Mukoyoshi Lab.







Lab. activity







 27Mukoyoshi, H., Kaneki,S., Hirono, T., Slip parameters on major thrusts at a convergent plate boundary: regional heterogeneity of potential slip distance at the shallow portion of the subducting plate. Earth Planet and Space, 70:36,



 26McNeill, C., L., Dugan, B., Backman, J. and the IODP Expedition 362 Scientists, Understanding Himalayan erosion and the significance of the Nicobar Fan. Earth and Planetary Science Letters, 475, 134-142.

 25Hüpers, A., Torres, E., M., Owari, S. and the IODP Expedition 362 Scientists, Release of mineral-bound water prior to subduction tied to shallow seismogenic slip off Sumatra. Science, 356, 841-844.



 24Kaneki,S., Hirono, T., Mukoyoshi, H., Sampei, Y., Ikehara, M., 2016, Organochemical characteristics of carbonaceous materials as indicators of heat recorded on an ancient plate-subduction fault. Geochemistry, Geophysics, Geosystems 17, 2855-2868.



 23金井拓人,森山功二郎,向吉秀樹,高木秀雄2015, 岩石薄片のSEM-EBSD分析における試料前処理条件の紹介:石英および方解石の例. 地質学雑誌, 121, 421-427.

22山口飛鳥,北村真奈美,濱田洋平,齋藤有,向吉秀樹,廣瀬丈洋, 2015, 2014年夏に露出した四万十帯手結メランジュの海食台露頭. 地質学雑誌, 121, (口絵).


21北村真奈美,向吉秀樹,廣瀬丈洋, 2014, 付加体内部に発達する断層の変位量と幅との相関関係. 地質学雑誌, 120, 11-21.

20Maekawa, Y., Hirono, T., Yabuta, H., Mukoyoshi, H., Kitamura, M., Ikehara, M., Tanikawa, W., Ishikawa, T., 2014, Estimation of slip parameters associated with frictional heating during the 1999 Taiwan Chi-Chi earthquake by vitrinite reflectance geothermometry. Earth, Planets and Space , 66, doi:10.1186/1880-5981-66-28.

19Hirono, T., Ishikawa, T., Masumoto, H., Kameda, J., Yabuta, H., Mukoyoshi, H., 2014, Re-evaluation of frictional heat recorded in the dark gouge of the shallow part of a megasplay fault at the Nankai Trough. Tectonophysics, 626, 157-169.

18Han, R., Hirose, T., Jeong, G. Y., Ando, J., Mukoyoshi, H., 2014, Frictional melting of clayey gouge during seismic fault slip: Experimental observation and implications. Geophysical Research Letters, 41, doi:10.1002/2014GL061246.

17Tanikawa, W., Tadai, O., Mukoyoshi, H., 2014, Permeability changes in simulated granite faults during and after frictional sliding. Geofluids, doi: 10.1111/gfl.12091.

16Tanikawa, W., Mukoyoshi, H., Lin, W., Hirose, T., Tsutsumi, A., 2014, Pressure dependence of fluid transport properties of shallow fault systems in the Nankai subduction zone. Earth, Planets and Space , 66:90



15. Tanikawa, W., Hirose, T., Mukoyoshi, H., Tadai, O., Tsutsumi, A., Lin, W., 2013, Fluid transport properties in sediments and their role in large slip near the surface of the plate boundary fault in the Japan Trench. Earth and Planetary Science Letters, 382, 150-160.



14. 坂口有人, 向吉秀樹, 2012, 微小なビトリナイト粒子のための反射率測定装置の製作. 地質学雑誌, 118, 240-244.

13. Tanikawa, W., Mukoyoshi, H., Tadai, O., 2012, Experimental investigation of the influence of slip velocity and temperature on permeability during and after high-velocity fault slip. Journal of Structural Geology, 38, doi:10.1016/j.jsg.2011.08.013.

12. Tanikawa, W., Mukoyoshi, H., Tadai, O., Hirose, T., Tsutsumi, A., Lin, W., 2012, Velocity dependence of shear-induced permeability associated with frictional behavior in fault zones of the Nankai subduction zone. Journal of Geophysical Research, 117, doi:10.1029/2011JB008956

11. Kitamura, M., Mukoyoshi, H., Fulton, M. P., Hirose, T., 2012, Coal maturation by frictional heat during rapid fault slip. Geophysical Research Letters, 39, doi:10.1029/2012GL052316.



10. Honda G., Ishikawa T., Hirono T. Mukoyoshi H., 2011, Geochemical signals for determining the slip-weakening mechanism of an ancient megasplay fault in the Shimanto accretionary complex. Geophysical Research Letters, 38, doi:10.1029/2011GL046722.

9. Lin, W., Tadai, O., Hirose, T., Tanikawa, W., Takahashi, M., Mukoyoshi, H., Kinoshita, M., 2011, Thermal conductivities under high pressure in core samples from IODP NanTroSEIZE drilling site C0001. Geochemistry, Geophysics, Geosystems, 12, doi:10.1029/2010GC003449.



8. Mukoyoshi, H., Hirono, T., Hara, H., Sekine, K., Tsuchiya, N., Sakaguchi, A Soh, W., 2009, Style of fluid flow and deformation in and around an ancient out-of-sequence thrust: An example from the Nobeoka Tectonic Line in the Shimanto accretionary complex, SW Japan. The Island Arc, 18, 333-351.



7. Hirono, T., Mukoyoshi, H., Tanikawa, W., Noda, H., Mizoguchi, K., Shimamoto, T., 2008, Frictional behavior and its seismological implications within thrusts in the shallow portion of an accretionary prism. Tectonophysics, 456, 163-170.



6. 向吉秀樹, 原 英俊, 池原(大森)琴絵, 2007, イライト結晶度における温度条件の定量的見積もり:九州東部,秩父帯・四万十帯付加コンプレックスにおけるビトリナイト反射率との比較, 地質調査研究報告,5823-31.

5. Mukoyoshi, H., Hirono, T., Sekine, K., Tsuchiya, N., Soh, W., 2007, Cathodoluminescence and fluid inclusion analyses of mineral veins within major thrusts in the Shimanto accretionary complex: Evidence of hydraulic fracturing during thrusting. Earth, Planets and Space, 59, 937-942



4. Mukoyoshi, H., Sakaguchi, A., Otsuki, K., Hirono, T., Soh, W., 2006, Co-seismic frictional melting along an out-of-sequence thrust in the Shimanto accretionary complex: Implications on the tsunamigenic potential of splay faults in modern subduction zones. Earth and Planetary Science Letters, 245, 330-343.

3. 坂口有人, 橋本善孝, 向吉秀樹, 横田崇輔, 高木美恵, 菊池岳人, 2006, 沈み込みプレート境界地震発生帯破壊変形と流体移動:高知県西部白亜系四万十帯,興津,久礼,横浪メランジュ, 地質学雑誌, 112, S71-S88.



2. Yamamoto, Y., Mukoyoshi, H., Ogawa, Y., 2005, Structural characteristics of shallow burial accretionary prism: rapidly uplifted Neogene accreted sediments on the Miura-Boso Peninsula, central Japan, Tectonics, 24, doi: 10.1029/2005TC001823.

1. Kitamura, Y., Sato,K., Ikesawa,E., Ikehara, O.K., Kimura,G., Kondo,H., Ujiie,K., Onishi, C.T., Kawabata,K., Hashimoto,Y., Mukoyoshi,H., Masago, H., 2005, Melange and its seismogenic roof decollement: A plate boundary fault rock in the subduction zone-An example from the Shimanto Belt, Japan. Tectonics, 24, doi:10.1029/2004TC001635.






4. 向吉秀樹, 2014, 岩石薄片作製実習における光硬化剤を用いたカバーガラスの接着. 新・地殻, 1, 2-4.

3. Kawamura, K., Ogawa, Y., Hara, H., Anma, R., Dilek, Y., Kawakami, S., Chiyonobu, S., Mukoyoshi, H., Hirano, S., 2011, Rapid exhumation of subducted sediments from the seismogenic zone along an out-of-sequence thrust in an active accretionary prism, Nankai Trough (Japan), In: Accretionary Prisms and Convergent Margin Tectonics in the Northwest Pacific Basin: submersible studies and recent advances (Part of Series of Modern Approaches in Solid Earth Sciences),Ogawa, Y., Anma, R., Dilek, Y. et al.(eds.), Springer, 8, 215-228. DOI: 10.1007/978-90-481-8885-7_10

2. 向吉秀樹, 2005, 過去の海溝型震源断層の側方変化 −九州北東部延岡構造線を例に−, 「平成16年度深田研究助成」研究報告, 2004, 159-172.

1.坂口有人, 向吉秀樹, 池原琴絵, 池沢栄誠, 川端訓代, 村田明広, 2002, 海溝型震源断層解析 −四万十帯からのアプローチ−, 月刊地球, 号外, 36, 33-39.








Mukoyoshi, H., 2007, Characterization of out-of-sequence thrust exposed on the Shimanto accretionary complex, SW Japan, Doctor thesis, Kochi University, 67 pp..