Reconstructions of the Mesozoide structures in the eastern Amur-Okhotsk fold system, Far East     

V. Yu. Zabrodin 《Russian Journal of Pacific Geology》2009,3(3):260-268

The late Jurassic reconstruction for the Ul’ban synclinorium was proposed based on the lithological and structural similarity of the Upper Permian and Mesozoic complexes of the Yankan-Dzhagdy and Ul’ban lithotectonic zones of the Amur-Okhotsk fold system. It was suggested that the Un’ya-Bom subzone of the Yankan-Dzhagdy LTZ is a fragment of the Ul’ban synclinorium (including its eastern centroclinal closure) that was detached and westward displaced (for 400–600 km) in the first half of the Cretaceous.  相似文献   

华南早中生代从印支期碰撞构造体系向燕山期俯冲构造体系转换的形变记录   总被引：54，自引：1，他引：53       下载免费PDF全文

张岳桥  徐先兵  贾东  舒良树 《地学前缘》2009,16(1):234

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   

塔西南阿其克背斜地质构造特征及与油气关系     

杨扬  胡建中  林畅松 《地球学报》2009,30(2):263-270

阿其克背斜是塔里木盆地西南坳陷南缘的一个横向转换构造, 该构造的特殊性在于其枢纽走向与造山带总体是垂直的, 而非平行。笔者通过分析阿其克背斜南、中、北3段地质剖面及各剖面中核部与两翼地层的极射赤平投影, 揭示了阿其克背斜的几何学、运动学、动力学特征。结合地震解释剖面、区域构造背景及前人研究成果, 建立了阿其克背斜形成过程的地质模型, 认为它是在断层传播褶皱和断层转折褶皱共同作用下, 以断层传播作用为主分3个阶段形成的断坡背斜构造, 垂向上自下而上分原地系统、准原地系统和外来系统中的推覆体3个构造层次。塔里木盆地的菱形边界性质造成阿其克地区EW向的挤压应力场。由于背斜上部外来系统中的推覆体南部翘起遭受剥蚀, 东侧被阿其克断层破坏, 因此对油气圈闭不利, 但在北部异地推覆体之下, 原地系统中过熟烃源岩及毗邻凹陷内的烃源岩可以通过断层、不整合面向上部准原地系统中的宽缓背斜圈闭供给油气。  相似文献   

Structural Evolution of the Eastern Qiulitagh Fold and Thrust Belt,Northern Tarim Basin,China   总被引：4，自引：3，他引：1  

YANG Minghui  JIN Zhijun  LU Xiuxiang  SUN Dongsheng  TANG Xuan  PENG Gengxin  LEI Ganglin 《《地质学报》英文版》2009,83(2):347-358

The eastern Qiulitagh fold and thrust belt (EQFTB) is part of the active Kuqa fold and thrust belts of the northern Tarim Basin. Seismic reflection profiles have been integrated with surface geologic and drill data to examine the deformation and structure style of the EQFTB, particularly the deformational history of the Dina 2 gas field. Seismic interpretations suggest that Dongqiu 8 is overall a duplex structure developed beneath a passive roof thrust, which generated from a tipline in the Miocene Jidike Formation, and the sole thrust was initiated from the same Jidike Formation evaporite zone that extends westward beneath the Kuqatawu anticline. Dongqiu 5 is a pop-up structure at the western part of the EQFTB, also developed beneath the Jidike Formation evaporite. Very gentle basement dip and steep dipping topographic slope in the EQFTB suggest that the Jidike Formation salt provides effective decoupling. The strong deformation in the EQFTB appears to have developed further south, in an area where evaporite may be lacking. Since the Pliocene, the EQFTB has moved farther south over the evaporite and reached the Yaken area. Restoring a balanced cross-section suggests that the minimum shortening across the EQFTB is more than 7800 m. Assuming that this shortening occurred during the 5.3 Ma timespan, the shortening rate is approximately 1.47 mm/year.  相似文献   

Usage of strain and vorticity analyses to interpret large‐scale fold mechanisms along the Sanandaj–Sirjan HP‐LT metamorphic belt,SW Iran     

Khalil Sarkarinejad  Abdolreza Partabian  Ali Faghih  Timothy M. Kusky 《Geological Journal》2012,47(1):99-110

3D finite strain analyses and kinematic vorticity measurements were carried out on the Loghon Anticline within the HP‐LT Sanandaj–Sirjan metamorphic belt (Neyriz area, SW Iran). Rƒ/φ and Fry methods were used on the strain markers (e.g. deformed fossils) to interpret geometric relationships between the fold axis, strain ellipsoid axes and shear zone boundaries. The results indicate the predominance of prolate strain in the anticline. Quantitative kinematic analyses show that the W_k parameter is 0. 67 ± 0. 06 (i.e. pure‐shear dominated non‐coaxial flow). This study quantitatively supports the establishment of a dextral transpressive system, which is responsible for the development of the large‐scale right‐lateral shear zones that strike sub‐parallel to the major folds. Flexural shear combined with regional dextral‐shear is suggested to be the most common mechanism of folding in this area. Copyright © 2011 John Wiley & Sons, Ltd.  相似文献   

川东褶皱带构造发育深度层次与变形样式   总被引：2，自引：0，他引：2       下载免费PDF全文

徐汀滢  季建清  涂继耀  刘志成 《地质科学》2012,(3):788-807

地壳上层的结构特征和变形样式在垂直方向上的变化远远大于其在水平维度上的分异。川东褶皱带自晚古生代以来地史演化统一、地层展布稳定,之后新生代盆、山演化分异幅度较大,使得不同深度的地层和基底得以出露,不同地壳深度层次的构造样式得以展示,这为研究应力的垂向分异,提供了很好的条件。本文基于地壳垂直方向上变形几何的不守恒、构造脱耦以及构造层次的概念,通过野外构造现象的详细解析、野外脆性破裂产状统计、断裂之间交切关系以及活动性质观察等综合分析,结合遥感图像研究,对川东褶皱区隔挡式褶皱和隔槽式褶皱形成提出了新的解释模型。以华蓥山与齐岳山为界,川东褶皱带被分为3个呈叠置关系的区域。研究表明华蓥山以西(Ⅰ区)没有发生强烈的构造变形,变形深度最小(<2 km); 华蓥山与齐岳山之间(Ⅱ区)构造样式为在北北东向剪切作用下形成的陡立构造面理,变形深度为2～5 km; 而齐岳山以东(Ⅲ区)的构造样式是发育轴向北东的宽缓褶曲,变形深度为4～6.6 km。研究分析后得出,川东褶皱带在晚古生代以来,没有经历过大幅度的地壳垂向运动和明显的旋转运动,而白垩纪以后,发育了早期北北东向和晚期北东向的两期构造变形。Ⅱ、Ⅲ两区的构造样式发育于同一应力场(北西-南东主应力场),而晚期北东向断裂活动是形成上述3个区域呈现出断块并置的原因。另外,由于后期不同断块抬升和剥露的差异,使3个区域迥异的构造样式呈现在地表。这一认识对研究油气相关的构造圈闭、固体多金属矿产相关的矿床深度问题以及大地构造学等问题都有创新意义。  相似文献   

库车冲断带秋里塔格构造带东段构造样式与构造演化          下载免费PDF全文

赵星  贾承造  李本亮  程海艳 《地质科学》2012,(3):618-628

秋里塔格构造带位于库车褶皱冲断前缘,其东段包括东秋里塔格背斜和库车塔吾背斜。野外调查和地震剖面解释表明:秋里塔格构造带东段盐下发育断层转折褶皱; 盐上东秋里塔格背斜为滑脱箱状背斜,库车塔吾背斜核部为南倾逆冲断层所破坏。演化剖面显示秋里塔格构造带东段在侏罗纪断陷期发育了正断裂,其后为平静期,直到库车晚期后逆冲断层和褶皱快速发育,背斜最终形成。膏盐岩及古构造对构造变形具有重要影响,一方面作为滑脱层,分割了盐下层与盐上层,导致二者形成不同的构造样式; 另一方面塑性流动充填于背斜核部。由于膏盐岩的厚度差异,东秋里塔格背斜盐上发育褶皱,而库车塔吾背斜核部被逆冲断层破坏,膏盐层厚度还影响了膏盐层上下构造高点的相对位置。盐下构造的发育受侏罗纪古构造控制,进而影响了盐上构造的发育。  相似文献   

Geochemistry and detrital modes of Proterozoic sedimentary rocks,Bayana Basin,north Delhi fold belt: implications for provenance and source-area weathering     

《International Geology Review》2012,54(1):111-129

Bayana Basin, sited along the eastern margin of the north Delhi fold belt of the Aravalli Craton, contains an ～3000?m-thick sequence comprising one volcanic and seven sedimentary formations of the Delhi Supergroup. The sedimentary units are the Nithar, Jogipura, Badalgarh, Bayana, Damdama, Kushalgarh, and Weir formations in order of decreasing age. Petrographic study of the sandstones as well as major and trace elements (including rare earth elements) and bulk-rock analyses of the shales and sandstones allow the determination of their provenance, source-rock weathering, and basinal tectonic setting. The sandstones are quartz rich and were derived mainly from exhumed granitoids typical of a craton interior. Geochemical patterns of the sandstones and shales are similar. However, trace element abundances are low in sandstones, probably due to quartz dilution. The coarser clastic Damdama and Weir sandstones, which occur at higher stratigraphic levels, have strikingly low trace element concentrations compared with the underlying Bayana and Badalgarh sandstones. All samples show uniform LREE-enriched patterns with negative Eu-anomalies (Eu/Eu*?=?0.16–0.23) and are similar to those of post-Archaean Australian shales (PAAS). However, the (La/Yb) _n ratios (averages 11–18) of all the sedimentary units are higher than those of PAAS, except for the Bayana Sandstone, which has low values (average 6.77). The chemical index of alteration (70–78) and the plagioclase index of alteration (87–97) values and the A–CN–K diagram suggest moderate to intense weathering of the source area.

The provenance analyses indicate that basin sedimentation was discontinuous. It received input from a terrain comprising granitoids, mafic rocks, sedimentary sequences, and tonalite-trondhjemite-granodiorite (TTG) suites. The Nithar and Badalgarh sandstones received input from a source consisting predominantly of granitoids. The succeeding Damdama and Weir sandstones received debris from granitoids and TTG in different proportions. The Kushalgarh shale was possibly derived from a source consisting granites and mafic rocks with a TTG component. The pre-existing sedimentary formations also contributed intermittently during the different phases of sedimentation.

Bulk-rock geochemical data suggest Mesoarchaean gneisses and late Archaean granites of BGC/BGGC (Banded Gneissic Complex/Bundelkhand Granitic Gneiss Complex) basement as possible source terrains. These data indicate deposition in a continental rift setting. The coeval formation of many rift-related Proterozoic sedimentary basins in the BGC/BGGC terrain suggests that the North Indian Craton underwent major intracratonic extension during Proterozoic time, probably triggering the break up of Earth's first supercontinent.  相似文献   

Progressive,episodic deformation in the Mexican Fold–Thrust Belt (central Mexico): evidence from isotopic dating of folds and faults     

《International Geology Review》2012,54(6):734-755

We used illite Ar/Ar dating to obtain absolute ages of folds and shear zones formed within the Mexican Fold–Thrust Belt (MFTB). The methodology takes advantage of illite dating in folded, clay-bearing layers and the ability to obtain accurate ages from small-size fractions of illite using encapsulated Ar analysis. We applied our approach to a cross-section that involves folded Aptian–Cenomanian shale-bentonitic layers interbedded with carbonates of the Zimapán (ZB) and Tampico–Misantla (TMB) Cretaceous basins in central-eastern Mexico. Basinal carbonates were buried by syn-tectonic turbidites and inverted during the formation of the MFTB in the Late Cretaceous. Results from folds and shear zones record different pulses of deformation within this thin-skinned orogenic wedge.

Mineralogical compositions, variations in illite polytypes, illite crystallite size (CS), and Ar/Ar ages were obtained from several size fractions in limbs and hinges of the folds and in the shear zones. 1M_d-illite polytype (with CS of 6–9 nm) dominates in two folds in the TMB while 2M₁-illlite (with CS of 14–30 nm) dominates in the third fold, in the ZB, and in the fold/shear zone. From west (higher grade) to east (lower grade): Ar retention ages indicate shearing occurred at ~84 Ma in the westernmost shear zone, folding at ~82 Ma in the ZB with subsequent localized shearing at ~77 Ma, and Ar total gas ages constrain the time of folding at ~64 Ma on the west side of the TMB and ~44 Ma on the eastern edge. These results are consistent with the age and distribution of syn-tectonic turbidites and indicate episodic progression of deformation from west to east.  相似文献   

Magnetic Characterization of Amphibolites from the Fomopéa Pluton (West Cameroon): Their Implication in the Pan-African Deformation of the Central African Fold Belt     

NJANKO Théophile  FOZING Eric Martial  KWéKAM Maurice  YAKEU SANDJO Angéline Flore  NJONFANG Emmanuel 《《地质学报》英文版》2012,86(1):73-84

The Fomopea granitic pluton is emplaced in gnessic and amphibolitic basement.These gneissic and amphibolitic basement rocks are represented in the pluton's body as sub-rounded,elongated or stretched xe...  相似文献