Fault-generated mountain fronts in the central apennines (Central Italy): Geomorphological features and seismotectonic implications

The morphotectonic framework of the Central Apennines is given by faulted blocks bounded by normal faults, mostly trending NW–SE, NNW–SSE and NE–SW, which cut previous compressive structures. Such a structural setting is consistent with the focal mechanisms of the earthquakes which often occur in this area. In this paper, three lithologically different normal fault-generated mountain fronts are analysed in order to assess the relations between their geomorphic features and active tectonics. They border the Norcia depression (Sibillini Mts, Umbria), the Amatrice–Campotosto plateau (Laga Mts, Lazio) and the Fucino basin (Marsica Mts, Abruzzi). The Norcia depression is bounded by a N20°W trending normal fault to the east and by a parallel antithetic fault to the west. The main fault has a 1000 m throw and gives rise to a wide fault escarpment, characterized by: (1) sharp slope breaks due to low angle gravity faults; (2) important paleolandslides; and (3) several fault scarplets on the piedmont belt affecting Quaternary deposits. The Amatrice–Campotosto plateau is delimited by the western slope of Mt Gorzano which runs along a N20°W trending normal fault having a 1500m throw. Minor parallel faults dislocate Quaternary landforms. Large-scale massmovements also occur here. The Fucino basin was struck by the 1915 Avezzano earthquake (I=XI MCS) which produced extensive surface faulting along two parallel NW trending normal fault escarpments on the eastern border of the basin. There is paleoseismic evidence including buried gravity graben in Late Glacial gravels and tectonic dip-slip striations on Holocene calcitic crusts covering bedrock normal fault planes. These data suggest that active extensional tectonics plays a major role in the slope morphogenesis of the Central Apennines and they indicate the importance of geomorphic analysis in seismic zonation of this area.     

Cenozoic structural deformation and expression of the “Tan-Lu Fault Zone” in the West Sag of Liaohe Depression, Bohaiwan basin province, China

Based on the interpretation of 3D seismic data and structural mapping we analyzed the geometry and kinematics of the fault system and validated the expression of the “Tan-Lu Fracture Zone” in the West Sag of Liaohe Depression, Bohaiwan basin province. The Cenozoic structural deformation within the West Sag of Liaohe Depression can be divided into extensional structure system and dextral structure system. The extensional system is constituted by numerous NNE-NE trending Paleogene normal faults, where the Taian-Dawa fault (F1) is the master boundary fault (MBF) dominating the deposition during Paleogene so that the sag shows a complex half-graben with “boundary fault in the east and overlap in the west”. The dextral system is constituted by 2–3 dextral basement faults in NNE-NE trending (F2, F3, F4) and associated structure, and the time of structural action started in Oligocene and continued to Quarternary so that some associated secondary faults of the dextral system cut off the Neogene and Quaternary. Under the influence of the position and attitude of NNE-NE trending basement strike-slip faults, the central north part and the south part of the West Sag show obviously different structural features. The former appears to be a complex “graben” structure limited by the reversed strike-slip fault in the west and bounded by the inverted normal fault in the east, the latter remains the complex half-graben structure with “boundary fault in the east and overlap in the west”, and the graben was mildly reconstructed by one or two normal strike-slip faults. The dextral system within the West Sag is the element of the west branch fault of the Tan-Lu Fracture Zone, which is a deep fracture zone extending along the east of the Liaodongwan Gulf. The deep fracture zone branches off into two separate faults within the Liaohe Depression. The east branch goes through from northern part of the Liaodongwan Gulf to the East Sag of Liaohe Depression and links with the Denghua-Mishan Fault near Shenyang, and the west branch passes from northern part of the Liaodongwan Gulf to the West Sag and Damintun Sag of Liaohe Depression and links with the Yilan-Yitong Fault. The principal displacement zone of the west branch of the Tan-Lu Fracture Zone cuts off the master extensional fault (F1) within the West Sag of Liaohe Depression and induces many cover faults in EW trending within the Neogene and Quaternary.     

深井盆地南缘断裂特征与活动性研究

深井盆地是山西断陷盆地带北段内部一个规模很小的次级盆地,为中更新世以来发育的三角型山间小型盆地。盆地附近断裂发育,构造复杂,深井盆地南缘断裂为主控边界断裂,控制着盆地的发展演化。本文通过对地形地貌、断裂剖面、地层测年及地震活动等方面的分析和研究,获得了断裂活动时代和活动速率等参数,综合阐述了断裂的空间展布及活动特征。研究表明:深井盆地南缘断裂晚第四纪期间仍在活动,最新活动时代为晚更新世晚期;断裂具有分段性,西段长约6km,多处可见断裂错断晚更新世地层剖面,属正断倾滑性质;东段表现为盆地与黄土斜坡直接接触,由西向东断裂地貌表现逐渐减弱,未见明显的断裂剖面,止于NW向构造,附近发生的4次4 3/4级地震与该段断裂关系密切。     

珠江三角洲及其邻近海域第四纪地质与地震危险性

从第四纪地质研究的角度分析了珠江三角洲地区的地震危险性,认为北东,近东西和北西向三组断裂带把整个珠江三角洲断陷分割成７个次一级断块,并根据控制各次级断块的断裂第四纪活动性的强弱。     

香港地区断裂构造的新活动性

香港地区主要分布有北东东－近东西、北东和北西向三维断裂。北东向断裂分布全区，燕山期有过强烈活动，第四纪早－中期仍有过活动，以后的活动性不明显。其余两组构造虽然具有不同的发展历史，但在新构造运动中为一组共轭构造。在晚更新世（距今９－１１万年）仍有明显活动全新世以来活动性相对较弱，全新世滑动速度为０．６－０．９ｍｍ／ａ     

岷江上游地区第四纪构造应力状态及其与地震的关系

本文用地质、地貌、地震等综合方法研究第四纪构造应力状态。本区第四纪主压应力为北东东—南西西方向。在这种应力作用下,区内南北向断裂呈压扭方式活动,东西向断裂以张扭方式活动,北西向构造强烈隆起。现今小震活动多沿东西向断裂分布     

2016年阿克陶MS 6.7地震地表破裂特征和帕米尔现代构造应力场初步分析

帕米尔高原位于地中海－喜马拉雅地震带上,晚新生代以来随着印度板块向欧亚板块持续不断地挤压汇聚,其构造运动是欧亚大陆最强烈的地区。高原腹地发育一系列近SN向正断层,包括近SN向的塔什库尔干正断层所处的帕米尔中部现代区域的构造应力场以EW向水平拉张为主。2016年11月25日发生的阿克陶M_S 6.7级地震的发震构造为塔什库尔干断层分支的NWW向木吉盆地北缘断层,其具有右旋走滑兼正断性质。地震在震中附近产生同震地表形变带,全长约1km,呈近SN－NNE向水平拉伸,发育近EW—NWW向的张裂缝,为地震破裂的产物,张裂缝的最大水平拉伸位移量和最大垂直位移量分别为46cm和16cm。地表破裂带中的NE和NW向张剪裂缝只是连接贯通这些雁列的张裂缝,其水平相对位移量取决于张裂缝的水平拉伸量和张裂缝之间的几何关系。地表形变带表现的拉张性质与帕米尔高原腹地区域现代应力场最大主压应力为垂直向基本一致,可能与深部热物质上涌造成的上地壳拉伸有关。而地表形变带呈近SN向水平拉张,与区域近EW向拉张应力场之间存在显著差异,这可能是木吉盆地北缘右旋走滑正断层阶区局部应力场调整的结果。     

Eocene extensional tectonics in the Amakusa region,northern Ryukyu arc

Paleogene surface tectonics in Japan is not well understood because of the paucity of onshore Paleogene stratigraphic records except for those from accretionary complexes. Paralic Paleogene formations remaining in SW Japan are usually so thin that it is difficult to decipher the tectonics from them. However, the Eocene paralic sedimentary package with a thickness of kilometers indicates syn-depositional tectonic subsidence by a few kilometers in the Amakusa archipelago, west of Kyushu Island. Thus, we made a detailed geological map of the Eocene formations in an area of ~50 square kilometers in the northwestern part of the archipelago. We identified NE-SW and NW-SE trending normal faults, most of which were recognized by previous researchers, and also discovered low-angle faults. NW-SE trending ones are known to be of the Miocene. NE-SW trending and low-angle normal faults are the oldest map-scale structures in the Eocene ones. It is not obvious within the above-mentioned area whether those normal faults are accompanied by growth strata. However, the significant southeastward thickening of the Eocene formations across the Amakusa archipelago suggests that they filled a large half graben with the basin margin fault along the eastern side of the archipelago. This basin model is consistent with the N-S to NW-SE transport directions of the low-angle and NE-SW trending normal faults. Since many NE-SW to EW trending Eocene grabens were formed in the offshore regions west of Kyushu Island and in the East China Sea, the Amakusa region was probably a northeastern branch of the rift system. The geologic structures and depositional ages of the Eocene formations indicate that the Eocene extensional tectonics removed the overlying strata to some extent for the high-P/T Takahama Metamorphic Rocks which crops out to the south of our study area.     

安徽历史地震等震线长轴方位分布及地震地质意义

统计了安徽地区历史地震等震线长轴方位分布，主要有北东、北北东、北西和近东西向4组，它们与震中区及其附近的新生代活动断裂的走向有较好的一致性，大致反映了安徽各地的发震构造及破裂方位。其中北东、北西向断裂活动时间最新，多与地震活动相关，而北东向活动断裂是研究地区主要的地震构造。从构造地貌、断裂活动、遥感解译活动线性构造和中强地震活动的相互印证关系来看，大别山北麓、皖东北地区是安徽现代构造和中强地震活动较为强烈的地区，其中，皖东北地区未来发生中强地震的危险性较大。     

海丰震群发震构造型式的讨论

海丰震区发育着规模宏大的 NE 向海丰——梅陇断裂及一系列与其平行的次级断裂.同时,还存在与其共轭的断续分布的 NW 向断裂.震群中的三个子群的主震的震源机制解非常类似,其中一节面为 NE,另一节面为 NW.从余震的空间分布及极震区的长轴方向来看,2月26日 ML3.3和4月9日 MLL,4.2地震的断层面为 NE 向;而3月14日 ML,3.4地震,其断层面应取 NW 向.又据137个小震的四个台的 P 波初动符号的组合特征,可划分为八个类型并作出相应的迭加震源机制解.综上所述,本区破裂过程,主震及Ⅰ、Ⅳ 类地震是岩块沿NE 及 NW 向共轭构造的粘滑;Ⅱ——Ⅴ、Ⅶ、Ⅷ 类地震是岩块在粘滑过程中对前后邻接岩块引起平行滑动方向的挤压(前)和引张(后)的转换应力场所产生的剪切破裂.      

利用密集台阵近震层析成像研究云南宾川上地壳速度结构

滇西北宾川盆地是发育于红河断裂和程海断裂交汇处的晚新生代张扭断陷盆地,该区活动断裂发育且历史地震比较活跃.对宾川盆地及邻区进行高精度浅层和上地壳精细结构研究,有助于深入认识该区主要发震构造的深浅部特征.基于2017年在宾川盆地及其附近开展的为期2个月的密集台阵观测数据,我们对该区96个小震共拾取了117221条初至P波和5475条初至S波震相,并利用simul2000开展了地震重定位和体波层析成像研究.结果表明：（1）小震活动主要集中在宾川盆地东缘断裂的弧形转折部位,并在洱海南侧呈现沿北东向断裂的条带状分布现象,反映了区域上近南北向至北东向断裂是主要控震构造,其次是北西向断裂带.（2）0 km的速度分布与区域地形有很好的对应关系.山地呈现高速异常,宾川盆地呈现低速异常.从3 km至9 km,高低速分界与断层有很好的对应,并且越往深部,近南北向至北北东向的宾川盆地东缘断裂在上地壳构造的控制作用越明显.（3）上地壳层析成像结果同时揭示了宾川盆地东缘断裂的三维形态变化在空间上呈现出南北部倾角大、中部倾角缓的变化特征,可能与区域地块的旋转变形过程有关.（4）综合高精度浅层速度结构和地震重定位结果可知,区域上的近南北向至北北东向断裂正逐步取代北西向构造,成为主要的区域分界断裂和控震构造.新的研究结果为深入理解该区的主要控震构造及其深部结构特征提供了重要依据.     

山东半岛北部近海海域北西向蓬莱-威海断裂带的声波探测

在山东半岛北部近海海域进行了多条剖面的声波探测,初步查明了蓬莱－威海断裂带的基本活动特征.该断裂带由一系列北西走向的次级断层组成,主体在长岛至大竹岛之间的海域,多数断层以正断兼有走滑运动为主,部分断层具有逆冲运动性质.断裂带在第四纪活动明显,以北东向桃村-东陡山断裂在海域的延伸段为界,蓬莱-威海断裂带可分为两段：长岛-烟台段和烟台-威海段.西段长岛-烟台段为晚更新世活动段,多数次级断层上断点埋深位于海底以下30m,明显错断了中更新世地层,部分断层明显错断了晚更新世早期地层,有些断层达到晚更新世地层中部,但没有发现全新世地层错动现象.东段烟台-威海段为中更新世活动段,没有发现晚更新世地层错断现象.蓬莱-威海断裂带对历史地震和现代小震活动具有明显控制作用,其中1548年7级地震发生于断裂带西段,1948年6级地震发生于断裂带东段.蓬莱-威海断裂带与北东向断裂交汇区是中强地震发生的有利部位.     

小江断裂带中段的北东向断裂与断块结构

小江断裂带中段东西支断裂间存在的ＮＥ向断裂是在第三纪ＮＥ向断裂的基础上，于第四纪中晚期开始新的活动，并具有左旋走滑运动的特征，有些在全新世仍有活动。它们的活动从属于小江断裂带的整体左旋走滑运动，其运动幅度和速率比近ＳＮ向小江东西支断裂小得多，但是由于它们的运动，使主断裂产生弯曲或阶区，形成有利于应力和应变集中的障碍。夹于东西支断裂之间的断块被ＮＥ向断裂切割为多个次级菱形和梭形断块，这些断块之间的相对运动对断裂分段和地震孕育过程具有不可忽视的影响     

荥经-马边-盐津逆冲构造带断裂运动组合及地震分段特征

逆冲构造带的分段性研究是评价该类发震构造地震危险性的基础工作。荥经-马边-盐津逆冲构造带是青藏高原东南边缘重要的NW向强震构造带,该构造带以逆冲错动为主要活动形式,其组合形式与逆冲强度存在南北差异。通过NE向横向断裂的构造地貌分析,发现横向断裂以右旋走滑活动为主,兼有倾滑活动。根据其与纵向断裂的交接关系,将横向断裂概括为横向分割断裂、横向撕裂断裂和横向转换断裂3种类型,讨论了3类横向断裂在逆冲构造带分段中所起的不同作用,进而将荥经-马边-盐津逆冲构造带分为独立的3段,并分析了各段的地震活动特征。研究表明,荥经-马边-盐津逆冲构造带以横向断裂为标志的3分段特点,既体现了段与段之间断裂活动强度、地震破裂强度与步调的差异,又体现了段内地震破裂步调的一致性,表明横向断裂在一定程度上控制了逆冲构造带的破裂分段,只是横向断裂的类型不同,其所起的作用也不同     

Northwest trending tectonic belt in the middle Yanshan Orogenic Belt of northeast Hebei Province,North China: Tectonic evolution and geochronology

1 An out-of-line northwest trending tectonic beltin the middle part of the Yanshan Orogenic Belt The tectonic framework of the intraplate YanshanOrogenic Belt is dominated by east-west and northeastextending structures as revealed by many geologists.There lies, however, a 100-km-long enigmatic out-of-line northwest extending tectonic complex in the mid-dle part of the Yanshan Orogenic Belt (fig. 1). Theresearch on the geometry, kinematics, timing of thiscomplex tectonic belt and its r…     

华南沿海主要活动断裂带的比较构造研究

华南沿海地区，发育３组不同方向的断裂构造。以北东～北北东向的断裂规模最大，地表迹象最明显；以北东东～东西向断裂切割最深，发育历史最长；而以北西～北西西向断裂的新生性和近期活动性最显著。研究结果表明，上述３组断裂构造的特征，在宏观表征和显微构造特点方面都有表现，说明各组断裂都有各自类同的形成、发育过程，并受控于类似的构造力源，它们的特征在一定程度上反映了地壳运动的演变史     

福建厦门筼筜港北东向断裂带活动性研究

本文根据航卫片、第四纪地质、地貌、浅层地震、钻孔、年代学等资料,分析了厦门篑筜港北东向断裂带的第四纪晚期活动特征,并阐述了其构造组合特征。结果表明：①断裂带中的文灶-龙山-五通断裂和虎尾山-钟宅断裂为第四纪早期断裂,晚更新世以来不再活动;②篑筜港断裂为晚更新世早、中期活动断裂,晚更新世晚期（约3万年）以来不活动;③文灶-龙山-五通断裂和虎尾山．钟宅断裂将厦门岛切割为3个地块,分别形成了仙岳山地垒、篑筜港地堑和云项岩地垒的构造组合,晚更新世晚期以来地壳以整体性上升运动为总趋势。     

涉县盆地控盆构造晚第四纪活动特征

涉县断裂为太行山隆起区内涉县盆地的控盆构造,走向由NE转为近EW向,倾向NW/N,中部在井店东被EW向断裂错断,是控制涉县盆地的一组断裂。本文采用地质地貌调查、河流阶地分析和地质测年等方法,研究了涉县断裂晚第四纪活动特征。研究发现,涉县断裂带由多组断裂构成,带宽约200m,在清漳河两侧表现为山前的陡崖地貌、基岩破碎变形带,具有正断兼走滑特征,在基岩变形带上部发育走向NNE向和NWW向次级滑动面,次级滑动面错断第四系黄土,最新活动到晚更新世;断裂在盆地区通过,地表形成低缓陡坎,断裂错断Q2-3地层,表现为上陡下缓的正断层。通过对涉县断裂两侧清漳河河流阶地、夷平面和地层年龄综合分析,估算涉县断裂晚更新世以来平均垂直滑动速率为0.06～0.08mm/a,中更新世以来平均垂直滑动速率为0.22～0.34mm/a,垂直差异活动主要发生于中更新世期间。     

Two-step interface and velocity inversion—— Study o e of the Tangshan seismic region

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辽宁省主要活动断层与地震活动特征分析

本文结合编制 1：100 万辽宁省地震构造图,分析了辽宁省近 20 年来地震构造环境相关研究成果,确定辽宁地区共有第四纪以来活动断裂 29 条：全新世断裂 1 条;晚更新世断裂 5 条;早、中更新世断裂 23 条。其中北东向晚更新世活动断裂和北西向全新世活动断裂为辽宁地区的主要控震、发震构造。北东向晚更新世活动断裂与北西向断裂交汇部位、海城河隐伏断裂的端点部位和鸭绿江断裂南西端黄海海域是未来发生中强地震的主要部位。本研究可为深入研究辽宁地区地震构造条件、编制第五代全国地震区划图提供基础资料。