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Japan Trench event stratigraphy: First results from IODP giant piston coring in a deep-sea trench to advance subduction zone paleoseismology

Michael Strasser, Ken Ikehara, Charlotte Pizer, Takuya Itaki, Yasufumi Satoguchi, Arata Kioka, Cecilia M. McHugh, Jean‐Noël Proust, Derek E. Sawyer, Jez Everest, Lena Maeda, Katharina Hochmuth, H.L.J. Grant, Margaret Stewart, N. Okutsu, N. Sakurai, Tomoo Yokoyama, Rui Bao, Piero Bellanova, M. Brunet, Z. Cai, Antonio Cattaneo, Kan‐Hsi Hsiung, Jie Huang, Takashi Ishizawa, K. Jitsuno, Joel E. Johnson, Toshiya Kanamatsu, Myra Keep, Martin Kölling, Min Luo, Christian März, Aaron Micallef, Yoshitaka Nagahashi, Dhananjai K. Pandey, E. Troy Rasbury, Natascha Riedinger, C. Seibert, M. Silver, Susanne M. Straub, Joonas J. Virtasalo, Y.H. Wang, T.-W. Wu, Sarah D. Zellers

2024Marine Geology16 citationsDOIOpen Access PDF

Abstract

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. • We report initial results from first-ever IODP mission-specific platform giant piston coring. • A multi-site multi-hole comprehensive compilation of deep subsurface core samples from a hadal trench at 7–8 km water depth. • Correlations of event beds and stratigraphic markers of up to 11,000 years in age validate previous subbottom profile data interpretations. • Inter-site correlation reveals distinct event stratigraphies for the Northern, as well as the Southern- and Central Japan Trench. • This enables submarine paleoseismology to study spatio-temporal earthquake variability along the Japan Trench subduction zone.

Topics & Concepts

GeologyCoringPaleoseismologyTrenchSeismologyStratigraphyPaleontologyDrillingSubductionTectonicsLayer (electronics)EngineeringChemistryOrganic chemistryMechanical engineeringearthquake and tectonic studiesGeology and Paleoclimatology ResearchGeological and Geochemical Analysis
Japan Trench event stratigraphy: First results from IODP giant piston coring in a deep-sea trench to advance subduction zone paleoseismology | Litcius