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1.
Yong Yang Wen-Qian Yao Jia-Jia Yan Ying Guo Da-Qing Xie 《International Geology Review》2018,60(7):929-943
The Piqiang–Selibuya Fault is the most significant fault in the NW Tarim Basin, China. It has attracted increasing attention because of the discovery of a series of oil (gas) fields in and around the fault zone. The structural characteristics and evolution of the Piqiang–Selibuya Fault remain controversial. Field geological surveys and seismic data interpretation reveal that the fault has experienced three stages of activity. The thicknesses of the Permian and Miocene strata on opposing sides of the fault are clearly different, and these reveal that the fault has experienced two stages of significant thrusting. The first stage took place at the end of the Triassic and was associated with the Qiangtang Block amalgamated to the south margin of Eurasia. The second stage occurred at the end of the Miocene and might have been caused by the northwards overthrusting of the Pamir. These two stages of thrusting led to the lower–middle Cambrian detachment layer in the eastern part of the Keping thrust belt being 2 km shallower than in the western part. Since the Pliocene, the southern Tien Shan orogenic belt has been reactivated and thrust towards the interior of the Tarim Basin, and a series of ENE–WSW-trending thrust sheets have formed in the Keping thrust belt. Because of the different depth of the detachment layer on the opposing sides of the Piqiang–Selibuya Fault, the number and spacing of thrust sheets formed to the east of the fault differ from those to the west. This dissimilar deformation led to the strike–slip displacement on the Piqiang–Selibuya Fault. The three stages of fault activity record three important tectonic events in the NW Tarim Basin. Qualitative analysis of this activity helps us better understand the influence of the far-field effect of the collisions that occurred on the southern margin of the Eurasia plate on the structural deformation of the NW Tarim Basin. 相似文献
2.
LATE CENOZOIC TECTONICS ALONG THE NORTHWESTERN MARGIN OF THE TARIM BASIN: INTERACTIONS BETWEEN THE TARIM BASIN AND THE SOUTHERN TIAN SHAN, WEST CHINAgrants 4 98340 50and 4 9732 0 90fromtheNSFofChina;;andproject96 913 0 7 0 1fromtheMinistryofSci
enceandTechnology ,China… 相似文献
3.
The Main Recent Fault of the Zagros Orogen is an active major dextral strike-slip fault along the Zagros collision zone, generated by oblique continent–continent collision of the Arabian plate with Iranian micro-continent. Two different fault styles are observed along the Piranshahr fault segment of the Main Recent Fault in NW Iran. The first style is a SW-dipping oblique reverse fault with dextral strike-slip displacement and the second style consists of cross-cutting NE-dipping, oblique normal fault dipping to the NE with the same dextral strike-slip displacement. A fault propagation anticline is generated SW of the oblique reverse fault. An active pull-apart basin has been produced to the NE of the Piranshahr oblique normal fault and is associated with other sub-parallel NE-dipping normal faults cutting the reverse oblique fault. Another cross-cutting set of NE–SW trending normal faults are also exist in the pull-apart area. We conclude that the NE verging major dextral oblique reverse fault initiated as a SW verging thrust system due to dextral transpression tectonic of the Zagros collision zone and later it has been overprinted by the NE-dipping oblique normal fault producing dextral strike-slip displacement reflecting progressive change of transpression into transtension in the collision zone. The active Piranshahr pull-apart basin has been generated due to a releasing damage zone along the NW segment of the Main Recent Fault in this area at an overlap of Piranshahr oblique normal fault segment of the Main Recent Fault and the Serow fault, the continuation of the Main Recent Fault to the N. 相似文献
4.
皮羌辉长岩体位于塔里木盆地柯坪断隆西部,皮羌村北约15 km处。该岩体的围岩包括志留系、泥盆系和石炭系—二叠系,新近系不整合覆盖其上。采集该辉长岩样品进行单矿物分离,取分离出的斜长石进行Ar-Ar定年。700~1400℃的8个加热阶段析出的~(39)Ar为总量的95.89%,在坪谱图上得到一个较稳定的坪,坪年龄为265.5±1.2 Ma;与之相对应的等时线年龄为267.29±5.62 Ma。结合区域地质分析,皮羌辉长岩体的侵入时代为中二叠世早期;是塔里木二叠纪岩浆活动的一部分。其侵入后基本未受后期构造热事件影响。 相似文献
5.
塔拉斯费尔干纳断裂(TF)为中亚最大规模的断裂,其向南是否贯穿塔里木盆地西部研究较少,带来对其新生代运动性质的争论。研究表明,TF断裂在喀什凹陷以小规模的右旋走滑断裂逐渐消失,断层东盘以逆冲断层系的水平缩短变形,调节新生代右旋走滑位移,与巴楚隆起的阻挡作用相关。区域构造分析表明,随着帕米尔北缘逆冲断层系向北扩展,喀什凹陷中新生代沉积形成密集分布的线性褶皱和逆冲断层带。帕米尔高原向北仰冲触发TF不同区段在新生代差异性构造复活,发生大规模右旋位移及其南端构造转换(逆冲带隆升和前陆盆地发育)。新生代大断裂差异性复活及其构造调节,造成帕米尔构造节东西两侧不对称的构造样式。 相似文献
6.
南天山山前冲断带的构造样式及成因探讨 总被引:1,自引:1,他引:1
塔里木盆地南天山山前冲断带东西分段、南北分带.受走滑断裂控制,自西向东分为喀什北缘、西克尔区段、柯坪断隆主体、温宿凸起和库车坳陷.受南天山逆掩推覆作用影响,发育多排NE向构造带,喀什北缘主要发育乌恰、阿图什、喀什3排构造带,柯坪断隆主体发育3排古生界逆冲褶皱带,库车坳陷主要由北部单斜带、克拉苏—依奇克里克、秋里塔格构造带组成.由于山前带基底结构和构造运动的差异,造成了各区段地层分布的不均衡,普遍发育的逆冲断裂和走滑断裂,使得地质结构和构造样式更为复杂,多套塑性地层对区带展布和构造变形起到了重要作用. 相似文献
7.
Palaeozoic collisional tectonics and magmatism of the Chinese Tien Shan, central Asia 总被引:31,自引:0,他引:31
The Chinese Tien Shan range is a Palaeozoic orogenic belt which contains two collision zones. The older, southern collision accreted a north-facing passive continental margin on the north side of the Tarim Block to an active continental margin on the south side of an elongate continental tract, the Central Tien Shan. Collision occurred along the Qinbulak-Qawabulak Fault (Southern Tien Shan suture). The time of the collision is poorly constrained, but was probably in in the Late Devonian-Early Carboniferous. We propose this age because of a major disconformity at this time along the north side of the Tarim Block, and because the Youshugou ophiolite is imbricated with Middle Devonian sediments. A younger, probably Late Carboniferous-Early Permian collision along the North Tien Shan Fault (Northern Tien Shan suture) accreted the northern side of the Central Tien Shan to an island arc which lay to its north, the North Tien Shan arc. This collision is bracketed by the Middle Carboniferous termination of arc magmatism and the appearance of Late Carboniferous or Early Permian elastics in a foreland basin developed over the extinct arc. Thrust sheets generated by the collision are proposed as the tectonic load responsible for the subsidence of this basin. Post-collisional, but Palaeozoic, dextral shear occurred along the northern suture zone, this was accompanied by the intrusion of basic and acidic magmas in the Central Tien Shan. Late Palaeozoic basic igneous rocks from all three lithospheric blocks represented in the Tien Shan possess chemical characteristics associated with generation in supra-subduction zone environments, even though many post-date one or both collisions. Rocks from each block also possess distinctive trace element chemistries, which supports the three-fold structural division of the orogenic belt. It is unclear whether the chemical differences represent different source characteristics, or are due to different episodes of magmatism being juxtaposed by later dextral strike-slip fault motions. Because the southern collision zone in the Tien Shan is the older of the two, the Tarim Block sensu stricto collided not with the Eurasian landmass, but with a continental block which was itself separated from Eurasia by at least one ocean. The destruction of this ocean in Late Carboniferous-Early Permian times represented the final elimination of all oceanic basins from this part of central Asia. 相似文献
8.
Paleomagnetic constraints on neotectonic deformation in the Kashi depression of the western Tarim Basin,NW China 总被引:1,自引:0,他引:1
Baochun Huang John D. A. Piper Rixiang Zhu 《International Journal of Earth Sciences》2009,98(6):1469-1488
A paleomagnetic study is reported of Eocene to Pliocene formations from the Kashi depression, which aims to constrain the
pattern of neotectonic deformation within the western sector of the Tarim Basin in northwest China. With the exception of
Pliocene specimens from one locality (East Kulukeqiati) which show large within site-mean variations in declination, most
sites from five sampled formations yield well-grouped characteristic remanent magnetizations and positive fold tests and are
of probable post-depositional detrital origin. First-order consistency of paleomagnetic results from a range of rock ages
and localities demonstrates that only small inter-locational vertical-axis rotation has occurred here and indicates that the
Kashi depression is decoupled from the remainder of Tarim to the east and has behaved as a quasi-rigid block which has rotated
by 20–30° counterclockwise relative to Eurasia and North China since the late Pliocene. The crustal-scale Talas-Ferghana Fault
cuts the Tian Shan and meets the Kashi depression in the region immediately to the northwest of the study region and we find
no paleomagnetic evidence for differential rotations to suggest that this fault zone extends southwards across the Kashi depression
to link with the North Pamir Thrust Fault (NPTF). Instead, we argue that the southern extension of this zone is a transform-orogen
junction with southward motion of the eastern wall accommodated by southward thrusting at the margins of the south Tian Shan
and the Tarim Basin. We propose that dextral transpression around the margins of the crustal block incorporating the Kashi
depression was responsible for the contrasting amounts of thrusting on the NPTF in the southwest and the South Tian Shan Thrust
Fault in the north. Extensive evidence for neotectonism in the bordering zones of this block, as well as some paleomagnetic
evidence from low unblocking temperature components, indicates that the deformation produced by block rotation is ongoing. 相似文献
9.
通过对塔里木盆地巴楚隆起东段地震资料的精细解释,发现研究区发育一系列NE、NEE走向的走滑断裂及逆冲滑脱断裂。主要构造样式有花状构造、平行高陡断裂带、滑脱逆冲叠加走滑断裂等。主要有4期构造活动:加里东中期压扭走滑、海西早期张扭走滑、海西晚期继承压扭走滑、喜山期继承活动。其中,加里东中期Ⅰ幕,开始形成NE走向的撕裂断层-调节断层。加里东中期Ⅲ幕,NE向走滑断裂大规模的沿先存NE向基底薄弱带和NE走向的撕裂断层-调节断层基础上开始发育,同时形成了几组NEE向压扭断裂带。加里东晚期海西早期,沿先存走滑断裂继承发育了一系列负花状走滑断裂。海西晚期、喜山期,部分NE向断裂再次开启继承发育。走滑断裂对碳酸盐岩储集层具强烈的改造作用,具备发育多种圈闭类型的潜力,是油气藏保存和再调整的关键因素。 相似文献
10.
沙井子构造带位于塔里木盆地西北缘,是分隔阿瓦提凹陷和温宿凸起的边界断裂。它是塔里木盆地研究最薄弱的大型断裂构造带之一。根据系统、精细的地震资料解释,沙井子构造带存在3套断裂体系:深部楔状冲断构造、狭义沙井子断裂和浅部的伸张构造。深部楔状冲断构造形成于志留纪—泥盆纪,由北西倾向的主冲断层和南东倾向的反冲断层形成构造楔; 构造楔主要由前寒武纪变质岩组成,冲断前锋楔入于寒武系中部,造成上覆地层向温宿凸起方向的急剧抬升。狭义的沙井子断裂,即通常所说的沙井子断裂,为一条高角度基底卷入型挤压走滑断裂,形成于二叠纪末—三叠纪初,错断了早期的深部冲断楔。浅部的伸展构造形成于第四纪早-中期,为一系列较小规模的正断层,沿狭义沙井子断裂呈右步雁列状排列,构成左行剪切张扭性断裂带。深部的楔状冲断构造和浅部的伸展构造是本次研究的新发现。 相似文献
11.
阿尔金断裂新生代构造活动的两阶段性——来自地震属性分析的证据 总被引:2,自引:1,他引:1
自新生代以来,柴达木盆地西北缘各构造单元受青藏高原持续挤压和阿尔金断裂走滑的影响,构造变形复杂,发育有多种不同性质,不同规模的断裂.地震属性技术是三维(3D)地震资料解释和构造分析的可靠依据,有助于客观、准确的揭示断裂的空间分布情况,是复杂地区地质解释的重要工具.本文利用地震属性技术,对位于阿尔金断裂南侧柴达木盆地西部的小梁山背斜深、浅层进行详细的断裂解译,发现该地区深部发育早期EW向逆冲断层;晚期由于阿尔金断裂大规模走滑的作用,形成由深部引发的NW向“楔形”逆冲断层,深部NW向断层的活动引发浅层的滑脱褶皱.综合分析认为阿尔金断裂新生代的活动分为早期隆升形成EW向斜向逆冲断层,晚期走滑运动发育控制现今背斜形态的NW向断层,具有两阶段活动的特点. 相似文献
12.
石炭系碳酸盐岩中大规模断层崖残留体是研究区新构造变动的显著地貌特征。相关摩擦滑动面的产状、擦痕线理定向及其运动学标志的野外观测数据表明,西起川主寺,东抵黄龙乡,中更新世(Q2)以来存在一条近东西走向的左行走滑断层。沿川主寺—黄龙左行走滑断层的位移在切错了近SN走向的岷山隆起后,向东追踪并改造先存的雪山逆冲断层,在黄龙乡以东通过3种方式发生了构造和位移转换,即(1)其前方北侧派生出一系列NE走向的左行剪切断裂;(2)沿走向位移逐渐减弱为顺层滑动;(3)其前方南侧转化为沿近SN向虎牙断裂的左旋斜冲。川主寺—黄龙断裂的构造几何学和运动学特征及其与岷江、虎牙冲断层的构造联系,支持一个左行剪切转换构造体制。松潘—平武地区的卫星遥感图像,1970—2008年的地震活动性,以及1991年以来4次GPS重复测量结果所建立的现今位移矢量场等证据表明,川主寺—黄龙左行走滑断裂系统是继东昆仑—岷江断裂组合之后发育起来的、现在仍然活动的剪切转换断裂构造,是青藏高原东缘东北角的典型地震构造样式之一,反映了青藏高原物质具有向东逃逸的趋势。 相似文献
13.
南天山褶皱冲断带西段变形空间差异性及控制因素 总被引:1,自引:0,他引:1
新生代早期印度板块与欧亚板块持续碰撞汇聚导致欧亚板块内部发生大规模的陆内变形,天山造山带再次隆升,并向塔里木盆地大规模逆掩推覆,形成了现今南天山褶皱冲断带,其变形表现出明显的空间差异性。本文以南天山褶皱冲断带西段为研究对象,通过对不同构造带的地震剖面解释、运用平衡剖面技术恢复出各演化阶段发育过程并计算出相应的变形量,分析本区构造带的空间差异性及其控制因素。通过分析认为南天山褶皱冲断带西段可以进一步划分为巴什布拉克构造段,乌恰-阿图什-喀什构造段和柯坪西缘构造段。其中,巴什布拉克构造段变形特征主要呈一系列对冲构造和背驮盆地样式。乌恰-阿图什-喀什构造段变形特征表现为深、浅两个层次:深部发育堆垛构造和构造楔,浅部发育断层传播褶皱和逆冲断层改造的褶皱带。柯坪西缘构造段变形更加强烈,也表现为深、浅两个层次:深部发育堆垛构造,堆垛程度更大,浅部也发育断层传播褶皱和逆冲断层改造的褶皱带以及反冲断层系。结合该研究区的地质概况进一步分析,本文认为南天山褶皱冲断带西段构造变形的差异性可能与新生代以来帕米尔块体向北推进、塔拉斯-费尔干纳右行走滑断裂的活动、先存断裂的活化与韧性滑脱层的影响有关。 相似文献
14.
塔里木盆地西北部的阿瓦提凹陷周缘发育晚新生代正断层,其中第四纪的正断层活动是塔里木盆地构造地质研究的新发现。这些正断层受先存基底断裂控制,平面上沿沙井子断裂带、阿恰断裂带和吐木休克断裂带右阶式雁列状分布,构成右阶左旋张扭性正断层带。剖面上,向下断达下古生界后不清楚,向上断至第四系上部,构成阶梯状或小型地堑(或负花状构造)构造。生长系数计算结果表明,正断层带形成于新近纪末,第四纪早-中期持续活动,到第四纪晚期停止活动。这些张扭性正断层带的成因是阿瓦提地块相对于周边地质体的顺时针旋转而致,其动力学来源于印度板块与欧亚板块陆-陆碰撞,在晚喜马拉雅山期依然持续作用而导致的远程效应。 相似文献
15.
Kai Berglar Christoph Gaedicke Dieter Franke Stefan Ladage Frauke Klingelhoefer Yusuf S. Djajadihardja 《Tectonophysics》2010,480(1-4):119-132
Based on new multi-channel seismic data, swath bathymetry, and sediment echosounder data we present a model for the interaction between strike-slip faulting and forearc basin evolution off north-western Sumatra between 2°N and 7°N. We examined seismic sequences and sea floor morphology of the Simeulue- and Aceh forearc basins and the adjacent outer arc high. We found that strike-slip faulting has controlled the forearc basin evolution since the Late Miocene. The Mentawai Fault Zone extends up to the north of Simeulue Island and was most probably connected farther northwards to the Sumatran Fault Zone until the end of the Miocene. Since then, this northern branch jumped westwards, initiating the West Andaman Fault in the Aceh area. The connection to the Mentawai Fault Zone is a left-hand step-over. In this transpressional setting the Tuba Ridge developed. We found a right-lateral strike-slip fault running from the conjunction of the West Andaman Fault and the Tuba Ridge in SSW-direction crossing the outer arc high. As a result, extrusion formed a marginal basin north of Simeulue Island which is tilted eastwards by uplift along a thrust fault in the west. The shift of strike-slip movement in the Aceh segment is accompanied by a relocation of the depocenter of the Aceh Basin to the northwest, forming one major Neogene unconformity. The Simeulue Basin bears two major Neogene unconformities, documenting that differences in subsidence evolution along the northern Sumatran margin are linked to both forearc-evolution related to subduction processes and to deformation along major strike-slip faults. 相似文献
16.
从地震信息看阿尔金断裂带构造和塔里木盆地花彩弧断裂体系 总被引:1,自引:0,他引:1
阿尔金断裂带由多条断裂组成,主要有阿尔金断裂、且末断裂、三危山断裂。其中阿尔金断裂为主断裂,它呈左旋走滑兼具逆冲性质,中生代—古近纪为左旋走滑,新近纪由东南向西北逆冲推覆。且末断裂和三危山断裂均具左旋走滑性质。且末断裂受统一的阿尔金断裂带左旋应力场控制,但又叠加了塔里木台盆区向南挤压的应力场,从而具有双重属性。塔里木盆地的断裂总体上组成古生界塔北花彩弧断裂束和塔南花彩弧断裂束,展布成全盆地的菱形断裂系统,且末断裂构成其东南边界。在该菱形断裂系统的北弧顶和菱形内的中央轴部为背冲式的构造断裂带,显示挤压特征;在花彩弧两翼转弯处展布正花状构造样式,显示走滑特征。阿尔金断裂带及其两侧,主要在柴达木、塔里木两大盆地发现了大油气田,两者都是由断层控制油气的垂向运移与分布。柴达木盆地具有双重断—坳的特点,但油气田只分布在中—新生界构造层内;塔里木盆地,南北翘板式的构造运动是其形成复式油气区的最重要的地质构造条件。 相似文献
17.
巴楚隆起是塔里木盆地重要的含油气构造单元,因其断裂构造特征与演化异常复杂,严重制约了对该地区构造特征及演化的认识和油气勘探工作。本文通过对地震资料精细构造解释,并结合塔里木盆地构造演化背景及最新的钻井、露头等资料,阐明了巴楚隆起断裂活动具有明显的分期差异性和分区、分带、分段及分层差异性。巴楚隆起断裂构造主要经历了4期差异活动,即加里东早期发育张扭性断裂、海西晚期断裂挤压反转、喜马拉雅山中期断裂强烈压扭逆冲与分区差异变形、喜马拉雅山晚期西南缘断裂带分段分层差异改造与叠加。断裂演化主要受控于加里东早期、海西晚期和喜马拉雅山中-晚期构造运动及对应时期塔里木古陆周缘洋盆开合与造山作用,喜马拉雅山中期是巴楚隆起断裂活动关键期,因受西昆仑和西南天山强烈挤压,隆起西段发生“屈服型”冲断隆升与走滑旋转,东段相应发生“受限型”弧形逆冲与向南掀斜,喜马拉雅山晚期断裂主要活动表现在隆起西北缘和西南缘,特别在西南缘断裂带发生了强烈的分段、分层差异叠加改造,其成因与西昆仑强烈隆升和向北挤压密切相关。 相似文献
18.
苏北盆地高邮凹陷边界断裂带构造特征及成因 总被引:1,自引:0,他引:1
真武、吴堡断裂带是高邮凹陷的边界断裂带,具有复杂的结构和演化特征。通过三维地震资料解释以及断层平均活动速率的计算,分析了两断裂带在晚白垩世-新生代时期的几何学和运动学特征,将两断裂带作为一个整体,建立了凹陷边界主断裂发育的时空关系,对比探讨了两断裂带内各级断层的发育顺序和模式,并探讨了断层发育的成因。研究表明:一级断裂真①、吴①断层形成于泰州组沉积时期,阜四段沉积时期达到活动顶峰。二级断裂真②、吴②断层形成于阜四段沉积时期,戴南组沉积时期达到活动的顶峰。二级断裂主要形成于一级断裂沿走向的转折处,其延伸方向受控于区域早期NW-SE向伸展应力以及曲折边界条件;两断裂带内部断层发育模式有很大不同,认为其分别形成于伸展机制与斜滑机制下,与区域后期EW向挤压导致的郯庐断裂带右旋走滑作用有关。 相似文献
19.
塔里木盆地塔中低凸起古构造演化与变形特征 总被引:14,自引:0,他引:14
通过区域地质和构造地震精细研究,提出了塔里木南缘早古生代板块构造控制塔南—塔中从伸展到挤压盆地演化:寒武纪—早奥陶世板缘拉张控制了塔中北斜坡断陷构造;中奥陶世北昆仑洋盆关闭后塔中前缘隆起;晚奥陶世—晚泥盆世塔中前陆冲断与走滑构造变形。晚奥陶世塔南前陆冲断构造由东南向西北方向传播,形成塘北—塔中南—塔中5号断裂带等弧形断裂体系和塔中低凸起中西段与Ⅰ号断裂带小角度斜交的走滑断裂体系。冲断构造位移的传播受控于两个滑脱层:其一是沿寒武系内部膏盐岩的滑脱,形成弧形冲断构造,终止于塔中南缘断裂带;另一个是沿中地壳韧性变形带的滑脱,形成塔中1号断裂带东端的弧形构造带。塔中1号断裂带东段的构造变形方式主要为向北传播水平位移的断层传播褶皱和向南反向冲断的楔形构造。塔中低凸起的中西段右行走滑构造导致了向东收敛的扫帚状走滑断裂体系的形成,剖面发育花状构造。塔中低凸起的古构造演化与变形特征、构造变形样式、构造变形成因和断裂体系,是克拉通盆地内部叠合盆地深层的主要构造地质特征。 相似文献
20.
A system of left-lateral faults that separates the South American and Scotia plates, known as the Magallanes-Fagnano fault system, defines the modern tectonic setting of the southernmost Andes and is superimposed on the Late Cretaceous – Paleogene Patagonian fold-thrust belt. Fault kinematic data and crosscutting relationships from populations of thrust, strike-slip and normal faults from Peninsula Brunswick adjacent to the Magallanes-Fagnano fault system, presented herein, show kinematic and temporal relationships between thrust faults and sets of younger strike-slip and normal faults. Thrust fault kinematics are homogeneous in the study area and record subhorizontal northeast-directed shortening. Strike-slip faults record east—northeast-directed horizontal shortening, west—northwest-directed horizontal extension and form Riedel and P-shear geometries compatible with left-lateral slip on the main splay of the Magallanes-Fagnano fault system. Normal faults record north-south trending extension that is compatible with the strike-slip faults. The study area occurs in a releasing step-over between overlapping segments of the Magallanes-Fagnano fault system, which localized on antecedent sutures between basement terranes with differing geological origin. Results are consistent with regional tectonic models that suggest sinistral shearing and transtension in the southernmost Andes was contemporaneous with the onset of seafloor spreading in the Western Scotia Sea during the Early Miocene. 相似文献