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1.
地震潮汐触发是指由潮汐引起的应力变化而触发地震的现象,对地震潮汐触发的研究可能为断层错动引发地震的条件提供有价值的线索,一直受到国内外研究者的关注,本文对相关研究方法和研究结果进行了简要介绍和评述。在早期,地震潮汐触发研究主要是在地震活动中寻找潮汐周期。随着研究的深入,运用统计检验方法对地震活动与潮汐之间的相关性进行严格检验。时至今日,地震是否被潮汐触发的问题仍然悬而未决。不过,有研究结果表明,在强震发生前数年,震源区地震活动往往受到潮汐触发,如果这个结果被证实,将为地震预测研究提供新的线索。   相似文献   

2.
潮汐应力-应变对某些地震序列的调制触发   总被引:1,自引:1,他引:1  
黎凯武  江在森  申彤 《地震》2005,25(4):75-86
对1960年以来中国大陆浅源地震序列与潮汐应变的相关分析表明,某些地区某些地震序列,包括前震序列、前震-主震序列、前震-主震-余震序列和主震-余震序列明显受到潮汐应力-应变的调制触发。如龙陵地震的前震-主震序列,邢台地震的前震-主震-余震序列、唐山地震的主震-余震序列等。这些地震序列受到潮汐力调制触发的特征明显,对地震预测有意义,并作了具体的叙述。同时对地震序列受调制触发的机理作了初步的探讨,指出不同类型地震序列的调制触发特征与孕育系统地质构造,地震震源岩石性质和区域构造应力场方向以及地震破裂机制有关,对地震机理和预测的研究有一定意义。  相似文献   

3.
选取1900 ~2012年中国大陆Ms≥7.0浅源地震为研究对象,计算日月潮汐在发震断层面引起的库仑破裂应力,确定潮汐相位角.通过Schuster检验,定量分析了中国大陆强震与日月潮汐库仑破裂应力之间的相关性.结果表明,具有震源机制解的57次强震中,71.9%的强震发生在潮汐加载相位区间,Schuster检验p值为3.83%,显示中国大陆7级强震与潮汐库仑破裂应力间存在很好的相关性.活跃期p值为4.56%,75.5%的地震发生在潮汐加载相位区间;而在平静期发生在加载相位区间的地震比例为50%.表明活跃期内的强震受潮汐库仑破裂应力的加载触发更为显著.  相似文献   

4.
2020年7—8月,西藏波密发生显著震群,震群包含25次M_L≥4.0地震,最大为7月19日M_L4.9地震。震群部分相邻地震具有约24h或12h的时间间隔,这意味着波密震群地震活动可能受不同周期潮汐变化的影响。针对其中20次有震源机制结果的M_L≥4.0地震,分别计算地震前后震源机制解在2个节面上的潮汐正应力、剪应力和库仑破裂应力变化,在此基础上讨论波密震群的潮汐触发特征。结果显示,潮汐应力对波密震群地震活动有一定的触发作用,65%的震例显示潮汐应力具有明显的促滑特征,这些有触发影响的地震发生时间大多位于潮汐正应力极大值及其后的紧邻时段。研究表明,潮汐应力导致的断层张性作用增强(挤压减弱),可能是波密震群地震潮汐触发的一个主要原因。  相似文献   

5.
云南地震的潮汐应力触发机制及相关天体位置图像   总被引:10,自引:5,他引:10       下载免费PDF全文
通过计算云南163个地震震源处沿地震主应力方向的潮汐应力分量,分析了地震的潮汐应力触发力学机制.结果表明,所研究的地震中有62%受到了潮汐应力的触发作用. 在此基础上,对受到潮汐应力触发的地震发震时的天体位置特征进行了研究,得到了具有潮汐应力触发物理基础的地震时的月日黄经差、月日赤纬和月日天顶距的分布图像.图像显示,云南地区的地震在新月期间和上下弦附近较易受到潮汐应力的触发;受到潮汐应力触发作用的地震发震时刻的月日赤纬有明显的密集分布条带特征,地震频次在月、日天顶距分别为30°~140°和20°~140°范围内为平均优势分布区间.  相似文献   

6.
在潮汐库仑破裂应力计算和相关性检验的基础上,采用速率-状态依赖性摩擦本构关系,进行潮汐应力对宁洱地震震源断层成核失稳过程影响的数值模拟研究,并讨论潮汐正应力和潮汐剪应力在潮汐应力触发中的作用,以及应力的振幅和周期振荡性对潮汐触发的影响.结果发现,宁洱地震与潮汐应力之间存在潮汐触发相关性.宁洱地震震源断层的成核过程存在一个转变周期,当潮汐应力周期接近和大于转变周期时,潮汐应力的周期性将直接影响潮汐触发作用的效果.潮汐应力振幅值的增加也有助于潮汐应力对断层地震成核失稳过程的影响,正应力和剪应力振幅值的影响效果差别不大,但是潮汐剪应力比正应力能更迅速的起到潮汐触发作用.潮汐应力触发地震的过程中,主要是正值的潮汐正应力和剪应力对地震起到触发作用,而负值的潮汐应力对断层的影响小于正值的潮汐应力,断层对负的潮汐应力不敏感.  相似文献   

7.
青藏高原东部及邻区地震断层面上的潮汐应力触发效应   总被引:4,自引:1,他引:3  
根据已发布震源机制解目录(哈佛大学CMT),将青藏高原东部及邻区划分为5个构造应力场分区,并对各分区的地震逐个计算其发震断层面上的固体潮汐正应力、剪应力、库仑破裂应力及相位角,分析潮汐应力分量对不同类型发震断层的作用效果及其随深度变化特征.基于库仑破裂应力判断准则,研究潮汐应力对各种类型地震的触发作用;基于Schuster检验方法,统计分析潮汐应力对各个震级档、不同构造类型地震的影响.综合运用上述两种分析方法,探讨潮汐应力对不同震级地震以及处于不同构造块体、发震断层、震源深度地震的触发机制.结果表明,潮汐应力对印度块体和拉萨块体的正断和逆断型地震,滇缅泰块体、印支块体和松潘-甘孜块体的走滑和斜滑型地震,川滇菱形块体的斜滑型地震均存在不同程度的触发效应,且触发效应的强弱依赖于震源深度、震级大小、发震断层类型及其所处区域构造应力场.  相似文献   

8.
自19世纪90年代以来,潮汐是否会触发地震这个问题一直备受关注.本研究选用1970年1月1日至2017年5月31日期间南北地震带(20°N—40°N,97°E—105°E)M_L≥2.0地震目录资料,通过测量南北地震带地区地震事件与潮汐的相关性来研究潮汐是否能触发地震.选用完备性检测、G-C法、R/S分析方法对原始地震目录进行预处理,分别构成未去除余震和去除余震每日地震数量时间序列,利用经验模态分解和快速傅里叶方法,对比分析了潮汐与每日地震数量构成的时间序列频谱特征.结果表明,在本文研究区域,两种每日地震数量时间序列均与潮汐的月潮周期、半月潮周期存在相关性,并且去除余震后的每日地震时间序列的优势频率更加集中,表现的相关性更好.此外,Schuster’s测试结果也进一步证明,研究区域地震活动性与固体潮汐存在显著统计相关性.  相似文献   

9.
潮汐应力与大震关系研究   总被引:2,自引:0,他引:2  
李智蓉  张晓东 《地震》2011,31(4):48-57
选用1976-2009年全球震源深度小于70 km,Mw≥7.0的地震为研究对象,利用震源机制解资料,对每个地震的发震断层面进行了判断,得到233个地震的发震断层面解.据此,本文讨论了发震时断层面上的地球固体潮汐剪应力方向与滑动方向的关系以及潮汐正应力在发震时所处的相位,发震时断层面的库仑应力值.结果表明,当潮汐剪应力...  相似文献   

10.
2021年5月21日21时48分在滇西苍山西麓漾濞地区发生MS6.4 (MW6.1)强震,相关地震活动表现为一个典型的前震?主震?余震序列。本研究分别就该地震序列的构造背景、M1.0以上地震的双差定位、主要地震的矩张量反演和破裂传播方向、应力场反演及断层滑动趋势以及潮汐作用等方面进行了初步分析。矩张量反演结果表明,矩心深度为6.0 km。根据断层破裂传播方向分析结果及精定位余震分布判定,主震震源断层产状为走向137°,倾角75°,滑动角?167°,破裂沿南东向单侧扩展,右旋走滑含正断层分量。漾濞地震序列发生在红河断裂带北段延伸方向上的乔后—巍山断裂附近,但主震震源断层及主要余震的分布在走向和位置上均明显偏离已知的乔后—巍山断裂。地震序列受一个发育程度不高、含多级雁列构造的北西向为主、北东向为次的共轭走滑断层系统(本文称为“漾濞断层”)所控制,整体上沿北西向断层展布,主震与部分强余震为北西向断层活动所致,但中强前震和多数余震为北东向断层活动所致。中强震的断层破裂均为单侧扩展,北西向断层主要表现为南东向破裂扩展,而北东向断层沿两个方向破裂扩展,相邻地震还存在往返破裂现象。对截至5月23日所发生的M>4.0前震和余震进行了全矩张量反演。利用漾濞地震震中15 km范围内20多个MW>3.4余震的比较可靠的震源机制解反演了该区的应力场,结果显示:主应力形状比φ=(σ2-σ3)/(σ1-σ3)为0.46±0.17;最大主应力轴的方位角为188.0°±9.0°,倾伏角为12.4°±7.0°;中间主应力轴近直立,倾伏角为72.1°±11.3°;最小主应力轴的方位角为280.3°±7.0°,倾伏角为10.4°±12.0°。本文还对理论潮汐应变及应力进行了分析,结果表明,该地震序列受潮汐调制作用十分明显。5月18日18时及19日20时开始的两组前震群的首个主要地震以及5月21日晚发生的主震均发生在潮汐体应变和库仑应力的峰值附近,余震活动也与潮汐有明显的相关性。综合主要地震震源机制解、前震及余震分布、潮汐调制特征、基于应力场反演的断层滑动趋势分析以及滇西北地区以往类似地震活动研究结果,本文初步推断:漾濞地震受深部流体作用的影响明显,5月18日18时开始的第一次前震活动高潮从北西向断层的一个拉张性断层阶区开始,最大前震的震源断层为北东向断层,随后向北西方向迁移;19日20时开始的第二次前震活动高潮集中在主震震源附近。这些地震的触发及深部流体作用共同促进了北西向断层的活动,但主震的发生受深部流体作用为主。   相似文献   

11.
The long‐term (10–100 years) evolution of tidal channels is generally considered to interact with the bio‐geomorphic evolution of the surrounding intertidal platform. Here we studied how the geometric properties of tidal channels (channel drainage density and channel width) change as (1) vegetation establishes on an initially bare intertidal platform and (2) sediment accretion on the intertidal platform leads to a reduction in the tidal prism (i.e. water volume that during a tidal cycle floods to and drains back from the intertidal platform). Based on a time series of aerial photographs and digital elevation models, we derived the channel geometric properties at different time steps during the evolution from an initially low‐elevated bare tidal flat towards a high‐elevated vegetated marsh. We found that vegetation establishment causes a marked increase in channel drainage density. This is explained as the friction exerted by patches of pioneer vegetation concentrates the flow in between the vegetation patches and promotes there the erosion of channels. Once vegetation has established, continued sediment accretion and tidal prism reduction do not result in significant further changes in channel drainage density and in channel widths. We hypothesize that this is explained by a partitioning of the tidal flow between concentrated channel flow, as long as the vegetation is not submerged, and more homogeneous sheet flow as the vegetation is deeply submerged. Hence, a reduction of the tidal prism due to sediment accretion on the intertidal platform, reduces especially the volume of sheet flow (which does not affect channel geometry), while the concentrated channel flow (i.e. the landscape forming volume of water) is not much affected by the tidal prism reduction. Copyright © 2012 John Wiley & Sons, Ltd.  相似文献   

12.
Understanding sediment sorting and bedding dynamics has high value to unravelling the mechanisms underlying geomorphological, geological, ecological and environmental imprints of tidal wetlands and hence to predicting their future changes. Using the Nanhui tidal flat on the Changjiang (Yangtze) Delta, China, as a reference site, this study establishes a schematized morphodynamic model coupling flow, sediment dynamics and bed level change to explore the processes that govern sediment sorting and bedding phenomena. Model results indicate an overall agreement with field data in terms of tidal current velocities, suspended sediment concentrations (SSCs), deposition thicknesses and sedimentary structures. Depending on the variation of tidal current strength, sand-dominated layers (SDLs) and mud-dominated layers (MDLs) tend to form during spring and neap tides, respectively. Thinner tidal couplets are developed during daily scale flood–ebb variations. A larger tidal level variation during a spring–neap tidal cycle, associated with a stronger tidal current variation, favours the formation of SDLs and tidal couplets. A larger boundary sediment supply generally promotes the formation of tidal bedding, though the bedding detail is partially dependent on the SSC composition of different sediment types. Sediment properties, including for example grain size and settling velocity, are also found to influence sediment sorting and bedding characteristics. In particular, finer and coarser sediment respond differently to spring and neap tides. During neap tides, relatively small flow velocities favour the deposition of finer sediment, with limited coarser sediment being transported to the upper tidal flat because of the larger settling velocity. During spring tides, larger flow velocities transport more coarser sediment to the upper tidal flat, accounting for distinct lamination formation. Model results are qualitatively consistent with field observations, but the role of waves, biological processes and alongshore currents needs to be included in further studies to establish a more complete understanding.  相似文献   

13.
Simple stability relationships are practically useful to provide a rapid assessment of coastal and estuarine landforms in response to human interventions and long‐term climate change. In this contribution, we review a variety of simple stability relationships which are based on the analysis of tidal asymmetry (TA). Most of the existing TA‐based stability relationships are derived using the one‐dimensional tidal flow equations assuming a certain regular shape of the tidal channel cross‐sections. To facilitate analytical solutions, specific assumptions inevitably need to be made, for example by linearizing the friction term and dropping some negligible terms in the tidal flow equations. We find that three major types of TA‐based stability relationships have been proposed between three non‐dimensional channel geometric ratios (represented by the ratio of channel widths, ratio of wet surface areas and ratio of storage volumes) and the tide‐related parameter a/h (i.e. the ratio between tidal amplitude and mean water depth). Based on established geometric relations, we use these non‐dimensional ratios to restate the existing relationships so that they are directly comparable. Available datasets are further extended to examine the utility of these TA‐based relationships. Although a certain agreement is shown for these relationships, we also observe a large scatter of data points which are collected in different types of landscape, hydrodynamic and sedimentological settings over the world. We discuss in detail the potential reasons for this large scatter and subsequently elaborate on the limited applicability of the various TA‐based stability relationships for practical use. We highlight the need to delve further into what constitutes equilibrium and what is needed to develop more robust measures to determine the morphological state of these systems. Copyright © 2018 John Wiley & Sons, Ltd.  相似文献   

14.
利用油气藏潮汐重力异常直接找油是近年从俄罗斯引进的方法,但这一方法的原理在国内研究得很少,其有效性和可靠性还没有得到充分的论证.本文对油藏潮汐重力的形成机制、潮汐重力的观测和数据处理方法进行了研究.理论计算表明,油藏潮汐重力异常在微伽量级,而实际资料表明潮汐重力的观测误差为10μGal量级,油藏潮汐重力异常可能会被噪声淹没,所以没有观测到潮汐重力异常不等于地下没有油气;实际观测的潮汐重力异常可达数十μGal,即使超过观测误差的3倍,也不能将它直接归因于油藏产生的潮汐重力异常.例如:潮汐重力改正的误差可能达到数十μGal,对有效异常形成干扰.  相似文献   

15.
Summary The tidal force function of the two-body system is defined. It is formed by two parts, reflecting the direct, as well as, the indirect tidal effects. It enables deriving the tidal torques due to both the tidal effects independently of density distributions. The Stokes parameters of both bodies, the Love numbers and phase lag angles are sufficient for the solution.  相似文献   

16.
IntroductionThe purpose of the studies on the tidal gravity observations on the Earth(s surface is to investigate the properties of the deformation and the tidal gravity variations of the Earth under the action of the luni-solar tidal force. These variations relate to the internal structure, shape and the medium(s rheology properties of the Earth (Wahr, 1981; Dehant, 1987). The theoretical studies and observations indicated that the amplitudes and the tidal parameters, including the amplitud…  相似文献   

17.
The formation and evolution of tidal platforms are controlled by the feedbacks between hydrodynamics, geomorphology, vegetation, and sediment transport. Previous work mainly addresses dynamics at the scale of individual marsh platforms. Here, we develop a process-based model to investigate salt marsh depositional/erosional dynamics and resilience to environmental change at the scale of tidal basins. We evaluate how inputs of water and sediment from river and ocean sources interact, how losses of sediment to the ocean depend on this interaction, and how erosional/depositional dynamics are coupled to these exchanges. Model experiments consider a wide range of watershed, basin, and oceanic characteristics, represented by river discharge and suspended sediment concentration, basin dimensions, tidal range, and ocean sediment concentration. In some scenarios, the vertical accretion of a tidal flat can be greater than the rate of sea level rise. Under these conditions, vertical depositional dynamics can lead to transitions between tidal flat and salt marsh equilibrium states. This type of transition occurs much more rapidly than transitions occurring through horizontal marsh expansion or retreat. In addition, our analyses reveal that river inputs can affect the existence and extent of marsh/tidal flat equilibria by both directly providing suspended sediment (favoring marshes) and by modulating water exchanges with the ocean, thereby indirectly affecting the ocean sediment input to the system (favoring either marshes or tidal flats depending on the ratio of the river and ocean water inputs and their sediment concentrations). The model proposed has the goal of clarifying the roles of the main dynamic processes at play, rather than of predicting the evolution of a particular tidal system. Our model results most directly reflect micro- and meso-tidal environments but also have implications for macro-tidal settings. The model-based analyses presented extend our theoretical understanding of marsh dynamics to a greater range of intertidal environments. © 2020 John Wiley & Sons, Ltd.  相似文献   

18.
中国数字地震观测网络"十五"计划期间,在全国布设约40台我国自主研发的YRY-4型分量式钻孔应变仪.现已取得一批固体潮观测数据,计算M2波潮汐因子的结果表明,潮汐因子的相对精度最高达到了0.001.在此基础上,发现各观测点潮汐响应(潮汐因子)与理论模型比较有很大的离散性及有规律的方位各向异性.本文提出断层隔离是造成各台站潮汐因子偏离理论值及方位各向异性的主要原因.有限元断层地块模型应变方位响应与台站实测方位响应的一致,支持了这一观点.潮汐响应各向异性现象有望在地质构造研究、城市断层探测、地块活动微动态、地震烈度区划等研究领域发挥作用.也可为GPS等空间大地测量观测数据改进潮汐位移修正,提供参考.  相似文献   

19.
Mainstem–floodplain material exchange in the tidal freshwater reach of major rivers may lead to significant sequestration of riverine sediment, but this zone remains understudied compared to adjacent fluvial and marine environments. This knowledge gap prompts investigation of floodplain-incising tidal channels found along the banks of tidal rivers and their role in facilitating water and suspended-sediment fluxes between mainstem and floodplain. To evaluate this role, and how it evolves along the tidal river and with time, we measured water level, flow velocity, temperature, and suspended-sediment concentration (SSC) in four tidal channels along the tidal Amazon River, Brazil. Eleven deployments were made during low, rising, high, and falling seasonal Amazon discharge. Generally, channels export high-SSC water from the mainstem to the tidal floodplain on flood tides and transfer low-SSC water back to the mainstem on ebbs. Along the length of the tidal river, the interaction between tidal and seasonal water-level variations and channel–floodplain morphology is a primary control on tidal-channel sediment dynamics. Close to the river mouth, where tides are large, this interaction produces transient flow features and current-induced sediment resuspension, but the importance of these processes decreases with distance upstream. Although the magnitude of the exchange of water and sediment between mainstem and floodplain via tidal channels is a small percentage of the total mainstem discharge in this large tidal-river system, tidal channels are important conduits for material flux between these two environments. This flux is critical to resisting floodplain submergence during times of rising sea level. © 2019 John Wiley & Sons, Ltd.  相似文献   

20.
Flood and ebb currents provide different contributions to the initiation and evolution of tidal channel networks, generating diverse network structures and channel cross-sections. In order to separate the effects of these contributions, a physical model of a sloping tidal-flat basin was set up in the laboratory. Depending on the degree of tidal asymmetry imposed offshore, either flood or ebb currents can be enhanced. The experimental results show that the ebb current has a higher capability to initiate and shape tidal networks than the flood current. Headward erosion is mainly induced by the ebb flow. The slightly inclined flat surface tends to reduce the energy of the flood current and to enhance the ebb current, thus prolonging the duration of morphodynamic activity as well as sediment motion. Overall, flood-dominated tides favour the formation of small-scale channel branches in the upper basin zone, while long lasting ebb-dominated tides result in more complex, wider and deeper tidal networks. © 2019 John Wiley & Sons, Ltd.  相似文献   

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