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1.
塔里木盆地塔北隆起叠加构造分析 总被引:7,自引:0,他引:7
对叠加构造变形构造,变形时序、叠加构造形成的地球动力学背景及其与油气关系的综合研究表明,塔北隆起的叠加构造可以划分出:以二叠纪为形成高峰期的北西-南东走向的挤压构造,以三叠纪为形成高峰期的北东-南西走向的挤压构造,主要形成于渐新世-中新世的拉张构造,这三期构造在空间上、时间上复合叠加,从而在塔北隆起形成了轮南构造带、南喀-英买力叠加褶皱带以及羊塔克-提尔根负反转构造带等叠加构造变形区。上述叠加构造变形区均是有利的油气勘探区。 相似文献
2.
黄骅盆地孔西构造带的构造演化特征 总被引:1,自引:0,他引:1
通过平衡剖面技术复原古构造演化,并结合区域构造分析,可将孔西构造带的发育过程大致分为三个构造变形阶段:晚三叠世末期为挤压褶皱变形期;晚三叠世沉积后至侏罗系沉积前为逆冲构造变形期;早-中侏罗世为逆冲构造“轻度”渐进变形期。晚侏罗世以后,区域构造作用发生反转。随着晚侏罗-早白垩世、早第三纪裂陷盆地的发育,孔西构造带作为潜山构造被掩埋。裂陷盆地时期的伸展构造对孔西构造带前第三系的逆冲构造基本上没有大的改造。 相似文献
3.
沔阳—当阳前陆盆地自北而南可划分为五个构造单元:桐柏山-大别山基底卷入推覆构造带、南大巴山-大洪山叠瓦逆冲断裂构造带、沔阳一当阳拗陷变形带、宜昌-沙市前陆斜坡带、黄陵-松滋前缘隆起带。盆地的形成与南大巴山-大洪山造山带的发育密切相关。盆地经历了加里东期、海西-印支期南秦岭洋盆、北华南洋盆的两次。开(降)、合(升)”,燕山早期陆内俯冲造山成盆及燕山晚期-喜马拉雅期陆内伸展断陷的演化。盆地油气资源丰富,具三套有效烃源岩;晚奥陶世-早志留世广海陆棚相泥页岩,二叠纪滨岸沼泽相含煤泥岩,晚三叠世-早侏罗世湖泊-沼泽相暗色泥页岩、煤系泥岩和煤岩。中三叠世-早第三纪为油气生成高峰期。油气运移指向主要为南西方向的前缘隆起。 相似文献
4.
沔阳—当阳前陆盆地自北而南可划分为五个构造单元 :桐柏山—大别山基底卷入推覆构造带、南大巴山—大洪山叠瓦逆冲断裂构造带、沔阳—当阳拗陷变形带、宜昌—沙市前陆斜坡带、黄陵—松滋前缘隆起带。盆地的形成与南大巴山—大洪山造山带的发育密切相关。盆地经历了加里东期、海西—印支期南秦岭洋盆、北华南洋盆的两次“开 (降 )、合 (升 )” ,燕山早期陆内俯冲造山成盆及燕山晚期—喜马拉雅期陆内伸展断陷的演化。盆地油气资源丰富 ,具三套有效烃源岩 :晚奥陶世—早志留世广海陆棚相泥页岩 ,二叠纪滨岸沼泽相含煤泥岩 ,晚三叠世—早侏罗世湖泊—沼泽相暗色泥页岩、煤系泥岩和煤岩。中三叠世—早第三纪为油气生成高峰期。油气运移指向主要为南西方向的前缘隆起 相似文献
5.
楚雄盆地处于中国云南省中部,位于扬子板块西南缘,南西界以红河断裂为界与哀牢山造山带相连,北西界为程海断裂,东边为绿汁江断裂。盆地基底包括结晶基底和褶皱基底双重结构。盆地内发育了中三叠世以后的沉积盖层,西部中三叠世和晚三叠世早、中期为海相沉积,晚期为海陆交互相和陆相沉积;盆地东部为陆相沉积。侏罗—白垩纪整个盆地为巨厚的陆相沉积。楚雄盆地的构造格架分为4个带:(1)哀牢山造山带;(2)褶皱逆冲带;(3)中部沉降带;(4)东部隆起带。盆地形成与演化分为六个阶段:(1)被动大陆边缘沉降阶段;(2)拉张热隆起边缘——裂谷盆地阶段;(3)沟-弧-盆系阶段;(4)残洋-周缘前陆盆地阶段;(5)走滑-拉张盆地阶段;(6)走滑-挤压-改造阶段。楚雄盆地的形成与演化体现了盆地动力学性质转化和复合,在多种动力系统作用下或经过多旋回构造阶段产生了复式盆地 相似文献
6.
沔阳-当阳前陆盆地自北而南可划分为五个构造单元:桐柏山-大别山基底卷入推覆构造带、南大巴山-大洪山叠瓦逆冲断裂构造带、沔阳-当阳拗陷变形带、宜昌-沙市前陆斜坡带、黄陵-松滋前缘隆起带.盆地的形成与南大巴山-大洪山造山带的发育密切相关.盆地经历了加里东期、海西-印支期南秦岭洋盆、北华南洋盆的两次“开(降)、合(升)“,燕山早期陆内俯冲造山成盆及燕山晚期-喜马拉雅期陆内伸展断陷的演化.盆地油气资源丰富,具三套有效烃源岩:晚奥陶世-早志留世广海陆棚相泥页岩,二叠纪滨岸沼泽相含煤泥岩,晚三叠世-早侏罗世湖泊-沼泽相暗色泥页岩、煤系泥岩和煤岩.中三叠世-早第三纪为油气生成高峰期.油气运移指向主要为南西方向的前缘隆起. 相似文献
7.
南山坪背斜位于扬子板块中部,核部上震旦统含有大量沥青,是一个被破坏的古油藏。笔者通过建造分析认为震旦纪至中三叠世属于古隆起发育阶段,进一步划分出震旦纪古隆起雏形期、早古生代古隆起保持期和晚古生代—中三叠世古隆起发展期。晚三叠世至新生代属于断裂褶皱发育阶段,进一步划分出晚三叠世—中侏罗世宽缓背斜发育期、燕山运动Ⅱ幕断展背斜发育期、燕山晚期和喜玛拉雅期背斜改造期。南山坪古油藏以上震旦统灯影组白云岩为储层,以上覆下寒武统牛蹄塘组黑色碳质泥岩和石煤为烃源岩,志留纪至中三叠世古隆起聚集油气,晚三叠世至中侏罗世是油气再分配和南山坪古油藏形成时期,之后是古油藏被破坏时期。 相似文献
8.
阴山中生代地壳逆冲推覆与伸展变形作用 总被引:13,自引:2,他引:13
研究区属燕山-阴山中生代板内造山带西段的重要组成部分。依据变形特征和物质组成,可以分为北部构造活动带、中部隆起带和南部构造活动3个不同的构造区。以中部隆起带为中心,在南北两侧的构造活动带中的构造样式和变形机制呈反向对称出现。逆冲构造和伸展构造在时间和空间上的密切共生。在印支期-燕山早期地壳以逆冲挤压变形机制为主,形成了色尔腾山逆冲推覆体系和大青山逆冲推覆体系,而燕山晚期阶段在逆冲岩席上产生了背向伸展变形作用,形成了同构造的早白垩世呼和浩特-包头盆地和固阳盆地。 相似文献
9.
准噶尔盆地石西复式油气区成藏特征及油气富集 总被引:4,自引:0,他引:4
“八五”期间石西油田的发现,促进了准噶尔盆地腹部地区的勘探,该文立足于石西油气田,总结了陆梁隆起之上复式成藏特征及油气富集规律。石西油气藏油源位于南部凹陷,属“外源型”油气运移与聚集,晚三叠世早期形成的油气,沿海西期古构造-不整合运移,形成石碳系火山岩-基岩油气藏。 相似文献
10.
中国含油气盆地以叠合盆地为主,经历多期次构造运动,造成盆地内部多期古隆起的复合叠加;目前对于多期活动古隆起复合叠加过程的解析研究较为薄弱。本文以塔里木盆地轮南古隆起为例,利用最新的三维地震数据和钻井资料,应用构造解析和古构造复原的方法,明确轮南古隆起经历寒武纪-早中奥陶世前古隆起、晚奥陶世古隆起形成、晚泥盆-早石炭世叠加改造、晚二叠世-三叠纪古隆起定型、侏罗纪-古近纪古隆起埋藏和新近纪以来构造掀斜6个演化阶段;揭示现今以寒武-奥陶系碳酸盐岩为主体的前中生界隆起是由位于研究区西北侧北东向展布的晚奥陶世古隆起、研究区中部北北东向展布的晚泥盆-早石炭世古隆起和研究区北侧近东西向展布的晚二叠世-三叠纪古隆起三者复合叠加而成;不同时期古隆起成因机制有差异,但都与盆地周缘洋盆闭合、造山作用关系密切。 相似文献
11.
Many equiaxial dome-like structures developed in the north segment of the Xuefengshan orocline, Central China are obviously inconcordant with the NE-trending linear structures in this area, which contain important records for understanding the structural framework and evolution of this belt. In this paper, taking one of the typical dome-like structures in the Xuefengshan orcline (e.g. Moping dome-like structure) as an example, based on its structural framework interpratatoin, superposed deformation analysis and paleo-stress fields reconstruction, we propose the Moping dome-like structure is composed of two populations of different-striking thrust-fold structures, ~E-trending and NE-striking structures, indicative of two-stages shortening, ~N- and NW-striking, respectively. Together with the geochronological analysis, we suggest the first stage of shortening occurred in Late Triassic to Early Jurassic, due to the Indosinian intercollisional orogeny of the Yangtze Block and the North China Block. The second occurred during Late Jurassic Early Cretaceous owing to Yanshanian intracontinental orogeny, leading to the intensive superposition of the NE-trending structures onto the ~E-trending structures, and the final ocurrence of the Moping dome. Thus, our study indicates the Xuefengshan arc-shape belt also experienced two-phase deformation, and resulted from the superposition of NE SW structures onto ~E-W structures in Late Jurassic Early Cretaceous, which could provide new structural evidence for probing the Mesozoic tectonic framework and evolution of the Xuefengshan orocline. 相似文献
12.
西藏南部康马岩体岩石类型及其同位素测年 总被引:9,自引:1,他引:8
康马岩体位于西藏南部康马县城北侧 ,其内部可划分出 5种不同的岩石类型 :(1)片麻状黑云二长花岗岩 ;(2 )眼球状黑云二长花岗岩 ;(3)片麻状二云母二长花岗岩 ;(4 )弱片麻状细粒黑云二长花岗岩 ;(5 )变质的暗色辉长辉绿岩。前两类为康马岩体的主体岩石类型 ,侵位时代为加里东早期 (约4 78~ 4 6 1Ma) ;其余均呈脉状产出 ,其中片麻状二云母二长花岗岩与康马岩体主体岩石类型属于同期产物 ,弱片麻状细粒黑云二长花岗岩形成于海西早期 ((339.0± 1.2 )Ma) ,暗色辉长辉绿岩的形成时代目前还不十分清楚。不同类型的岩石其Ar Ar冷却年龄约为 18~ 14Ma。 相似文献
13.
东西走向的北喜马拉雅片麻岩穹隆带位于喜马拉雅造山带核心,记录了造山演化和青藏高原隆升的变质与变形信息。对穹隆构造热结构及其变形历史的重建有助于揭示喜马拉雅造山过程。本次研究选取然巴片麻岩穹隆的各类构造岩开展微观构造解析、碳物质拉曼光谱温度估算(RSCM)和石英组构学(CPO)分析,对比该穹隆各构造层变质和变形温度及其变化。研究结果揭示然巴穹隆被上、下两条环形拆离断层分为三个构造层:下拆离断层以下为下构造层,其由核部淡色花岗岩和片麻岩组成;下拆离断层和上拆离断层之间为中构造层,由强烈韧性变形的低-中级变质的片岩和少量片麻岩组成;上拆离断层以上为上构造层,由板岩、千枚岩和少量片岩组成。碳物质拉曼光谱变质温度计估算结果显示下构造层和中构造层峰期变质温度为550~600℃,上构造层峰期变质温度400~550℃。各构造层韧性变形岩石内石英组构(CPOs)特征揭示:下构造层石英以柱面滑移为主,韧性剪切变形温度超过600℃;而从中构造层底部向上构造层,石英滑移系由柱面滑移逐渐转变为底面滑移为主,响应的变形温度由550℃逐渐降低为300~350℃。综合分析解释认为然巴穹隆新生代以来经历了四期构造变形,分别对应喜马拉雅造山演化四个阶段:始新世(约45Ma)地壳增厚,发生区域变质作用,变质峰期温度达600℃(如下构造层记录),由下构造层向幔部递减(500℃到300℃);在造山伸展阶段,伴随藏南拆离系北向韧性剪切作用以及晚期南北向裂谷的启动提供的东西向伸展环境导致晚中新世淡色花岗岩底辟就位(约8~7Ma),穹隆幔部岩石遭受接触变质作用改造,接触变质峰期温度为570℃。 相似文献
14.
P. A. M. Andriessen N. A. I. M. Boelrijk E. H. Hebeda H. N. A. Priem E. A. Th. Verdurnen R. H. Verschure 《Contributions to Mineralogy and Petrology》1979,69(3):215-225
An isotopic dating investigation (66 K-Ar and 34 Rb-Sr analyses) provided the geochronological framework for the Alpine events of metamorphism and granitic magmatism on Naxos. The oldest phase of high-pressure/medium-temperature metamorphism, M1, was dated by Rb-Sr and K-Ar analyses of paragonites, phengitic muscovites and muscovites at 45±5 Ma (Middle Eocene). Most of the record of the M1 phase has been eraded by a second phase of medium-pressure/high-temperature metamorphism, M2, which induced a metamorphic zonation with anatectic melting in the highest-grade part, the migmatite dome. Most K-Ar dates of M2 hornblendes, muscovites, biotites and tourmalines range from about 21 Ma in the lower-grade part (biotite-chloritoid zone) to about 11 Ma in the migmatite dome. From the pattern of K-Ar mineral dates it is concluded that the M2 phase took place 25±5 Ma ago (Late Oligocene/Early Miocene) and was followed by a prolonged cooling history until about 11 Ma ago (Late Miocene), when the ambient temperature in the migmatite dome had decreased to below 400–360 °C. A Rb-Sr whole-rock isochron analysis of a granodioritic mass dated the intrusion (and the associated M3 phase of contact-metamorphism) at 11.1±0.7 Ma (Late Miocene), with an initial 87Sr/86Sr ratio of 0.7112 ±0.0001. A local phase of low-grade retrograde metamorphism, M4, probably related to Late Alpine overthrusting, was dated at about 10 Ma (Late Miocene). 相似文献
15.
F. Himmerkus P. Zachariadis T. Reischmann D. Kostopoulos 《International Journal of Earth Sciences》2012,101(6):1467-1485
The Mount Athos Peninsula is situated in the south-easternmost part of the Chalkidiki Peninsula in northern Greece. It belongs to the Serbo-Macedonian Massif (SMM), a large basement massif within the Internal Hellenides. The south-eastern part of the Mount Athos peninsula is built by fine-grained banded biotite gneisses and migmatites forming a domal structure. The southern tip of the peninsula, which also comprises Mount Athos itself, is built by limestone, marble and low-grade metamorphic rocks of the Chortiatis Unit. The northern part and the majority of the western shore of the Mount Athos peninsula are composed of highly deformed rocks belonging to a tectonic mélange termed the Athos-Volvi-Suture Zone (AVZ), which separates two major basement units: the Vertiskos Terrane in the west and the Kerdillion Unit in the east. The rock-types in this mélange range from metasediments, marbles and gneisses to amphibolites, eclogites and peridotites. The gneisses are tectonic slivers of the adjacent basement complexes. The mélange zone and the gneisses were intruded by granites (Ierissos, Ouranoupolis and Gregoriou). The Ouranoupolis intrusion obscures the contact between the mélange and the gneisses. The granites are only slightly deformed and therefore postdate the accretionary event that assembled the units and created the mélange. Pb–Pb- and U–Pb-SHRIMP-dating of igneous zircons of the gneisses and granites of the eastern Athos peninsula in conjunction with geochemical and isotopic analyses are used to put Athos into the context of a regional tectonic model. The ages form three clusters: The basement age is indicated by two samples that yielded Permo-Carboniferous U–Pb-ages of 292.6?±?2.9?Ma and 299.4?±?3.5?Ma. The main magmatic event of the granitoids now forming the gneiss dome is dated by Pb–Pb-ages between 140.0?±?2.6?Ma and 155.7?±?5.1?Ma with a mean of 144.7?±?2.4?Ma. A within-error identical age of 146.6?±?2.3?Ma was obtained by the U–Pb-SHRIMP method. This Late Jurassic age is also known from the Kerdillion Unit and the Rhodope Terrane. The rather undeformed granites are interpreted as piercing plutons. The small granite stocks sampled have Late Cretaceous to Early Tertiary ages of 66.8?±?0.8?Ma and 68.0?±?1.0?Ma (U–Pb-SHRIMP)/62.8?±?3.9?Ma (Pb–Pb). The main accretionary event was according to these data in the Late Jurassic since all younger rocks show little or no deformation. The age distribution together with the geochemical and isotopic signature and the lithology indicates that the eastern part of the Mount Athos peninsula is part of a large-scale gneiss dome also building the Kerdillion Unit of the eastern SMM and the Rhodope Massif. This finding extends the area of this dome significantly to the south and indicates that the tectonic boundary between the SMM and the Rhodope Massif lies within the AVZ. 相似文献
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南秦岭佛坪片麻岩穹隆是国内片麻岩穹隆的典型代表之一,记录了碰撞造山到后造山伸展等多阶段构造演化信息,对揭示秦岭造山带早中生代构造演化具有重要的意义.岩石组合、岩相学、矿物化学和传统温压计研究表明,佛坪片麻岩穹隆具有明显的变质分带特征,以穹隆核部为中心,向南北两侧的盖层变质温度逐渐降低,压力并没有出现随地温梯度的相应变化.不同类型岩石的锆石LA-ICP-MS U-Pb定年和变泥质岩的独居石SHRIMP U-Pb定年给出了一致的变质时代,为206~196 Ma.结合南秦岭早中生代岩浆作用研究,认为佛坪片麻岩穹隆递增变质作用与三叠纪末期的岩浆底辟有关,片麻岩穹隆形成于后碰撞伸展环境. 相似文献
18.
Yan Danping Zhou Meifu Wang Yan Zhao Taiping 《中国地质大学学报(英文版)》2005,16(3):189-199
INTRODUCTION Whatmechanismresultedinthespreadingof SouthChinaSeabasin(SCSB)?Wasitreallypro ducedbytheinteractionofperipheralplatesofthe SCSBorAilaoshan RedRiversinistralfault(Fig.1)? Figure1.AnoutlinetectonicmapofSouthChinablockandIndochinablock(modified… 相似文献
19.
米仓山南缘位于四川盆地北部地区,前人认为该地区晚三叠世-白垩纪受控于米仓山造山作用形成的前陆盆地.实际上,无论是按照经典的前陆盆地概念,还是陆内前陆盆地或陆内俯冲前陆盆地等术语,米仓山南缘中生代为前陆盆地值得商榷,其一些关键的地质问题必须给以重视.主要表现在:①平面构造图显示,米仓山地区,前震旦系基底与震旦系盖层之间构成一规模较大的不完整的背斜穹隆,盖层围绕基底分布,说明不是构造推覆体;②不存在形成前陆盆地的区域应力,即该区在晚三叠世开始主要是升隆作用而非强烈的推覆挤压,研究资料表明该地区大规模的逆冲推覆作用发生在燕山期,米仓山的形成也应在该时限之内,之前米仓山为一继承性的隆起;③不具备前陆盆地的沉积格局,即晚三叠世-侏罗纪的沉积格局不是呈楔形展布.鉴于此,笔者认为前陆盆地术语不适用于米仓山南缘晚三叠世-侏罗纪沉积盆地的类型. 相似文献
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西藏喜马拉雅成矿带错那洞超大型铍锡钨多金属矿床的发现及意义 总被引:7,自引:2,他引:5
经过地质调查工作在西藏喜马拉雅成矿带东段扎西康矿集区南部新识别出由花岗片麻岩、强变形片岩和弱变质板岩组成的错那洞大型片麻岩穹隆构造系统。穹隆核部侵入的淡色花岗岩主体为含电气石和石榴子石的二云母花岗岩,具多期侵入的特征,其中与成矿有关的中细粒电气石二云母花岗岩的锆石U-Pb年龄为(16.64±0.38)Ma。在岩体边部强变形的片岩带中新发现了环穹隆展布,层位稳定的矽卡岩带和厚大的铍多金属工业矿体。预查工作通过稀疏地表工程控制,证实铍达到超大型规模,共生的锡、钨达到大型矿床规模,揭示出西藏喜马拉雅成矿带除原有的铅锌、金锑等矿种外,铍锡钨多金属还具有巨大的找矿潜力。该首次发现和报道的超大型铍锡钨多金属矿床对再认识喜马拉雅成矿带新生代构造-岩浆演化与成矿作用,指导区域找矿具有重要的意义。 相似文献