代。金云母结晶在石榴子石和透辉石、黄铁矿和黄铜矿形成之间,并与石榴子石、针状透闪石和放射状阳起石密切共生。测试结果表明,嘎拉勒矿区金云母的40Ar/39Ar坪年龄为85.41±0.64 Ma,与相应的等时线年龄85.9±2.4 Ma一致,推测其成矿作用可能与拉萨地块和羌塘地块碰撞后在拉萨地块北侧发生岩石圈拆沉引起地幔物质上涌而诱发的岩浆活动有关。 相似文献
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西藏龙马拉Cu-Fe-Pb-Zn多金属矿床金云母Ar-Ar定年及其地球动力学意义 总被引:1,自引:0,他引:1
冈底斯北缘Pb-Zn-Ag-Cu-Fe多金属成矿带内发育有大量的矽卡岩矿床。本文研究的龙马拉矿床便是位于该成矿带东侧典型的层控式矽卡岩型Cu-Fe-Pb-Zn多金属矿床。对矿床成矿时代的精确厘定,是理解矿床成因机制和冈底斯北缘大规模矽卡岩型成矿地质背景的关键。本文首先对龙马拉矿床中与磁铁矿共生的蚀变云母进行了电子探针分析,结果显示这些云母为金云母;金云母的Ar-Ar同位素测年显示,其Ar-Ar坪年龄为56.32±0.48 Ma,等时线年龄为55.58±0.93 Ma。根据金云母与矿石矿物的共生关系可知,该年龄应代表龙马拉多金属矿床的成矿时代。综合前人的研究结果,认为龙马拉多金属矿床形成于印-亚陆陆碰撞的主碰撞汇聚成矿阶段,新特提斯洋壳板片的回卷很可能是该矿床形成的深部动力学机制。 相似文献
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云南个旧老厂细脉带型锡矿白云母40Ar-39Ar年龄及其地质意义 总被引:8,自引:4,他引:4
细脉带型锡矿是云南个旧矿田老厂矿区的主要矿床类型之一.文章利用40Ar-39Ar同位素测年方法对老厂细脉带型锡矿床白云母-电气石-石英脉中的白云母进行了年龄测试.结果显示,该白云母的40Ar-39Ar同位素坪年龄为(827±07)Ma,表明其形成时代为晚白垩世.进一步结合区域资料,指出包括个旧锡多金属矿床在内的右江褶皱带内与岩浆作用有关的矿床具有相同的成矿地质背景,为华南晚中生代岩石圈大规模伸展的产物. 相似文献
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E. M. Prasolov S. A. Sergeev B. V. Belyatsky E. S. Bogomolov K. A. Gruzdov I. N. Kapitonov R. Sh. Krymsky V. O. Khalenev 《Geochemistry International》2018,56(1):46-64
This paper reports the first results of a study of 11 isotope systems (3He/4He, 40Ar/36Ar, 34S/32S, 65Cu/63Cu, 62Ni/60Ni, 87Sr/86Sr, 143Nd/144Nd, 206–208Pb/204Pb, Hf–Nd, U–Pb, and Re–Os) in the rocks and ores of the Cu–Ni–PGE deposits of the Norilsk ore district. Almost all the results were obtained at the Center of Isotopic Research of the Karpinskii All-Russia Research Institute of Geology. The use of a number of independent genetic isotopic signatures and comprehensive isotopic knowledge provided a methodic basis for the interpretation of approximately 5000 isotopic analyses of various elements. The presence of materials from two sources, crust and mantle, was detected in the composition of the rocks and ores. The contribution of the crustal source is especially significant in the paleofluids (gas–liquid microinclusions) of the ore-forming medium. Crustal solutions were probably a transport medium during ore formation. Air argon is dominant in the ores, which indicates a connection between the paleofluids and the atmosphere. This suggests intense groundwater circulation during the crystallization of ore minerals. The age of the rocks and ores of the Norilsk deposits was determined. The stage of orebody formation is restricted to a narrow age interval of 250 ± 10 Ma. An isotopic criterion was proposed for the ore-bearing potential of mafic intrusions in the Norilsk–Taimyr region. It includes several interrelated isotopic ratios of various elements: He, Ar, S, and others. 相似文献
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奥地利安东帕有限公司 《岩矿测试》2009,28(3):306-306
最新的流行病学研究表明,空气中较高浓度的悬浮细颗粒可能对人类的健康有不利的影响。根据该项研究显示,由于心脏病、慢性呼吸问题和肺功能指标恶化而导致死亡率的升高与细尘粒子有关。这些研究结果已经促使欧盟于1999年4月出台了限制空气中二氧化硫、二氧化氮、氧化氮、铅和颗粒物含量的法案(1999/30/EC),对各项指标包括对可吸入PM10颗粒的浓度提出了新的限制性指标。PM10颗粒是指可以通过预分级器分离采集的气体动力学直径小于10μm的细颗粒。目前研究的兴趣重点逐步偏向PM2.5这些更细微颗粒物,PM2.5这种颗粒物对健康有明显的不利影响。在欧盟指令2008/50/EC中,对PM10和PM2.5都提 相似文献
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S. Viswanathan K. Surya Prakash Rao B. Mahabaleswar 《Journal of the Geological Society of India》2013,82(6):621-627
Komatiites are mantle-derived ultramafic volcanic rocks. Komatiites have been discovered in several States of India, notably in Karnataka. Studies on the distribution of trace-elements in the komatiites of India are very few. This paper proposes a simple, accurate, precise, rapid, and non-destructive wavelength-dispersive x-ray fluorescence (WDXRF) spectrometric technique for determining Sc, V, Cr, Co, Ni, Cu, Zn, Rb, Sr, Y, Zr, Nb, Ba, Pb, and Th in komatiites, and discusses the accuracy, precision, limits of detection, x-ray spectral-line interferences, inter-element effects, speed, advantages, and limitations of the technique. The accuracy of the technique is excellent (within 3%) for Sc, V, Cr, Co, Ni, Cu, Zn, Rb, Sr, Zr, Nb, Ba, Pb, and Th and very good (within 4%) for Y. The precision is also excellent (within 3%) for Sc, V, Cr, Co, Ni, Cu, Zn, Rb, Sr, Y, Zr, Nb, Ba, Pb, and Th. The limits of detection are: 1 ppm for Sc and V; 2 ppm for Cr, Co, and Ni; 3 ppm for Cu, Zn, Rb, and Sr; 4 ppm for Y and Zr; 6 ppm for Nb; 10 ppm for Ba; 13 ppm for Pb; and 14 ppm for Th. The time taken for determining Sc, V, Cr, Co, Ni, Cu, Zn, Rb, Sr, Y, Zr, Nb, Ba, Pb, and Th in a batch of 24 samples of komatiites, for a replication of four analyses per sample, by one operator, using a manual WDXRF spectrometer, is only 60 hours. 相似文献
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《Applied Geochemistry》2001,16(2):137-159
Five hundred and ninety-eight samples of terrestrial moss (Hylocomium splendens and Pleurozium schreberi) collected from a 188,000 km2 area of the central Barents region (NE Norway, N Finland, NW Russia) were analysed by ICP-AES and ICP-MS. Analytical results for Al, B, Ba, Ca, K, La, Mg, Mn, Na, P, Rb, Si, Sr, Th, U and Y concentrations are reported here. Graphical methods of data analysis, such as geochemical maps, cumulative frequency diagrams, boxplots and scatterplots, are used to interpret the origin of the patterns for these elements. None of the elements reported here are emitted in significant amounts from the smelting industry on the Kola Peninsula. Despite the conventional view that moss chemistry reflects atmospheric element input, the nature of the underlying mineral substrate (regolith or bedrock) is found to have a considerable influence on moss composition for several elements. This influence of the chemistry of the mineral substrate can take place in a variety of ways. (1) It can be completely natural, reflecting the ability of higher plants to take up elements from deep soil horizons and shed them with litterfall onto the surface. (2) It can result from naturally increased soil dust input where vegetation is scarce due to harsh climatic conditions for instance. Alternatively, substrate influence can be enhanced by human activity, such as open-cast mining, creation of ‘technogenic deserts’, or handling, transport and storage of ore and ore products, all of which magnify the natural elemental flux from bedrock to ground vegetation. Seaspray is another natural process affecting moss composition in the area (Mg, Na), and this is most visible in the Norwegian part of the study area. Presence or absence of some plant species, e.g., lichens, seems to influence moss chemistry. This is shown by the low concentrations of B or K in moss on the Finnish and Norwegian side of the (fenced) border with Russia, contrasting with high concentrations on the other side (intensive reindeer husbandry west of the border has selectively depleted the lichen population). 相似文献
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《Chemical Geology》2007,236(1-2):13-26
We examined the coprecipitation behavior of Ti, Mo, Sn and Sb in Ca–Al–Mg fluorides under two different fluoride forming conditions: at < 70 °C in an ultrasonic bath (denoted as the ultrasonic method) and at 245 °C using a Teflon bomb (denoted as the bomb method). In the ultrasonic method, small amounts of Ti, Mo and Sn coprecipitation were observed with 100% Ca and 100% Mg fluorides. No coprecipitation of Ti, Mo, Sn and Sb in Ca–Al–Mg fluorides occurred when the sample was decomposed by the bomb method except for 100% Ca fluoride. Based on our coprecipitation observations, we have developed a simultaneous determination method for B, Ti, Zr, Nb, Mo, Sn, Sb, Hf and Ta by Q-pole type ICP-MS (ICP-QMS) and sector field type ICP-MS (ICP-SFMS). 9–50 mg of samples with Zr–Mo–Sn–Sb–Hf spikes were decomposed by HF using the bomb method and the ultrasonic method with B spike. The sample was then evaporated and re-dissolved into 0.5 mol l− 1 HF, followed by the removal of fluorides by centrifuging. B, Zr, Mo, Sn, Sb and Hf were measured by ID method. Nb and Ta were measured by the ID-internal standardization method, based on Nb/Mo and Ta/Mo ratios using ICP-QMS, for which pseudo-FI was developed and applied. When 100% recovery yields of Zr and Hf are expected, Nb/Zr and Ta/Hf ratios may also be used. Ti was determined by the ID-internal standardization method, based on the Ti/Nb ratio from ICP-SFMS. Only 0.053 ml sample solution was required for measurement of all 9 elements. Dilution factors of ≤ 340 were aspirated without matrix effects. To demonstrate the applicability of our method, 4 carbonaceous chondrites (Ivuna, Orgueil, Cold Bokkeveld and Allende) as well as GSJ and USGS silicate reference materials of basalts, andesites and peridotites were analyzed. Our analytical results are consistent with previous studies, and the mean reproducibility of each element is 1.0–4.6% for basalts and andesites, and 6.7–11% for peridotites except for TiO2. 相似文献
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Most sulfide-rich magmatic Ni-Cu-(PGE) deposits form in dynamic magmatic systems by partial melting S-bearing wall rocks with variable degrees of assimilation of miscible silicate and volatile components, and generation of barren to weakly-mineralized immiscible Fe sulfide xenomelts into which Ni-Cu-Co-PGE partition from the magma. Some exceptionally-thick magmatic Cr deposits may form by partial melting oxide-bearing wall rocks with variable degrees of assimilation of the miscible silicate and volatile components, and generation of barren Fe ± Ti oxide xenocrysts into which Cr-Mg-V ± Ti partition from the magma. The products of these processes are variably preserved as skarns, residues, xenoliths, xenocrysts, xenomelts, and xenovolatiles, which play important to critical roles in ore genesis, transport, localization, and/or modification. Incorporation of barren xenoliths/autoliths may induce small amounts of sulfide/chromite to segregate, but incorporation of sulfide xenomelts or oxide xenocrysts with dynamic upgrading of metal tenors (PGE > Cu > Ni > Co and Cr > V > Ti, respectively) is required to make significant ore deposits. Silicate xenomelts are only rarely preserved, but will be variably depleted in chalcophile and ferrous metals. Less dense felsic xenoliths may aid upward sulfide transport by increasing the effective viscosity and decreasing the bulk density of the magma. Denser mafic or metamorphosed xenoliths may also increase the effective viscosity of the magma, but may aid downward sulfide transport by increasing the bulk density of the magma. Sulfide wets olivine, so olivine xenocrysts may act as filter beds to collect advected finely dispersed sulfide droplets, but other silicates and xenoliths may not be wetted by sulfides. Xenovolatiles may retard settling of – or in some cases float – dense sulfide droplets. Reactions of sulfide melts with felsic country rocks may generate Fe-rich skarns that may allow sulfide melts to fractionate to more extreme Cu-Ni-rich compositions. Xenoliths, xenocrysts, xenomelts, and xenovolatiles are more likely to be preserved in cooler basaltic magmas than in hotter komatiitic magmas, and are more likely to be preserved in less dynamic (less turbulent) systems/domain/phases than in more dynamic (more turbulent) systems/domains/phases. Massive to semi-massive Ni-Cu-PGE and Cr mineralization and xenoliths are often localized within footwall embayments, dilations/jogs in dikes, throats of magma conduits, and the horizontal segments of dike-chonolith and dike-sill complexes, which represent fluid dynamic traps for both ascending and descending sulfides/oxides. If skarns, residues, xenoliths, xenocrysts, xenomelts, and/or xenovolatiles are present, they provide important constraints on ore genesis and they are valuable exploration indicators, but they must be included in elemental and isotopic mass balance calculations. 相似文献
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S. M. Moosavirad J. Rasouli M. R. Janardhana M. R. Moghadam M. Shankara 《Arabian Journal of Geosciences》2013,6(10):3623-3634
This paper discusses the result of the detailed investigations carried out on the coal characteristics, including coal petrography and its geochemistry of the Pabedana region. A total of 16 samples were collected from four coal seams d2, d4, d5, and d6 of the Pabedana underground mine which is located in the central part of the Central-East Iranian Microcontinent. These samples were reduced to four samples through composite sampling of each seam and were analyzed for their petrographic, mineralogical, and geochemical compositions. Proximate analysis data of the Pabedana coals indicate no major variations in the moisture, ash, volatile matter, and fixed carbon contents in the coals of different seams. Based on sulfur content, the Pabedana coals may be classified as low-sulfur coals. The low-sulfur contents in the Pabedana coal and relatively low proportion of pyritic sulfur suggest a possible fresh water environment during the deposition of the peat of the Pabedana coal. X-ray diffraction and petrographic analyses indicate the presence of pyrite in coal samples. The Pabedana coals have been classified as a high volatile, bituminous coal in accordance with the vitrinite reflectance values (58.75–74.32 %) and other rank parameters (carbon, calorific value, and volatile matter content). The maceral analysis and reflectance study suggest that the coals in all the four seams are of good quality with low maceral matter association. Mineralogical investigations indicate that the inorganic fraction in the Pabedana coal samples is dominated by carbonates; thus, constituting the major inorganic fraction of the coal samples. Illite, kaolinite, muscovite, quartz, feldspar, apatite, and hematite occur as minor or trace phases. The variation in major elements content is relatively narrow between different coal seams. Elements Sc,, Zr, Ga, Ge, La, As, W, Ce, Sb, Nb, Th, Pb, Se, Tl, Bi, Hg, Re, Li, Zn, Mo, and Ba show varying negative correlation with ash yield. These elements possibly have an organic affinity and may be present as primary biological concentrations either with tissues in living condition and/or through sorption and formation of organometallic compounds. 相似文献