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1.
祁连山各个山前盆地内发育了大量断裂和褶皱,是青藏高原向北扩展的重要表现形式。对这些断层和褶皱的研究有助于探讨青藏高原向北扩展和隆升的机制问题。酒西盆地是位于祁连山最西端的山前坳陷盆地,其内部正在发育最新生的白杨河逆断裂-褶皱带。本文通过对白南断裂-白杨河背斜的地质调查、阶地测量以及探槽开挖工作,对酒西盆地内部最新生的白杨河逆断裂-褶皱得到了几点认识:①白杨河逆断裂-褶皱是酒西盆地内新生的逆断裂-褶皱,是酒西盆地边界断层无法完全吸收青藏高原向北扩展的变形量所产生的次级构造。②白南断裂-白杨河背斜符合断层相关褶皱中的断弯褶皱模型,并存在膝折带迁移的现象。③白杨河背斜的起始隆升时间在中更新世后期,即距今300ka左右,平均隆升速率约0.21mm/a;构造强度有逐渐增大的趋势,全新世以来隆升速率约0.36~0.5mm/a。④白南断裂是全新世活动断裂,全新世以来发生过至少2次古地震。在近1ka以来至少存在一次最新的古地震事件。  相似文献   

2.
塔里木盆地阿瓦提—巴楚地区褶皱构造特征   总被引:5,自引:4,他引:5       下载免费PDF全文
研究区位于塔里木盆地西部,主要跨越巴楚断隆和阿瓦提凹陷两个构造单元。寒武纪以来,研究区主要发育 3个时期、两个方向的褶皱构造。第一期北西向褶皱构造为轴向北西的断层转折褶皱,形成于中寒武世—泥盆纪,它们当时都是一些“水下隆起”,在全区均有分布。第二期南北向褶皱构造为规模相差较大、轴向近南北的断层转折褶皱和少量断层传播褶皱,形成于晚二叠世,发育于吐木休克断裂带附近及其以北的区域,西部背斜构造的幅度、规模都较东部大。第三期北西向褶皱构造为轴向北西的断层传播褶皱,形成于老第三纪—现在,发育于吐木休克断裂带附近及其以南的区域。吐木休克断裂带是形成于老第三纪—现在的右行聚合型走滑断裂带,对研究区发育的褶皱构造主要起破坏和改造作用。研究区的伸展作用过程发生于早二叠世,塔里木盆地进入了克拉通内裂谷形成阶段,出现广泛分布的基性火山岩和基性侵入岩体、岩墙。  相似文献   

3.
准噶尔盆地南缘属于环青藏高原盆山构造系统的一部分,受新生代以来青藏高原远距离构造传递作用的影响,深部构造期次多,变形十分复杂,地震剖面成像品质很差,导致对其构造变形特征和变形机制的认识存在争议,对横向构造转换关系和纵向构造传递过程方面的研究甚少。本文采用最新宽线地震资料,运用断层相关褶皱变形方法分析了准噶尔南缘中段霍玛吐背斜带中-深部隐伏构造变形特征;通过构造样式、变形强度对比与分析,阐述了霍玛吐背斜横向转换关系;在构造建模与精细解释的基础上,利用平衡剖面和构造正演模拟方法,分析了其构造演化过程,并阐述了纵向构造传递过程。分析认为,霍玛吐背斜带深部主要发育低幅度断层转折褶皱,中部发育复合型构造三角楔,并伴生有次级褶皱调节断层及小型反冲断层;浅部发育断层传播褶皱;横向上主要表现为构造样式相近、构造变形强度发生此消彼长的构造转换关系;纵向上表现为侏罗纪—中新世的低幅度构造变形,并以前展式向盆地方向发生构造挤压传递,上新世经强烈逆冲挤压,形成复合构造三角楔及派生的突发构造,后经强烈挤压逆冲,在浅部形成断层传播褶皱,并使山前带被强烈推举地表,遭受剥蚀。  相似文献   

4.
库车坳陷的地质结构及其对大油气田的控制作用   总被引:6,自引:0,他引:6  
库车坳陷是在晚二叠世之前的古生代褶皱基底上历经晚二叠世-三叠纪的前陆盆地、侏罗-古近纪的伸展坳陷盆地和新近纪-第四纪陆内前陆盆地的演化而形成的。基底中的软弱层、侏罗系煤层和古近系库姆格列木组与新近系吉迪克组膏盐(泥)岩构成了自山前向盆地内部逐渐抬升的滑脱面,与自山前向盆地内部逐渐趋缓的地表面构成楔形体。该楔形冲断体的内部结构具有"垂向分层、横向分带与纵向分段"特点,NW向的阿瓦特-喀拉玉尔滚和NE向的库车横向构造转换带将其分割为乌什、拜城与阳霞3个构造区段。构造层发育特点决定了库车坳陷发育三叠-侏罗系的区域展布的有效烃源岩和(侏罗系、)白垩系-第三系储盖组合;分层变形特点导致盐下层形成叠瓦冲断构造组合,冲断层成为油源断层;叠瓦式的冲断层相关褶皱背斜组合导致了复式天然气聚集区带的形成,即在大北-克拉苏式的构造带上每一冲断层相关褶皱背斜带独立成藏,复合连片形成复式油气聚集(区)带,目前拜城北、克深、克拉苏背斜带已呈现这种趋势;撕裂断层则决定着构造带上具体的油气富集区段。库车坳陷油气资源丰富,地质结构特点决定了不同类型油气田分布的分区性。  相似文献   

5.
依据帕米尔—西昆仑北麓新生代前陆褶皱冲断带 3条构造剖面的详细分析,发现帕米尔—西昆仑北麓除山根地带发育高角度断层外,基本上以低角度逆掩断层为主,形成与逆冲推覆构造相关的褶皱变形。乌泊尔地区表现为由山脉向塔里木盆地滑移的隐伏冲断层和上覆褶皱;苏盖特—齐姆根—甫沙地区表现为山前的三角带和向盆地扩展的两排背斜带。帕米尔—西昆仑北麓前陆褶皱冲断带的主要构造变形时间始于上新世早期(距今约 4.6Ma),断层、褶皱的变形时代由山前向盆地逐步变新,变形强度由山脉向塔里木盆地逐步减弱。帕米尔—西昆仑北麓前陆褶皱冲断带的构造缩短量为 20~70km,缩短率为 35%~50%。  相似文献   

6.
霍尔果斯背斜位于准噶尔盆地南缘山前冲断带中段。以断层相关褶皱理论为基础,对背斜构造样式、构造演化及油气勘探潜力进行分析。认为霍尔果斯背斜为深部断层转折褶皱与浅部断层传播褶皱组成的复合型背斜,发育3期构造演化序列:深部断层转折褶皱发育期、中部反向断裂发育期及浅层霍玛吐断裂冲断改造期。古近系紫泥泉子组发育优质储层,是油气发现的主力层系,油气藏为高压、高凝、高产、带油环的大跨度高效油气藏;白垩系东沟组一段发育规模储层,储盖组合有效,是深化勘探的有利层系。  相似文献   

7.
库车新生代构造性质和变形时间   总被引:126,自引:6,他引:120  
库车构造位于南天山古生代碰撞造山带之南,为塔里木盆地最北的一个构造带。它自北而南可分为边缘逆冲( 隐伏构造楔) 、斯的克背斜带、北部线性背斜带、拜城盆地、南部背斜带。每个背斜带又包含有若干逆冲断层相关褶皱,它们是断层转折褶皱、断层传播褶皱、滑脱褶皱、断层传播 滑脱混生褶皱、双重逆冲构造、突发构造、三角带构造。底部逆冲断层向南变浅,堆叠逆冲岩席向南变薄,总体上形成一个向南的逆冲构造楔。逆冲断层在斯的克背斜带侵位最早(25 Ma) ,在北部线性背斜带为169 Ma,拜城盆地中的大宛其背斜为36 Ma,南部背斜带为53 Ma( 北部) 和18 Ma( 南部) ,变形作用向南变新。库车构造是印 藏板块碰撞的内陆构造响应,是二叠纪前陆盆地复活而成的再生前陆盆地变形带  相似文献   

8.
川东南地区构造变形复杂,二叠系和志留系含有丰富的页岩气资源。依据岩性和地震资料的解释,寒武系膏盐层与中-下三叠统膏盐层对构造变形有重要控制作用,多数断层沿膏盐层滑脱。研究区包括盆内和盆缘两部分,盆内发育形态对称的盖层滑脱式褶皱;盆缘发育基底卷入式褶皱冲断构造,分为山前推覆带和山前转换带,前者发育高陡的三角楔构造,后者由冲断带、褶皱带和斜坡带组成。构造演化分析表明:晚侏罗世齐岳山断层开始发育,盆内地层发生挠曲变形;白垩纪盆缘形成三角楔构造,盆内主要构造和断裂已经发育;新生代齐岳山褶皱隆升,盆内寒武系之上沉积盖层褶皱形成多个背斜和向斜。山前推覆带构造高陡、变形强烈,页岩气保存条件差;山前转换带构造变形程度适中,其褶皱带背斜完整,页岩气保存条件好;盆内中-下三叠统膏盐层封盖性好,埋深适中的背斜为页岩气有利勘探目标区。   相似文献   

9.
龙门山冲断带构造分带性是龙门山构造研究中的核心内容和关键科学问题.在野外实测地质大剖面以及路线地质调查的基础上,根据冲断带不同部位构造样式的不同,将龙门山冲断带北段前山带划分出3个构造亚带,即唐王寨-仰天窝飞来峰-滑覆体构造亚带、楼子坝-雁门坝-马角坝叠瓦冲断亚带、矿山梁-天井山-二廊庙冲断背斜亚带.各亚带具有不同构造变形特征:飞来峰-滑覆体构造亚带具有"推覆加滑覆"的构造叠加和演变特征;叠瓦冲断亚带中冲断构造十分发育,从北西至南东方向,不同系、同一系中不同组、同一组中不同段的地层依次由老向新逆冲,组成典型的叠瓦状构造样式,逆冲断裂向西呈铲式倾斜,并收敛于逆冲断裂系底板断层之上.构造岩片中褶皱构造十分发育,以断层传播褶皱为主,其轴迹走向和轴面产状与叠瓦冲断亚带中各条断层的总体产状几乎相同,均倒向前陆方向.冲断背斜亚带具有双重构造特点,在浅层表现为近直立的短轴背斜,构造样式以断层转折褶皱为主,深层由多个逆冲岩片叠置而成.下寺-金子山-厚坝山前带浅部层次中冲断稀少、规模较小、变形微弱,主要表现为向南东倾斜的单斜构造,深部层次发育有大型隐伏逆冲断裂.从前山带和山前带总体上具有变形强度向前陆方向有规律递减、卷入构造的地层逐渐变新、变形层次逐渐变浅的趋势,反映了冲断构造具有前展式特征.冲断构造是晚三叠世与新生代两期构造变形的产物:晚三叠世构造变形强烈,是龙门山前陆冲断带的主要形成期;新生代变形较弱,叠加和改造了晚三叠世的构造变形.  相似文献   

10.
南天山库车褶皱冲断带构造几何学和运动学   总被引:56,自引:17,他引:56       下载免费PDF全文
汪新  贾承造  杨树锋 《地质科学》2002,37(3):372-384
印度板块与欧亚大陆的汇聚作用和持续碰撞使中亚内陆沿天山、昆仑山、阿尔金山发生变形,山脉前沿发育褶皱冲断带。南天山库车褶皱冲断带中段库车河地区发育3~4排东西走向的逆冲(掩)断层和相关褶皱,逆冲(掩)断层由北向南扩展,断层和褶皱的形成时代自北向南逐渐变新,北部山前带的变形发生于前中新世,南部秋立塔克背斜带和亚肯背斜带的变形时代为上新世(5.2±0.2Ma)。通过构造几何学和运动学分析,作者提出了库车褶皱冲断带的构造变形方式和演化模型。  相似文献   

11.
库车再生前陆盆地冲断构造楔特征   总被引:56,自引:4,他引:56  
库车再生前陆盆地冲断构造楔由一系列向南运动的逆冲断层和相关褶皱组成。冲断楔的北部以断层转折褶皱、断层传播褶皱、双重逆冲构造为主。断层楔的前缘发育了很好的滑脱膝折背斜,全为盲断层控制,形成隐蔽式前锋。冲断层的就位从中新世开始,自北向南迁移,前锋的构造形成在第四纪。造成逆冲断层的地壳水平缩短作用速度在中新世较慢,平均为0.355mm/a,上新世中期达0.82mm/a,而到上新世晚期和第四纪速度增大了约一个数量级,达到1.29-3mm/a。  相似文献   

12.
阿尔金断裂对酒泉盆地的控制作用分析   总被引:1,自引:0,他引:1  
阿尔金断裂带东延区与北祁连冲断带一起控制了酒泉盆地的形成和演化.作者利用区域地球物理资料的解释和分析,研究了阿尔金断裂走滑过程对酒泉盆地的控制作用和影响范围,认为阿尔金断裂走滑运动始于中生代白垩纪,初次隆升始于白垩纪,不晚于古新世;其东延应止于花海凹陷.阿尔金断裂带对酒泉盆地的控制作用主要表现为限制了盆地现今的西部边界,同时控制了盆地北段的构造形态.  相似文献   

13.
塔里木盆地西北缘柯坪冲断带构造变形特征   总被引:7,自引:1,他引:6  
柯坪冲断带位于塔里木盆地西北缘,是新生代南天山褶皱冲断系的一部分.本文根据野外实际考察和地震剖面解释,总结了该冲断带的构造变形特征.它是发育于古生界中且以中寒武统膏盐层为主滑脱面的薄皮构造,是内部结构相对简单的叠瓦状冲断,因更新世才定型而具暴露式冲断前锋,有断层传播褶皱发育但已遭强烈剥蚀,前展式冲断.上新世晚期的冲断曾控制了磨拉石盆地发育(西域组砾岩),但该盆地已遭更新世的冲断推覆作用破坏.根据平衡剖面恢复,柯坪冲断带南部3排冲断层的总构造缩短量为29.1%-40.7%.  相似文献   

14.
ABSTRACT

The formation of the Qilian mountains and the evolution of adjacent basins were controlled by the uplift and northeastward growth of the Tibetan Plateau. In a field survey conducted on the main Cenozoic basin sediments in the Qilian Mountains and adjacent areas, fission track age data of apatite obtained previously were analyzed. Cenozoic tectonics and landform evolution in the area where the Qilian Mountains now stand and its response to the uplift of the Tibetan Plateau were studied. In the Oligocene Epoch, the Tibetan Plateau was initially uplifted and extended northeastward, forming the Guide-Xining-Lanzhou-Linxia foreland basin on the northern margin of the western Qinling Mountains, and the foreland basin in the area where the Qilian Mountains now stand received widespread sediments. In the Miocene, influenced by the enhanced uplift and northeastward thrust of the Tibetan Plateau, a stage of intracontinental squeezing orogeny and foreland basin splitting began in the area where the Qilian Mountains now stand. In the Pliocene Epoch, the Qilian Mountains were continuously uplifted, the basins shrank, large lake basins disappeared gradually, and large-area red-clay-type aeolian sediments appeared. During the Quaternary Period, the uplift of the Tibetan Plateau accelerated, causing a rapid rise in the altitude of the Qilian Mountains. Global climate change occurred and mountain glaciers began to develop. Quaternary moraine deposits appeared for the first time in the area, and very thick loess sediments appeared in the Longzhong area, east of the area where the Qilian Mountains now stand, forming the famous Loess Plateau.  相似文献   

15.
阿尔金断裂是由阿尔金主干断层及其它次级断裂组成的巨型走滑断裂系,其分布规律符合左行走滑挤压模式。石包城盆地位于阿尔金断裂带内,为祁连山所围限,面积大约为3 000 km~2。通过对盆地上新统地层、砾岩砾石成份、古流向等沉积特征的综合研究分析表明:盆地南部边缘位于土大坂以南,主要由砾岩和含砾砂岩组成,其中灰岩占砾石成份80%以上;盆地东部边缘在石包城乡地区,砾岩砾石成份以花岗岩、片岩和片麻岩等变质岩居多,夹杂少量硅质岩;盆地的沉降中心位于双泉井子附近,靠近阿尔金断裂一侧;石包城盆地古水流方向为北西和北北西方向,说明该地区地势自南东至北西方向逐渐降低,盆地南东方向应为隆起区;石包城盆地双泉井子以西物源区应为盆地南缘的大雪山等一系列山体,而东北部物源应来自石包城乡附近的山体。石包城盆地是阿尔金断裂带中主干断层与分枝断层联合作用形成的走滑分枝盆地,从上新世以来,盆地至今扩张量约为30~40 km。按相同的位移速率,本文估算了阿尔金主干断层石包城段自渐新世以来的走滑量,大约为218 km。  相似文献   

16.
The left-lateral strike–slip Dead Sea Fault Zone (DSFZ) extends from the Red Sea in the south to the East Anatolian Fault Zone (EAFZ) in the north. This study examines the northern part of the DSFZ around Amik Basin and presents surface and subsurface geological evidence for the Quaternary activity and initiation age of the northernmost DSFZ. The DSFZ extends N–S in the south of the Amik Basin where clear geological and morphological evidence exists for faulting. Geological observations around Amik Basin, analyses of borehole data and electrical resistivity profiles within the Amik Basin indicate that the activity of the northern DSFZ started after Pliocene in the Amik Basin. Subsurface data in the basin suggest that the DSFZ offsets a pre-Quaternary basin sinistrally by about 7.9 km. The offset pre-Quaternary basin suggests at least 4.94 ± 0.13 mm/year slip rate for the northern part of the DSFZ. The Karasu Fault Zone (KFZ) extends in an en-echelon pattern along the western margin of the Karasu Valley and it transfers the significant amount of slip from DSFZ to the EAFZ.  相似文献   

17.
The eastern margin of the Qaidam Basin lies in the key tectonic location connecting the Qinling, Qilian and East Kunlun orogens. The paper presents an investigation and analysis of the geologic structures of the area and LA-ICP MS zircon U-Pb dating of Paleozoic and Mesozoic magmatisms of granitoids in the basement of the eastern Qaidam Basin on the basis of 16 granitoid samples collected from the South Qilian Mountains, the Qaidam Basin basement and the East Kunlun Mountains. According to the results in this paper, the basement of the basin, from the northern margin of the Qaidam Basin to the East Kunlun Mountains, has experienced at least three periods of intrusive activities of granitoids since the Early Paleozoic, i.e. the magmatisms occurring in the Late Cambrian (493.1±4.9 Ma), the Silurian (422.9±8.0 Ma-420.4±4.6 Ma) and the Late Permian-Middle Triassic (257.8±4.0 Ma-228.8±1.5 Ma), respectively. Among them, the Late Permian - Middle Triassic granitoids form the main components of the basement of the basin. The statistics of dated zircons in this paper shows the intrusive magmatic activities in the basement of the basin have three peak ages of 244 Ma (main), 418 Ma, and 493 Ma respectively. The dating results reveal that the Early Paleozoic magmatism of granitoids mainly occurred on the northern margin of the Qaidam Basin and the southern margin of the Qilian Mountains, with only weak indications in the East Kunlun Mountains. However, the distribution of Permo-Triassic (P-T) granitoids occupied across the whole basement of the eastern Qaidam Basin from the southern margin of the Qilian Mountains to the East Kunlun Mountains. An integrated analysis of the age distribution of P-T granitoids in the Qaidam Basin and its surrounding mountains shows that the earliest P-T magmatism (293.6-270 Ma) occurred in the northwestern part of the basin and expanded eastwards and southwards, resulting in the P-T intrusive magmatism that ran through the whole basin basement. As the Cenozoic basement thrust system developed in the eastern Qaidam Basin, the nearly N-S-trending shortening and deformation in the basement of the basin tended to intensify from west to east, which went contrary to the distribution trend of N-S-trending shortening and deformation in the Cenozoic cover of the basin, reflecting that there was a transformation of shortening and thickening of Cenozoic crust between the eastern and western parts of the Qaidam Basin, i.e., the crustal shortening of eastern Qaidam was dominated by the basement deformation (triggered at the middle and lower crust), whereas that of western Qaidam was mainly by folding and thrusting of the sedimentary cover (the upper crust).  相似文献   

18.
《Geodinamica Acta》2013,26(3):219-228
The new field data obtained from the southwestern margin of the Erzincan pull-apart basin located on the eastern segment of North Anatolian Fault Zone indicate that the opening of the basin is not only controlled by pull-apart mechanism but also by a lateral ramp structure associated with SSE-NNW Late Miocene thrusting along the Sivas Basin. The fault bordering the southwestern margin of the basin is the lateral part of the Karada thrust that is the roof thrust of the Sivas fold-thrust system, rather than a segment of the North Anatolian Fault Zone. The Erzincan basin was nucleated as a lateral ramp basin during the Pliocene on the lateral ramp-related folds and expanded by the pull-apart opening mechanism between two segments of the North Anatolian Fault Zone. The WSW-ENE pull-apart opening of the basin was recorded by the Pliocene lacustrine-fluvial sediments and Quaternary volcanics as listric normal faulting.  相似文献   

19.
Uplift of the Tibetan Plateau during the late Cainozoic resulted in a thick apron of molassic sediments along the northern piedmonts of the Kunlun and Altyn Mountains in the southern Tarim Basin. Early Neogene sediments are characterised by sandstone, siltstone and red mudstone, representing floodplain to distal alluvial fan environments. The Early Pliocene Artux Formation consists of medium-grained sandstone and sandy mudstone with thin layers of fine pebbly gritstone. The Late Pliocene to Early Pleistocene Xiyu Formation is dominated by pebble to boulder conglomerate typical of alluvial fan debris flow deposits. Sedimentological investigation, together with grain size and chemical analyses of siltstone bands intercalated with sandstone and conglomerate in the Xiyu and Artux Formations, point to an aeolian origin, suggesting desertic conditions in the Tarim Basin by the Early Pliocene. The onset of aeolian sedimentation in the southern Tarim Basin coincided with uplift of the northern Tibetan Plateau inferred from the lithofacies change from fine-grained mudstone and sandstone to coarse clasts. Tibetan Plateau uplift resulted in the shift of sedimentary environments northwards into the southern Tarim Basin, and could well have triggered the onset of full aridity in the Taklimakan region as a whole.  相似文献   

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