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1. Rapid metabolism fosters microbial survival in the deep, hot subseafloor biosphere

Author

Beulig, F, Schubert, F, Adhikari, RR, Glombitza, C, Heuer, VB, Hinrichs, K-U, Homola, KL, Inagaki, F, Jørgensen, BB, Kallmeyer, J, Krause, SJE, Morono, Y, Sauvage, J, Spivack, AJ, and Treude, T

Subjects
Earth Sciences, Geochemistry, Geology, Affordable and Clean Energy, Bacteria, Carbon Radioisotopes, Geologic Sediments, Hot Temperature, Microbiota, Radioactive Tracers, Sulfates, Sulfur Radioisotopes
Abstract

A fourth of the global seabed sediment volume is buried at depths where temperatures exceed 80 °C, a previously proposed thermal barrier for life in the subsurface. Here, we demonstrate, utilizing an extensive suite of radiotracer experiments, the prevalence of active methanogenic and sulfate-reducing populations in deeply buried marine sediment from the Nankai Trough subduction zone, heated to extreme temperature (up to ~120 °C). The small microbial community subsisted with high potential cell-specific rates of energy metabolism, which approach the rates of active surface sediments and laboratory cultures. Our discovery is in stark contrast to the extremely low metabolic rates otherwise observed in the deep subseafloor. As cells appear to invest most of their energy to repair thermal cell damage in the hot sediment, they are forced to balance delicately between subsistence near the upper temperature limit for life and a rich supply of substrates and energy from thermally driven reactions of the sedimentary organic matter.

Published
2022

2. The next frontier for planetary and human exploration

Author

Stamenković, V., Beegle, L. W., Zacny, K., Arumugam, D. D., Baglioni, P., Barba, N., Baross, J., Bell, M. S., Bhartia, R., Blank, J. G., Boston, P. J., Breuer, D., Brinckerhoff, W., Burgin, M. S., Cooper, I., Cormarkovic, V., Davila, A., Davis, R. M., Edwards, C., Etiope, G., Fischer, W. W., Glavin, D. P., Grimm, R. E., Inagaki, F., Kirschvink, J. L., Kobayashi, A., Komarek, T., Malaska, M., Michalski, J., Ménez, B., Mischna, M., Moser, D., Mustard, J., Onstott, T. C., Orphan, V. J., Osburn, M. R., Plaut, J., Plesa, A.-C., Putzig, N., Rogers, K. L., Rothschild, L., Russell, M., Sapers, H., Lollar, B. Sherwood, Spohn, T., Tarnas, J. D., Tuite, M., Viola, D., Ward, L. M., Wilcox, B., and Woolley, R.

Published
2019
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3. Uniquely low stable iron isotopic signatures in deep marine sediments caused by Rayleigh distillation

Author

Köster, M, Staubwasser, M, Meixner, A, Kasemann, SA, Manners, HR, Morono, Y, Inagaki, F, Heuer, VB, Kasten, S, Henkel, S, Köster, M, Staubwasser, M, Meixner, A, Kasemann, SA, Manners, HR, Morono, Y, Inagaki, F, Heuer, VB, Kasten, S, and Henkel, S

Abstract

Dissimilatory iron reduction (DIR) is suggested to be one of the earliest forms of microbial respiration. It plays an important role in the biogeochemical cycling of iron in modern and ancient sediments. Since microbial iron cycling is typically accompanied by iron isotope fractionation, stable iron isotopes are used as tracer for biological activity. Here we present iron isotope data for dissolved and sequentially extracted sedimentary iron pools from deep and hot subseafloor sediments retrieved in the Nankai Trough off Japan. Dissolved iron (Fe(II)aq) is isotopically light throughout the ferruginous sediment interval but some samples have exceptionally light isotope values. Such light values have never been reported in natural marine environments and cannot be solely attributed to DIR. We show that the light isotope values are best explained by a Rayleigh distillation model where Fe(II)aq is continuously removed from the pore water by adsorption onto iron (oxyhydr)oxide surfaces. While the microbially mediated Fe(II)aq release has ceased due to an increase in temperature beyond the threshold of mesophilic microorganisms, the abiotic adsorptive Fe(II)aq removal continued, leading to uniquely light isotope values. These findings have important implications for the interpretation of dissolved iron isotope data especially in deep subseafloor sediments.

Published
2023

6. Exploring deep microbial life in coal-bearing sediment down to ∼2.5 km below the ocean floor

Author

Inagaki, F., Hinrichs, K.-U., Kubo, Y., Bowles, M. W., Heuer, V. B., Hong, W.-L., Hoshino, T., Ijiri, A., Imachi, H., Ito, M., Kaneko, M., Lever, M. A., Lin, Y.-S., Methé, B. A., Morita, S., Morono, Y., Tanikawa, W., Bihan, M., Bowden, S. A., Elvert, M., Glombitza, C., Gross, D., Harrington, G. J., Hori, T., Li, K., Limmer, D., Liu, C.-H., Murayama, M., Ohkouchi, N., Ono, S., Park, Y.-S., Phillips, S. C., Prieto-Mollar, X., Purkey, M., Riedinger, N., Sanada, Y., Sauvage, J., Snyder, G., Susilawati, R., Takano, Y., Tasumi, E., Terada, T., Tomaru, H., Trembath-Reichert, E., Wang, D. T., and Yamada, Y.

Published
2015

7. Expedition 370 summary

Author

Heuer, V.B., primary, Inagaki, F., additional, Morono, Y., additional, Kubo, Y., additional, Maeda, L., additional, Bowden, S., additional, Cramm, M., additional, Henkel, S., additional, Hirose, T., additional, Homola, K., additional, Hoshino, T., additional, Ijiri, A., additional, Imachi, H., additional, Kamiya, N., additional, Kaneko, M., additional, Lagostina, L., additional, Manners, H., additional, McClelland, H.-L., additional, Metcalfe, K., additional, Okutsu, N., additional, Pan, D., additional, Raudsepp, M.J., additional, Sauvage, J., additional, Schubotz, F., additional, Spivack, A., additional, Tonai, S., additional, Treude, T., additional, Tsang, M.-Y., additional, Viehweger, B., additional, Wang, D.T., additional, Whitaker, E., additional, Yamamoto, Y., additional, and Yang, K., additional

Published
2017
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8. Expedition 370 methods

Author

Morono, Y., primary, Inagaki, F., additional, Heuer, V.B., additional, Kubo, Y., additional, Maeda, L., additional, Bowden, S., additional, Cramm, M., additional, Henkel, S., additional, Hirose, T., additional, Homola, K., additional, Hoshino, T., additional, Ijiri, A., additional, Imachi, H., additional, Kamiya, N., additional, Kaneko, M., additional, Lagostina, L., additional, Manners, H., additional, McClelland, H.-L., additional, Metcalfe, K., additional, Okutsu, N., additional, Pan, D., additional, Raudsepp, M.J., additional, Sauvage, J., additional, Schubotz, F., additional, Spivack, A., additional, Tonai, S., additional, Treude, T., additional, Tsang, M.-Y., additional, Viehweger, B., additional, Wang, D.T., additional, Whitaker, E., additional, Yamamoto, Y., additional, and Yang, K., additional

Published
2017
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9. Site C0023

Author

Heuer, V.B., primary, Inagaki, F., additional, Morono, Y., additional, Kubo, Y., additional, Maeda, L., additional, Bowden, S., additional, Cramm, M., additional, Henkel, S., additional, Hirose, T., additional, Homola, K., additional, Hoshino, T., additional, Ijiri, A., additional, Imachi, H., additional, Kamiya, N., additional, Kaneko, M., additional, Lagostina, L., additional, Manners, H., additional, McClelland, H.-L., additional, Metcalfe, K., additional, Okutsu, N., additional, Pan, D., additional, Raudsepp, M.J., additional, Sauvage, J., additional, Schubotz, F., additional, Spivack, A., additional, Tonai, S., additional, Treude, T., additional, Tsang, M.-Y., additional, Viehweger, B., additional, Wang, D.T., additional, Whitaker, E., additional, Yamamoto, Y., additional, and Yang, K., additional

Published
2017
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12. Rapid metabolism fosters microbial survival in the deep, hot subseafloor biosphere

Author

Beulig, F., Schubert, F., Adhikari, R. R., Glombitza, C., Heuer, V. B., Hinrichs, K. U., Homola, K. L., Inagaki, F., Jørgensen, B. B., Kallmeyer, J., Krause, S. J.E., Morono, Y., Sauvage, J., Spivack, A. J., Treude, T., Beulig, F., Schubert, F., Adhikari, R. R., Glombitza, C., Heuer, V. B., Hinrichs, K. U., Homola, K. L., Inagaki, F., Jørgensen, B. B., Kallmeyer, J., Krause, S. J.E., Morono, Y., Sauvage, J., Spivack, A. J., and Treude, T.

Abstract

A fourth of the global seabed sediment volume is buried at depths where temperatures exceed 80 °C, a previously proposed thermal barrier for life in the subsurface. Here, we demonstrate, utilizing an extensive suite of radiotracer experiments, the prevalence of active methanogenic and sulfate-reducing populations in deeply buried marine sediment from the Nankai Trough subduction zone, heated to extreme temperature (up to ~120 °C). The small microbial community subsisted with high potential cell-specific rates of energy metabolism, which approach the rates of active surface sediments and laboratory cultures. Our discovery is in stark contrast to the extremely low metabolic rates otherwise observed in the deep subseafloor. As cells appear to invest most of their energy to repair thermal cell damage in the hot sediment, they are forced to balance delicately between subsistence near the upper temperature limit for life and a rich supply of substrates and energy from thermally driven reactions of the sedimentary organic matter.

Published
2022

16. DEEP BIOSPHERE: Exploring deep microbial life in coal-bearing sediment down to ~2.5 km below the ocean floor

Author

Inagaki, F., Hinrichs, K.-U., Kubo, Y., Bowles, M. W., Heuer, V. B., Hong, W.-L., Hoshino, T., Ijiri, A., Imachi, H., Ito, M., Kaneko, M., Lever, M. A., Lin, Y.-S., Methé, B. A., Morita, S., Morono, Y., Tanikawa, W., Bihan, M., Bowden, S. A., Elvert, M., Glombitza, C., Gross, D., Harrington, G. J., Hori, T., Li, K., Limmer, D., Liu, C.-H., Murayama, M., Ohkouchi, N., Ono, S., Park, Y.-S., Phillips, S. C., Prieto-Mollar, X., Purkey, M., Riedinger, N., Sanada, Y., Sauvage, J., Snyder, G., Susilawati, R., Takano, Y., Tasumi, E., Terada, T., Tomaru, H., Trembath-Reichert, E., Wang, D. T., and Yamada, Y.

Published
2015
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18. High Fluid‐Pressure Patches Beneath the Décollement: A Potential Source of Slow Earthquakes in the Nankai Trough off Cape Muroto

Author

Hirose, T., Hamada, Y., Tanikawa, W., Kamiya, N., Yamamoto, Y., Tsuji, T., Kinoshita, M., Heuer, V. B., Inagaki, F., Morono, Y., Kubo, Y., Hirose, T., Hamada, Y., Tanikawa, W., Kamiya, N., Yamamoto, Y., Tsuji, T., Kinoshita, M., Heuer, V. B., Inagaki, F., Morono, Y., and Kubo, Y.

Abstract

Pore pressure plays a key role in the generation of earthquakes in subduction zones. However, quantitative constraints for its determination are quite limited. Here, we estimate the subsurface pore pressure by analyzing the transient upwelling flow of drilling mud from borehole C0023A of the International Ocean Discovery Program (IODP) Expedition 370, in the Nankai Trough off Cape Muroto. This upward flow provided the first direct evidence of an overpressured aquifer in the underthrust sediments off Cape Muroto. To estimate the pre-drilling pore pressure in the overpressured aquifer around a depth of 950–1, 050 m below sea floor, we examined the measured porosities of core samples retrieved from nearby IODP wells; we then proceeded to explain the observed time evolution of the flow rate of the upwelling flow by modeling various sized aquifers through solving a radial diffusion equation. It was observed that for a permeability of 10⁻¹³ m², the aquifer possessed an initial excess pore pressure of ∼5–10 MPa above the hydrostatic pressure, with a lateral dimension of several hundred meters and thickness of several tens of meters. The overpressure estimates from the porosity-depth profile at Site C0023 differ from those at other drill sites in the region, suggesting the possible existence of multiple overpressured aquifers with a patchy distribution in the underthrust sediments of the Nankai Trough. As pore pressure is relevant in maintaining fault stability, the overpressured aquifers may be the source of slow earthquakes that have been observed around the drilling site.

Published
2021

19. Microbial Diversity in Sediments from the Bottom of the Challenger Deep, the Mariana Trench

Author

Nunoura, T., Nishizawa, M., Hirai, M., Shimamura, S., HARNVORAVONGCHAI, P, Harnvoravongchai, P, Koide, O., Morono, Y., FUKUI, TOSHIAKI, Inagaki, F., Miyazaki, J., Takaki, Y., and Takai, K.

Subjects
0301 basic medicine, Geologic Sediments, Thaumarchaeota, Oceans and Seas, 030106 microbiology, Soil Science, Plant Science, 03 medical and health sciences, Hydrothermal Vents, Mariana Trench, Seawater, Gemmatimonadetes, Phylogeny, Ecology, Evolution, Behavior and Systematics, Challenger Deep, Pacific Ocean, Bacteria, biology, Bacteroidetes, Hadal zone, Biodiversity, Articles, General Medicine, Nitrogen Cycle, biology.organism_classification, Archaea, nitrification, 030104 developmental biology, Oceanography, RNA, Ribosomal, Trench, Geology, Hadal, Hydrothermal vent
Abstract

The Challenger Deep is the deepest ocean on Earth. The present study investigated microbial community structures and geochemical cycles associated with the trench bottom sediments of the Challenger Deep, the Mariana Trench. The SSU rRNA gene communities found in trench bottom sediments were dominated by the bacteria Chloroflexi (SAR202 and other lineages), Bacteroidetes, Planctomycetes, “Ca. Marinimicrobia” (SAR406), and Gemmatimonadetes and by the archaeal α subgroup of MGI Thaumarchaeota and “Ca. Woesearchaeota” (Deep-sea Hydrothermal Vent Euryarchaeotic Group 6). The SSU rRNA gene sequencing analysis indicated that the dominant populations of the thaumarchaeal α group in hadal water and sediments were similar to each other at the species or genus level. In addition, the co-occurrence of nitrification and denitrification was revealed by the combination of pore water geochemical analyses and quantitative PCR for nitrifiers.

Published
2018

22. Tertiary structure of destrin and structural similarity between two actin-regulating protein families

Author

Hatanaka, H., Ogura, K., Moriyama, K., Ichikawa, S., Yahara, I., and Inagaki, F.

Subjects
Proteins -- Structure, Amino acid sequence -- Analysis, Biological sciences
Abstract

Tertiary structure studies of destrin, an isoprotein of cofilin, reveal similarity between folding in destrin and repeated segments in the gelsolin family. However, the amino acid sequences fail to show similarities. The dissimilarity in sequence in the actin-binding helix is responsible for the Ca(super 2+)-independent actin-binding of destrin. The possible mechanisms of nuclear translocation with actin and pH-dependent filament severing are discussed with respect to tertiary structure.

Published
1996

23. Solution structure of the SH3 domain of phospholipase C-gamma

Author

Kohda, D., Hatanaka, H., Odaka, M., Mandiyan, V., Ullrich, A., Schlessinger, J., and Inagaki, F.

Subjects
Phospholipases -- Analysis, Structure-activity relationships (Biochemistry) -- Research, Biological sciences
Abstract

The 2-dimensional 1H nuclear magnetic resonance analysis of the solution structure of the Src homology 3 (SH3) domain of human phospholipase C-gamma (PLC-gamma) is reported. SH3 domains are key components of intracellular signaling mechanisms, functioning as binding sites for cytoplasmic target proteins. The distinctive features of human PLC-gamma include its eight antiparallel beta strands consisting of two successive Greek-key motifs forming a barrel-like structure, and the aliphatic and aromatic residues forming a hydrophobic pocket on the surface of the molecule.

Published
1993

24. Deep Methagenesis and Iodine-Rich Aquifer: Insight from Organic Geochemical Approach

Author

Urai, A., primary, Takano, Y., additional, Imachi, H., additional, Ishii, S., additional, Matsui, Y., additional, Ogawara, M., additional, Miyairi, Y., additional, Ogawa, N. O., additional, Yoshimura, T., additional, Inagaki, F., additional, Yokoyama, Y., additional, Park, H. D., additional, Murai, D., additional, Kawano, K., additional, and Ohkouchi, N., additional

Published
2019
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25. A new hybrid pressure-coring system for the drilling vessel Chikyu

Author

Kubo, Y., Mizuguchi, Y., Inagaki, F., and Yamamoto, K.

Subjects
lcsh:Geology, lcsh:QE1-996.5
Abstract

Retrieving core samples without releasing the in situ hydrostatic pressure during core recovery is one of the many technical challenges in scientific drilling. We report here a newly developed hybrid pressure-coring system for the use on the drilling vessel Chikyu and its successful use during expeditions 906 and 802 in the Nankai Trough of Japan. The system is gas-tight and hence enables researchers to study in situ geophysical and geochemical characteristics of sediments containing gaseous components, such as methane hydrates that cannot be reliably recovered with nonpressure coring systems. In addition, pressure coring is a powerful tool, not only for scientific but also for hydrocarbon resources research.

Published
2014

29. Anaerobic methanotrophic community of a 5346-m-deep vesicomyid clam colony in the Japan Trench

Author

Felden, J., Ruff, S., Ertefai, T., Inagaki, F., Hinrichs, K., and Wenzhöfer, F.

Abstract

Vesicomyidae clams harbor sulfide-oxidizing endosymbionts and are typical members of cold seep communities where active venting of fluids and gases takes place. We investigated the central biogeochemical processes that supported a vesicomyid clam colony as part of a locally restricted seep community in the Japan Trench at 5346m water depth, one of the deepest seep settings studied to date. An integrated approach of biogeochemical and molecular ecological techniques was used combining in situ and ex situ measurements. In sediment of the clam colony, low sulfate reduction rates (maximum 128nmolmL(-1)day(-1)) were coupled to the anaerobic oxidation of methane. They were observed over a depth range of 15cm, caused by active transport of sulfate due to bioturbation of the vesicomyid clams. A distinct separation between the seep and the surrounding seafloor was shown by steep horizontal geochemical gradients and pronounced microbial community shifts. The sediment below the clam colony was dominated by anaerobic methanotrophic archaea (ANME-2c) and sulfate-reducing Desulfobulbaceae (SEEP-SRB-3, SEEP-SRB-4). Aerobic methanotrophic bacteria were not detected in the sediment, and the oxidation of sulfide seemed to be carried out chemolithoautotrophically by Sulfurovum species. Thus, major redox processes were mediated by distinct subgroups of seep-related microorganisms that might have been selected by this specific abyssal seep environment. Fluid flow and microbial activity were low but sufficient to support the clam community over decades and to build up high biomasses. Hence, the clams and their microbial communities adapted successfully to a low-energy regime and may represent widespread chemosynthetic communities in the Japan Trench. In this regard, they contributed to the restricted deep-sea trench biodiversity as well as to the organic carbon availability, also for non-seep organisms, in such oligotrophic benthic environment of the dark deep ocean.

Published
2014

35. Regnase-1 N-terminal domain

Author

Yokogawa, M., primary, Tsushima, T., additional, Noda, N.N., additional, Kumeta, H., additional, Adachi, W., additional, Enokizono, Y., additional, Yamashita, K., additional, Standley, D.M., additional, Takeuchi, O., additional, Akira, S., additional, and Inagaki, F., additional

Published
2016
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36. Regnase-1 Zinc finger domain

Author

Yokogawa, M., primary, Tsushima, T., additional, Noda, N.N., additional, Kumeta, H., additional, Adachi, W., additional, Enokizono, Y., additional, Yamashita, K., additional, Standley, D.M., additional, Takeuchi, O., additional, Akira, S., additional, and Inagaki, F., additional

Published
2016
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38. Regnase-1 C-terminal domain

Author

Yokogawa, M., primary, Tsushima, T., additional, Noda, N.N., additional, Kumeta, H., additional, Adachi, W., additional, Enokizono, Y., additional, Yamashita, K., additional, Standley, D.M., additional, Takeuchi, O., additional, Akira, S., additional, and Inagaki, F., additional

Published
2016
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41. Advancing subsurface biosphere and paleoclimate research: ECORD–ICDP–DCO–J-DESC–MagellanPlus Workshop Series Program Report

Author

Mills, H.L., de Leeuw, J., Hinrichs, K.-U., Inagaki, F., Kallmeyer, J., Mills, H.L., de Leeuw, J., Hinrichs, K.-U., Inagaki, F., and Kallmeyer, J.

Abstract

The proper pre-drilling preparation, on-site acquisition and post-drilling preservation of high-qualitysubsurface samples are crucial to ensure significant progress in the scientifically and societally important areasof subsurface biosphere and paleoclimate research. Two of the four research themes of IODP and ICDPand one of the four research areas of the Deep Carbon Observatory (DCO) focus on the subsurface biosphere.Increasing understanding of paleoclimate is a central goal of IODP and incorporated within the scope of theIMPRESS program, the successor of the IMAGES program. Therefore, the goal of our IODP–ICDP–DCO–JDESC–MagellanPlus-sponsored workshop was to help advance deep biosphere and paleoclimate research byidentifying needed improvements in scientific drilling planning and available technology, sample collection andinitial analysis, and long-term storage of subsurface samples and data. Success in these areas will (a) avoidbiological and other contamination during drilling, sampling, storage and shipboard/shore-based experiments;(b) build a repository and database of high-quality subsurface samples for microbiological and paleoclimate researchavailable for the scientific community world-wide over the next decades; and (c) standardize, as much aspossible, microbiological and paleoclimate drilling, sampling and storage workflows to allow results and datato be comparable across both space and time. A result of this workshop is the development and suggested implementationof new advanced methods and technologies to collect high-quality samples and data for the deepbiosphere and paleoclimate scientific communities to optimize expected substantial progress in these fields. Themembers of this workshop will enhance communication within the scientific drilling community by crafting ahandbook focused on pre-drilling, drilling and post-drilling operations.

Published
2015

43. Saturated CO2 inhibits microbial processes in CO2-vented deep-sea sediments

Author

Beer, D., Haeckel, M., Neumann, J., Wegener, G., Inagaki, F., and Boetius, A.

Subjects
lcsh:Geology, lcsh:QH501-531, lcsh:QH540-549.5, lcsh:QE1-996.5, lcsh:Life, lcsh:Ecology
Abstract

This study focused on biogeochemical processes and microbial activity in sediments of a natural deep-sea CO2 seepage area (Yonaguni Knoll IV hydrothermal system, Japan). The aim was to assess the influence of the geochemical conditions occurring in highly acidic and CO2 saturated sediments on sulfate reduction (SR) and anaerobic methane oxidation (AOM). Porewater chemistry was investigated from retrieved sediment cores and in situ by microsensor profiling. The sites sampled around a sediment-hosted hydrothermal CO2 vent were very heterogeneous in porewater chemistry, indicating a complex leakage pattern. Near the vents, droplets of liquid CO2 were observed emanating from the sediments, and the pH reached approximately 4.5 in a sediment depth > 6 cm, as determined in situ by microsensors. Methane and sulfate co-occurred in most sediment samples from the vicinity of the vents down to a depth of 3 m. However, SR and AOM were restricted to the upper 7–15 cm below seafloor, although neither temperature, low pH, nor the availability of methane and sulfate could be limiting microbial activity. We argue that the extremely high subsurface concentrations of dissolved CO2 (1000–1700 mM), which disrupt the cellular pH homeostasis, and lead to end-product inhibition. This limits life to the surface sediment horizons above the liquid CO2 phase, where less extreme conditions prevail. Our results may have to be taken into consideration in assessing the consequences of deep-sea CO2 sequestration on benthic element cycling and on the local ecosystem state.

Published
2013

44. Exploring deep microbial life in coal-bearing sediment down to ~2.5 km below the ocean floor

Author

Inagaki, F., primary, Hinrichs, K.-U., additional, Kubo, Y., additional, Bowles, M. W., additional, Heuer, V. B., additional, Hong, W.-L., additional, Hoshino, T., additional, Ijiri, A., additional, Imachi, H., additional, Ito, M., additional, Kaneko, M., additional, Lever, M. A., additional, Lin, Y.-S., additional, Methé, B. A., additional, Morita, S., additional, Morono, Y., additional, Tanikawa, W., additional, Bihan, M., additional, Bowden, S. A., additional, Elvert, M., additional, Glombitza, C., additional, Gross, D., additional, Harrington, G. J., additional, Hori, T., additional, Li, K., additional, Limmer, D., additional, Liu, C.-H., additional, Murayama, M., additional, Ohkouchi, N., additional, Ono, S., additional, Park, Y.-S., additional, Phillips, S. C., additional, Prieto-Mollar, X., additional, Purkey, M., additional, Riedinger, N., additional, Sanada, Y., additional, Sauvage, J., additional, Snyder, G., additional, Susilawati, R., additional, Takano, Y., additional, Tasumi, E., additional, Terada, T., additional, Tomaru, H., additional, Trembath-Reichert, E., additional, Wang, D. T., additional, and Yamada, Y., additional

Published
2015
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46. Interactions between deformation and fluids in the frontal thrust region of the NanTroSEIZE transect offshore the Kii Peninsula, Japan: results from IODP Expedition 316 Sites C0006 and C0007

Author

Screaton, E., Kimura, G., Curewitz, D., Moore, G., Chester, F., Fabbri, O., Ferguson, C., Girault, F., Goldsby, D., Harris, R., Inagaki, F., Jiang, T., Kitamura, Yujin, Knuth, M., Li, C.-F., Liljedahl, L. C., Louis, L., Milliken, K., Nicholson, U., Yanaguchi, N., Ukiee, K., and Zhao, X.

Abstract

Integrated Ocean Drilling Program (IODP) Expedition 316 Sites C0006 and C0007 examined the deformation front of the Nankai accretionary prism offshore the Kii Peninsula, Japan. In the drilling area, the frontal thrust shows unusual behavior as compared to other regions of the Nankai Trough. Drilling results, integrated with observations from seismic reflection profiles, suggest that the frontal thrust has been active since ∼0.78–0.436 Ma and accommodated ∼13 to 34% of the estimated plate convergence during that time. The remainder has likely been distributed among out-of-sequence thrusts further landward and/or accommodated through diffuse shortening. Unlike results of previous drilling on the Nankai margin, porosity data provide no indication of undercompaction beneath thrust faults. Furthermore, pore water geochemistry data lack clear indicators of fluid flow from depth. These differences may be related to coarser material with higher permeability or more complex patterns of faulting that could potentially provide more avenues for fluid escape. In turn, fluid pressures may affect deformation. Well-drained, sand-rich material under the frontal thrust could have increased fault strength and helped to maintain a large taper angle near the toe. Recent resumption of normal frontal imbrication is inferred from seismic reflection data. Associated décollement propagation into weaker sediments at depth may help explain evidence for recent slope failures within the frontal thrust region. This evidence consists of seafloor bathymetry, normal faults documented in cores, and low porosities in near surface sediments that suggest removal of overlying material. Overall, results provide insight into the complex interactions between incoming materials, deformation, and fluids in the frontal thrust region.

Published
2009

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