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在编制1∶50万山东省大地构造相图基础上,通过对大地构造相研究显示:胶东微地块是经多期增生和碰撞而形成的,其漫长的板块构造演化明显具有阶段性。侏罗纪是该区板块构造演化史上的一个重要转换期,构造演化由原来的南、北分异转变为东、西分异,胶东地区NE向新生构造起了主要作用。胶东地区中生代有2次重要的碰撞造山事件,印支造山作用主要表现为扬子板块向华北板块俯冲,形成苏鲁高压-超高压变质带及同造山花岗岩及后造山高碱正长岩;燕山造山作用的大陆动力学环境起源于中亚-特提斯构造域向滨太平洋构造域转化和太平洋板块的俯冲,在胶东地区表现为3次造山和3次伸展。晚侏罗世造山早期玲珑片麻状花岗岩组合是区域构造挤压导致地壳增厚引起地壳重熔的产物,代表了大陆弧花岗岩特征;早白垩世造山中期郭家岭花岗闪长岩-花岗岩组合代表了造山期大陆弧花岗岩的特点;造山晚期伟德山闪长岩-花岗闪长岩-花岗岩组合表现为大陆弧花岗岩,后造山A型崂山晶洞过碱性碱长花岗岩-正长花岗岩组合为大陆造陆隆升花岗岩与后造山花岗岩,代表燕山构造的结束。胶东地区构造-岩浆事件和金矿成矿作用受控于特提斯、古亚洲洋和太平洋三大构造域的相互作用,金矿形成的动力学背景是中生代构造体制转折和岩石圈减薄,起因与太平洋板块向华北板块的俯冲机制有关。 相似文献
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阿尔金断裂带东段古生代花岗岩浆作用及其大陆动力学意义 总被引:1,自引:0,他引:1
造山带花岗岩浆作用一直是地学的重要研究方向, 它记录了地球动力学深部过程的信息, 开展深入的研究工作可以更好的了解板块汇聚环境的陆壳生长和再造以及壳幔之间的相互作用。北祁连造山带是一典型的早古生代造山带, 先后经历了洋盆的打开到闭合, 敦煌地块则是主要由前寒武纪TTG片麻岩和变质表壳岩组成。北祁连造山带和敦煌地块分别位于阿尔金断裂带东段的东南侧和西北侧, 且均出露有大面积的古生代花岗岩体。本文以阿尔金主断裂两侧产出的花岗岩类为研究对象, 涉及北祁连造山带中的赵家庄二长花岗岩, 石包城复式岩体(花岗岩、正长花岗岩和花岗闪长岩)和红柳河花岗岩, 敦煌地块中的党河水库花岗闪长岩、沙枣园二长花岗岩、安盆沟复式岩体(正长花岗岩和花岗岩)以及小草湖似斑状花岗岩。通过对上述花岗岩体的岩相学、锆石U-Pb年代学、地球化学和锆石Hf同位素的研究, 取得了新的认识: 相似文献
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东秦岭宽坪花岗岩体特征及其成因 总被引:4,自引:0,他引:4
宽坪花岗岩体的野外地质、岩石学及地球化学特征表明,该岩体为一具主动侵位特征的同构造花岗岩体,属S型花岗岩。其源岩物质为秦岭群变质杂岩。根据这些地质事实并结合区域地质事件综合分析,该岩体是早古生代末-晚古生代初,华北与扬子两大板块开始闭合,华北板块南缘发生小规模洋内弧-岛弧碰撞拼贴不同构造岩片就位过程中作为岛弧陆壳物质的秦岭群变质杂岩活化重熔的产物。 相似文献
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北祁连造山带晚奥陶世-泥盆纪构造演化: 碎屑锆石年代学证据 总被引:3,自引:0,他引:3
北祁连造山带晚奥陶世-泥盆纪处于同造山的构造背景.上奥陶统-泥盆系沿造山带不对称分布.上奥陶统-泥盆系碎屑锆石年代学特征显示, 造山带东段武威一带上奥陶统底部沉积物主要来自北祁连岛弧, 南部中祁连地块和北部华北板块的沉积物在上奥陶统上部才出现, 根据同沉积锆石年龄将中祁连地块和华北板块在东段初始碰撞的时间限定在470~450 Ma之间; 中祁连地块和华北板块的物质在造山带西段肃南一带被保存在下志留统, 地层中也有大量来自早古生代北祁连岛弧和同碰撞花岗岩的物质, 暗示造山带西段的碰撞时间在早志留世.而造山带东段下志留统中却仅有来自中祁连地块和华北板块的物质, 缺乏代表北祁连岛弧的早古生代碎屑锆石年龄, 对比上奥陶统-下志留统岩相分布和碎屑锆石年代学特征, 北祁连造山带的碰撞具有"东早西晚"的"斜向碰撞、不规则边缘碰撞"的特征, 而这种碰撞方式导致中祁连地块在造山带东段仰冲到北祁连岛弧之上, 阻止北祁连岛弧为盆地提供沉积物; 泥盆纪早期, 北祁连岛弧年龄在东段下、中泥盆统中重新出现, 结合志留系和泥盆系在造山带东、西两段的分布和变形特征推断, 泥盆纪早期北祁连造山带具有"东强西弱"的不均一隆升特征, 这种差异隆升特征是由"东早西晚"的"斜向碰撞、不规则边缘碰撞"引起的, 它导致了北祁连岛弧在造山带东段被重新剥露出地表, 同时来自早期中、上志留统以及同碰撞花岗岩的物质也被汇入盆地.河西走廊盆地性质经历了弧后盆地-弧后残留洋盆-前陆盆地的转换过程. 相似文献
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北秦岭前寒武纪地壳组成及其构造演化 总被引:4,自引:2,他引:2
北秦岭主要发育元古宙构造岩石地层单位,包括古元古代秦岭岩群,中元古代峡河岩群,宽坪岩群和武关岩群,中元古代晚期松要地沟蛇绿岩构造岩片,新元古代丹凤岩群和二郎坪岩群的下部地层单位以及晋宁期强烈的构造岩浆活动。北秦岭广泛存在晋宁期强烈构造-岩浆-变质地质事件,且是新元古代主体形成的古老造山带,晋宁期的强烈地质事件可能代表了地块,北秦岭微地块中秦岭地块与扬子地块之间的俯冲碰撞拼合。震旦纪之后又逐渐开始发 相似文献
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北秦岭晋宁期主要地质事件及其构造背景探讨 总被引:14,自引:0,他引:14
北秦岭主要发育元古宙构造岩石地层单位,包括古元古代秦岭杂岩、中元古代峡河岩群、宽坪岩群和武关岩群、中元古代晚期松树沟蛇绿岩构造岩片、新元古代丹凤岩群和二郎坪岩群的下部地层单位等。北秦岭广泛存在晋宁期的强烈构造-岩浆-变质地质事件,且是新元古代主体形成的古老造山带。晋宁期的地质事件可能并不代表扬子地块和华北地块之间的直接碰撞拼合,而是具扬子地块基底特征的“中秦岭微地块 与北秦岭微地块或华北地块之间的俯冲碰撞拼台 震旦纪之后又逐渐开始发生大陆裂解,进入显生宙的构造演化阶段。新元古代晋宁期(1000-800Ma)发生的主要地质事件和有限的俯冲-碰撞拼台及震旦纪之后又逐渐开始发生裂解与国外一些地质学家提出的新元古代时期Rodinia超大陆的形成和700~570 Ma期间Rodinia超大陆的裂解不谋而台 相似文献
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西秦岭党川花岗岩基的岩石化学特征 总被引:1,自引:0,他引:1
党川花岗岩基产于祁连与北秦岭造山带结合部位,由9个岩体组成,岩石普遍富K2O。志留纪为闪长岩-石英闪长岩,显著贫SiO2、Na2O,显著富MgO、CaO、TFeO、MnO、P2O5。泥盆纪-侏罗纪岩体为二长-正长花岗岩类,各岩体岩石化学特征较相似,高TiO2、K2O、Na2O,贫MgO、CaO,显示继承性演化规律。志留纪岩体的岩石化学构造环境判别及与其共生的早古生代火山岩相配套,是俯冲造山过程中的岛弧闪长岩类,而泥盆纪熊山沟岩体则是与之密切有关的造山期后陆缘或弧后花岗岩类。其余各岩体是本区造山后与大陆抬升作用以及大陆裂谷作用有关的花岗岩类。 相似文献
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FROM BACK-ARC BASIN TO BACK-ARC FORELAND BASIN—THE SEDIMENTARY BASIN AND TECTONIC EVOLUTION OF THE LATE CALEDONIAN—EARLY HERCYNIAN STAGES IN CORRIDOR AND NORTH QILIAN MTSthenationalNaturalScienceFoundationofChina(No.4 9972 0 78) 相似文献
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甘新蒙北山地区地处天山东段、北山及阿拉善地区 ,为古生代哈萨克斯坦板块、塔里木板块和华北板块交汇地带。可分为 7个二级构造单元 (构造区 )、2 6个三级构造单元 (地块、褶皱带 )。该区构造演化史漫长而复杂。太古宙时期 ,是古陆核形成萌芽阶段 ,古元古代初陆壳开始生成 ,出现薄壳结构的宽广的裂陷活动带 ,到了中、新元古代后期显露出板块构造运动 ,新元古代晚期经历重大热事件———晋宁运动 ,发生陆块间汇聚—碰撞并形成了榴辉岩—花岗岩岩浆带。震旦纪在晋宁期的拼合古陆上再一次裂解 ,经历了板块构造演化史。晚古生代 ,本区主体转入板内构造时期 ,以开合构造为主 ,花岗岩浆活动广泛发育。中、新生代进入板内造山和现今的盆山构造格局时期 相似文献
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福建永定地区下、中元古界变质岩基本特征及地层时代依据 总被引:14,自引:0,他引:14
闽西永定地区的中深变质岩系经调查主要岩石组合为变粒岩、片岩、变质火山岩及少量石英岩,变质程度达低角闪岩相,构造形变特征明显有别于区域内的震旦纪楼子坝群,获得同位素年龄1825—1628 Ma。据此认为,这套变质岩不属于原划定的楼子坝群,应分属于下、中元古界。对该地层所夹变质火山岩的形成环境,本文亦进行了讨论。 相似文献
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中朝陆台北侧褶皱带构造发展的几个问题 总被引:23,自引:2,他引:21
中朝与西伯利亚陆台之间的乌拉尔—蒙古—鄂霍茨克褶皱系是古亚洲洋演化的结果。其发展分为两个大的阶段:早期阶段从中元古代起在北部形成蒙古—鄂霍茨克洋,到寒武纪初封闭,形成兴凯褶皱带;晚期阶段从震旦—寒武纪初起在南部形成乌拉尔—蒙古洋,到泥盆纪大洋封闭,形成早及中古生代褶皱带。这就是中朝与西伯利亚陆台边缘褶皱带发育不对称的原因。 乌拉尔—蒙古洋最后封闭的缝合带在内蒙古中部形成中古生代褶皱带。它包括贺根山蛇绿岩带,二道井—查干诺尔混杂体带和它们之间的锡林浩特花岗岩—变质岩带。后者是造山碰撞的中心,上泥盆统法门阶的磨拉石堆积主要沿此带分布。 石炭—二叠纪时,本区广泛兴起裂谷活动。这些裂谷发育在不同的基底之上,多数发生于不同时期构造带的界线上。它们在新增生的年青陆壳上形成,其特征不同于红海或东非型裂谷;其岩浆活动和变形、变质作用使年青陆壳增厚并更加稳固。 相似文献
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双溪坞群、双桥山群等为江南古岛弧浙赣段的前寒武纪基底地层。依据基底地层建造的差异及蛇绿岩套和碰撞花岗岩等的分布,可将浙赣段江南古岛弧沿赣东北断裂划分为怀玉地体和九岭地体。怀玉地体基底地层建造以火山岩占主导,10—13亿年是该地体的重要成壳时期。九岭地体基底地层建造以浊流复理石占主导,14—16亿年为该地体的重要成壳时期。距今9亿年左右两地体相互碰撞拼接,与此同时,华夏古陆向江南古岛弧碰撞,至~8亿年、完成碰撞对接,开始震旦系盖层沉积。 相似文献
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Feng Benzhi 《《地质学报》英文版》1990,64(2):179-191
The pre-Sinian basement on the southwestern margin of the Yangtze paraplatform consists of threemetamorphic rock series of different ages. Being products of different tectonic events and environments, theydiffer markedly in original rock sequences, metamorphism. tectonic style and characteristics of granitoids andmineral deposits. The Late Archean Kangdian cration mainly comprises the Kangding and Julin Groups with ametamorphic age of nearly 2500 Ma. They are supracrustal rocks dominated by mafic volcanics enclosed introndhjemitic rocks The craton is believed to represent a granite-greenstone terrane of Late Archaean age.There occur mineral deposits such as graphite and kyanite deposits of metamorphic origin, muscovite depositsin pegmatites and gold quartz veins in gneissic granites, banded hornblende-magnetite mineralization and cop-per and zinc mineralizations related to felsic volcanics. Large V-Ti-bearing magnetite deposits were also formedin the mafic. ultramafic stratiform intrusions emplaced on the margins of the craton during the MiddleProterozoic. Copper and nickel deposits are found in several ultramafic intrusions. Extending in a north-southdirection, the Proterozoic mobile belt consists mainly of the Early Proterozoic Hekou Group and MiddleProterozoic Huili and Kunyang Groups. and they are thought to be accumulations in a Proterozoic rift troughor aulacogen. During the Early Proterozoic, the rift trough was characterized by intense volcanism and pres-ence of iron ore deposits of volcano-magmatic type, iron-copper deposits of exhalative-sedimentary type. TheMid-Late Proterozoic of the rift trough mainly witnessed the formation of sedimentary stratiform copper de-posits and submarine sedimentary iron deposits. In the wake of the emplacement of the Jinningian andChengjiangian granites in the Late Proterozoic, skarn-type tin and tin-iron ore deposits were formed. 相似文献
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本文在综合前人地质成果的基础上,对该区晚震旦世—早古生代的古地理特征重新进行了分析与探讨。认为武当山地区在震旦纪至古生代是沉积区而非古陆区,印支运动以来的推覆作用塑造了该区现今的“古隆起”构造格局 相似文献
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Tectonic Development of the Proterozoic Continental Margins in East Qinling and Adjacent Regions 总被引:2,自引:0,他引:2
Wang Hongzhen 《中国地质大学学报(英文版)》1990,(1)
The East Qinling and adjacent cratonic regions belong to two geotectonicunits,the Sinokorean Subdomain including the Sinokorean Platform and itssouthern continental margin the North Qinling Belt,and the YangtzeanSubdomain comprising the Yangtze Platform and its northern continental mar-gin the South Qinling Belt.The Qinling region may thus be subdivided into twocontinental margin belts separated from each other by the Proterozoic Qinlingmarine realm,which did not disappear until Late Triassic.The convergentcrustal consumption zone,the megasuture between the two belts,lies betweenthe Fengxian-Shangnan line in the north and the Shanyang-Xijia line in thesouth and was much deformed and displaced through Mesozoic intracratoniccollision and compression.In the northern subdomain the Lower Proterozoic is representedby protoaulacogen volcano-sediments,the inner Tiedonggou Group and theouter marginal Qinling Group,which were folded and metamorphosed in theLuliangian orogeny,a general process of aggregation and s 相似文献
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《International Geology Review》2012,54(5):469-477
The Late Precambrian through Silurian tectonic evolution of east-central South China is modeled in terms of a history of rift, drift, and collision during Late Proterozoic, Sinian, and Late Ordovician-Early Silurian times, respectively. We review the regional stratigraphie development of this area, focusing particularly on north-central Hunan province, and argue from our observations and those of others that the Jiangnan, Xuefeng, and Jiuling ranges of the Nanling realm approximately demarcate the paleogeographic transition in Sinian to Ordovician times of shelf to off-shelf environments developed along a passive-type continental margin that started rifting in the pre-Sinian Late Proterozoic. The rift sequence is recorded by the Penhsi (= Banxi) Group, which rests unconformably above an older-presumed Middle to early Late Proterozoic-low-grade metamorphic basement. The Penhsi varies markedly in thickness but is everywhere characterized by nonmarine to paralic clastic facies. The Penhsi conformably to disconformably underlies the Sinian through Lower Paleozoic sequence throughout central South China, which developed along an E-facing, passive-type continental margin. This passive-type margin was destroyed by the Guangxian Orogeny. The Guangxian Orogeny was marked initially by the northwestward progradation of deep-marine turbidites of Late Ordovician age in the most off-shelf regions, progressing to earliest Silurian age on the shelf to the northwest. Folding and concomitant thrusting in the off-shelf regions, and subsequent erosion beneath the unconformably overlying nonmarine Middle Devonian strata, truncate the stratigraphie record of the orogen within the Early Silurian. Farther northwest, in regions undisturbed by the Guangxian Orogeny, Silurian foreland-basin sedimentation included the entire Lower Silurian succession, which grades rapidly upward from basinal to inter-tonguing marine and nonmarine elastics. This reflects a change from flexurally induced subsidence first outpacing local sedimentation, followed by sedimentation outstripping and then keeping pace with subsidence. 相似文献
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中国南方中生代经历了中国大陆最终主体拼合的陆缘及其之后的陆内构造演化。晚古生代末期,在秦岭—大别山微板块与扬子板块之间存在向西张口的洋盆,即勉略古洋盆。中三叠世末期开始,扬子板块相对于华北板块发生自南东向北西的斜向俯冲碰撞作用,扬子北缘晚三叠世至中侏罗世发育陆缘前陆褶皱逆冲带与前陆盆地系统。晚侏罗世至早白垩世,中国东部的大地构造背景发生了重要的构造转变,中、上扬子地区处于三面围限会聚的大地构造背景。在这种大地构造格局下,中、上扬子地区晚侏罗世至早白垩世发育陆内联合、复合构造与具前渊沉降的克拉通内盆地系统。自中侏罗世末期开始,扬子北缘前陆带与雪峰山—幕阜山褶皱逆冲带经历了自东向西的会聚变形过程及盆地的自东向西的迁移过程和收缩过程。扬子北缘相对华北板块的斜向俯冲导致在中扬子北缘的深俯冲及超高压变质岩的形成。俯冲之后以郯庐断裂—襄广断裂围限的大别山超高压变质地块在晚侏罗世向南强逆冲,致使扬子北缘晚三叠世至中侏罗世前陆盆地被掩覆和改造。 相似文献