青藏块体东北缘及其周围地区现今时空运动变形特征

依据非连续变形分析(DDA)方法，考虑特定块体边界不同程度的适度侵入，利用3期GPS观测资料(1991、1999、2001年)，建立了青藏块体东北缘及其周围地区的一级块体运动模型和划分较细的、反映较小区域运动变形的较理想块体运动模型。模拟得到了研究区内北西西向大断裂间一级块体的运动变化特征、研究区主应变率场的分布特征及青藏块体北边界断裂的分段非均匀时空运动特征。     

青藏块体东北缘及其周围地区现今时空运动变形科特征

依据非连续变形分析(DDA)方法,考虑特定块体边界不同程度的适度侵入,利用3期GPS观测资料(1991、1999、2001年),建立了青藏块体东北缘及其周围地区的一级块体运动模型和划分较细的、反映较小区域运动变形的较理想块体运动模型.模拟得到了研究区内北西西向大断裂间一级块体的运动变化特征、研究区主应变率场的分布特征及青藏块体北边界断裂的分段非均匀时空运动特征.     

青藏块体东北缘近期GPS水平运动特征与汶川大震影响

利用青藏块体东北缘2004～2007年、2007～2009年GPS水平运动观测资料,分析地壳运动与活动断裂带构造变形演化特征以及汶川大震对活动断裂的影响。研究表明:祁连山—海原断裂带近期仍呈现与其构造活动背景一致的左旋挤压特性,观测结果未显示汶川大震对断裂有明显影响。而汶川大震对西秦岭构造区中东部、六盘山断裂中南段、秦岭北麓与渭河断裂的西段的影响相对显著,其中对西秦岭构造区中东部的大范围区域应变积累可能呈以增强为主的影响,其它断裂段近期可能呈以调整为主的状态特征。     

青藏块体东北缘重力场演化与地震活动

通过对青藏块体东北缘重力观测资料进行整体平差计算 ,系统分析了 1 992～ 2 0 0 1年重力场的时空动态演化特征及其与地震活动的关系 .结果表明 :利用统一起算基准获得的青藏块体东北缘重力观测资料 ,较完整地反映了青藏块体东北缘孕震过程中出现的流动重力前兆信息 .在地震孕育发生阶段 ,重力场出现较大范围的区域性重力异常 ,并产生与地震孕育发生有关的局部重力异常区 .重力场动态图象较清晰地反映了区域重力场的有序性演化与地震活动 .     

基于合成速率法的青藏块体东北缘断裂活动分析

基于合成速率法、趋势累积率法与跨断层资料等的结合,从时空的不同角度分析了青藏块体东北缘主要断裂应变积累的运动特征。结果显示:(1)2010～2016年,祁连山断裂带呈微弱拉张的运动态势,海原断裂带由张转压,六盘山断裂带在门源地震前显示张性运动,震后发生转折;(2)长期来看,基于趋势累积率D_c的计算结果显示了祁连山断裂带中、西段累积应变略高于东段,从量值上看整个青藏块体东北缘D_c高值区位于六盘山断裂带附近。     

青藏块体东北缘主要断裂带断层形变时序特征与强震关系

利用青藏块体东北缘地区20世纪80年代末至2007年底的跨断层短水准流动观测资料,借助应变强度比指标,分析了该区主要活动断裂带的构造变形动态演化特征和分段差异性及与强震的孕育-发生过程的关系.结果表明:①各断裂带、断裂段应变强度比时序曲线对其上或边缘附近发生的5.8级以上地震反映较好,震前数月至1年左右时间内基本对应"明显上升-均值线以上峰值-回落"的过程;而断裂带(段)之间应变强度比显著差异对其交汇区及附近强震有一定预示意义.②昆仑山口西、玉门、民乐地震相继发生后,构造应力场经过一段时间的调整,目前青藏块体东北缘总体上处于新一轮能量积累状态,其中,祁连山断裂带-海原断裂和西秦岭北缘断层尤为明显.     

青藏块体东北缘重力场演化与地震活动

通过对青藏块体东北缘重力观测资料进行整体平差计算，系统分析了1992～2001年重力场的时空动态演化特征及其与地震活动的关系. 结果表明:利用统一起算基准获得的青藏块体东北缘重力观测资料，较完整地反映了青藏块体东北缘孕震过程中出现的流动重力前兆信息. 在地震孕育发生阶段，重力场出现较大范围的区域性重力异常，并产生与地震孕育发生有关的局部重力异常区.重力场动态图象较清晰地反映了区域重力场的有序性演化与地震活动.      

青海拉脊山断裂带新活动特征的初步研究

拉脊山断裂带由拉脊山北缘断裂和拉脊山南缘断裂两条向NE凸出的弧形断裂所组成，分别长约230km和220km。它们是介于NNW向的热水一日月山右旋走滑断裂带和NWW向的西秦岭北缘左旋走滑断裂带之间的一个大型挤压构造区和构造转换带，也是分隔拉脊山南北两侧的西宁一民和盆地和循化一化隆盆地的重要边界断裂。沿断裂带的追踪考察，发现了其新活动的部分地质地貌证据。其最新活动时代为晚更新世晚期(仅局部为全新世早期)，性质以挤压逆冲为主稍具左旋特征。该断裂的新活动可能导致了该区20余次5级左右中等地震的发生。可以说，拉脊山地区既是反映构造活动，又是反映地震活动的地震构造窗。     

青藏块体近期地震活动特征

本文研究了青藏块体近期地震活动两个显著的现象;中强地震自印度板块北部由南向北的地震扩展迁移现象和中强震空间分布的北东向地震条带及其相关现象,探讨了其形成的物理机制,分析了它们的发展趋势,据此对本区地震活动趋势进行了预测。     

河西走廊西端花海断裂晚第四纪活动特征

花海断裂是位于河西走廊西端阿尔金断裂系北侧花海盆地内的一条活动断裂,对该断裂活动性的认识不仅有助于评估该区的地震危险性,而且对深入理解青藏高原向北扩展过程中块体相互作用具有重要的科学意义。遥感解译与地震地质调查表明,花海断裂仅局限于花海盆地内,长度约25 km。断裂走向NNW,南端起自花海镇以南,向北经小泉、大泉、双泉子后穿过山水河,向北逐渐消失在北山山前大型冲积扇前。地貌上,花海断裂南部表现为线性延伸的断层陡坎,北段构成了风成砂丘与冲洪积扇的界线。在断裂北段跨断层陡坎进行了探槽开挖,探槽揭露和光释光年代学测试结果表明,该断裂最新一次古地震事件的时间距今约5万年,全新世以来没有明显的活动迹象,为晚更新世活动断裂。结合陡坎位错分析,花海断裂晚第四纪以来垂直滑动速率小于0.03 mm/a。区域大地构造动力学背景分析表明,花海断裂是在青藏高原向北扩展作用下盆地内形成的次一级活动断裂,是高原外围块体对青藏高原向外扩展的响应。     

牛首山-罗山断裂带的变形特征及其构造意义

牛首山-罗山断裂带是青藏高原东北缘最外侧的一条断裂带,其空间分布、深部结构、运动学特征以及变形机制对研究青藏高原东北角弧形断裂系的形成与演化具有重要意义。文中通过对横穿牛首山-罗山的4条地震反射剖面的解释及断裂带部分地区大比例尺的构造地质填图,发现牛首山-罗山断裂带具有不连续性与分段性。断裂带南段罗山断裂以正花状构造为特征,显示断裂具有右旋走滑性质;中段牛首山东麓断裂可能并不存在,该区以强烈的褶皱变形为特征;北段三关口断裂则以左旋走滑为特征。牛首山-罗山断裂带的这种不连续性和分段性反映了断裂带的不同构造部位在青藏高原向NE方向扩展过程中具有不同的变形样式。     

NEW EVIDENCES OF HOLOCENE ACTIVITY IN THE JIANGSU SEGMENT OF ANQIU-JUXIAN FAULT OF THE TANLU FAULT ZONE

Anqiu-Juxian Fault is an important fault in the Tanlu fault zone, with the largest seismic risk, the most recent activity date and the most obvious surface traces. It is also the seismogenic fault of the Tancheng M8 1/2 earthquake in 1668. There are many different views about the southern termination location of surface rupture of the Tancheng earthquake and the Holocene activity in Jiangsu segment of this fault. Research on the latest activity time of the Jiangsu segment of Anqiu-Juxian Fault, particularly the termination location of surface rupture of the Tancheng earthquake, is of great significance to the assessment of its earthquake potential and seismic risk. Based on trench excavation on the Jiangsu segment of Anqiu-Juxian Fault, we discuss the time and characteristics of its latest activity. Multiple geological sections from southern Maling Mountain to Chonggang Mountain indicate that there was an ancient seismic event occurring in Holocene on the Jiangsu segment of Anqiu-Juxian Fault. We suggest the time of the latest seismic event is about(4.853±0.012)~(2.92±0.3)ka BP by dating results. The latest activity is characterized by thrust strike-slip faulting, with the maximum displacement of 1m. Combined with the fault rupture characteristics of each section, it is inferred that only one large-scale paleo-earthquake event occurred on the Jiangsu segment of Anqiu-Juxian Fault since the Holocene. The upper parts of the fault are covered by horizontal sand layers, not only on the trench in the west of Chonggang mountain but also on the trench in Hehuan Road in Suqian city, which indicates that the main part of the Jiangsu segment of Anqiu-Juxian Fault was probably not the surface rupture zone of the 1668 Tancheng M8 1/2 earthquake. In short, the Jiangsu segment of Anqiu-Juxian Fault has experienced many paleo-earthquake events since the late Pleistocene, with obvious activity during the Holocene. The seismic activities of the Jiangsu segment of Anqiu-Juxian Fault have the characteristics of large magnitude and low frequency. The Jiangsu segment of Anqiu-Juxian Fault has the deep tectonic and seismic-geological backgrounds of big earthquakes generation and should be highly valued by scientists.     

THE HOLOCENE SEISMIC EVIDENCE ON SOUTHERN SEGMENT OF THE RED RIVER FAULT ZONE

Nine earthquakes with M≥6 have stricken the northern segment of the Red River fault zone since the historical records, including the 1652 Midu M7 earthquake and the 1925 Dali M7 earthquake. However, there have been no earthquake records of M≥6 on the middle and southern segments of the Red River Fault, since 886 AD. Is the Red River fault zone, as a boundary fault, a fault zone where there will be not big earthquake in the future or a seismogenic structure for large earthquake with long recurrence intervals?This problem puzzles the geologists for a long time. Through indoor careful interpretation of high resolution remote sensing images, and in combination with detailed field geological and geomorphic survey, we found a series of fault troughs along the section of Gasha-Yaojie on the southern segment of the Red River fault zone, the length of the Gasha-Yaojie section is over ten kilometers. At the same time, paleoseismic information and radiocarbon dating result analysis on the multiple trenches show that there exists geological evidence of seismic activity during the Holocene in the southern segment of the Red River fault zone.     

浑江断裂带现今地震活动特征分析

系统分析1977年以来浑江断裂带的地震活动资料表明，该断裂带上地震活动表现为空间上两端集中分布与震中的跳跃式迁移，发震时间分布上有明显的分段差异性及震源浅、震害大等特征。     

FAULT ACTIVITY OF THE SOUTHWESTERN SEGMENT OF THE EASTERN BRANCH OF XINYI-LIANJIANG FAULT ZONE IN GUANGDONG PROVINCE

The NE-trending Xinyi-Lianjiang fault zone is a tectonic belt, located in the interior of the Yunkai uplift in the west of Guangdong Province, clamping the Lianjiang synclinorium and consisting of the eastern branch and the western branch. The southwestern segment of the eastern branch of Xinyi-Lianjiang fault zone, about 34km long, extends from the north of Guanqiao, through Lianjiang, to the north of Hengshan. However, it is still unclear about whether the segment extends to Jiuzhoujiang alluvial plain or not, which is in the southwest of Hengshan. If it does, what is about its fault activity? According to ‘Catalogue of the Modern Earthquakes of China’, two moderately strong earthquakes with magnitude 6.0 and 6.5 struck the Lianjiang region in 1605 AD. So it is necessary to acquire the knowledge about the activity of the segment fault, which is probably the corresponding seismogenic structure of the two destructive earthquakes. And the study on the fault activity of the segment can boost the research on seismotectonics of moderately strong earthquakes in Southeast China. In order to obtain the understanding of the existence of the buried fault of the southwestern segment, shallow seismic exploration profiles and composite borehole sections have been conducted. The results indicate its existence. Two shallow seismic exploration profiles show that buried depth of the upper breakpoints and vertical throw of the buried fault are 60m and 4~7m(L5-1 and L5-2 segment, the Hengshan section), 85m and 5~8m(L5-3 segment), 73m and 3~5m(Tiantouzai section), respectively and all of them suggest the buried fault has offset the base of the Quaternary strata. Two composite borehole sections reveal that the depth of the upper breakpoints and vertical throws of the buried segment are about 66m and 7.5m(Hengshan section) and 75m and 5m(Tiantouzai section), respectively. The drilling geological section in Hengshan reveals that the width of the fault could be up to 27m. Chronology data of Quaternary strata in the two drilling sections, obtained by means of electron spin resonance(ESR), suggest that the latest activity age of the buried fault of the southwestern segment is from late of early Pleistocene(Tiantouzai section) to early stage of middle Pleistocene(Hengshan section). Slip rates, obtained by Hengshan section and Tiantouzai section, are 0.1mm/a and 0.013mm/a, respectively. As shown by the fault profile located in a bedrock exposed region in Shajing, there are at least two stages of fault gouge and near-horizontal striation on the fault surface, indicating that the latest activity of the southwestern segment is characterized by strike-slip movement. Chronology data suggest that the age of the gouge formed in the later stage is(348±49) ka.     

阿尔金断裂带中东段地震活动特征及危险性讨论

讨论了阿尔金断裂带1900年以来的5级以上地震活动,结果显示空间上地震活动具有分段性,其中在青海段出现5级地震填空性空段,并形成5级地震的平静区,时间上具有平静和活跃交替的特征。进一步分析阿尔金断裂带青海段(茫崖北—肃北)现代小震活动,结果显示:茫崖以西震源深度约40 km以内,青海段(茫崖北—肃北)震源深度约10 km范围内,超过10 km较少,肃北—黑崖子以东约100 km处震源深度由浅逐渐变深,从10 km左右逐渐变化到40 km左右。与此同时,依据上述资料探讨了阿尔金断裂带青海段的强震危险性。     

郯庐断裂带潍坊—嘉山段全新世活断层的活动方式与发震模式

郯庐断裂带潍坊－嘉山段全新世活断层由三个独立的破裂段组成。从各段的断错地貌，松散堆积物特征，断层本身的特点以及断层泥的显微构造标志看，各段具有共同的特点，就是主要粘滑运动为主，并在震后有蠕滑调整运动，各段具有断层闭锁→粘滑发震→震后调整→断层再次闭锁的发震模式，目前莒县－郯城段仍处于震后调整阶段，而安丘段和新沂－泗洪段由已处于断层闭锁的后期阶段，面临粘滑发震的危险。     

中卫-同心断裂带全新世古地震研究

通过对中卫 -同心断裂带中段和西段 7个新探槽的古地震研究 ,并结合前人对中段古地震的研究结果 ,分析确定出 140 0 0a以来中卫 -同心断裂带共发生 6次古地震事件。其中仅有 1次是破裂全带的 ,发生在晚更新世末 ,其它都为全新世以来的次级破裂事件 ,3次破裂中段 ,两次破裂西段。公元 170 9年 7 级历史地震只破裂中段 ,因此推断只破裂中段或西段的古地震震级约为 7 级左右 ;破裂全带的古地震震级应为 8级左右。从时间上看 ,这 6次事件的分布是不均匀的 ,但没有明显的丛集现象     

红河断裂带第四纪活动的时空演化特征

在前人研究的基础上，结合断裂带沿线的构造地貌、断层岩组合及大量与断裂相关的地层年代，综合分析了红河断裂带第四纪以来活动的总趋势：随着活动时代的趋新，活动中心由南向北逐渐迁移，全新世晚期以来的活动中心位于大理、弥渡一带；探讨了该断裂带第四纪活动的时空演化规律，为断裂带不同区段地震危险性的评估提供了依据     

中条山北麓断裂中南段全新世地震事件的初步研究

通过对中条山北麓断裂进行探槽研究,揭露了全新世以来,断裂中段和南段的3次古地震事件,包括1次发生在8 570~8 010a BP、贯通断裂中段和南段的8级以上特大地震,以及4 800~6 010a BP和2 110~320a BP发生的2次7级左右的大地震,地震复发间隔约为3 500a。研究表明,中条山北麓断裂的南段和中段在全新世发生过多次活动,活动性较强。