滇西龙陵地区地壳电性结构及其对大瑞铁路地质选线影响研究   总被引：3，自引：2，他引：1       下载免费PDF全文

余年  胡祥云  李坚  赵宁  周军  蔡学林  刘云 《地球物理学报》2017,60(6):2442-2455

高黎贡山地处印度板块与欧亚板块碰撞缝合带附近的横断山脉南段,是大理一瑞丽铁路(大瑞线)的必经之地,地形起伏大、构造复杂、活动性强,高黎贡山隧道作为全线控制性工程之一,其地质选线的最大困难就是对隧道深部构造环境的了解,特别是缺少对与地热、地震等联系紧密的深部地质构造的认识.为此,本文以大地电磁方法为手段,以高黎贡山隧道为主要研究对象,通过对滇西龙陵地区高黎贡山隧道越岭段两条大地电磁剖面数据的处理解释对研究区的地壳电性结构特征进行了勘探研究.结合区域地质构造特征与主要工程地质问题之间关系的分析,根据隧道主要断层地质条件设计了三维垂直断层模型,利用三维有限元开展正演模拟研究发现,测点点距、位置与横向分辨率密切相关,点距越密,分辨率越高,测点位于断层在地表投影位置能有效提高分辨率.采用大地电磁阻抗张量分解技术对两条剖面上各测点的二维偏离度和电性走向进行了计算和分析,对剖面视电阻率和阻抗相位数据进行了二维NLCG联合反演研究,揭示了沿剖面的腾冲地块、龙陵一瑞丽断裂带及保山地块10 km深度的电性结构特征及相互关系.结果表明:剖面CD电性结构呈现区域构造的三分性,腾冲地块电性结构成层性较好,保山地块成层性较差,两者均以中高阻电性特征为主,中间夹龙陵一瑞丽断裂带,电性结构反映从3 km深度以下存在几乎近于直立延伸的低阻带,推测为班公湖一怒江缝合带滇西段丁青一怒江缝合带的反映;剖面AB共划分了6条与工程密切相关的深部隐伏断裂,结合地震地质、地表地质及龙陵地震深部背景研究,推测F7-3断裂为1975龙陵7.3级地震断裂;从地表黄草坝断裂开始向下延伸,有一条发育最大深度约为4 km的低阻通道,推测为地热断裂深循环通道,其与黄草坝断裂共同控制研究区地下热水的补给、径流和排泄条件,在高黎贡山隧道线位位置形成了一个相对低温通道,为隧道方案成立的关键工程地质条件.勘探结果表明:滇西龙陵地区地壳电性结构有效的反映了高黎贡山隧道深部隐伏断裂和地热断裂深循环通道等深部构造特征,为大瑞线隧道工程地质选线提供了深部地质背景依据.  相似文献   

2015年尼泊尔M_S8.1大地震孕育的深层过程与发生的动力学响应          下载免费PDF全文

滕吉文  马学英  张雪梅  刘有山  皮娇龙 《地球物理学报》2017,60(1):123-141

2015年4月25日发生在尼泊尔博克拉M_S8.1大地震的深层动力过程与“地中海-喜马拉雅-南亚地震带”的中段喜马拉雅地震活动带密切相关.这次大地震是该地震强烈活动带上长期以来深部物质与能量强烈交换、运动,并导致构造活动和应力积累的产物.综合分析与研究提出：（1）博克拉M_S8.1大地震的孕育、发生和发展具有长期活动和近年来相邻地带地震活动频繁的背景;这一地带自1505年-2015年,即500多年来相继发生多次M_S≥8.0的大地震.（2）这一地带具有特异的地球物理边界场响应和深层动力过程,显示深部物质的重新分异、调整与能量交换.（3）大地震发生与周边地带应力场分布特异,壳、幔结构与介质属性变异及破裂响应与断层面解的属性相关.（4）喜马拉雅地带的三条北倾断裂带以不同角度向深部延伸、震源位置及浅表层的变形特征尚应深化理解.（5）M_S8.1大地震的发生对相邻地带的波场影响强烈,故应强化高精度地球物理场的观测和探测,以“捕捉”未来可能大地震的孕育与发生.  相似文献   

BIM技术在震后灾区居民装配式建筑设计中的应用     

唐雪静 《华南地震》2019,39(3):114-120

为解决震后灾区地形复杂,建筑建设困难问题,将BIM技术应用在震后灾区居民装配式建筑设计中,基于BIM体系框架设计震后灾区居民装配式建筑建造流程,通过设计阶段、工厂预制阶段、运输阶段以及安装阶段完成震后灾区居民装配式建筑项目的构建,采用Revit软件和Tekla软件构建装配式建筑的建筑模型和结构模型,利用BIM技术的可视化、参数化以及高合作性优势,优化模型以及构件,再通过Navisworks软件依据建筑模型实现建筑工程的碰撞检测,减少施工过程中的变更,降低建筑工程施工成本;通过基于BIM的震后建筑进度管理模型,实现建筑进化计划编制以及进度控制;利用Lumion软件输入工程材质实现建筑项目的实时漫游,直观了解装配式建筑效果。  相似文献   

两起渔船碰撞事故原因及预防探讨     

邓礼标 《广东海洋大学学报》1994,(1)

通过对两起渔船碰撞事故经过的描述，分析了事故发生的原因及双方的过失，并对渔船的技术性能，渔区通航密度的增大和渔船驾驶员自身素质等方面，从管理的角度探讨了渔船驾驶人员全面领会和遵守《１９７２年国际海上避碰规则》的措施，提出了加强渔船的监督管理以及如何提高渔船船员素质的设想，以达到预防或减少渔船碰撞事故发生的目的。  相似文献   

An analytical model of the Comet's collision with Jupiter     

D. Chen  K. Zhang 《Earth, Moon, and Planets》1996,73(1):23-32

An important feature observed in the wake of the Jupiter-comet clash was the appearance of the ring structure axisymmetrically positioned around the center of the impact. The persistent expansion of the dark rings and its speed indicated an outward propagating gravity wave (Benka, 1995). We employ an analytical model of constant density, uniform finite depth and inviscid fluid layer to investigate the wave motion produced by the impact of Comet Shoemaker-Levy 9 on the Jovian atmosphere. The relevant thermal effects are neglected and an explosion resulting from the collision is then described by an initial impulsive pressure at the surface of the Jovian atmosphere. Under the assumption that all the kinetic energy of a comet fragment is completely converted into the energy of wave motions in the Jovian atmosphere, an analytical formula describing the relationship between the resulting wave motion in the atmosphere and the parameters of a comet fragment (the radius, density and speed) is derived. Results from the present simple analytical model give a qualitative agreement with observations regarding the distance and speed of the waves.  相似文献   

1．56m望远镜观测彗－木相撞概况     

钱伯辰  周洪楠  潘红鉴  林清  王叔和 《中国天文和天体物理学报》1995,(1)

用上海天文台佘山观测站的１．５６ｍ望远镜和ＣＣＤ照相机，观测到彗－木碰撞的六次事件。本文给出由撞击引起的木卫闪光Ｋ＝１２的光变曲线和一些碰撞后木星的照片。  相似文献   

Geochemical and isotopic constraints on the age and origin of the Nidar Ophiolitic Complex, Ladakh, India: Implications for the Neo-Tethyan subduction along the Indus suture zone     

T. Ahmad  T. Tanaka  H.K. Sachan  Y. Asahara  R. Islam  P.P. Khanna 《Tectonophysics》2008,451(1-4):206-224

The Nidar ophiolite complex is exposed within the Indus suture zone in eastern Ladakh, India. The suture zone is considered to represent remnant Neo-Tethyan Ocean that closed via subduction as the Indian plate moved northward with respect to the Asian plate. The two plates ultimately collided during the Middle Eocene. The Nidar ophiolite complex comprises a sequence of ultra-mafic rocks at the base, gabbroic rocks in the middle and volcano-sedimentary assemblage on the top. Earlier studies considered the Nidar ophiolite complex to represent an oceanic floor sequence based on lithological assemblage. However, present study, based on new mineral and whole rock geochemical and isotopic data (on bulk rocks and mineral separates) indicate their generation and emplacement in an intra-oceanic subduction environment. The plutonic and volcanic rocks have nearly flat to slightly depleted rare earth element (REE) patterns. The gabbroic rocks, in particular, show strong positive Sr and Eu anomalies in their REE and spidergram patterns, probably indicating plagioclase accumulation. Depletion in high field strength elements (HFSE) in the spidergram patterns may be related to stabilization of phases retaining the HFSE in the subducting slab and / or fractional crystallization of titano-magnetite phases. The high radiogenic Nd- and low radiogenic Sr-isotopic ratios for these rocks exclude any influence of continental material in their genesis, implying an intra-oceanic environment.

Nine point mineral–whole rock Sm–Nd isochron corresponds to an age of 140 ± 32 Ma with an initial ¹⁴³Nd/¹⁴⁴Nd of 0.513835 ± 0.000053 (E_Nd t = + 7.4). This age is consistent with the precise Early Cretaceous age of Hauterivian (132 ± 2 to 127 ± 1.6 Ma) to Aptian (121 ± 1.4 to 112 ±1.1 Ma) for the overlying volcano-sedimentary (radiolarian bearing chert) sequences based on well-preserved radiolarian fossils (Kojima, S., Ahmad, T., Tanaka, T., Bagati, T.N., Mishra, M., Kumar, R. Islam, R., Khanna, P.P., 2001. Early Cretaceous radiolarians from the Indus suture zone, Ladakh, northern India. In: News of Osaka Micropaleontologists (NOM), Spec. Vol., 12, 257–270.) and cooling ages of 110–130 Ma based on ³⁹Ar/⁴⁰Ar for Nidar–Spontang ophiolitic rocks (Mahéo, G., Berttrand, H., Guillot, S., Villa, I. M., Keller, F., Capiez, P., 2004. The South Ladakh Ophiolites (NW Himalaya, India): an intra-oceanic tholeiitic arc origin with implications for the closure of the Neo-Tethys. Chem. Geol., 203, 273–303.). As these gabbroic and volcanic rocks are interpreted to be arc related, the new Sm–Nd age data may indicate that intra-ocean subduction in the Neo-Tethyan ocean may have started much before  140 ± 32 Ma as this date is interpreted as the age of crystallization of the arc magma. Present and published age data on the arc magmatic rocks from the Indus suture zone may collectively indicate episodic magmatism with increasing maturity of the arc from more basic (during ~ 140 ± 32 Ma) when the arc was immature through intermediate (andesitic/granodioritic) at ~ 100 Ma to more felsic (rhyolitic/dioritic) magmatism at ~ 50–45 Ma, when the Indian and the Asian plates collided.  相似文献   

碰撞造山带斑岩型矿床的深部约束机制   总被引：19，自引：8，他引：11  

罗照华  卢欣祥  陈必河  黄凡  杨宗锋  王秉璋 《岩石学报》2008,24(3)

在印度-亚洲大陆碰撞过程中,俯冲板片断离触发了幔源岩浆底侵作用、下地壳部分熔融和冈底斯岩基带以及同岩基斑岩的产生.在此过程中,幔源岩浆分离结晶的产物、下地壳岩石部分熔融残余和地壳分异过程中下沉的镁铁质块体,构成了加厚下地壳.随着造山岩石圈的冷却和加厚下地壳重力不稳定性的增加,岩石圈拆沉作用触发了后碰撞斑岩型岩浆活动.与此相应,碰撞造山带斑岩型矿床可以形成于同碰撞和后碰撞两个不同的构造阶段.同碰撞成矿作用发生于岩基带形成时期,成矿物质主要来自于底侵幔源岩浆及更深部的含矿流体,其触发机制是俯冲板片的断离.后碰撞成矿作用发生于加厚下地壳冷却之后,成矿物质主要来自于新生矿源层和更深部的含矿流体,其触发机制为岩石圈拆沉作用.在同碰撞构造阶段,伴随着幔源岩浆的底侵作用,深部流体和幔源岩浆所含的成矿物质被注入到岩基岩浆中,与从岩基岩浆源区萃取的成矿物质汇聚在一起,一部分受岩基热的驱使上升成矿.由于流体中成矿元素的浓度强烈依赖于压力,另一部分成矿元素则滞留在难熔残余中形成新的矿源层.当发生岩石圈拆沉作用时,由此矿源层部分熔融形成的斑岩岩浆将相对富含成矿物质,导致碰撞造山带第二次成矿作用大爆发.  相似文献   

Development of the collision ratio to infer the time at which to begin a collision avoidance of a ship     

《Applied Ocean Research》2016

A prior study attempted to solve the intrinsic problem of a critical collision condition including the slower ship’s dilemma by considering the maneuverability of the own ship and the International Regulations for Preventing Collisions at Sea (COLREGs). The collision ratio proposed in the previous study provided insight into the solution of the intrinsic problem, but it was not suitable as an index to determine the time at which to begin the maneuver to avoid the collision.This paper develops a collision ratio as an index that can be used to determine the time at which to begin the collision avoidance maneuver. The collision ratio is calculated by considering the maneuverability of the own ship, the COLREGs, and three virtual intrusion domains (VIDs). The validity of the inferred collision ratio is then assessed according to the dynamic characteristics of the own ship and the basic knowledge of the collision avoidance algorithm. The results indicate that the proposed collision ratio is suitable for use as a new index to determine the time at which to begin the collision avoidance maneuver.  相似文献   

Okinawa Trough genesis: structure and evolution of a backarc basin developed in a continent   总被引：1，自引：0，他引：1  

Jean Letouzey  Masaaki Kimura 《Marine and Petroleum Geology》1985,2(2):111-130

The Okinawa marginal basin was opened by crustal extension into the Asian continent, north of the Taiwan collision zone. It is located behind the Ryukyu Trench subduction zone and the Ryukyu active volcanic arc. If we except the Andaman Sea, the Okinawa Trough is the only example of marginal backarc basin type, opened into a continent at an early stage of evolution. Active rifting and spreading can be observed. Synthesis of siesmic reflection, seismic refraction, drilling, dredging and geological field data has resulted in interpretative geological cross sections and a structural map of the Ryukyu-Okinawa area. The main conclusions of the reconstruction of this backarc basin/volcanic arc evolution are. (1) Backarc rifting was initiated in the volcanic arc and propagated along it during the Neogene. It is still active at both ends of the basin. Remnants of volcanic arc are found on the continental side of the basin. (2) There was synchronism between opening and subsidence of the Okinawa Trough and tilting and subsidence of the forearc terrace. The late Miocene erosional surface is now 4000 m below sea-level in the forearc terrace, above the trench slope. Retreat and subsidence of the Ryukyu trench line relative to the Asian continental plate, could be one of the causes of tilting of the forearc and extension in the backarc area. (3) A major phase of crustal spreading occurred in Pliocene times 1.9 My ago in the south and central Okinawa Trough. (4) En échelon rifting and spreading structures of the central axes of the Okinawa Trough are oblique to the general trend of the arc and trench. The Ryukyu arc sub-plate cannot be considered as a rigid plate. Rotation of 45° to 50° of the southern Ryukyu arc, since the late Miocene, is inferred. The timing and kinematic evolution of the Taiwan collision and the south Okinawa Trough opening suggest a connection between these two events. The indentation process due to the collision of the north Luzon Arc with the China margin could have provoked: lateral extrusion; clockwise rotation (45° to 50° according to palaeomagnetic data) and buckling of the south Ryukyu non-volcanic arc; tension in the weak crustal zone constituted by the south Ryukyu volcanic arc and opening of the south Okinawa Trough. Similar lateral extrusions, rotations, buckling and tensional gaps have been observed in indentation experiments. Additional phenomena such as: thermal convection, retreating trench model or anchored slab model could maintain extension in the backarc basin. Such a hypothetical collision-lateral backarc opening model could explain the initiation of opening of backarc basins such as the Mariana Trough, Bonin Trough, Parece Vela — Shikoku Basin and Sea of Japan. A new late Cenozoic palaeogeographic evolution model of the Philippine Sea plate and surrounding areas is proposed.  相似文献