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1.
南秦岭东河群碎屑锆石U-Pb年龄及其板块构造意义 总被引:2,自引:0,他引:2
南秦岭微陆块是秦岭造山带的重要构造单元,其早白垩世沉积物是研究物源区及南秦岭微陆块构造演化的理想对象.南秦岭微陆块南缘观音坝盆地早白垩世砂砾岩中的碎屑锆石LA-ICP-MS U-Pb年龄给出了5个年龄峰,范围分别是2600~2300Ma、2050~1800Ma、1200~750Ma、650~400Ma和350~200Ma,对应于Kenor、Columbia、Rodinia、Gondwana和Pangaea等5次超大陆事件.碎屑锆石源区复杂,但主要源自华北克拉通和北秦岭增生带,表明晚古生代南秦岭微陆块是秦岭-华北联合大陆板块的一部分,而非独立的微陆块.最年轻的锆石年龄峰给出了勉略洋向秦岭-华北大陆俯冲的时限,即350~ 200Ma;扬子与秦岭-华北联合大陆板块的碰撞造山作用始于三叠纪-侏罗纪之交,强烈的挤压造山作用发生在侏罗纪,而非三叠纪或更早. 相似文献
2.
大别山及邻区侏罗和石炭纪时期盆-山耦合:来自沉积记录的认识 总被引:5,自引:1,他引:5
侏罗纪时期大别造山带是合肥盆地的物源区。因此通过盆地中的沉积记录可以了解该造山带的地质演化,并重建造山带的古地理面貌。在合肥盆地最古老的中生代地层中(防虎山组,J_1),底部的沉积物源区主要为华北陆块早古生代和吕梁期(1700~1900Ma)的岩石。但是,从防虎山组沉积早-中期开始直至晚侏罗世,来自俯冲的扬子陆块折返的物质则构成为大别山的主体。防虎山组地层含高 Si 含量的碎屑多硅白云母和三叠纪年龄的锆石,三叠纪年龄的锆石含超高压(UHP)矿物包裹体,证明扬子大陆深俯冲(至地幔)的物质在早侏罗世时期已出露至大别山地表。高压-超高压的变质岩广泛分布於中-晚侏罗世时期东-中部的大别山,但向西逐渐消失。大别山北缘石炭系沉积岩的微量元素组成特征强烈指示它们应来源於一个被剥蚀的大陆岛弧。其碎屑锆石年龄结构主要由具有秦岭和二郎坪群特征(400~480Ma)的岩石组成、因此,大别山北缘石炭纪沉积主要来源于华北大陆南缘相当於秦岭和二郎坪群的岩石,物源区在早古生代时期曾经历过与秦岭造山带相似的岛弧构造环境的演化。大别山北缘晚石炭世沉积物中高 Si 含量碎屑多硅白云母的发现指示其沉积物源区可能出露有高压-超高压的变质岩。 相似文献
3.
大巴山侏罗纪叠加褶皱与侏罗纪前陆 总被引:21,自引:2,他引:21
大巴山是NWW_SEE走向的中央造山带中惟一的向南凸出大型弧型褶皱带,与秦岭—大别造山带的构造特征明显不协调。研究表明,大巴山弧型构造卷入了侏罗纪地层,因此不属于三叠纪中央造山带。秦岭、大别山和大巴山最新的证据证实侏罗纪曾经发生陆内俯冲作用,大巴山是侏罗纪陆内造山作用的产物。大巴山西侧为典型的叠加褶皱变形样式,三叠纪近东西向褶皱叠加上近南北向褶皱构成横跨型干涉变形图像。由此,确立了侏罗纪复合前陆的存在,证明中国东部甚至亚洲东部侏罗纪陆内造山的广泛性,晚侏罗世的“燕山运动”是波及亚洲中东部的重要构造事件。 相似文献
4.
东秦岭-大别山及邻区盆-山系统演化与动力学 总被引:9,自引:0,他引:9
东秦岭-大别造山带受不同块体间的拼合碰撞及其之后的陆内变形控制,在造山带边缘和内部形成了不同的盆山系统。造山带北缘响应北秦岭与华北板块的弧陆碰撞及其之后陆内变形作用,形成了后陆逆冲与弧后前陆盆地系统。造山带南缘三叠纪至白垩纪随着扬子板块与秦岭-大别微板块沿勉略缝合带自东向西的斜向俯冲和之后的陆内旋转挤压,在扬子北缘形成了前陆逆冲与周缘前陆盆地系统。自晚侏罗世末至白垩纪造山带挤压与伸展并存,伸展自核部向边缘发展,形成造山带伸展塌陷与近东西向裂谷盆地系统。大致在中始新世之后,受中国东部环太平洋构造带东西向伸展作用和深部构造作用控制,横跨造山带形成近南北向的裂谷盆地。 相似文献
5.
《矿物岩石地球化学通报》1993,(3)
秦岭—大别山造山带研究取得新进展中国科技大学李曙光等所取得的成果有:确定超高压变质带形成于三叠纪(208~245Ma),从而推定了华北和扬子陆块的拼合时间;证明含柯石英榴辉岩不属洋壳成因,而是陆块碰撞时扬子陆块基底向华北陆块下俯冲的产物;指出造山带榴辉岩中的多硅白云母含有过剩氢,故不适用于K-Ar法定年;分析了锶同位素在变质过程中均一化尺度的动力学过程;测定了大别山变质带中榴辉岩PTt轨迹,从而提出了榴辉岩是通过二阶段抬升而出露的新见解,修正了前人的单阶段模式。 相似文献
6.
秦岭造山带中-新元古代(早期)地质演化 总被引:45,自引:8,他引:45
秦岭造山带是位于中国大陆中部并夹持于华北与扬子陆块之间的大陆造山带,是加里东期至印支期的碰撞造山带。对前加里东期演化虽然亦积累了不少资料,但认识上存在较大分歧。本文着重介绍秦岭造山带自中元古代晚期武关裂谷的打开(1243Ma±46Ma),中元古代末期松树沟洋盆的形成(1084Ma±73Ma~1030Ma±46Ma)以及新元古代早期同造山期花岗岩的侵入(960~840Ma)等自1.25Ga至0.84Ga期间的一系列热-构造事件,反映扬子大陆边缘前加里东期曾经历过一次“威尔逊构造旋回”,表明该区存在中—新元古代造山带的地质记录。但这次造山作用不是华北与扬子大陆的汇聚,而是曾属于扬子大陆边缘的“北秦岭变质地体”与其南的扬子大陆的一次汇聚过程。 相似文献
7.
大别山超高压变质带的大地构造框架 总被引:57,自引:17,他引:40
依据岩石学、地球化学、同位素年代学的新资料,对大别山造山带研究中诸如蛇绿混杂岩、碰撞时代、超高压变质岩与围岩的关系、俯冲极性等问题进行了论证,指出大别山超高压变质带是中朝陆块与扬子陆块间碰撞造山的产物。在三叠纪发生的陆-陆碰撞中,扬子陆块向北俯冲至华北陆块之下,但至今尚无发现残存的蛇绿混杂岩,碰撞时缝合带的位置被已经折返出露地表的南大别碰撞杂岩带所取代。 相似文献
8.
桐柏-大别山是从志留至三叠纪连续发展演化的碰撞型造山带,以大规模推覆-滑脱构 为特征,推覆距离可达140km。造山带可分为超叠陆壳、混杂岩片及俯冲陆壳三个构造单元。地层对比、同位素年龄及变形分析可追溯其演化史:晚元古代泛中国板块解体;志留纪末期,古特提斯洋壳俯冲消减;石炭纪时,扬子与华北板块碰撞,陆间俯冲开始,华北板块推覆到扬子板块北缘之上;三叠纪末,形成前陆褶冲带;侏罗-白垩纪以来,造山带收缩隆起,伴随岩浆活动,大型走滑断裂及断陷盆地。 相似文献
9.
华北与扬子陆块的碰撞时代及过程 总被引:1,自引:0,他引:1
秦岭—大别山造山带是我国东部华北陆块与扬子陆块相互碰撞形成的。它作为我国东部天然地质界线历来受到国内外学者重视。尤其近年来在大别山及其东延部分(苏—鲁地体)发现了柯石英和金刚石,使它成为世界上最大的超高压变质带并引起广泛注意和兴趣。确定这两大陆块的碰撞时代及过程是认识秦岭—大别山造山带形成演化机制及中国东部大陆形成演化历史的关键。然而正是在这一关键问题上地质学界存在着明显的认识分歧。国家自然科学基金资助项目“华北与扬子陆块的碰撞时代”(编号:4870188)及“秦岭造山带多期蛇绿岩识别”(编号:49070165)正是试图通过对与碰撞造山运动有关的高压变质岩(榴辉岩、蓝片岩)及蛇绿岩的同位素年代学和地球化学研究以求为解决这一重要地学基础研究课题做出贡献。经过近六年的工作,在认识华北与扬子两大陆块碰撞时代和过程以及合柯石英榴辉岩的成因方面取得了重要进展。 相似文献
10.
11.
Gilles Serge Odin 《Comptes Rendus Geoscience》2002,334(6):409-414
Lithostratigraphy, physicochemical stratigraphy, biostratigraphy, and geochronology of the 77–70 Ma old series bracketing the Campanian–Maastrichtian boundary have been investigated by 70 experts. For the first time, direct relationships between macro- and microfossils have been established, as well as direct and indirect relationships between chemo-physical and biostratigraphical tools. A combination of criteria for selecting the boundary level, duration estimates, uncertainties on durations and on the location of biohorizons have been considered; new chronostratigraphic units are proposed. The geological site at Tercis is accepted by the Commission on Stratigraphy as the international reference for the stratigraphy of the studied interval. To cite this article: G.S. Odin, C. R. Geoscience 334 (2002) 409–414. 相似文献
12.
Inter-regional correlation of transgressions and regressions in the Cretaceous period 总被引:1,自引:0,他引:1
T. Matsumoto 《Cretaceous Research》1980,1(4):359-373
Well investigated platforms have been selected in each continent, and the history of Cretaceous transgressions and regressions there is concisely reviewed from the available evidence. The factual records have been summarized into a diagram and the timing of the events correlated between distant as well as adjoining areas.On a global scale, major transgressions were stepwise enlarged in space and time from the Neocomian, via Aptian-Albian, to the Late Cretaceous, and the post-Cretaceous regression was very remarkable. Minor cycles of transgression-regression were not always synchronous between different areas. Some of them were, however, nearly synchronous between the areas facing the same ocean.Tectono-eustasy may have been the main cause of the phenomena of transgression-regression, but certain kinds of other tectonic movements which affected even the so-called stable platforms were also responsible for the phenomena. The combined effects of various causes may have been unusual in the Cretaceous, since it was a period of global tectonic activity. The slowing down of this activity followed by readjustments may have been the cause of the global regression at the end of the Cretaceous. 相似文献
13.
The Afyon stratovolcano exhibits lamprophyric rocks, emplaced as hydrovolcanic products, aphanitic lava flows and dyke intrusions, during the final stages of volcanic activity. Most of the Afyon volcanics belong to the silica-saturated alkaline suite, as potassic trachyandesites and trachytes, while the products of the latest activity are lamproitic lamprophyres (jumillite, orendite, verite, fitztroyite) and alkaline lamprophyres (campto-sannaite, sannaite, hyalo-monchiquite, analcime–monchiquite). Afyon lamprophyres exhibit LILE and Zr enrichments, related to mantle metasomatism. 相似文献
14.
正20140751 Guo Xincheng(Geological Party,BGMRED of Xinjiang,Changji 831100,China);Zheng Yuzhuang Determination and Geological Significance of the Mesoarchean Craton in Western Kunlun Mountains,Xinjiang,China(Geological Review,ISSN0371-5736,CN11-1952/P,59(3),2013,p.401-412,8 相似文献
15.
正20141058 Chen Ling(Key Laboratory of Mathematical Geology of Sichuan Province,Chengdu University of Technology,Chengdu610059,China);Guo Ke Study of Geochemical Ore-Forming Anomaly Identification Based on the Theory of Blind Source Separation(Geosci- 相似文献
16.
正20141334 Chen Kun(Institute of Geophysics,China Earthquake Administration,Beijing100081,China);Yu Yanxiang Shakemap of Peak Ground Acceleration with Bias Correction for the Lushan,Sichuan Earthquake on April20,2013(Seismology and Geology,ISSN0253-4967,CN11-2192/P,35(3),2013,p.627-633,2 illus.,1 table,9 refs.)Key words:great earthquakes,Sichuan Province 相似文献
17.
正20141624 Cai Xiongfei(Key Laboratory of Geobiology and Environmental Geology,Ministry of Education,China University of Geosciences,Wuhan 430074,China);Yang Jie A Restudy of the Upper Sinian Zhengmuguan and Tuerkeng Formations in the Helan Mountains(Journal of Stratigraphy,ISSN0253-4959CN32-1187/P,37(3),2013,p.377-386,5 illus.,2 tables,10 refs.) 相似文献
18.
正20142263Lü Shaojun(Geological Survey of Jiangxi Province,Nanchang 330030,China)Early-Middle Permian Biostratigraphical Characteristics in Qiangduo Area,Tibet(Resources SurveyEnvironment,ISSN1671-4814,CN32-1640/N,34(4),2013,p.221-227,2illus.,2tables,22refs.)Key words:biostratigraphy,Lower Permian,Middle Permian,Tibet 相似文献
19.
正20142560Hu Hongxia(Regional Geological and Mineral Resources Survey of Jilin Province,Changchun 130022,China);Dai Lixia Application of GIS Map Projection Transformation in Geological Work(Jilin Geology,ISSN1001-2427,CN22-1099/P,32(4),2013,p.160-163,4illus.,2refs.) 相似文献
20.
正20140692 Duo Tianhui(No.402 Geological Team,Exploration of Geology and Mineral Resources of Sichuan Authority,Chengdu611730,China);Wang Yongli Computer Simulation of Neptunium Existing Forms in the Groundwater(Computing Techniques for Geophysical and Geochemical Exploration,ISSN1001-1749,CN51-1242/P,35(3), 相似文献