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研究区位于桃山-诸广铀成矿带南段,龙源坝复式杂岩体中南部.侏罗-白垩纪(燕山期),区域构造应力环境由挤压造山演变为陆壳伸展,伴随强烈的构造-岩浆活动和铀成矿作用.区内发育NE、近E-W、NW向3组断裂构造.断裂构造是主控矿因素,限制了区内燕山晚期花岗质岩浆的侵入形态,及铀矿床、铀矿(化)点和异常点(带)的空间分布.NW、NWW向张性断裂多被燕山晚期中基性脉岩充填,呈成群成组的斜列式等间距展布,岩性为辉绿岩和斜闪煌斑岩.中基性脉岩与灰白-灰黑色微晶石英脉或浅红褐色-杂色硅化带/硅化破碎带的重接、斜接、反接复合部位是“交点型”铀矿化赋存的有利场所.矿化或近矿部位的中基性脉岩多褪色为黄褐色-灰白色,发育硅化、赤铁矿化、水云母化、褐铁矿化,可见黄铁矿、方铅矿、铜铀云母、钙铀云母等.综合分析认为,研究区具有较好的“交点型”铀成矿地质条件,铀资源找矿潜力良好,铀矿化与中基性脉岩具密切的空间和成因联系. 相似文献
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桃山铀矿田桃山断裂及其保矿作用 总被引:2,自引:0,他引:2
桃山铀矿田位于江西省中部,断裂构造发育,既有成矿构造,也有保矿构造,其中斜贯桃山矿田的桃山断裂即是一保矿构造,它形成于车免近时期,走向北东,倾向南东,右行正断,并具铰链断层性质,上盘地块掀斜下落,致使上盘成矿壳层向NW和NE倾斜,由于倾末端的侵蚀深度较小,保矿条件较好,加强这些地带的铀矿勘查和评价具有重要意义。 相似文献
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下庄热液铀矿田位于贵东印支-燕山复式花岗岩体的东部,主要有北西西、北北东和北东-北东东向3组断裂。在前人工作的基础上,论文着重对断裂构造进行了野外考察和显微构造分析,初步查明了不同方向断裂自印支期以来的活动历史、性质以及所反映的区域应力场。运用花岗岩的原地重熔原理,提出了下庄铀矿田构造控矿规律。北西西向断裂由晚侏罗世剪切发展成早白垩世追踪张性活动,主要控制辉绿岩浆侵入,晚白垩世时转化为压性,形成北西西向挤压破碎带。北北东向断裂由晚侏罗世剪切发展成早白垩世张剪性活动,控制了粗、细晶石英脉及多种蚀变分布,早白垩世晚期发生了韧性剪切变形,晚白垩世时部分北北东向断裂控制了辉绿岩浆侵入。北东-北东东向构造侏罗纪主要发生褶皱、逆冲,早白垩世主要为左旋压剪活动,晚白垩世转化为拉张,控制了晚白垩世红盆发育。早、晚白垩世之交,主压应力方向由北西 南东转化为北东 南西。贵东岩体经印支、燕山早、中期的多次重熔,为铀的活化迁移及富集成矿准备了良好的前提条件。早、晚白垩世两次铀矿化,与花岗岩层的两次重熔相关。重熔界面上升时,花岗岩层熔化,断裂切割深度小,构成了岩浆热液的通道;重熔界面下降时,花岗岩层固结,断裂深切至重熔层下方,成为基性岩浆上侵的通道。北西西向断裂拉张强度大,是基性岩浆的主要通道,北东-北东东向断裂规模较小,构成容矿构造,而北北东向断裂规模较大,在早、晚白垩世主要作张剪性活动,构成含矿热液主要运移通道,是下庄矿田重要的导矿构造。沿北北东向断裂向上运移的含矿热液遇到北西西向基性岩脉时,铀被还原而富集,含矿热液进入北东-北东东向断裂时,铀被“拥堵”而滞留,两者均是成矿的有利部位。层状花岗岩+“成矿壳层”+断裂构造,是下庄铀矿田下一步“攻深找盲”的思路。 相似文献
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下庄矿田是我国落实的第一个花岗岩型铀矿田,矿床和矿点分布在贵东岩体的东部,受构造、岩性联合控制,矿化类型有硅化带型(群脉型)、交点型、蚀变碎裂岩型和花岗岩外接触带变质砂岩型,矿床形成后经历了华南地壳的新生代特别是晚新生代的隆升和剥露。成矿后的构造活动研究表明,上洞断裂和马屎山断裂是矿田的保矿构造,它们形成时代较新,联合控制了下庄断块的下陷,保护了之前形成的铀矿免受或少受侵蚀破坏,这也是贵东岩体东部有矿西部无矿的根本所在。 相似文献
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连山关地区位于华北克拉通北缘铀成矿省辽东铀成矿带,已知铀矿床(点)均发育在韧性剪切带附近。为了解韧性剪切带运动学、几何学构造变形机制及与铀矿的关系,本文以连山关岩体周缘韧性剪切带为研究对象,通过野外宏观调查和室内微观研究相结合的研究方法,探讨构造变形期次、韧性剪切带形成机理及其对铀成矿的控制作用。研究表明:连山关岩体周缘发育的韧性剪切带与近南北向挤压构造变形有关,其右行韧性剪切带应变类型为压扁应变,属于一般压缩-平面应变范围,Flinn指数K值在0.19~0.69之间,岩石类型属于S/SL型构造岩。研究区内铀矿体均为隐伏盲矿体,主要赋存于沿着连山关岩体和辽河群接触带右行剪切作用形成的背斜褶皱核部,和北东东向断裂关系密切。综合分析认为,连山关岩体南缘北西向韧性剪切带为一级控矿构造,是区内铀矿热液运移的通道,而剪切带边部的晚期北东东向断裂则是铀矿储存空间;铀源可能来自于太古宙古风化壳,并在大型韧性剪切活动(提供热液运移通道)和基性脉岩侵入(提供热源和还原剂)等综合因素作用下运移、富集成矿。 相似文献
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江西省桃山地区花岗岩型铀矿预测及找矿方向 总被引:1,自引:0,他引:1
江西省桃山地区是我国南方四大花岗岩型铀矿田之一,铀成矿条件极其有利。前人在桃山地区开展了大量研究工作,但是缺乏对整个桃山地区地质、物探、化探和遥感等多元信息的综合集成和铀矿产的定量评价工作。从大布等典型铀矿床的剖析入手,厘定了模型区铀成矿要素和预测要素,总结了区域岩性、构造、蚀变与铀成矿的关系。提取预测要素,在GIS平台上圈定并优选了最小预测区,并指出了桃山地区铀资源量扩大的前景及方向,认为桃山断裂南西段铀找矿应以硅化带亚型为主,桃山断裂北东段找矿应以碎裂蚀变岩带亚型为主,北东段深部找矿前景较好。 相似文献
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赣杭构造带铀边缘成矿 总被引:1,自引:0,他引:1
赣杭构造带是我国一条重要的火山岩型铀成矿带,对该带内铀矿田空间定位、火山岩型铀矿床类型及其特征、铀成矿年龄等进行了研究,认为赣杭构造带铀矿在时空分布上具边缘成矿特征。一级大地构造单元、构造-岩浆岩带、地质体的边缘部位分别控制了矿带、矿田、矿床和矿体,这些边缘部位属于不同类型、不同级别、不同尺度的大地构造单元或地质体的异相交接带。另外,赣杭构造火山岩带铀成矿年龄有两个峰值,即:120~140Ma和80~100Ma,宏观上大体与晚侏罗世-早白垩世、早白垩世-晚白垩世交接过渡期相当,表现出了铀成矿的时间边缘特征。 相似文献
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This paper presents a study of ongonites from the Chechek and Akhmirovo dike belts located within the Kalba—Narym batholith in Eastern Kazakhstan. The obtained conclusions are based on the investigations of melt and fluid inclusion in quartz phenocrysts, supplemented by mineralogical and geochemical data. It was established that the dike rocks were formed by crystallization of volatile-rich rare-metal melts in the presence of an aqueous fluid phase with subordinate amounts of carbon dioxide and methane. The ongonites crystallized from three geochemically different melts. Porphyritic phenocrysts in the ongonites of the Chechek and Akhmirovo dike belts crystallized at close temperatures 560–605°C and pressure of 3.6–5.3 kbar. Ongonite magmas that formed the Chechek and Akhmirovo dike belts had a high ore potential. However, degassing dynamics was not favorable for the development of metasomatism and formation of hydrothermal mineralization at the level of dike emplacement. The area of the rare-metal magmatism represented by ongonite dikes and rare-metal granite pegmatites has been distinguished in the northern part of the Kalba—Narym zone. The formation of rare-metal magmas was related to the differentiation in large granitoid chambers under the effect of juvenile fluids derived from the Tarim mantle plume. 相似文献
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I.McDermid J.C.Aitchison Badengzhu A.M.Davis Liu Jianbing Luo Hui Wu Hiyun S.V.Ziabrev WT ”BX 《地学前缘》2000,(Z1)
ZEDONG TERRANE, A MID CRETACEOUS INTRA-OCEANIC ARC, SOUTH TIBET 相似文献
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The dike belt and separate intrusive bodies of the Abdar–Khoshutula series were formed in the NE-trending linear zone, southwest of the Daurian–Khentei batholith, in the peripheral part of the Early Mesozoic magmatic area, on the western termination of the Mongol–Okhotsk belt. The granitoids of this series are subdivided into following geochemical types: anatectic granitoids of the calc-alkaline and subalkaline series, alkaline rocks, and plumasite rare-metal leucogranites (Li–F granites). The entire series was formed within approximately 12–15 Ma. Its geochemical evolution follows two trends, which correspond to two stages of the granitoid magmatism. The early stage was responsible for the formation of granitoids of two phases of the Khoshutulinsky Pluton and alkaline syenites with similar trace element distribution patterns. However, syenites, as agpaitic rocks, are significantly enriched in Ba, Zr, and Hf. The late stage of the intrusive- dike series resulted in the formation of the dike belt and Abdar Massif of rare-metal granites. These rocks show enrichment in Li, Rb, Cs, Nb, Ta, Sn, and Y, and deep negative anomalies of Ba, Sr, La, and Ce, which are best expressed in the late amazonite–albite granites of the Abdar intrusion and ongonites of the dike belt. The intrusive-dike series in the magmatic areas of different age of Mongolia and Baikal region are characterized by the wide compositional variations, serve as important indicators of mantle-crustal interaction and differentiation of granitoid magmas, and could highlight the nature of zonal areas within the Central Asian Fold Belt. Obtained geochemical data indicate a potential opportunity to concentrate trace and ore components during long-term evolution of the intrusive-subvolcanic complexes, which could be indicators of the evolution of the ore-magmatic systems bearing rare-metal mineralization. 相似文献
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V. V. Akinin A. V. Prokopiev J. Toro E. L. Miller J. Wooden N. A. Goryachev A. V. Alshevsky A. G. Bakharev V. A. Trunilina 《Doklady Earth Sciences》2009,426(1):605-610
U-Pb SHRIMP-dating of zircons from twenty five intrusions representative of the Main granitoid batholith belt and associated
dike swarms (Yano-Kolyma gold bearing province, North East of Asia) are mostly ∼150 ± 3 Ma (Kimmeridgian-Tithonian). Two less
widespread impulses of magmatism dated at 160–155 Ma and 146–143 Ma representing the full range of ages present in the Main
belt. Paleoproterozoic (∼1.8 Ga) inherited zircons were found in three intrusions from the south-western part of the belt
where Precambrian crust of the North-Asia craton is inferred to underlie it.
Published in Russian in Doklady Akademii Nauk, 2009, Vol. 426, No. 2, pp. 216–221.
The article was translated by the authors. 相似文献
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江南成矿带晚侏罗世-早白垩世幕阜山复式花岗岩体内部及周缘发育多个早白垩世伟晶岩稀有金属矿床,成矿伟晶岩是否源自幕阜山复式岩体演化花岗岩浆高度分异还存在争议.幕阜山麦市等地发育含电气石、石榴石及白云母二长花岗岩,LA-ICP-MS锆石U-Pb年龄介于130~135 Ma,在误差范围内与区内大规模成矿伟晶岩年龄相当.与早期斑状黑云母二长花岗岩和白云母二长花岗岩(151~143 Ma)相比,晚期含电气石、石榴石及白云母二长花岗岩锆石具有较高的Hf、Ta、Nb、Th、U含量和较低的Th/U和Eu/Eu*比值,体现较高的演化程度,与岩石矿物组合及锆石结晶温度相一致.锆石年代与微量元素说明,幕阜山地区成矿伟晶岩可能是幕阜山复式岩体中早白垩世演化花岗岩浆进一步分异的产物. 相似文献
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Kathleen D. Surpless 《International Geology Review》2015,57(5-8):747-766
Sedimentary geochemistry of fine-grained strata of the Great Valley Group (GVG) in California documents a provenance signal that may better represent unstable, mafic minerals and volcanic clasts within sediment source regions than the provenance signal documented in the petrofacies and detrital zircon analysis of coarser sedimentary fractions. Geochemistry of the GVG provides an overall provenance framework within which to interpret sandstone petrofacies and detrital zircon age signatures. The geochemical signature for all Sacramento Valley samples records an overall continental arc source, with significant variation but no clear spatial or temporal trends, indicating that the geochemical provenance signal remained relatively consistent and homogenized through deposition of Sacramento basin strata. The San Joaquin basin records a distinct geochemical provenance signature that shifted from Early to Late Cretaceous time, with Lower Cretaceous strata recording the most mafic trace element geochemical signature of any GVG samples, and Upper Cretaceous strata recording the most felsic geochemical signature. These provenance results suggest that the early San Joaquin basin received sediment from the southern Sierran foothills terranes and intruding plutons during the Early Cretaceous, with sediment sources shifting east as the southern Sierran batholith was exhumed and more deeply eroded during the Late Cretaceous. The GVG provenance record does not require sediment sources inboard of the arc at any time during GVG deposition, and even earliest Cretaceous drainage systems may not have traversed the arc to link the continental interior with the margin. Because the GVG provenance signature is entirely compatible with sediment sources within the Klamath Mountains, the northern and western Sierran foothills belt, and the main Cretaceous Sierran batholith, the Klamath-Sierran magmatic arc may have formed a high-standing topographic barrier throughout the Cretaceous period. 相似文献
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青藏高原是面积大、海拔高、时代最新的经典碰撞造山带,其演化过程被记录在各类地质作用中,包括各类岩浆作用。岩脉是与其他类型岩浆作用具有相似矿物成分的小规模侵入体,德国人Harry Rosenbusch早在1877年对其开展了系统研究。区域上大规模产出的基性岩墙群经常发育在伸展构造环境,并被认为代表地质历史时期发生的大陆裂解作用,其深部则与地幔柱或者热点存在相关。在青藏高原的羌塘地体、拉萨地体和喜马拉雅造山带发育了不同类型的岩脉或岩墙群。在羌塘地体中部出露面积约为40000km2的早二叠世(约283Ma)基性岩墙群属于大火成岩省(LIP)岩浆作用,与二叠纪中特提斯洋的初始打开有关。在西藏南部的特提斯喜马拉雅带产出的时代约为132Ma的白垩纪措美-班伯里大火成岩省岩浆作用,覆盖面积超过50000km2,其最早的岩浆作用可能代表了特提斯喜马拉雅之下大陆裂解之前孕育克格伦地幔柱头部的相关岩石圈伸展作用,并继续裂解导致了印度与澳洲大陆的裂解分离。本文着重讨论了高原南部的白垩纪以来的岩脉,它们主要发育在拉萨地体南部,蕴含了岩浆作用与构造作用的双重信息。它们具有不同的产状、成分、年龄和成因,对于揭示冈底斯弧演化、印度与亚洲大陆的碰撞过程,以及碰撞导致的高原应力状态变化等都具有重要的意义。高原南部岩脉主要分为三期:(1)时代约为90Ma的岩脉,具有玄武质到中酸性的成分,主要侵位在日喀则白垩纪弧后盆地,例如在南木林县南部出现的基性-酸性双峰式岩浆作用,可能代表了冈底斯岩浆弧之上发育的伸展作用。(2)时代约为50Ma的同碰撞期岩脉,主要侵入到林子宗火山岩、冈底斯岩基或者白垩世设兴组/昂仁组沉积地层等单元中,它们发育时间为60~41Ma,其峰期作用时间与冈底斯岩浆大爆发的时间一致,可能受控于深部俯冲的特提斯洋洋壳的断裂作用。(3)碰撞后中新世岩脉,多具有埃达克质岩石的地球化学性质,与区域上钾质-超钾质火山岩和埃达克质侵入岩的时代一致,它们是高原南部加厚下地壳部分熔融作用的产物,可能受控于下地壳拆沉作用或者与南北向裂谷带密切相关的板片撕裂有关。这些岩脉的延伸方向既有南北向,也有东西向,在构造上可能代表了高原隆升到最大高度后深部拆沉作用导致的山体垮塌伴生的伸展构造有关。 相似文献
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T. N. Jowhar 《地学前缘》2000,(Z1)
GEOBAROMETRIC CONSTRAINTS ON THE DEPTH OF EMPLACEMENT OF GRANITE FROM THE LADAKH BATHOLITH, NORTHWEST HIMALAYA, INDIA1 BlundyJD ,HollandTJB .Calcicamphiboleequilibriaandanewamphibole plagioclasegeothermometer[J] .ContribMiner alPetrol,1990 ,10 4 :2 0 8~ 2 2 4 .
2 SchmidtMW .Amphibolecompositionintonaliteasafunctionofpressure:anexperimentalcalibrationoftheAl inhorn blendebarometer[J] .ContribMineralPetrol,1992 ,110 :30 4~ 310 .
3 Th… 相似文献
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以黑龙江省铁力市桃山镇桃1井的自然伽马、电阻率、地温测井数据、部分井段的岩屑为基础,对桃山镇及周边地区的地热地质条件进行了分析。结果表明,桃山地区地温梯度较高,热水赋存于白垩系和海西晚期花岗岩中,埋藏浅。建议在桃山地区再布置一定的电法工作,以电法工作成果为基础设计新的钻井,以扩大资源的利用程度。上述地热资源勘查的综合测井方法可为其他地区提供参考。 相似文献
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A new database of 70 U–Pb zircon ages (mostly determined by SHRIMP) indicates that the South Patagonian batholith resulted from the amalgamation of subduction-related plutons from the Late Jurassic to the Neogene. Construction of the batholith began with a voluminous, previously undetected, Late Jurassic bimodal body mainly composed of leucogranite with some gabbro, emplaced along its present eastern margin within a restricted time span (157 to 145 Ma). This episode is, at least in part, coeval with voluminous rhyolitic ignimbrites of the Tobífera Formation, deposited in the deep Rocas Verdes Basin east of the batholith; this was the last of several southwestward-migrating silicic volcanic episodes in Patagonia that commenced in an Early Jurassic extensional tectonic regime. The quasi-oceanic mafic floor of the basin was also contemporaneous with this Late Jurassic batholithic event, as indicated by mutually cross-cutting field relationships. Changes in subduction parameters then triggered the generation of earliest Cretaceous plutons (Cretaceous 1: 144–137 Ma) west of the Late Jurassic ones, a westward shift that culminated at 136–127 Ma (Cretaceous 2) along the present western margin of the batholith. Most mid- to Late Cretaceous (Cretaceous 3: 126–75 Ma) and Paleogene (67–40 Ma) granitoids are represented by geographically restricted plutons, mainly emplaced between the previously established margins of the batholith, and mostly in the far south; no associated volcanic rocks of similar age are known at present in this area. During the final Neogene stage of plutonism (25–15 Ma) a recurrence of coeval volcanism is recognized within and east of the batholith. Typical εNdt values for the granitoids vary from strongly negative (− 5) in the Late Jurassic, to progressively higher values for Cretaceous 1 (− 4), Cretaceous 2 (− 0.7), Cretaceous 3 (+ 2) and the Paleogene (+ 5), followed by lower and more variable ones in the Neogene (− 1 to + 5). These variations may reflect different modes of pluton emplacement: large crustal magma chambers developed in the early stages (Late Jurassic to Cretaceous 1), leading to widespread emplacement of plutons with a crustal signature, whereas the Cretaceous 2, Cretaceous 3 and Palaeogene parts of the batholith resulted from incremental assembly of small plutons generated at greater depths and with higher εNdt. This does not in itself justify the idea of a reduction in crustal character due to progressive exhaustion of fusible material in the crust through which the magmas passed. 相似文献