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Expedition-related bibliography*

IODP publications

Scientific Prospectus

Hirose, T., Saffer, D.M., Tobin, H.J., Toczko, S., Maeda, L., Kubo, Y., Kimura, G., Moore, G.F., Underwood, M.B., and Kanagawa, K., 2013. NanTroSEIZE Stage 3: NanTroSEIZE plate boundary deep riser 3. IODP Sci. Prosp., 348. doi:10.2204/iodp.sp.348.2013

Preliminary Report

Expedition 348 Scientists and Scientific Participants, 2014. NanTroSEIZE Stage 3: NanTroSEIZE plate boundary deep riser 3. IODP Prel. Rept., 348. doi:10.2204/iodp.pr.348.2014

Proceedings volume

Tobin, H., Hirose, T., Saffer, D., Toczko, S., Maeda, L., Kubo, Y., and the Expedition 348 Scientists, 2015. Proc. IODP, 348: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/iodp.proc.348.2015

Expedition reports

Tobin, H., Hirose, T., Saffer, D., Toczko, S., Maeda, L., Kubo, Y., Boston, B., Broderick, A., Brown, K., Crespo-Blanc, A., Even, E., Fuchida, S., Fukuchi, R., Hammerschmidt, S., Henry, P., Josh, M., Jurado, M.J., Kitajima, H., Kitamura, M., Maia, A., Otsubo, M., Sample, J., Schleicher, A., Sone, H., Song, C., Valdez, R., Yamamoto, Y., Yang, K., Sanada, Y., Kido, Y., and Hamada, Y., 2015. Expedition 348 summary. In Tobin, H., Hirose, T., Saffer, D., Toczko, S., Maeda, L., Kubo, Y., and the Expedition 348 Scientists, Proc. IODP, 348: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/iodp.proc.348.101.2015

Tobin, H., Hirose, T., Saffer, D., Toczko, S., Maeda, L., Kubo, Y., Boston, B., Broderick, A., Brown, K., Crespo-Blanc, A., Even, E., Fuchida, S., Fukuchi, R., Hammerschmidt, S., Henry, P., Josh, M., Jurado, M.J., Kitajima, H., Kitamura, M., Maia, A., Otsubo, M., Sample, J., Schleicher, A., Sone, H., Song, C., Valdez, R., Yamamoto, Y., Yang, K., Sanada, Y., Kido, Y., and Hamada, Y., 2015. Methods. In Tobin, H., Hirose, T., Saffer, D., Toczko, S., Maeda, L., Kubo, Y., and the Expedition 348 Scientists, Proc. IODP, 348: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/iodp.proc.348.102.2015

Tobin, H., Hirose, T., Saffer, D., Toczko, S., Maeda, L., Kubo, Y., Boston, B., Broderick, A., Brown, K., Crespo-Blanc, A., Even, E., Fuchida, S., Fukuchi, R., Hammerschmidt, S., Henry, P., Josh, M., Jurado, M.J., Kitajima, H., Kitamura, M., Maia, A., Otsubo, M., Sample, J., Schleicher, A., Sone, H., Song, C., Valdez, R., Yamamoto, Y., Yang, K., Sanada, Y., Kido, Y., and Hamada, Y., 2015. Site C0002. In Tobin, H., Hirose, T., Saffer, D., Toczko, S., Maeda, L., Kubo, Y., and the Expedition 348 Scientists, Proc. IODP, 348: College Station, TX (Integrated Ocean Drilling Program). doi:10.2204/iodp.proc.348.103.2015

Expedition research results

Crespo-Blanc, A., 2017. Data report: a brittle (normal?) shear zone from Hole C0002P: deformation structures and their relationship with calcite veins (IODP Expedition 348, Nankai Trough accretionary prism). In Tobin, H., Hirose, T., Saffer, D., Toczko, S., Maeda, L., Kubo, Y., and the Expedition 348 Scientists, Proceedings of the Integrated Ocean Drilling Program. 348: College Station, TX (Integrated Ocean Drilling Program). https://doi.org/10.2204/iodp.proc.348.205.2017

Song, C., and Underwood, M.B., 2017. Data report: permeability and microfabric of core samples from IODP Expediton 348, Hole C0002P, Nankai Trough accretionary prism. In Tobin, H., Hirose, T., Saffer, D., Toczko, S., Maeda, L., Kubo, Y., and the Expedition 348 Scientists, Proceedings of the Integrated Ocean Drilling Program. 348: College Station, TX (Integrated Ocean Drilling Program). https://doi.org/10.2204/iodp.proc.348.201.2017

Underwood, M.B., 2017. Data report: clay mineral assemblages and illite/smectite diagenesis in cuttings from Hole C0002P, IODP Expedition 348, Nankai Trough accretionary prism. In Tobin, H., Hirose, T., Saffer, D., Toczko, S., Maeda, L., Kubo, Y., and the Expedition 348 Scientists, Proceedings of the Integrated Ocean Drilling Program. 348: College Station, TX (Integrated Ocean Drilling Program). https://doi.org/10.2204/iodp.proc.348.204.2017

Underwood, M.B., 2017. Data report: clay mineral assemblages in cuttings from Hole C0002N, IODP Expedition 348, Nankai Trough accretionary prism. In Tobin, H., Hirose, T., Saffer, D., Toczko, S., Maeda, L., Kubo, Y., and the Expedition 348 Scientists, Proceedings of the Integrated Ocean Drilling Program. 348: College Station, TX (Integrated Ocean Drilling Program). https://doi.org/10.2204/iodp.proc.348.203.2017

Underwood, M.B., and Song, C., 2016. Data report: clay mineral assemblages in cores from Hole C0002P, IODP Expedition 348, Nankai Trough accretionary prism. In Tobin, H., Hirose, T., Saffer, D., Toczko, S., Maeda, L., Kubo, Y., and the Expedition 348 Scientists, Proceedings of the Integrated Ocean Drilling Program. 348: College Station, TX (Integrated Ocean Drilling Program). https://doi.org/10.2204/iodp.proc.348.202.2016

Journals/Books

Brown, K.M., Poeppe, D., Josh, M., Sample, J., Even, E., Saffer, D., Tobin, H., Hirose, T., Kulongoski, J.T., Toczko, S., and Maeda, L., 2017. The action of water films at Å-scales in the Earth: implications for the Nankai subduction system. Earth and Planetary Science Letters, 463:266–276. https://doi.org/10.1016/j.epsl.2016.12.042

Fujioka, R., Katayama, I., Kitamura, M., Okuda, H., and Hirose, T., 2022. Depth profile of frictional properties in the inner Nankai accretionary prism using cuttings from IODP Site C0002. Progress in Earth and Planetary Science, 9(1):31. https://doi.org/10.1186/s40645-022-00488-1

Fukuchi, R., Yamaguchi, A., Yamamoto, Y., and Ashi, J., 2017. Paleothermal structure of the Nankai inner accretionary wedge estimated from vitrinite reflectance of cuttings. Geochemistry, Geophysics, Geosystems, 18(8):3185–3196. https://doi.org/10.1002/2017GC006928

Hamada, Y., Kitamura, M., Yamada, Y., Sanada, Y., Sugihara, T., Saito, S., Moe, K., and Hirose, T., 2018. Continuous depth profile of the rock strength in the Nankai accretionary prism based on drilling performance parameters. Scientific Reports, 8(1):2622. https://doi.org/10.1038/s41598-018-20870-8

Hamada, Y., Sanada, Y., and Hirose, T., 2022. Simple evaluation of the fold axis, axial plane, and interlimb angle from a borehole image log. Scientific Drilling, 31:85–91. https://doi.org/10.5194/sd-31-85-2022

Hoshino, T., and Inagaki, F., 2024. Distribution of eukaryotic environmental DNA in global subseafloor sediments. Progress in Earth and Planetary Science, 11(1):19. https://doi.org/10.1186/s40645-024-00621-2

Hüpers, A., Grathoff, G., Warr, L.N., Wemmer, K., Spinelli, G., and Underwood, M.B., 2019. Spatiotemporal characterization of smectite-to-illite diagenesis in the Nankai Trough accretionary prism revealed by samples from 3 km below seafloor. Geochemistry, Geophysics, Geosystems, 20(2):933–951. https://doi.org/10.1029/2018GC008015

Inoue, T., and Fujikubo, M., 2021. Fatigue evaluation of drill pipe by considering ship motions and its application in scientific drilling. Journal of Marine Science and Technology, 26(2):525–540. https://doi.org/10.1007/s00773-020-00752-3

Kitajima, H., Saffer, D., Sone, H., Tobin, H., and Hirose, T., 2017. In situ stress and pore pressure in the deep interior of the Nankai accretionary prism, Integrated Ocean Drilling Program Site C0002. Geophysical Research Letters, 44(19):9644–9652. https://doi.org/10.1002/2017GL075127

Kitamura, M., and Hirose, T., 2017. Strength determination of rocks by using indentation tests with a spherical indenter. Journal of Structural Geology, 98:1–11. https://doi.org/10.1016/j.jsg.2017.03.009

Kitamura, M., Hirose, T., and Lei, X., 2021. Mechanical weakness of the Nankai accretionary prism: insights from Vp measurements of drill cuttings. Geochemistry, Geophysics, Geosystems, 22(5):e2020GC009536. https://doi.org/10.1029/2020GC009536

Kitamura, M., Kitajima, H., Sone, H., Hamada, Y., and Hirose, T., 2019. Strength profile of the inner Nankai accretionary prism at IODP Site C0002. Geophysical Research Letters, 46(19):10791–10799. https://doi.org/10.1029/2019GL083732

Masuda, H., Goto, A., and Takeuchi, A., 2022. Concentration and stable isotope composition of Hg in deep-sea sediment from the Nankai Trough. Geochemical Journal, 56(5):138–141. https://doi.org/10.2343/geochemj.GJ22012

Masuda, H., Yoshinishi, H., Fuchida, S., Toki, T., and Even, E., 2019. Vertical profiles of arsenic and arsenic species transformations in deep-sea sediment, Nankai Trough, offshore Japan. Progress in Earth and Planetary Science, 6(1):28. https://doi.org/10.1186/s40645-019-0269-y

Park, H., Yang, K., Koo, T.-h., Kang, I., Yamamoto, Y., and Kim, J., 2024. Physico-chemical properties of illite in the organic matter (OM)-rich claystone of Nankai Trough contrast with coeval OM-poor claystone: IODP Expedition 348. Applied Clay Science, 250:107267. https://doi.org/10.1016/j.clay.2024.107267

Poeppe, D.J., 2016. Permeability, salinity, and nanoscale processes in low porosity clay-rich sediments [MS thesis]. University of California, San Diego, CA. https://www.proquest.com/docview/1823236943#

Schleicher, A.M., and Jurado, M.-J., 2019. Linking faults, fractures, and clay mineral occurrence with fluid transport in the accretionary prism of the Nankai Trough, Japan. Geochemistry, Geophysics, Geosystems, 20(11):4599–4612. https://doi.org/10.1029/2019GC008430

Song, C., 2015. Permeability, clay mineralogy, and microfabric of sediments from IODP Expedition 348, Site C0002, Nankai Trough accretionary prism, offshore southwest Japan [MS thesis]. University of Missouri, Columbia, MO. https://hdl.handle.net/10355/47044

Underwood, M.B., and Guo, J., 2018. Clay-mineral assemblages across the Nankai-Shikoku subduction system, offshore Japan; a synthesis of results from the NanTroSEIZE project. Geosphere, 14(5):2009–2043. https://doi.org/10.1130/GES01626.1

Weeks, S.A., 2016. The geochemistry of carbonate cements and veins as a proxy for paleotemperature and fluid evolution in the deep accretionary prism, International Ocean Discovery Program Expedition 348, Nankai Trough, Japan [MS thesis]. Northern Arizona University, Flagstaff, AZ. https://www.proquest.com/docview/1868847829/E6F9E73636C144E1PQ/52?accountid=7082

Wiersberg, T., Hammerschmidt, S.B., Fuchida, S., Kopf, A., and Erzinger, J., 2018. Mantle-derived fluids in the Nankai Trough Kumano forearc basin. Progress in Earth and Planetary Science, 5(1):79. https://doi.org/10.1186/s40645-018-0235-0

Wu, H.-Y., Chan, C.-H., Shiraishi, K., Wspanialy, A., Sugihara, T., and Sanada, Y., 2019. Observed stress state for the IODP Site C0002 and implication to the stress field of the Nankai Trough subduction zone. Tectonophysics, 765:1–10. https://doi.org/10.1016/j.tecto.2019.04.017

Conferences

American Geophysical Union (AGU) Fall Meeting 2014

Boston, B., Moore, G.F., Jurado, M.J., Sone, H., Tobin, H.J., Saffer, D.M., Hirose, T., Toczko, S., and Maeda, L., 2014. Characterizing the inner accretionary prism of the Nankai trough with 3D seismic and logging while drilling at IODP Site C0002 [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract T24B-08) http://abstractsearch.agu.org/meetings/2014/FM/T24B-08.html

Kitamura, M., Kitajima, H., Henry, P., Valdez, R.D., II, Josh, M., Tobin, H.J., Saffer, D.M., Hirose, T., Toczko, S., and Maeda, L., 2014. Physical properties of the Nankai inner accretionary prism sediments at Site C0002, IODP Expedition 348 [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract T51A-4574) http://abstractsearch.agu.org/meetings/2014/FM/T51A-4574.html

Sample, J.C., Even, E., Hammerschmidt, S., Fuchida, S., Hirose, T., Saffer, D.M., and Tobin, H.J., 2014. Focused fluid flow and cementation in fault zones from NanTroSEIZE Site C0002, Expedition 348 [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract T43D-05) http://abstractsearch.agu.org/meetings/2014/FM/T43D-05.html

Sone, H., Jurado, M.J., Boston, B., Yamamoto, Y., Tobin, H.J., Saffer, D.M., and Hirose, T., 2014. Wellbore failures and its constraints on the in-situ stress state in the Nankai Trough accretionary prism, Site C0002, IODP Expedition 348 [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract T51A-4577) http://abstractsearch.agu.org/meetings/2014/FM/T51A-4577.html

Song, C., and Underwood, M., 2014. Permeability of silty claystone and turbidite samples from IODP Expedition 348, Hole C0002P, Nankai Trough accretionary prism [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract T51A-4575) http://abstractsearch.agu.org/meetings/2014/FM/T51A-4575.html

Tobin, H.J., Hirose, T., Saffer, D.M., Toczko, S., and Maeda, L., 2014. Drilling into the deep interior of the Nankai accretionary prism: preliminary results of IODP NanTroSEIZE Expedition 348 [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract T51A-4573) http://abstractsearch.agu.org/meetings/2014/FM/T51A-4573.html

Tobin, H.J., Saffer, D.M., Hirose, T., Castillo, D.A., Kitajima, H., and Sone, H., 2014. Pore fluid pressure and state of stress above the plate interface from observations in a 3 kilometer deep borehole: IODP Site C0002, Nankai Trough subduction zone [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract T43D-02) http://abstractsearch.agu.org/meetings/2014/FM/T43D-02.html

Toczko, S., Hammerschmidt, S., and Maeda, L., 2014. Mud gas logging in a deep borehole: IODP Site C0002, Nankai Trough accretionary prism [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract T33A-4648) http://abstractsearch.agu.org/meetings/2014/FM/T33A-4648.html

Yamamoto, Y., Lin, W., Yamamoto, Y., Brown, K.M., Crespo-Blanc, A., Otsubo, M., Sone, H., Henry, P., and the Expedition 348 Scientists, 2014. Stress-state and micro-scale deformations in the hangingwall of the splay fault: preliminary results from the Site C0002, IODP Expedition 348 [presented at the 2014 American Geophysical Union Fall Meeting, San Francisco, CA, 15–19 December 2014]. (Abstract T51A-4576) http://abstractsearch.agu.org/meetings/2014/FM/T51A-4576.html

AGU Fall Meeting 2015

Araki, E., and Mori, J.J., 2015. Change in anisotropic P-wave velocity observed by seafloor borehole observatory C0002G in the Nankai Trough subduction zone [presented at the 2015 American Geophysical Union Fall Meeting, San Francisco, California, 14–18 December 2015]. (Abstract T43G-08) http://abstractsearch.agu.org/meetings/2015/FM/T43G-08.html

Fukuchi, R., and Otsuka, H., 2015. Paleotemperature of the Nankai accretionary prism estimated by vitrinite reflectance of carbonaceous materials retrieved during the IODP Expedition 348 [presented at the 2015 American Geophysical Union Fall Meeting, San Francisco, California, 14–18 December 2015]. (Abstract T21E-2878) http://abstractsearch.agu.org/meetings/2015/FM/T21E-2878.html

Kitajima, H., and Valdez, R.D., 2015. In-situ stress and strength in the Nankai inner accretionary prism at Site C0002, IODP NanTroSEIZE [presented at the 2015 American Geophysical Union Fall Meeting, San Francisco, California, 14–18 December 2015]. (Abstract MR33C-2683) http://abstractsearch.agu.org/meetings/2015/FM/MR33C-2683.html

Underwood, M., and Song, C., 2015. Effects of clay mineral provenance and clay diagenesis on the hanging wall of a megasplay fault: results from riser drilling, Nankai Trough Seismogenic Zone Experiment [presented at the 2015 American Geophysical Union Fall Meeting, San Francisco, California, 14–18 December 2015]. (Abstract T33C-2950) http://abstractsearch.agu.org/meetings/2015/FM/T33C-2950.html

Weeks, S., and Sample, J.C., 2015. Carbonate cements and veins as a proxy for paleotemperature and fluid evolution in the deep accretionary prism, IODP Expedition 348, Nankai Trough, Japan [presented at the 2015 American Geophysical Union Fall Meeting, San Francisco, California, 14–18 December 2015]. (Abstract T51D-2928) http://abstractsearch.agu.org/meetings/2015/FM/T51D-2928.html

AGU Fall Meeting 2016

Fukuchi, R., Yamaguchi, A., Yamamoto, Y., Ito, H., and Ashi, J., 2016. Combined analysis of vitirinite reflectance and U-Pb dating of detrital zircon on cuttings from the Nankai accretionary prism [presented at the 2016 American Geophysical Union Fall Meeting, San Francisco, California, 11–15 December 2016]. (Abstract T21C-2820) http://abstractsearch.agu.org/meetings/2016/FM/T21C-2820.html

Kanagawa, K., Hoshino, K., Abe, K., and Sawai, M., 2016. Frictional properties of the Nankai Trough accretionary mud samples collected from 1000–3000 mbsf at IODP Site C0002 [presented at the 2016 American Geophysical Union Fall Meeting, San Francisco, California, 11–15 December 2016]. (Abstract T21C-2819) http://abstractsearch.agu.org/meetings/2016/FM/T21C-2819.html

Kinoshita, M., Miyakawa, A., and Hamada, Y., 2016. Thermal restoration for the last 10 Ma in the Nankai Trough seismogenic zone: challenge toward describing thermal history of subducted sediments [presented at the 2016 American Geophysical Union Fall Meeting, San Francisco, California, 11–15 December 2016]. (Abstract T43H-03) http://abstractsearch.agu.org/meetings/2016/FM/T43H-03.html

Kitamura, M., Kitajima, H., Sone, H., Hamada, Y., and Hirose, T., 2016. Strength and mechanical behavior of the inner Nankai accretionary prism sediments at Site C0002 from IODP NanTroSEIZE Expedition 348 [presented at the 2016 American Geophysical Union Fall Meeting, San Francisco, California, 11–15 December 2016]. (Abstract T51B-2902) http://abstractsearch.agu.org/meetings/2016/FM/T51B-2902.html

Kuo, S.T., Kitamura, M., and Kitajima, H., 2016. Evolution of mechanical properties and microstructures in the inner accretionary prism of the Nankai subduction zone [presented at the 2016 American Geophysical Union Fall Meeting, San Francisco, California, 11–15 December 2016]. (Abstract T51B-2901) http://abstractsearch.agu.org/meetings/2016/FM/T51B-2901.html

Sample, J.C., Wang, X., Weeks, S., Ke, L., Tobin, H.J., Hirose, T., Saffer, D.M., Defliese, W., and Tripati, A.K., 2016. Isotopic constraints on the age of fluid migration and faulting in the deep Nankai accretionary prism at IODP Site C0002 [presented at the 2016 American Geophysical Union Fall Meeting, San Francisco, California, 11–15 December 2016]. (Abstract T31D-2929) http://abstractsearch.agu.org/meetings/2016/FM/T31D-2929.html

Tobin, H.J., Saffer, D.M., Castillo, D.A., and Hirose, T., 2016. Direct observations of in situ stress state in a 3 kilometer deep borehole in the upper plate, Nankai Trough subduction zone: IODP Site C0002 [presented at the 2016 American Geophysical Union Fall Meeting, San Francisco, California, 11–15 December 2016]. (Abstract T43H-02) http://abstractsearch.agu.org/meetings/2016/FM/T43H-02.html

AGU Fall Meeting 2017

Fukuchi, R., Yamaguchi, A., Ito, H., Yamamoto, Y., and Ashi, J., 2017. Structural evolution of the Nankai inner accretionary prism constrained by thermal structure and sedimentary age of deep borehole samples [presented at the 2017 American Geophysical Union Fall Meeting, New Orleans, LA, 11–15 December 2017]. (Abstract T31D-0652) http://abstractsearch.agu.org/meetings/2017/FM/T31D-0652.html

European Geosciences Union (EGU) General Assembly 2014

Hammerschmidt, S., Toczko, S., Kubo, Y., Wiersberg, T., Fuchida, S., Kopf, A., Hirose, T., Saffer, D., Tobin, H., and the Expedition 348 Scientists, 2014. Influence of drilling operations on drilling mud gas monitoring during IODP Exp. 338 and 348. Geophys. Res. Abstr., 16:EGU2014-5904. http://meetingorganizer.copernicus.org/EGU2014/EGU2014-5904.pdf

Kitamura, M., Kitajima, H., Henry, P., Valdez, R., Josh, M., and the Expedition 348 Scientists Team, 2014. Physical properties of the Nankai inner accretionary prism at Site C0002, IODP Expedition 348. Geophys. Res. Abstr., 16:EGU2014-10114-1. http://meetingorganizer.copernicus.org/EGU2014/EGU2014-10114-1.pdf

Tobin, H., Hirose, T., Saffer, D., and the IODP Expedition 348 Shipboard Scientific Party Team, 2014. A 3 kilometer deep window on the interior of the modern Nankai accretionary wedge: first results from IODP Expedition 348. Geophys. Res. Abstr., 16:EGU2014-13866. http://meetingorganizer.copernicus.org/EGU2014/EGU2014-13866.pdf

EGU General Assembly 2015

Jurado, M.J., and Schleicher, A., 2015. Structure and clay mineralogy: borehole images, log interpretation and sample analyses at Site C0002 Nankai Trough accretionary prism. Geophysical Research Abstracts, 17:EGU2015-14207. http://meetingorganizer.copernicus.org/EGU2015/EGU2015-14207.pdf

EGU General Assembly 2018

Wiersberg, T., Hammerschmidt, S., Toki, T., Kopf, A., and Erzinger, J., 2018. Fluid migration in the Nankai Trough Kumano forarc basin. Geophysical Research Abstracts, 20:EGU2018-7099. https://meetingorganizer.copernicus.org/EGU2018/EGU2018-7099.pdf

Japan Geoscience Union (JpGU) Meeting 2019

Hamada, Y., Kitamura, M., Hirose, T., Yamada, Y., Sanada, Y., Sugihara, T., Saito, S., and Moe, K.T., 2019. Strength profile of the Nankai accretionary prism evaluated from drilling parameters. Presented at the Japan Geoscience Union Meeting 2019, Chiba, Japan, 26–30 May 2019. https://confit.atlas.jp/guide/event/jpgu2019/subject/SSS06-P04/advanced

Shiraishi, K. Yamada, Y., Kinoshita, M., and Kimura, G., 2019. Crustal structure in the Nankai Trough seismogenic zone based on renewed depth images and seismic attribute analysis. Presented at the Japan Geoscience Union Meeting 2019, Chiba, Japan, 26–30 May 2019. https://confit.atlas.jp/guide/event/jpgu2019/subject/SSS06-P01/advanced

JpGU/AGU Joint Meeting 2020

Kitamura, M., and Hirose, T., 2020. Mechanical weakness of the Nankai accretionary prism: insights from a correlation between Vp and strength of cuttings. Presented at the Japan Geoscience Union/American Geophysical Union Joint Meeting 2020, Chiba, Japan, 24–28 May 2020. https://confit.atlas.jp/guide/event/jpgu2020/subject/SCG57-P04/advanced

*The Expedition-related bibliography is continually updated online. Please send updates to PubCrd@iodp.tamu.edu.