Seismic monitoring of sub-seafloor fluid processes in the Haima cold seep area using an Ocean Bottom Seismometer (OBS)

The use of ocean bottom seismometers provides an effective means of studying the process and the dynamic of cold seeps by continuously recording micro-events produced by sub-seafloor fluid migration.We deployed a four-component Ocean Bottom Seismometer(OBS)at an active site of the Haima cold seep from 6 November to 19 November in 2021.Here,we present the results of this short-term OBS monitoring.We first examine the OBS record manually to distinguish(by their distinctive seismographic signatures)four types of events:shipping noises,vibrations from our remotely operated vehicle(ROV)operations,local earthquakes,and short duration events(SDEs).Only the SDEs are further discussed in this work.Such SDEs are similar to those observed in other sea areas and are interpreted to be correlated with sub-seafloor fluid migration.In the OBS data collected during the 14-day monitoring period.We identify five SDEs.Compared to the SDE occurrence rate observed in other cold seep regions,five events is rather low,from which it could be inferred that fluid migration,and subsequent gas seepage,is not very active at the Haima site.This conclusion agrees with multi-beam and chemical observations at that site.Our observations thus provide further constraint on the seepage activity in this location.This is the first time that cold seep-related SDEs have been identified in the South China Sea,expanding the list of sea areas where SDEs are now linked to cold seep fluid migration.

Inversion of ocean-bottom seismometer(OBS) waveforms for oceanic crust structure: a synthetic study

The waveform inversion method is applied-- using synthetic ocean-bottom seismometer （OBS） data--to study oceanic crust structure. A niching genetic algorithm （NGA） is used to implement the inversion for the thickness and P-wave velocity of each layer, and to update the model by minimizing the objective function, which consists of the misfit and cross-correlation of observed and synthetic waveforms. The influence of specific NGA method parameters is discussed, and suitable values are presented. The NGA method works well for various observation systems, such as those with irregular and sparse distribu- tion of receivers as well as single receiver systems. A strategy is proposed to accelerate the convergence rate by a factor of five with no increase in computational complex- ity; this is achieved using a first inversion with several generations to impose a restriction on the preset range of each parameter and then conducting a second inversion with the new range. Despite the successes of this method, its usage is limited. A shallow water layer is not favored because the direct wave in water will suppress the useful reflection signals from the crust. A more precise calculation of the air-gun source signal should be considered in order to better simulate waveforms generated in realistic situa- tions; further studies are required to investigate this issue.

Tomographic inversion of OBS converted shear waves:case study of profile EW6 in the Dongsha area

Studies of converted S-wave data recorded on the ocean bottom seismometer(OBS)allow for the estimation of crustal S-wave velocity,from which is further derived the Vp/Vs ratio to constrain the crustal lithology and geophysical properties.Constructing a precise S-wave velocity model is important for deep structural research,and inversion of converted S-waves provides a potential solution.However,the inversion of the converted S-wave remains a weakness because of the complexity of the seismic ray path and the inconsistent conversion interface.In this study,we introduced two travel time correction methods for the S-wave velocity inversion and imaged different S-wave velocity structures in accordance with the corresponding corrected S-wave phases using seismic data of profile EW6 in the northeastern South China Sea(SCS).The two inversion models show a similar trend in velocities,and the velocity difference is<0.15 km/s(mostly in the range of 0–0.1 km/s),indicating the accuracy of the two travel time correction methods and the reliability of the inversion results.According to simulations of seismic ray tracing based on different models,the velocity of sediments is the primary influencing factor in ray tracing for S-wave phases.If the sedimentary layer has high velocities,the near offset crustal S-wave refractions cannot be traced.In contrast,the ray tracing of Moho S-wave reflections was not significantly impacted by the velocity of the sediments.The two travel time correction methods have their own advantages,and the application of different approaches is based on additional requirements.These works provide an important reference for future improvements in converted S-wave research.

典型水深与海底介质条件下的OBC/OBN多分量地震数据波型特征

海底电缆或海底节点(OBC/OBN)多分量地震是开展海上复杂油气藏勘探的重要手段之一。由于地震波与自由表面及海底界面的互相作用,海底多分量地震记录中波型成分十分复杂。调查其中各类信号与噪声的形成机制及其影响,可为后续数据处理与解释提供关键依据。针对海底多分量地震观测条件下潜在的波场信号,按照不同水深与典型海底沉积物性质构建代表性的弹性参数模型,利用谱元法合成OBC/OBN多分量地震记录,分析各类波型成分的表现特征,揭示水深和海底介质特性对波场运动学及动力学特征的影响。通过与东海浅水区和南海深水区海底地震仪(OBS)采集的实际地震数据的对比分析,确认了水深与海底介质条件对表面多次波与海底界面波的调控机理,为海底多分量地震数据处理方法研究与技术应用提供有益的指导。

噪声HVSR法在OBS探测中的应用——以珠江口外海OBS台阵为例

噪声谱比法(horizontal-to-vertical spectral ratio,HVSR)通常用于确定沉积层的厚度,而应用于海底地震仪(OBS)以获取海底沉积厚度的研究较少.本文将HVSR法应用于珠江口外海域OBS台阵中,验证了该方法用于OBS探测中的可靠性.通过对珠江口外海27台OBS收集的三分量地震噪声记录进行处理,得到了所有台站的HVSR曲线.有23台OBS的HVSR曲线可获取与沉积层厚度相关的峰值频率,通过经验公式可以计算得到沉积层厚度.结果显示,珠江口外海域沉积层(新生代地层)厚度范围为100~3500 m,研究区东南部沉积层远厚于西北部,且沉积厚度受到NEE向滨海断裂带控制.本文获得的结果与以往依靠反射地震剖面和钻井等获得的沉积层厚度结果基本一致.进一步分析发现研究区新生代地层具有多层结构,大部分HVSR曲线在5~12 Hz存在振幅最大的波峰,认为是与第四系厚度相关的峰值频率,继而确定第四系厚度为20~50 m.本研究拓展了HVSR法的应用领域,为获取海底沉积层厚度提供了一种新的可靠方法.

Seabed Physical Parameter Research Based on Active-Source OBS Data in the Chukchi Sea Shelf of the Arctic

The acquisition of seabed physical parameters is one of the focuses of marine acoustic researches.However,the activesource ocean bottom seismometer(OBS)detection method in the marine geophysical research is rarely used to acquire seabed physical parameters,and less work is performed in the Arctic.In this study,two active-source OBS data collected from the 9th and 11th Chinese National Arctic Research Expedition(CHINARE)are selected to obtain the physical parameters of seabed sediments.Two kinds of energy spark are used as the active sources,while the cost function inversion method is used based on the arrival time difference between the reflected and direct waves.The thickness and sound velocity of the sediment layers are obtained by inversion,and the empirical formula is used to calculate the physical parameters of the seabed sediment,which are compared with the measured results.The cost function inversion method based on the time difference of arrival of the reflected and direct waves is tested to be effective and feasible in the inversion of seabed parameters from active-source OBS data.The method is further applied to obtain the physical parameters of Chukchi seabed sediments,which provides the idea and reference for the application of marine geophysical activesource OBS detection technology in the inversion of polar seabed physical parameters.

OCEAN BOTTOM SEISMOMETER AND ONSHOREOFFSHORE SEISMIC EXPERIMENT IN NORTHEASTERN SOUTH CHINA SEA

Three-component Ocean Bottom Seismometers, portable land stations and marine air gun seismic sources were used to carry out an onshore-offshore deep seismic profile in northeastern South China Sea. This profile, orientated in NNW-SSE, was as long as 500 km and perpendicular to the strike of regional tectonics. The offshore data were processed in Taiwan Ocean University using a number of available software and the onshore data were analyzed in South China Sea Institute of Oceanology by new-written programs and public software. Preliminary results show that the seismic data are in good quality and contain rich information of deep structure. Seismic phases, e.g. Pg, PmP and Pn, are identified in the offset range 5～220 kin, which will provide an important dataset for the deep crustal structure and oil-gas basin evolution studies of this region.

mFAST:A MATLAB toolbox for ocean bottom seismometer refraction first-arrival traveltime tomography

First-arrival seismic traveltime tomography(FAST)is a well-established technique to estimate subsurface velocity structures.Although several existing open-source packages are available for first-arrival traveltime tomography,most were written in compiled languages and lack sufficient extendibility for new algorithms and functionalities.In this work,we develop an open-source,selfcontained FAST package based on MATLAB,one of the most popular interpreted scientific programming languages,with a focus on ocean bottom seismometer refraction traveltime tomography.Our package contains a complete traveltime tomography workflow,including ray-tracing-based first-arrival traveltime computation,linearized inversion,quality control,and high-quality visualization.We design the package as a modular toolbox,making it convenient to integrate new algorithms and functionalities as needed.At the current stage,our package is most efficient for performing FAST for two-dimensional ocean bottom seismometer surveys.We demonstrate the efficacy and accuracy of our package by using a synthetic data example based on a modified Marmousi model.

Lithospheric Structure Model of Central Indian Ocean Basin Using Ocean Bottom Seismometer Data

The intense deformation zone in the central Indian Ocean, south of Indian continent is one of the most complex regions in terms of its structure and geodynamics. The deformation zone has been studied and debated in 1990s for its genesis. It was argued that deformation is mainly confined to sedimentary and oceanic crustal layers, while the large wave length geoidal anomalies, on which the deformation region lies, called for deeper sources. The inter connection between deeper and the shallower sources is found missing. The current study focuses on the complexities of this region by analyzing OBS （ocean bottom seismometer） data. The data acquired by five OBS systems along a 300 km long south-north profile in the CIOB （central Indian Ocean basin） have been modeled and the crustal and sub-crustal structure has been determined using 2-D tomographic inversion. Four subsurface layers are identified representing the sediment column, upper crustal layer, lower crustal layer and a sub-crustal layer （upper mantle layer）. A considerable variation in thickness as well as velocity at all interfaces from sedimentary column to upper mantle is observed which indicates that the tectonic forces have affected the entire crust and sub-crustal configuration. The sediments are characterized by higher velocities （2.1 kin/s） due to the increased confining pressure. Modeling results indicated that the velocity in upper crust is in the range of 5.7-6.2 km/s and the velocity of the lower crust varies from 7.0-7.6 km/s. The velocity of the sub-crustal layer is in the range of 7.8-8.4 km/s. This high-velocity layer is interpreted as magmatic under-plating with strong lateral variations. The base of the 7.0 km/s layer at 12-15 km depth is interpreted as the Moho.

南海中北部OBS2006-3地震剖面中横波的识别与应用

纵横波联合探测可以获得丰富的地下结构信息。纵横波速比和岩石泊松比在预测岩石圈的岩性、物性等介质属性方面有重要的作用。通过对比南海中北部OBS2006-3地震剖面垂直分量和径向分量上的纵横波走时、视速度以及质点运动轨迹,识别出了转换横波震相。本文以OBS8和OBS10台站的数据为例,说明了横波识别的方法,并在拟合好的P波速度模型基础上,利用RayInvr软件对转换横波震相进行了射线追踪,确认了PwSs3、PgSs3、PmS等几组转换震相,计算了这两个站位下的波速比和泊松比。根据OBS2006-3测线下地壳高速层的P波速度(VP=7.20—7.25km·s-1)、S波速度(VS=4.20—4.23km·s-1)、泊松比(0.24)等参数,初步推断下地壳高速层是由上地幔岩浆底侵作用形成。

南海巴士海峡三维OBS探测的异常数据恢复

为了探明南海东北部马尼拉俯冲带北段的地壳结构属性,2016年4—6月,"实验2"号科考船执行基金委共享航次,在巴士海峡区域实施三维海底地震仪(OBS)深地震探测实验.实验总共投放48台国产便携式OBS,最终回收41台,放炮测线长2300km,有效放炮10800次,获得了宝贵的第一手数据资料.但初步处理显示,新研发的25台OBS数据异常,未能识别有效震相,给后续计算模拟带来极大困难.为此,本文对异常数据进行了深入分析,通过数据格式检查、导航放炮时间查对、相邻台站信号对比、外部时间和内部时间分析等手段,发现数据异常的原因是采样间隔发生了变化,由设置的4.0ms变为实际的4.5ms,导致内部时间出错,无法正确裁截和对齐震相.新版仪器为节能优化,调低了CPU主频,导致在较高采样率情况下,实际采样间隔比预设要长,这是造成数据异常的主要原因.通过修正采样间隔和数据重采样的方法,我们成功恢复了异常数据,获得了清晰的地震剖面.此项研究不仅挽救了宝贵的地震数据,为下一步地壳结构研究提供数据基础,而且提升了国家基金委共享航次的科学意义,可为今后国产仪器的研发和使用提供重要参考.

三维地震与OBS联合勘探揭示的神狐海域含水合物地层声波速度特征

以三维高分辨地震与海底高频地震仪(OBS)联合勘探数据为基础,获得海底之下沉积层的地震反射成像剖面及多波信息,并以此确定研究区含天然气水合物沉积层的纵、横波速度的变化特征.根据走时反演获得的横波速度与纵波速度对比分析发现,研究区海底之下500m深度范围内的某些沉积层具有较高的纵横波速度,这一纵波速度升高区域与水合物稳定带对应,而纵波速度下降并且横波速度变化较小的区域,可能与游离气的存在相关.游离气的可能存在与基于这一区域2007年钻探测井结果的普遍认识不完全相符.

南海西南次海盆与南沙地块的OBS探测和地壳结构

跨越南海西南次海盆南部陆缘和南沙地块中部的OBS973-1测线是南海南部首次采集的海底地震仪(OBS)广角反射与折射深地震测线,本文通过震相分析和走时正演拟合,获得了沿测线的二维纵波速度结构模型.模拟结果显示表层沉积物速度2.5～4.5 km/s,厚度1000～3000 m,局部基底面起伏较大.结晶基底的速度从顶部的4.5～5.5 km/s增加到地壳底部的6.8～6.9 km/s,中地壳有一个小的速度不连续面(0.1～0.2 km/s),而地壳底部的莫霍面有较大的速度反差(1.2 km/s),上地幔顶部的速度为8.0～8.1 km/s.莫霍面埋深和地壳厚度在测线的北段和南段有很大的不同,在测线北段的海盆区,莫霍面埋深约11 km,结晶地壳的厚度仅为5～6 km,表现为典型洋壳的特征,而在测线南段的陆块区,莫霍面埋深最大达24 km,地壳厚度可达20 km,表现为减薄陆壳的特征,从海盆区到陆块区莫霍面埋深和地壳厚度迅速增加.陆块区上下地壳的厚度和变化趋势相似,下地壳没有看到高速层(HVL),可能说明地壳内部是以纯剪拉张的均匀减薄为主,地壳下部的岩浆底侵不发育.对比OBS973-2和OBS973-3测线的结构模型,可以推测南沙地块的中部和东部具有相似的构造性质,西南次海盆两侧是一对非火山型的不对称共轭陆缘.

OBS记录的时间和定位误差校正

根据地震波传播的时距关系,利用海底地震仪子母钟对时记录、测深数据和近炮点数据,使用数据处理软件OBSTOOL,对南海北部采集的海底地震记录进行高精度时钟校正处理。通过反演确定放炮延迟和海底地震仪的漂移参数,为准确反演速度奠定了基础。分析结果显示,南海北部OBS数据放炮延迟为1.278s,最大时钟校正量为2.394 s,OBS偏离测线最大距离为652m,这些将会导致浅层正、反演结果不准确,影响BSR的正确识别。

基于稀疏反演的OBS数据多次波压制方法

自由表面多次波压制是海底地震仪(Ocean Bottom Seismometer,OBS)数据处理和成像中的难点,OBS数据多次波能量强,周期长,严重影响深层一次反射波的处理和成像.不同于常规拖缆观测系统,OBS数据站点一般相隔较远,仅仅利用检波点稀疏的波场信息难以压制OBS数据中的自由表面多次波.本文采用拖缆数据与OBS数据联合,利用稀疏反演估计(Estimation of Primaries and Multiples by Sparse Inversion,EPSI)方法,研究了OBS数据自由表面多次波压制理论,分析了OBS多次波产生的机理,详细推导了拖缆数据与OBS数据联合预测OBS多次波的EPSI方法基本原理.通过利用拖缆数据的信息,实现了OBS检波点稀疏数据多次波的压制问题.EPSI方法通过稀疏反演直接估计一次反射波,避免了SRME(Surface Related Multiple Elimination)方法中自适应相减对有效信号的损害,保真了一次反射有效信号,理论模拟OBS数据验证了方法的有效性.

海底广角地震剖面反演方法对比——以南海礼乐滩OBS剖面为例

广角地震测线（OBS973-2）位于南海南部陆缘,其地壳深部构造是研究南海共轭扩张及形成演化的直接证据之一.本文采用2D射线追踪技术,结合与之重合的多道地震测线（NH973-2）时深转换结果,对OBS973-2测线重新进行了正、反演研究,得到了礼乐滩及邻近海区的精细地壳结构.与前人结果相比,本文基于正反演速度模型,把测线分为陆壳区（0-200 km）、洋陆过渡区（200-280 km）和洋盆区（280-370 km）.地壳结构在不同区域差异明显,陆壳区沉积层厚度横向差异大,且速度横向不均匀,地壳整体厚度大（约20 km）,有横向速度差;洋陆过渡区速度和厚度横向均匀,地壳减薄（约8 km）;洋壳区地壳厚度减薄至6 km.与以往研究相比,新的认识集中在两个方面,（1）在方法上,综合广角地震和多道地震数据,借助正演和反演方法,能够得到更多更可靠的地壳结构信息.（2）在地壳结构上,结合广角地震与多道地震,得到洋陆过渡区莫霍面向海减薄的形态及其埋深（约12-18 km,海平面为0 km）;进一步验证礼乐滩区域在洋陆过渡区没有明显的高速层,为非火山型陆缘,其共轭扩张点为中沙地块;陆壳区上地壳强烈的拉张作用在速度模型表现出横向速度异常和低速区,在多道地震剖面上表现为大量10-20 km的正断层.

OBS广角地震探测中二次反射Pg震相特征及在地壳结构成像中的作用

在海底地震仪(OBS,Ocean Bottom Seismometer)广角地震探测中,经常可以见到能量很强、连续性很好的多次波震相,但对于如何确定这些多次波的属性以及怎样充分利用它们来约束地下的结构特征,至今还缺乏详细的研究.本文利用南海北部已获取的OBS探测数据,对与地壳折射Pg震相近乎平行并紧随其后的二次反射Pg震相进行了系统分析研究,发现在实测OBS地震记录剖面上,二次反射Pg震相具有连续、清晰、可追踪偏移距较远(约60km以上)等特点,其地震波形和粒子运动轨迹与初至Pg震相相似,但二次反射Pg震相波形最大振幅值和粒子震动能量明显比初至Pg震相大.通过理论模型模拟以及对实测地震剖面三种不同反射层路径的走时计算,确定了二次反射Pg震相主要来自沉积层的反射.在此基础上,对二次反射Pg震相在地壳结构成像中的作用进行分析,发现加入二次反射Pg震相前后,由于反射震相的增加,沉积层界面的约束程度得到极大的提高;另外,通过对理论模型和实测剖面OBS2010地壳结构进行加入二次反射Pg震相前后的分辨率测试,结果发现加入二次反射Pg震相数据后,由于射线密度的增加,沉积层和上地壳结构的成像分辨率有显著改善.

南海IODP 367-368钻探区深地震探测的OBS站位设计分析

借助于国际大洋发现计划平台,于2017年2月—6月间在南海实施第三次科学钻探(IODP 367-368航次)。海底地震仪(OBS)深地震探测和国际大洋发现计划(IODP)钻探成果相结合,可以对南海北部洋陆转换带(COT)边界及地质属性的确定提供更好、更全面的深部地质过程解释。文章基于IODP 367-368钻探提出的三种可能设想(下地壳出露、最老洋壳出露、上地幔出露),分别建立了三种初始速度模型。利用Rayinvr及Tomo2d软件,对每一种初始模型分别开展了不同OBS间距的射线追踪和走时模拟测试对比,以及模型的分辨率测试。测试结果表明:OBS间隔为7km比间隔为10km具有更好的射线路径与密度覆盖;对于上地幔出露模型,需要足够长的探测测线(>100km),才能有效得到30km深处信息;分辨率测试说明,OBS间距需要设置小于或等于7km时,才能有效分辨20km速度异常体(即模糊带)。

OBS纵波资料镜像叠前时间偏移处理

四分量海底地震仪(OBS)是一种新的接收仪器,其获得的地震数据信息量大,整体信噪比较高,频率成分丰富,具有较高的使用价值。OBS用于研究深部地壳结构已取得较好进展,但较少应用到油气勘探和盆地研究中。在南海西北部采用大容量气枪阵列(0.083m3)作为震源、利用OBS记录气枪震源的反射和折射信息,在油气勘探中是一种新的尝试。为正确使用OBS地震资料,必须采用不同于常规地震资料处理的方法,文中开拓性地使用了镜像叠前时间偏移处理方法。镜像叠前时间偏移处理方法是利用海面多次波进行成像的技术,包括OBS资料矢量保真处理、P分量(压力分量)和Z分量(垂直分量)的叠前处理和镜像叠前时间偏移处理等;其中矢量保真处理主要进行检波点位置二次重定位和检波点方向重定位及倾角校正,P、Z分量的叠前处理包括零相位化处理与地震道修改,P、Z矢量合并(P and Z summation)、剩余静校正、镜像叠加和多次波衰减等。采用镜像叠前时间偏移处理方法获得的剖面获得了较好的成像效果。

深地震探测的分辨率分析--以南海北部OBS数据为例

多次深地震探测结果表明南海北部陆缘地壳结构在走向和倾向上都有明显的变化.在一些相隔很近的测线上,探测的深部地壳结构却相差较大,为了分析这些探测结果中差异的原因和地壳结构变化的可靠性,本文以东沙东侧海域测线和东沙西侧海域测线为例,对采集的海底地震仪记录进行了时间、位置校正和初至波走时拾取,利用有限差分地震走时层析成像进行了走时反演,获得所在剖面的地壳速度结构,并分析了模型的横向分辨率,剔除模型中短波长的横向速度变化.分辨率检测结果表明,模型的横向分辨率随着深度快速下降,0-8 km深度范围可以分辨10 km的横向变化,8-17 km的范围能够分辨10-40 km,而17-33 km的范围只能分辨40-80 km.因此,折射波的横向分辨能力不高,在地壳深部难以分辨较小的横向速度变化,前人探测的南海北部6 km宽、延伸至莫霍面的滨外断裂带并不能清晰的识别.