关于菏泽－昆山北西向地震带的建立及其意义

根据地质构造、地震稠密区走向和地震迁移活动的规律，并结合重力和航磁资料探讨了菏冷昆山北西向地震带的存在及其规模和范围。这一地震带，无论在历史上或近期均甚活跃，对江淮流域及沪、杭、甬地区构成一定的震灾威胁，值得引起有关方面的重视，并予加强研究和监测     

芦山地震的红外增温异常分析

地震三要素的短临预测对抗震减灾意义重大,但实现的难度很大,仍是个世界难题。笔者应用卫星红外异常增温时空演变规律对2013年4月20日芦山地震作了研究,并在2013年4月21日全国天灾预测委员会学术研讨会上作出了分析。文中简要剖析了芦山地震的构造背景和成因机理。芦山地震是我国西部地震构造区新发生的MS 7.0级大地震,其成因同汶川地震相似,主要受到印度板块NE向对青藏地块推挤,南北压缩挤出断块向SEE滑动,受到四川盆地以西龙门山断裂带强烈阻挡,积能释放后发震。文中重点介绍了红外增温时空演变规律进行短临地震预测的过程。震前红外增温异常的动态变化是地震构造活动的反应,时间上一般经历初始增温-加强增温-高峰增温-衰减到发震的4个阶段。     

利用区域宽频地震数据反演2021年5月云南漾濞MS6.4地震震源破裂过程

本文基于有限断层模型反演方法,利用区域宽频带数据反演了2021年5月云南漾濞M_S6.4地震的震源破裂过程,结果显示:此次地震的发震断层走向为SE向,主要以右旋走滑为主.破裂主要发生在震源东南侧,最大错动量约为0.55 m,位于深度约9 km处,发生明显破裂的深度约达13 km.此次地震释放的标量地震矩为1.48×10¹⁸N·m,相当于矩震级M_W6.05.地震能量主要在前11 s释放.在深度为6~8 km处破裂速度有明显的变快,可能加剧了地表的震动.     

青海日月山断裂德州段断错地貌的高分辨率遥感影像解译

青海日月山断裂带是青藏高原东北缘柴达木—祁连活动地块内部的一条NNW走向的右旋走滑兼逆冲断裂。 本文基于ENVI 5.1遥感图像处理平台对研究区高分一号多光谱(分辨率8 m)和全色(分辨率2 m)影像进行融合, 获取了高保真、 高分辨率的卫星遥感影像。 通过多尺度、 多角度、 多层次的构造解译以及对比, 将日月山西支断裂的海晏段划分为德州段(F_1-3)和海晏段(F_1-4)两个次级段, 同时利用高分辨率Google Earth影像对德州段断错微地貌进行了解译、 分析, 结合对德州段野外地质考察, 进一步验证了影像解译结果。 研究表明: 日月山断裂的德州段由5条次级段落组成(f₁, f₂, f₃, f₄, f₅), 并且该段断裂晚更新世以来活动性明显, 以右旋走滑为主兼有逆倾滑分量; 断裂在晚更新世以来发生过多期断层活动, 其中全新世断层活动可划分为两期, 最新一期水平位错量为6.5~8.7 m, 第二期水平位错量为12.3~14 m; 晚更新世也可划分出两期活动, 第一期水平位错量为16~20 m, 第二期水平位错量为28.5~47 m。     

THE PALEOSEISMIC SURFACE RUPTURE AT SOUTH OF CENTRAL ALTYN TAGH FAULT AND ITS TECTONIC IMPLICATION

In this study, we described a 14km-long paleoearthquakes surface rupture across the salt flats of western Qaidam Basin, 10km south of the Xorkol segment of the central Altyn Tagh Fault, with satellite images interpretation and field investigation methods. The surface rupture strikes on average about N80°E sub-parallel to the main Altyn Tagh Fault, but is composed of several stepping segments with markedly different strike ranging from 68°N~87°E. The surface rupture is marked by pressure ridges, sub-fault strands, tension-gashes, pull-apart and faulted basins, likely caused by left-lateral strike-slip faulting. More than 30 pressure ridges can be distinguished with various rectangular, elliptical or elongated shapes. Most long axis of the ridges are oblique(90°N~140°E)to, but a few are nearly parallel to the surface rupture strike. The ridge sizes vary also, with heights from 1 to 15m, widths from several to 60m, and lengths from 10 to 100m. The overall size of these pressure ridges is similar to those found along the Altyn Tagh Fault, for instance, south of Pingding Shan or across Xorkol. Right-stepping 0.5~1m-deep gashes or sub-faults, with lengths from a few meters to several hundred meters, are distributed obliquely between ridges at an angle reaching 30°. The sub-faults are characterized with SE or NW facing 0.5~1m-high scarps. Several pull-apart and faulted basins are bounded by faults along the eastern part of the surface rupture. One large pull-apart basins are 6~7m deep and 400m wide. A faulted basin, 80m wide, 500m long and 3m deep, is bounded by 2 left-stepping left-lateral faults and 4 right-stepping normal faults. Two to three m-wide gashes are often seen on pressure ridges, and some ridges are left-laterally faulted and cut into several parts, probably owing to the occurrence of repetitive earthquakes. The OSL dating indicates that the most recent rupture might occur during Holocene.
Southwestwards the rupture trace disappears a few hundred meters north of a south dipping thrust scarp bounding uplifted and folded Plio-Quaternary sediments to the south. Thrust scarps can be followed southwestward for another 12km and suggest a connection with the south Pingding Shan Fault, a left-lateral splay of the main Altyn Tagh Fault. To the northeast the rupture trace progressively veers to the east and is seen cross-cutting the bajada south of Datonggou Nanshan and merging with active thrusts clearly outlined by south facing cumulative scarps across the fans. The geometry of this strike-slip fault trace and the clear young seismic geomorphology typifies the present and tectonically active link between left-lateral strike-slip faulting and thrusting along the eastern termination of the Altyn Tagh Fault, a process responsible for the growth of the Tibetan plateau at its northeastern margin. The discrete relation between thrusting and strike-slip faulting suggests discontinuous transfer of strain from strike-slip faulting to thrusting and thus stepwise northeastward slip-rate decrease along the Altyn Tagh Fault after each strike-slip/thrust junction.     

震源动力学破裂过程数值模拟研究

首先阐述了震源动力学过程研究的重要意义, 在此基础上, 研究了复杂的断层几何形态及介质模型对动力学破裂过程的影响, 并对常用的有限元方法、 离散元方法、 有限差分方法和边界积分方程方法等进行了相应介绍. 讨论了这些数值模拟方法各自的优缺点, 建议在方法的选择上应视具体问题及计算的精度而定. 最后对动力学数值模拟的关键部分, 滑动摩擦准则进行了论述. 常用的滑动摩擦准则有滑动弱化准则、 速率弱化准则和速率-状态依赖摩擦准则. 在单纯考虑某个地震的动力学破裂传播过程时, 滑动弱化准则较为常用, 其中滑动弱化距离的选取至关重要. 但若考虑整个地震循环, 速率-状态依赖摩擦准则更为合适.      

1976年龙陵地震区断裂活动性研究

研究了1976年龙陵7．3、7．4级地震震区内的龙陵-瑞丽断裂、怒江断裂和腾冲断裂的第四纪构造环境和断裂活动性,得出腾冲火山断裂带具有新生火山、断裂构造作用,并对龙陵-瑞丽断裂、怒江断裂等的活动性产生影响和改造。提出了这一活动构造带内小型北西-北北西向断裂是龙陵强震发震构造的观点。     

载金石英的阳离子效应及其对含矿性的指示意义

石英的阳离子效应指石英结构中Al~(3+)与Si~(4+)的置换作用.在分析海南戈枕断裂金成矿带石英中普遍存在的这一作用,以及由此造成的石英粉末红外谱(IR)、顺磁共振谱(EPR)及热释光曲线(TL)特征,进而讨论了这些特征与金成矿的关系.     

三门峡温塘断裂循环对流型地热系统的形成与演化模式

三门峡温塘地区位于汾渭地堑的转折部位,构造复杂,应力集中。灵宝-三门峡深大断裂断距超1000 m,影响深度大于3000 m,形成了地热上升的通道,构成了断裂循环对流型地热系统。在温塘附近,灵宝-三门峡深大断裂次级断裂发育,径流条件好,形成了良好的热储空间;由于高阳山断凸隆起,上盘新生界、第四系隔水层阻隔,形成了热液流体的溢出泉,排泄至地表。     

内蒙大青山山前活动断裂带西端左旋走滑现象

位于大青山山前断裂西端约１０ｋｍ的地段,１８条冲沟不同程度地发生了左旋扭曲,扭曲量２０～３００ｍ不等。冲工度与左旋扭曲量显示了较好的正比关系。从山前台地与冲沟的切割关系可以看到,这些上游长度１～５ｋｍ及小于１ｋｍ的冲沟形成在晚更新世末期及全新世以后,同时冲沟沟口河流冲洪积相砂砾石层直接与山边黄色亚砂土断层接触,断层下降盘地层年龄早于断层上升盘的地层年龄,显示了断层的走滑活动,由断错的地层年代估算,大青山山前活动断裂西端全新世左旋走滑速率达到５ｍｍ／ａ。此外,本文还讨论了了大青山山前活动断裂的演化机制。