Lithospheric Electrical Structure across the Eastern Segment of the Altyn Tagh Fault on the Northern Margin of the Tibetan Plateau

Project INDEPTH （InterNational DEep Profiling of Tibet and the Himalaya） is an interdisciplinary program designed to develop a better understanding of deep structures and mechanics of the Tibetan Plateau. As a component of magnetoteUuric （MT） work in the 4th phase of the project, MT data were collected along a profile that crosses the eastern segment of the Altyn Tagh fault on the northern margin of the plateau. Time series data processing used robust algorithms to give high quality responses. Dimensionality analysis showed that 2D approach is only valid for the northern section of the profile. Consequently, 2D inversions were only conducted for the northern section, and 3D inversions were conducted on MT data from the whole profile. From the 2D inversion model, the eastern segment of the Altyn Tagh fault only appears as a crustal structure, which suggests accommodation of strike slip motion along the Altyn Tagh fault by thrusting within the Qilian block. A large-scale off-proffie conductor within the mid-lower crust of the Qilian block was revealed from the 3D inversion model, which is probably correlated with the North Qaidam thrust belt. Furthermore, the unconnected conductors from the 3D inversion model indicate that deformations in the study area are generally localized.

Seismogenic Capability of the Northeastern Segment of the Longmenshan Thrust Zone and its Tectonic Role at the Eastern Tibetan Plateau

Objective The occurrence of the devastating Wenchuan earthquake not only caused huge economic loss and deaths but also raised a question whether or not it would trigger any destructive earthquakes on its neighboring segments in the Longmenshan Thrust Zone （LTZ） in the future.

A Seismotectonic Zonation Map of Eastern Siberia: New Principles and Methods of Mapping

The paper reviews goals and objectives, stages and components of a seismotectonic study conducted in Eastern Siberia, Russia. Based on a comprehensive analysis of geological and geophysical data, our study establishes whether the local earthquakes are of tectonic origin and reveals relationships among earthquakes with recent geodynamic processes in the area under study. Seismic hazard assessment and evaluation of tectonic processes are the two major closely interrelated aspects of seismotectonic studies. A seismotectonic study is generally combined with a seismic study and conducted prior to the stage of detailed seismic zonation (DSZ) which is followed by seismic micro-zonation (SMZ). In three stages of the seismotectonic study, we analyze specific geological structures, reveal the regional dynamics of seismotectonic processes, clarify details of potential seismic hazard locations and identify sites of the potential instantaneous deformation of the crust which may take place due to active faulting. Based on results of our longterm studies, a seismotectonic zonation map of Eastern Siberia is compiled. The paper briefly reviews the methods of mapping and refers to data on active faults and neotectonic structures revealed in the area under study, which are closely related to regional earthquake sources.

Geochemical characteristics of the metapelites from the Xingxingxia group in the Eastern Segment of the Central Tianshan:Implications for the provenance and paleoweathering

Metapelites from the Mesoproterozoic Xingxingxia group in the Eastern Segment of the Central Tianshan,Northwestern China,were analyzed for major and trace elements,includ-ing rare earth elements.Compared with post-Archean shales,the metapelites are enriched in Sr,Hf and Zr.The other elements are similar to the compositions of the Phanerozoic North American Shale Composite and the Post-Archean Australian average Shale(PAAS).The characteristics of Al_(2)O_(3)/TiO_(2),Cr/Zr,Cr/Th,Th/Sc and high Zr concentration suggest that these pelites could be derived from a significant proportion of felsic and a few proportion of participation of mafic mate-rials in nature.These rocks display highly fractionated REE patterns,and average(La/Yb)_(n)=18.6.Several samples have slightly negative Eu anomalies(Eu/Eu^(*)=0.7―0.84)in comparison with PAAS(Eu/Eu^(*)=0.65),indicating contribution from young immature materials.The low K_(2)O/Al_(2)O_(3) values of these metapelites suggest that their source materials could contain minimal alkali feldspar.In the A-CN-K triangular diagram,the sample data array intersects the feldspar join,indicating that the source had a plagioclase:K-feldspar ratio of approximately 5:1,repre-senting weathered products from components that could approximately correspond to granodio-rites and tonalites.The low Chemical Index of Alteration(CIA)and high Index of Compositional Variability(ICV)values suggest low degrees of weathering of the source and low compositional maturity of the sediments,respectively.The geochemical characteristics of the metapelites from the Xingxingxia group also demonstrate that these sediments were deposited in a back-arc background within a continental-arc system.

喜马拉雅造山带北缘大反转逆冲断层(GCT)东段的活动时限及构造演化

喜马拉雅造山带北缘的大反转逆冲断层（GCT）位于印度-亚洲的碰撞边界，平行雅鲁藏布江缝合带展布，向北逆冲使特提斯喜马拉雅地体向北叠覆在冈底斯地体之上。大反转逆冲断裂制约了中新世Kailas式系列磨拉石盆地（Kailas、秋乌、大竹曲、罗布莎以及朗县）的发育，自西向东磨拉石盆地中砾石变形逐渐增强。本文通过GCT东段“罗布莎-郎县砾岩”的研究，获得罗布莎-朗县变形砾岩中的碎屑锆石的沉积上限年龄为早渐新世（28．7～29．1Ma）。罗布莎-郎县砾岩具有基质糜棱岩化、发育地震化石假熔岩和向北剪切指向的特征，表明其经历了受GCT断裂控制的砾岩盆地在浅部形成、插入10-15km深部并受地震影响形成假熔岩，然后折返到地表的过程。

Characteristics of strong earthquake evolution around the eastern boundary faults of the Sichuan-Yunnan rhombic block

Based on the existing materials of fault segmentation,characteristic earthquakes,and their empirical relationships,we calculated the parameters of the fault segments,such as length,width,magnitudes of characteristic earthquakes,etc.Constrained by GPS velocity field,the slip rates of these fault segments in depth were inversed using the 3-D half-space elastic dislocation model.As not all of the recurrence periods and co-seismic displacements of characteristic earthquakes are known,we selected the fault segments with these two parameters known and calculated the accumulation rate of average co-seismic displacement,which shows the faults' slip rate in seismogenic layer.Then,the slip rate in depth was compared with that in seismogenic layer,the relationship between them was obtained,and this relationship was used to get the recurrence periods and co-seismic displacements of all fault segments.After the studies above,we calculated the co-seismic deformation field of all the earthquakes larger than M s 6.8 from AD 1700 one by one and inversed the potential displacement in the co-seismic deformation field.Then,we divided the potential displacement by the slip rate from GPS inversion to get the influences of these fault segments,added the influences into the elapsed time of the characteristic earthquakes,and obtained the earthquake hazard degree of all the segments we studied in the form of the ratio of elapsed time to recurrence period;so,we name the ratio as the Impending Earthquake Risk (IER).Historical earthquake cases show that the fault segment is in safety when the IER is less than 1 but in danger after the IER becomes larger than 1.In 2009,the IER is larger than 1 on the following segments,1.35 on the Tagong segment of Xianshuihe fault,1 on the Menggu-Dongchuan segment,1.04 on the Dongchuan-Xundian segment,and 1.09 on the Yiliang-Chengjiang segment of Xiaojiang fault.

塔里木盆地东北缘吐格尔明背斜和阳北断裂带构造分析

吐格尔明背斜和阳北断裂位于塔里木盆地北缘,南天山山前库车褶皱冲断带的东段,两者均为基底卷入型构造。阳北断裂是一个反转构造,其变形历史可以追溯到侏罗纪—白垩纪的正断层;新生代构造反转,发生了多期冲断变形加速期,分别发生于白垩纪末—古近纪初、古近纪末—新近纪初、中新世早期、上新世和第四纪。吐格尔明背斜构造带是阳北断裂中新世早期及以后的冲断作用派生出来的一个次级基底卷入型构造变形带。它由吐格尔明背斜及其南、北两条呈背冲关系的逆冲断层组成。背斜核部元古宇变质岩出露地表;中、新生界直接不整合于变质岩之上,缺失全部古生界,说明研究区可能属于一个长期存在的古生代古隆起。

西昆仑造山带东段中新元古代洋内弧火山岩地球化学特征

分布于新疆西昆仑东段北缘(策勒—于田—民丰一线以南)的中新元古代火山岩主要为一套浅变质的(玄武)安山岩,夹有极少量的流纹岩。安山岩的SiO2在52.36%～58.30%之间,平均为54.55%,TiO2均低于0.3%,平均为0.22%。Na2O+K2O为1.70%～3.75%,Na2O均高于K2O,Na2O/K2O在2.44～4.61之间,M/F为0.62～0.78,MgO/(MgO+TFe)在0.36～0.45之间。岩石硅碱成分显示以钙碱性为主。稀土元素研究表明,安山岩的稀土总量低,在15.52×10-6～17.92×10-6之间,接近大洋拉斑玄武岩。安山岩的(La/Yb)N为0.69～1.33,(Ce/Yb)N为0.75～1.17,轻重稀土分异不明显。除1028-I3号样的δEu为0.6之外,其余样品的δEu在0.91～1.13之间,基本没有Eu异常。在稀土元素的球粒陨石配分曲线上,所有安山岩形成一个群体,稀土配分模式接近大洋拉斑玄武岩。岩石的微量元素安山岩的Th/Yb为0.04～0.10,Th/Ta=5.92～11.22,Zr/Hf=20.46～29.40,Th/Y之比为0.04～0.08。微量元素的N—MORB配分模式显示岩石富集Sr、Ba、Rb、K、Th等大离子亲石元素,Cr亏损,与拉斑质的火山弧玄武岩相似。综合分析火山岩的岩石学、岩石地球化学特征,结合区域构造背景,认为该套火山岩产于洋内弧环境。

华南东段加里东期花岗岩类形成构造背景探讨

根据近年对区域地质调查取得的认识和前人的研究成果,研究了华南东段加里东期花岗岩类的地质产状、分布规律、形成时代以及Nd、Sr同位素特征;结合研究区超镁铁质-镁铁质岩及火山岩的形成时代、震旦纪—奥陶纪的沉积环境、加里东期构造事件的构造变形特征,对加里东期花岗岩类的形成背景进行了探讨。结果表明,加里东期花岗岩类形成于410～460Ma,大部分岩体属于S型花岗岩,岩浆来源于地壳物质的部分熔融;极少数为I型花岗岩,有幔源物质参与。研究区在早古生代不存在与俯冲有关的弧火山岩,也不存在大面积的早古生代I型花岗岩,震旦纪—奥陶纪地层主要形成于浅海环境。研究提出,加里东期花岗岩类主体形成于板内构造环境。

北祁连东段红土堡基性火山岩和陈家河中酸性火山岩地球化学特征及构造环境

北祁连东段天水-宝鸡地区早古生代火山岩包括红土堡基性熔岩和陈家河中酸性火山岩。地球化学分析结果表明,红土堡基性熔岩和陈家河中酸性火山岩中所夹基性火山岩的特征相似,属于拉斑玄武岩,两者TiO2含量较高(1.50%～2.73%),∑REE分别为65.97×10-6～133.46×10-6和78.04×10-6～175.55×10-6,LREE轻度富集[(La/Yb)N分别为2.00～4.40和2.71～4.40],Eu异常不明显或略具Eu负异常(δEu分别为0.85～1.10和0.85～0.99);两者LILE明显富集,HFSE(尤其是Ta、Nb)强烈亏损,Nb/La较低(0.28～0.43),显示出与岛弧拉斑玄武岩(IAT)的亲源性;同时,基性熔岩的εNd(t)均为正值(+2.22～+4.08),暗示其源区类似亏损地幔源区,Zr/Nb=17.21～36.33,Ce/Nb=5.73～8.17,又具有N-MORB的地球化学特征;两者的Sr、Nd、Pb同位素组成十分相似,显示出基性熔岩主要来自亏损地幔(DM)和富集地幔端员(EMⅠ或EMⅡ)混合源区,可能有少量地壳物质混染。陈家河中酸性火山岩属于钙碱性系列,∑REE=127.51×10-6～276.01×10-6,LREE显著富集[(La/Yb)N=4.79～13.51],多数具有弱负Eu异常(δEu=0.53～1.20);微量元素分配型式类似于岛弧花岗岩,具明显的Nb、Ta、Zr、Hf低谷。综合研究表明,北祁连最东段陈家河中酸性火山岩形成于岛弧环境,而其南部的红土堡玄武岩形成于弧间裂谷环境(或初始弧后盆地),是早古生代晚期北祁连东段岛弧带扩张向弧后盆地演化的早期产物。这些研究成果为秦祁结合部位沟弧盆体系的存在提供了佐证。

库车前陆盆地东秋里塔格构造带构造分段特征

通过对研究区内不同位置的5条典型地震剖面解释,发现DQ94-226测线以西的盐上地层主要发育南倾被动顶板反冲断裂,盐层发育盐枕构造和盐推覆构造,盐下地层发育断层相关褶皱和逆冲断裂带;DQ94-226测线以东的盐上地层发育向南逆冲的大型断裂,盐层发育盐推覆构造,盐下地层主要发育断层相关褶皱和突起构造(pop-up)。平衡剖面分析表明,东西两段的南北向构造缩短量具有较大的差异性,西段的构造缩短明显大于东段。沉降史分析表明自东向西,构造活动的幅度依次增大,西段的构造活动明显比东段强烈。由此认为东秋里塔格构造带可以分为东西两段,即西段的库车塔吾构造带和东段的迪那构造带。

天山东段1.4 Ga花岗闪长质片麻岩SHRIMP锆石U-Pb年龄及其地质意义

天山最东段星星峡地区出露的片麻岩、混合岩和斜长角闪岩等,一直被看作是东天山最老的地层星星峡群,实际上是中—新元古代变质杂岩体。用SHRIMP锆石U-Pb定年技术分析了星星峡花岗闪长质片麻岩中19颗锆石,由其中谐和性较好的14个锆石的分析结果得到206Pb/238U和207Pb/206Pb加权平均年龄分别为(1436±13)Ma(2σ)和(1405.2±7.8)Ma(2σ),为天山东段星星峡花岗闪长岩的形成年龄,从而确定了天山造山带中元古代基底岩浆岩形成的时间,与北美及欧洲大陆广泛存在的1.4Ga岩浆活动具有同时性,对进一步思考天山造山带中1.4Ga岩浆活动形成的古陆块在前Rodinia大陆时期的归属有重要意义。主元素和微量元素研究结果显示星星峡1.4Ga花岗闪长岩具有岛弧岩浆岩特征,与北美中部大陆和欧洲大陆Fennoscandia的中元古代非造山作用形成的岩浆岩有所不同。另外,片麻岩中有的锆石具有新的生长边,并给出年轻化和较大的不一致年龄,说明1.4Ga片麻岩不同程度地受到新元古代(0.9～1.1Ga)变质作用和岩浆活动的改造,同时形成一些混合岩和花岗片麻岩。19颗锆石分析数据中有1个锆石的207Pb/206Pb比值年龄为(1845±23)Ma,与该片麻岩的Nd模式年龄相一致,可能代表更古老地壳物质中的残留锆石。

青藏高原腹地东西分区和界带的地球物理场特征与动力学响应

青藏高原是东亚大陆一个特殊的块体,无论是介质属性,还是构造格局在深部与浅部都是不均匀的和各向异性的,其演化进程也是非线性的.基于综合地球物理场研究发现:青藏高原在NS向挤压和EW向扩张错综力系作用下,形成了东、西分区的构造格局,它们的界带位于900±20E的范围内,即表明青藏高原基本上为由三块(西、中、东)组成.在此界带与其东、西两侧的重力场、地磁场、地热场、地震波场、深部介质与结构和其物质组成的属性均存在着显著差异,表征出分区(界)的特异深层过程和动力学响应.

柴达木盆地阿尔金山前东段天然气勘探

柴达木盆地阿尔金山前东段缺乏烃源岩,储盖组合配置差,不利于油气成藏,是盆地油气勘探的难点。通过深化基础地质研究,重新分析了油气成藏条件,结果表明,阿尔金山前东段具有古隆起—古斜坡构造背景,存在深大断裂及基岩不整合面复合油气输导体系,沟通邻近下侏罗统高—过成熟烃源岩;该区基底片麻岩、花岗岩发育裂缝及溶蚀孔洞,具备储集条件,与上覆古近系路乐河组含膏泥岩构成良好储盖组合。在此基础上探索适用的测井、地震和压裂技术,发现了多个含气层系及区块,并于2013年底在阿尔金山前东段探明东坪基岩气藏。

九寨沟M_s7.0地震的InSAR观测及发震构造分析

2017年8月8日四川省九寨沟县发生M_s7.0地震.本文基于Sentinel-1 SAR影像,利用InSAR技术获取了此次地震的同震形变场,反演获得同震滑动分布,计算了同震位错对余震分布和周边断层的静态库仑应力变化,并对发震构造进行了分析讨论.结果表明:①InSAR同震形变场显示,九寨沟地震造成地表形变最大量级约为20 cm(雷达视线方向),同震形变存在非对称性分布特征.②同震位错以左旋走滑为主,主要发生在4~16 km深度,最大滑动量约为77 cm,位于9 km深处.反演得到的矩震级为Mw6.46.同震错动未破裂到地表.③大部分余震发生在库仑应力增加区.此次地震增加了震中周边地区一些断裂的库仑应力,如东昆仑断裂带东段、龙日坝断裂、虎牙断裂等.④东昆仑断裂东段的未来地震危险性值得关注.⑤九寨沟地震的发震断层为树正断裂,可能是虎牙断裂的北西延伸隐伏部分,此次地震是巴颜喀拉块体南东向运动受到华南块体的强烈阻挡过程中发生的一次典型构造事件.

钦杭成矿带东段燕山期中酸性岩浆活动时空演化与成矿规律

钦杭成矿带东段处于华夏地块与扬子地块的交接部位,其特殊的构造背景造就了其独特的岩浆事件与成矿作用。本文详细总结了燕山期中酸性岩浆时空演化与成矿规律,认为钦杭成矿带东段燕山期岩浆活动是连续的,可分为"两期四阶段":早期早阶段(180~160Ma)主要形成I型花岗岩,早期晚阶段(160~145Ma)形成I型、S型花岗岩,晚期早阶段(145~125Ma)以形成S型花岗岩为主(136Ma之后开始形成A型花岗岩),晚期晚阶段(125~100Ma)主要形成A型花岗岩。以东乡-德兴I型花岗岩带为岩浆活动中心,总体经历了从西往东,从I型→S型→A型的演化过程。按成矿专属性,将I型花岗岩分为两种类型:I_1型花岗岩以形成铜(金)铅锌铁多金属矿床为特色,I_2型花岗岩主要形成钨钼矿;将S型花岗岩分为三类:S_1型花岗岩主要形成钨锡钼矿床,高分异的S_2型花岗岩形成铌钽矿,S_3型花岗岩主要形成铅锌银铀矿床;A型花岗岩则具备I型、S型两种花岗岩的成矿特征。与岩浆作用一致,成矿作用也是连续的,可分为相应的"两期四阶段"。成岩成矿的时空演化过程主要受太平洋板块俯冲过程中动力条件变化的控制,导致不同部位的基底地层发生熔融,发生不同程度的壳幔相互作用。

阿尔泰富蕴—青河一带东段变形岩石X光组构分析

通过对新疆阿尔泰南缘东段地区主要构造带变形岩石的X光岩组分析,认为该区岩石变形比较强烈,石英变形机制以中低温底面型或近底面型滑移为主,部分为中高温柱面Ⅰ型滑移系。属于中浅—中等层次(10～15km,T=300～450℃,p=0.25～0.40GPa)的韧脆性—韧性变形。达拉维孜-阿热勒托别剪切流变构造带和库尔提-玛因鄂博韧性剪压变形带变形的物理化学条件相似,结合区域地质分析,这2个带与萨尔布拉克-科克萨依脆性挤压劈理化带一起可能组成一个完整的板块(微陆块)聚合变形带。而锡泊渡(635水库)-富蕴变晶糜棱岩带岩石变形的条件明显不同,温度压力偏高,说明其具有不同的演化历史,可能为古生代期间被强烈改造的具有前震旦纪结晶基底的微大陆的残留。

大别山北缘西段双桥中生代火山岩地球化学及锆石U-Pb同位素年代学

首次对大别山北缘西段(河南省境内)中生代火山岩进行了锆石原位U-Pb同位素测年。结果表明,罗山县双桥火山岩集中区石英安山岩锆石LA-ICP-MS U/Pb年龄为133.1±1.5 Ma,与大别东段中生代火山岩主体毛坦厂组的时代一致,属早白垩世,稍早于或与大别山区大规模花岗岩岩基侵位时代相同;与长江中下游地区的宁芜和庐枞盆地火山岩喷发时间同步,可能同属中国东部中生代巨量岩浆活动的重要组成部分,与太平洋板块斜向俯冲引起的大陆岩石圈重力不稳而产生的拆沉导致岩石圈强烈减薄深部动力学过程相联系。大别山西段早白垩世火山岩属高钾钙碱性系列粗安岩-英安岩-流纹岩组合。中酸性火山岩显示轻稀土元素富集、重稀土元素强烈亏损、弱或基本无负Eu异常的稀土元素配分模式以及高Sr低Yb特征,反映岩浆部分熔融源区残余有石榴石,说明当时存在加厚的成熟陆壳。高(87Sr/86Sr)i(0.707 56)、极低的εNd(t)(-20.1)和大离子亲石元素富集、高场强元素Nb、Ta明显亏损,显示岩浆源区的壳源性质。以上特征反映大别山地区该时期岩石圈伸展程度和软流圈上涌规模远不如长江中下游同时期以幔源为主的中基性火山岩发育的宁芜和庐枞地区。

天山造山带东段构造变形对增生造山末期的响应

天山造山带位于中亚造山带最南端,是研究和认识中亚造山带晚古生代增生造山过程的关键地区。本文聚焦于天山造山带东段发育的最晚一期脆韧性构造变形,通过对阿其克库都克断裂带、康古尔断裂带和哈尔里克构造带等变形带内的构造几何学和运动学特征解析,认为阿其克库都克断裂带表现为由南向北逆冲兼右行剪切变形特征,康古尔断裂带表现为南北向挤压兼右行剪切变形特征,哈尔里克构造带表现为由北向南的逆冲叠加稍晚期的左行走滑剪切变形特征。结合大量已有的构造热年代学数据分析,指出各构造单元内最晚一期脆韧性变形时间为二叠纪晚期-中三叠世,指示该时间段内近东西走向的天山造山带东段和北西-南东走向的东准噶尔造山带与西侧哈萨克斯坦弧形造山系呈现为三向汇聚的动力学特征,代表中亚造山带增生造山末期的演化特征。

吉林省中部地区早古生代英云闪长岩的成因:锆石U-Pb年代学和地球化学证据

本文对吉林省中部地区永吉县张家屯附近出露的早古生代英云闪长岩进行了LA-ICP MS锆石U-Pb年代学、地球化学及锆石Hf同位素的研究,探讨了该英云闪长岩的源区性质及构造背景。张家屯英云闪长岩出露面积约100m2,与其呈沉积接触关系的是具磨拉石建造特点的张家屯组地层。LA-ICP MS锆石U-Pb定年结果显示,张家屯英云闪长岩的形成时代为443±5Ma,即晚奥陶世-早志留世。该英云闪长岩的SiO2含量介于71.5%~72.9%,具有低K2O(0.22%~0.76%)、高Na2O(3.82%~4.49%)和低TiO2(0.30%~0.42%)的特征,属于低钾拉斑系列。其A/CNK值介于0.95~1.25,A/NK值介于1.71~1.94,主体属于I型花岗岩。张家屯英云闪长岩的稀土总量较低(15.3×10-6~23.4×10-6),具有轻重稀土弱分异[(La/Yb)N=5.01~5.60]和较平坦的重稀土分配型式,并具有明显的铕正异常(Eu/Eu*=1.85~2.59)。微量元素显示具有大离子亲石元素(Rb、Ba、Cs、Th)富集和高场强元素(Nb和Ta)亏损的特征。另外,它们具有正的εHf(t)值(+9.92^+13.6)和年轻的两阶段亏损地幔模式年龄(648~911Ma)。张家屯英云闪长岩的地球化学特征与超俯冲带弧前环境的斜长花岗岩的源区相似,可能来源于低压高温条件下大洋堆晶辉长岩的部分熔融,并有俯冲流体的参与。即张家屯英云闪长岩形成于俯冲背景下的岛弧环境,结合晚志留世-早泥盆世张家屯组磨拉石建造的沉积特征,揭示了加里东运动在华北板块北缘东段的存在。