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新疆阿尔泰库卫铜镍硫化物-钛铁氧化物复合型矿化镁铁-超镁铁质杂岩体成因 总被引:3,自引:2,他引:1
库卫镁铁-超镁铁质杂岩体位于新疆阿尔泰南缘,兼具铜镍矿化岩体和钒钛铁矿化岩体的双重特征,主要组成岩石类型有中粒辉长岩、条带状橄榄辉长岩、橄榄苏长辉长岩、角闪辉长岩和含橄辉长岩等。本文采用LA-ICP-MS锆石U-Pb定年法,获得中粒辉长岩、橄榄苏长辉长岩和含橄辉长岩的加权平均年龄分别为398.7±3.7Ma、397.5±2.3Ma和385.2±1.6Ma,表明库卫岩体是早中泥盆世构造-岩浆活动的产物。岩体的主量元素显示其属亚碱性系列,并具有向拉斑系列岩石演化的趋势。具有Ba、U、Ta、Pb、Sr、Ti和Eu的正异常,Th的负异常,显示了相似的LREE相对富集的右倾型配分模式,表明它们可能为同源岩浆演化的产物。结合地球化学特征和区域地质背景,推测库卫岩体为早中泥盆世俯冲消减环境的产物,其原始岩浆可能来源于受俯冲物质交代的地幔楔和软流圈的混合体,不同的岩石类型是相似来源的岩浆经强烈分异的结果。库卫岩体兼具铜镍矿化岩体和钒钛铁矿化岩体的双重特征,但形成铁钛矿床的潜力略显不足。 相似文献
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新疆伊吾县宝山铁矿地质特征、成矿模式与找矿方向 总被引:3,自引:0,他引:3
宝山铁矿位于新疆东准噶尔晚古生代岛弧岩浆-构造成矿带东部,位于琼河坝铁铜多金属矿集区.宝山铁矿为由热液交代成因夕卡岩型磁铁矿矿体和黄铜矿-磁铁矿矿体、贯入成因夕卡岩型磁铁矿矿体和热液充填型黄铜矿矿脉构成的铁矿床,目前开采的主要为磁铁矿型铁矿.矿区岩浆岩类型多样,主要有花岗岩、辉长岩和辉绿玢岩.从矿体被花岗岩穿插及贯入型磁铁矿中含Co高等特征推断,主成矿岩体可能为隐伏的辉长岩.矿区深部存在规模较大的含矿夕卡岩质成矿流体"生产车间",含矿夕卡岩质流体的形成与迁移是脉动的,成矿后期以铜的成矿为主.宝山铁矿下步的找矿重点应放在对露天采坑深部隐伏铁矿和矿区深部隐伏铜矿的预测与探查. 相似文献
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龙脖河铜矿区东矿带火山岩特征 总被引:3,自引:0,他引:3
龙脖河铜矿区东矿带铜矿资源量已达大型规模,其含矿母岩为一套深海相变钠质(含铜)基性火山岩,岩石学、岩石化学特征与大红山铜矿区火山岩相似,成矿地质环境相同,推测其深邯可能还赋存有大型块状硫化物型铜铁矿床,是较具找矿潜力的地区。 相似文献
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山东平邑铜石金矿田成矿系列及成矿模式 总被引:10,自引:0,他引:10
铜石金矿田主要由隐爆角砾岩型(归来庄式)、碳酸盐岩层状微细浸染型(磨坊沟式)、夕卡岩叠加型,斑岩型和蚀变岩型等多种类型的矿床(点)组成,矿种以金为主,伴有银,铜,铁矿化,构成一个较完整的成矿亚系列。成矿作用与铜石富碱性次火山杂岩关系密切,岩浆活动为矿床的形成提供了热液和热源。泰山夺群为主要矿源层;寒武纪朱砂洞组上灰岩段之白云质灰岩,灰质白云岩为磨坊沟式金矿的有利含矿层位;寒武系上部-奥陶系下部的白云质灰岩,白云岩等是归来庄式金矿的有利围岩。杂岩体构成的次火山穹窿及伴生的环形放射状构造,控制着矿体的分布。 相似文献
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山东沂南金-铜-铁矿床成矿条件分析——兼论不整合面的控矿作用 总被引:3,自引:0,他引:3
山东沂南金-铜-铁矿床中与成矿有关的岩体为燕山期多期次浅成侵入的钙碱性杂岩体,岩性主要为闪长玢岩类和花岗斑岩类,属相对富含硅质、碱质和磁铁矿并通常与氧化型含金矽卡岩有关的侵入岩系列。新元古界一寒武系碳酸盐岩与碎屑岩的频繁互层,为含矿气水热液的运移和顺层交代提供了良好的围岩条件,在靠近岩体接触带部位形成了多层矽卡岩矿体。区域性断裂控制了含矿岩体的侵位,而接触带、捕虏体、层间破碎带以及不整合面等构造控制了矿体的空间定位。成矿在中低压力的中浅成至浅成条件下进行,主成矿阶段的含矿流体具有中高温、高盐度的特点,流体的沸腾可能是金-铜-铁等成矿物质大量沉淀的主要原因。接触带的矽卡岩型Au—Cu—Fe矿化与内接触带的斑岩型Cu—Mo矿化、外接触带的热液充填一交代型Au—Cu矿化,以及岩体边部的隐爆角砾岩型Au—Cu矿化一起,构成了一个中酸性岩浆-热液成矿系统。作为一种容易失稳的构造薄弱带和地球化学屏障,不整合面极易产生破碎和滑脱,从而有利于岩浆及其所分泌的含矿气水热液的贯入和成矿,这是沂南矿床中新发现的一种具有重要找矿前景的控矿构造类型。 相似文献
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与冬瓜山叠生式层状铜矿有关岩体地质地球化学特征 总被引:4,自引:0,他引:4
主量元素全碱-硅投影显示青山脚岩体岩性为闪长岩、石英闪长岩;里特曼指数计算结果表明岩性呈钙碱性;岩体中Cu呈明显的正异常,说明含铜岩浆热液一方面叠加改造原始矿胚层,使层状铜矿进一步富集;另一方面含铜的岩浆热液在岩体边缘或接触带形成浸染状、网脉状矿床(既斑岩型矿床)。钾化与Cu富集呈正相关,钾化越强,Cu富集程度越高。稀土元素球粒陨石标准化曲线显示轻稀土富集重稀土亏损;δEu接近1.0,说明岩体分异演化程度不高。该岩体是重要的成矿物质和成矿流体来源,岩浆侵入与岩浆热液的叠加改造促使矿床规模扩大、品位提高。 相似文献
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《International Geology Review》2012,54(9):1629-1639
The deinocephalian pelvic girdle, of general pelycosaurian structure, is useful in systematic diagnosis. In primitive Russian deinocephalians, two contrasting pelvic patterns are recognized, one light, thin-walled, narrow, and of V-shaped cross-section, and the other massive, thick-walled, wide, and of U-shaped cross-section. The former is characteristic of two families of lightly- built, mobile land carnivores, the Eotitanosuchidae and the Brithopodidae. The Eotitanosuchidae are more primitive and pelycosaur-like, while the Brithopodidae show more variation, and specializations of large size, shallower acetabulum (related to mobility?), and re-enforcement of a weak pubic symphysis by additional processes. The massive type of pelvis characterizes large, heavily built herbivorous animals of the family Estemmenosuchidae. In general pelvic structure, the Estemmenosuchidae resemble the South African anteosaurs and tapinocephalians and the Russian tapinocephalians. In detail, however, they show a more primitive stage of evolution, overlaid by characteristic specializations which relate them more closely to the advanced Russian forms than to those of South Africa. Three new genera are erected, Biarmosaurus, fam. Eotitanosuchidae; Chthomaloporus, fam. Brithopodidae; and Molybdopygus, fam. Estemmenosuchidae. One specimen formerly referred to Deuterosaurus Yefremov 1954, and five formerly included in the type of Brithopus Yefremov 1954 are referred to Molybdopygus. The more primitive deinocephalians are from Yezhovo in the Ocher District, Perm Province, while more advanced forms are from Isheyevo, in Tataria, where-therocephalians and other South African elements are also found. It is therefore concluded that the Ochersk beds are older than those of Isheyevo and must be dated to zone I of Yefremov's system. — N. Hotton III. 相似文献
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E.M. Lazko V.P. Kiriluk V.I. Lashmanov A.M. Lyssak A.A. Sivoronov G.M. Jatsenko 《Precambrian Research》1978,6(2):223-233
Soviet geologists consider the Precambrian to be divided into two groups — Archaean and Proterozoic; but such a division is unsatisfactory. A major unconformity separates Proterozoic volcanic and sedimentary formations from an underlying sequence that contains two supergroups of supercrustal formations. The oldest of these is unanimously considered to be Archaean. Rocks of that supergroup play an essential part in the composition of the Baltic, Ukrainian, Aldan and Anabar Shields and of the ancient fold belts of the East-European and Siberian platforms.Distinctive features in the composition, tectonic structure, metamorphism and metallogeny of Archaean complexes lead to the conclusion that they were formed in specifically mobile areas, different from geosynclinal areas.The other supergroup of high-grade metamorphic rocks has no clear place in the accepted two-fold stratigraphic scheme of the Precambrian, and it is considered sometimes to be Archaean and sometimes to be Early Proterozoic. We propose restoring the forgotten name “Eozoic” for that supergroup. Eozoic complexes are characterized by peculiarities of composition and inner structure, which signify changes in the tectonic regime of the earth at the lower and upper boundaries of the Eozoic Supergroup. These peculiarities give grounds for distinguishing the Eozoic Supergroup as an independent stratigraphic division.The Stanovoy Complex of the southern part of the Aldan Shield is a stratotype for the Eozoic Supergroup. Many well-known stratigraphic subdivisions of the Siberian Platform (e.g., the Eniseiskaya, the Birusinskaya series and others), the Taratash Complex of the Urals, the Goranskaya and Shahdarinskaya series of the South-West Pamir, the Tikitch complex and Aulskaya series of the Ukrainian Shield, and in part the Belomorsky Complex of the Baltic Shield, as well as some others, are also Eozoic.The Eozoic complexes are characterized by the following specific features: only some supercrustal formations are typical for them; the small number of rock types which have a total thickness about 5–6 km; relatively monotonous mineral composition of the rocks; variable quantitative ratios of rocks; absence of contrasting marker beds; regional metamorphism and ultrametamorphism in the amphibolite facies; wide development of ultrametamorphic granitoids and migmatites; distinct tectonic differentiations of the basin of sedimentation.Dates determined by isotopic analyses, which mostly reflect the metamorphism of the deposits, fall predominantly in the range 2600–3100 Ma. 相似文献
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《International Geology Review》2012,54(4):391-403
Detailed regional studies and the author' personal observations on tillite-like rocks in Siberia and Ural suggest that pseudo-tillites, only too common in subaqueous landslide formations, were often mistaken for tillites or tillite-like rocks, because of their resemblance to fossil moraines. --V. P. Sokoloff. 相似文献
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International Journal of Earth Sciences - 相似文献
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《International Geology Review》2012,54(1):23-26
On October 12, 1962, a joint session of the Presidium of the U.S.S.R. Academy of Sciences and the Collegium of the U.S.S.R. Ministry of Geology and Mineral Reserves adopted a resolution “On the present state of the geological sciences in the U.S.S.R. Academy of Sciences and the U. S. S. R. Ministry of Geology and Mineral Reserves and their prospects for the future.” Important contributions of Russian geologists are acknowledged, but attention is drawn to many shortcomings. Future goals of geological study and work are given in detail. Twenty-one lines of research to be concentrated on are given, covering all phases of geology, geophysics, and geochemistry. In discussing the failings of the geological profession in Russia, it is of interest to note the following comment: “Geological research in other countries is still insufficiently studied and applied, and we are not making adequate use of geologic information from abroad.” The list of the Russian geologists' shortcomings sounds vaguely familiar. —J. R. Hayes 相似文献
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《International Geology Review》2012,54(10):1756-1770
The Pacific Mobile belt is differentiated into an outer (continental) zone of predominantly Mesozoic folding (Verkhoyansk -Chukotka, Mongolo-Okhotsk, and Sikhote-Alin folded provinces) and an inner oceanic zone of Cenozoic folding, adjacent to mobile provinces of the "island arc" type (Sakhalin, the Kuriles, Kamchatka). These zones are separated by the East-Asian volcanic belt associated with a fault system which cuts off the older Mesozoic Verkhoyansk-Chukotka and Sikhote- Alin structures. Two important mineralization epochs are evident - Sino-Cambrian and late Mesozoic- Cenozoic. The Mesozoic-Cenozoic mineralization epoch exhibits a definite tendency for “rejuvenation” of the mineralization processes, going away from the continent and toward the Pacific trough, from late Jurassic in the eastern Trans-Baykal region and parts of the northeast to Neogene in the province of the Okhotsk geosynclines. An outstanding feature of endogeneous mineralization in this region is the linear arrangement of the ore zones determined by a system of major magma-controlling and other faults.—C. E. Sears 相似文献