宮川 歩夢 (Ayumu Miyakawa)

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論文（国際誌）

1. Muramoto, T., Ito, Y., Miyakawa, A., & Furuichi, N. (2024). Viscoelasticity modeling of clay minerals by dynamic viscoelasticity measurement and its implications for earthquake faulting. Tectonophysics, 872, 230208. [View Article]


2. Mannu, U., Fernández-Blanco, D., Miyakawa, A., Gerya, T., & Kinoshita, M. (2024). Thrusts control the thermal maturity of accreted sediments. Solid Earth, 15(1), 1-21. [View Article]


3. Keller, F., Popa, R. G., Allaz, J., Bovay, T., Bouvier, A. S., Geshi, N., Miyakawa, A., & Bachmann, O. (2023). Variations in water saturation states and their impact on eruption size and frequency at the Aso supervolcano, Japan. Earth and Planetary Science Letters, 622, 118400. [View Article]


4. Muramoto, T., Ito, Y., Miyakawa, A., Furuichi, N. (2023). Strain and stress accumulation in viscoelastic splay fault and subducting oceanic crust. Geophysical Research Letters, 50(11), e2023GL103496. [View Article]


5. Amezawa, Y., Hiramatsu, Y., Miyakawa, A., Imanishi, K., Otsubo, M. (2023). Long-Living Earthquake Swarm and Intermittent Seismicity in the Northeastern Tip of the Noto Peninsula, Japan. Geophysical Research Letters, 50(8), e2022GL102670. [View Article]


6. Keller, F., Guillong, M., Geshi, N., Miyakawa, A., Bachmann, O. (2023). Tracking caldera cycles in the Aso magmatic system - Applications of magnetite composition as a proxy for differentiation. Journal of Volcanology and Geothermal Research, 436, 107789. [View Article]


7. Koge, H., Ashi, J., Park, J. O., Miyakawa, A., Yabe, S. (2022). Simple topographic parameter reveals the along-trench distribution of frictional properties on shallow plate boundary fault. Earth, Planets and Space, 74(1), 1-11. [View Article]


8. Hashimoto, Y., Sato, S., Kimura, G., Kinoshita, M., Miyakawa, A., Moore, G.F., Nakano, M., Shiraishi, K. & Yamada, Y. (2022). Decollement geometry controls on shallow very low frequency earthquakes. Scientific Reports, volume 12, Article number: 2677. [View Article]


9. Miyakawa, A., Noda, A., & Koge, H. (2022). Evolution of the geological structure and mechanical properties due to the collision of multiple basement topographic highs in a forearc accretionary wedge: insights from numerical simulations. Progress in Earth and Planetary Science, 9, 1. [View Article]


10. Katori, T., Shigematsu, N., Kameda, J., Miyakawa, A. & Matsumura, R. (2021). 3D fault-zone architecture across the brittle-plastic transition along the Median Tectonic Line, SW Japan: Fault-rock characterization. Journal of Structural Geology, 153, 104446. [View Article]


11. Keller, F., Bachmann, O., Gechi, N. & Miyakawa, A. (2021). The role of crystal accumulation and cumulate remobilization in the formation of large zoned ignimbrites: insights from the Aso-4 caldera-forming eruption, Kyushu, Japan. Frontiers in Earth Science, 8, 744. [View Article]


12. Miyakawa, A., Abe, T., Sumita, T. & Otsubo, M. (2020). Half-graben inversion tectonics revealed by gravity modeling in the Mikawa Bay Region, Central Japan. Progress in Earth and Planetary Science, 7 (1), 1-16. [View Article]


13. Otsubo, M., Hardebeck, J. L., Miyakawa, A., Yamaguchi, A., & Kimura, G. (2020). Localized fluid discharge by tensile cracking during the post-seismic period in subduction zones. Scientific Reports, 10(1), 1-8. [View Article]


14. Noda, A., Koge, H., Yamada, Y., Miyakawa, A., & Ashi, J. (2020). Subduction of trench-fill sediments beneath an accretionary wedge: Insights from sandbox analogue experiments. Geosphere, 16(4), 1664-1679. [View Article]


15. Otsubo, M., Katayama, I., Miyakawa, A., & Sagiya, T. (2020). Inelastic behavior and mechanical strength of the shallow upper crust controlled by layer-parallel slip in the high-strain zone of the Niigata region, Japan. Earth, Planets and Space, 72(1), 1-7. [View Article]


16. Noda, A., Koge, H., Yamada, Y., Miyakawa, A., Ashi, J. (2020). Forearc Basin Stratigraphy Resulting From Syntectonic Sedimentation During Accretionary Wedge Growth: Insights From Sandbox Analog Experiments. Tectonics, 39(3), e2019TC006033. [View Article]


17. Tamura, T., Oohashi, K., Otsubo, M., Miyakawa, A., & Niwa, M. (2020). Contribution to crustal strain accumulation of minor faults: a case study across the Niigata-Kobe Tectonic Zone, Japan. Earth, Planets and Space, 72(1), 7. [View Article]


18. Wang Z., Fukao Y., Miyakawa A., Hasegawa A., Takei Y. (2019) Crustal extension and graben formation by fault slip‐associated pore opening, Kyushu, Japan. Journal of Geophysical Research: Solid Earth. doi:10.1029/2018JB016649. [View Article]


19. Otsubo M., Miyakawa A., Katayama I., Okazaki K. (2019) An inhomogeneous across-slab conduit controlled by intraslab stress heterogeneity in the Nankai subduction zone. Scientific Reports, 9, 994. doi:10.1038/s41598-018-38142-w. [View Article (Open Access)]


20. Miyakawa A., Kinoshita M., Hamada Y., Otsubo M. (2019) Thermal-maturity structures in an accretionary wedge by a numerical simulation. Progress in Earth and Planetary Science, 6:8. [View Article (Open Access)]


21. Otsubo M., Naruse H., Miyakawa A. (2018) Temporal changes in the internal stresses and pore pressures in a large-scale submarine mass transport deposit. Progress in Earth and Planetary Science, 5 (1), 59. [View Article (Open Access)]


22. Otsubo M., Miyakawa A., Imanishi K. (2018) Normal-faulting stress state associated with low differential stress in an overriding plate in northeast Japan prior to the 2011 Mw 9.0 Tohoku earthquake. Earth, Planets and Space, 70 (1), 51. [View Article (Open Access)]


23. Okuma S., Makino M., Miyakawa A., Nakatsuka T., Otsuka Y., Kudo S., Yanagida M., Sasaki T., Sugimori T. (2018) Magnetic Imaging of Ultramafic Bodies on the Site of the Ohi Nuclear Power Station, Central Japan. ASEG Extended Abstracts 2018 (1), 1-4. [View Article ]


24. Otsubo M., Utsunomiya M., Miyakawa A. (2018) Reactivation of map-scale faults in response to changes in crustal stress: Examples from Boso Peninsula, Japan. Quaternary International, 456, 117-124. [View Article ]


25. Miyakawa A., Otsubo M. (2017) Evolution of crustal deformation in the northeast-central Japanese island arc: Insights from fault activity. Island Arc. doi:10.1111/iar.12179 [View Article (Open Access)]


26. Shigematsu N., Kametaka M., Inada N., Miyawaki M., Miyakawa A., Kameda J., Tetsuhiro T., Fujimoto K. (2017) Evolution of the Median Tectonic Line fault zone, SW Japan, during exhumation. Tectonophysics, 696, 52-69. [View Article]


27. Miyakawa A., Sumita T., Okubo Y., Okuwaki R., Otsubo M., Uesawa S., Yagi Y. (2016) Volcanic magma reservoir imaged as a low-density body beneath Aso volcano that terminated the 2016 Kumamoto earthquake rupture. Earth, Planets and Space, 68, 208. doi:10.1186/s40623-016-0582-2 [View Article (Open Access)]


28. Shirahama Y., Yoshimi M., Awata Y., Maruyama T., Azuma T., Miyashita Y., Mori H., Imanishi K., Takeda N., Ochi T., Otsubo M., Asahina D., Miyakawa A. (2016) Characteristics of the surface ruptures associated with the 2016 Kumamoto earthquake sequence, central Kyushu, Japan. Earth, Planets and Space, 68, 191. doi:10.1186/s40623-016-0559-1 [View Article (Open Access)]


29. Yagi Y., Okuwaki R., Enescu B., Kasahara A., Miyakawa A., Otsubo M. (2016) Rupture process of the 2016 Kumamoto earthquake in relation to the thermal structure around Aso volcano. Earth, Planets and Space, 68, 118. DOI: 10.1186/s40623-016-0492-3 [View Article (Open Access)]


30. Otsubo M., Shimizu T., Miyakawa A., Sato T., Ohwada M., Kazahaya K. (2016) Fractures in Cretaceous granite as pathways of upwelling deep‐seated water at Kawachinagano City on Kii Peninsula, southwest Japan. Island Arc, 25 (4), 298-300. [View Article]


31. Otsubo M., Miyakawa A., Kawasaki R., Sato K., Yamaguchi A., Kimura G. (2016) Variations in stress and driving pore fluid pressure ratio using vein orientations along megasplay faults - example from the Nobeoka Thrust, southwest Japan. Island Arc, 25, 421-432. DOI: 10.1111/iar.12155 [View Article]


32. Miyakawa A., Yamada Y., Otsubo M. (2016) Stress changes in an accretionary wedge related to the displacement of an OOST in a numerical simulation. Island Arc, 25, 433-435. DOI: 10.1111/iar.12149 [View Article (Open Access)]


33. Otsubo M., Miyakawa A. (2016) Landward migration of active folding based on topographic development of folds along the eastern margin of the Japan Sea, northeast Japan. Quaternary International, 397, 563-572. doi:10.1016/j.quaint.2015.11.019 [View Article]


34. Miyakawa A., Otsubo M. (2015) Effect of a change in the state of stress on the likelihood of inland fault failure during the Mw 6.6 Iwaki earthquake resulting from the Mw 9.0 2011 Tohoku earthquake, Japan. Tectonophysics, 661, 112-120. [View Article]


35. Uesawa S., Miyakawa A. (2015) A recursion model to calculate the original widths of narrow terraces and their backwearing rates in a coastal area subjected to regular uplift during the late Holocene. Geomorphology 246, 407-412. [View Article]


36. Miyakawa A., Otsubo M. (2015) Applicability of slip tendency for understanding long-term fault activity: a case study of active faults in northeastern Japan. Journal of JSCE, 3 (1), 105-114. [View Article]


37. Yamada Y., Baba K, Miyakawa A., Matsuoka T. (2014) Granular experiments of thrust wedges: insights relevant to methane hydrate exploration at the Nankai accretionary prism. Marine and Petroleum Geology, 51, 34-48. [View Article]


38. Miyakawa A., Saito S., Yamada Y., Tomaru H., Kinoshita M,, Tsuji T. (2014) Gas hydrate saturation at Site C0002, IODP Expeditions 314 and 315, in the Kumano Basin, Nankai trough. Island Arc, 23 (2), 142-156 [View Article (Open Access)]


39. Otsubo M., Y Miyashita, Miyakawa A., M Miyawaki. 2013. Slickenlines on fault scarps along Yunodake Fault caused by an earthquake in Iwaki-city (Fukushima Prefecture, Japan) on April 11, 2011. Jour. Geol. Soc. Japan, 119 (9), XIII-XIV. [View Article (Open Access)]


40. Miyakawa A., Yamada Y., Matsuoka T. (2010) Effect of increased shear stress along a plate boundary fault on the formation of an out-of-sequence thrust and a break in surface slope within an accretionary wedge, based on numerical simulations. Tectonophysics, 484 (1), 127-138 [View Article]

論文（国内誌）

1. 大熊 茂雄， 中塚 正， 宮川 歩夢， 木下 佐和子， 上田 匠， 岩田 光義． 2021．10万分の1相模湾沿岸域空中磁気図（全磁力異常）及び説明書 ．海陸シームレス地質情報集「相模湾沿岸域」，海陸シームレス地質情報集S-7．10.


2. 大熊 茂雄， 駒澤 正夫， 宮川 歩夢， 伊藤 忍， 住田 達哉， 江戸 将寿． 2021．10万分の1相模湾沿岸域重力図（ブーゲー異常）及び説明書．海陸シームレス地質情報集「相模湾沿岸域」，海陸シームレス地質情報集S-7．9.


3. 杉野 由樹, 上田 匠, 大熊 茂雄, 石塚 吉浩, 宮川 歩夢． 2020．磁気探査データ解析のための岩石物性測定—北海道武佐岳地熱地域の例—．物理探査. 73, 117-122．


4. 大熊 茂雄， 宮川 歩夢， 駒澤 正夫， 杉野 由樹， 押田　淳． 2020．伊勢湾沿岸域における海底重力調査．地質調査総合センター速報. 81, 41-50．


5. 宮川 歩夢・名和 一成・山谷 祐介・大滝 壽樹・杉原 光彦・奥田 隆・住田 達哉． 2020．石垣島西部名蔵川流域の重力測定．地質調査研究報. 71(2), 63-76．


6. 伊藤 剛・阿部 朋弥・宮川 歩夢．2020．西三河平野ボーリング試料に含まれる更新統の珪質岩礫から産出した中・古生代放散虫化石：礫の供給源の推定．第四紀研究. 59(5), 105-116．


7. 桑原保人・宮川歩夢・大坪 誠・今西和俊． 2018．マグニチュード６クラスの内陸地震は全国どこででも起きているのか？−活断層と内陸地震の位置の関係についての予備的解析．活断層・古地震研究報告. 18, 249-255．


8. 大坪誠， 宮川歩夢， 塚本斉， 山元孝広， 渡部芳夫．2014．地層処分の長期安全を評価する際の断層活動における不確実性．地質学雑誌 120 (12), 423-433．


9. 斎藤実篤， 宮川歩夢， 山田泰広， 木下正高．2010．科学掘削におけるメタンハイドレートの物理検層解析: 熊野堆積盆地の例．石油技術協会誌 75 (1), 54-58．


10. 宮川歩夢， 辻健， 松岡俊文， 山本剛．2010． 自己組織化マップを用いた複合物理探査による堤防内土質性状の分類．土木学会論文集 C 66 (1), 89-99．


11. 山本由弦, 栗原敏之, 常盤哲也, 植田勇人, 中江訓, 脇田浩二, 原英俊, 内野隆之, 上野光, 鎌田祥仁, 山田泰広, 宮川歩夢, 辻健, 2007. 千倉層群畑層中に見られる大規模コンボリュート葉理と火炎構造 . 地質学雑誌, 113, XV2-XV3.

プロシーディングス（査読付き）

1. Miyakawa A., Nawa K., Murata Y., Ito S., Okuma S., Yamaya Y. (2015) Introduction to the Gravity Database (GALILEO) Compiled by the Geological Survey of Japan, AIST. International Association of Geodesy Symposia.


2. Sugihara M., Nawa K., Soma N., Ishido T., Miyakawa A., Nishi Y. (2014) Continuous Gravity Monitoring for CO 2 Geo-sequestration (2) a Case Study at the Farnsworth CO 2-EOR Field. Energy Procedia 63, 4404-4410.


3. Otsubo M., Miyakawa A., Kubo A. (2013) Spatial stress heterogeneity imaging by using difference between reduced stress tensors detected from earthquake focal mechanisms. Proc. the 6th International Symposium on In-situ Rock Stress (RS2013), 1123-1128.


4. Miyakawa A., Tsuji T., Yamada Y., Matsuoka T. (2011) An analysis by using self-organizing maps for DEM simulation results. In:Sainsbury, Hart, Detournay & Nelson (eds.), Continuum and Distinct Element Numerical Modeling in Geomechanics. Itasca International Inc., Minneapolis, pp. 633-640. ISBN 978-0-9767577-2-6


5. Miyakawa A., Yamada Y., Matsuoka T. (2008) A wedge classification method based on Self-organizing map with a case study of Nankai accretionary wedge. Bollettino di Geofisica 247-251.


6. Miyakawa A., Miyoshi T., Yamada Y., Matsuoka T. (2006) Numerical simulation to estimate the influence of structural deformation to fluid flow in a modeled accretionary wedge. Proceedings of the 8th SEGJ International Symposium, Kyoto, Japan, 26-28 November 2006: pp. 1-6.

地球科学情報

1. 竹内　誠・長森英明・古川竜太・及川耀樹・坂野靖行・宮川歩夢. 2023. 20万分の1地質図幅「富山」（第2版）. 20万分の1地質図幅シリーズ． [Link to GSJ page]


2. 宮川歩夢・名和一成・村田泰章・駒澤正夫・大熊茂雄・石原丈実・村上文敏. 2022. 伊勢地域重力図（ブーゲー異常図）. 20万分の1重力図シリーズ． 35. [Link to GSJ page]


3. 中江　訓・辻野　匠・小松原　琢・高木哲一・宮川歩夢. 2022. 20万分の1地質図幅「宮津」（第2版）. 20万分の1地質図幅シリーズ． [Link to GSJ page]


4. 工藤　崇・小松原純子・内野隆之・昆　慶明・宮川歩夢. 2021. 20万分の1地質図幅「野辺地」（第2版）. 20万分の1地質図幅シリーズ． [Link to GSJ page]


5. 村田 泰章・宮川 歩夢・駒澤 正夫・名和 一成・大熊 茂雄・岸本 清行 ・石原 丈実・志知 龍一. 2020. 名古屋地域重力図（ブーゲー異常図）. 20万分の1重力図シリーズ． 34. [Link to GSJ page]


6. 村田泰章・宮川歩夢・駒澤正夫・名和一成・大熊茂雄・上嶋正人・西村清和・岸本清行・宮崎光旗・志知龍一・本多　亮・澤田明宏. 2018. 金沢地域重力図（ブーゲー異常図）. 20万分の1重力図シリーズ． 33. [Link to GSJ page]


7. 宮川歩夢・名和一成・村田泰章・ 駒澤正夫・牧野雅彦・村上文敏・大熊茂雄・中村佳重郎・赤松純平・西村敬一・西田良平・野口竜也. 2017. 和歌山地域重力図（ブーゲー異常図）. 20万分の1重力図シリーズ． 32. [Link to GSJ page]


8. 宮崎一博・脇田浩二・宮下由香里・水野清秀・高橋雅紀・野田　篤・利光誠一・角井朝昭・大野哲二・名和一成・宮川歩夢. 2016. 20万分の1地質図幅「松山」（第2版）. 20万分の1地質図幅シリーズ． [Link to GSJ page]


9. 星住 英夫・斎藤 眞・水野 清秀・宮崎 一博・利光 誠一・松本 哲一・大野 哲二・宮川 歩夢. 2015. 20万分の1地質図幅「大分」（第2版）. 20万分の1地質図幅シリーズ． [Link to GSJ page]

その他

1. プレスリリース：西日本で初めて大規模な大地の反転構造を発見 −内陸地震を引き起こす活断層の解明に貢献−．2020年10月20日 [Link to the page]


2. 宮川歩夢． (2021) 目で見る地質の構造ができるところ　付加体シミュレーションの展示．地図中心.日本地図センター. 586, 19．


3. 宮川歩夢． (2021) ”重力の異常”で地下推定. 日刊工業新聞．2021年5月7日掲載．


4. プレスリリース：プレート境界付近に存在する水は地震後も高い圧力を保持．2020年10月20日 [Link to the page]

表彰

• 産業技術総合研究所 理事長賞（運営・研究支援）. 2023. 内藤 皓太、小原 春彦、榊田 創、上原 夏子、宮川 歩夢、田崎 孝典、飯田 仁志、小笠原 啓一、木村 優太. [Link to the page]


• 日本地震学会論文賞. 2023. Miyakawa, A., Noda, A., & Koge, H. (2022). Evolution of the geological structure and mechanical properties due to the collision of multiple basement topographic highs in a forearc accretionary wedge: insights from numerical simulations. Progress in Earth and Planetary Science, 9, 1. [Link to the page]


• 産業技術総合研究所 理事長賞（運営・研究支援）. 2022. 宮川 歩夢、田崎 孝典、伊藤 生子、大岩 寛、大河原 規生、梶川 宏明、坂口 友子、佐藤 秀美、澤田 有弘、清水 卓也、鈴木 音羽、長崎 麻貴子、野村 健一、林 直樹、藤原 すみれ、堀 知行、松尾 駿介、宮下 東久. [Link to the page]


• Best Paper Award, AROB-ISBC-SWARM 2022, International Society of Artificial Life and Robotics (ISAROB). 2022. “Co-authorship Relationship with the Construction of a Research Laboratory: Consideration from a Network Perspective”. Ayumu Miyakawa, Furi Kishimoto, Tsukasa Fujita, Masanori Shiro, Yuichi Iwasaki, Tetsuo Yasutaka (National Institute National Institute of Advanced Industrial Science and Technology (AIST), Japan), Masanao Ochi (The University of Tokyo, Japan) [Link to the page]


• 日本地質学会 Island Arc賞, 日本地質学会. 2018. Miyakawa A., Saito S., Yamada Y., Tomaru H., Kinoshita M, Tsuji T. [Link to the page]


• AEGC2018,Best poster paper. 2018. Okuma S., Makino M., Miyakawa A., Nakatsuka T., Otsuka Y., Kudo S., Yanagida M., Sasaki T., Sugimori T. [Link to the page]


• 第137回（平成29年度秋季）学術講演会　優秀発表賞（ポスター）,　公益社団法人　物理探査学会. 2017. 江戸 将寿・馬塲 久紀,大熊 茂雄・住田 達哉・宮川 歩夢 [Link to the page]


• 優秀発表賞　資源・素材学会　関西支部．2006年．「付加体発達過程の透水性分布への影響（宮川歩夢, 三善孝之, 山田泰広, 松岡俊文）」


• 優秀講演賞　日本地質学会第１１３年学術大会．2006年．「付加体形成におけるデコルマ面の摩擦変化の影響:個別要素法による検討（宮川歩夢, 山田泰広, 松岡俊文）」

研究費等

• 学術変革領域研究(A)　公募研究, 2022 - 2023, 研究代表者 宮川 歩夢 「深部スロー地震発生域での地質構造・力学場に与える海山沈み込みの影響」


• 科研費　基盤研究(C), 2017 - 2019, 研究代表者 野田 篤 「前弧堆積盆の累積様式から島弧前縁のひずみ履歴を復元する手法の開発」


• 新学術領域研究(研究領域提案型), 2017 - 2018, 研究代表者 宮川 歩夢 「海溝型巨大地震の最大規模推定に資する地質構造の強度推定」


• 科研費　基盤研究(B), 2014 - 2017, 研究代表者 名和 一成 「重力・地震波の同時観測によるスロースリップ発生域の浅層地下水モニタリング」


• 日本学術振興会特別研究員　DC１, 平成２０年度, 「モデル実験による底づけ付加の再現と地層流体の移動特性の解明」