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南海西南次海盆广角地震探测 总被引:2,自引:0,他引:2
2010年12月—2011年3月在南海西南次海盆开展了海底地震仪(Ocean Bottom Seismometer,OBS)探测,采用Sedis IV型、I-4C型和MicrOBS3种不同型号的OBS,以4×24.5L的大容量气枪为震源,获得了覆盖西南次海盆残留扩张脊的3D人工地震数据。从处理的地震数据可知,此次试验是一次比较成功的地震实验,OBS地震记录清晰、震相丰富,所使用的气枪有足够的能量输出,显示了其良好的工作能力。选取剖面1中的7台OBS进行了2D剖面处理。初步建模结果表明,南海西南次海盆地壳结构为普通洋壳,海山顶部沉积层很薄,莫霍面埋深较浅。 相似文献
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南海深地震探测的重要科学进程:回顾和展望 总被引:3,自引:0,他引:3
南海是西太平洋最大的边缘海之一,研究其深部地壳的结构对深入认识南海共轭边缘的构造属性、深海盆形成演化历史、含油气盆地的形成机制均具有十分重要的科学意义。南海地壳结构的深地震探测从构造区域上可分为南海北部陆缘、南海南部陆缘、南海中部深海盆等几个海域,在探测技术上经历了声纳浮标、双船扩展剖面(expanding spread profile,ESP)、海底地震仪(ocean bottom seismometer,OBS)探测3个阶段。特别是近20年OBS探测蓬勃发展,从南海北部、发展到南海南部、再到南海中部,从二维直线探测到三维网格探测。这些探测和研究得到了宝贵的深部地壳结构信息,为南海的形成演化理论提供了重要依据,同时也推动了国产OBS的应用和人才队伍的培养。而最新完成的深海盆三维OBS探测标志了一个新的历史阶段,具有非常深远的科学意义。 相似文献
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为了研究渤海—山东半岛—南黄海一线的深部构造特征,利用海区气枪震源和陆区爆破震源探测,于2013年在胶东、渤海和南黄海布设了一条海陆联合深部地震探测剖面。海陆联测剖面包括渤海和南黄海两条海底地震仪(Ocean Bottom Seismometer,OBS)测线和一条陆上地震测线,是首次在南黄海地区布设的OBS深地震测线。文章对南黄海段测线上的海底地震仪数据进行了数据预处理,其中包括地震数据解编处理、截裁处理等,结果表明,此次实验海底地震仪记录质量良好,可以清晰地识别出Ps、Pg、Pm P等多组震相,还首次观察到了来自千里岩隆起带上的P波震相,说明数据处理流程是可行的;再结合地质地球物理资料,初步分析了南黄海不同构造单元的震相特征,为下一步地壳速度结构的模拟及解释工作奠定了良好的基础。 相似文献
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西南印度洋洋中脊热液A区海底地震仪数据处理初步成果 总被引:3,自引:0,他引:3
在西南印度洋热液活动A区(49°39′E)开展的三维海底地震仪(OBS)探测实验为研究该区域的深部地壳/上地幔结构提供了重要基础,而OBS数据处理是获取研究区三维速度结构的基础环节。文章介绍了此次实验中所用的3种不同类型OBS(国产、法国和德国OBS)的数据处理流程,包括地震数据解编处理、截裁处理和地震信号的可视化处理;并以第2790炮为例分析了3种类型OBS记录数据的波形和频谱特征。结果表明,由于受不同类型OBS的频带、传感器和拾震器等影响,国产与法国OBS都能记录到长周期和短周期噪音,而德国OBS只记录到短周期噪音;但经带通滤波后,3种类型OBS都能够很好地压制噪音,突出有用的气枪信号;对比3种类型OBS(分别以OBS04、OBS08和OBS23为例)沿主测线X1X2的综合记录剖面,发现3种类型OBS都能够记录到多组清晰可靠的P波震相,如直达水波、Pg、PmP和Pn震相,为下一步A区的三维层析成像奠定了坚实数据基础。 相似文献
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海底地震仪实测信号特性分析 总被引:2,自引:1,他引:1
置于海底数百米至数千米的海底地震仪(OBS)的实测信号相比陆地地震仪具有不同的特性;由于水的作用或记录信号源频率的不同,短周期OBS和宽频带OBS记录的信号又有明显的差异。文章对南海西南次海盆地震探测期间记录的人工气枪震源和天然地震实测信号进行了时频分析,结果如下。1)气枪作业后在海底激发两种噪声:一是水的波动不断叠加形成的长波,周期50s左右,以水平分量为主;二是高频噪声,主要是OBS底座细微晃动引起的。2)宽频OBS对于水下移动目标激发海底波动具有很好的探测能力,特别是水平分量可以获得大振幅且周期特征清晰的记录,并能够指示方向。3)宽频OBS能记录到清晰的天然地震信号,为研究调查区岩石圈结构增添了更多的信息,短周期OBS对远震直达P波有很好的记录。国产宽频I-4C型OBS碰巧记录了日本M9.0级大震。 相似文献
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基于20年卫星遥感资料的黄海、渤海海雾分布季节特征分析 总被引:3,自引:1,他引:2
目前对海上雾分布的认识多基于沿岸测站和海上船舶、浮标观测,但这些数据非常稀少,且存在代表性和数据质量方面的问题,因此一直缺乏对海雾分布更全面、清晰的了解。卫星遥感数据空间均一、覆盖范围广、质量一致,具有对无云条件下大范围、离岸海雾监测的优势。本文通过分析算法检测出的1989-2008年黄渤海海雾及云的频数、分布百分率信息,得到了黄渤海海雾季节变化的较全面特征。除印证其他资料或研究的结论外,还发现:(1)黄海海雾频数随季节变化的幅度较渤海明显;(2)黄海、渤海海域存在冬季海雾多发时段;(3)海雾生消过程中有覆盖区变化的东传特征;(4)春夏雾季中存在黄海中部和西朝鲜湾两处海雾多发区,其中西朝鲜湾也是全年海雾最多的海域。另外,在样本充足的情况下,通过对检测出的低云、中高云覆盖百分率和海雾频数的分析统计,还能估算出黄海、渤海部分季节20年海雾发生的平均概率。 相似文献
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天然气水合物是一种新型的清洁能源, 南海北部神狐海域的地质条件有利于水合物的形成和储藏。传统的多道地震(MCS)数据难以得到精确的速度信息, 并且只能从时间域上判断地质体纵向分布。海底地震仪(OBS)是一种常用的主动源地震仪器, 可以接收到更清晰的气枪信号。相比于MCS, OBS剖面上的折射震相可以揭示较深部的地层速度信息。文章结合MCS和OBS的优势, 识别水平叠加剖面上的反射层位, 并得到初始模型; 将OBS剖面和水平叠加剖面拼合, 从而判断OBS剖面上反射震相所对应层位; 拾取OBS台站上的反射和折射震相, 使用RayInvr软件正演模拟得到水合物存在区域的二维速度模型, 解决了MCS中较为困难的时深转换问题。最终模型显示了水合物、游离气区域的埋深、厚度和速度, 以及似海底反射(BSR)下方更深部界面的深度和速度特征。 相似文献
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南海北部陆缘洋陆转换带实施的OBS2018-H2测线的地壳速度结构, 将为探讨南海张裂-破裂机制提供重要证据。文章介绍了OBS2018-H2测线前期数据处理流程, 包括多道反射地震数据处理、海底地震仪OBS (Ocean Bottom Seismometer)数据格式转换、炮点和OBS位置校正, 以及OBS震相的初步识别, 并对地壳结构进行了初步分析。结果表明: 炮点和OBS位置校正效果良好; 多道反射地震数据为建立初始速度模型提供了良好约束; OBS综合地震剖面识别了多组清晰的P波震相, 包括Pw、Pg、PmP和Pn震相。根据测线西侧OBS36、OBS37两台站的震相分布特征初步估算台站下方地壳厚度约为6~7km, 与根据多道地震剖面LW3的双程走时估算的厚度6~9km大致相符。 相似文献
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Wei Luo Minghui Zhao Jiazheng Zhang Chunhui Tao Xuelin Qiu Yu Ren 《Marine Geophysical Researches》2017,38(1-2):27-37
Two earthquakes were recorded by 20 ocean bottom seismometers (OBS) deployed in the Southwest Indian Ridge (SWIR) area during a three-dimensional seismic survey in 2010. Their magnitudes (both M b = 4.4) and hypocenters have been determined by National Earthquake Information Center (NEIC) only using land seismic stations onset times. After the frequency analysis and the band-pass filtering of the OBSs’ data, 7 and 13 P-phase onset times from OBSs were successfully picked for these two events, respectively. Then these two events were relocated by HYPOSAT program with onset times together from OBSs and land seismic stations using different velocity models. These relocation experiments confirm both the importance of adding OBSs’ onset data and the need to apply a local oceanic velocity model for the location of these two events happened on the SWIR. This research has accumulated a wealth of experience for earthquakes observation and research using OBSs in the ocean. 相似文献
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AbstractThe relocation of ocean bottom seismometers (OBSs) is a key step in analyzing the three-dimensional seismic tomographic structure of crust and mantle. In order to get the accurate location of OBSs on the seafloor, we analyze the travel times of direct water waves emitted by air-guns. The Monte Carlo and least square methods have been adopted to calculate the true OBS location. The secondary time correction is necessary if the arrivals of direct water waves show overall time drift during relocation which maybe originates from remnant of linear clock drift correction and average errors of travel time picking, mean water velocity assumption, and experiment geometry. We have improved the original OBS relocation procedure which we used previously for other experiments by deliberateness of a secondary time correction and automatically approaching the really mean water velocity. A series of synthetic tests are carried out firstly to document the feasibility of our procedure and then it is applied on a real experiment. In here, we relocate 28 OBSs in total were relocated in 3D seismic survey near Bashi Channel. Relocation results show that the drifting distances for the 28 OBSs range from 65 to 1136 m between the deployed and relocated locations deduced by relocation results. The Pearson correlation coefficient between OBS drifting direction and sea current direction is 0.79, indicating that the two sets of data are highly linearly related and further manifest the sea current as the most possible driving force for OBS drifting during landing on the seafloor but its detailed influence mechanism is unclear by now. This research is necessary and critical for velocity structure modeling, and the optimal relocation program provides valuable experiences for 3D seismic survey in other area. 相似文献
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为揭示南海南部陆缘的地壳结构,研究其张裂-破裂机制,开展共轭陆缘对比,我们在南沙地块礼乐西海槽附近的洋陆转换带上完成了OBS2019-2测线的探测工作。相较于北部陆缘,南部陆缘已有的海底地震仪(ocean bottom seismometer,OBS)测线较少,对深部地壳结构的研究也较少,因此OBS2019-2测线就尤为重要。文章重点阐述了OBS2019-2测线的数据处理工作,包括UKOOA文件制作、数据格式转换、位置校正、单个台站综合地震记录剖面的生成等,然后在剖面图中对各类深部震相(Pg、PcP、PmP、Pn)进行识别追踪,并建立初步的模型;使用Rayinvr软件进行走时试算工作,验证了震相识别的准确性。处理结果显示OBS2019-2测线的深部震相清晰,最远震相可以连续追踪到120km以外,数据整体质量良好,能为后续速度建模和构造解释等工作提供坚实基础。 相似文献
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时间服务系统对利用走时层析成像方法进行地下介质速度结构反演至关重要。海底地震仪(ocean bottom seismometer, OBS)工作期间由于没有GPS时间接入, 其时间误差(包括守时误差和授时误差)主要来源于内部石英晶振的准确程度, 受到外部环境变化以及开关机等因素影响。长期实践发现, 部分国产OBS在记录气枪信号以及天然地震信号时存在较大的时间偏差。本文对2019年福建及台湾海峡地壳结构海陆探测实验所获得的53台次国产OBS记录进行了时间服务系统矫正。其中, 针对OBS授时误差, 利用出海前不中断采集的一致性试验和运输船运输过程中产生的晃动互相关进行时间矫正; 针对守时误差, 采用计算实际采样频率与理论采样频率偏差进行矫正; 通过对比矫正前后OBS记录到的天然地震信号, 进行秒级别的检测。结果表明, 经过以上步骤矫正的OBS数据, 其时间记录的准确性得到了显著提高, 从而降低了震相识别、走时拾取的时间误差, 为标准化国产OBS数据采集作业流程提供了重要参考。 相似文献
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Ocean bottom seismometers (OBS) have been widely used during the past decade to collect seismic data for determination of the structure of the oceanic lithosphere, stress patterns in regions of earthquake activity, and geoacoustic parameters of the ocean floor. Data quality from these experiments has often been disappointing because of poor signal quality and high noise levels. Many of these problems result from motion of the OBS package that is decoupled from motion of the ocean floor. These coupling problems are more serious in the ocean than on land because of the low shear strengths of most ocean sediments. In this paper we continue to develop the theory of coupling of OBSs to soft sediments and arrive at results suggesting that OBS packages should be designed with: (1) the minimum mass possible, (2) radius of area in contact with the sediment proportional to the cube root of the mass, and the maximum radius less than 1/4 of the shear wavelength, (3) density of the OBS approximately that of the sediment, (4) a low profile and a small vertical cross section with water, and (5) low density gradients, and maximum symmetry about the vertical axis. Agreement of the theory with test data is good; most deviations are reasonable, given limitations of the theory and experiments. The theory also suggests that the coupling frequency, the frequency above which the OBS does not follow the motion of the sediment, is directly proportional to the sediment shear velocity. 相似文献
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Joint land-sea seismic survey and research on the deep structures of the Bohai Sea areas 总被引:1,自引:0,他引:1
HAO Tianyao YOU Qingyu LIU Lihu LV Chuanchuan XU Y LI Zhiwei ZHAO Chunlei ZHENG Yanpeng LIU Chenguang HAN Guozhong 《海洋学报(英文版)》2013,32(12):13-24
This paper presents the survey and research work of two land-sea profiles in the Bohai Sea, China, carried out in 2010-2011, including the seismic sources on land and in the sea, the ocean bottom seismographs (OBS) and their recovery, the coupling of OBS and the environment noise in sea area, the data quality of OBSs, and the result of data analysis. We focused on the investigation of crustal structures revealed by the two NE/EW-trending joint land-sea profiles. In combination with the Pn-velocity distribution and gravity- magnetic inversion results in the North China Craton, we propose that the undulation of the Moho interface in the Bohai and surrounding areas is not strong, and the lithospheric thinning is mainly caused by the thinning of its mantle part. The research result indicates that obvious lateral variations of Moho depth and seismic velocity appear nearby all the large-scale faults in Bohai Sea, and there is evidence of underplating and reforming of the lower crust by mantle material in the Bohai area. However, geophysical evidence does not appear to support the "mantle plume" or "delamination" model for the North China Craton destruction. The crustal structure of the Bohai Sea revealed "a relatively normal crust and obviously thinned mantle lid", local velocity anomalies and instability phenomena in the crust. These features may represent a combined effect of North China-Yangtze collision at an early stage and the remote action of Pacific plate subduction at a late stage. 相似文献
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Wang Tan K. McIntosh Kirk Nakamura Yosio Liu Char-Shine Chen How-Wei 《Marine Geophysical Researches》2001,22(4):265-287
A wide-angle seismic survey, combining ocean-bottom seismometers (OBS) and multi-channel seismic (MCS) profiling, was implemented
in the southwestern Ryukyu subduction zone during August and September 1995. In this paper, we present the data analysis of
eight OBSs and the corresponding MCS line along profile EW9509-1 from this experiment. Seismic data modeling includes identification
of refracted and reflected arrivals, initial model building from velocity analysis of the MCS data, and simultaneous and layer-stripping
inversions of the OBS and MCS arrivals. The velocity-interface structure constructed along profile EW9509-1 shows that the
northward subduction of the Philippine Sea Plate has resulted in a northward thickening of the sediments of the Ryukyu Trench
and the Yaeyama accretionary wedge north of the trench. The boundary between the subducting oceanic crust and the overriding
continental crust (represented by a velocity contour of 6.75 km/s) and a sudden increase of the subducting angle (from 5 degrees
to 25 degrees) are well imaged below the Nanao Basin. Furthermore, velocity undulation and interface variation are found within
the upper crust of the Ryukyu Arc. Therefore, the strongest compression due to subduction and a break-off of the slab may
have occurred and induced the high seismicity in the forearc region.
This revised version was published online in November 2006 with corrections to the Cover Date. 相似文献
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利用海底地震仪数据分析台风对海底环境噪音的影响 总被引:4,自引:2,他引:2
在海底布设的海底地震仪(OBS)能比较清晰地记录到海底的环境噪音,而台风可以直接或间接的产生在海底传播的弹性波,从而影响海底的环境噪音,并在较大程度上影响OBS的数据记录。本文通过分析台风对工作区的整个影响过程中OBS记录数据的振幅变化,再选择合适的滤波方式,首次发现台风产生的风浪及涌浪在短周期海底地震仪的记录数据上有良好的表现特征,指出了台风对海底环境噪音的另一种可能的影响方式,并由此得出:1)台风产生的风浪和涌浪对海底环境噪音的影响模式不同;2)风浪和涌浪所加强的海底环境噪音的范围和程度不同;3)短周期OBS可以比较清晰的记录涌浪信息,其周期主要是6—8 s,且能量稳定(简称“8秒现象”)。这三点结论为后期的海洋地震研究和海洋学其他研究提供经验与借鉴。 相似文献