High-resolution seismic imaging of shallow structure at proposed IODP drilling sites, Kane oceanic core complex, Mid-Atlantic Ridge

IF 2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Wenxin Xie , Huizhe Di , Maochuan Zhang , Min Xu
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Abstract

Two 500-m-deep holes are proposed to be drilled at the Kane oceanic core complex (OCC), one aimed at a serpentinized peridotite massif and the other at a gabbroic body. Ocean drilling is vital to validate lithological interpretation derived from seismic structures. Utilizing a long marine streamer, seismic imaging can effectively delineate the dominant lithologies within the OCCs. This study applied a suite of techniques, including downward-continued multi-channel seismic data, full waveform inversion, and reverse time migration, to obtain detailed fine-scale shallow structures beneath the Kane OCC. Through the downward continuation method, refracted seismic data at near offsets were utilized, thus doubling the resolution at shallow depths. Compared to previous findings, our results greatly enhance the understanding of shallow subseafloor structures, revealing a more precise morphology of the gabbroic bodies and well-imaged very shallow low velocities caused by seawater percolation in the shallow fissure due to footwall rotation extension. We present reference drilling hole velocities and link them to the likely composition, considering potential alteration processes such as serpentinization of mantle peridotite. Our investigation suggests that the lower crustal melt fluxes of the Kane OCC represent a transitional phase from low to medium accretion, providing valuable insights for future scientific ocean drilling projects in this region.

大西洋中脊凯恩洋核杂岩拟建IODP钻探场地浅层结构的高分辨率地震成像
在凯恩洋核杂岩(OCC)拟钻两个500米深的孔,一个针对蛇纹岩橄榄岩地块,另一个针对辉长岩体。海洋钻探对于验证地震构造的岩性解释至关重要。利用长海洋拖缆,地震成像可以有效地描绘OCCs内的主要岩性。本研究采用了一套技术,包括向下连续的多通道地震数据、全波形反演和逆时偏移,以获得Kane OCC下详细的精细尺度浅层结构。通过向下延拓方法,利用近偏移的折射地震数据,使浅层分辨率提高了一倍。与以往的研究结果相比,我们的研究结果大大提高了对浅层海底结构的认识,揭示了更精确的辉长岩体形态,以及由于下盘旋转伸展引起的浅层裂缝中海水渗透引起的极浅低速成像。我们提出了参考钻孔速度,并将其与可能的成分联系起来,考虑到潜在的蚀变过程,如地幔橄榄岩的蛇纹石化。研究结果表明,凯恩OCC下部地壳熔体通量代表了从低吸积到中吸积的过渡阶段,为该地区未来的科学海洋钻探项目提供了有价值的见解。
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来源期刊
Solid Earth Sciences
Solid Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
3.60
自引率
5.00%
发文量
20
审稿时长
103 days
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