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1.
准噶尔盆地南缘褶皱冲断带断裂输导石油效率评价   总被引:2,自引:0,他引:2  
为了评价准噶尔盆地南缘褶皱冲断带断裂输导原油效率,通过定义断裂输导系数和分析原油成藏过程有效性,建立了断裂输导石油效率评价方法。评价结果表明,断裂输导系数沿着褶皱冲断带呈带状分布,高效断裂输导区主要位于托斯台背斜、独山子背斜、安集海背斜、霍尔果斯背斜及其以南、吐谷鲁背斜、清水河断鼻和齐古背斜等地区。高效断裂输导区内,第一排构造带断裂输导效率最高,第二排构造带次之,第三排构造带相对最低。研究区独山子油田、霍尔果斯油田、吐谷鲁油田、齐古油田等均分布在高效断裂输导范围内,表明高效断裂输导是准南褶皱冲断带原油成藏的重要条件之一。  相似文献   

2.
胡玲  何登发  胡道功 《地球学报》2005,26(2):121-126
本文对准噶尔盆地南缘霍尔果斯-玛纳斯-吐谷鲁逆断裂带中石膏、石英脉和断层泥进行了ESR测年研究。结果表明,霍尔果斯-玛纳斯-吐谷鲁逆断裂带主要经历了3个发展阶段,逆断裂带形成于1500ka前,在400~1000ka和80~120ka期间进行了再调整。断裂活动时间与青藏高原阶段性隆升时间一致,说明准噶尔盆地南缘霍尔果斯-玛纳斯-吐谷鲁逆断裂带的形成与青藏高原的隆升过程密切相关,晚新生代天山山脉的隆升和前陆盆地的构造变形应为印度和欧亚两大板块碰撞的远程效应。  相似文献   

3.
构造地貌学重点关注构造和地表过程对于地形地貌演化的差异化作用,构造活动速率则是评估这种影响的一个重要指标。利用河流阶地数据计算河流下切速率从而约束构造抬升速率是常用的方法,但由于阶地成因复杂,这一方法具有不确定性。对于山前河流地貌序列,基于背斜段与未变形段的阶地拔河高度差以及阶地面形成年龄,计算得到的河流下切速率可在一定程度上消除气候等因素的影响,因此可用于估算背斜自阶地形成以来的平均抬升速率。基于该方法,本文通过研究天山北麓乌鲁木齐河、塔西河、玛纳斯河、金钩河、安集海河及奎屯河等河流在背斜段发育的主要阶地,分析了背斜抬升速率及其时空特征。天山北麓发育3排逆断裂一背斜带,结果表明位于第Ⅱ排逆断裂一背斜带的吐谷鲁背斜自约13ka以来的抬升速率为3.52mm/a,同时期霍尔果斯背斜构造抬升速率为4.8mm/a,玛纳斯背斜东端的抬升速率相对较小,为2ram/a;第Ⅲ排构造带中的独山子背斜全新世抬升速率仅为1.2~1.9mm/a。这可能表明,自山前向盆地方向晚第四纪背斜抬升速率大致呈减小趋势,与背斜地壳缩短量的空间分布规律基本一致。更多的阶地年龄数据有助于更好地揭示天山北麓晚第四纪背斜构造活动特征。  相似文献   

4.
新生代以来,受印度极块与欧亚大陆的碰撞和持续汇聚作用的影响,天山强烈变形隆升,并在南北两侧形成了一系列冲断推覆构造.大山北缘由南向北发育了3排褶皱-冲断带,第三排独山子-安集海构造形成于第四纪以来.根据野外地表考察结果并利用二维反射地震剖面资料,定量分析了独山子背斜和安集海背斜的构造几何学和运动学特征,确定了他们的变形时间和变形量.独山子背斜和安集海背斜的最小缩短量分别为4340m和l240m,缩短率分别为15.74%和7.2%,由于构造降升幅度的差异,造成了发育于北天山山前的一系列河流发生横向迁移,奎屯河和安集海河偏流向东发生河流改道.  相似文献   

5.
南安集海背斜和南玛纳斯背斜属于准噶尔南缘山前中西段第一排构造带,构造变形异常强烈,呈典型的堆跺式双重构造.通过应用断层相关褶皱的构造几何分析方法,用计算机对南安集海-南玛纳斯背斜带内的基干地震剖面进行了构造解析,南玛纳斯背斜是在霍-玛-吐断裂上叠加一堆跺式双重构造组成,向西南玛纳斯背斜上的堆跺式双重构造逐渐消失,同时霍-玛-吐断裂位移量逐渐转换成反向逆冲断层,形成南安集海背斜的复合型构造三角楔.通过构造解析,弄清了它们在三维空间中的过渡转换关系,对后继的南缘山前构造带的勘探开发具有参考意义.  相似文献   

6.
准噶尔盆地南缘前陆冲断带形成时间的初步厘定   总被引:8,自引:0,他引:8  
一般认为生长地层的时代就是构造形成的时代(Suppe等,1992;Shaw 等,1994).准噶尔盆地南缘前陆冲断带发育地表可见的三排构造带:以齐古-喀拉扎背斜-清水河构造为主的第一排构造、以霍尔果斯-玛纳斯-吐谷鲁背斜为主的第二排构造、以独山子-安集海背斜-呼图壁背斜为主的第三排构造,卷入三排构造的地层有侏罗系、白垩系、第三系和第四系,形成了现今复杂的地貌地形和地层分布,三排构造带的形成时间对油气评价和油气勘探意义重大.  相似文献   

7.
天山北麓活动背斜带的变形特征   总被引:4,自引:0,他引:4       下载免费PDF全文
天山中段北麓发育有3排受逆断裂控制的背斜带,对这些构造带的研究有助于认识天山及其前陆盆地晚新生代构造变形的机理.基于地层变形分析,并结合前人的研究成果,从整体上探讨了这3排构造带的变形时间与基本模式.分析表明,天山北麓第Ⅰ排构造带的托斯台背斜自中新世褶皱作用明显;第Ⅱ排构造带吐谷鲁背斜于约6.0Ma开始生长,伴随发育同构造沉积即生长地层;第Ⅲ排构造带独山子背斜发育时间应晚于约2.6Ma.这一变形时间序列揭示天山北麓3排逆断裂-褶皱带的构造变形具有向前陆盆地逐步扩展的特征,并伴随产生幅度不等的地壳缩短.天山北麓约8~15km的地壳缩短总量表明,晚新生代以来构造驱动沿约130km宽的山麓带是相对均一的.  相似文献   

8.
库车坳陷是南天山中段新构造运动异常强烈的地区,内部发育有四排近EW向展布的逆断裂-背斜带,由南天山山前向塔里木方向依次为:山麓逆断裂-背斜带;喀桑托开逆断裂-背斜带;秋里塔格逆断裂-背斜带和亚肯盲逆断裂-背斜带.东秋里塔格背斜属秋里塔格逆断裂-背斜带东段部分,其构造运动尤为强烈.研究表明:东秋里塔格背斜是浅部滑脱面与其南翼逆冲断层共同形成的断层传播-滑脱混生褶皱,背斜南翼的浅层逆冲断层和深层的断坡构造是重要孕震场所.东秋里塔格浅部背斜核部的背冲式断裂和北翼的膝折属于派生的次级构造,断裂的规模、错动量有限.东秋里塔格背斜南翼逆断层最新活动错断Ⅱ级阶地砾石层,其活动年代至少为全新世早期,这次错动在地表留有3~4 km长的古地震破裂形迹,说明断裂具粘滑运动特征.  相似文献   

9.
准噶尔盆地南缘断裂带显微构造特征与活动时代   总被引:1,自引:0,他引:1  
对准噶尔盆地南缘霍尔果斯-玛纳斯-吐谷鲁逆断裂带中的断层泥和构造岩显微构造进行了研究,并对断裂带中的石膏、石英脉和断层泥进行了ESR测年。显徼构造研究表明,断裂带至少经历了3期构造变形,断层泥和石英碎粒中既发育有线状擦痕、阶步等粘滑活动显微构造,也发育有剪切滑动、定向排列等蠕滑活动变形现象。ESR测年结果显示,霍尔果斯-玛纳斯-吐谷鲁逆断裂带形成于1.5Ma前,在0.4~1.0Ma和0.08~0.12Ma期间进行了二次再调整。断裂活动时间与青藏高原阶段性隆升的时间一致,说明准噶尔盆地南缘霍尔果斯-玛纳斯-吐谷鲁逆断裂带的形成与青藏高原的隆升过程密切相关。  相似文献   

10.
准噶尔南缘逆冲带多个逆冲断层同期活动的几何学证据   总被引:1,自引:0,他引:1  
天山北缘为典型的大陆内部活动构造特征,发育准噶尔盆地南缘逆冲带,主要表现为新生代时期形成的多排平行山体的背斜和逆冲断层。野外地质考察、地表填图指出,第二排背斜带玛纳斯背斜和吐谷鲁背斜核部均发育一条逆冲断层,背斜北翼发育一条逆冲断层,并导致河流阶地变形和断层崖的形成。地震资料解释和钻井数据证实玛纳斯背斜和吐谷鲁背斜北翼和核部存在多条向北逆冲的断层,在这些背斜和南侧第一排构造清水河背斜和奇古背斜之间的向斜之下存在隐伏的东湾背斜。二维地震测网构造解释指出东湾背斜为同时活动的、叠置的双重逆冲构造,并造成玛纳斯背斜和吐谷鲁背斜浅层发育一系列无序叠瓦逆冲断层。野外观察和地震解释的生长地层和地层不整合分析证实,这些无序逆冲断层形成时间主要为中新世晚期,一直到第四纪西域组(Q_1x)和乌苏群(Q_2)时期和第四纪中晚期(Q_4)。我们提出准南地区多个逆冲断层同期活动模式不同于新逆冲断层向前陆方向扩展时,旧断层不活动的模式。同期逆冲作用模式展示由于深部有序逆冲作用形成的双重逆冲构造发育期间,同期活动的逆冲作用可在浅层地表形成一系列无序逆冲断层,类似于叠瓦扇逆冲断层。  相似文献   

11.
According to the differences of structural deformation characteristics, the southern margin of the Junggar basin can be divided into two segments from east to west. Arcuate thrust-and-fold belts that protrude to the north are developed in the eastern segment. There are three rows of en echelon thrust-and-fold belts in the western segment. Thrust and fold structures of basement-involved styles are developed in the first row, and décollement fold structures are formed from the second row to the third row. In order to study the factors controlling the deformation of structures, sand-box experiments have been devised to simulate the evolution of plane and profile deformation. The planar simulation results indicate that the orthogonal compression coming from Bogeda Mountain and the oblique compression with an angle of 75° between the stress and the boundary originating from North Tianshan were responsible for the deformation differences between the eastern part and the western part. The Miquan-ürümqi fault in the basement is the pre-existing condition for generating fragments from east to west. The profile simulation results show that the main factors controlling the deformation in the eastern part are related to the décollement of Jurassic coal beds alone, while those controlling the deformation in the western segment are related to both the Jurassic coal beds and the Eogene clay beds. The total amount of shortening from the Yaomoshan anticline to the Gumudi anticline in the eastern part is ~19.57 km as estimated from the simulation results, and the shortening rate is about 36.46%; that from the Qingshuihe anticline to the Anjihai anticline in the western part is ~22.01 km as estimated by the simulation results, with a shortening rate of about 32.48%. These estimated values obtained from the model results are very close to the values calculated by means of the balanced cross section.  相似文献   

12.
The Kuqa and the Southern Junggar foreland thrust belts, which lie to the southern and northern Tianshan, respectively, were formed under a strong compressional tectonic setting. Due to the differential propagation and deformation under the control of the décollement horizon, the structural deformation styles differ in the Kuqa and Southern Junggar thrust belts. Imbricated stacking is developed in the Kuqa thrust belt, forming a piggyback imbricated pattern of faulted anticline and fault-block structural assemblage dominated by salt structures. In contrast, wedge-shaped thrusts are developed in Southern Junggar, mainly forming vertical laminated patterns of multi-wedge-structure stacks strongly influenced by the décollement horizons. The different deformation patterns and structural styles of the north and south of Tian Shan control the contrasting characteristics of hydrocarbon accumulation in the foreland thrust belts of the Kuqa and the Southern Junggar thrust belts, including the variance in the hydrocarbon trap types, pathway systems and hydrocarbon-bearing horizons. Proven by the hydrocarbon accumulation research and exploration achievements, recent exploration targets should focus on sub-salt piggyback imbricated structural patterns in the Kuqa and the deep laminated patterns in the Southern Junggar thrust belt.  相似文献   

13.
独山子背斜位于准噶尔盆地南缘西段,是北天山逆冲推覆带在前陆盆地山前形成的断层相关褶皱。本文以横跨背斜的过井地震剖面为蓝本,用钻井数据、相邻地震剖面和地表形态为约束,运用断层相关褶皱模型对独山子背斜进行几何学定量分析,以建立合理的与实际接近的构造模型; 提取构造特征参数进行基于Trishear模型的运动学定量模拟,选取与实际数据吻合度最高的构造形态为独山子背斜的最佳几何模型。模拟数据表明:独山子背斜为前翼呈三角剪切的断层传播褶皱; 背斜变形从喜马拉雅山晚期更新统(Q1-3)沉积期间开始形成并生长,平均推覆速率为0.18 mm/a; 全新统沉积期间(Q4)推覆活动强度达到最大值,平均推覆速率为 4.64 mm/a。形成独山子背斜所需的总推覆位移量为5 600 m左右,第四纪期间的平均推覆速率约为0.19 mm/a。  相似文献   

14.
北天山北缘构造剖面测量及多期构造变形   总被引:1,自引:0,他引:1  
天山北缘为典型的大陆内部活动构造特征,发育准噶尔盆地南缘逆冲带,主要表现为新生代时期形成的多排平行山体的背斜和逆冲断层。为了详细研究该区主要构造变形特征和变形形成时间,2005年我们对天山北缘进行了详细的地表地质剖面测量,之后进行了多年地表地质区域调查,落实了关键砾岩地层时代,充分结合卫星遥感影像资料、二维三维地震剖面和钻井测井资料,应用断层相关褶皱理论,完成了一条近SN向的长度50km的金钩河—安集海河构造地质大剖面。野外观察和地质测量以及生长地层和生长地层不整合分析表明,安集海深层背斜初始形成时间为中新世早期,在第四纪西域组(Q1x)、乌苏群(Q2)和第四纪中晚期(Q4)最终定型的浅表背斜,深层为断层转折褶皱和中浅层反冲的楔形构造叠加组合而成;霍尔果斯深层背斜初始形成时间为中新世晚期,在第四纪中晚期Q4最终定型,构造样式为深层断层转折褶皱、中深层楔形构造和浅层断层扩展背斜叠加组合而成。区域地质调查发现一条近东西走向285°,发育在中生界地层的准南走滑断层,该断层位于准南边界逆冲断裂以北,形成时间最晚(Q4)。根据准南安集海背斜、霍尔果斯背斜和准南边界逆冲断裂初始形成时间,可以认为准南构造初始逆冲次序为后展式,然后整个逆冲带从第四纪早期西域组晚期开始一直活动到现今。  相似文献   

15.
准噶尔盆地南缘褶皱-逆冲断层带分析   总被引:13,自引:0,他引:13  
讨论了与准噶尔盆地南缘褶皱-逆冲断层带有关的4个问题。(1)准噶尔盆地南缘褶皱-逆冲断层带具有纵向分带、横向分段和垂向构造分层的特征:纵向上由南至北可分为逆冲推覆构造带、基底卷入褶皱-冲断带和滑脱型褶皱-冲断带三个带;横向上,基底卷入褶皱-冲断带从西至东按横向调节带分为5个段,构造特征表现为反冲断层从不发育到向南反冲的位移逐渐增大、反冲断层所滑脱的层位亦逐渐加深;滑脱型褶皱-冲断带以红车断裂为界划分为西段和东段,西段构造运动弱,构造变形具双层结构;东段构造运动较强,发育大型冲向后陆的反向逆冲断层,构造变形多具有3层结构。(2)逆冲断层-褶皱类型按其形成机制分为基底卷入型冲断-褶皱、滑脱型冲断-褶皱以及基底卷入-滑脱混合型冲断-褶皱3大类,其中,基底卷入型冲断-褶皱的特征是褶皱作用发生在逆冲断裂之前,而滑脱型冲断-褶皱以冲断和褶皱同时或冲断层先于褶皱形成为特征。(3)本区存在横向和纵向传递带。横向调节带一般分布于基底卷入型褶皱-冲断带,主要为左旋走滑断层;纵向传递带分布于滑脱型褶皱-冲断带,以逆冲断层系斜列分布和位移纵向斜列传递为特征。(4)褶皱-冲断带形成的主控因素主要有:近南北向的水平挤压作用,上新世末—早更新世末和晚侏罗世末发生的构造变形以及古近系、下白垩统和下—中侏罗统发育的三套异常高压泥岩层相关的滑脱作用。  相似文献   

16.
准噶尔盆地南缘中生代正反转构造分析   总被引:2,自引:0,他引:2  
本文以地质露头、钻井和测井资料为约束,运用断层相关褶皱理论解释了新处理的准噶尔盆地南缘94条工业地震反射剖面,并通过数值模拟实验以及平衡剖面恢复技术,合理地再现了准噶尔盆地南缘第一排褶皱冲断带中生代构造演化的运动学过程。研究结果表明准噶尔盆地南缘中三叠世-中侏罗世为拉张环境,喀拉扎正断层、昌吉正断层发育,并控制中-上三叠统-中-下侏罗统沉积; 中-晚侏罗世转变为挤压环境,早期正断裂发生反转,同时控制第一排背斜带的齐古逆断裂开始发育,齐古背斜、昌吉背斜雏形形成; 上新世(N2)再次发生强烈挤压,齐古背斜、昌吉背斜和喀拉扎背斜最终定型。  相似文献   

17.
玛纳斯河是天山北麓最大的一条河流,流域内山前地貌对构造活动有明显的响应.根据野外调查和综合分析,结果表明天山北麓在南北向的挤压作用下,在山前依次形成了3排褶皱低山丘陵和第四排正在发育的西湖隆起.冲积扇也在历次构造运动中不断向北推进,呈串珠状发育.褶皱丘陵内阶地的也发生了拱曲变形.这些特征反映了自第四纪以来,天山北麓随着天山主体在不断抬升,并且持续地由南向北推挤,使山麓范围不断地向盆地方向扩张.  相似文献   

18.
The Abitibi belt is one of the largest and most extensively studied Late Archean greenstone belts. The structural geology of the Abitibi belt consists of one generation of upright to slightly overturned, doubly plunging first-order folds with half-wavelengths of 20–60 km, and E–W-striking, steeply dipping fault zones that are parallel to the fold limbs. Two of the main fault zones are continuous for hundreds of kilometers. Previous tectonic models for the Abitibi belt interpret the fault zones to have formed as extensional growth faults bounding a volcanic-sedimentary basin, which were reactivated as thrusts during subsequent crustal shortening. Other models propose that the fault zones represent tectonic sutures, implying that the Abitibi belt is a collage of exotic terranes. However, distinct geological terranes have not been geologically demonstrated. We propose a new detachment fold model for the deformational history of the southern Abitibi belt, in Ontario, that explains the formation of the fault zones during the single, well-documented folding event that deformed the entire region. The internal structure of the fault zones, documented here with emphasis on the Porcupine–Destor fault zone, consists of isoclinally folded, strongly schistose, highly metamorphosed rock, cross-cut by numerous fault segments. We interpret that the upper crust (greenstones) was folded above a proposed detachment in the lower part of the volcanic stratigraphy. The fault zones would be, in essence, highly evolved detachment anticlines. Ultramafic metavolcanic rock that crops out within the fault zones would represent material from the detachment horizon that was emplaced in the cores of the detachment anticlines. The numerous segments that make up the mapped fault zones would be linked faults that formed within the isoclinal detachment anticlines to accommodate folding of the rheologically complex greenstones. The detachment fold model is compared to the results of analogue experiments designed to investigate crustal-scale folding, using viscous and frictional materials. Detachment folds are produced in the brittle upper crustal analogue on the limbs of folds formed in the ductile middle and lower crust analogues. The experimentally produced structures scale to the structures in the study area and indicate the detachment fold model for the southern Abitibi is mechanically viable.  相似文献   

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