日本海沟事件地层学:国际海洋考察计划(IODP)在深海海沟进行巨型活塞取样以推进俯冲带古地震学研究的首批成果

IF 2.6 3区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Michael Strasser , Ken Ikehara , Charlotte Pizer , Takuya Itaki , Yasufumi Satoguchi , Arata Kioka , Cecilia McHugh , Jean-Noel Proust , Derek Sawyer
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引用次数: 0

摘要

国际大洋发现计划(IODP)第 386 号考察项目 "日本海沟古地震学 "首次在大洋科考钻探中使用了巨型活塞取芯技术(GPC)。这使得在超深水俯冲带海沟进行多地点、多钻孔、浅层次岩心取样成为可能。这次考察的主要目的是研究日本海沟海底古地震学的概念,即研究深海沉积物的长期记录,从而了解过去的地震事件。在本文中,我们对最初的船上数据和结果进行了汇编和解释,以便:(1)在不同地点之间建立厚事件层(厚度达 50 厘米)的一阶事件地层相关性;(2)在不同地点之间建立厚事件层的二阶事件地层相关性;(3)在不同地点之间建立厚事件层的三阶事件地层相关性;50厘米)之间的一阶事件地层相关性;(2) 检验之前发表的基于高分辨率水声海底剖面仪(SBP)数据提出的地震相关事件沉积的事件地层预测;(3) 得出SBP尺度的事件沉积年龄估计;(4) 讨论巨型活塞取芯在科学钻探作业中的优势和局限性,以及新的事件地层学结果在推进海底古地震学方面的潜力。研究结果发现,在跨度超过 600 公里的海沟平行断面上的 15 个地点共发现 77 个 SBP 规模的事件岩床。这些事件床在 SBP 数据中表现清晰,其中约 49% 与 Kioka 等人(2019a)之前确定的 SBP 单元完全吻合。对于其余 51% 的 SBP 规模事件岩床,在高振幅地层之间观察到了薄而透声的岩体,对于这些岩床,仅基于 SBP 的地震解释并不确定。因此,研究得出结论,IODP 386岩芯中观察到的SBP尺度事件地层验证了Kioka等人(2019a)进行的事件床测绘,并改进了0.5至1米厚度范围内事件床的SBP解释。通过船上放射虫生物地层学获得的初步年龄约束,使我们能够通过线性插值以前发生在距今不到2000年前的事件与日本南部、中部和北部海沟盆地的四个钻孔中报告的距今约11000年前的基准之间的事件年龄,对事件年龄进行粗略估计。地层间相关性显示,位于北纬 39.3-39.4° 左右结构复杂的 "边界地区 "以北和以南的海沟区段具有不同的 SBP 尺度事件地层。我们在日本南部和中部海沟观察到更频繁但更薄的事件沉积,在日本北部海沟观察到更少但更厚的事件岩床。这种空间上的差异可能与日本海沟大地壳沿线不同凸面的不同致震行为有关,也可能与斜坡沉积物对地震震动的不同反应有关。然而,本文提出的 SBP 尺度的研究过于简单,无法有力地应用 "海底古地震学 "方法。来自 IODP GPC 的广泛而高质量的数据集,加上本文介绍的令人鼓舞的初步相关结果,使我们假设,进一步的详细研究可以确定和描述微岩层层面的事件沉积动力学,完善沉积物的出处,并限制古地震学解释中评估同步性所必需的精确事件年龄。这些研究还将有力地探索沿岩层的相关性或变化,促进从日本海沟事件地层中提取古地震信号。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Japan Trench event stratigraphy: First results from IODP giant piston coring in a deep-sea trench to advance subduction zone paleoseismology

The International Ocean Discovery Program (IODP) Expedition 386, Japan Trench Paleoseismology, represents the first utilization of giant piston coring (GPC) within scientific ocean research drilling. This allowed for a Mission Specific Platform (MSP) multi-site, multi-hole, shallow subsurface coring in an ultra-deep water subduction zone trench. The primary objective of the expedition was to investigate the concept of submarine paleoseismology in the Japan Trench, which involves studying long-term records of deposits in the deep sea that can provide insights into past earthquake events. In this paper, we compile and interpret initial shipboard data and results to (1) establish first-order event stratigraphic correlation of thick event beds (> 50 cm in thickness) between sites, (2) test previously published event-stratigraphic predictions of earthquake-related event deposits as proposed based on high-resolution hydro-acoustic subbottom profiler (SBP) data, and (3) derive SBP-scale event deposits age estimates to (4) discuss the advantages and limitations of giant piston coring for scientific drilling operations and the potential of new event stratigraphy results for advancing submarine paleoseismology.

The findings of the study identified a total of 77 SBP-scale event beds across 15 sites along a trench-parallel transect spanning over 600 km. These event beds exhibit clear expressions in SBP data, with approximately 49 % matching precisely with SBP units previously identified by Kioka et al. (2019a). For the remaining 51 % of SBP-scale event beds, thin, acoustically-transparent bodies were observed between high-amplitude horizons, for which SBP-based seismic interpretation alone would not be definitive. Consequently, the study concluded that the SBP-scale event-stratigraphy observed in IODP 386 cores validates the event-bed mapping conducted by Kioka et al. (2019a) and improves SBP interpretation for event beds in the 0.5 to 1 m thickness range.

The initial age constraints obtained from shipboard radiolarian biostratigraphy enable us to provide rough estimates of event ages by linearly interpolating between previously dated events occurring less than 2000 years ago and a datum around 11,000 years ago reported in four boreholes from trench basins in the Southern, Central, and Northern Japan Trench. Inter-site stratigraphic correlation reveals distinct SBP-scale event stratigraphies for the trench segments located to the north and south of the structurally complex “boundary area” at approximately 39.3–39.4°N, which is hypothesized to potentially act as a persistent rupture barrier for megathrust earthquakes. We observe more frequent but thinner event deposits in the Southern and Central Japan Trench, and fewer but thicker event beds in the Northern Japan Trench. This spatial variation may be related to the different seismogenic behavior of the various asperities along the Japan Trench megathrust and/or to differences in the response of slope sediments to earthquake shaking. However, here-presented investigations at the SBP-scale level are deemed too simplistic for robust application of the “submarine paleoseismology” approach. The extensive and high-quality dataset from IODP GPC, coupled with the encouraging initial correlation results presented here, leads us to hypothesize that further detailed studies can identify and characterize event deposition dynamics at the micro-facies level, refine sediment provenance, and constrain precise event ages necessary for evaluating synchronicity in paleoseismological interpretation. These studies will also enable robust exploration of along-strike correlations or variations, facilitating the extraction of paleo-earthquake signals from Japan Trench event stratigraphies.

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来源期刊
Marine Geology
Marine Geology 地学-地球科学综合
CiteScore
6.10
自引率
6.90%
发文量
175
审稿时长
21.9 weeks
期刊介绍: Marine Geology is the premier international journal on marine geological processes in the broadest sense. We seek papers that are comprehensive, interdisciplinary and synthetic that will be lasting contributions to the field. Although most papers are based on regional studies, they must demonstrate new findings of international significance. We accept papers on subjects as diverse as seafloor hydrothermal systems, beach dynamics, early diagenesis, microbiological studies in sediments, palaeoclimate studies and geophysical studies of the seabed. We encourage papers that address emerging new fields, for example the influence of anthropogenic processes on coastal/marine geology and coastal/marine geoarchaeology. We insist that the papers are concerned with the marine realm and that they deal with geology: with rocks, sediments, and physical and chemical processes affecting them. Papers should address scientific hypotheses: highly descriptive data compilations or papers that deal only with marine management and risk assessment should be submitted to other journals. Papers on laboratory or modelling studies must demonstrate direct relevance to marine processes or deposits. The primary criteria for acceptance of papers is that the science is of high quality, novel, significant, and of broad international interest.
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