光弹实验构造渤海强震区应力场及地震危险区判定研究

本文在对渤海强震区地质构造环境、断裂带分布特征进行详细分析的基础上,采用机械加工聚碳酸酯材料制成渤海强震区域的地质模型,分别运用集中、二点和均布加载方式,用光弹实验方法模拟特定构造框架下应力、应变场的变化特征。通过对光弹实验数据的分析与处理,在对比不同加载方式下应力积累区域和地震危险点的基础上,判定渤海强震构造区中的地震危险区域。     

沂沭断裂带现代构造应力场和震源错动性质

本文系统地研究了沂沭断裂带小震震源机制解,推断了本区现代构造应力场取向及其分段差异性,以及震源断层面产状、错动性质。同时考察了沂沭带现今活动断裂的性状及构造形变特征,进而对断层错动方式、特征进行了分析。最后讨论了沂沭断裂带的受力模型及未来地震危险地段。     

沂沭断裂带及其附近地区构造应力场研究概要

查阅了前人关于沂沭断裂带及其附近地区的构造应力场研究,系统地归纳并分析了这一地区构造应力场演化特征。结果显示,伴随着沂沭断裂带活动习性在不同时期的差异,沂沭断裂带及其附近地区古构造应力场的主应力轴方向在不同时期变化较大,构造应力值在区域内为100 MPa左右;现代构造应力场主应力轴方向基本一致,为NEE向,构造应力值随深度增加,近地表在3 MPa 左右,深部可达几十至100 MPa数量级。但无论主应力轴方向或者构造应力值大小,在局部区域均有一定的复杂性。     

2011年日本MW9.0地震对沂沭断裂带及其两侧地区地壳运动的同震影响研究

2011年日本M_W9.0地震（简称日本地震）后沂沭断裂带及其两侧地区地震活动显著增强,研究日本地震对该地区地壳运动及地震潜势的影响十分必要.为此,本文通过112个连续GPS观测站获取了研究区高空间分辨率的日本地震同震形变场并得到如下认识：（1）8个定点地球物理观测的同震响应验证了本文同震形变场的可靠性;日本地震的东向拉张使研究区整体上处于张性同震应变状态,但存在局部挤压区域,其中莱州湾至海州湾的挤压条带穿过沂沭断裂带并对断裂带南北两段产生了不同的同震作用,对南段具有拉张作用,对北段产生挤压作用;（2）同震形变场在鲁东隆起和鲁西断块产生了显著的剪应变,地震b值显示上述区域的构造应力在日本地震后增强,因此同震形变场可能改变了这些区域的应力特征;（3）地震矩张量叠加分析显示,同震形变场短期内对鲁西断块、鲁东隆起区和沂沭断裂带南段累积了地震矩,可能有助于上述区域在日本地震以后的地震活动增强;日本地震对沂沭断裂带北段的地震矩具有释放作用,或许是该区域地震活动减弱的原因.     

沂沭带形变、重磁场时空变化特征与地震活动

综合利用流动水准和流动重磁复测资料,分析沂沭断裂带上地壳形变场和地球物理场的时空强变化特征,揭示沂沭断裂带活动特征是以鲁中隆起的继承性活动为主,沂沭带北端的双山-李家庄断裂两盘的垂直形变受区域断裂控制并与区域地震活动有关,与1983年荷泽地震和1995年苍山地震有较好对应关系;沂水附近地磁场有“窗口效应”,尤其与南黄海地震活动及沂沐断裂带上的小震活动有关。     

郯庐断裂带沂水-汤头断裂南段晚第四纪活动新证及构造意义

以往对郯庐断裂带沂沭段各条断层第四纪活动性研究工作都集中在有历史地震记录的东地堑断层,而对断裂带西地堑断层却极少涉及,仅有的关于西地堑2条断层活动性的研究也至今没有定论。针对沂沭断裂带南段西地堑2条断层开展系统的浅层地震勘探和钻孔联合剖面相结合的研究,明确了鄌郚-葛沟断裂(F4)可能是第四纪早期断裂,而活动性较强的沂水-汤头断裂(F3)属于晚更新世活动断裂,其最新1次活动时间发生在距今(91.2±4.4)~(97.0±4.8)ka。结合断裂带其他断层的最新研究成果,对比东、西地堑活动断层最新活动时间,揭示出沂沭断裂带南段晚第四纪活动是断裂带对来自两侧应力的构造响应。沂水-汤头断裂可能是该区域未来中强地震的潜在发震构造。     

沂沭断裂带重力场及地壳结构特征

沂沭断裂带为郯庐断裂带山东段,新构造运动显著,是华北地区的强震活动带之一。文中收集了该地区的布格重力数据,利用小波多尺度分析方法对重力场进行有效分离,研究区域地壳结构特征及断裂空间展布,并应用Parker变密度模型对区域莫霍面进行反演分析,得到以下几点结论:1)重力区域场显示,沂沭断裂带形成了NNE走向的大型重力梯度带,分隔了鲁西、鲁东地块,成为区域内重要的地球物理分界线。2)重力局部场显示,中上地壳结构复杂,沂沭带内部呈现两堑一垒的重力异常格局,5条主干断裂形成线性梯度带分布于东、西地堑内,鲁西块体的多条NW向活动断裂交切于沂沭断裂带,多数断裂只交切于西地堑,而蒙山山前断裂和苍尼断裂横穿沂沭断裂带;下地壳结构相对简单,发生明显的褶曲构造,表现出大规模高、低密度异常相间排列的典型特征。3)区域莫霍面形态东高西低,沂沭断裂带形成了莫霍面陡变带,造成了东西分异格局,潍坊东—莒县—临沂一线出现莫霍面上隆区,具有强震发生的深部孕震环境。4)区域内地震多发于高、低重力异常转化带之间,特别是活动断裂对应的重力梯度条带之上,地震的发生与断裂活动有着密切的关系,沂沭断裂带地震活动性最强,且东地堑强于西地堑。     

沂沭断裂带及其两侧块体现今构造应力场与地震活动

运用格点尝试法推断了沂沭断裂带现状构造应力场的分段受力环境,初步分析了沭断裂带及其两侧块体在中强地震前后构造应力环境的变化特点。其变化特点为：震前３个区主应力方位值有一个明显的增大趋势;３个区的增大变化为不同步;沂沭带主应力方位值增大出现时间较晚,增幅较大,为阶跃性增大;山东东部的主张应力方位值幅度增大,持续达４年以上,震后３个区主应力方位值出现明显的同步性回落,沂沭带的主应力降幅巨大。     

沂沭断裂带内部的差异活动及其成因分析

郯庐断裂带在山东境内被称为沂沭断裂带的部分是其新构造活动最为强烈的一段.许多学者对沂沭断裂带做过大量研究工作,指出沂沭带活动存在差异性,但较少关于差异活动的原因分析.本文在前人研究工作基础上,较为深入地分析了沂沭带5条断裂的主要活动规律及其特点,对沂沭带进行了新的分段,并归纳了沂沭带不同断裂之间、同一断裂不同段落之间的活动差异及其差异的基本特征.在此基础上,从地貌、断裂结构、断裂空间组合、现代运动、深部构造环境等几个方面,分析阐述了造成沂沭带差异活动的可能原因,为更深入地研究沂沭带提供了新鲜的启示和思路.     

1668年郯城8.5级地震的发震构造

本文探讨了1668年郯城8.5级地震的震中位置及该次地震的发震构造。认为其震中可定在泉源、李庄、岌山一带,地理位置为东经118.5°,北纬34.8°。认为郯庐断裂带上强震的发生有其一定的规律。郯城地震发生在沂沭断裂带强活动、空间上强转移以及复发间隔长的地段,该地段位于鲁西断块和沂沭断裂带扭曲变形的构造部位,是特定的发震构造。     

A circum-earth shear zone at low-latitudes and episodic large earthquakes in it and the circum-Pacific seismic zone

Although the temporal and spatial distribution of earthquakes looks like non-uniform, it is not com- pletely random. Locations of seismic zones are associ- ated with active tectonics. On a global or regional scale, several major or great earthquakes occur…     

阿留申—阿拉斯加俯冲带及周边地区地幔过渡带结构研究

利用国家测震台网固定台站和“中国地震科学台阵探测”项目在南北地震带北段布设的宽频带流动台阵记录到的极远震事件,通过SS前驱波震相研究,获得了阿留申—阿拉斯加俯冲带东段及邻区下方410 km和660 km间断面的埋深和起伏形态特征.为增强对SS前驱波震相的识别,我们采用了时差校正和共反射点叠加分析.叠加结果显示,毗邻阿留申俯冲带的白令海、阿拉斯加半岛、以及阿拉斯加中南部和东部地区下方,410 km和660 km间断面的埋深基本呈正相关关系,因而具有正常的过渡带厚度.这表明在阿留申—阿拉斯加俯冲带东段,北太平洋板块还没有俯冲到地幔过渡带深度范围内.其次,在阿拉斯加西部地区下方,660 km间断面出现明显下沉,而上覆的410 km间断面埋深接近于全球平均值,从而导致过渡带明显加厚.据此,我们推测在阿拉斯加西部地区下方地幔过渡带底部可能存在库拉残留板块.     

Mianlüe tectonic zone and Mianlüe suture zone on southern margin of Qinling-Dabie orogenic belt

The Mianlue tectonic zone (Mianlue zone), an ancient suture zone in addition to theShangdan suture in the Qinling-Dabie orogenic belt, marks an important tectonic division geo-logically separating north from south and connecting east with west in China continent. To de-termine present structural geometry and kinematics in the Mianlue tectonic zone and to recon-struct the formation and evolution history involving plate subduction and collision in theQinling-Dabie orogenic belt, through a multidisciplinary study, are significant for exploring themountain-building orogenesis of the central orogenic system and the entire process of the majorChinese continental amalgamation during the Indosinian.     

Growing new generations of critical zone scientists

Critical zone (CZ) science is entering its second decade. A new generation of scientists is emerging trained specifically in CZ science and are contributing to advances in environmental science across disciplines. Concurrently, the global scope of CZ science is being elevated as new countries invest in CZ observatories. Global CZ science has great potential to address a diverse array of questions beyond any single discipline. In this commentary we discuss a series of CZ science grand challenges that should be targeted by early‐career researchers: understanding water availability in the CZ; expanding CZ science into new environments; communicating the societal relevance of CZ science including earthcasting to the public; seamlessly integrating biological sciences within the CZ framework; and scaling CZ processes over large spatial and temporal gradients. Targeting these grand challenges will push CZ science well into the future. We also highlight mechanisms for increased leadership within the CZ community. Copyright © 2017 John Wiley & Sons, Ltd.     

Fault zone structures of northern and southern portions of the main central fault generated by the 2008 Wenchuan earthquake using fault zone trapped waves

The rupture process of the May 12,2008 MS8.0 Wenchuan earthquake was very complex. To study the rupture zones generated by this earthquake,four dense temporary seismic arrays across the two surface breaking traces of the main-shock were deployed in July and recorded a great amount of aftershocks. This paper focuses on the data interpretation of two arrays across the central main fault,the northern array line 1 and southern array line 3. The fault zone trapped waves recorded by the two arrays were used to st...     

Cross-shore variation of long-term average longshore current velocity in the nearshore zone

The cross-shore variation of long-term average longshore current velocity was investigated on the basis of a 15-year data set of longshore current, wave and wind. The longshore current velocities were measured once a day along a 427-m-long pier. The results show that the direction of the long-term average longshore current velocity away (>200 m) from the shore was the opposite to that near the shore. The southward current was dominant offshore, whereas the northward current was dominant near the shore. The cross-shore variation of the long-term average longshore current velocity was formed owing to a difference between the wave and wind conditions when the northward and southward currents developed. When the northward current developed, the offshore wave height was relatively small and the frequency of the southward wind velocity was almost equal to that of the northward one. As a result, the northward current developed only near the shore and decayed outside the narrow surf zone. On the other hand, when the southward current developed, the offshore wave height was relatively large and the southward wind velocity was predominant, which resulted in the southward current developing not only in the wide surf zone but also outside the surf zone. The superposition of the two cross-shore variations produced a cross-shore variation of the long-term average longshore current velocity with a northward velocity near the shore and a southward velocity away from the shore.     

基于遥感技术研究依兰-伊通断裂带

郯庐断裂带是中国东部的大型走滑断裂, 在沈阳以北由一支分为两支: 依兰—伊通断裂带和敦化-密山断裂带。 利用遥感数据并结合DEM (数字高程模型)数据对郯庐断裂带北段的依兰-伊通断裂带进行了分析研究。 根据该断裂带的形态特征将其划分成三段(沈阳—开原段、 开原—依兰段、 依兰—萝北段)。 沈阳—开原段为单条断裂, 它分隔了下辽河平原和辽东山地; 开原—依兰段为双边不对称断裂, 两支断裂相向内倾形成地堑, 隔大黑山分隔了松辽盆地和那丹哈达岭; 依兰-萝北段断裂较为隐伏, 该段是小兴安岭和三江盆地的分界。 通过分析依兰—伊通断裂带对河流和其他断裂的错动情况, 进一步揭示了郯庐断裂带曾经历了早期左旋走滑和后期右旋走滑的历史。 另外还对伊通地堑进行了较为详细的描述及说明, 通过对其DEM作横向和纵向的剖面分析证实了其西北边界为主要控盆断裂。     

Electrical conductivity anomaly in the Lanzhou-Xi’an-Zhengzhou zone

It has been found, on the basis of SSC and geomagnetic bays variations, that there is zone of a nearly vanishingZ component in the east-west trend along the Lanzhou-Xi’an-Zhengzhou zone, and it is called the Lanzhou-Xi’an-Zhengzhou anomalous zone of electrical conductivity. There are some relationships between the goelogical and geophysical characteristics along this zone. It is deduced that the zone may be a zone of weakened crust or a boundary between two sub-plates and it is also deduced that this zone is probably related to channelling effects of induced currents in a large region.     

Crustal structure in Xiaojiang fault zone and its vicinity

Based on the integrative interpretation of travel-time data and amplitude information obtained from the deep seismic sounding experiment on the Chuxiong-Luoping profile,eastern Yunnan province,carried out in January of 2005,we present a 2-D P wave velocity structure along the profile. The crustal structure shows remarkable contrasts between the two sides of the Xiaojiang fault zone,although the whole profile is situated within the Yangtze platform. The average P wave velocities of the crust on the west and ...     

A viscoelastic shear zone model of compressional and extensional plate boundaries

A model is proposed describing the mechanical evolution of a shear zone along compressional and extensional plate boundaries, subject to constant strain rate. The shear zones are assumed as viscoelastic with Maxwell rheology and with elastic and rheological parameters depending on temperature and petrology. Stress and strain are computed as functions of time and depth. For both kinds of boundaries the model reproduces the existence of a shallow seismogenic zone, characterized by a stress concentration. The thickness of the seismogenic layer is evaluated considering the variations of shear stress and frictional strength on faults embedded in the shear zone. Assuming that a fault dislocation takes place, the brittle-ductile transition is assumed to occur at the depth at which the time derivative of total shear stress changes from positive to negative values. The effects of different strain rates and geothermal gradients on the depth of the brittle-ductile transition are studied. The model predictions are consistent with values inferred from seismicity data of different boundary zones.