于俊辉, 阎贫, 郑红波, 王彦林, 赵旭. 南海西南次海盆反射莫霍面成像及其地质意义[J]. 海洋地质与第四纪地质, 2017, 37(2): 75-81. DOI: 10.16562/j.cnki.0256-1492.2017.02.008
引用本文: 于俊辉, 阎贫, 郑红波, 王彦林, 赵旭. 南海西南次海盆反射莫霍面成像及其地质意义[J]. 海洋地质与第四纪地质, 2017, 37(2): 75-81. DOI: 10.16562/j.cnki.0256-1492.2017.02.008
YU Junhui, YAN Pin, ZHENG Hongbo, WANG Yanlin, ZHAO Xu. IMAGING OF REFLECTION MOHO IN THE SOUTHWEST SUB-BASIN OF SOUTH CHINA SEA AND ITS GEOLOGICAL IMPLICATIONS[J]. Marine Geology & Quaternary Geology, 2017, 37(2): 75-81. DOI: 10.16562/j.cnki.0256-1492.2017.02.008
Citation: YU Junhui, YAN Pin, ZHENG Hongbo, WANG Yanlin, ZHAO Xu. IMAGING OF REFLECTION MOHO IN THE SOUTHWEST SUB-BASIN OF SOUTH CHINA SEA AND ITS GEOLOGICAL IMPLICATIONS[J]. Marine Geology & Quaternary Geology, 2017, 37(2): 75-81. DOI: 10.16562/j.cnki.0256-1492.2017.02.008

南海西南次海盆反射莫霍面成像及其地质意义

IMAGING OF REFLECTION MOHO IN THE SOUTHWEST SUB-BASIN OF SOUTH CHINA SEA AND ITS GEOLOGICAL IMPLICATIONS

  • 摘要: 深部地质结构是研究海盆动力成因的重要基础。南海西南次海盆以往多道地震资料中莫霍面的成像普遍不清,选取NH973-1测线长排列多道地震数据对西南次海盆的莫霍面反射成像进行研究。该地震资料中层间多次波非常发育,严重掩盖或干扰了莫霍面有效反射信号。针对地震资料特征,首先采用抛物线型Radon变换滤波对部分层间多次波进行压制以拾取一个相对准确的初始速度,在此基础上进一步采用速度滤波和内切除组合方法对层间多次波进行压制。从资料处理效果看,层间多次波得到有效压制,莫霍面成像清晰,呈现出断断续续的特征。由此解释的海盆区地壳(除沉积层外)厚度整体较薄,约为2.3~3.9 km,有别于正常洋壳结构,更接近于构造拉伸主导型的地壳。

     

    Abstract: Deep crust structure is important to understand the dynamic origin of a marginal sea basin. However, reflection Moho has been poorly imaged in the Southwest Sub-basin of the South China Sea so far. So we reprocessed a portion of the seismic line NH973-1, which was collected with a 6 km streamer, to improve the Moho imaging. This data is rich of peg-leg multiples, thus the Moho is masked. For this, Parabolic Radon transform filtering is firstly applied to suppress the peg-leg multiples to get a initial velocity of the deep reflections. Then, velocity filtering and inner muting are carried out to further attenuate the multiples. Consequently, peg-leg multiples are attenuated effectively, and the discontinuous strong reflections, likely Moho, appear clearly. The interpreted crust (except sediments) is about 2.3 to 3.9 km thick, which is different from the normal oceanic crust, but more like the crust created by tectonic dominated seafloor spreading.

     

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