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1.
华南地区中生代动力体制经历了从特提斯构造域向滨太平洋构造域的转换,但对这种动力体制转换发生的时间和产生的地质效应则存在不同的认识。通过分析华南印支—早燕山构造层(D—J1-2)广泛发育的褶皱构造,识别了早中生代两个世代褶皱构造的横跨叠加型式,发现早期近东西向褶皱构造具有南北成带、晚期NNE向褶皱构造具有东西分区的区域展布特征。基于地层接触关系和早中生代岩浆岩和火山岩同位素年代学数据统计分析,认为这两组叠加褶皱构造清楚地记录了华南早中生代两期挤压事件,近东西向褶皱是对印支早期华南地块南北边缘碰撞造山事件的远程响应,NNE向褶皱则起源于燕山早期((170±5)Ma)古太平洋板块向华南大陆之下低角度俯冲作用,两者发生转换的时代在中晚侏罗世之交。伴随这两期构造挤压而产生的地壳增厚分别诱发了华夏地块三叠纪和晚侏罗世地壳深熔作用和岩浆侵入活动。华南两组叠加褶皱构造的识别为进一步探讨早中生代从碰撞动力构造体系向俯冲动力构造体系转换提供了关键的构造地质学依据。 相似文献
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华南板块地处西太平洋俯冲构造域与特提斯构造域的交汇地带, 经历了三叠纪特提斯洋关闭导致的陆-陆碰撞和古太平洋板块俯冲的大地构造过程。然而, 关于华南板块内部复杂变形和丰富岩浆作用的构造属性, 对应古特提斯和古太平洋构造体制转换的记录等仍然存在着严重的分歧。本文通过华南中部湘中南地区发育的大型叠加褶皱系统的构造解析、相关断层滑动矢量构造反演, 结合同构造岩浆岩年代学研究, 恢复两期褶皱的变形样式和叠加机制, 建立华南中部早中生代两期重要的构造-岩浆事件及其构造应力场。其中, 鉴别出两期叠加构造中早期E–W/WNW向褶皱与三叠纪岩浆系统, 受控于NE–SW向挤压应力场, 与三叠纪华南南部与印支地块碰撞、北部与华北地块碰撞事件相协调; 晚期近NE/NEN向褶皱近直交地叠加在近早期褶皱之上, 形成穹-盆(dome-basin)样式的大型叠加褶皱系统, 这期褶皱受控于NWW–SEE向的挤压应力场, 结合卷入变形的地层关系和岩浆岩年代学数据, 确定了大致形成与中—晚侏罗世, 对应古太平洋板块俯冲事件。大型叠加褶皱样式的建立和两期褶皱变形事件的鉴别, 对华南陆内复杂变形的过程和动力学背景的解释提出重要的时空约束, 对理解华南陆内造山作用乃至中国东部的早中生代构造序列具有重要的参考价值。 相似文献
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论述了华北地区侏罗纪构造变形样式与岩浆活动序列,目的是试图提出一个侏罗纪构造阶段性演化历史的框架。将华北地区侏罗纪的沉积作用、构造变形和岩浆活动划分为3个阶段。早侏罗世早期大地构造显著特征是没有岩浆活动(205~191Ma的岩浆活动空隙),华北地区处于区域性隆升,这个时期应当是华北与华南板块碰撞和陆内俯冲作用(印支运动)的延续。早中侏罗世(190~175Ma)华北岩石圈处于弱伸展状态,表现为沿燕-辽构造带和郯庐断裂带两侧源于地幔的深成岩浆侵入、火山作用以及沿阴山—燕山构造带发育的正断层和裂谷作用,华北地块内部发生大面积整体沉降和含煤盆地的形成。这个时期大地构造仍可视作是印支运动的后效。中晚侏罗世(165±5Ma~136Ma)构造体制发生重大变革,以多向挤压引起的强烈陆内造山和板内变形为特征。这个阶段区分出了两幕主要挤压变形事件:早幕以上侏罗统巨厚磨拉石沉积之下的角度不整合面为标志,主要沿着鄂尔多斯西缘褶皱冲断带和阴山—燕山构造带发育,时代早于160Ma;晚幕以下白垩统底部的角度不整合面为标志,时代早于135Ma。在中晚侏罗世构造变革时期,两个纬向构造带:北缘的阴山—燕山构造带和南缘的秦岭—大别构造带,以及鄂尔多斯盆地西缘均发生强烈的冲断褶皱变形;华北地块本身遭受NE、NNE向逆冲断层、断层相关褶皱和左旋走滑断层等构造体系的改造,并在空间分布上出现变形分解。郯庐断裂带东侧胶辽地区一系列片麻状地壳重熔型花岗岩的侵入(时代160~150Ma)指示了中晚侏罗世重要的地壳增厚作用。华北侏罗纪变形样式、不同方向的构造体系和多向挤压是东亚周邻板块(北部西伯利亚板块、西部拉萨地块和东部古太平洋板块)从3个不同方向向亚洲大陆同时汇聚产生的远程效应的结果。正是中晚侏罗世强烈的板内挤压变形和地壳增厚作用才诱发了早白垩世(最早始于135Ma)时期岩石圈的巨量减薄和转型。 相似文献
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北淮阳盆岭带的构造演化与铀成矿 总被引:1,自引:0,他引:1
北淮阳盆岭构造带是大别造山带的重要组成部分。佛子岭岩群代表了早古生代扬子地块北缘大别古岛弧弧前海盆的火山沉积建造,在加里东运动陆块对接过程中变形变质。石炭系梅山群具磨拉石建造特征。在华力西印支期陆内俯冲褶皱带的基础上,燕山期沿桐柏桐城断裂伸展北移,近东西向断陷盆地发育,形成盆岭构造景观。南侧大别山强烈隆升,铸就了现今大别山变质核杂岩构造格局。中生代岩浆活动是区内重要铀源,具有成矿潜力的地质体是响洪甸正长岩体和北带粗面质火山碎屑岩 相似文献
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华南中生代大地构造研究新进展 总被引:33,自引:0,他引:33
华南地区中生代构造动力体制经历了从特提斯构造域向滨太平洋构造域的转换,由此产生了强烈的陆内造山作用和岩浆活动,形成了复杂构造组合的晚中生代陆内造山带和火成岩省。本项研究在下列几个方面取得了新的进展:(1)通过对雪峰山地区沅麻盆地的野外调查和构造测量,确定了该盆地晚中生代-早新生代5期构造应力场及其演替序列:中晚侏罗世近W—E向挤压、早白垩世NW—SE向伸展、早白垩世中晚期NW—SE向挤压、晚白垩世近N—S向伸展、古近纪晚期NE—SW向挤压。构造应力场方向的变化记录了不同板缘的动力作用对该区的影响。(2)识别了湖南地区晚古生代-早中生代海相地层中发育的横跨叠加褶皱构造,并基于地层接触关系和已有火成岩同位素年代学数据分析,认为该地区横跨叠加褶皱构造记录了中生代两期构造挤压和地壳增厚事件:早期近东西向褶皱构造是对三叠纪华南地块南北边缘大陆碰撞和增生作用的远程响应,晚期NE—NNE向褶皱构造则是对中晚侏罗世古太平洋板块向华南大陆之下低角度俯冲作用的变形响应。(3)对湖南衡山西缘拆离断裂带的变形结构和运动学特征进行了详细的调查和构造测量,确定了衡山变质核杂岩构造,并对拆离带中韧性剪切变形的钠长岩脉的锆石进行了SHRIMP U-Pb测年,从而确定了华南地区伸展构造的起始时代约137 Ma,即早白垩世早中期。(4)通过锆石U-Pb年代学测试分析,揭示了东南沿海长乐—南澳构造带早白垩世2期构造-岩浆事件:早期(147~135 Ma)表现为强烈的混合岩化作用和深熔作用形成的片麻状花岗岩、花岗片麻岩等;晚期(135~117 Ma)岩浆岩以含石榴子石花岗岩为主。这个结果表明东南沿海构造带是晚中生代陆缘造山带,造山作用可能起始于晚侏罗世,于早白垩世早中期(135 Ma)以来发生伸展垮塌。在上述研究结果的基础上,探讨了华南地区三叠纪"印支运动"和中、晚侏罗世"燕山运动"的表现及其产生的板块构造动力体制及其转换时代、早白垩世从挤压构造应力体制向伸展构造应力体制转变的时间节点。 相似文献
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湖南雪峰山地区白马山花岗岩年代学特征及构造意义 总被引:2,自引:0,他引:2
采用SHRIMP锆石高精度测年方法和磷灰石裂变径迹方法,开展雪峰山地区白马山岩体年代学研究,认为岩体所在雪峰山中段地区加里东期无岩浆活动,白马山岩体主要形成于印支晚期至早燕山期(测点数据区间主要集中在(176±4.4)~(219.3±5.2) Ma),中晚燕山期有微弱活动(测点数据在(172.9±3.6)~(109.3±2.5) Ma间偶有分布),系陆内碰撞地壳加厚局部熔融结果。晚燕山期以来岩体有明显的岩浆期后热液活动(磷灰石裂变径迹年龄集中在(53.8±5.4)~(91.5±4.6) Ma),隆升幅度较小;进而,在综合雪峰山地区基本地质特征及区域构造背景研究的基础上,认为该区基本地质特征及白马山岩体年代学数据与区域构造背景有着明显的吻合,受晚三叠世-早侏罗世特提斯构造域向太平洋构造域转变的构造环境控制。印支期以来雪峰山地区共经历晚印支期、早燕山期、中燕山期、晚燕山期、早喜山期5期构造事件。其中,晚印支期与古特提斯洋关闭印支板块与华南碰撞陆内造山有关;早燕山期以来,受控于古太平洋俯冲影响,雪峰山地区表现出时空的差异性,或挤压逆冲,或呈构造伸展。 相似文献
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浙皖赣相邻区加里东期构造变形特征 总被引:7,自引:0,他引:7
浙皖赣相邻区在加里东时期受到华南加里东构造事件的影响,前震旦纪基底及早古生代早期盖层强烈隆升并褶皱变形,皖浙赣邻接部位早-中石炭世地层直接覆盖在中元古代浅变质岩系之上,东端清凉峰一带的中石炭统覆盖在上寒武统之上,但尚未见到有加里东期岩浆活动的证据.同时,古陆南侧及东侧震旦纪-早志留世盖层向南(东)滑脱,接触带附近与基底一并形成倒转产状及倒转褶皱;北侧向北滑脱形成滑覆褶皱及临溪盆地、兰田残留向斜盆地.印支、燕山事件对加里东构造形迹产生了不可忽略的改造,最终形成了基本延续至今的构造格局. 相似文献
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山东鲁西地块断裂构造分布型式与中生代沉积—岩浆—构造演化序列 总被引:7,自引:0,他引:7
鲁西地块的断裂构造有两类不同分布型式:一类呈放射状分布, 由陡倾、基底右行韧性剪切带和盖层内复杂力学性质的断裂组成; 另一类呈环绕地块基底核部同心环状分布, 由3个主要盖层伸展拆离带组成, 主滑脱面分别位于古生界盖层与基底间的不整合面、石炭系与奥陶系之间的平行不整合面和中新生代断陷-沉积岩系与新生代火山-沉积物之间的断层。中生代构造变形样式可以分为3个层次:印支期褶皱-逆冲推覆构造、燕山中期NNE轴向的隔槽式箱状褶皱和燕山晚期NW、NNE向共轭正断-走滑断裂。相应地鲁西地块经历了3个成盆期, 即早-中侏罗世、早白垩世和晚白垩世, 这些中生代盆地在空间上的叠置导致了地块内部复杂的盆-山耦合关系。鲁西地块中生代有两个岩浆活动集中时期, 即早侏罗世(约190Ma)和早白垩世(132~110Ma)。综合沉积记录、岩浆活动和构造变形过程, 将鲁西地块中生代构造演化历史划分为6个阶段:晚三叠世挤压变形, 早、中侏罗世弱伸展作用, 中、晚侏罗世挤压变形与地壳增厚作用, 早白垩世大陆裂谷与地壳伸展作用, 早白垩世末期挤压变形与盆地反转事件和晚白垩世区域隆升。这些构造演化阶段和构造事件对研究和理解中生代构造体制和深部岩石圈动力学转换过程具有重要意义。 相似文献
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越南东北部早中生代构造事件的年代学约束 总被引:6,自引:3,他引:3
越南东北部-海南岛-粤西南构造带整体上呈NW-SE走向展布于华南板块的南缘,是理解华南构造演化的关键地区.作为印支运动代表性地区的越南东北部地区Song Chay构造带上,下古生界浅变质沉积岩、上古生界至早-中三叠世未变质的沉积盖层中都发育向北东逆冲推覆,韧性变形域表现为NE-SW向的矿物拉伸线理和上部指NE的剪切变形,而脆性变形域则记录了大量NE极性的褶皱和冲断构造.两广交界的云开地体和海南岛地区存在着相同样式的构造变形.关于这期变形的时间,本文通过对野外地层以及所出露不同时期岩体变形特征的综合研究,并结合高质量的锆石U-Pb年代学数据,在越南的东北部厘定为237 ~ 228Ma.这期广泛分布于华南板块南缘构造事件的动力学机制同Day Nui Con Voi(大象山)微陆块与华南板块在早中生代的构造拼合事件相关.本文认为华南板块在早三叠世开始沿着越南东北部的Song Chay缝合带俯冲拼合于Day Nui Con Voi微陆块之下,因此在早-中三叠世时期,在作为俯冲盘的华南板块南缘发育一系列的褶皱和逆冲推覆构造,晚三叠世印支造山作用结束.因此,华南板块南缘的越南东北部-海南岛-粤西南构造带被一同卷入早-中三叠世同印支板块的碰撞造山体系之中. 相似文献
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黔西北五指山地区叠加构造变形特征对铅锌矿成矿的控制 总被引:1,自引:0,他引:1
五指山铅锌矿区位于贵州省普定县与织金县交界区域,大地构造位于扬子板块中部、江南造山带西缘。野外构造研究表明,受早古生代加里东构造运动的控制与影响,矿区内震旦系—下古生界构造变形与上古生界—中生界的构造变形明显不同。震旦系—下古生界构造线近东西向,发育近东西向平缓褶皱、南倾或北倾劈理,显示近南北向的挤压收缩变形。震旦系—下古生界区内发育两组南北、北西向陡倾断层,断层明显受限制而不穿越晚古生代之后的地层。发育在震旦系—下古生界内的层间滑动与断层活动控制着铅锌矿的分布。晚古生代之后区域构造应力场发生转变,由早期近南北向的挤压收缩转为早燕山期SEE向NWW挤压逆冲,由此对震旦纪—早古生代变形进行叠加与改造,宏观上形成以NE走向为特征的区域构造格局。后期形成的褶皱轴面主要向SEE倾斜,断层向NWW逆冲,与早期变形呈斜跨式叠加。燕山期断层活动促进了铅锌矿的迁移与聚集。 相似文献
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Evolution, Migration, Controlling Factors and Forming Setting of Mesozoic Basins in Western Shandong
ZHANG Zhongyi WU Ganguo Guo Jinghui ZHANG Da Key Laboratory of Lithospheric Tectonics Lithoprobing Technology Ministry of Education University of Geosciences Beijing E-mail: zy_zhang@sina.com Institute of Geology Geophysics Chinese Academy of Sciences Beijing 《《地质学报》英文版》2005,79(4):519-532
The distinctive topography in western Shandong province consists of several NW-WNW-trending mountain ranges and intervening basins. Basins, in which late-stage sediments to the south have progressively overlapped the earlier sediments and "basement" rocks of the hanging-wall block, are bounded by S-SW-dipping normal faults to the north. Basin analysis reveals the Jurassic-Cretaceous sedimentary rocks accumulated both within the area of crustal extension and during extensional deformation; they contain a record of a sequence of tectonic events during stretching and can be divided into four tectonic-sequence episodes. These basins were initially developed as early as ca. 200 Ma in the northern part of the study area, extending dominantly N-S from the Early Jurassic until the Late Cretaceous. Although with a brief hiatus due to changes in stress field, to keep uniform N-S extensional polarity in such a long time as 130 Ma requires a relatively stable tectonic controlling factor responsible for the NW- and E-W-extensional basins. The formation of the extensional basins is partly concurrent with regional magmatism, but preceded magmatism by 40 Ma. This precludes a genetic link between local magmatism and extension during the Mesozoic. Based on integrated studies of basins and deformation, we consider that the gravitational collapse of the early overthickened continental crust may be the main tectonic driver for the Mesozoic extensional basins. From the Early Jurassic, dramatic reduction in north-south horizontal compressive stress made the western Shandong deformation belt switch from a state of failure under shortening to one dominated by extension and the belt gravitationally collapsed and horizontally spread to the south until equilibrium was established; synchronously, the normal faults and basins were developed based on the model of simple-shear extensional deformation. This may be relative to the gravitational collapse of the Mesozoic plateau in eastern China. 相似文献
13.
论雪峰山构造带中生代变形 总被引:11,自引:1,他引:10
雪峰山构造带于中生代发育两套相反的逆冲剪切推覆构造系统,它们是壳块不同演化时期多向运动变形的产物。会聚式地幔蠕动和扩散式的地幔蠕动所产生的岩石圈增厚和减薄,是引起中生代构造变形和活化的根本原因,太平洋壳体的西向碰撞、印度壳体的东向碰撞及周缘造山带的侧向挤出效应,则是不可忽略的外部因素。 相似文献
14.
渤海西南海域自中生代以来历经多期构造活动,记录了华北克拉通的破坏过程。为了明晰渤海西南海域中生代构造演化与区域构造间的关系,以研究区三维地震资料以及深层钻井资料为基础,结合区域构造背景,厘定了研究区中生代构造特征,恢复了中生代构造演化过程,并探讨了其动力学机制及其对华北克拉通破坏的响应。结果表明:(1)不同于渤海湾盆地陆上油区NEE向的构造面貌,渤海西南海域发育多走向、多类型构造,三维地震资料揭示中生代发育NWW向负反转裂陷、NEE向走滑逆冲、挤压褶皱等异于新生代伸展样式的特殊构造,其中尤以NWW向负反转构造占主导。(2)渤海西南海域中生代以来经历了印支期逆冲褶皱成山、燕山早期左旋逆冲改造、燕山中期裂陷反转以及燕山晚期褶皱等多期变形过程, 其中印支期逆冲褶皱是潜山形成的关键时期,而燕山中期反转是构造体制发生变革的关键时期。(3)NWW向构造的形成与印支期华南板块与华北板块的碰撞有关,燕山早期左旋走滑是太平洋板块NWW向俯冲于华北板块之下的结果,代表太平洋构造域接替古特提斯构造域控制华北板块变形;燕山中期的裂陷反转与区域大规模中基性岩浆活动相对应,是华北克拉通大规模破坏的浅层响应。印支期NWW向先存构造燕山中期反转裂陷模式的提出,丰富了传统华北克拉通破坏形成NEE向盆地的简单构造模式。 相似文献
15.
华南中-新生代构造演化受太平洋构造域和特提斯洋构造域的联合控制.以江南东段NE-SW向景德镇-歙县剪切带和球川-萧山断裂中发育的脆性断层为研究对象,利用野外交切关系和断层滑移矢量反演方法厘定了7期构造变形序列并反演了各期古构造应力场,讨论了断层活动的时代及其动力学.白垩纪至新生代研究区7期古构造应力场分别为:(1)早白垩世早期(136~125Ma)NW-SE向伸展;(2)早白垩世晚期(125~107Ma)N-S向挤压和E-W向伸展;(3)早白垩世末期至晚白垩世早期(105~86Ma)NW-SE向伸展;(4)白垩世中期(86~80Ma)NW-SE向挤压和NE-SW向伸展;(5)晚白垩世晚期至始新世末期(80~36Ma)N-S向伸展;(6)始新世末期至渐新世早期(36~30Ma)NE-SW向挤压和NW-SE向伸展;(7)渐新世早期至中新世中期(30~17Ma)NE-SW向伸展.结合区域地质研究表明,第1期至第4期古构造应力场与古太平洋构造域的板片后撤、俯冲以及微块体(菲律宾地块)间的碰撞作用有关;第5期伸展作用受控于新特提斯构造域俯冲板片后撤,而第6期和第7期古构造应力场主要与印-亚碰撞的远程效应有关.白垩纪至新生代,华南东部受伸展构造体制和走滑构造体制的交替控制.先存断裂的发育可能是导致华南晚中生代走滑构造体制的主要控制因素. 相似文献
16.
Mesozoic-Cenozoic Multi-Stage Intraplate Deformation Events in the Langshan Region and their Tectonic Implications 总被引:2,自引:0,他引:2
In the Langshan region, northwestern China, marked multi-stage intraplate deformation events have occurred since the Mesozoic, including(1) northeast-striking ductile left-lateral strike slip during the Middle-Late Triassic, which is closely related to the collision between the North China and the Yangtze plates;(2) top-to-the-southeast thrust with northwest-southeast trending maximum compression during the Late Jurassic;(3) nearly eastward detachment during the Early Cretaceous;(4) top-to-the-northwest thrust with northwest-southeast trending maximum compression during the Late Cretaceous and Early Cenozoic;(5) northeast-striking brittle left-lateral strike slip with nearly north-south trending maximum compression; and(6) northwest-southeast extension during the Middle-Late Cenozoic. All these deformation events belong to the intraplate deformation across the entire Central Asian region and respond to the tectonic events along the plate boundaries or deep tectonics. The structures developed in early events in the crust were the most important factors controlling the later deformation styles, and few new structures have later developed. Based on previous research and our results, the paleostress inversion in the Langshan region shows that the Mesozoic intraplate deformations in the study region mainly resulted from the tectonic events from the Paleo-Pacific region and have no or a weak relation to the Tethys region. During the Late Jurassic, the maximum compression from the Mongolia-Okhotsk region cannot be excluded. The Langshan region is the bridge between southern Mongolia and the western Ordos tectonic belt and is thus important to understand the nature and relationship between both regions. 相似文献
17.
The Kalaqin metamorphic core complex, located on the northern margin of the Yanshan Tectonic Belt, is an important structure to understand the Late Mesozoic destruction processes of the North China Craton. In this study, structural analysis and geochronological investigation were conducted for the Anjiayingzi pluton and associated granodiorite dikes that intruded the core complex. Field observations demonstrated that emplacement of the pluton and dikes took place after the early stage extensional deformation, and intrusions are products of syn-tectonic magmatism during the late stage extension deformation. LA-ICP-MS zircon U-Pb dating yielded ages of 133-131 Ma for the Anjiayingzi pluton and 135 Ma for the dike, which demonstrated that the early extensional deformation took place at 156-135 Ma, rather than the Early Cretaceous as proposed previously. By integrating with other dating results, the early extensional deformation occurred at 156-150 Ma (Late Jurassic) and led to the exhumation of the core complex. The core complex was overprinted by a late extension in the Early Cretaceous. The revision of formation time for the Kalaqin metamorphic core complex further confirms that the extensional deformation took place in the Late Jurassic in the Yanshan tectonic belt, and therefore, it is likely that the northern margin of the North China Craton might have destructed since the Late Jurassic. © 2018, Science Press. All right reserved. 相似文献
18.
重新厘定“四川运动”与青藏高原初始隆升的时代、背景:黄陵背斜构造形成的启示 总被引:5,自引:0,他引:5
迄今为止对华南地区古—中生界褶皱构造变形形成时期的主流认识是晚中生代的燕山期,但是笔者近年通过对黄陵背斜露头剖面的观察、地质图分析和前人认识的资料汇总,认为黄陵背斜经历过早白垩世以前印支—晚燕山运动的构造变形,晚白垩世、古—始新世经历了伸展隆升或变质核杂岩的形成过程,最终的挤压褶皱构造变形发生在渐新世末大约24.6Ma,即新生代的喜山运动中期。通过研究得到两点启示:(1)引起华南地区NNE走向挤压褶皱与推覆构造最后定型的"四川运动"不是发生在早年谭锡畴和李春昱根据当时资料定位的晚白垩世的燕山期,而应该是古近纪渐新世末的喜山期;形成"四川运动"的宏观背景是始新世中期—渐新世太平洋板块运动的转向,即从43~36Ma以前的太平洋板块向NNW俯冲转为向NWW俯冲,以致构成对中国东部包括扬子—华南板块在内的NWW向挤压,形成中国东部从华南到东北以NNE走向为主的挤压褶皱、推覆构造变形及相应的盆-山地貌,和李四光早年提出挽近时期形成的"新华夏系"构造地貌轮廓一致。(2)中新世印度洋中脊快速扩张,引发印—澳板块向NNE俯冲、推挤引起青藏高原的初次隆升,形成NWW向展布的青藏—闽粤初始高原,黄陵背斜是初始高原与"新华夏系"盆-山地貌的构造结点,具有双重构造特征,经历了中—上新世高原隆升剥蚀和夷平,现今山-盆起伏的构造地貌是上新世晚期至早更新世晚期(3.6~0.8Ma)以来快速隆升的产物。 相似文献
19.
燕山构造带北缘喀喇沁地区发育了晚古生代一中生代多期岩浆活动,记录了多期构造变形事件,是认识该构造带大地构造演化的理想地区。本文通过对该地区岩浆岩的系统定年及各期构造变形事件的研究,结合区域地质资料,综合分析了晚古生代一中生代的大地构造演化历史。分析结果表明,燕山构造带在早石炭世晚期一早二叠世处于古亚洲洋俯冲背景下的活动陆缘环境,出现了弧岩浆活动。中二叠世古亚洲洋沿索伦克缝合线关闭,使得燕山构造带成为周缘前陆挤压变形带,并对应着岩浆活动的平静期。之后燕山构造带分别出现了晚二叠世一三叠纪、中侏罗世、晚侏罗世与早白垩世4期伸展背景下的岩浆活动。在这些岩浆活动之间的平静期,先后发生了早侏罗世、晚侏罗世初、早白垩世初3期挤压事件。这些现象还表明,岩浆活动与构造演化具有明显的耦合关系,板内环境下岩浆活动发生在伸展背景中,而岩浆活动平静期多对应区域挤压活动。 相似文献
20.
《International Geology Review》2012,54(9):1076-1107
ABSTRACTThe South China block (SCB), located in the convergence zones of the western Pacific subduction tectonic domain and Tethyan tectonic domain, has experienced complex tectonic processes, including the continent–continent collision caused by the closure of the Palaeo-Tethys Ocean, and the subduction of the Palaeo-Pacific plate. However, due to complex intracontinental deformation and abundant magmatism, there are serious divergences in the corresponding records of the tectonic transformation from Palaeo-Tethys to Palaeo-Pacific. We have analysed the map-scale superimposed fold system developed in central SCB and also inverted the palaeo-stress field based on the fault–slip vectors. On this basis, the deformation styles and superposition mechanism of two-stage folds were recovered to establish the tectonic stress field in early Mesozoic and tectono-magmatic events by combining the chronology of the accompanying syntectonic magma. The early E–W/WNW-trending folds and Triassic magmatic system were identified; these were controlled by the NE–SW-trending compressive stress field, to coordinate with the collisions between the SCB and the Indochina block in the southwest, and the North China block in the north. The late NE/NNE-trending folds superimposed on the early folds in an orthogonal way to form a large-scale dome-basin superimposed fold system, which were controlled by the WNW–ESE-trending compressive stress field. According to the strata relations involved in deformation and the chronology data of magmatic rocks, it could be determined that NE/ENE-trending folds would be formed during the Mid- to Late Jurassic, corresponding to the westward subduction events of the Palaeo-Pacific plate. The establishment of the large-scale superimposed fold styles and the identification of fold deformation in the Triassic and Jurassic are important for understanding the early Mesozoic tectonics of South China, and even for all East Asia continent. In particular, it can provide important temporal and spatial constraints to explain the complex deformation process and geodynamic settings of South China in the early Mesozoic. 相似文献