1. Akamatsu. Y., Katayama, I., Okazaki, K., Michibayashi, K., 2023. Paleo-permeablity structure of the crustal section of the Samail Ophiolite based on automated detetion of veins in X-ray CT core images from the Oman Drilling Project. Geochemistry, Geophysics, Geosystems, 24, e2022GC010792. https://doi.org/10.1029/2022GC010792

1. Tamura, Y., Rospabé, M., Fujie, G., Ohira, A., Kaneda, K., Nichols, A. R. L., Ceuleneer, G., Sato, T., Kodaira, S., Miura, S., Takazawa, E., 2022. The nature of the Moho beneath fast-spreading centers: Evidence from the Pacific plate and Oman ophiolite. Island Arc, 31, e12460. https://doi.org/10.1111/iar.12460
2. Nagase, K., Hatakeyama, K., Okazaki, K., Akamatsu, Y., Abe, N., Michibayashi, K., Katayama, I., 2022. Simultaneous measurements of elastic wave velocity and porosity of epidosites collected from the Oman ophiolite: Implication for low Vp/Vz anomaly in the oceanic crust. Geophysical Research Letters, 49, e2022GL098234. https://doi.org/10.1029/2022GL098234
3. Oya, S., Michibayashi, K., Ohara, Y., Martinez, F., Kourim, F., Lee, H-Y., Nimura, K., 2022. Peridotites with back-arc basin affinity exposed at the southwestern tip of the Mariana forearc. Progess in Earth and Planetary Science, 9: 18. https://doi.org/10.1186/s40645-022-00476-5
4. Uhmb, T., Michibayashi, K. 2022. A shape-change model for isolated K-feldspar inclusions within a micro-shear zone developed in the Teshima granite, Ryoke metamorphic belt, Japan: Estimation of the duration of deformation in a natural shear zone. Tectonophysics, 824, 229229. https://doi.org/10.1016/j.tecto.2022.229229
5. Kakihata, Y., Michibayashi, K., Dick, H. 2022. Heterogeneity in texture and crystal-fabric of intensely hydrated ultramylonitic peridotites along a transform fault, Southwest Indian Ridge. Tectonophysics, 823, 229206. https://doi.org/10.1016/j.tecto.2021.229206
6. Kelemen, P. B., de Obeso, J. C., Leong, J. A., Godard, M., Okazaki, K., Kotowski, A. J., Manning, C. E., Ellison, E. T., Menzel, M. D., Urai, J. L., Hirth, G., Rioux, M., Stockli, D. F., Lafay, R., Beinlich, A. M., Coggon, J. A., Warsi, N. H., Matter, J. M., Teagle, D. A. H., Harris, M., Michibayashi, K., Takazawa, E., Al Sulaimani, Z. and the Oman Drilling Project Science Team, 2022. Listvenite formation during mass transfer into the leading edge of the mantle wedge: Initial results from Oman Drilling Project Hole BT1B. Journal of Geophysical Research: Solid Earth, 126, e2021JB022729. https://doi.org/10.1029/2021JB022729

1. Asano, K., Michibayashi, K., Takebayashi, T., 2021. Rheological contrast between quartz and coesite generates strain localization in deeply subducted continental crust. Minerals, 11, 842; https://doi.org/10.3390/min11080842
2. Chatterjee, S., Bandyopadhyay, D., Takazawa, E., Michibayashi, K., 2021. Orthopyroxene-magnetite symplectite in olivine gabbros from the lower crustal Oman Ophiolite: Oman Drilling Project, Hole GT2A. Journal of Mineralogical and Petrological Sciences, 116, 170–175.
3. Godard, M., Carter, E., Decrausaz, T., Lafay, R., Bennet, E., Kourim, F., de Obeso, J.-C., Michibayashi, K., Harris, M., Coggon, J., Teagle, D., Kelemen, P., and the Oman Drilling Project Phase 1 Science Party, 2021. Geochemical profiles across the listvenite-metamorphic transition in the basal megathrust of the Semail Ophiolite: Results from drilling at Oman DP Hole BT1B. Journal of Geophysical Research: Solid Earth, 126, e2021JB022729. https://doi.org/10.1029/2021JB022729
4. Hatakeyama, K., Katayama, I., Abe, N., Okazaki, K., Michibayashi, K., the Oman Drilling Project Science Party 2021. Effects of alteration and cracks on the seismic velocity structure of oceanic lithosphere inferred from ultrasonic measurements of mafic and ultramafic samples collected by the Oman Drilling Project. Journal of Geophysical Research: Solid Earth, 126, e2021JB021923.
5. Hirauchi, K., Nagata, Y., Kataoka, K., Oyanagi, R., Okamoto, A., Michibayashi, K. 2021. Cataclastic and crystal-plastic deformation in shallow mantle-wedge serpentine controlled by cyclic changes in pore fluid pressures. Earth and Planetary Science Letters, 576, 117232.
6. Ichiyama, Y., Tsujimori, T., Fryer, P., Michibayashi, K., Tamura, A., Morishita, T., 2021. Temporal and spatial mineralogical changes in clasts from Mariana serpentine mud volcanoes: Cooling of the hot forearc mantle at subduction initiation. Lithos, 384–385, 105941.
7. Katayama, I., Abe, N., Okazaki, K., Hatakeyama, K., Akamatsu, Y., Michibayashi, K., Godard, M., Kelemen, P., The Oman Drilling Project Phase 2 Science Party, 2021. Crack geometry of serpentinized peridotites inferred from onboard ultrasonic data from the Oman Drilling Project. Tectonophysics, 814, 228978.
8. Katayama, I. 2021. Strength models of the terrestrial planets and implications for their lithospheric structure and evolution. Progress in Earth and Planetary Science, 8, doi.10.1186/s40645-020-00388-2.
9. Kelemen, P., Leong, J. A., de Obeso, J. C., Matter, J. M., Ellison, E. T., Templeton, A., Nothaft, D. B., Eslami, A., Evans, K., Godard, M., Malvoisin, B., Coggon, J. A., Warsi, N. H., Pézard, P., Choe, S., Teagle, D. A. H., Michibayashi, K., Takazawa, E., Al Sulaimani, Z., and the Oman Drilling Project Science Team, 2021. Initial results from the Oman Drilling Project multi-borehole observatory: Petrogenesis and ongoing alteration of mantle peridotite in the weathering horizon. Journal of Geophysical Research: Solid Earth, 126, e2021JB022729. https://doi.org/10.1029/2021JB022729
10. Kim, D., Park, M., Park, Y., Qi, C., Kim, H., Lee, M., Michibayashi, K., 2021. Upper mantle seismic anisotropy beneath the Northern Transantarctic Mountains inferred from peridotite xenoliths near Mt. Melbourne, northern Victoria Land, Antarctica. Journal of Structural Geology, 143, 104237.
11. Nurdiana, A., Okamoto, A., Yoshida, K., Uno, M., Nagaya, T., Tsuchiya, N., 2021. Multi-stage infiltration of Na- and K-rich fluids from pegmatites at mid-crustal depths as revealed by feldspar replacement textures. Lithos, 388–389, 106096.
12. Okamoto, A., Oyanagi, R., Ishii, H., Tscuchiya, N., 2021. Albite–K-feldspar–quartz equilibria in hydrothermal fluids at 400, 420?C and 20–35 MPa: experimental measurements and thermodynamic calculations. Geothermics, in press.
13. Okazaki, K., Michibayashi, K., Hatakeyama, K., Abe, N., Johnson, K. T. M., Kelemen, P. B., the Oman Drilling Project Science Team 2021. Major mineral fraction and physical properties of carbonated peridotite (Listvenite) from IODP Oman Drilling Project Hole BT1B inferred from the X-ray CT core images. Journal of Geophysical Research: Solid Earth, 126, e2021JB022719. https://doi.org/10.1029/2021JB022719
14. Okuda, H., Kawai, K., Sakuma, H. and Katayama, I. 2021. Effect of normal stress on the frictional behavior of brucite: Application to slow earthquakes at the subduction plate interface in the mantle wedge. Solid Earth, 12, 171-186. doi.org/10.5194/se-12-171-2021
15. Oyanagi, R., Okamoto, A., Satish-Kumar, M., Minami, M., Harigane, Y., Michibayashi, K. 2021. Hadal aragonite records venting of stagnant paleoseawater in the hydrated forearc mantle. Communications Earth & Environment, 2: 243. https://doi.org/10.1038/s43247-021-00317-1
16. Tomikawa, K., H.K. Watanabe, K. Tanaka, and Y. Ohara, A new species of Princaxelia from Shinkai Seep Field, Mariana Trench (Crustacea, Amphipoda, Pardaliscidae), ZooKeys, 1015, 115-127, DOI: 10.3897/zookeys.1015.596832021, 2021.
17. Watanabe, N., Abe, H., Okamoto, A., Nakamura, K., Komai, T., 2021. Formation of amorphous silica nanoparticles and its impact on permeability of fractured granite in superhot geothermal environments. Scientific Reports, 11, 5340, 10.1038/s41598-021-84744-2 
18. Watanabe, H.K., C. Chen, E. Nishi, and Y. Ohara, Cryptic diversity of the tube-dwelling polychaete Phyllochaetopterus in the Shinkai Seep Field, Mariana Trench, Plankton & Benthos Research, 16(1), 1-5, DOI: 10.3800/pbr.16.732021.

オマーン掘削プロジェクトチーム

1. Carter, E. J., O'Driscoll, B., Burgess, R., Clay, P. L., Hepworth, J., The Oman Drilling Project Science Team (Michibayashi K. included), 2022. Bimodal alteration of the oceanic crust revealed by halogen and noble gas systematics in the Oman Ophiolite. Journal of Geophysical Research, 127, e2021JB022669. https://doi.org/10.1029/2021JB022669
2. Crotteau, M. A., Greenberger, R. N., Rhlmann, B. L., Rossman, G. R., Harris, M., Kelemen, P. B., Teagle, D. A. H., and the Oman Drilling Project Phase 1 Science Party (Michibayashi K. included), 2021. Characterizing hydration of the ocean crust using shortwave infrared microimaging spectroscopy of ICDP Oman Drilling Project cores. Journal of Geophysical Resarch: Solid Earth, 126, e2021JB022676. https://doi.org/10.1029/2021JB022676
3. Ellison, E. T., Templeton, A. S., Zeigler, S. D., Mayhew, L. E., Kelemen, P. B., Matter, J. M., The Oman Drilling Project Science Party (Michibayashi K. included), 2021. Low-temperature hydrogen formation during aqueous alteration of serpentinized peridotite in the Samail ophiolite. Journal of Geophysical Research: Solid Earth, 126, e2021JB021981. https://doi.org/10.1029/2021JB021981
4. Greenberger, R. N., Harris, M.,Ehlmann, B. L., Crotteau, M. A., Kelemen, P. B., Manning, C. E., Teagle, D. A. H., the Oman Drilling Project Science Team (Michibayashi K. included), 2021. Hydrothermal alteratio of the ocean crust and patterns in mineralization with depth as measured by micro-imaging infrared spectroscopy. Journal of Geophysical Research: Solid Earth, 126, e2021JB021976. https://doi.org/10.1029/2021JB021976
5. Klaessens, D., Reisberg, L, Jousselin, D., and the Oman Drilling Project Science Team (Michibayashi K. included), 2021. Highly siderophile element and Os Isotope results from the structurally atypical batin dunite in the Wadi Tayin massif of the Oman ophiolite. Journal of Geophysical Research: Solid Earth, 126. e2021JB021977. https://doi.org/10.1029/2021JB021977
6. Koepke, J., Feig, S.T., Berndit, J., Neave, D.A., the Oman Drilling Project Science Team (Michibayashi K. included), 2021. Wet magmatic processes during the accretion of the deep crust of the Oman Ophiolite paleoridge: Phase diagrams and petrological records. Tectonophysics, 817, 229051. http://doi.org/10.1016/j.tectono.2021.229051
7. Nothaft, D. B., Templeton, A. S., Boyd, E. S., Matter, J. M., Stute, M., Paukert Vankeuren, A. N., and the Oman Drilling Project Science Team (Michibayashi K. included), 2021. Aqueous geochemical and microbial variation across discrete depth intervals in a peridotite aquifer assessed using a packer system in the Samail Ophiolite, Oman. Journal of Geophysical Research: Biogeosciences, 126, e2021JG006319. https://doi.org/10.1029/2021JG006319
8. Nothaft, D. B., Templeton, A. S., Rhim, J. H., Wang, D. T., Labidi, J., Miller, H. M., Boyd, E. S., Matter, J. M., Ono, S., Young, E. D., Kopf, S. H., Kelemen, P. B., Conrad, M. E., and the Oman Drilling Project Science Team (Michibayashi K. included), 2021. Geochemical, biological, and clumed isotopologue evidence for substantial microbial methane production under carbon limitation in serpentinites of the Samail ophiolite, Oman. Journal of Geophysical Resarch: Biogeosciences, 126, e2020JG006025. https://doi.org/10.1029/2020JG006025
9. Templeton, A. S., Ellison, E. T., Glombitza, C., Morono, Y., Rempfert, K. R., Hoehler, T. M., Zeigler, S. D., Kraus, E. A., Spear, J. R., Nothaft, D. B., Fones, E. M., Boyd, E. S., Munro-Ehrich, M., Mayhew, L. E., Cardace, D., Matter, J. M., Kelemen, P. B., and the Oman Drilling Project Science Party (Michibayashi K. included), 2021. Accessing the subsurface biosphere within rocks undergoing active low-temperature serpentinization in the Samail ophiolite (Oman Drilling Project). Journal of Geophysical Research: Biogeosciences, 126, e2021JG006315.
10. Malvoisin, B., Zhang, C., Müntener, O., Baumgartner, L. P., Kelemen, P. B., and the Oman Drilling Project Science Party (Michibayashi K. included), 2021. Measurement of volume change and mass transfer during serpentinization: insights from the Oman Drilling Project. Journal of Geophysical Research: Solid Earth, 125, e2019JB018877. https://doi.org/10.1029/2019JB018877

1. Basch, V., Sanfilippo, A., Sani, C., Ohara, Y., Snow, J., Ishizuka, O., Harigane, Y., Michibayashi, K., Sen, A., Akizawa, N., Okino, K., Fujii, M., Yamashita, H., 2020. Crustal accretion in a slow-spreading back-arc basin: Insights from the Mado Megamullion oceanic core complex in the Shikoku Basin. Geochemistry, Geophysics, Geosystems, 21, e2020GC009199.
2. Fryer, P., Wheat, C. G., Williams, T., Kelley, C., Johnson, K., Ryan, J., Kurz, W., Shervais, J., Albers, E., Bekins, B., Debret, B., Deng, J., Dong, Y., Eickenbusch, P., Frery, E., Ichiyama, Y., Johnson, R., Kevorkian, R., Magalhaes, V., Mantovanelli, S., Menapace, W., Menzies, C., Michibayashi, K., Moyer, C., Mullane, K., Park, J-W., Price, R., Sissmann, O., Suzuki, S., Takai, K., Walter, B., Zhang, R., Amon, D., Glickson, D., Pomponi, S., 2020. Mariana serpentinite mud volcanism exhumes subducted seamount materials: implications for the origin of life. Philosophical Transactions of the Royal Society A, 378, 20180425, doi.org/10.1098/rsta.2018.0425.
3. Grevemeyer, I., Kodaira, S., Fujie, G., Takahashi, N., 2020. Structure of oceanic crust in back-arc basins modulated by mantle source heterogeneity. Geology, 49, 468–472. https://doi.org/10.1130/G48407.1
4. Hirauchi, K., Katayama, I., Kouketsu, Y., 2020. Semi-brittle deformation of antigorite serpentinite under forearc mantle wedge conditions. Journal of Structural Geology, 140, 104151.
5. Katayama, I., Abe, N., Hatakeyama, K., Akamatsu, Y., Okazaki, K., Ulven, O. I., Hong, G., Zhu, W., Cordonnier, B., Michibayashi, K., Godard, M., Kelemen, P., 2020. Permeability profiles across the crust-mantle sections in the Oman Drilling Project inferred from dry and wet resistivity data. Journal of Geophysical Research: Solid Earth, 124, e2019JB018698. https://doi.org/ 10.1029/2019JB018698.
6. Minami, H., R. Nagasawa, and Y. Ohara, Detailed volcanic and tectonic morphology of Nakadomari Hill in the southern Okinawa Trough, Marine Geology, 421, 106094, DOI: https://doi.org/10.1016/j.margeo.2019.106094, 2020.
7. Minami, H. and Y. Ohara, Tectonic, volcanic and hydrothermal features of a nascent rift graben in the southern Okinawa Trough, Marine Geology, 430, 106348, DOI: https://doi.org/10.1016/j.margeo.2020.106348, 2020.
8. Nagaya, T., Okamoto, A., Oyanagi, R., Seto, Y., Miyake, A., Uno, M., Muto, J., Wallis., S., 2020. Talc CPO determined by improved EBSD procedure for sheet silicates: Implications for anisotropy at the slab-mantle interface due to Si-metasomatism. American Mineralogist. Doi.org/10.2138/am-2020-7006, in press.
9. Okamoto, A., Fuse, K., Shimizu, H., Ito, T., 2020. Impact of fluid pressure on failure mode in shear zones: numerical simulation of en-echelon tensile fracturing and transition to shear. Tectonophysics, 774, 228277, doi.org/10.1016/j.tecto.2019.228277. 
10. Oyanagi, R., Okamoto, A., Tsuchiya, N., 2020. Silica controls on hydration kinetics during serpentinization of olivine: Insights from hydrothermal experiments and a reactive transport model. Geochimica et Cosmochimica Acta, 270, 21-42. doi.org/10.1016/j.gca.2019.11.017
11. Sakaguchi, I., Kouketsu, Y., Michibayashi, K., Wallis, S. R., 2020. Attenuated total reflection infrared (ATR-IR) spectroscopy of antigorite, chrysotile and lizardite. Journal of Mineralogical and Petrological Sciences, 115, 303–312.
12. Sato, T., Miyazaki, T., Tamura, Y., Gill, J. B., Jutzeler, M., Senda, R., Kimura, J., 2020. The earliest stage of Izu rear-arc volcanism revealed by drilling at Site U1437, International Ocean Discovery Program Expedition 350. Island Arc, e12340, doi.org/10.1111/iar.12340.
13. Ueki, K., Kuwatani, T., Okamoto, A., Akaho, S., Iwamori, H. 2020. Thermodynamic modeling of hydrous-melt–olivine equilibrium using exhaustive variable selection. Physics of the Earth and Planetary Interiors
14. Stern, R.J., Y. Ohara, M. Ren, M. Leybourne, and B. Bowers, Glimpses of oceanic lithosphere of the Challenger Deep forearc segment in the southernmost Marianas: The 143ºE transect, 5800-4200 m, Island Arc, 29:e12359, DOI: https://doi.org/10.1111/iar.12359, 2020.
15. Sueyoshi, K., Yokoyama, T. and Katayama, I. 2020. Experimental measurement of the transport flow path aperture in thermally cracked granite and the relationship between pore structure and permeability. Geofluids, doi.org/10.1155/2020/8818293.
16. Suzuki, A., Miyazawa, M., Okamoto, A., Shimizu, H., Obayashi, I., Hiraoka, Y., Tsuji, T., Kang, P.K., Ito, T., 2020. Inferring fracture forming processes by characterizing fracture network patterns with persistent homology. Computers and Geosciences, 143, 104550, https://doi.org/10.1016/j.cageo.2020.104550.
17. Watanabe, N., Saito, K., Okamoto, A., Nakamura, K., Ishibashi, T., Komai, T., 2020. Stabilizing and enhancing permeability for sustainable and profitable energy extraction from superhot geothermal environments, 260, 114306. doi.org/10.1016/j.apenergy.2019.114306, in press.
18. Yao, Y., Takazawa, E., Chatterjee, S., Richard, A., Morlot, C., Créon, L., Al-Busaidi, S., Michibayashi, K., Oman Drilling Project Science Team, 2020. High resolution X-ray computed tomography and scanning electron microscopy studies of multiphase solid inclusions in Oman podiform chromitite: implications for post-entrapment modification. Journal of Mineralogical and Petrological Sciences,115, 247–260.
19. Yoshida, K., Okamoto, A., Shimizu, H., Oyanagi, R., Tsuchiya, N., Oman Drilling Project Phase 2 Science Party, 2020. Fluid infiltration through oceanic lower crust in response to reaction-induced fracturing: Insights from serpentinized troctolite and numerical models. Journal of Geophysical Research: Solid Earth, 124, e2020JB020268.

オマーン掘削プロジェクトチーム

1. Beinlich, A., Plümper, O., Boter, E., Müller, I. A., Kourim, F., Ziegler, M., Harigane, Y., Lafay, R., Kelemen, P. B., the Oman Drilling Project Science Team (Michibayashi K. included), 2020. Ultramafic rock carbonation: Constraints from listvenite core BT1B, Oman Drillling Project. Journal of Geophysical Research, 125, e2019JB019060. https://doi.org/10.1029/2019JB019060
2. Menzel, M. D., Urai, J. L., de Obeso, J. C., Kotowski, A., Manning, C. E., Kelemen, P. B., Kettermann, M., Jesus, A. P., Harigane, Y., and the Oman Drilling Project Phase 1 Science Team (Michibayashi K. included), 2020. Brittle deformation of carbonated peridotite–insights from listvenites of the Samail Ophiolite (Oman Drilling Project Hole BT1B). Journal of Geophysical Resarch: Solid Earth, 125, e2020JB020199. https://doi.org/10.1029/2020JB020199
3. Yoshida, K., Okamoto, A., Shimizu, H., Oyanagi, R., Tsuchiya, N., Oman Drilling Project Phase 2 Science Party (Michibayashi K. included), 2020. Fluid infiltration through oceanic lower crust in response to reaction-induced fracturing: Insights from serpentinized troctolite and numerical models. Journal of Geophysical Research: Solid Earth, 124, e2020JB020268. https://doi.org/10.1029/2020JB020268
4. Cocomazzi, G., Grieco, G., Tartarotti, P., Bussolesi, M., Zaccarini, F., Crispini, L. and Oman Drilling Project Science Team (Michibayashim K. included), 2020. The formation of dunite channels within harzburgite in the Wadi Tayin Massif, Oman Ophiolite: Insights from compositional variability of Cr-spinel and olivine in holes BA1B and BA3A, Oman Drilling Project. Minerals, 10, 167; http://dx.doi.org/10.3390/min10020167.

1. Akamatsu Y., Hatakeyama K. and Katayama, I. 2019. Contrasting dilatant behaviors of mafic and ultramafic rocks based on triaxial deformation experiments. Journal of Mineralogical and Petrological Science, 114, 79–86, doi.org/10.2465/jmps.181120.
2. Amagai, T., Okamoto, A., Niibe, T., Hirano, N., Motomiya, K., Tsuchiya, N., 2019. Silica nanoparticles produced by explosive flash vaporization during earthquakes. Scientific Reports, 9, 9728.
3. Dandar, O., Okamoto, A., Uno M., Oyanagi, R., Nagaya, T., Brenjargal, U., Miyamoto, T., Tsuchiya, N., 2019. Formation of secondary olivine after orthopyroxene during hydration of mantle wedge: Evidence from the Khantaishir Ophiolite, western Mongolia. Contributions to Mineralogy and Petrology, in press.
4. Harigane, Y., Okamoto, A., Morishita, T., Snow, J. E., Tamura, A., Yamashita, H., Michibayashi, K., Ohara, Y., Arai, S., 2019. Melt-fluid infiltration along detachment shear zones in oceanic complexes: insights from amphiboles in gabbro mylonites from the Godzilla Megamullion, Parece Vela Basin, the Philippine Sea. Lithos, 344-345, 217-231.
5. Kourim, F., Beinlich, A., Wang, K.-L., Michibayashi, K., O'Reilly, S. Y., and Pearson, N. J., 2019. Feedback of mantle metasomatism on olivine micro–fabric and seismic properties of the deep lithosphere. Lithos, 328-329, 43-57.
6. Kurz, W., Micheuz, P., Christeson, G. L., Reagan, M., Shervais, J. W., Kutterolf, S., Robertzon, A., Krenn, K., Michibayashi, K., Quandt, D., 2019. Post-magmatic tectonic evolution of the outer Izu-Bonin forearc revealed by sediment basin structure and vein microstructure analysis: implicataions for a 15 Ma hiatus between Pacific Plate subduction initiation and forearc extension. Geochemistry, Geophysics, Geosystems, 20, 5867-5895.
7. Kuwatani, T., Nagao, H., Ito, S-I, Okamoto, A., Yoshida, K., Okudaira, T., 2019. Recovering the past history of natural recording media by Bayesian inversion. Physical Review E 98, 043311.
8. Michibayashi, K., M. Tominaga, B. Ildefonse, and D. A. H. Teagle, 2019. What line beneath: The formation and evolution of oceanic lithosphere. Oceanography, 32, 138–149, doi.org/10.5670/oceanog.2019.136.
9. Morishita, T., Umino, S., Kimura, J., Yamashita, M., Ono, S., Michibayashi, K., Tominaga, M., Klein, F., Garcia, M. O., 2019. Workshop report on hard-rock drilling into mid-Cretaceous Pacific oceanic crust on the Hawaiian North Arch. Scientific Drilling, 26, 47-58. https://doi.org/10.5194/sd-26-47-2019
10. Okamoto, K., Asanuma, H., Ishibashia, T., Yamaya, Y., Saishua, H., Yanagisawa, N., Mogi, T., Tsuchiya, N., Okamoto, A., Naganawa, S., Ogawa, Y., Ishitsuka, K., Fujimitsu, Y., Kitamura, K., Kajiwara, T., Horimoto, S., Shimadai, K., 2019. Geological and engineering features of developing ultra-high-temperature geothermal systems in the world. Geothermics, 82, 267-281.
11. Otsubo, M., Miyakawa A., Katayama, I., and Okazaki, K. 2019. An inhomogeneous across-slab conduit controlled by intraslab stress heterogeneity in the Nankai subduction zone. Scientific Reports, 9, 994, doi.org/10.1038/s41598-018-38142-w.
12. Torabi, G., Morishita, T., Arai, S., 2019. Two types of plagiogranite from Mesozoic Asin Ophiolite (Central Iran): A mark of tectonic setting change from Jurassic to Cretaceous. Geotectonics, in press.
13. Wang J, Watanabe N., Okamoto, A., Nakamura, K., Komai, T., 2019. Acceleration of hydrogen production during water-olivine-CO2 reactions via high-temperature-facilitated Fe(II) release.　International Journal of Hydrogen Energy, 44, 11514-11524.
14. Wang J, Watanabe N., Okamoto, A., Nakamura, K., Komai, T., 2019. Enhanced hydrogen production with carbon storage by olivine alteration in CO2-rich hydrothermal environments. Journal of CO2 Utilization, 30, 205-213.
15. Wang J., Watanabe N., Okamoto, A., Nakamura, K., Komai, T., 2019. Pyroxene control of H2 production and carbon storage during water-peridotite-CO2 hydrothermal reactions. International Journal of Hydrogen Energy, in press. doi.org/10.1016/j.ijhydene.2019.08.161
16. Watanabe, T., Makimura, M., Kaiwa, Y., Desbois, G., Yoshida, K., Michibayashi, K., 2019. Elastic wave velocity and electrical conductivity in a brine-saturated rock and microstructure of pores. Earth, Planets and Space, 71, 129. https://doi.org/10.1186/s40623-019-1112-9

1. Chen, H., Yang, H., Liu, Y., Huang, K., Takazawa, E., 2018. Tectonic Affinities of the Accreted Basalts in Southern Taiwan. Journal of Asian Earth Science, 158. doi: 10.1016/j.jseaes.2018.02.015
2. Du Khac Nguyen, T. Morishita, Y. Soda, A. Tamura, B. Ghosh, Y. Harigane, L. France, C. Liu, J. H. Natland, A. Sanfilippo, C. J. MacLeod, P. Blum and H. J. B. Dick., 2018. Occurrence of Felsic Rocks in Oceanic Gabbros from IODP Hole U1473A: Implications for Evolved Melt Migration in the Lower Oceanic Crust. Minerals, 8, 583.
3. Ghosh, B., Mukhopadhyay, S., Moirshita, T., Tamura, A., Arai, S., Bandyopadhyay, D., Chattopadhaya, S., Ovung, T. N., 2018. Diversity and evolution of suboceanic mantle: Constraints from Neotethyan ophiolites at the eastern margin of the Indian plate. Journal of Asian Earth Science, 160, 67-77.
4. Guotana, J. M., Morishita, T., Yamaguchi, R., Nishio, I., Tamura, A., Tani, K., Harigane, Y., Szilas, K., Pearson, D. G., 2018. Contrasting textural and chemical signatures of chromitites in the Mesoarchaean Ulamertoq Peridotite Body, Southern West Greenland. Geosciences, 8, 328.
5. Hamdy, M. M., Gamal El Dien, H., Abd  El-Wahed, M.A., Morishita, T., 2018. Garnierite-bearing serpentinite from the Central Eastern Desert of Egypt: A signature of paleo-weathering in the Arabian Nubian Shield? Journal of African Earth Sciences, 146, 95-117.
6. Ji, S., Wuttke, F., Michibayashi, K., Salisbury, M. H., 2018. Poisson's ratio and auxetic properties of natural rocks. Journal of Geophysical Research. DOI: 10.1002/2017JB014606.
7. Kameda, J., Hirauchi, K., 2018. Rheological properties of composite serpentine-brucite suspensions: Implications for mudflow behavior on forearc seamounts. Marine Geology, 403, 191–196.
8. Katayama, I., Nicolas, A. and Schubnel, A. 2018. Fluid-induced fracturing of initially damaged granites triggered by pore pressure buildup. Geophysical Research Letters, 45, 7488–7495
9. Kawaguchi, K., and Katayama, I. 2018. Evolution of permeability and fluid pathway in the uppermost oceanic crust inferred from experimental measurements on basalt cores. Journal of Petrological and Mineralogical Science, 113, 268–272,
10. Kelemen, P.B., Aines, R., Bennett, E., Benson, S. M., Carter, E., Coggon, J. A., de Obeso, J. C., Evans, O., Gadikota, G., Dipple, G. M., Godard, M., Harris, M., Higgins, J. A., Johnson, K. T. M., Kourim, F., Lafay, R., Lambart, S., Manning, C. E., Matter, J. M., Michibayashi, K., Morishita, T., Noel, J., Okazaki, K., Renforth, P., Robinson, B., Savage, H., Skarbek, R., Spiegelman, M. W., Takazawa, E., Teagle, D., Urai, J. L., Wilcox, J. and the Oman Drilling Project Phase 1 Scientific Party. 2018. In situ carbon mineralization in ultramafic rocks: Natural processes and possible engineered mathods. Energy Procedia, 146, 92-102.
11. Martinez, F., R.J., Stern, K.A. Kelley, Y. Ohara, J.D. Sleeper, J.M. Ribeiro, and M. Brounce, 2018. Diffuse extension of the southern Mariana margin, Journal of Geophysical Research: Solid Earth, 123, 892-916
12. Masuda, T., Omori, Y., Sakurai, R., Miyake, T., Yamanouchi, M., Harigane, Y., Okamoto, A., Michibayashi, K., 2019. Loop energy: A useful indicator of the hardness of minerals from depth-sensing indentation tests. Journal of Structural Geology, 117, 96-104.
13. Minami, H., and Y. Ohara, 2018. Detailed volcanic morphology of Daisan-Miyako Knoll in the southern Ryukyu Arc, Marine Geology, 404, 97-110
14. Morishita, T., Tani, K.-I., Soda, Y., Tamura, A., Mizukami, T., Ghosh, B., 2018. The uppermost mantle section below a remnant proto-Philippine Sea island arc: insights from the peridotite fragments from the Daito Ridge. American Mineralogist, 103, 1151-1150.
15. Morishita, T., Yoshikawa, M., Tamura, A., Guotana, J.M., Ghosh, B., 2018. Petrology of peridotites and Nd-Sr isotopic composition of their clinopyroxenes from the Middle Andaman Ophiolite, India. Minerals, 8, 410.
16. Onishi Y, T. Yamanaka, T. Okumura, S. Kawagucci, H.K. Watanabe, and Y. Ohara, 2018. Evaluation of nutrient and energy sources of the deepest known serpentinite-hosted ecosystem using stable carbon, nitrogen, and sulfur isotopes, PLoS ONE, 13(6):e0199000
17. Oyanagi, R., Okamoto, A., Harigane, Y., Tsuchiya, N., 2018. Al-zoning of serpentine aggregates in mesh texture induced by metasomatic replacement reactions. Journal of Petrology, 59, 613-634.
18. Oyanagi, R., Okamoto, A., Tsuchiya, N., 2018. Multiple kinetic parameterization in a reactive transport model using the exchange Monte Carlo method. Minerals, 8, 579.
19. Reagan, M. K., Heywood, L., Goff, K., Michibayashi, K., Foster Jr., C. T., Jicha, B., Lapen, T., McClelland, W. C., Ohara, Y., Righter, M., Scott, S., Sims, K. W. W., 2018. Geodynamic implications of crustal lithologies from the southeast Mariana forearc. Geosphere, v. 14, no. 1, doi: 10.1130/GES01536.1.(LINK)
20. Ueda, H., Takazawa, E., Kato, R., Adachi, Y., 2018. Evaluation of time-resolved mean-of-ratios reduction for laser ablation zircon U-Pb dating using quadrupole ICPMS. Geochemical Journal, 52. doi:10.2343/geochemj.2.0509
21. Zaima, K., and Katayama, I. 2018. Evolution of elastic velocities and amplitudes during triaxial deformation of Aji granite under dry and water-saturated conditions. Journal of Geophysical Research, 123, 9601–9614

1. Azuma, S. and Katayama, I. 2017. Evolution of rheological structure of Mars. Earth, Planet and Space, 29, doi10.1186/s40623-016-0593-z. Abstract, PDF file
2. Chattopadhaya, S., Ghosh, B., Morishita, T., Nandy, S., Tamura, A., Bandyopadhyay, D., 2017. Reaction microtextures in entrapped xenoliths in alkali basalts from the Deccan large igneous province, India: implications to the origin and evolution. Journal of Asian Earth Sciences, 138, 291-305. Abstract PDF file
3. Ghosh, B., Misra, S., Morishita, T., 2017. Plastic deformation and post-deformation annealing in chromite: Mechanisms and implications. American Mineralogist 102, 216-226. Abstract, PDF file
4. [**Open Access Article**] Hatakeyama, K., Kayatama, I., Hirauchi, K., Michibayashi, K., 2017. Mantle hydration along outer-rise faults inferred from serpentinite permeability. Scientific Reports, 7, 13870.
5. Ichiyama, Y., Morishita, T., Tamura, A., Arai, S., 2017. Adakite metasomatism in a back-arc mantle periodite xenolith from the Sea of Japan. American Mineralogist, 102, 341-346. Abstract, PDF file
6. Kameda, J., Okamoto, A., Sato, K., Fujimoto, K., Yamaguchi, A., Kimura, G., 2017. Opal-CT in chert beneath the toe of the Tohoku margin and its influence on the seismic aseismic transition in subduction zones. Geophysical Research Letters, 44, 687-693. Abstract, PDF file
7. Okamoto, A., Tanaka, H., Watanabe, N., Siashu, H., Tsuchiya, N., 2017. Fluid pocket generation in response to heterogeneous reactivity of a rock fracture under hydrothermal conditions. Geophysical Research Letters, 44, 10306-1031510.1002/2017GL075476.
8. Okamoto, A., Shimizu, H., Fukuda, J., Muto, J., Okudaira, T., 2017. Reaction-induced grain boundary cracking and anisotropic fluid flow during prograde devolatilization reactions within subduction zones. Contributions to Mineralogy and Petrology, 182, 75.
9. Minami, H., and Y. Ohara, 2017. The Gondou hydrothermal field in the Ryukyu Arc: A huge hydrothermal system on the flank of a caldera volcano, Geochemistry, Geophysics, Geosystems, 18.
10. Morishita, T., Ghosh, B., Soda, Y., Mizukami, T., Tani, K., Ishizuka, O., Tamura, A., Komaru, C., Arai, S., Yang, H.-C., Chen, W.-S., 2017. Petrogenesis of ultramafic rocks and olivine-rich troctolites from the East Taiwan Ophiolite in the Lichi mélange. Mineralogy and Petrology.
11. Reagan, M. K., Pearce, J. A., Petronots, K., Almeev, R. R., Avery, A. J., Carvallo, C., Chapman, T., Christeson, G. L., Ferré, E. C., Godard, M., Heaton, D. E., Kirchenbaur, M., Kurz, W., Kutterolf, S., Li, H., Li, Y., Michibayashi, K., Morgan, S., Nelson, W. R., Prytulak, J., Python, M., Robertson, A. H. F., Ryan, J. G., Sager, W. W., Sakuyama, T., Shervais, J. W., Shimizu, K. and Whattam, S. A., 2017. Subduction initiation and ophiolite crust: new insight from IODP drilling. International Geology Review, 59, 1439-1450.Abstract, PDF file
12. Ribeiro, J.M., R.J. Robert, F. Martinez, J. Woodhead, M. Chen, and Y. Ohara, 2017. Asthenospheric outflow from the shrinking Philippine Sea Plate: Evidence from Hf–Nd isotopes of southern Mariana lavas, Earth and Planetary Science Letters, 478, 258-271
13. Ryan, J. G., Shervais, J., Li, Y., Reagan, M. K., Heaton, D., Godard, M., Kirchenbaur, M., Whattam, S., Pearce, J. A., Chapman, T., Nelson, W., Prytulak, J., Shimizu, K., Petronotis, K. and the IODP Expedition 352 Scientific Team (Michibayashi K. included), 2017. Application of a handheld X-ray fluorescence spectrometer for real-time, high-density quantitative analysis of drilled igneous rocks and sediments during IODP Expedition 352. Chemical Geology, 451-55-66. Abstract, PDF file
14. Saishu, H., Okamoto, A., Otsubo, M., 2017. Silica precipitation potentially controls earthquake recurrence in seismogenic zones. Scientific Reports, 7, 13337: DOI:10.1038/s41598-017-13597-5.
15. Satsukawa, T., Godard, M., Demouchy, S., Michibayashi, K. and Ildefonse, B., 2017. Chemical interactions in the subduction factory: New insights from an in situ trace elements and hydrogen study of the Ichinomegata and Oki-Dogo mantle xenoliths (Japan). Geochimica et Cosmochimica Acta, 208, 234-267. Abstract PDF file
16. Torabi, G., Arai, S., Morishita, T., Tamura, A., 2017. Mantle hornblendites of Naein Ophiolite (Central Iran): evidence of deep high temperature hydrothermal metasomatism in an upper mantle section. Petrology 25, 114-137. Abstract, PDF file
17. Uno, M., Okamoto, A., Tsuchiya, N., 2017. Excess water generation during reaction-inducing intrusion of granitic melts into ultramafic rocks at crustal P-T conditions in the Sør Rondane Mountains of East Antarctica. Lithos, DOI: 10.1016/j.lithos.2017.04.016. Abstract, PDF file
18. Watanabe N., Numakura, T., Sakaguchi, K., Saishu, H., Okamoto, A., Ingebritsen, S., Tsuchiya, N., 2017. Potentially exploitable supercritical geothermal resources in the ductile crust. Nature Geoscience, 10, 140-144. Abstract, PDF file

1. Akizawa, N., Ozawa, K., Tamura, A., Michibayashi, K.， Arai, S., 2016. Three dimensional evolution of melting, heat and melt transfer in ascending mantle beneath a fast-spreading ridge segment constrained by trace elements in clinopyroxene from concordant dunites and host harzburgites of the Oman ophiolite. Journal of Petrology, 57, 777-814. Abstract, PDF file
2. Chen, C., Watanabe, H. K., Ohara, Y., 2016. A very deep Provanna (Gastropoda: Abyssochrysoidea) discovered from the Shinkai Seep Field, Southern Mariana Forearc. Journal of the Marine Biological Association of the United Kingdom, 98, 439-447. Abstract PDF file
3. Christeson, G., Morgan, S., Kodaira, S., Yamashita, M., Almeev, R. R., Michibayashi, K., Sakuyama, T., Ferre, E. C. and Kurz, W. Physical properties and seismic structure of Izu-Bonin-Mariana fore arc crust: results from IODP Expedition 352 and comparison with oceanic crust. Geophysics, Geochemistry, Geosystems, 17, 4973-4991.
4. Ghosh, B., Bandyopadhyay, D., Morishita, T., 2016. Andaman-Nicobar ophiolites, India: Origin, Evolution and Emplacement. Geological Society of London, 45, 95-110. Abstract, PDF file
5. Harigane, Y., Abe, N., Michibayashi, K., Kimura, J. and Chang, Q., 2016. Melt-rock interactions and fabric development of peridotites from North Pond in the Kane area, Mid-Atlantic Ridge: implications of microstructural and petrological analyses of peridotite samples from IODP Hole U1382A. Geophysics, Geochemistry, Geosystems, 17, 2298-2322. Abstract PDF file
6. Hirauchi K-I, Fukushima K, Kido M, Muto J, Okamoto A., 2016. Reaction-induced rheological weakening enables oceanic plate subduction. Nature Communications, 7, 12550. Abstract, PDF file
7. Ichiyama, Y., Morishita, T., Tamura, A., Arai, S., 2016. Peridotite xenoliths from the Shiribeshi Seamount, Japan Sea: insights into mantle processes in a back-arc basin. Conbributions to Mineralogy and Petrology, 171, 86. Abstract, PDF file
8. Ji, S., Wang, Q., Shao, T., Endo, H., Michibayashi, K. and Salisbury, M. H., 2016. S-wave velocities and anisotropy of typical rocks from Yunkai metamorphic complex and constraints on the composition of the crust beneath Southern China. Tectonophysics, 686, 27-50. Abstract, PDF file
9. [**Open Access Article**] Michibayashi, K., Mainprice, D., Fujii, A., Uehara, S., Shinkai, Y., Kondo, Y., Ohara, Y., Ishii, T., Fryer, P., Bloomer, S. H., Ishiwatari, A., Hawkins, J. and Ji, S., 2016. Natural olivine crystal-fabrics in the western Pacific convergence region: a new method to identify fabric type. Earth and Planetary Science Letters, 443, 70-80. Abstract, PDF file
10. Michibayashi, K. and Snow, J. E., 2016. Preface Virtual special Issue: Understanding of the largest oceanic core complex on the Earth, Godzilla Megamullion. Island Arc, 25, 192. Abstract, PDF file
11. Michibayashi, K., Watanabe, T., Harigane, Y. and Ohara, Y., 2016. The effect of a hydrous phase on seismic anisotropy in the oceanic lower crust: A case study from the Godzilla Megamullion, Philippine Sea. Island Arc, 25, 209-219. Abstract, PDF file
12. Minami, H. and Y. Ohara, 2016. Detailed morphology and bubble plumes of Daiichi-Amami Knoll in the central Ryukyu Arc, Marine Geology, 373, 55-63
13. Ohara, Y., 2016. Godzilla Megamullion, the largest oceanic core complex on the earth: a histrical review. Island Arc, 25, 193-208. Abstract, PDF file
14. Okumura, T., Ohara, Y., Stern, R. J., Yamanaka, T., Onishi, Y., Watanabe, H., Chen, C., Bloomer, S. H., Pujana, I., Sakai, S., Ishii, T., Takai, K., 2016. Brucite chimney formation and carbonate alteration at the Shinkai Seep Field, a serpentine-hosted vent system in the southern Mariana forearc. Geochemistry, Geophysics, Geosystems, doi: 10.1002/2016GC006449. Abstract, PDF file
15. Omori, Y., Barresi, A., Kimura, N., Okamoto, A. and Masuda, T., 2016. Contrast in stress-strain history during exhumation between high- and ultrahigh-pressure metamorphic units in the Western Alps: Microboudinage analysis of piemontite in metacherts. Journal of Structural Geology, 89, 168-180. Abstract, PDF file
16. Omori, T., Kuwatani T, Okamoto A. and Hukushima K., 2016. Bayesian inversion analysis of nonlinear dynamics in surface heterogeneous reactions. Physical Review E, 94, 033305. Abstract, PDF file
17. Otsuji, N., Satish-Kumar, M., Kamei, A., Takazawa, E., Tsuchiya, N., Grantham, G., Kawakami, T., Ishikawa, M., Osanai, Y., 2016. Sr and Nd Isotopic evidence in metacarbonate rocks for an extinct Island arc–ocean system in East Antarctica. Journal of Mineralogical and Petrological Sciences, 111, doi: 10.2465/jmps.151029a. Abstract, PDF file
18. Sanfilippo, A., Dick, H, J. B., Ohara, Y. and Massimo, T., 2016. New insights on the origin of troctolites from the breakaway area of the Godzilla Megamullion (Parece Vela back-arc basin): the role of melt-mantle interaction on the composition of the lower crust. Island Arc, 25, 220-234. Abstract, PDF file
19. Shimizu, H. and Okamoto, A., 2016. The roles of fluid transport and surface reaction in reaction-induced fracturing, with implications for the development of mesh textures in serpentinites. Contributions to Mineralogy and Petrology, 171: 73. Abstract, PDF file
20. Shao, T., Ji, S., Oya, S., Michibayashi, K. and Wang, Q., 2016. Mica-dominated seismic properties of mid-crust beneath west Yunnan (China) and geodynamic implications. Tectonophysics, 677-678, 324-338. Abstract, PDF file
21. Su, T.-H., Yang, H.-J., Lee, Y.-C., Shau, Y.-H., Takazawa, E., Lin, M.-F., Mou, J.-L., Jiang, W.-T., 2016. Reductive Heating Experiments on BOF-Slag: Simultaneous Phosphorus Re-Distribution and Volume Stabilization for Recycling. Steel Research International, 87, 1511–1526. Abstract, PDF file
22. Su, T.-H., Yang, H.-J., Shau, Y.-H., Takazawa, E., Lee, Y.-C., 2016. CO2 sequestration utilizing basic-oxygen furnace slag: Controlling factors, reaction mechanisms and V–Cr concerns. Journal of Environmental Sciences, 41, 99-111. Abstract, PDF file
23. Sun, S., Ji, S., Michibayashi, K., Salisbury, M. and Dong, Y., 2016. Effects of olivine fabric, melt-rock reaction and hydration on the seismic properties of peridotites: insight from the Luobusha ophiolite in the Tibet Plateau. Journal of Geophysical Research, 121, 3300-3323. Abstract, PDF file
24. Taira, A., Y. Ohara, S.R. Wallis, A. Ishiwatari, and Y. Iryu, 2016. Geological evolution of Japan: an overview, in Moreno, T., S. Wallis, T. Kojima, and W. Gibons (eds), The Geology of Japan, Geological Society, London, 1-24.
25. [**Open Access Article**] Tamura, Y., Fujiwara, T., Kodaira, S. and Nicolas, A., 2016. Advent of Continents: A New Hypothesis. Scientific Reports, 6, Article number: 33517. Abstract, PDF file
26. Tamura, A., Morishita, T., Ishimaru, S., Hara, K., Sanfilippo, A., Arai, S., 2016. Compositional variations in spinel-hosted pargasite inclusions in the olivine-rich rock from the oceanic crust-mantle boundary zone. Contributions to Mineralogy and Petrology, 171, 39. DOI 10.1007/s00410-016-1245-9. Abstract, PDF file
27. Yang, H.-J., Lee, C.-Y., Chiang, Y.-J., Jean, J.-S., Shau, Y.-H., Takazawa, E., Jiang, W.-T., 2016. Distribution and hosts of arsenic in a sediment core from the Chianan Plain in SW Taiwan: Implications on arsenic primary source and release mechanisms. Science of The Total Environment, 569-570, 212-222. Abstract, PDF file

欧米雑誌 （その他）

和雑誌（査読有）

総説