2021年

Papers

  1. Sen, A., Snow, J. E., Ohara, Y., Hirauchi, K., Kouketsu, Y., Sanfilippo, A., Basch, V., Harigane, Y., Fujii, M., Okino, K., Akizawa, N. 2021. Melting and evolution of amphibole-rich back-arc abyssal peridotites at the Mado Megamullion, Shikoku Basin. Geochemistry, Geophysics, Geosystems, 22, e2021GC010013. https://doi.org/10.1029/2021GC010013
  2. Kawabata, R., Imayama, T., Bose, N., Yi, K., Kouketsu, Y. 2021. Tectonic discontinuity, partial melting and exhumation in the Garhwal Himalaya (Northwest India): Constrains from spatial and temporal pressure-temperature conditions along the Bhagirathi valley. Lithos, 404-405, 106488. https://doi.org/10.1016/j.lithos.2021.106488
  3. Shimura, T., Tokiwa, T., Mori, H., Takeuchi, M., Kouketsu, T. 2021. Deformation characteristics and peak temperatures of the Sanbagawa Metamorphic and Shimanto Accretionary complexes on the central Kii Peninsula, SW Japan. Journal of Asian Earth Sciences, 215, 104791. https://dor.org/10.1016/j.jseaes.2021.104791
  4. 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
  5. 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
  6. 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
  7. Akizawa, H., Ohara, Y., Okino, K., Ishizuka, O., Yamashita, H., Machida, S., Sanfilippo, A., Basch, V., Johnathan, S., Sen, A., Hirauchi, K., Michibayashi, K., Harigane, Y., Fujii, M., Asanuma, H., Hirata, T. 2021. Geochemical characteristics of back-arc lower crust and upper mantle at final spreading stage of Shikoku Basin: an example of Mado Megamullion. Progress in Earth and Planetary Science, 8: 65. https://doi.org/10.1186/s40645-021-00454-3
  8. 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
  9. 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.
  10. 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
  11. 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
  12. 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.
  13. 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.
  14. 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.
  15. 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.
  16. 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.
  17. 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.
  18. Igami, Y., Michibayashi, K. 2021. Transmission Kikuchi diffraction study of submicrotexture within ultramylonite. Physics and Chemistry of Minerals, in press.
  19. 道林克禎, 2021. 深海掘削計画における基盤岩掘削科学の貴種流離譚. 地学雑誌, 130, 461–482.
  20. 森下知晃・藤江剛・平内健一・片山郁夫・纐纈佑衣・黒田潤一郎・岡本敦・小野重明・道林克禎・諸野祐樹・山本伸次, 2021. マントル掘削でのみ解明される地球科学問題ー生命惑星海洋プレートの今を理解するー. 地学雑誌, 130, 483–506.
  21. Kourim, F., Wang, K., Beinlich, A., Chieh, C., Dygert, N., Lafay, R., Kovach, B., Michibayashi, K., Yarmolyuk, V., Iizuka, Y., 2021. Metasomatism of the off-cratonic lithospheric mantle beneath Hangay Dome, Mongolia: Constraints from trace-element modelling of lherzolite xenoliths. Lithos, 400–401, 106407.
  22. Asano, K., Michibayashi, K., Takebayashi, T., 2021. Rheological contrast between quartz and coesite generates strain localization in deeply subducted continental crust. Minerals, 11, 842.
  23. 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.
  24. 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.
  25. 森宏・友岡洋介・常磐哲也・纐纈佑衣, 2021. 長野県小渋川流域における西南日本外帯の変成温度構造. 地学雑誌, 130, 85–98.
  26. 塩谷輝道林克禎纐纈佑衣榎並正樹, 2021. 中部地方渋川地域三波川帯におけるヒスイ輝石の再確認:ダナイト中の細脈構成鉱物としての産出. 地質学雑誌, 127, 59–65.
  27. Taguchi, T., Kouketsu, Y., Igami, Y., Kobayashi, T., Miyake, A., 2021. Hidden intact coesite in deeply subducted rocks. Earth and Planetary Science Letters, 558, 116763.
  28. Hirauchi, K., Segawa, I., Kouketsu, Y., Harigane, Y., Ohara, Y., Snow, J., Sen, A., Fujii, M., Okino, K. 2021. Alteration processes recorded by back-arc mantle peridotites from oceanic core complexes, Shikoku Basin, Philippine Sea. Island Arc, 30, e12419. https://doi.org/10.1111/iar.12419
  29. 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.
  30. Kouketsu, Y., Sadamoto, K., Umeda, H., Kawahara, H., Nagaya, T., Taguchi, T., Mori, H., Wallis, S., Masaki, E., 2021. Thermal structure in subducted units from continental Moho depths in a paleo subduction zone, the Asemigawa region of the Sanbagawa metamorphic belt, SW Japan. Journal of Metamorphic Geology, 39, 727–749.
  31. 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.

Conference and Meetings

  1. Uhmb, T., Michibayashi, K., 2021. A shape change model of isolated K-feldspar inclusions within a shear zone developed in Teshima granite, the Ryoke metamorphic belt. Virtual GEOSEA XVI and GeoCon 2021, Metamorphism and Rock Deformation, 6Dec.
  2. 小原泰彦・針金由美子・山下浩之・竹林知大冨岡優貴二村康平・股村祐希・石塚治・谷健一郎・藤井昌和, 2021. 四国海盆最西部に位置する彗新メガムリオンにおける先行調査:YK21-06S航海速報. 東京大学大気海洋研究所共同研究集会 流体の地球科学:物理学–化学–地質学–生物学的研究からの統合的な展望 ーInterRidge Japan研究集会ー. 東京大学大気海洋研究所(with Zoom), 千葉, 11月26日.
  3. 二村康平道林克禎・針金由美子・小原泰彦, 2021. メガムリオンに発達した延性剪断帯におけるレオロジー特性の対比:フィリピン海四国海盆マドメガムリオンを覗いて. 東京大学大気海洋研究所共同研究集会 流体の地球科学:物理学–化学–地質学–生物学的研究からの統合的な展望 ーInterRidge Japan研究集会ー. 東京大学大気海洋研究所(with Zoom), 千葉, 11月25日.
  4. 冨岡優貴纐纈佑衣道林克禎, 2021. 中部地方渋川地域に産する三波川結晶片岩類の研究. 日本鉱物科学会2021年年会(広島),R8P-03, 9月17日.
  5. 加藤丈典・小坂由紀子・淺原良浩・纐纈佑衣道林克禎, 2021. マントル起源のカンラン石・蛇紋石に含まれるU・Th・PbのICP-MS定量分析結果. 日本鉱物科学会2021年年会(広島),R1-03, 9月17日.
  6. 伊神洋平・道林克禎, 2021. SEM装置を用いた透過菊池回折の分析とウルトラマイロナイトかんらん岩への応用. 日本鉱物科学会2021年年会(広島),R1P-02, 9月17日.
  7. 道林克禎浅野航平竹林智大, 2021. 超高圧変成岩のレオロジー研究〜中国大別山のヒスイ石英岩を例として〜. 日本鉱物科学会2021年年会(広島),R8-02, 9月16日.
  8. 纐纈佑衣冨岡優貴・西山忠男・榎並正樹, 2021. ラマン地質圧力計における問題点の検証. 日本鉱物科学会2021年年会(広島),R8-01, 9月16日.
  9. 赤松裕哉・片山郁夫・岡﨑啓史・道林克禎・The Oman Drilling Project Phase 1 Science Party, 2021. 堀削コア試料X線CT画像中の脈状鉱物の自動検出による浸透率構造の推定:オマーン堀削計画GTサイトへの適用. 日本鉱物科学会2021年年会(広島),S2-06, 9月16日.
  10. 道林克禎柿畑優季・尾上彩佳・大家翔馬・小田島庸浩, 2021.オマーンオフィオライトマントルダイアピル粗粒カンラン岩の微細構造解析:海洋リソスフェアの地震波異方性への示唆. 日本地質学会第128年学術大会名古屋大会,R1-O-1, オンライン(Zoom),9月6日.
  11. 纐纈佑衣, 2021. 分光学と地質学のリンク, 日本地質学会第128年学術大会名古屋大会,オンライン(Youtube),9月5日. (日本地質学会柵山雅則賞受賞記念講演
  12. 纐纈佑衣, 2021. 炭質物ラマン温度計の適用性と可能性. 日本地質学会第128年学術大会名古屋大会,R12-O-1, オンライン(Zoom),9月5日. (招待講演
  13. 平内健一・永田友里奈・大柳良介・岡本敦・道林克禎, 2021. 高間隙流体圧下での古マントルウェッジ蛇紋岩体の破壊作用と深部スロー地震発生サイクルの関連性. 日本地質学会名古屋大会,T3-O-16, オンライン(Zoom),9月4日.
  14. 道林克禎, 2021, 地球リサイクルと海洋消滅仮説の検証〜海洋プレート研究の新展開〜. JpGU 2021, SCG55-01, 6月6日.<招待講演>
  15. 道林克禎・高澤栄一・森下知晃・山下幹也・藤江剛・小野 重明, 2021. ハードロック掘削計画の新展開:幌満かんらん岩掘削と前弧マントル掘削計画. JpGU 2021, SCG41-10, 6月6日.
  16. 道林克禎浅野航平, 2021. 中国東武Dabie-Shan超高圧変成岩の微細構造的特徴. JpGU 2021, SMP-P10, 6月6日.
  17. オムテフン道林克禎, 2021. A shape change model of isolated K-feldspar inclusions within a micro-shear zone developed in Teshima granite, the Ryoke metamorphic belt. JpGU 2021, SMP25-05, 6月6日.
  18. 纐纈佑衣冨岡優貴・田口知樹, 2021, ラマン分光法で探る石英包有物の歪. JpGU 2021, SMP25-P19, 6月6日.
  19. 二村康平道林克禎・針金由美子・小原泰彦, 2021. フィリピン海四国海盆マドメガムリオンに発達した延性剪断帯のレオロジー特性. JpGU 2021, SPM25-08, 6月6日.
  20. 岡崎啓史・道林克禎・畠山航平・阿部なつ江・Johnson Kevin・Kelemen Peter, 2021. ICDPオマーン掘削計画BT1Bサイトにおいて採取されたリストベナイトのX線CTコア画像から推定される鉱物組み合わせ. JpGU 2021, SCG41-04, 6月6日.
  21. 山本 一平・中村佳博・針金由美子・纐纈佑衣・谷健一郎・山口飛鳥, 2021. Rheological and metamorphic evolutions of high-grade Shimanto accretionary complex in Kerama islands, Ryukyu. JpGU 2021, SMP25-07, 6月6日.
  22. 赤松祐哉・片山郁夫・岡崎啓史・道林克禎・Oman Drilling Project Phase I Science Party, 2021. Vein permeability structure of the crustal section in the Oman Drilling Project inferred from the X-ray CT image analysis. JpGU 2021, SCG41-P06, 6月6日.
  23. 藤江剛・尾鼻浩一郎・小平秀一・道林克禎, 2021. Characteristics of the oceanic plate near the Nosappu fracture zone revealed by the extensive seismic structure studies. JpGU 2021, SCG55-P02, 6月6日.
  24. 森宏・野部勇貴・山岡健・友岡洋介・纐纈佑衣・常盤哲也, 2021. Detailed characteristics of Raman spectra of carbonaceous materials in fault rocks nearby the Median Tectonic Line. JpGU 2021, SCG44-P04, 6月6日.
  25. 田口知樹・纐纈佑衣・伊神洋平・小林記之・三宅亮, 2021. Hidden intact coesite in deeply subducted rocks and its geological implications. JpGU 2021, SMP25-P12, 6月6日.
  26. 任杰・角野浩史・纐纈佑衣・ウォリス サイモン, 2021. 三波川帯変成岩中に記録された、沈み込んだ堆積物とマントルウェッジのハロゲンと希ガス組成. JpGU 2021, SGC32-07, 6月5日.
  27. 小原泰彦・藤井昌和・秋澤紀克・Basch Valentin・針金由美子・平内健一・石塚治・町田嗣樹・道林克禎・沖野郷子・Sanfilippo Alessio・Sani Camilla・Sen Atlanta・Snow Jonathan・谷健一郎・山下浩之, 2021, Mado Megamullion: a potential new target for IODP drilling to understand backarc lithosphere. JpGU 2021, MIS18-14, 6月4日.
  28. 鈴木聖惟・岡本敦・道林克禎・大森敏明, 2021. 岩石コア試料のX線CT画像の超解像とオマーンオフィオライトの蛇紋岩への適用. JpGU 2021, MGI33-P03, 6月3日.
  29. 道林克禎, 2021. 小澤一仁先生に色々とご指導していただいたマントル研究とカンラン岩ウルトラマイロナイトの変形微細構造と結晶方位ファブリック. 小澤一仁先生ご退職記念マントル研究会, 東京大学小柴ホール with Zoom, 3月24 日.
  30. 水野瞳纐纈佑衣道林克禎, 2021. Water content map of olivine using FT-IR method. 変成岩などシンポジウム2021, Zoom, 3月15日.
  31. 二村康平道林克禎・針金由美子・小原泰彦, 2021. フィリピン海四国海盆マドメガムリオンに発達した延性剪断帯のレオロジー的特性. 変成岩などシンポジウム2021, Zoom, 3月14日.