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本文对横切沧东断裂带的23条地地震剖面进行了分析解,计算出各剖面的地层厚度和断距,并结合重、磁资料,对沧东断裂带和黄骅坳陷西部的构造演化进行了定理研究,发育特征为:沧东断裂带在时间演化上可分为四期,空间演化上可分为六段,且控制了黄骅坳陷西部的反转构造;沧东断裂带作为黄骅坳陷的西界断裂,在中生代早中期为逆冲断层,中生代晚期至新生代转为正断层,它控制了坳陷的构造演化,对油气运移和富集起重要作用;盆地中发育的NWW 向断层在构造样式转换中起重要的调节作用。 相似文献
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天山南麓库车坳陷西部沉积古近系膏盐岩,盐层下伏中生界发现万亿立方米储量天然气田,是我国西气东输重要气源。库车坳陷盐下是油气勘探关注目标,目前研究认识不能满足勘探需求,尤其是盐构造形成机制存在争议,盐构造平衡恢复是研究难点。本文应用二维构造平衡剖面技术,综合地震剖面、钻井和地表地质资料,选取库车坳陷西段四条剖面,通过StructureSolver公司开发的构造恢复软件(简称SS),开展平衡恢复工作,分层恢复盐上层、膏盐层、盐下层,复原挤压变形前地震剖面。研究结果揭示库车坳陷西段发育二期盐构造:渐新世-中新世发育刺穿型盐丘,上新世-第四纪发育挤压型盐构造。挤压作用下早期盐丘演变为盐席、盐墙,盐上层发育盐逆冲断层和盐背斜,盐下发育叠瓦状逆冲断层和挤压构造楔。库车坳陷西段盐层上覆冲积扇沉积(重力)差异负载是发育盐丘的原因,盐丘分布于山前冲积扇前端和却勒冲积扇南侧。库车坳陷盐下发育逆冲构造楔,应用临界楔理论研究构造楔顶面坡度与底部滑脱层角度变化,盐下构造楔顶面坡度突变,指示底部滑脱层角度发生变化,推断古生代基底正断层卷入逆冲构造楔。 相似文献
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塔北隆起-库车坳陷区中新生代基底-盖层构造变形机理 总被引:3,自引:1,他引:3
利用三维建模软件获取了塔北隆起-库车坳陷区现今及不同时期基底构造格局,为基底构造分析提供了新的技术方法。研究表明,三叠纪-古近纪,塔里木盆地北部块体的基底构造基本处于稳定状态,基底-盖层构造变形不明显;新近纪,克拉苏背斜带以北的塔里木盆地基底明显向天山倾斜,库车基底俯冲变形导致基底转折带逐渐向南迁移,库车前陆盆地形成;第四纪时期,库车-拜城盆地的基底整体向天山下倾斜,基底构造的强转折带迁移到塔北隆起带;新近纪以来库车坳陷的基底转折期与塔北隆起盖层的负反转构造形成期在时间上一致,在空间上,库车坳陷的基底在强烈沉降俯冲的同时,相邻塔北隆起的基底相对隆起,形成库车新生代前陆盆地的前隆;库车前陆冲断带的形成是在库车基底斜坡上伴随天山的推覆而形成的;塔北隆起为库车前陆盆地的前隆,基底俯冲变形及其转折带迁移导致塔北隆起盖层负反转构造的形成。 相似文献
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库车坳陷是在地壳或者岩石圈尺度整体挤压作用下,收缩构造变形形成的一个构造单元,膏盐岩层等软弱岩层可能导致滑脱断层发育,并引起盐上和盐下不协调收缩变形,区域挤压作用下一些先存基底断裂带的逆冲位移是控制盐上层冲断褶皱变形的主要因素。运用地震资料、地表露头、钻测井资料以及非地震资料等,对库车坳陷区域大剖面的盐上层、盐下层的构造变形样式进行分析,认为南天山在挤压收缩变形中隆升,诱导盆山过渡带发育基底卷入的高角度逆冲断层,先前基底断层的复活影响了盆地沉积盖层的构造变形,基底断裂与盖层断层组合样式在走向上基本一致,盖层强变形带与基底断裂带上下呼应。 相似文献
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宁南弧形构造带甘肃靖远-宁夏盐池剖面中上地壳电性结构特征 总被引:2,自引:0,他引:2
对垂直于宁南弧形构造带的一条大地电磁测深剖面数据的处理和反演解释,揭示了沿剖面的中祁连隆褶带、靖远-西吉坳陷、西华山-六盘山隆褶带、兴仁堡-海原坳陷、中卫-同心断陷、卫宁北山-罗山坳陷、鄂尔多斯西缘隆褶带及天环坳陷30 km深度的电性结构特征及相互关系; 推断出祁连山碰撞造山带存在自南西向北东的逆冲,鄂尔多斯西缘隆褶带从东向西依次叠置形成逆冲叠瓦式断裂构造格局。电性分布特征表明:宁南弧形构造带内壳内低阻层主要在北祁连碰撞造山带及兴仁堡-海原坳陷内呈不连续分布,祁连山造山带内的壳内高导层往北终止于兴仁堡-海原坳陷内;兴仁堡-海原坳陷内的壳内高导层往北东终止于鄂尔多斯西缘逆冲褶皱带,与鄂尔多斯西缘逆冲推覆体下的晚古生代、早中生代滑脱面相交汇,沿剖面方向宁南弧形构造带内的壳内低阻层总体表现为西南深北东浅的特征。 相似文献
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库车坳陷中部构造分层差异变形特征和构造演化 总被引:1,自引:1,他引:0
基于地表露头调查、地震资料解释、钻井及与盐相关的构造样式分析,对库车坳陷中部构造变形特征进行研究。结果表明:库车坳陷中部具有南北分带、东西分段、垂向分层的变形特征。以库姆格列木群膏盐岩为界可以分为盐上构造层、盐构造层、盐下构造层及基底构造层4层结构。该区域主要发育收缩构造样式及盐构造样式,盐上构造层、盐构造层及盐下构造层的构造样式及分布具有明显差异。盐上层主要发育逆冲断层及褶皱,盐岩层则以盐流动构造样式为主,盐下层则发育逆冲叠瓦断层等大规模推覆构造。研究区具有明显的分段变形特征,可划分为博孜—却勒构造段、大北—西秋构造段、克深—西秋构造段、克拉3—东秋构造段,其差异性主要表现为地表线性褶皱带分布、盐构造样式、盐下构造变形的差异。区域构造演化剖面研究表明库车坳陷主要经历了中生代伸展坳陷盆地(三叠纪—白垩纪)、新生代早期"挠曲"盆地(古近纪—中新世)及新生代晚期前陆盆地(上新世—第四纪)的演化过程。现今构造主要形成于库车组沉积的中晚期。 相似文献
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黔南坳陷构造变形特征及其成因解析 总被引:6,自引:1,他引:5
黔南坳陷构造线主体呈NNE至近SN向展布,与坳陷南部NW向-近EW向罗甸断坳以及北部NEE向黔中隆起构造线走向不一,具有明显的构造变形调节特征。经结合地震、MT以及区域地质资料分析,黔南坳陷发育有浅变质与结晶双层结构基底,深部结晶基底表现出明显的"岛链"状结构特征,可能是扬子古陆的外缘增生部分;坳陷总体经历了南华-志留纪、泥盆纪-早三叠世、中三叠世-侏罗纪三期成盆与新元古代早期末、志留纪、中三叠世以来三期隆升,发育了从被动大陆边缘、到前陆、到改造三种盆地类型。今构造格局与变形样式实为多期构造变形形迹的复合、联合与叠加。总体上,坳陷今表层面貌呈现为隔槽式褶皱、是典型的山前逆冲推覆构造发育区发育的侏罗山式构造样式,纵向上可划分为震旦系-下古生界(下)、上古生界(中)及中新生界(上)三个构造层,其中下构造层以发育基底卷入的冲断变形构造为主,中构造层以发育与断层相关的冲起变形构造为主,上构造层以发育滑动褶皱与断展褶皱为主;坳陷今表层构造多受其深层"岛链"状结晶基底结构所控制。 相似文献
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盆地结构记录了盆地演化特征,盆地群结构和构造特征由其所处的构造背景和板块边界决定。随着油气勘探的不断深入,积累了大量地震剖面,为盆地群剖面特征对比,提供了大量的基础资料。本文从大地构造背景着手,通过筛选地震与地质剖面,大致沿北纬39°绘制了欧亚大陆东西向剖面(在东部北黄海盆地有向南的偏转):西起黑海盆地,东至琉球海沟,剖面长约12000km,横穿18个盆地,涵盖克拉通盆地(塔里木原型盆地等)、裂谷盆地(太原盆地、渤海湾盆地等)、前陆盆地(黑海盆地、南里海盆地等)和弧后盆地(东海盆地)等多种盆地类型。其中,陆壳上的盆地发育在前寒武基底上,演化历史悠久;褶皱基底、洋壳基底和洋陆过渡壳基底上发育的盆地主要发育在中新生代。通过详细对比剖面各段结构和构造演化特征,发现中新生代构造活动决定了欧亚大陆中部盆地群最终格架,盆地多具有多期叠合改造的特征。剖面西段盆地群普遍具有中生代伸展断陷,叠加后期挤压坳陷的特征;剖面东段盆地群具有中生代断陷,叠加后期坳陷的特征。现今构造格架由西到东表现为前陆坳陷到弧后坳陷,鄂尔多斯盆地和沁水盆地是本剖面线结构特征分段的枢纽。 相似文献
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《International Geology Review》2012,54(18):2291-2312
ABSTRACTAs the north part of Simao Terrane, Lanping Basin is located between the Sanjiang Tethys Orogen (STO) and Yangtze Block, also the junction zone between the Gondwanaland and Cathaysian old land (Pan Huaxia mainland), which includes Yangtze and Cathaysian Blocks. The aim of this study is to decipher the provenance of the sedimentary units in the Lanping Basin and affiliation of Simao Terrane by the U-Pb ages, Hf isotope of detrital zircons and whole-rock geochemistry. The whole-rock geochemistry and the mineral composition indicate that most of the Triassic–Paleocene sedimentary rocks are derived from the upper crust and exhibit recycled orogen features. The detrital zircon U-Pb ages from the North Simao Terrane are consistent with the magmatic events during Early Neoproterozoic and Permian in the Western Yangtze Block. And the detrital zircons ages from North Simao Terrane show same distribution features as the Permian–Triassic magmatic rocks, which are distributed in the Simao Terrane and along major sutures. These comparisons suggest that the clastic sediments in Lanping Basin (North Simao Terrane) are derived from Early Neoproterozoic and Permian magmatic rocks from Western Yangtze Block, Permian–Triassic magmatic rocks from Simao Terrane, along Jinshajiang, Garz-Litang and Ailaoshan Sutures. The comparison of the detrital zircon age distributions shows that Simao Terrane and Yangtze Block exhibited similarity tectonic setting in the evolution history, especially during Paleoproterozoic–Late Paleozoic. This suggests that the Simao Terrane is part of Cathaysian old land, although Simao Terrane was separated from Yangtze Block for short period during Early Paleozoic. Besides, the Hf mapping, stratigraphic succession, paleogeography and paleomagnetism in SW China support that Simao Terrane has a Cathaysian old land-affinity, rather than one involving Gondwanaland. 相似文献
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北黄海盆地东部前中生界基底特征 总被引:6,自引:1,他引:5
北黄海盆地是中国近海唯一未获得油气突破及勘探程度最低的含油气盆地(朝鲜已在该盆地东部实现了工业性油气突破),朝鲜在东部凹陷的3口钻井证实北黄海盆地东部凹陷主体前中生界基底是下古生界(Pz1)地层,与上覆以砂泥岩为主的中-新生界地层在地球物理特征上有很大差异,该特征提供了以地球物理资料推断和确定中-新生界盆地基底特征的可靠性。通过重力、磁力及大量多道地震资料解释认为,北黄海盆地前中生界基底最大埋深约5.5 km,凹陷主体部位前中生界基底以下古生界碳酸盐岩为主,其东北角可能存在上古生界碎屑岩基底,而凹陷南部可能是元古界浅变质岩基底。 相似文献
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滇西三江地区中生代盆—山动力学耦合初论 总被引:4,自引:0,他引:4
盆地和相邻造山带在动力学机制上的耦合关系是当前大陆动力学研究的热点,滇西三江地区中—新生代盆山格局是开展这一研究的典型实例。晚三叠世思茅盆地从前陆盆地向裂谷盆地的转换过程,与造山带演化的主碰撞阶段和后碰撞阶段相关,是研究的切入点。通过分析研究区中—新生代盆—山耦合过程及其沉积响应、地球物理和岩浆岩地球化学特征来探讨其深部动力学过程的一致性和连续性。研究表明三江地区中—新生代盆山演化经历了"盆转山"(T1—T2)、"山控盆"(T3—E1)以及盆—山共变(E2—Q)三个阶段;思茅陆相断陷湖盆通过盆地内沉积相迁移、层序建造、基底变形,尤其是沉积旋回来响应深部动力学过程;岩石圈速度结构剖面揭示出思茅盆地的下地壳和岩石圈地幔P波速度增大,莫霍面加深;结合思茅盆地两侧中生代岩浆岩活动期次和地球化学特征,底侵作用、拆沉作用和俯冲板片断离作用可能是盆山动力学耦合的深部作用模式。 相似文献
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《Journal of Asian Earth Sciences》2011,40(6):608-619
The study area encompasses the Eastern Continental Margin of India (ECMI) and the adjoining deep water areas of Bay of Bengal. The region has evolved through multiple phases of tectonic activity and fed by abundant supply of sediments brought by prominent river systems of the Indian shield. Detailed analysis of total field magnetic and satellite-derived gravity data along with multi channel seismic reflection sections is carried out to decipher major tectonic features, basement structure, and the results have been interpreted in terms of basin configuration and play types for different deep water basins along the ECMI. Interpretation of various image enhanced gravity and magnetic anomaly maps suggest that in general, the ENE–WSW trending faults dominate the structural configuration at the margin. These maps also exhibit a clear density transition from the region of attenuated continental crust/proto oceanic crust to oceanic crust based on which the Continent Ocean Boundary (COB) has been demarcated along the margin. Basement depths estimated from magnetic data indicate that the values range from 1 to 12 km below sea level and deepen towards the Bengal Fan in the north and reveal horst–graben features related to rifting. A comparison of basement depths derived from seismic data indicates that in general, the basement trends and depths are comparable in Cauvery and Krishna–Godavari basins, whereas, in the Mahanadi basin, basement structure over the 85°E ridge is clearly revealed in seismic data. Further, eight multichannel seismic sections across different basins of the margin presented here reveal fault pattern, rift geometries and depositional trends related to canyon fills and channel–levee systems and provide a basic framework for future petroleum in this under explored frontier. 相似文献
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云南思茅三叠纪弧后前陆盆地的沉积特征 总被引:2,自引:0,他引:2
思茅盆地位于古特提斯构造域的东段,西侧为澜沧江造山带,东侧为哀牢山造山带.三叠纪沉积盆地建立在晚古生代褶皱基底之上,形成于古特提斯洋闭合后,造山早期的弧陆碰撞阶段.前人提出过后陆盆地、滞后型弧后盆地、裂谷盆地和前陆盆地等多种认识.本文通过对盆地形成的地球动力学背景及盆地内沉积体的性质、结构、时空叠置关系、古流向、特殊沉积体的时空展布及其所表现出的盆地沉降中心的迁移规律等方面的系统研究,认为思茅三叠纪盆地属弧后前陆盆地,其演化阶段始于中三叠统安尼期以前,盆地主要受控于澜沧江造山带,晚三叠世晚期受哀牢山造山带影响,具有复合式前陆盆地特点,三叠纪末过渡为陆内拗陷盆地。 相似文献
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HQ-E爆破地震测深剖面的地壳浅部精细结构及其地质构造研究 总被引:1,自引:0,他引:1
HQE爆破地震测线的地壳浅部的精细结构研究结果表明,上地壳的速度结构由疏松盖层、沉积层、加里东褶皱构造层及元古宙结晶基底等4个构造层构成,且大致以武夷山为界,宁都以西的低速凹陷区与中新生代沉积盆地相对应,加里东褶皱基底底部剧烈起伏,其最大埋深可达10km;而在宁都以东地区,地表速度明显增大,且加里东褶皱基底底界的深度明显变浅,仅为3~5km。笔者根据地壳浅部速度精细结构的变化特征对剖面沿线的构造单元进行了划分,并对邵阳盆地、衡阳盆地、茶陵盆地及泰(和)兴(国)盆地等盆地的分布范围、性质、基底及其主要地层分布进行了初步的分析和探讨。 相似文献
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Helmcke DGZG University of Goettingen D Goettingen GermanyIngavat Helmcke Rc/o GZG University of Goettingen D Goettingen GermanyFeng QinglaiFaculty of Earth Sciences China University of Geosciences Wuhan Wagner B Heppe KGZG 《中国地质大学学报(英文版)》2001,12(3)
INTRODUCTIONTheSimaoregion (SWYunnan ,China) ,situatedbe tweentheAilaoshanbeltintheeastandtheLancangjiangzoneinthewest (Fig .1) ,isakeyareatochronologicallyconstrainlatePaleozoiccompressionaldeformationsandthusofprimein terestwhendiscussingtheplate tectonichi… 相似文献
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ACTIVE DEFORMATION STYLE IN SOUTH-EASTERN AND NORTH MARGINS OF TIBETAN PLATEAU 相似文献
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Indresh Kumar S. Vijaya Kumar V. Ramesh Babu B. V. L. Kumar J. K. Dash A. K. Chaturvedi 《Journal of the Geological Society of India》2017,89(1):12-20
Cuddapah basin is known for hosting unconformity proximal uranium deposits viz., Lambapur, Peddagattu, Chitirial and Koppunuru along the northern margin of the basin. It is well known that these deposits are mostly associated with basement granitoids in Srisailam Sub-basin, and with cover sediments in Palnad subbasin where basement topography and fault/fracture system influence the fluid flow causing basement alteration and ore deposition. Geological setup, surface manifestation of uranium anomalies and association of the hydro-uranium anomalies near Durgi area in southern part of the Palnad sub-basin, have prompted detail investigation by geophysical methods to probe greater depths. Controlled Source Audio Magneto Telluric (CSAMT) survey conducted over five decades of frequency (0.1-9600 Hz) delineated the various lithounits of Kurnool and Nallamalai Groups along with their thicknesses as there exist an appreciable resistivity contrast. Interpretation of CSAMT sounding data are constrained by resistivity logs and litholog data obtained from the boreholes drilled within the basin indicated three to four layered structure. Sub-surface 2-D and 3-D geo-electrical models are simulated by stitching 1-D layered inverted resistivity earth models. Stitched 1-D inverted resistivity sections revealed the unconformity between the Kurnool Group and Nallamalai Group along with basement undulations. The faults/fractures delineated from the CSAMT data corroborated well with the results of gravity data acquired over the same area. Simulated 3-D voxel resistivity model helped in visualising the faults/fractures, their depth extent, thickness of the Banganapalle quartzite and basement configuration. Integrated interpretation of CSAMT, gravity and borehole data facilitated in delineating the unconformity and the structural features favourable for uranium mineralisation in deeper parts of the Palnad sub-basin. 相似文献