Tectonic Evolution of the Middle Frontal Area of the Longmen Mountain Thrust Belt,Western Sichuan Basin,China

By analyzing the balanced cross sections and subsidence history of the Longmen Mountain thrust belt, China, we concluded that it had experienced five tectonic stages: (1) the formation stage (T3x) of the miniature of Longmen Mountain, early Indosinian movement, and Anxian tectonic movement created the Longmen Mountain; (2) the stable tectonic stage (J1) where weaker tectonic movement resulted in the Longmen Mountain thrust belt being slightly uplifted and slightly subsiding the foreland basin; (3) the intense tectonic stage (J2-3), namely the early Yanshan movement; (4) continuous tectonic movement (K–E), namely the late Yanshan movement and early Himalayan movement; and (5) the formation of Longmen Mountain (N–Q), namely the late Himalayan movement. During those tectonic deformation stages, the Anxian movement and Himalayan movement played important roles in the Longmen Mountain’s formation. The Himalayan movement affected Longmen Mountain the most; the strata thrust intensively and were eroded severely. There are some klippes in the middle part of the Longmen Mountain thrust belt because a few nappes were pushed southeastward in later tectonic deformation.     

龙门山陆内复合造山带的四维结构构造特征

位于扬子陆块和松潘陆块过渡带上的龙门山造山带,是在印支期中国大陆主体拼合和秦岭造山带形成过程中开始发育、燕山期陆内构造活动中继承发展、喜马拉雅期印-亚碰撞和青藏高原隆升过程中遭受改造并定型的。现今构造面貌是扬子陆块向北漂移过程中产生的北西向推挤力、源自秦岭造山带的南北向推挤力和源自青藏高原的东西向推挤力三者联合作用的结果,因此是一个典型的陆内复合造山带。其陆内复合结构构造特征具有下列特点。 1）倾向上,龙门山造山带由茂县-汶川断裂、北川-映秀断裂、安县-灌县断裂和广元-大邑（隐伏）断裂4条主干断裂分隔显示出明显的分带变形特征,由北西向南东具有层次渐浅、强度递减、卷入层位变新的趋势,总体上呈前展式扩展。 2）走向上,龙门山造山带呈现北、中、南段三分格局,它们在基底性质及展布、地层发育及演化历史、变形特征、沉降与隆升特征、活动构造等多个方面具有差异。 3）垂向上,龙门山造山带发育多层次滑脱构造,最重要的滑脱界面是15～20 km深处的低速层和中下三叠统富膏盐岩层,由此控制了深浅构造不一致的变形幅度和变形样式。 4）时间演化上,龙门山造山带表现出倾向上的前展式扩展和走向上的分段式递进性或序次性演化的趋势：印支期,龙门山中北段活动较强,由北东向南西逐渐扩展,主要为挤压逆冲和左旋走滑作用; 燕山期,构造活动总体上趋于相对平静,具有南北分段、由北东向南西迁移的特征; 喜马拉雅山期,龙门山中南段活动较强,由南西向北东逐渐扩展和递进,主要为挤压逆冲、隆升和右旋走滑作用。     

龙门山地区关口断裂形成与演化分析

根据大量野外露头剖面资料与钻井数据,系统分析了关口断裂形成过程与演化特征。认为关口断裂在印支早、中期为张性大力构造背景下形成的同沉积正断层,在晚三叠世卡尼克期为生长性正断层;印支晚期构造事件中该断裂改变为逆冲断层。关口断裂活动性较强,其中在燕山晚期活动性最强。关口断裂在喜马拉雅期有多期次的、长时期的强烈活动;并且目前仍是一条活动性的断层。     

Differential Tectonic Deformation of the Longmen Mountain Thrust Belt,Western Sichuan Basin,China

Field investigation and seismic section explanation showed that the Longmen Mountain Thrust Belt has obvious differential deformation: zonation, segmentation and stratification. Zonation means that, from NW to NE, the Longmen Mountain Thrust Belt can be divided into the Songpan-Garzê Tectonic Belt, ductile deformation belt, base involved thrust belt, frontal fold-thrust belt, and foreland depression. Segmentation means that it can be divided into five segments from north to south: the northern segment, the Anxian Transfer Zone, the center segment, the Guanxian Transfer Zone and the southern segment. Stratification means that the detachment layers partition the structural styles in profile. The detachment layers in the Longmen Mountain Thrust Belt can be classified into three categories: the deep-level detachment layers, including the crust-mantle system detachment layer, intracrustal detachment layer, and Presinian system basal detachment layer; the middle-level detachment layers, including Cambrian-Ordovician detachment layer, Silurian detachment layer, etc.; and shallow-level detachment layers, including Upper Triassic Xujiahe Formation detachment layer and the Jurassic detachment layers. The multi-level detachment layers have a very important effect on the shaping and evolution of Longmen Mountain Thrust Belt.     

合肥盆地构造演化、差异变形及油气勘探前景

合肥盆地的发育经历了基底形成、坳陷、断陷及构造反转等阶段的演化,进一步可以划分为坳陷盆地发育期(早侏罗世—中侏罗世)、前陆盆地发育期(晚侏罗世)、走滑盆地发育期(早白垩世)、断陷盆地发育期(晚白垩世—古近纪)和盆地消亡期(新近纪—第四纪)等5个阶段。控制合肥盆地构造-沉积格局的关键构造变形期为:早燕山期、中燕山期、晚燕山期—早喜马拉雅期。合肥盆地差异构造变形特征十分明显,自南往北可以划分为3个构造带,即金寨—舒城逆冲—伸展叠合构造带、六安—肥西逆冲推覆-断陷叠合构造带、淮南—定远冲断-断陷叠合带。这种南北方向的构造分带性受NWW向展布的断裂带控制。笔者依据对盆地各构造形变区勘探潜力的分析,确立了淮南—定远冲断-断陷叠合带为Ⅰ类远景区,即最有利的构造形变区;六安—肥西逆冲推覆-断陷叠合带为Ⅱ类远景区,即有利构造形变区;金寨—舒城逆冲-伸展叠合构造带为Ⅲ类远景区,即较有利构造形变区。     

大巴山弧形构造带中段渔渡地区侏罗纪叠加变形研究

大巴山构造带是秦岭造山带南部发育的一个以逆冲推覆构造为特征的构造带。通过在大巴山弧形构造带中段渔渡地区进行的详细构造解析发现,大巴山构造带在侏罗纪以来经历了至少两期变形叠加,变形地层三叠系嘉陵江组—侏罗系沙溪庙组。早期变形以与滑脱构造相关的轴向北西—北北西向箱状或隔挡状褶皱为主,并在深部发育顺层滑脱构造,变形时代为晚侏罗世到早白垩世。晚期变形与北侧逆冲相关,导致右行走滑变形,主要形成右行走滑断层和北西—北北西向紧闭褶皱,变形时代比第一期稍晚,为晚侏罗世之后到早白垩世。两期变形形成的褶皱延伸方向一致,与区域构造线的方向协调,而且在远离北侧镇巴断裂的地区变形强度有减弱的趋势,两期变形叠加形成共轴或斜交叠加构造。研究表明,变形与大巴山冲断—推覆构造带向南逆冲有关。     

龙门山南段大邑地区断裂带活动多期性研究

四川省大邑地区地处龙门山南段,是有名的地震多发地区。文章基于现代构造地质学理论,通过地震解释及构造几何分析、断层相关褶皱原理与几何分析方法、运动学正演模拟方法,开展了对大邑地区断裂带活动多期性研究,结果表明大邑地区断裂带活动具有多期性的特点。自印支期以来主要经历了两期三次构造活动:印支晚期的低角度逆冲推覆过程,须家河组四段(T3x4)中上部形成生长地层;喜马拉雅期Ⅰ幕,隐伏断层再次活动,造成侏罗系与下伏三叠系的变形差异;喜马拉雅期Ⅱ幕,龙门山构造带区域应力场向前传递,大邑地区形成高角度逆冲断层,断层沿深部滑脱层在大邑地区向上逆冲直至地表,早期隐伏断层被错断,伴随次级断层、反冲断层产生。     

Himalayan Tectonic Evolution in the East Asian Peri-Pacific Region

This paper summarizes the Late Palaeozoic. Indosinian and Yanshanian palaeotectonic settings in theperi-Pacific region of East Asia. On that basis, the Himalayan crustal movement in the region is divided intothe early and late tectonic stages and two principal tectonic phases. From the ocean to the continent, 5 giganticHimalayan formation-deformation belts are distinguished; they are the Northwest Pacific trench-island arcbelt. the Northwest Pacific marginal sea basin bell. the East China Sea-northern South China Seacontinental-shelf down-faulted belt. the East Asian epicontinental rift belt. and the East Asian intracontinentalrift belt. The Early and Late Himalayan tectonic evolution is dealt with. Finally the state of the Himalayan re-gional stress field and its evoution in the region are discussed. It is considered that the mechanism of their for-mation is closely related to the continent-ocean and surface-deep earth interaction.     

塔里木盆地中南部麻扎塔格逆冲—褶皱带变形特征及其意义

麻扎塔格地区地层、地貌及构造变形特征的研究,对于认识塔里木盆地新生代构造演化过程、塔里木—西昆仑的盆山耦合关系、新构造运动对塔里木油气资源分布的影响以及塔克拉玛干沙漠的气候、环境变化都具有重要意义。本文通过卫星照片解译、野外变形观察、剖面实测、地球物理资料解释等手段,对该地区晚新生代的构造特征进行了研究,确定了麻扎塔格构造带为典型的逆冲—褶皱带,并探讨了麻扎塔格逆冲—褶皱带的构造指向、活动时限、隆升速率及缩短速率、东西方向的延伸等问题,取得如下认识:1)麻扎塔格逆冲—褶皱带为西昆仑山前陆褶皱冲断带的前缘部位,和田河气田就是处在逆冲前锋背斜顶部,晚新生代变形作用已明显地改造了塔里木盆地南部及中部的古生代和中生代构造,并促成了和田河气田的形成;2)麻扎塔格山在中新世末(约7 Ma)和中更新世(约780 ka B.P.)经历了两次构造隆升,后一次形成了麻扎塔格逆冲—褶皱带和麻扎塔格山现今的地貌特征;3)估算出麻扎塔格逆冲—褶皱带中更新世以来的隆升速率约为0.26～0.4 mm/a,缩短速率约为0.9 mm/a;4)认为麻扎塔格逆冲—褶皱带向西应与同属西昆仑山前褶皱—冲断带前缘的喀什背斜相连,东端的突然消失可能是由于东段和田河附近存在北东—南西向的走滑断层造成。     

龙门山前陆盆地形成与演化

本文将龙门山前陆盆地和龙门山冲断带作为一个地质整体进行了研究，并将构造地层学和层序地层学相结合的综合地层学的分析方法作为分析龙门山前陆盆地沉积的基础，以不整合面和其对应面将盆地充填序列分割为构造层序和层序，对应于不同成盆期和同一成盆期不同演化阶段，阐明龙门山前陆盆地充填序列和沉积体积三维空间配置形式及其在时间上的演化，初步建立了龙门山前陆盆地地层格架，进而研究龙门山冲断带逆部推覆作用对龙门山前陆盆     

江南断裂构造属性及成生环境初探

江南断裂作为江南隆起带北缘边界的区域性断裂,时空变形特点表现为前燕山期非造山性质的沉积相突变带和燕山期具造山性质的构造变形带。突变带内同生角砾岩仅具相带划分意义。构造变形带内江南断裂中浅层宏观总体表现逆冲断层;地质证据和ESR年龄证据表明断裂作用起始于燕山早期,持续至喜山早期;宏微观构造、包体测温和差异应力等综合研究显示断层总体处于脆性、低温、低差异应力构造变形环境。但江南断裂现今中浅层主要变形形迹和成生条件所表现的构造属性与空间断层性质不相对应,原因可能与中浅层构造变形样式、基底变形特征及区域应力作用特点有关。     

Structural Characteristics and Formation Mechanism in the Micangshan Foreland,South China

Lying at the junction of the Dabashan, Longmenshan and Qinling mountains, the Micangshan Orogenic Belt coupled with a basin is a duplex structure and back-thrust triangular belt with little horizontal displacement, small thrust faults and continuous sedimentary cover. On the basis of 3D seismic data, and through sedimentary and structural research, the Micangshan foreland can be divided into five subbelts, which from north to south are: basement thrust, frontal thrust, foreland depression-back-thrust triangle, foreland fold belt or anticline belt, and the Tongjiang Depression. Along the direction of strike from west to east, the arcuate structural belt of Micangshan can be divided into west, middle and east segments. During the collision between the Qinling and Yangtze plates, the Micangshan Orogenic Belt was subjected to the interaction of three rigid terranes: Bikou, Foping, and Fenghuangshan (a.k.a. Ziyang) terranes. The collision processes of rigid terranes controlled the structural development of the Micangshan foreland, which are: (a) the former collision between the Micangshan-Hannan and Bikou terranes forming the earlier rudiments of the structure; and (b) the later collision forming the main body of the structural belt. The formation processes of the Micangshan Orogenic Belt can be divided into four stages: (1) in the early stage of the Indosinian movement, the Micangshan-Hannan Rigid Terrane was jointed to the Qinling Plate by the clockwise subduction of the Yangtze Plate toward the Qinling Plate; (2) since the late Triassic, the earlier rudiments of the Tongnanba and Jiulongshan anticlines and corresponding syncline were formed by compression from different directions of the Bikou, Foping and Micangshan-Hannan terranes; (3) in the early stage of the Himalayan movement, the Micangshan-Hannan Terrane formed the Micangshan Nappe torwards the foreland basin and the compression stresses were mainly concentrated along both its flanks, whereas the Micangshan-Hannan Terrane wedged into the Qinling Orogenic Belt with force; (4) in the late stage of the Himalayan movement, the main collision of the Qinling Plate made the old basement rocks of the terrane uplift quickly, to form the Micangshan Orogenic Belt. The Micangshan foreland arcuate structure was formed due to the non-homogeneity of terrane movement.     

山西沁水盆地东缘太行大断裂构造变形特征及其成因探讨

太行大断裂是山西沁水盆地与太行山隆起的分界,也是华北克拉通内部重要的构造变形带。通过对断层破碎带、断层相关褶皱及共轭节理的野外详细测量,研究了太行大断裂的构造变形特征,探讨其形成的古构造应力场。研究认为,太行大断裂可能经历了3期构造应力作用:(1)印支期在华南、华北板块碰撞的远程效应作用下表现出近N—S向挤压构造应力场。(2)燕山期表现为E—W向至NWW—SEE向挤压构造应力场。(3)喜马拉雅期由NWW—SEE向挤压转换为NE—SW向挤压(或NW—SE向伸展)。太行大断裂由北至南可分为:(1)北段,由3条呈右阶斜列的大型逆断层组成,基岩出露,以逆冲推覆为主。(2)中段,地表出露斜歪褶皱和逆冲断层组合。(3)南段,发育强烈的挤压破碎带,该带中广泛发育构造角砾岩和构造透镜体,构造挤压带内的构造透镜体陡立,显示近水平方向的挤压。     

龙门山北段宝珠寺飞来峰的特征及形成演化

龙门山飞来峰主要有挤压推覆和重力滑覆两种形成观点,飞来峰的成因对龙门山的构造演化具有重要意义。通过对其北段宝珠寺飞来峰野外实地考察及其构造变形特征的研究,得出该飞来峰主体为向斜构造,具有多层结构,由北西—南东向逆冲推覆形成,为推覆说提供了有力的证据;并且该区域构造具有典型的后展式逆冲推覆构造,区别于整个龙门山前展式推覆构造模式。     

内蒙古大青山地区中生代造山运动及构造演化

大青山地区是燕山—阴山板内造山带西段的重要组成部分 ,区内主体的构造格局和构造样式是由中生代地壳多期、多阶段构造变形的结果。印支期地壳以南北向挤压作用为主 ,是一次强烈褶皱造山运动 ,并伴随有强烈的岩浆活动。燕山早期阶段地壳仍然以挤压变形为主 ,形成了大青山逆冲推覆体系 ,同时控制了前缘断陷盆地沉积和演化。燕山中期由于区域构造背景的转变和重力作用 ,区域内发生了向南的伸展变形作用 ,形成了早白垩纪呼包盆地。燕山晚期地壳以挤压逆冲变形为主 ,不仅形成了楔冲式推覆构造 ,也使上白垩统与下白垩统为角度不整合接触。     

Structural Characteristics and Formation Mechanism in the Micangshan Foreland,South China

Lying at the junction of the Dabashan,Longmenshan and Qinling mountains,the Micangshan Orogenic Belt coupled with a basin is a duplex structure and back-thrust triangular belt with little horizontal displacement,small thrust faults and continuous sedimentary cover.On the basis of 3D seismic data,and through sedimentary and structural research,the Micangshan foreland can be divided into five subbelts,which from north to south are:basement thrust,frontal thrust,foreland depression-back-thrust triangle,fore...     

塔里木盆地多期改造-晚期定型复合构造与油气战略选区

受关键构造变革期制约,叠合盆地具有分期差异变形特征。从变形角度分析,塔里木盆地可以追溯出5期主要的构造改造作用,即加里东中期、加里东晚期-海西早期、海西晚期、印支-燕山期和喜马拉雅期,并影响塔里木盆地的发展演化历史。通过对塔北、塔中和库车已知油气聚集区解剖表明:古生代多期改造形成的断裂、褶皱、隆升、剥蚀和岩溶作用,对台盆区巨型海相碳酸盐岩古岩溶油气藏的形成具有重要的控制作用;中、新生代多期改造过程,对前陆褶皱-冲断带大规模油气聚集成藏具有重要的控制作用;这些已知油气聚集区带都是在喜马拉雅晚期最终定型的,总体构成多期改造-晚期定型复合构造油气聚集模式。综合分析了塔里木新区分期差异构造变形特征,在此基础上,依据叠合盆地多期改造-晚期定型构造模式,对塔里木新区进行了区块评价和油气战略选区,认为巴楚隆起、麦盖提斜坡和西昆仑山前褶皱-冲断带是近期油气勘探突破的首选地区,塔东地区、塘古巴斯坳陷和阿瓦提断陷具有良好的油气勘探前景。     

华南及邻区有序变形及其动力学初探

龙门山断裂带以东、江南雪峰隆起带以西的华南地区，在断裂、褶皱变形等构造形迹上存在非常规律的有序性。其构造形迹（断裂、褶皱等）大都沿NE－NNE排列，并且变形强度从SE向NW逐渐减弱。这种有序变形规模巨大，仅川东的隔挡式褶皱－冲断带规模就超过了著名的侏罗山式褶皱。这种变形的有序性是与基底存在多层次的倾向SE的拆离滑脱面密切相关的，它们起始于印支－早燕山期，定型于晚燕山－喜马拉雅期，其形成动力来自于华南板块向NW方向的运动。     

龙门山断裂带印支期左旋走滑运动及其大地构造成因

位于青藏高原东缘的龙门山构造呈北东—南西向将松潘—甘孜褶皱带和华南地块分割开。前者主要是由一套巨厚的三叠纪复理石沉积组成 ,分布在古特提斯海的东缘。后者由前寒武纪基底和上覆的古生代和中生代沉积盖层组成。位于汶川—茂汶断裂以东的前龙门山存在一系列倾向北西的逆掩断层 ,它们将许多由元古宙和古生代岩层组成的断片向南东置于四川盆地的中生代红层之上 ,构成典型的薄皮构造。许多研究由此断定松潘—甘孜褶皱带和四川盆地之间在中生代发生过大规模的北西—南东向挤压。然而 ,汶川—茂汶断裂西侧的松潘—甘孜褶皱带内部的挤压构造线大多是垂直于而不是平形于龙门山断裂带 ,这表明当时的挤压应力不是北西—南东向而是北东—南西向。近年来在龙门山构造带内发现 ,在三叠纪时龙门山断裂带在发生推覆的同时还经历过大规模的北东—南西向的左旋走滑运动 ,协调走滑运动的主要构造为汶川—茂汶断裂。走滑运动的成因与松潘—甘孜褶皱带北东—南西向缩短有关。汶川—茂汶断裂的左旋走滑在龙门山的北东端被古特提斯海沿勉略俯冲带的消减和发生在大巴山的古生代 /中生代岩层的褶皱和冲断作用所吸收 ,在龙门山的南西端被古特提斯海沿甘孜—理塘俯冲带的消减和松潘—甘孜三叠纪复理石的褶皱和冲断作用所吸?     

龙门山南段构造变形及应力序列

2008年5月12日的汶川大地震表明龙门山断裂带仍然是一个构造活动带,为达到防震减灾的目的,对龙门山进行深入研究显得非常必要。作者通过龙门山南段的怀远和雅安两条实测构造地质剖面,应用传统的构造解析法,结合构造带的分带讨论思想,对野外实测的褶皱、节理和断层等构造变形要素进行综合分析,确定出各构造带的变形和应力序列。中央断裂带构造变形次数达10次以上,其中以NW-SE向逆冲最多,部分为左旋逆冲或右旋逆冲。滑覆体构造变形序列达5次左右。前山断裂带的构造变形序列较少,约5次以上。