野田 篤 (Noda, Atsushi)

産総研
Last updated 2024.1.13
English page is here.
Reviewed articles
Noda, A., Graveleau, F., Witt, C., Chanier, F., and Vendeville, B., 2023 Accretion cycles, structural evolution, and thrust activity in accretionary wedges with various décollement configurations: Insights from sandbox analog modeling. Journal of Geophysical Research: Solid Earth, vol. 128, e2023JB027131, doi: 10.1029/2023JB027131.
Noda, A., Morimoto, K., Takahashi,K. U., Danhara, T., Iwano, H., and Hirata, T., 2023, Late Cretaceous–Paleogene terrestrial sequence in the northern Kitakami Mountains, Northeast Japan: Depositional ages, claymineral contents, and vitrinite reflectance. Island Arc, vol. 32, no. 1, e12500, doi: 10.1111/iar.12500.
Okuma, Y., Noda, A., Koge, H., Yamada, Y., and Yamaguchi, A., 2022, Surface friction of subducting seamounts influences deformation of the accretionary wedge. Tectonophysics, vol. 845, 229644, doi: 10.1016/j.tecto.2022.229644.
Noda, A., Greve, A., Woodhouse, A., and Crundwell, M., 2022, Depositional rate, grain size and magnetic mineral sulfidization in turbidite sequences, Hikurangi Margin, New Zealand. New Zealand Journal of Geology and Geophysics, doi: 10.1080/00288306.2022.2099910.
Chiang, C.-S., Yu, H.-S., Noda, A., and TuZino, T., 2022, The Huapinghsu Channel/Mienhua Canyon System as a sediment conduit transporting sediments from offshore north Taiwan to the southern Okinawa Trough. Frontiers in Earth Science, Marine Geoscience, vol. 9, doi: 10.3389/feart.2021.792595.
Miyakawa, A., Noda, A. and 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, vol. 9, no. 1, doi: 10.1186/s40645-021-00461-4.
Wakasugi, Y., Wakaki, S., Tanioka, Y., Ichino, K., Tsuboi, M., Asahara, Y., and Noda, A., 2020, A chronological and geochemical study of the Tadamigawa older-stage granites: igneous activity in the west of the Tanakura Tectonic Line (TTL) of northeastern Japan. Geochemical Journal, vol. 54, doi: 10.2343/geochemj.2.0603 (html).
Noda, A., Koge, H., Yamada, Y., Miyakawa, A., and Ashi, J., 2020, Subduction of trench-fill sediments beneath an accretionary wedge: Insights from sandbox analogue experiments. Geosphere, vol. 16, doi: 10.1130/GES02212.1 (html).
Barnes et al. (including Noda, A.), 2020, Slow slip source characterized by lithological and geometric heterogeneity. Science Advances, vol. 6 (13), eaay3314, doi: 10.1126/sciadv.aay3314 (html).
Noda, A., Koge, H., Yamada, Y., Miyakawa, A., and Ashi, J., 2020, Forearc basin stratigraphy resulting from syntectonic sedimentation during accretionary wedge growth: Insights from sandbox analogue experiments. Tectonics, vol. 39(3), e2019TC006033, doi: 10.1029/2019TC006033 (html).
高下裕章・野田 篤, 2020, クリティカルテイパーモデル:土質力学の基礎からの導入.地質調査研究報告, vol. 71 (1), p. 49–61, doi: 10.9795/bullgsj.71.49 (html).
Noda, A., Danhara, T., Iwano, H., and Hirata, T., 2020, LA-ICP-MS zircon U–Pb ages of felsic tuff beds in the Takikubo and Horita formations, Izumi Group, Ikeda district, eastern Shikoku, southwestern Japan. Bulletin of the Geological Survey of Japan, vol. 71 (1), p. 33–48, doi: 10.9795/bullgsj.71.33 (html).
Noda, A., 2018, Forearc basin stratigraphy and interactions with accretionary wedge growth according to the critical taper concept. Tectonics, vol. 37 (3), p. 965–988, doi: 10.1002/2017TC004744 (html).
Noda, A. and Sato, D., 2018, Submarine slope–fan sedimentation in an ancient forearc related to contemporaneous magmatism: The Upper Cretaceous Izumi Group, southwestern Japan. Island Arc, vol. 27 (2), e12240, doi: 10.1111/iar.12240 (html).
Noda, A., 2017, A new tool for calculation and visualization of U–Pb age data: UPbplot.py. Bulletin of the Geological Survey of Japan, vol. 68 (3), p. 131–140, doi: 10.9795/bullgsj.68.131 (html).
Noda, A., Danhara, T., Iwano, H., and Hirata, T., 2017, LA-ICP-MS U–Pb and fission-track ages of felsic tuff beds of the Takikubo Formation, Izumi Group in the Kan-onji district, eastern Shikoku, southwestern Japan. Bulletin of the Geological Survey of Japan, vol. 68 (3), p. 119–130, doi: 10.9795/bullgsj.68.119 (html).
野田 篤・栗原敏之, 2016, 四国東部観音寺地域の和泉層群から産出した後期白亜紀放散虫化石群集.地質調査研究報告, vol. 67 (4), p. 119–131, doi: 10.9795/bullgsj.67.119 (html).
Noda, A., 2016, Forearc basins: Types, geometries, and relationships to subduction zone dynamics. Geological Society of America Bulletin, vol. 128 (5–6), p. 879–895, doi: 10.1130/B31345.1 (html, 解説).
Heller, P.L., Ratigan, D., Trampush, S., Noda, A., McElroy, B., Drever, J., and Huzurbazar, S., 2015, Origins of bimodal stratigraphy in fluvial deposits: An example from the Morrison Formation (Upper Jurassic), western U.S.A. Journal of Sedimentary Research, vol. 85 (12), p. 1466–1477, doi: 10.2110/jsr.2015.93 (html).
Igarashi, Y., Yamamoto, M., Noda, A., Ikehara, K., Katayama, H, 2015, Deposition pattern and sources of palynomorphs on the continental margin off Hokkaido Island, northwest Pacific. Marine Geology, vol. 368, p. 58–65, doi: 10.1016/j.margeo.2015.06.008 (html).
Toyofuku, T., Duros, P., Fontanier, C., Mamo, B., Bichon, S., Buscail, R., Chabaud, G., Deflandre, B., Goubet, S., Grémare, A., Menniti, C., Fujii, F., Kawamura, K., Annika Koho, K., Noda, A., Namegaya, Y., Oguri, K., Radakovitch, O., Murayama, M., Jan de Nooijer, L., Kurasawa, A., Ohkawara, N., Okutani, T., Sakaguchi, A., Jorissen, F., Reichart, G.-J., and Kitazato, H., 2014, Unexpected biotic resilience on the Japanese seafloor caused by the 2011 Tōhoku-Oki tsunami. Scientific Reports, vol. 4, doi: 10.1038/srep07517 (html).
Ikehara, K., Ohkushi, K., Noda, A., Danhara, T. and Yamashita, T., 2013, A new local marine reservoir correction for the last deglacial period in the Sanriku region, northwestern North Pacific, based on radiocarbon dates from the Towada--Hachinohe (To-H) tephra. Daiyonki Kenkyu (The Quaternary Research), vol. 52 (4), p. 127–137, doi: 10.4116/jaqua.52.127 (html).
Noda, A., TuZino, T., Joshima, M., and Goto, S., 2013, Mass-transport-dominated sedimentation in a foreland basin, the Hidaka Trough, northern Japan. Geochemistry, Geophysics, Geosystems, vol. 14 (8), p. 2638–2660, doi: 10.1002/ggge.20169 (html).
Chiang, C.-S., Yu, H.-S., Noda, A., TuZino, T., Su, C.-C., 2012, Avulsion of the Fangliao submarine canyon off southwestern Taiwan as revealed by a morphological analysis and numerical simulation. Geomorphology, vol. 177–178, p. 26–37, doi: 10.1016/j.geomorph.2012.07.011 (html).
Ohta, T., Arai, H. and Noda, A., 2011, Tests for identifying the unchanging reference component of compositional data using the properties of the coefficient of variation. Mathematical Geosciences, vol. 43 (4), p. 421–434, doi: 10.1007/s11004-011-9332-y (html).
Noda, A. and TuZino, T., 2010, Shelf–slope sedimentation during the late Quaternary on the southwestern Kuril forearc margin, northern Japan. Sedimentary Geology, vol. 232 (1–2), p. 35–51, doi:10.1016/j.sedgeo.2010.09.008 (html, pdf [accepted authors' manuscript]).
野田 篤・利光 誠一・栗原 敏之・岩野 英樹, 2010, 愛媛県新居浜地域における和泉層群の層序と堆積年代.地質学雑誌, vol. 116 (2), p. 99–113,(html, 解説).
Ohta, A., Imai, N., Terashima, S., Tachibana, Y., Ikehara, K., Katayama, H. and Noda, A., 2010, Factors controlling regional spatial distribution of 53 elements in coastal sea sediments in northern Japan: Comparison of geochemical data derived from stream and marine sediments. Applied Geochemistry, vol. 25 (3), p. 357–376, doi: 10.1016/j.apgeochem.2009.12.003 (html).
TuZino, T. and Noda, A., 2010, Architecture and evolution of the Kushiro Submarine Canyon in the Kurile Trench Forearc Slope, Northwestern Pacific. Sedimentology, vol. 57 (2), p. 611–641, doi: 10.1111/j.1365-3091.2009.01107.x (html).
Noda, A., and Toshimitsu, S., 2009, Backward stacking of submarine channel-fan successions controlled by strike-slip faulting: the Izumi Group (Cretaceous), southwest Japan. Lithosphere, vol. 1 (1), p. 41–59, doi: 10.1130/L19.1 (html, pdf, 解説).
Noda, A., TuZino, T., Kanai, Y., Furukawa, R., and Uchida, J., 2008, Paleoseismicity along the southern Kuril Trench deduced from submarine-fan turbidites. Marine Geology, vol. 254 (1–2), p. 73–90, doi: 10.1016/j.margeo.2008.05.015 (html, pdf, 解説).
Noda, A., TuZino, T., Furukawa, R., Uchida, J., and Joshima, M., 2008, Physiographical and sedimentological characteristics of submarine canyons developed upon an active forearc slope: the Kushiro Submarine Canyon, northern Japan. Geological Society of America Bulletin, vol. 120 (5/6), p. 750–767, doi: 10.1130/B26155.1 (html, pdf, 解説).
Noda, A. and TuZino, T., 2007, Characteristics of sediments and their dispersal systems along the shelf and slope of an active forearc margin, eastern Hokkaido, northern Japan. Sedimentary Geology, vol. 201 (3–4), p. 341–364, doi: 10.1016/j.sedgeo.2007.07.002 (html, pdf, 解説).
Noda, A., Katayama, H., Sagayama, T., Suga, K., Uchida, Y., Satake, K., Abe, K., and Okamura, Y., 2007, Evaluation of tsunami impacts on shallow marine sediments: an example from the tsunami caused by the 2003 Tokachi-oki earthquake, northern Japan. Sedimentary Geology, vol. 200 (3–4), p. 314–327, doi: 10.1016/j.sedgeo.2007.01.010 (html, pdf, 解説).
TuZino, T. and Noda, A., 2007, Tectonic control over topography and channel sedimentation across the forearc slope of the southern Kurile Trench. Geo-Marine Letters, vol. 27 (1), p. 1–11, doi: 10.1007/s00367-006-0037-z (html).
Usui, T., Nagao, S., Yamamoto, M., Suzuki, K., Kudo, I., Montani, S., Noda, A., Minagawa, M., 2006, Distribution and sources of organic matter in surficial sediments on the shelf and slope off Tokachi, western North Pacific, inferred from C and N stable isotopes and C/N ratios. Marine Chemistry, vol. 98, 241–259, doi: 10.1016/j.marchem.2005.10.002 (html).
Noda, A., 2005, Texture and petrology of modern river, beach and shelf sands in a volcanic back-arc setting, northeastern Japan. The Island Arc, vol. 14, p. 687–707, doi: 10.1111/j.1440-1738.2005.00477.x (html, pdf [accepted authors' manuscript]).
Nagao, S., Usui, T., Yamamoto, M., Minagawa, M., Iwatsuki, T., and Noda, A., 2005, Combined use of Δ14C and δ13C values to trace transportation and deposition processes of terrestrial particulate organic matter in coastal marine environments. Chemical Geology, vol. 218, p. 63–72, doi: 10.1016/j.chemgeo.2005.01.025 (html).
Noda, A., Tsujino, T., Furukawa, R. and Yoshimoto, N., 2004, Character, provenance, and recurrence intervals of Holocene turbidites in the Kushiro Submarine Canyon, eastern Hokkaido forearc, Japan. The Memoirs of the Geological Society of Japan, no. 58, p. 123–135.
寺島 滋・今井 登・池原 研・片山 肇・野田 篤・太田充恒・岡井貴司・御子柴(氏家)真澄, 2004, 日本の沿岸堆積物中における生物・海水起源物質の地球化学的研究. 地質調査研究報告, vol. 55, p. 153–169, doi: 10.9795/bullgsj.55.153 (html).
竹内 誠・河合政岐・野田 篤・杉本憲彦・横田秀晴・小嶋 智・大野研也・丹羽正和・大場穂高, 2004, 飛騨外縁帯白馬岳地域のペルム系白馬岳層群の層序および蛇紋岩との関係. 地質学雑誌, vol. 110, p. 715–730, doi: 10.5575/geosoc.110.715 (html).
Noda, A., Takeuchi, M., and Adachi, M., 2004, Provenance of the Murihiku Terrane, New Zealand: evidence from the Jurassic conglomerates and sandstones in Southland. Sedimentary Geology, vol. 164, p. 209–228, doi: 10.1016/j.sedgeo.2003.10.003 (html).
Noda, A., Takeuchi, M., and Adachi, M., 2002, Fan deltaic-to-fluvial sedimentation of the Middle Jurassic Murihiku Terrane, Southland, New Zealand. New Zealand Journal of Geology and Geophysics, vol. 45, p. 297–312, doi: 10.1080/00288306.2002.9514975 (html).
Noda, A., Adachi, M., and Tsuboi, M., 2000, Alkali feldspar granite clasts from Jurassic conglomerate, Murihiku Terrane, South Island, New Zealand. The Journal of Earth and Planetary Sciences Nagoya University, vol. 47, p. 49–62 (html).
Geological map series
野田 篤・宮崎一博・水野清秀・長田充弘,2021,池田地域の地質.地域地質研究報告(5万分の1地質図幅).産総研地質調査総合センター,つくば.
山崎 徹・野田 篤・尾崎正紀,2020,明智地域の地質.地域地質研究報告(5万分の1地質図幅).産総研地質調査総合センター,つくば.
原 英俊・青矢睦月・野田 篤・田辺 晋・山崎 徹・大野哲二・駒澤正夫,2018,高知(第二版).20万分の1地質図幅,産総研地質調査総合センター,つくば.
野田 篤・植木岳雪・川畑 博・松浦浩久・青矢睦月,2017,観音寺地域の地質.地域地質研究報告(5万分の1地質図幅).産総研地質調査総合センター,つくば.
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,松山(第二版).20万分の1地質図幅,産総研地質調査総合センター,つくば.
青矢睦月・野田 篤・水野清秀・宮地良典・松浦浩久・水上知行・青木正博・利光誠一, 2013, 新居浜地域の地質.地域地質研究報告(5万分の1地質図幅).産総研地質調査総合センター,つくば.
野田 篤・片山 肇, 2013, 日高舟状海盆表層堆積図. 海洋地質図, no. 81 (CD), 産業技術総合研究所,地質調査総合センター, つくば.
野田 篤・片山 肇, 2011, 襟裳岬沖表層堆積図. 海洋地質図, no. 72 (CD), 産業技術総合研究所,地質調査総合センター, つくば.
野田 篤・片山 肇, 2011, 釧路沖表層堆積図. 海洋地質図, no. 71 (CD), 産業技術総合研究所,地質調査総合センター, つくば.
野田 篤・片山 肇, 2011, 落石岬沖表層堆積図. 海洋地質図, no. 70 (CD), 産業技術総合研究所,地質調査総合センター, つくば.
野田 篤・池原 研・片山 肇, 2009, 北見大和堆表層堆積図. 海洋地質図, no. 68 (CD), 産業技術総合研究所,地質調査総合センター, つくば.
Books
Utsunomiya, M., Noda, A., and Otsubo, M., in press, Preferential formation of a slide plane in translational submarine landslide deposits in a Pleistocene forearc basin fill exposed in east-central Japan. In: Lintern, D. G. et al. (eds.) Submarine Mass Movements and Their Consequences: Assessing Geohazards, Environmental Implications, Geological Society, London, Special Publications, vol. 477, doi: 10.1144/SP477.3.
Noda, A. and Miyakawa, A., 2017, Deposition and deformation of modern accretionary-type forearc basins: Linking basin formation and accretionary wedge growth. In: Itoh, Y. (ed.), Evolutionary Models of Convergent Margins: Origin of Their Diversity. InTech, Rijeka, Croatia, pp. 3–27, doi: 10.5772/67559 (html).
Noda, A., 2013, Strike-Slip Basins: Its Configuration and Sedimentary Facies. In: Itoh, Y. (ed.), Mechanism of Sedimentary Basin Formation: Multidisciplinary Approach on Active Plate Margins. InTech, Rijeka, Croatia, pp. 28–57, doi: 10.5772/56593 (html).
辻野 匠・野田 篤, 2010,「日本地方地質誌 北海道地方」9.3 海底地質 9.3.1 太平洋海域 b 中深海~深海の地質. 朝倉書店, pp 349–353.
野田 篤・辻野 匠, 2010, 「日本地方地質誌 北海道地方」9.2 海底地形 9.2.1 太平洋海域 b. 中深海~深海の地形. 朝倉書店, pp. 340–341.
今井 登・寺島 滋・太田充恒・御子柴真澄・岡井貴司・立花好子・池原 研・片山 肇・野田 篤・富樫茂子・松久幸敬・金井 豊・上岡 晃, 2010, 海と陸の地球化学図.産総研地質調査総合センター, 207p (homepage).
野田 篤, 2006, 堆積構造—フルートキャストとタービダイト—. 地球–図説アースサイエンス–, 誠文堂新光社, 東京, pp. 99.
野田 篤, 2006, グローバルな物質循環. 地球–図説アースサイエンス–, 誠文堂新光社, 東京, pp. 28–29.
Proceedings and others
Ohta, T., Arai, H. and Noda, A., 2011, Tests for identifying the unchanging reference component of compositional data using the properties of the coefficient of variation. Proceedings of CODAWORK 2011, The 4th Compositional Data Analysis Workshop, pp. 1–12 (html).
吉川 秀樹・野田 篤・七山 太, 2010, 産総研一般公開チャレンジコーナーC13「重力流による自然災害を実験で考えてみよう!」実施報告. 地質ニュース,no. 671, p. 30–33 (html).
野田 篤, 2010, タービダイトによる地震活動履歴の保存可能性. 月刊地球号外, no. 61, p. 14–25.
嵯峨山 積・片山 肇・野田 篤・内田 康人・2006, 北海道湧洞沼沖から採取されたシルト岩の年代と対比. 北海道立地質研究所報告, vol. 77, p. 83–86 (pdf).
目代 邦康・野田 篤・田村 亨・中澤 努・角井 朝昭・中島 礼・井上 卓彦・利光 誠一, 2006, 水と砂を使った地層・地形の実験. 地質ニュース, no. 627, p. 35–39 (html).
井川 敏恵・利光 誠一・中島 礼・兼子 尚知・坂野 靖行・角井 朝昭・辻野 匠・野田 篤・谷田部 信郎・目代 邦康・新津 節子・青木 正博, 2006, 地質標本館だより No.74: 第16回自分で作ろう!!化石レプリカ:新生代の巻貝化石ビカリア. 地質ニュース, no. 620, 64–67 (html).
中島 礼・中澤 努・利光 誠一・谷田部 信郎・兼子 尚知・磯部 一洋・田中 美穂・長森 英明・野田 篤, 2006, 野外観察会の企画と実践 参加者の声を活かそう. 子どもと自然学会誌, 3(1), p. 36–42.
田中 美穂・谷田部 信郎・磯部 一洋・長森 英明・野田 篤・中澤 努・中島 礼・利光 誠一, 2006, 地質標本館普及活動 2005年度野外観察会の報告: 古東京湾の地層と化石. 子どもと自然学会誌, 3(1), p. 105–110.
中島 礼・中澤 努・利光 誠一・谷田部 信郎・磯部 一洋・長森 英明・野田 篤・田中 美穂, 2006, 野外観察会の企画と実践 参加者の声を活かそう. 地質ニュース, no. 618, p. 40–41 (html).
田中 美穂・中島 礼・中澤 努・谷田部 信郎・磯部 一洋・長森 英明・野田 篤, 2006, 地質標本館2005年度野外観察会の様子—古東京湾の地層と化石・太古の渚で潮干狩り—. 地質ニュース, no. 618, p. 16–24 (html).
辻野 匠・山本 博文・片山 肇・村上 文敏・荒井 晃作・野田 篤・田村 亨・菅沼 悠介, 2005, 海洋地質調査法と成果: 京都府北方. 地質ニュース, no. 615, p. 54–59 (html).
井川 敏恵・利光 誠一・奥山 康子・兼子 尚知・中沢 努・坂野 靖行・野田 篤・中島 礼・谷田部 信郎・田代 寛・新津 節子・一作 コール・青木 正博, 2005, 地質標本館だより No.75 第14回自分で作ろう!!化石レプリカ. 地質ニュース, no. 612, p. 68–69 (html).
井川 敏恵・利光 誠一・奥山 康子・坂野 靖行・中沢 努・兼子 尚知・野田 篤・辻野 匠・中島 礼・谷田部 信郎・田代 寛・青木 正博, 2005, 地質標本館だより No.74: 第13回自分で作ろう!!化石レプリカ:白亜紀の魚類. 地質ニュース, no. 610, p. 61–62 (html).
荒井 晃作・棚橋 学・辻野 匠・野田 篤・田村 亨, 2005, 「海の底の調べ方」とグラブ採泥器模型によるマンガン団塊採取. 地質ニュース, no. 605, p. 26–28 (html).
野田 篤, 2005, 海底の地滑り地層から探る地震履歴. 産総研Today, vol. 5, no. 8, pp. 7 (html).
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