IODP Expedition 322 Drills Two Sites to Document Inputs to The Nankai Trough Subduction Zone

Underwood, Michael B.; Saito, Saneatsu; Kubo, Yusuke

doi:10.2204/iodp.sd.10.02.2010

Cited by 8 publications

(8 citation statements)

References 39 publications

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“…Chloride concentrations at Site C0012 significantly increase above a typical seawater value of 558 mM below 300 mbsf until the sediment‐basement interface. Thus, the observed increase in sulfate concentrations with depth at Site C0012 is likely not related to a relict sulfate pool but attributed to a diffusional sulfate supply from the basement aquifer (Torres et al., 2015; Underwood et al., 2010). This comparison demonstrates that the sedimentary packages in the Nankai‐Shikoku‐subduction system are exposed to different geochemical controls even on comparably small‐scale spatial distances.…”

Section: Discussionmentioning

confidence: 99%

Evolution of (Bio‐)Geochemical Processes and Diagenetic Alteration of Sediments Along the Tectonic Migration of Ocean Floor in the Shikoku Basin off Japan

Köster

Kars

Schubotz

et al. 2021

Geochem Geophys Geosyst

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 The tectonic migration of ocean floor led to a transition from an organic carbon-starved to an elevated organic carbon burial environment  Diagenetic transformation of iron oxides into pyrite within the carbon-lean sediments occurred several millions of years after deposition Accepted ArticleThis article has been accepted for publication and undergone full peer review but has not been through the copyediting, typesetting, pagination and proofreading process, which may lead to differences between this version and the Version of Record. Please cite this article as

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Section: Discussionmentioning

confidence: 99%

Evolution of (Bio‐)Geochemical Processes and Diagenetic Alteration of Sediments Along the Tectonic Migration of Ocean Floor in the Shikoku Basin off Japan

Köster

Kars

Schubotz

et al. 2021

Geochem Geophys Geosyst

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“…The resistivity images obtained during logging-while-drilling suggest that the dip angles of Holes C0002N and C0002P are 60-908 [Tobin et al, 2015;Boston et al, 2016], while sediments, before evolving into the inner accretionary wedge, possess subhorizontal bedding [Kinoshita et al, 2009]. The site C0002 sediments below 1700 mbsf (approximately 11-6 Ma) have porosities of approximately 0.20-0.35 [Tobin et al, 2015], while sediments of the same age at Sites C0011 and C0012 (off-Kumano input sites) have porosities of approximately 0.35-0.50 Underwood et al, 2010]. Assuming that the formations were heated when they were subhorizontal, and then subsequently inclined to approximately 608, with a porosity reduction from 0.35-0.50 to 0.20-0.35 ( Figure 6; cases in between the largest porosity reduction of 0.50-0.20, or no porosity reduction of 0.35-0.35), the paleogeothermal gradients at 1590.5-2405.5 and 2605.5-3045.5 mbsf are estimated to be 60-1118C/km (mean: 868C/km) and 91-1518C/km (mean: 1218C/km), respectively.…”

Section: Paleogeothermal Gradient Considering Fault Repetitionmentioning

confidence: 99%

Paleothermal structure of the Nankai inner accretionary wedge estimated from vitrinite reflectance of cuttings

Fukuchi

Yamaguchi

Yamamoto

et al. 2017

Geochem Geophys Geosyst

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The paleothermal structure and tectonic evolution of an accretionary prism is basic information for understanding subduction zone seismogenesis. To evaluate the entire paleotemperature profile of the Integrated Ocean Drilling Program (IODP) Site C0002 located in the off‐Kumano region of the Nankai Trough and penetrate the inner accretionary wedge down to 3058.5 m below the seafloor (mbsf), we performed a vitrinite reflectance analysis for cuttings and core samples during IODP expeditions 338 and 348: Nankai Trough seismogenic zone experiment. Although vitrinite reflectance values (Ro) tend to increase with depth, two reversals of these values suggested the existence of thrust fault zones with sufficient displacements to offset the paleothermal structure. The estimated maximum paleotemperatures are 42–70°C at 1200–1300 mbsf, 44–100°C at 1600–2400 mbsf, and 56–115°C at 2600–3000 mbsf, respectively. These temperatures roughly coincide with estimated modern temperatures; however, at a smaller scale, the reconstructed partial paleogeothermal gradient (∼60–150°C/km) recorded at the hanging‐ and footwall of the presumed thrust fault zone is higher than the modern geothermal gradient (∼30–40°C/km). This high paleogeothermal gradient was possibly obtained prior to subduction, reflecting the large heat flow of the young Philippine Sea Plate.

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“…Integrated Ocean Drilling Program (IODP) Expedition 322 is part of the Nankai Trough Seismogenic Zone Experiment (NanTro-SEIZE) project and aimed at understanding the initial presubduction conditions because the downdip evolution of those initial properties is what ultimately changes slip behavior along the plate interface from aseismic to seismic (Vrolijk, 1990;Hyndman et al, 1997;Moore and Saffer, 2001;Tobin and Kinoshita, 2006). Expedition 322 sampled and logged the incoming sedimentary strata and uppermost igneous basement of the Shikoku Basin, seaward of the Nankai Trough (southwestern Japan) prior to their arrival and burial at the Nankai subduction front (Saito et al, 2009;Underwood et al, 2010). Two sites were drilled: IODP Site C0011 on the northwest flank of the bathymetric high called Kashinosaki Knoll and IODP Site C0012 near the crest of the seamount (Fig.…”

Section: Introductionmentioning

confidence: 99%

Data report: permeability, compressibility, and microstructure of resedimented mudstone from IODP Expedition 322, Site C0011

Reece¹,

Flemings²,

Germaine³

2013

Proceedings of the IODP

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We conducted Atterberg limits measurements, particle size analyses, and uniaxial constant rate of strain consolidation experiments on six sediment samples, which were prepared in the laboratory using resedimentation, to characterize the material and analyze compression and flow behavior. We performed all experiments in the GeoMechanics Laboratory at the University of Texas at Austin (Texas, USA). The six samples are sediment mixtures composed of varying proportions of Nankai silty claystone, which was homogenized from a large number of discrete samples that were collected during Integrated Ocean Drilling Program (IODP) Expedition 322 from Site C0011, and silt-size silica from US Silica. The particle size distributions vary from 56% to 32% clay-size particles with no sand present. The compression index (C c) systematically decreases with decreasing clay-size fraction. For clay-rich mixtures, C c also significantly decreases with vertical effective stress (σ′ v), whereas silt-rich mixtures show constant C c. Vertical intrinsic permeability decreases with increasing σ′ v and varies loglinearly with porosity. Slopes of this log-linear relationship vary between 11.8 and 9.8 for mixtures from 56% clay to 32% clay. At a given porosity, vertical permeability increases by two orders of magnitude for clay contents ranging from 56% to 32%.

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IODP Expedition 322 Drills Two Sites to Document Inputs to The Nankai Trough Subduction Zone

Cited by 8 publications

References 39 publications

Evolution of (Bio‐)Geochemical Processes and Diagenetic Alteration of Sediments Along the Tectonic Migration of Ocean Floor in the Shikoku Basin off Japan

Evolution of (Bio‐)Geochemical Processes and Diagenetic Alteration of Sediments Along the Tectonic Migration of Ocean Floor in the Shikoku Basin off Japan

Paleothermal structure of the Nankai inner accretionary wedge estimated from vitrinite reflectance of cuttings

Data report: permeability, compressibility, and microstructure of resedimented mudstone from IODP Expedition 322, Site C0011

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