Decadal Forecasts of Large Earthquakes along the Northern San Andreas Fault System, California: Increased Activity on Regional Creeping Faults Prior to Major and Great Events

The three largest earthquakes in northern California since 1849 were preceded by increased decadal activity for moderate-size shocks along surrounding nearby faults. Increased seismicity, double-difference precise locations of earthquakes since 1968, geodetic data and fault offsets for the 1906 great shock are used to re-examine the timing and locations of possible future large earthquakes. The physical mechanisms of regional faults like the Calaveras, Hayward and Sargent, which exhibit creep, differ from those of the northern San Andreas, which is currently locked and is not creeping. Much decadal forerunning activity occurred on creeping faults. Moderate-size earthquakes along those faults became more frequent as stresses in the region increased in the latter part of the cycle of stress restoration for major and great earthquakes along the San Andreas. They may be useful for decadal forecasts. Yearly to decadal forecasts, however, are based on only a few major to great events. Activity along closer faults like that in the two years prior to the 1989 Loma Prieta shock needs to be examined for possible yearly forerunning changes to large plate boundary earthquakes. Geodetic observations are needed to focus on identifying creeping faults close to the San Andreas. The distribution of moderate-size earthquakes increased significantly since 1990 along the Hayward fault but not adjacent to the San Andreas fault to the south of San Francisco compared to what took place in the decades prior to the three major historic earthquakes in the region. It is now clear from a re-examination of the 1989 mainshock that the increased level of moderate-size shocks in the one to two preceding decades occurred on nearby East Bay faults. Double-difference locations of small earthquakes provide structural information about faults in the region, especially their depths. The northern San Andreas fault is divided into several strongly coupled segments based on differences in seismicity.

Some geologic signatures of fault creep in the continental area of China

Various geologic signatures of fault creep along most of the active faults in the continental area of China can be recognized, although no surface deformation caused by creep slip event has been observed. These signatures include ordered regional taphrogeny, linear deformation zones distributed along the fault, and seismic slip rate much lower than the geologic slip rate, etc. The recognition and identification of this important fault behavior are of great theoretical and practical significance.

Variation in Creep Rupture of γ′ Strengthened Superalloys with Stacking Fault Energy of Matrices

The correlation between the creep rupture behaviour and the stacking fault energy of matrices of γ′strengthened superalloys has been studied dur- ing constant load creep.At high temperature and intermediate stress,the creep rupture time and strain strongly depend on the stacking fault energy of matrices rather than the creep friction stress,but at higher stress,the role of grain boundary carbides becomes more obvious. However,in the considerably extensive stress range investigated here,the mean creep rate is a power function of the stacking fault energy of matrices and the power index decreases with in- creasing initial applied stress.Particularly,at inter- mediate stresses the product of this index and the initial applied stress compensated by the shear modulus is same for two series of superalloys. Hence,this product may be a criterion predicting that the matrix deformation controls high tempera- ture creep rupture.

Microscopic Indicators of Stick-Slip and Creep-Slip in Deformation Products From the Daqingshan Piedmont Active Fault

Through the collection of oriented samples,consolidation of undisturbed samples,and systematic microscopy of thin sections,the deformation products from the Daqingshan piedmont active fault zone have been studied.The obtained results have been analyzed in combination with those of rock fracture experiments and macroscopic surveys.Based on the above,the present article summarizes the microscopic indicators of stick-slip and creep-slip,which reflect the characteristics of fault movement,and has given some suggestion on relevant problems.

Measurement of radon gas on major faults in California,USA

Abundant data have been gathered through measurements of radon gas emission in the soil on several major active faults,such as San Andreas and Calaveras,in California,U.S.A..They show radon emissions and their spatial variations at the unlocked,locked,and creeping sections of faults with different tectonic movements.The characteristics of these variations and the role of fault gases in the research on earthquake prediction are discussed in this paper.

The Feature of Segmentation Activity on the Northern Segment of the Anninghe Fault Zone Since Late Pleistocene

Based on fault geometric features,composite pattern,faulting land-forms and seismic data,this paper discussed the activity behavior along the northern segment of the Anninghe fault(from Xichang to Shimian)since the Late Pleistocene.The fault can be divided into three active segments by discrepancies of their activity:the segment from Xichang to Mianning,the segment from Mianning to Zimakua,and the segment from Zimakua to Tianwan.The southern segment has the background of occurrence of great earthquakes,but the middle and the northern segments can generate strong and moderate events respectively.According to the features of quartz from fault gouges by scanning electron microscopy(SEM),this paper discussed the movement features along the fault and indicated the stick-slipping feature on the segment from Xichang to Zimakua,the creeping feature on the segment from Jiziping to Tianwan and the transitional feature on the segment in between.

The Determination of Slip Mode of Some Major Active Faults in China Through Comparative Study of Geologic and Seismic Dislocations

The comparative study of the geologic and seismic dislocations often major active faults,such as the Aikin fault etc.,on China mainland,has shown that the ratio between the seismic slip rate(Vs)and geologic slip rate(Vg),i.e.,Q=Vs/Vg,for most of the active faults ranges between 0.5-0.8,indicating that most of the active faults are characterized by stick slip movement.According to the magnitude of the Q value,the slip mode of the faults can further be classified into four types:strong stick-slip(Q≥0.75),mainly stick-slip(0.5≤Q【0.75),mainly creep-slip(0.5】0≥0.25),and strong creep-slip(Q【0.25).The authors have also analyzed the constraint of the determination of Q value,as well as the prospect of the application of Q value to the determination of slip mode of major active faults.

穿越多断层破碎带隧道自适应结构走滑错动特性研究

在活动断裂构造带地区,断层运动往往是沿断层带发生,自活动盘到破碎带错动位移表现出逐级传递的特征,因此穿越活动断裂带的隧道结构应力、变形特征也受到断层错动形式的影响。依托西部高烈度区某穿越大型活动断裂带的公路隧道工程,通过数值模拟分析穿越多断层隧道结构在断层多级走滑错动下的位移、应力响应规律,得出隧道结构纵向基于多断层蠕滑错动的影响分区;建立基于柔性初支、刚性二衬和节段铰接的穿越蠕滑断层隧道自适应结构,探究在错动区和缓冲区内设置隧道自适应结构的抗错性能。研究表明:隧道围岩性质的差异是影响穿越断层破碎带隧道结构变形和应力的最重要因素,隧道自适应结构在蠕滑错动过程中,柔性初支能够吸收部分围岩传递至隧道结构的变形,柔性接头的剪切变形和衬砌节段的刚性转动能够承担较大的位错,随着隧道衬砌节段长度的减小、接头数量的增加,各个接头的剪切变形角和衬砌节段偏转角都将减小,大幅提升结构的抗错安全性。

有压引水隧洞多层柔性叠合衬砌对断层蠕滑错动的适应性研究

长距离输水隧洞工程建设很难避免穿越活动断层的问题,有压隧洞采用何种衬砌结构型式穿越活动断层迄今为止研究还不够深入。针对目前隧洞过活断层常用抗断措施存在的问题,结合有压引水隧洞自身的特点,提出了一种适合有压引水隧洞穿越活动断层的多层柔性叠合衬砌结构型式。依托某工程的实践情况,采用有限元数值分析方法论证了多层柔性叠合衬砌结构的可行性和合理性;同时分析了垫层厚度、垫层弹模对隧洞结构内力响应和抗断性能的影响。计算结果表明:垫层厚度越大,伸缩节总变形量越大,对于隧洞衬砌适应断层错动越有利;但当垫层厚度过大时,将对衬砌的受力产生不利影响,因此建议根据工程设防的断层错动量选择合适厚度的垫层,不必采用过厚的垫层。垫层弹模的变化对钢管应力的影响较为显著,综合考虑钢衬应力、混凝土损伤以及对断层错动的适应性能,建议选取3~5 MPa的垫层弹模最为合适。研究结果可为有压输水隧洞应对断层蠕滑变形时的结构设计提供参考。

苍山-尼山断裂的现今构造活动及其对民居建筑的影响

NW走向的苍山-尼山断裂(简称苍尼断裂)延伸170km,其晚第四纪的活动构造变形及地震活动引起了广泛关注。文中以山东省临沂市平邑县白彦镇官庄村的民居建筑破坏实地考察资料为基础,通过苍尼断裂晚第四纪构造地貌测量与活动性鉴定、断层泥中石英碎粒表面结构(SEM)鉴定和断层泥的粒度分布分析、 InSAR时序分析、公元前179年“齐楚地震”考证与发震构造讨论、以往震害调查和数值模拟研究等成果,探讨了官庄村民居建筑破坏情况及其与苍尼断裂的关系、民居建筑破坏成因与防御措施等问题。研究结果表明:1)苍尼断裂的最新活动时代为全新世早期,破裂方式黏滑兼蠕滑,具有细粒度成分和高分维值的断层泥有利于断层蠕滑运动;2)官庄村的民居建筑破坏正好位于左旋走滑的苍尼断裂带上,表现为房屋基础和墙体开裂,裂缝沿NW走向分布,具有典型构造裂缝的特征,公元前179年发生的“齐楚7级地震”的震中也正好位于该区域,也是苍尼断裂晚第四纪构造地貌特征最明显、断错地层最新和运动量最大的位置;3)InSAR观测结果显示,苍尼断裂带现今具有左旋走滑运动特征,其现今活动很有可能引起了近地表的蠕滑构造作用;4)苍尼断裂带左旋走滑蠕滑变形、断层两盘断层结构和地层结构差异性、断层两盘应力分布和变形特征差异性及断层泥膨胀作用等是导致白彦镇官庄村民居建筑破坏的主要原因。文中研究提供了活动断层带现今构造变形(蠕滑变形作用)造成建筑物破坏的一个典型案例,证明活动断层空间展布的精确定位和活动性鉴定是工程建设选址中的关键问题,对活动断层的合理避让和建筑抗震设计都具有重要参考价值。

鲜水河断裂带炉霍段北部断裂岩特征与变形行为研究

鲜水河断裂带是中国陆内活动性最强、强震频率最高的活动断裂之一,断裂岩以及大地测量学研究发现该断裂带可能具有广泛的蠕滑变形。研究该断裂带几何结构和变形行为有助于认识蠕滑与粘滑机制,并为评估其强震危险性提供关键科学依据。本文以鲜水河断裂带炉霍段北部断层剖面及其中的断裂岩为研究对象,通过野外地质调查、显微构造观察、扫描电镜以及X射线衍射(XRD)分析等方法,对断裂带的几何结构、断裂岩物理特征与矿物组成等开展了详细分析。结果显示,炉霍段北部的最新主断面位于断裂变形带东部边界,走向N110°,倾向北东,倾角约50°,具有左行走滑兼正断的运动学特征;主断面附近的断层泥相对发育,上盘以棕色为主,宽约3cm,下盘以黑色为主,宽约20~30cm,成分主要为粘土矿物和石英。靠近主断面强矿物含量达70%以上,矿物颗粒均以棱角状、长条状为主,存在矿物颗粒被截切形成平直截切面的现象,指示其应以粘滑变形行为为主;断裂带内的断层泥透镜体则显示,粘土矿物含量极高(>60%),定向明显且面理发育,Al和K元素富集等现象,指示可能存在前期蠕滑变形行为。上述结果指示,鲜水河断裂带炉霍段可能经历了从蠕滑到粘滑变形行为的转变。以上研究结果与鲜水河断裂带以高角度左行走滑,广泛存在蠕滑变形的认识不同,表明断裂带变形行为存在明显的空间分布不一致的特征,除了围岩性质和流体作用以外,断裂的空间几何结构也是重要的控制因素。新的研究结果可以为更深入了解大型走滑断裂带变形行为、孕震机制以及未来强震危险性提供科学依据。

基岩断层面黏滑和蠕滑时岩石表层光释光信号模拟

重建断层的黏滑(seismic slip)和蠕滑(creep)历史对于更好地了解断层活动和地震危险性评估至关重要。近年来,利用大地测量技术研究活动断层的蠕滑和黏滑过程成为一个研究热点。然而,在地质历史时期(如百年尺度以上),如何判断活动断层的滑动方式(黏滑或蠕滑),并获取其滑动速率仍然是一项挑战。文中基于近十年来发展的岩石表层光释光测年方法,结合内蒙古狼山断裂花岗岩样品的光释光晒退参数进行理论模拟,得到了基岩正断层发生黏滑、蠕滑和崩积楔侵蚀等情形的光释光晒退模型。模拟结果表明,该方法能够有效区分断层的黏滑和蠕滑,获得相应的活动期次和位移量,并且有潜力记录崩积楔侵蚀。文中还分析了该方法区分断层活动方式、期次的时间分辨率和获得位移量的空间分辨率。

小江活动断裂长期蠕滑变形对区域地应力场影响的初步研究

小江断裂是西南地区一条重要地质界线,对白鹤滩水电站库区工程长期稳定有一定影响,研究该活动断裂长期蠕滑变形的影响特征十分必要。基于小江活动断裂及其邻近地区的大地运动监测结果,考虑断裂的走滑与逆冲运动特征,建立三维数值概化模型,对该断裂带在10 mm/a级长期蠕滑运动下的周边应力场的时空演化特征进行模拟分析。计算显示,随着小江断裂长期蠕滑,周边地应力场呈近似线性、平缓的增长势态。在工程百年寿命期或短暂的地质时间尺度内,并不会对周边地应力场造成明显影响,断裂带附近岩体在200年内的最大主应力增量约0.35~0.55 MPa,1000年内的应力增量约1.1~3.3 MPa。水库蓄水后,库水影响区仅限于河谷周边,对大区域地应力场的直接影响不显著。相关研究成果可为工程长期稳定性评估提供一定参考。

基于声发射实验结果讨论大震前地震活动平静现象的机制

基于岩石变形声发射实验结果讨论了大震前地震活动平静现象的机制。在双轴压缩、等位移速率加载条件下 ,挤压型雁列断层、含宏观凹凸体断层、Ⅲ型剪切断层等非连续断层在临近滑动失稳前 ,声发射活动均出现了明显的相对平静现象 ,表现为声发射事件的发生率和应变能释放水平显著降低。与此阶段相对应 ,断层带 (特别是非连续部位上新形成的一小段断层 )发生了蠕滑和匀阻化作用 ,并使得标本的差应力开始下降。根据实验结果提出 ,大地震前断层的“蠕滑 -匀阻化”

鲜水河断裂带跨断层形变测量及其地震学意义

通过对鲜水河断裂带多年跨断层形变测量资料的分析，揭示出鲜水河断裂带不同部位的形变特征，断裂带破裂区表现为较高速率的蠕滑运动，其运动速率又以极震区为中心向两侧衰减，“闭锁区”则具有运动停滞的特点，并有明显的分段性。断层形变的特殊形态还与地震有一定的关系，如每当形变出现“Ｖ”（或倒“Ｖ”）字型时，会有中小地震对应；断层扭动反向与变化也与地震有关。

二十年来蠕变和短基线观测反映的鲜水河断裂带活动特征

利用鲜水河断裂带1990年1月—2009年12月的蠕变与短基线数据,采用小波变换与断层运动学分析方法,获取构造活动产生的断层形变速率.结合近场断层形变测量与GPS资料,分析了该断裂带的分段活动特征及时空演化.结果显示:(1)不同段落断层活动方式存在差异性.鲜水河断裂带分段活动现象显著,以道孚县为界,以北的炉霍、道孚断层走滑量相对较大且活动方式稳定,显示张性和左行走滑;以南的乾宁、折多塘断层活动微弱,走滑量小,且滑动状态复杂,其中,乾宁断层为压性和左行走滑,折多塘断层为微弱的右行走滑.这种分段活动特征可能与断层几何及巴颜喀拉块体内部次级块体的差异运动有关.(2)不同时期断层走滑方式存在交替性.鲜水河断裂带虽以左行走滑为主,但在汶川地震前一些断层段出现过逆向走滑现象.汶川地震前2年,炉霍、道孚断层左行走滑减弱,乾宁、折多塘断层在2007年出现过逆向走滑,至2009年底,逆向走滑区域保持扩展态势.(3)不同测点间距得到的断层错动速率和变形带空间分布特征不同.不同测量方法的分析结果表明,鲜水河断裂带不同段落和跨距宽度的走滑速率有所不同:测点间距18.7～65.1m的蠕滑速率为0.01～0.78mm/a;测点间距72～288m的短基线测量为0.02～2.46mm/a,点距十几至几十公里的GPS观测为6～11mm/a;地质滑动速率5～15mm/a.随测点间距的增加,平行断层的位移速率按对数函数增长,视剪应变率按幂函数衰减.我们推测,大间距测点的数据中既包含了跨断层的错动,也包含了断层两侧块体的分布变形;现今的断层形变测量与地质调查之间的差异,说明断层错动速率在时间上不是常数.

川滇地区应力场演化与强震间相互作用的三维有限元模拟

针对川滇地区 ,在大量搜集、总结前人资料和结果的基础上 ,建立了包括上地壳、下地壳 (两层 )、上地幔等 4层结构的三维有限元模型 .通过反复调试 ,确定了其边界条件 ,并且计算了川滇地区背景应力场、断层蠕动产生的应力场和强震触发的应力场 ,以及它们的动态变化 .结果表明 :后续地震大多发生在前面地震引发的库仑破裂应力正值区 ,前一地震对后续地震有一定的触发作用 ,强震是在较高的应力背景下成组发生的 .这对判断、识别地震异常 ,提高地震预测水平有着很大的意义 .

相对蠕滑速率与特征地震复发间隔的估计——以小江断裂带为例

将特征地震之间的次级地震产生的位移看作相对蠕滑速率，推导了相对蠕滑速率的估算公式，进而分析了次级地震对特征地震复发间隔的影响，从而可以更好地与古地震资料对比以得到可靠的特征地震重复间隔。

舟曲泄流坡滑坡变形特征及其形成机理

以甘肃舟曲泄流坡滑坡的野外详细调查和变形监测资料为基础,探讨泄流坡滑坡蠕滑变形特征和形成机理。研究表明,舟曲泄流坡滑坡发育于坪定—化马断裂内,属典型的巨型断裂带滑坡。该滑坡由多个次级滑坡组成,表现为蠕滑变形特点,且一直处于不稳定状态。该滑坡是在内外动力耦合作用下形成的,断裂破碎带是泄流坡滑坡发生的充分条件,断裂活动导致坡体发生塑性流动变形;而降雨是滑坡发生大规模下滑的主要诱发因素;地震、坡脚开挖等对滑坡的发展、演化起到促进作用。因此,进一步研究断裂带滑坡的形成机理和成灾模式,对此类滑坡的防治预警有重要意义。

中强地震前地磁极化异常特征及其与后续地震的关系

基于国家地磁台网中心的地磁秒采样数据,采用地磁垂直强度极化法,计算了2019年1月1日至2020年7月31日全国各地磁台站的极化值,对2019年中国大陆西部(110°E以西)极化异常进行了分析,研究了2020年于田MS6.4等中强地震前地磁极化异常变化特征及其与后续地震的关系。研究发现:①地磁极化异常具有空间成组特征,即空间上多个地区可以同时出现地磁极化异常;地磁极化异常一般被认为是震前震源区发生断层蠕动或岩石破裂导致的电磁辐射,这意味着震前可能会有多个地区同时发生断层蠕动或岩石破裂,这一现象似乎表明有一个“力源”在主导多区域同时发生断层蠕动或岩石破裂。②地磁极化异常的后续地震具有成组特征,即一个地区出现极化异常后可能发生多次地震。该现象对日常会商分析具有重要参考意义,即此类异常发生预期地震后可能还会有类似地震的发生。③以往的一些研究认为地磁极化异常一般在震前2—3个月出现,但本研究发现极化异常出现后10个月在异常区域仍然会发生地震,这表明电磁辐射异常可能不仅仅是短临异常,还可能具有中期指示意义,即断层蠕动或岩石破裂发生时间可能在震前近1年左右便已开始。这一发现对目前许多类似地震电磁异常研究仅仅分析异常后3个月左右内地震提出了挑战。