嫩江断裂带北段的第四纪活动特征初步研究

嫩江断裂带是松辽盆地的西边界断裂,但受第四系强覆盖等研究条件的限制,前人对该断裂第四纪构造活动的研究较少。本文针对该断裂带北段开展了野外地质调查,并综合大地电磁测深和纵波速度结构等结果,初步研究了嫩江断裂带北段的第四纪活动特征。调查发现,该断裂北段主要发育地貌陡坎、基岩滑坡、地层揉皱变形、近垂直擦痕、基岩崩塌与线性断塞塘等特征。探槽古地震研究揭示断裂带北段在（80.9±4.6）—（62.9±2.3）ka BP曾发生1次古地震事件,运动方式为正断,垂直位移量约1.5m,震级约为M_S 7.1—7.3,断裂在晚更新世曾发生过强烈活动。研究结果有助于认识了解该断裂和松辽盆地的第四纪构造变形过程,并为评价该断裂及邻区的地震活动潜势提供参考。     

三维激光扫描技术与断层面形貌量化分析在基岩区古地震研究中的应用

由于对第四纪地层的严重依赖,传统古地震探槽研究方法在基岩区难以发挥作用,导致无法获取基岩区断层的强震活动历史。本研究以山西地堑系的交城断裂为目标断裂,以断裂北段2处基岩断层面为研究对象,通过三维激光扫描技术获取基岩断层面高精度形貌,基于变差函数法结合滑动窗口操作量化断层表面形貌特征,开展在基岩区提取断裂古地震信息的实例研究。结果显示,2处基岩断层面的形貌在高度上具有明显的分段特征,指示了断层面在地震事件作用下的分段出露过程。这种断层面形貌分段特征可以用来识别古地震事件和同震位移量。在思西村基岩断层面上,识别出由老到新的3次古地震事件,同震倾滑位移量依次为2.0 m、1.9 m和2.3 m,在上兰镇基岩断层面上,识别出由老到新的3次古地震事件,同震倾滑位移量依次为1.4 m、2.5 m和2.0 m,指示了交城断裂北、中段具有产生同震位移量大于2 m、震级大于7.5级的破裂型地震的能力。上述研究成果表明,基于三维激光扫描和形貌量化分析方法开展基岩断层面古地震研究,可以准确而高效地识别古地震事件次数和同震位移量,扩展古地震的研究对象,拓宽古地震的研究空间。在未来的研究中,可以适时地开展宇宙成因核素测年以测定断层面的暴露年龄,获得发震年代,给予地震序列年龄框架。     

渭河断陷南缘断裂带新活动特征与古地震

渭河断陷南缘断裂带东起潼关,西至宝鸡,全长310公里,它的主边界断裂包括有华山山前断裂、秦岭北缘断裂。本文根据近年1∶5万活动断裂地质填图最新详细资料研究了断裂的活动历史、分段性及其构造活动特征。华山山前断裂晚第四纪以来具有明显的新活动,沿断裂带及其两侧分布有最新断层崖、基岩裂缝、黄土裂缝、山体崩(滑)塌体等众多的地震形变和破坏遗迹,华山山前断裂应是1556年华县8级大地震的发震断层。据华山山前断裂古地震剖面分析大地震重复间隔约2000—2500年,秦岭北缘断裂同样存在有基岩崩(滑)塌、裂缝、断层崖等古地震形变遗迹,由古地震剖面分析其大地震重复间隔约为2000—4000年之间。     

利用卫星图像研究西藏羌塘及邻区的断裂活动性

利用１／５０万彩色合成镶嵌的卫星图像,对羌塘块体及邻近大约５０万ｋｍ２地区的断裂活动性进行分析判读。根据断裂的影像特征,将所判读的断裂分成全新世活动、晚更新世活动和第四纪早、中期活动３类。结合本世纪以来的地震活动,分析了主要断裂的活动性。例如位于羌塘盆地以北,全新世明显左行走滑的玛尔盖茶卡－若拉错断裂带上,１９９７年１１月８日发生了玛尼７．５级地震,是该断裂带现代活动的表现     

岷山隆起的构造地貌学研究

岷山隆起为一第四纪强烈抬升区，构成川西高原的西界。岷山隆起的东、西边界分别受岷江断裂与虎牙断裂的控制，为地震活动带，南部向龙门山构造带过渡。岷江断裂北段的第四纪活动始于距今２Ｍａ以前，为一逆走滑断层，观测到的左旋位移量为２．４ｋｍ，左旋滑动速率为１ｍｍ／ａ。岷江断裂控制了沿隆起西界分布的地震活动，包括１９３３年叠溪和１９６０年漳腊地震     

合肥盆地东缘北西向断裂活动性

对合肥盆地东缘基岩区的NW向断层剖面进行了观察和年代样品测试,并跨其中1条断层布设了浅层地震勘探测线;结合本区第四系厚度和沉积特征,对浅震测线时间剖面进行了地质解释。根据调查所揭示的剖面特征、断层泥ESR测年数据、浅层地震勘探结果及本区的中强地震活动构造背景,认为这组NW向断裂中更新世有过活动;合肥盆地东缘NW向横向断裂的第四纪活动情况与断裂所在地区的新构造环境有关,尽管断层泥测年结果表明断裂在中更新世有过活动,但其活动强度不大。     

鲜水河活动断裂带地震地质研究的新进展

鲜水河断裂带是我国西部著名的断裂之一。通过对鲜水断裂带所进行的１／５万地质填图及相应的工作，对该断裂带的演化历史。组合形成，分段性和各段的活动习性，古地震与历史地震的复发间隔等方面的研究，都取得了新的进展。     

夏垫断裂带深部构造特征与第四纪活动性讨论

利用重力、浅层地震和高密度电阻率法物探工作成果,由深及浅垂向上“接力拼接”的方式,结合钻探等手段,把夏垫断裂带分解为基岩断裂带和第四纪断裂带2个部分进行研究,结果表明:1)夏垫断裂带的基岩断裂带由主干断裂和次级断裂构成.其北段(马坊-西集一带)较窄,由2条主干断裂构成.其南段(西集-凤河营一带)较宽,由3条主干断裂构成.2)第四纪断裂带是基岩断裂带向上延伸的部分,是断裂带最新活动的直观表现,并受控于基岩断裂带.夏垫第四纪断裂带同样由主干和次级断裂构成,北段(马坊-西集一带)由2条主干断裂和分布于北端尾部次级断裂构成,与基岩断裂带一一对应关系较好.2条主干断裂产状差异较大,最新活动时间均为全新世.而南段(西集-凤河营一带)断裂分布不连续,很难分清主次断裂,同基岩断裂带的对应关系较差,推测为基岩断裂中夏垫断裂的活动.这些主、次级断裂产状均较为陡立,最新活动时间为晚更新世晚期-全新世早期.3)夏垫断裂带内上、下两盘全新世沉积底界垂向累积位错量为1.7 ～4.8m,晚、中、早更新世以来则分别为6 ～ 26m、26 ～ 167m和44 ～ 330m,其中最大累积位错量位于夏垫地区,向南、北逐渐减小.4)以张家湾断裂为界把夏垫断裂带划分为南、北2段.北段第四纪活动性强,中强震及微小地震时有发生,而南段第四纪活动性弱,仅发生微小地震.     

江西中北部基岩区断层泥显微构造特征及意义

如何在相对稳定的基岩区开展断裂活动性调查与发震构造判定是一项具有挑战性的研究工作。江西中北部瑞昌-铜鼓断裂和宜丰-景德镇断裂主要发育在前新生代基岩区,但存在第四纪有过活动的地质和年代学证据,是2条重要的中强地震构造带。在这2条断裂露头剖面上均发育断层泥条带,断层泥显微构造图像揭示了丰富的构造变形现象,构造成因机制明确。在变形方式上,断层泥显微构造中既发育Y剪切、R剪切以及棱角状、次棱角状碎斑等等局部化脆性变形特征,又有P叶理和碎屑颗粒拖尾构造等韧性变形特征。在中强地震发生过程中,沿着发震构造的近地表滑动面很可能存在微观尺度的构造变形。在缺少第四纪活动证据的湖口-新干断裂南段露头剖面上采集的松软物质的显微构造研究结果,反映了断裂构造带上泥状松软物质也可以是后期雨水淋滤充填或风化的产物。在野外现场观察中,断裂滑动面上构造成因与非构造成因的泥状松软物质有时很难进行区分;而在室内磨制的薄片显微构造观察中,两者之间的显微构造差异明显。华南相对稳定的基岩区常常是中国重大工程(如核电厂)选址中优先考虑的地区,同时也是中国经济发达、人口密集的城市群主要分布区;在这些地区的地震构造环境评价中,断层泥显微构造研究为鉴定断裂活动性、判定中强地震发震构造提供了可以借鉴的技术途径。     

GIS支持下银川盆地地震与活动断裂关系研究

在建立了银川盆地活动断裂和地震资料数据库的基础上,利用缓冲区分析、叠加分析和统计分析等方法,进行GIS支持下的地震与活动断裂关系的研究,探明了以20 km为半径的缓冲区内包含了约95%的地震,区内的近代地震主要沿全新世活动断裂分布,正断裂的单位地震数较高,在断裂交汇区地震分布较集中。研究结果表明,GIS技术是地震与活动断裂关系研究的有效手段。     

新疆阿克苏大石峡水电站附近活动断层的基本特征

通过对大石峡水电站附近的多条活动断层研究表明:库车坳陷西段的乌什坳陷区内,主要发育有两排新隆起的活动褶皱,由北向南依次为沙依拉木背斜带和苏尔滚背斜带;区内的活动断层主要以NE向为主,其中较大的断层有阔克沙勒断层、迈丹—沙依拉木断层和库齐隐伏断层。研究区中对场地影响较大的断层为迈丹—沙依拉木断层和大石峡口山前断层,它们均表现为东西分段特性,断层整体活动程度西强东弱。库齐隐伏断层是一条晚更新世末期的活动断层,最新的活动时代为距今1.4万年左右。     

THE NEW ACTIVITY OF TAN-LU FAULT ZONE IN SEGMENT OF DAHONGSHAN SINCE LATE QUATERNARY

The relationship between the latest activity of active fault and seismic events is of the utmost importance. The Tan-lu fault zone in eastern China is a major fault zone, of which the active characteristics of the segments in Jiangsu, Shandong and Anhui has been the focus of research. This study takes the Dahongshan segment of the Tanlu Fault in Sihong County as the main research area. We carried out a detailed geological survey and excavated two trenches across the steep slope on the southwest side of the Dahongshan. Each trench shows fault clearly. Combining the comparative analysis of previous work, we identified and cataloged the late Quaternary deformation events and prehistoric earthquake relics, and analyzed the activity stages and behavior of this segment. Fault gonge observed in the trench profiles shows that multiple earthquake events occurred in the fault. The faulting dislocated the Neogene sandstone, black gravel layer and gray clay layer. Brown clay layer is not broken. According to the relations of dislocated stratums, corresponding ¹⁴C and OSL samples were collected and dated. The result indicates that the Dahongshan segment of the Tanlu Fault has experienced strong earthquakes since the late Quaternary. Thrust fault, normal fault and strike-slip fault are found in the trenches. The microscopic analysis of slices from fault shows that there are many stick-creep events taking place in the area during the late Quaternary. Comprehensive analysis shows that there have been many paleoearthquakes in this region since the late Quaternary, the recent active time is the late Pleistocene, and the most recent earthquake event occurred in(12~2.5ka BP). The neotectonic activity is relatively weak in the Anhui segment(south of the Huaihe River)of Tanlu fault zone. There are difficulties in the study of late Quaternary activity. For example, uneven distribution of the Quaternary, complex geological structure, larger man-made transformation of surface and so on. The progressive research may be able to promote the study on the activity of the Anhui segment of Tanlu fault zone.     

STUDY ON THE LATEST ACTIVITY OF WUYUNSHAN-HEFEI FAULT IN HEFEI BASIN,THE WESTERN BRANCH OF THE TANLU FAULT ZONE

Tanlu fault zone is the largest strike-slip fault system in eastern China. Since it was discovered by aeromagnetics in 1960s, it has been widely concerned by scholars at home and abroad, and a lot of research has been done on its formation and evolution. At the same time, the Tanlu fault zone is also the main seismic structural zone in China, with an obvious characteristic of segmentation of seismicity. Major earthquakes are mostly concentrated in the Bohai section and Weifang-Jiashan section. For example, the largest earthquake occurring in the Bohai section is M7.4 earthquake, and the largest earthquake occurring in the Weifang-Jiashan section is M8.5 earthquake. Therefore, the research on the active structure of the Tanlu fault zone is mainly concentrated in these two sections. With the deepening of research, some scholars carried out a lot of research on the middle section of Tanlu fault zone, which is distributed in Shandong and northern Jiangsu Province, including five nearly parallel fault systems, i.e. Changyi-Dadian Fault(F₁), Baifenzi-Fulaishan Fault(F₂), Yishui-Tangtou Fault(F₃), Tangwu-Gegou Fault(F₄) and Anqiu-Juxian Fault(F₅). They find that the faults F₃ and F₅ are still active since the late Quaternary. In recent years, we have got a further understanding of the geometric distribution, active age and active nature of Fault F₅, and found that it is still active in Holocene. At the same time, the latest research on the extension of F₅ into Anhui suggests that there is a late Pleistocene-Holocene fault existing near the Huaihe River in Anhui Province. The Tanlu fault zone extends into Anhui Province and the extension section is completely buried, especially in the Hefei Basin south of Dingyuan. At present, there is little research on the activity of this fault segment, and it is very difficult to study its geometric structure and active nature, and even whether the fault exists has not been clear. Precisely determining the distribution, active properties and the latest active time of the hidden faults under urban areas is of great significance not only for studying the rupture behavior and segmentation characteristics of the southern section of the Tanlu fault zone, but also for providing important basis for urban seismic fortification. By using the method of shallow seismic prospecting and the combined drilling geological section, this paper carries out a detailed exploration and research on the Wuyunshan-Hefei Fault, the west branch fault of Tanlu fault zone buried in Hefei Basin. Four shallow seismic prospecting lines and two rows of joint borehole profiles are laid across the fault in Hefei urban area from north to south. Using ¹⁴C, OSL and ESR dating methods, ages of 34 samples of borehole stratigraphic profiles are obtained. The results show that the youngest stratum dislocated by the Wuyunshan-Hefei Fault is the Mesopleistocene blue-gray clay layer, and its activity is characterized by reverse faulting, with a maximum vertical offset of 2.4m. The latest active age is late Mesopleistocene, and the depth of the shallowest upper breaking point is 17m. This study confirms that the west branch of Tanlu fault zone cuts through Hefei Basin and is still active since Quaternary. Its latest activity age in Hefei Basin is late of Middle Pleistocene, and the latest activity is characterized by thrusting. The research results enrich the understanding of the overall activity of Tanlu fault zone in the buried section of Hefei Basin and provide reliable basic data for earthquake monitoring, prediction and earthquake damage prevention in Anhui Province.     

试论地质学者的地震理念

地质学者认为断层是震源在地表的表现。在这一理念的基础上,文中讨论了如何通过活断层定量研究开展强震预测。强震地点预测的依据是断层活动性调查。在这方面强调航片判读和野外断层地形学的调查,由此获取断裂带的最新活动时期。对于确认的晚第四纪以来活动的断裂带,认为其将来具有发生强震的潜势。强震的活动强度从调查活断层的长度和同震位移入手。全球大量的历史地震和现今地震表明,断层长度与地震震级之间、以及同震位移与地震震级之间存在正比例关系。有关强震时间的预测,需要获知各条断裂带的强震间隔和最新活动的离逝时间。尽管通过断层的活动速率和同震位移的比值可获取断裂带的强震平均间隔,但通过探槽调查获取古地震活动的年代对分辨各条断裂带强震活动的个性特征仍十分重要。文中多处引用了日本活断层研究的资料和松田?彦教授的认识。最后简要回顾了中国活断层研究过程中的几个重要事件     

辽东半岛沿海地区海岸地貌及其所反映的新构造运动

本文根据辽东半岛沿海126条海岸阶地剖面资料统计出区内各类海岸地貌的级数和高度,作者认为:海积地貌面主要是全新世中期形成的;Ⅰ—Ⅴ级海蚀阶地是更新世各期形成的。通过海岸阶地纵剖面分析了本区新构造运动,提出了金州断裂和鸭绿江断裂是本区主要的活动断裂。作者还指出本区的海岸阶地与下辽河盆地的海侵层可能具有成因联系,并据此定量地分析了它们间的相对运动     

活动断裂带上的粘滑和蠕滑标志及其研究意义

简要概述活动断裂带上粘滑与蠕滑标志研究进展,着重探讨活动断裂带中赋存的显微粘滑与蠕滑标志,立足于天然断错产物的微观观测与岩石实验成果相结合的分析,初步提出一些对比性较好的的活动方式标志,以此为活动断裂带粘滑和蠕滑段的划分提供微观依据,并就微观粘、蠕滑标志在断裂分段中的应用、定向微观活动方式标志的运动学和动力学意义以及利用其确定古地震期次和重复间隔等作了有益的讨论.     

IDENTIFICATION OF PALEO-EARTHQUAKES OF LUOYUNSHAN PIEDMONT FAULT BY QUANTITATIVE MORPHOLOGY OF LIMESTONE FAULT SURFACES

The quantitative analysis of morphologic characteristics of bedrock fault surface is a useful approach to study faulting history and identify paleo-earthquake. It is an effective complement to trenching technique, specially to identifying paleo-earthquakes in a bedrock area where the trenching technique cannot be applied. This paper focuses on the Luoyunshan piedmont fault, which is an active normal fault extending along the eastern boundary of the Shanxi Graben, China. There are a lot of fault scarps along the fault zone, which supply plentiful samples to be selected to our research, that is, to study faulting history and identify paleo-earthquakes in bedrock area by the quantitative analysis of morphologic characteristics of fault surfaces. In this paper, we calculate the 2D fractal dimension of two bedrock fault surfaces on the Luoyunshan piedmont fault in the Shanxi Graben, China using the isotropic empirical variance function, which is a popular method in fractal geometry. Results indicate that the fractal dimension varies systematically with height above the base of the fault surface exposures, indicating segmentation of the fault surface morphology. The 2D fractal dimension on a fault surface shows a ‘stair-like’ vertical segmentation, which is consistent with the weathering band and suggests that those fault surfaces are outcropped due to periodic faulting earthquakes. However, compared to the results of gneiss obtained by the former researchers, the characteristic fractal value of limestone shows an opposite evolution trend. 1)The paleo-earthquake study of the bedrock fault surface can be used as a supplementary method to study the activity history of faults in specific geomorphological regions. It can be used to fill the gaps in the exploration of the paleo-earthquake method in the bedrock area, and then broaden the study of active faults in space and scope. The quantitative analysis of bedrock fault surface morphology is an effective method to study faulting history and identify paleo-earthquake. The quantitative feature analysis method of the bedrock fault surface is a cost-effective method for the study of paleo-earthquakes in the bedrock fault surface. The number of weathered bands and band height can be identified by the segment number and segment height of the characteristic fractal dimension, and then the paleoearthquake events and the co-seismic displacement can be determined; 2)The exposure of the fault surface of the Luoyunshan bedrock is affected and controlled by both fault activity and erosion. A strong fault activity(ruptured earthquake)forms a segment of fault surface which is equivalent to the vertical co-seismic displacement of the earthquake. After the segment is cropped out, it suffers from the same effect of weathering and erosion, and thus this segment has approximately the same fractal dimension. Multiple severe fault activities(ruptured earthquake)form multiple fault surface topography. The long-term erosion under weak hydrodynamic conditions at the base of the fault cliff between two adjacent fault activities(intermittent period)will form a gradual slow-connect region where the fractal dimension gradually changes with the height of the fault surface. Based on the segmentation of quantitative morphology of the two fault surfaces on the Luoyunshan piedmont fault, we identified four earthquake events. Two sets of co-seismic displacement of about 3m and 1m on the fault are obtained; 3)The relationship between the fault surface morphology parameters and the time is described as follows:The fractal dimension of the limestone area decreases with the increase of the exposure time, which reflects the gradual smoothing characteristics after exposed. The phenomenon is opposite to the evolution of the geological features of gneiss faults acquired by the predecessors on the Huoshan piedmont fault; 4)Lithology plays an important role in morphology evolution of fault surface and the two opposite evolution trends of the characteristic fractal value on limestone and gneiss show that the weathering mechanism of limestone is different from that of the gneiss.     

哈尔滨市主要断裂未来地震危险性评价

哈尔滨市目标区内主要断裂断错地表的最新活动时代为第四纪早期,晚更新世以来无断错地表的活动迹象。通过对城市活动断层地震危险性评价的技术思路、哈尔滨市工作区的地震地质环境与潜在震源区划分、目标区主要断裂活动特征的综合分析,确定了目标区内3条主要断裂未来可能发生地震的最大震级,并以兴安-东蒙活动地块与工作区作为分析的两种范围尺度,在适当调整工程地震学地震危险性概率分析方法的基础上,综合估算了目标区和目标区内单条断裂未来100年的发震概率。结果表明:哈尔滨市目标区主要断裂未来发生4.0级上破坏性地震的可能性极小,可能地震的最大震级为MS5.5     

利用地震剖面研究夏垫断裂西南段的活动性

地震方法是针对厚覆盖区城市直下型活动断裂的一种不可替代的探测技术,对于不同的探测深度需采用不同的排列长度。为研究夏垫断裂在远离三河-平谷8.0级地震震源区的活动性,我们在该震源区SW方向约30km处开展了中浅层反射地震探测试验,并跨过中浅层地震探测到的夏垫断裂进行了浅层反射地震探测试验。浅层和中浅层地震探测的试验结果表明,在5m道间距的地震剖面上,在200m深度以下夏垫断裂得到了较好的反映,在该深度以上,该断裂反映不明显;在2m道间距的地震剖面上,夏垫断裂错断明显,但剖面上的最浅一组反射波(深度约30m)却没有发生明显错断。由此得出:距1679年三河-平谷8.0级地震震源位置SW方向约30km处,夏垫断裂的活动性减弱     

沂沭断裂带安丘-莒县断裂安丘-朱里段几何结构与活动特征

安丘-莒县断裂是沂沭断裂带最主要的活动断裂,对强震的发生具有明显的控制作用。该断裂的安丘—朱里段由南流段、双官—眉村段和朱里段3条右阶斜列的次级断裂所组成,以右旋走滑活动为主,兼有正断或逆冲活动分量;其最新活动时代推断为晚更新世—全新世早期。根据断裂活动性的最新研究成果,认为在莒县至昌邑之间安丘-莒县断裂仍是占主导地位的活动断裂,与公元前70年安丘7级地震的发生具有密切关系