西藏札达盆地构造与沉积特征

札达盆地位于青藏高原南西部,是发育于喜马拉雅山内部的盆地。盆地北东侧以阿依拉日居断裂为边界,该断裂属逆冲性质。西北边界为曲松断裂,为一拆离断层。盆地西南主边界为藏南拆离系（STDS）,是盆地主控构造。盆地内部沉积了巨厚的第三纪地层,可以分为上下2个部分,即上部的湖相沉积和下部的河湖交互相沉积。湖相沉积是以泥岩为主的巨厚沉积;河湖交互相沉积以砾岩层的出现为标志,可分为3个沉积旋回。札达盆地的主控构造为伸展构造,但同时经受了垂直于造山带的挤压作用。     

Structures, kinematics, thermochronology and tectonic evolution of the Ramba gneiss dome in the northern Himalaya

The Ramba gneiss dome, one of the north Himalayan gneiss domes, is composed of three tectono-lithologic units separated by an upper and a lower detachment fault. Low-grade metamorphic Tethyan Himalayan sedimentary sequence formed the upper unit above the brittle upper detachment fault. Mylonitic gneiss and a leucogranite pluton made up the lower unit beneath the ductile lower detachment fault. Mylonitic middle-grade garnet-, staurolite- and andalusite-schist constituted the middle unit between the two faults, which may be that the basal part of the upper unit experienced detachment shear. The Ramba dome underwent three episodes of deformation in its tectonic evolution. The first episode was a top-down-to-north-northwest sliding possibly related to the activity of the south Tibetan detachment system （STDS）. The second episode was the dominant deformation related to a east west extension, which resulted in a unique top-down-to-east kinematics and the major tectonic features of the dome. The third episode was a collapse sliding toward the outsides of the dome. The Ramba gneiss dome is possibly a result of the east-west extension and magmatic diapir. The lower detachment fault is probably the main detachment fault separating the sedimentary sequence from the crystalline basement during the eas-west extension in the dominant deformation episode. The diapir of the leucogranite pluton formed the doming shape of the Ramba gneiss dome. This pluton intruded in the core of the dome in a late stage of the dominant deformation, and its Ar-Ar cooling ages are about 6 Myr. This indicates that the dominant deformation of the dome happened at the same time of the east west extension represented by the nort-south trending rifts throughout the northern Himalaya and southern Tibet. Therefore, the formation of the Ramba gneiss dome should be related to this east west extension.     

青藏高原新生代构造研究最新进展和构造发展的阶段性

从逆冲推覆构造、走滑构造、伸展构造3个方面对喜马拉雅-青藏高原造山带内的新生代(印度-亚洲大陆碰撞之后)构造最新进展进行了总结和分析.基于这些资料,提出青藏高原内部变形的3个阶段:始新世(50~33 Ma),青藏地区总体呈刚性,变形集中在造山带的南北周缘;渐新世-中新世初(33~22 Ma),高原中西部以逆冲断层形式的散布式挤压变形,以东部大型走滑断层为边界的块体挤出与块体旋转3种变形方式共存;中新世初至今(22~0 Ma),高原块体的强度进一步变弱,以遍及高原整体的连续散布变形为主,出现共轭走滑断层与伸展构造.认为南北走向的地堑(正断层)是同样处于东西伸展应力体系下的藏中共轭走滑断层向造山带南北延伸扩展的产物.此外,还对造山带内会聚量的调节方式进行了定量的分析和估算.     

Middle-Miocene transformation of tectonic regime in the Himalayan orogen

Understanding the multiple tectonic transformations during the Himalayan orogeny is significant in evaluating the evolution of Himalayan orogen.In the Gyirong area in south Tibet,deformed leucogranitic veins in the biotite-plagioclase gneisses of Greater Himalayan crystalline complex(GHC) constitute south-vergent asymmetric folds.The reconstruction of the veins shows that they experienced two generations of deformation under different tectonic regimes:an earlier top-to-north extension and a later top-to-south thrusting,implying a tectonic transformation from N-S extension to N-S shortening.Zircons LA-ICP-MS U-Pb dating of the leucogranite shows that it was emplaced during 21.03-18.7 Ma.The data suggest that the tectonic transformation occurred after 18.7 Ma.The chronological data of South Tibet detachment system(STDS) and North-South trending rift(NSTR) from Gyirong and other areas indicate that the Himalayan orogeny was in a period of tectonic transformation from N-S extension to N-S shortening during 19-13 Ma.The transformation of tectonic regime was probably controlled by the India-Asia convergence rate.An increase in the convergence rate resulted in N-S shortening of the orogen,thrusting and folding,with coeval formation of the NSTR in Tibet.A decrease in the convergence rate led to N-S extension and reactivation of the STDS.     

辽南变质核杂岩韧性拆离带的变形特征、应变与运动学涡度分析

辽南变质核杂岩西侧为一NNE 走向、NWW 倾向的低角度拆离断层带, 其中韧性剪切带由位于拆离断层带下部的糜棱岩组成, 糜棱岩中所有运动学指向标志都指示上盘向NWW 方向的伸展拆离。基于长石的R_f /φ 有限应变法, 对该糜棱岩进行测量, 结果显示糜棱岩的应变强度(E_s)介于0.36~1.0 之间, 平均0.75。付林图解与霍塞克图解显示应变类型为压扁型(罗德参数υ=0.11~0.98)。使用极摩尔圆法与有限应变法测量糜棱岩面理与线理形成时的运动学涡度, 其值介于0.74~0.96 之间, 平均0.85。使用C′法获得的伸展褶劈理C′形成时的运动学涡度介于0.10~0.84 之间, 平均0.58。依据运动学涡度、有限应变及拆离带的真实厚度, 计算获得拆离带的韧性减薄量为130~705 m。综合以上结论, 辽南变质核杂岩剪切变形机制是以糜棱岩面理与线理发育为代表的早期单剪为主的一般剪切以及以伸展褶劈理发育为代表的晚期纯剪为主的一般剪切。     

Microstructural and deformational studies on mylonite in the detachment faults of Yalashangbo dome, North Himalayan domes zone

The Yalashangbo dome, located at the eastern end of North Himalayan domes zone, has a geometry and structure similar to those of a metamorphic core complex. Ductile shear zones formed the detachment system around the dome and these zones are composed of garnet-bearing phyllonite, mylonitic schist, mylonitic gneiss and mylonitic granite. Ductile shear fabrics developed well in mylonitic rocks, and penetrative lineation and foliation were formed by stretched quartz and feldspar and preferred orientation of mica. Polar Mohr diagram method is used to calculate the kinematic vorticity numbers of the shear zones in the detachment system. Results indicate that the shear zone is a thinned shear zone (thinning of 23%) in an extensional setting which underwent a general shear dominated by simple shear. Comparison of the vorticity numbers between the northern and southern flanks of the Yalashangbo dome shows that the dome is an asymmetric system formed by a north-northwest-directed detaching unanimously. Statistical fractal analysis shows that the shapes of dynamically recrystallized quartz grains in the mylonites have characteristics of self-similarity, with fractal numbers ranging from 1.05 to 1.18. From these fractal numbers, the strain rate of the rock was deduced from 10^-9.2 S^-1 to 10^-7.3 S^-1, the differential paleao-stress was 13.7-25.6 MPa during the deformation happened at a temperature over 500 ℃. The ductile shear zones in the detachment system around Yalashangbo dome were formed under a high green-schist grade condition or happened simultaneously with the intrusion of granite.     

Ductile deformation within Upper Himalaya Crystalline Sequence and geological implications, in Nyalam area, Southern Tibet

The South Tibet Detachment System(STDS) is a flat normal fault that separates the Upper Himalaya Crystalline Sequence(UHCS) below from the Tethyan Sedimentary Sequence(TSS) above.Timing of deformations related to the STDS is critical to understand the mechanism and evolution of the Himalaya collision zone.The Nyalam detachment(ND)(～86°E) locates in the middle portion of STDS(81°-89°E).Dating of deformed leucocratic dykes that are most probably syntectonic at different depth beneath the ND,allow us to constrain the timing of deformation.(1) Dyke T11N37 located ～3500 m structurally below the ND emplaced at 27.4± 0.2 Ma;(2) Dyke T11N32 located ～1400 m structurally below the ND emplaced at 22.0±0.3 Ma;(3) T11N25 located within the top to the north STD shear zone,～150 m structurally below the ND,emplaced at 17.1±0.2 Ma.Combining ND footwall cooling history and T11N25 deformation temperature,we indicate a probable onset of top to the north deformation at ～16 Ma at this location.These results show an upward younging of the probable timing of onset of the deformation at different structural distance below the ND.We then propose a new model for deformation migration below the ND with deformation starting by pure shear deformation at depth prior to ～27.5 Ma that migrates upward at a rate of ～ 0.3 mm/a until ～18 Ma when deformation switches to top to the north shearing in the South Tibet Detachment shear zone(STDsz).As deformation on the ND stops at 14-13 Ma this would imply that significant top to the North motion would be limited to less than 5 Ma and would jeopardize the importance of lower channel flow.     

Post-collisional extensional and thrust-nappe structures in northern part of Dabie Mountains

Thrust-nappe structures and extensional structures simultaneonsly occur in the northern part of the Dabie Mountains. The systematic structural study reveals that extensional structures along the Mozitan-Xiaotian fault and thrust-nappe structures that take the Jinzhai-Shucheng fault as their frontal thrust share the same shear sense, and display a transitional relationship from the ductile extensional structure of deep level in the south to the ductile-brittle and brittle thrust-nappe structure of shallow level in the north. The extensional and thrnst-nappe structures in the region are explained to result from post-collisional processes by the continuous subduction of the Yangtze continental block and the extension induced by the uplifting of the core part of the Dabie Mountains, which are components of the exteasional structures produced in the exhumation process of the ultrahigh pressure metamorphic rocks in the Dabie Mountains. Because of the frontal blocking in the process of the north-westward spreading, the extension and detachment of the low-grade metamorphic rocks along the Mozitan-Xiaotian fault was transformed into the northwestward thrustiag, resulting in the thrust-nappe structures. They developed in the period of 200-170 Ma, maybe last till the late Jurassic.     

转换断层及其地质意义——以阿尔金转换断层为例

转换断层按其“平移”段运动方向分为左旋与右旋 ;按其“平移”段两终端与之高角度相交的构造性质组合进一步分为伸展正断“调节”型转换断层、挤压褶皱 -冲断“调节”型转换断层及复合型转换断层。新生代以来 ,阿尔金断裂是“调节”青藏高原北缘西昆仑、祁连造山带挤压变形的构造 ,为新生代左旋挤压型转换断层。     

40Ar-39Ar ages of the Louzidian-Dachengzi ductile shear zone near Chifeng, Inner Mongolia and their tectonic significance

The Louzidian normal fault occurs as the eastern detachment fault of the Kalaqin metamorphic core complex. Field observations and microstructural analyses reveal that the Louzidian-Dachengzi ductile shear zone developed in its lower-plate was genetically related to sinistral strike-slips and extensional faulting. Two samples from this ductile shear zone yield ⁴⁰Ar-³⁹Ar plateau ages of 133 Ma (Bi) and 126 Ma (Kp), which are concordant with their isochron ages. The plateau age of 133 Ma (Bi) records the formation age of the ductile shear zone. The inconsistent relationship between the earlier strike-slip ductile shear zone and the later normal fault makes the Kalaqin Quasi-metamorphic core complex distinctive from Cordilleran metamorphic core complex. These ages provide important geochronological data for putting constraints on the formation age and genesis of such ductile shear zones.     

40Ar-39Ar ages of the Louzidian-Dachengzi ductile shear zone near Chifeng,Inner Mongolia and their tectonic significance

The Louzidian normal fault occurs as the eastern detachment fault of the Kalaqin metamorphic core complex. Field observations and microstructural analyses reveal that the Louzidian-Dachengzi ductile shear zone developed in its lower-plate was genetically related to sinistral strike-slips and extensional faulting. Two samples from this ductile shear zone yield 40Ar-39Ar plateau ages of 133 Ma (Bi) and 126 Ma (Kp), which are concordant with their isochron ages. The plateau age of 133 Ma (Bi) records the formation age of the ductile shear zone. The inconsistent relationship between the earlier strike-slip ductile shear zone and the later normal fault makes the Kalaqin Quasi-metamorphic core complex distinctive from Cordilleran metamorphic core complex. These ages provide important geochronological data for putting constraints on the formation age and genesis of such ductile shear zones.     

新疆若羌县赤石山变质核杂岩研究

新疆北山裂谷带西缘若羌县赤石山地区存在大型变质核杂岩构造。其下拆离盘为古元古界结晶基底杂岩 ,上拆离盘为中元古界白湖群变质岩系 ,滑脱拆离带为已变形的大型韧性正断层。核杂岩南、北侧发育上叠盆地 ,北侧形成“年轻”正断层及同构造期岩浆岩。变质核杂岩的形成与晚古生代北山陆内裂谷区域伸展有直接联系。该区变质核杂岩的首次厘定 ,对深化北山裂谷的研究具有重要意义     

郯庐断裂带早白垩世岩浆活动与断裂带的活动关系

文章通过收集晚中生代时期郯庐断裂带中南段出露的糜棱岩、火山岩和侵入岩样品的同位素年代学数据,结合区域构造应力场、断陷盆地和伸展活动时间等多方面的证据,显示了早白垩世初郯庐断裂带再次发生左行平移,之后迅速转为伸展运动,并伴随发生了大规模的岩浆岩喷发事件.与华北克拉通内部相比,断裂带内具有相对较长的演化历史和减薄程度,暗示了郯庐断裂带有着比克拉通内部更加强烈的伸展运动,为岩石圈的强烈减薄及大规模岩浆活动的发生提供了有利的条件.     

Mesozoic thrusts and extensional structures in the Daqingshan orogen, Inner Mongolia, and their temporal and spatial relationship

Three large-scale thrusts developed in the Daqingshan orogen, Inner Mongolia, with a northeast-east trending from Louhuashan to Suletu are described in this paper. These northwest-directed thrusts, together with the four tectonic belts (or tectonic sheets) separated by these faults, formed a typical thrusting system. The originally defined Hohhot metamorphic core complex may be a tectonic sheet, making the uppermost tectonic unit of the thrusting system and truncated by the Daqingshan detachment fault on top. The existing tectono-chronological studies showed that the thrusting of this region possibly happened at the same time as the extension along the top detachment fault. This presents that the contraction and extension in Daqingshan orogen were probably simultaneous. The structural pattern of the Daqingshan orogen can be correlated to the Himalayan orogen, and models for simultaneous thrusting and detachment in Himalaya may give a hint for explaining the development of the Daqingshan orogen.     

Mesozoic thrusts and extensional structures in the Daqingshan orogen, Inner Mongolia, and their temporal and spatial relationship

Three large-scale thrusts developed in the Daqingshan orogen, Inner Mongolia, with a northeast-east trending from Louhuashan to Suletu are described in this paper. These northwest-directed thrusts, together with the four tectonic belts (or tectonic sheets) separated by these faults, formed a typical thrusting system. The originally defined Hohhot metamorphic core complex may be a tectonic sheet, making the uppermost tectonic unit of the thrusting system and truncated by the Daqingshan detachment fault on top. The existing tectono-chronological studies showed that the thrusting of this region possibly happened at the same time as the extension along the top detachment fault. This presents that the contraction and extension in Daqingshan orogen were probably simultaneous. The structural pattern of the Daqingshan orogen can be correlated to the Himalayan orogen, and models for simultaneous thrusting and detachment in Himalaya may give a hint for explaining the development of the Daqingshan orogen.     

Structures of mylonitic granites of the Yagan metamorphic core complex on Sino-Mongolian border??implications for its kinematics and chronology

The mylonitic granitic plutons are extended in line-shape (L) and parallel to the regional extensional shear foliation. After being unstrained, the primary shapes of these plutons are also nearly sheet-like (S). Their fabrics are of S-L or L type. Various kinds of shear marks indicate top-to-south shear. The plutons of various stages are different in deformation intensity; however, the foliation and lineation of these rocks have the same shear sense, which suggests progressive ductile shearing. The development mechanisms of the fabrics include magmatic flow, high-temperature solidstate flow and mid-low temperature solid-state flow. All this demonstrates that these plutons are probably early synextensional tectonic plutons. Their structural features and ages suggest that the low- and mid-crustal extensional detachments might have occurred at the early stage of the development of the metamorphic core complex in the early Mesozoic. These deformations are much deeper at levels and much older than those formed at the final formation stage.     

珠江口盆地阳江东凹新生代岩浆活动特征与期次

根据阳江东凹邻区的录井及岩矿等资料,通过对阳江东凹的地震反射、地层关系及地层厚度等特征的分析,系统划分阳江东凹新生代的岩浆岩体类型及期次,并探讨其岩浆活动与南海区域构造运动的耦合关系。研究表明,阳江东凹新生代岩浆岩体分为侵入岩体与火山岩体两种类型,前者主要分布在东部洼陷内,后者主要发育于南部洼陷边部及周缘隆起区;岩浆活动可划分为文昌期、恩平期及珠江-粤海期,并受区域构造运动制约。珠琼运动两幕裂陷控制文昌期、恩平期的岩浆侵入活动,而裂陷后期的白云运动和东沙运动则控制盆地NWW向的断裂活动,从而影响珠江-粤海期的火山喷发活动。     

郯庐断裂带张八岭隆起北段晚中生代岩体的成因

郯庐断裂带张八岭隆起北段分布着一些晚中生代岩体,其侵位时间在120~128 Ma之间,稍晚于同期华北克拉通内江苏徐州和安徽宿州地区(简称徐宿地区)。文章通过对上述两地区的地球化学特征的对比研究,认为张八岭隆起北段岩体的岩浆来源可能是壳-幔岩浆混合形成的,并可能经历了一定的岩浆分异作用;而徐宿地区岩浆可能与深部地壳物质的部分熔融有关。上述结果表明,张八岭隆起北段岩浆来源深度较华北克拉通内部徐宿地区深,断裂带内具有较强的伸展活动及岩石圈减薄程度。分析认为,断裂带的存在和活动在岩石圈减薄过程中具有诱发和促进作用。     

东营凹陷辛镇构造带构造变形的物理模拟研究

东营凹陷辛镇构造带底辟动力机制及"负花状"断裂形成的主控因素一直存有争议。通过地震资料精细构造解析,结合地层组合特征,设计含塑性层构造物理模拟实验,开展辛镇构造带构造沉积演化研究。根据构造带的地质特征及构造物理模拟结果,分析其深部底辟构造的动力机制,探讨伸展构造背景下塑性层的变形特征及其与上覆岩层的相互作用。取得了以下主要认识:(1)在盆地伸展构造背景下,坡坪式基底断层活动导致上盘岩层的地势起伏,后期同构造沉积产生的差异沉降诱发底辟发育;(2)辛镇构造带"负花状"断裂是底辟和区域伸展共同作用的结果,塑性层为断裂发育提供了良好的滑脱条件。     

方正断陷多期构造叠合构造解析及模式分析

为了理清方正断陷多期构造叠合引起的盆地变形,断陷内部构造样式多样及构造解析存在多解性的问题,通过对地震资料的重新梳理、区域构造特征及郯庐断裂演化的分析,结合伸展、走滑拉分、走滑挤压以及后期抬升剥蚀等多期构造叠加对方正断陷的影响,对构造解析提出了新的认识和方法,并建立了方正断陷伸展-走滑-挤压三维应力模式。研究认为断陷西部改造程度弱,继承了断陷初期白垩系盆地的伸展模式,断陷东部后期挤压推覆改造强度大,伸展模式已不适用,必须考虑逆冲推覆构造的影响,断陷中部发育的伊汉通断裂走滑特征明显,花状构造发育,以伊汉通断裂为界断陷东西两侧表现为不对称差异走滑断陷特征,伊汉通断裂两侧应用走滑模式解析,因此,对于多构造叠合断陷盆地不能单纯地用伸展模式来解析,更应考虑后期的改造模式,在此基础上形成了一套复杂断陷盆地构造解析方法。