KIYOSUGI Koji(Graduate School of Science / Division of Planetology)

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KIYOSUGI Koji
Graduate School of Science / Division of Planetology
Associate Professor

Researcher basic information

■ Degree

Ph.D.

■ Research Areas

Natural sciences / Solid earth science

Research activity information

■ Paper

Report on the International Symposium “Submarine Caldera Volcanoes ─ The Cutting Edge of Our Understanding Achieved by Various Approaches ─” at Kobe and Post-conference Field Trip at Kagoshima in March 2024
Matsuno Tetsuo, Kiyosugi Koji, Nakaoka Reina, Yamamoto Yuzuru, Kaneko Katsuya, Ueki Kenta, Yamamoto Yojiro, Ito Aki, Suzuki-Kamata Keiko
The Volcanological Society of Japan, Dec. 2024, BULLETIN OF THE VOLCANOLOGICAL SOCIETY OF JAPAN, 69(4) (4), 223 - 228, Japanese
[Refereed]

Submarine cores record magma evolution toward a catastrophic eruption at Kikai Caldera
Takeshi Hanyu, Nobukazu Seama, Katsuya Kaneko, Qing Chang, Reina Nakaoka, Koji Kiyosugi, Yuzuru Yamamoto, Tetsuo Matsuno, Keiko Suzuki-Kamata, Yoshiyuki Tatsumi
Aug. 2024, Communications Earth & Environment, 5, 428
[Refereed]
Scientific journal

Submarine pyroclastic deposits from 7.3 ka caldera-forming Kikai-Akahoya eruption
Satoshi Shimizu, Reina Nakaoka, Nobukazu Seama, Keiko Suzuki-Kamata, Katsuya Kaneko, Koji Kiyosugi, Hikaru Iwamaru, Mamoru Sano, Tetsuo Matsuno, Hiroko Sugioka, Yoshiyuki Tatsumi
Elsevier BV, Apr. 2024, Journal of Volcanology and Geothermal Research, 448, 108017 - 108017
Scientific journal

Magmatic evolution leading to multiple calderagenic eruptions at Kikai volcano, Southwest Japan
Maria Luisa Tejada, Tomoki Sato, Bogdan Vaglarov, Reina Nakaoka, Yoshi Tatsumi, Takeshi Hanyu, Qing Chang, Kenta Ueki, Katsuya Kaneko, Keiko Suzuki-Kamata, Takashi Miyazaki, Iona McIntosh, Nobukazu Seama, Koji Kiyosugi, Osamu Ishizuka, Morihisa Hamada
Geochemical Society, 2024, Goldschmidt2024 abstracts
International conference proceedings

Evolution of magma supply system beneath a submarine lava dome after the 7.3-ka caldera-forming Kikai-Akahoya eruption
Morihisa Hamada, Takeshi Hanyu, Iona M. McIntosh, Maria Luisa G. Tejada, Qing Chang, Katsuya Kaneko, Jun-Ichi Kimura, Koji Kiyosugi, Takashi Miyazaki, Reina Nakaoka, Kimihiro Nishimura, Tomoki Sato, Nobukazu Seama, Keiko Suzuki-Kamata, Satoru Tanaka, Yoshiyuki Tatsumi, Kenta Ueki, Bogdan S. Vaglarov, Kenta Yoshida
Elsevier BV, Dec. 2022, Journal of Volcanology and Geothermal Research, 107738 - 107738, English
[Refereed]
Scientific journal

Detection and replenishment of missing data in marked point processes
Jiancang Zhuang, Ting Wang, Koji Kiyosugi
Oct. 2020, Statistica Sinica, 30(4) (4), 2105 - 2130, English
[Refereed]

Discovery of vestimentiferan tube worms from the Kikai Caldera off Satsuma Peninsula, Kagoshima, Japan
Hiroshi Miyake, Koji Kiyosugi
Sep. 2020, Biogeography, 22(1) (1), 1 - 5, English
[Refereed]
Scientific journal

Simulations of Tephra Fall Deposits From a Bending Eruption Plume and the Optimum Model for Particle Release
Kazutaka Mannen, Toshiaki Hasenaka, Atsushi Higuchi, Koji Kiyosugi, Yasuo Miyabuchi
Apr. 2020, Journal of Geophysical Research: Solid Earth, English
[Refereed]
Scientific journal

Bayesian modelling of marked point processes with incomplete records: volcanic eruptions
Ting Wang, Matthew Schofield, Mark Bebbington, Koji Kiyosugi
Jan. 2020, Journal of the Royal Statistical Society, 69(1) (1), 106 - 130, English
[Refereed]
Scientific journal

Evaluating Volcanic Hazard Risk Through Numerical Simulations
Eisuke Fujita, Yu Iriyama, Toshiki Shimbori, Eiichi Sato, Kensuke Ishii, Yujiro Suzuki, Kae Tsunematsu, Koji Kiyosugi
As volcanic hazards induce damage with their flows of gases, liquids, and solid materials, a numerical simulation using multi-phase formulation is applicable to the analysis and evaluation of the risks from these volcanic hazards in both normal and emergent periods. A numerical simulation can also be useful for crisis management. Quick and precise evaluation is needed for upcoming and ongoing hazards, and we present here a concept for the development of a volcanic hazard evaluation system for these hazards, a system in which an input parameter database is compiled and countermeasure information is provided by considering the exposure and vulnerability database.
Fuji Technology Press Ltd., Jun. 2019, Journal of Disaster Research, 14(4) (4), 604 - 615, English
[Refereed]
Scientific journal

三瓶火山溶岩ドームの形成過程
浅野一平, 五井健登, KIYOSUGI KOJI, SUZUKI KEIKO, TATSUMI YOSHIYUKI
日本火山学会, Jul. 2018, 火山, 63(2) (2), 19 - 32, Japanese
[Refereed]
Scientific journal
Link to Kobe Univ. Repository (Kernel)

Giant rhyolite lava dome formation after 7.3 ka supereruption at Kikai caldera, SW Japan
TATSUMI YOSHIYUKI, SUZUKI KEIKO, MATSUNO TETSUO, HIROSHI ICHIHARA, SEAMA NOBUKAZU, KIYOSUGI KOJI, NAKAOKA REINA, NAKAHIGASHI KAZUO, H. Takizawa, KAZUKI HAYASHI, TATSURO CHIBA, SHIMIZU SATOSHI, SANO MAMORU, IWAMARU HIKARU, MOROZUMI HARUHISA, SUGIOKA HIROKO, Y. Yamamoto
Kikai submarine caldera to the south of the Kyushu Island, SW Japan, collapsed at 7.3 ka during the latest supereruption (>500 km3 of magma) in the Japanese Archipelago. Multi functional research surveys of the T/S Fukae Maru in this caldera, including multi-beam echosounder mapping, remotely operated vehicle observation, multi-channel seismic reflection survey, and rock sampling by dredging and diving, provided lines of evidence for creation of a giant rhyolite lava dome (~32 km3) after the caldera collapse. This dome is still active as water column anomalies accompanied by bubbling from its surface are observed. Chemical characteristics of dome-forming rhyolites akin to those of presently active small volcanic cones are different from those of supereruption. The voluminous post-caldera activity is thus not caused simply by squeezing the remnant of syn-caldera magma but may tap a magma system that has evolved both chemically and physically since the 7.3-ka supereruption.
ネイチャー・ジャパン株式会社, Feb. 2018, Scientific Reports (Nature Publishing Group), 8(1) (1), 2753 - 2753, English, International magazine
[Refereed]
Scientific journal
Link to Kobe Univ. Repository (Kernel)

Recurrence rate and magma effusion rate for the latest volcanism on Arsia Mons, Mars
Jacob A. Richardson, James A. Wilson, Charles B. Connor, Jacob E. Bleacher, Koji Kiyosugi
Jan. 2017, EARTH AND PLANETARY SCIENCE LETTERS, 458, 170 - 178, English
[Refereed]
Scientific journal

How Many Explosive Eruptions are Missing from the Geologic Record? Analysis of the Quaternary Record of Large Magnitude Explosive Eruptions in Japan: recurrence rates, missing data and preservation of geological record of volcanism
KIYOSUGI KOJI, Charles Connor, Robert Stephen John Sparks, Helen Sian Crosweller, Sarah Krystyna Brown, Lee Siebert, Ting Wang, Shinji Takarada
Jul. 2015, Journal of Applied Volcanology, 4(17) (17), English
[Refereed]
Scientific journal

Characterisation of the Quaternary eruption record: Analysis of the Large Magnitude Explosive Volcanic Eruptions (LaMEVE) database
Sarah Krystyna Brown, Helen Sian Crosweller, Robert Stephen John Sparks, Elizabeth Cottrell, Natalia Irma Deligne, Natalie Ortiz Guerrero, Laura Hobbs, Koji Kiyosugi, Susan Clare Loughlin, Lee Siebert, Shinji Takarada
SpringerOpen, Dec. 2014, Journal of Applied Volcanology, 3(1) (1), English
[Refereed]
Scientific journal

Scoria cone formation through a violent Strombolian eruption: Irao Volcano, SW Japan
Koji Kiyosugi, Yoshiyuki Horikawa, Takashi Nagao, Tetsumaru Itaya, Charles B. Connor, Kazuhiro Tanaka
Lead, Springer Science and Business Media LLC, Jan. 2014, Bulletin of Volcanology, 76(1) (1), English
[Refereed]
Scientific journal

Global database on large magnitude explosive volcanic eruptions (LaMEVE)
Helen Sian Crosweller, Baneet Arora, Sarah Krystyna Brown, Elizabeth Cottrell, Natalia Irma Deligne, Natalie Ortiz Guerrero, Laura Hobbs, Koji Kiyosugi, Susan Clare Loughlin, Jonathan Lowndes, Martin Nayembil, Lee Siebert, Robert Stephen John Sparks, Shinji Takarada, Edward Venzke
Sep. 2012, Journal of Applied Volcanology volume, 1, English
[Refereed]
Scientific journal

Relationship between dike and volcanic conduit distribution in a highly eroded monogenetic volcanic field: San Rafael, Utah, USA
Koji Kiyosugi, Charles B. Connor, Paul H. Wetmore, Brian P. Ferwerda, Aurelie M. Germa, Laura J. Connor, Amanda R. Hintz
Aug. 2012, GEOLOGY, 40(8) (8), 695 - 698, English
[Refereed]
Scientific journal

Integrated geophysical and hydrothermal models of flank degassing and fluid flow at Masaya volcano, Nicaragua
S. C. P. Pearson, K. Kiyosugi, H. L. Lehto, J. A. Saballos, C. B. Connor, W. E. Sanford
May 2012, GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS, 13, English
[Refereed]
Scientific journal

Relationships between volcano distribution, crustal structure, and P-wave tomography: an example from the Abu Monogenetic Volcano Group, SW Japan
Koji Kiyosugi, C. B. Connor, D. Zhao, L. J. Connor, K. Tanaka
Lead, Springer Science and Business Media LLC, Apr. 2010, Bulletin of Volcanology, 72(3) (3), 331 - 340, English
[Refereed]
Scientific journal

■ MISC

Investigating the formation of the Kikai submarine lava dome using matrix glass volatile contents
MCINTOSH Iona, HAMADA Morihisa, HANYU Takeshi, TEJADA Maria Luisa, MIYAZAKI Takashi, CHANG Qing, VAGLAROV Bogdan, KANEKO Katsuya, KIYOSUGI Koji, NAKAOKA Reina, SUZUKI-KAMATA Keiko, SEAMA Nobukazu
2023, 日本地球惑星科学連合大会予稿集(Web), 2023

Isotopes and trace element constraints on magma sources and variability at Kikai Caldera, SW Japan
TEJADA M.L.G., HANYU T., MIYAZAKI T., HAMADA M., SATO T., SEAMA N., KANEKO K., NAKAOKA R., KIYOSUGI K., SUZUKI-KAMATA K., ISHIZUKA O.
2023, 日本火山学会講演予稿集, 2023 (Web)

Drilling on the submarine caldera wall of the Kikai Caldera
羽生毅, 宮崎隆, TEJADA M.L.G., 島伸和, 金子克哉, 中岡礼奈, 清杉孝司, 鈴木桂子, 清水賢, 西来邦章, 佐藤勇輝
2023, 日本火山学会講演予稿集, 2023 (Web)

Investigating the formation of the Kikai submarine lava dome using matrix glass volatile contents
MCINTOSH Iona, HAMADA Morihisa, HANYU Takeshi, TEJADA Maria Luisa, MIYAZAKI Takashi, CHANG Qing, VAGLAROV Bogdan, KANEKO Katsuya, KIYOSUGI Koji, NAKAOKA Reina, SUZUKI-KAMATA Keiko, SEAMA Nobukazu
2022, 日本地球惑星科学連合大会予稿集(Web), 2022

Evolution of magma plumbing system beneath a submarine caldera after the Akahoya eruption at Kikai volcano
浜田盛久, 羽生毅, MCINTOSH Iona M., TEJADA Maria Luisa G., CHANG Qing, 金子克哉, 木村純一, 清杉孝司, 宮崎隆, 中岡礼奈, 西村公宏, 佐藤智紀, 島伸和, 鈴木桂子, 田中聡, 巽好幸, 上木賢太, VAGLAROV Bogdan S.
2022, 日本火山学会講演予稿集, 2022

Chemical evolution of magma toward the catastrophic eruption at Kikai Caldera recorded in Chikyu SCORE tephra
Hanyu Takeshi, Chang Q., Kaneko Katsuya, Nakaoka Reina, Kiyosugi Koji, Suzuki―Kamata Keiko, Yamamoto Yuzuru, Matsuno Tetsuo, Seama Nobukazu, Tatsumi Yoshiyuki
Kikai submarine caldera caused several catastrophic eruptions. In order to understand the eruption processes and magmatic evolution, we measured chemical composition of tephra collected via the SCORE program with D/V Chikyu. We used submarine tephra from the K-Ah eruption (7300 years ago), that from the K-Tz eruption (95000 years ago), and that intercalated between the two catastrophic eruptions, the age of which is approximately 40000 years ago or younger. The tephra from the K-Tz eruption is predominated by felsic pyroclasts, but the presence of a few mafic pyroclasts suggests the contribution of mafic melts during the K-Tz eruption. The tephra intercalated between the two catastrophic eruptions have chemical composition similar to those of K-Ah, implying that the storage of felsic magmas commenced at least 40000 years ago toward the next catastrophic eruption of K-Ah.
GEOCHEMICAL SOCIETY OF JAPAN, 2022, Abstracts of Annual Meeting of the Geochemical Society of Japan, 69, 96, Japanese

Characteristics of Kikai caldera volcanic product revealed by seafloor drilling samples
Nakaoka Reina, Kaneko Katsuya, Seama Nobukazu, Suzuki Keiko, Kiyosugi Koji, Hanyu Takeshi, Yamamoto Yuzuru, Matsuno Tetsuo, Satoshi Shimizu, Sugioka Hiroko, Yoshiyuki Tatsumi
Kikai Caldera volcano has repeatedly erupted in large scale eruptions such as the Kikai Akahoya eruption 7,300 years ago and the Kikai Tozurahara eruption 95,000 years ago, and detailed eruption history can be studied by combining seafloor and on-land surveys.In this study, core samples were collected by the SCORE program of CHIKYU based on the subsurface structure revealed by seismic reflection surveys of large eruptive ejecta on the seafloor, which are still largely unknown.The chemical composition of the volcanic glass was analyzed and compared with subaerial deposits, and it was found that the two large-scale eruptive ejecta are thickly deposited on the seafloor as well, and that the Kikai Akahoya product is divided into two units on the seafloor as well.In addition, the chemical compositional characteristics of volcanic glass in piston core samples from a wide area around the Kikai caldera suggest that the Kikai Akahoya product may have become less accessible to distant sites as the eruption progressed.
GEOCHEMICAL SOCIETY OF JAPAN, 2022, Abstracts of Annual Meeting of the Geochemical Society of Japan, 69, 95, Japanese

薩摩硫黄島硫黄岳における火砕流堆積物の地質学的研究に基づくリスク評価
清杉孝司
深田地質研究所, 2018, 「深田研究助成」研究報告 / 深田地質研究所 [編], 61 - 67, Japanese

Frequency of volcanic eruptions in sub-regions in Japan
KIYOSUGI KOJI
海洋出版株式会社, Aug. 2017, 号外地球, 68(68) (68), 121 - 126, Japanese

■ Lectures, oral presentations, etc.

堆積物量の推定に対する降灰堆積物の侵食の影響: 新燃岳2011年噴火噴出物での例
清杉孝司
日本火山学会 2024年度秋季大会, Oct. 2024, Japanese
Poster presentation

Characteristics of the Kikai-Akahoya and Kikai-Tozurahara eruption deposits from submarine cores
Nakaoka R., Suzuki K., Kaneko K., Seama N., Kiyosugi K., Yamamoto Y., Matsuno T., Hanyu T., Shimizu S., Tatsumi Y.
日本火山学会 2024年度秋季大会, Oct. 2024, Japanese, The Volcanological Society of Japan
Poster presentation

鬼界カルデラの海底カルデラ壁で掘削したボーリングコアの岩相と岩石磁気学的特徴
西来邦章, 佐藤勇輝, 羽生毅, 宮崎隆, Tejada Maria Luis, 上木賢太, 臼井洋一, 金子克哉, 清杉孝司, 鈴木桂子, 中岡礼奈, 長谷川, 岡田誠
日本地球惑星科学連合2024年大会, May 2024, Japanese
Poster presentation

7300年前の鬼界アカホヤ噴火以降の海底溶岩ドーム直下のマグマ供給系の進化（続編）
浜田盛久, 羽生毅, マッキントシュアイオナ, テハダマリアルイザ, 金子克哉, 木村純一, 清杉孝司, 宮崎隆, 中岡礼奈, 西村公宏, 佐藤智紀, 島伸和, 鈴木桂子, 田中聡, 巽好幸, 上木賢太, ヴァグラロフボグダン, 吉田健太
日本地球惑星科学連合2024年大会, May 2024, Japanese
Oral presentation

Preservation of tephra fallout deposits: An example of the about 10-year-old deposits of the 2011 eruption of Shinmoe-dake volcano, Japan
清杉孝司
日本地球惑星科学連合2024年大会, May 2024, English
Poster presentation

Tracing the Kikai volcano evolution from geochemical surveys of subaerial and submarine deposits
Maria Luisa Tejada, Takeshi Hanyu, Takashi Miyazaki, Morihisa Hamada, Qing Chang, Tomoki Sato, Iona McIntosh, Kenta Ueki, Bogdan Vaglarov, Nobukazu Seama, Katsuya Kaneko, Reina Nakaoka, Koji Kiyosugi, Keiko Suzuki-Kamata, Yoshi Tatsumi, Osamu Ishizuka
日本地球惑星科学連合2024年大会, May 2024, English
Poster presentation

Erosion of tephra fallout deposits: An example of the about 10-year-old fallout deposits of the 2011 eruption of Shinmoe-dake volcano, Japan
Koji Kiyosugi
American Geophysical Union (AGU) Fall Meeting 2023, English
Poster presentation

Flow and deposition mechanism of the Koya pyroclastic flow based on analysis of terrestrial and submarine deposits
Asada Takashi, Kiyosugi Koji
PROGRAMME AND ABSTRACTS THE VOLCANOLOGICAL SOCIETY OF JAPAN, 2023, Japanese, The Volcanological Society of Japan
Poster presentation

Investigation of preservation of ash-fall deposit of the 2011 eruptions of Shinmoe-dake volcano, Japan
Kiyosugi Koji
PROGRAMME AND ABSTRACTS THE VOLCANOLOGICAL SOCIETY OF JAPAN, 2023, Japanese, The Volcanological Society of Japan
Poster presentation

Investigation of the preservation of the ash-fall deposit of the 2011 eruptions of Shinmoe-dake volcano, Japan
Kiyosugi Koji
Annual Meeting of the Geological Society of Japan, 2023, Japanese, The Geological Society of Japan, 火砕堆積物の地質調査は過去の噴火を解明し，将来の噴火推移予測や火山噴火リスク評価を可能とする．一方で地質学的に明らかにされた噴火記録の数は過去に遡るほど急激に減少している（Kiyosugi et al., 2015）．例えば地球全体の噴火記録の約40％を占める日本の噴火の内，最近10万年間の中規模（火山爆発指数4）の噴火について見ると，約90％の噴火記録が失われている．また，世界の噴気記録の消失は日本噴気記録の消失の約8倍であると推定される（Kiyosugi et al., 2015）．噴火記録の消失の主要な地質学的要因（浸食や埋没など）の進行のプロセスと時間スケールを明らかにするため，噴火直後に火砕物分布が詳細に調査された霧島火山新燃岳2011年噴火（VEI３）の降下火砕堆積物を対象に火砕堆積物の浸食の程度を調査した．新燃岳2011年噴火によって噴出した降下火砕堆積物の噴火直後の産状や粒径はMiyabuchi et al (2013)やWhite et al（2017）に報告されている．噴火直後に堆積物の層厚が測定されている地点を中心に野外調査を行い，現在も確認できる堆積物の産状や層厚の記載を行った．市街地などでは噴火後に降下火砕物の除去作業などが行われている場合があるため，できるだけ人手の入らない草地などを中心に調査を行った．調査の結果，以下の３つの領域と，その領域に2011年時点で堆積していた堆積物の特徴が明らかになった．・初生堆積物の分布する領域：産状がMiyabuchi et al (2013)の記載と整合的であったり（特に火口から約3.5kmの範囲で顕著），層厚が厚く連続的で明瞭であったり，堆積環境から考えて堆積物の二次的な流出や流入が考えにくいといった特徴が見られる堆積物を初生堆積物とした．こうした堆積物は比較的火口に近い山地・山林に分布し，落ち葉などに覆われていることが多い．降下火砕堆積物全体の分布の主軸方向に見た時，初生堆積物は約18km以内の範囲に分布している．初生堆積物が残っている地点は,もともとの層厚が約２㎝以上で中央粒径が約1㎜以上の堆積物であった地点である（図１）．・二次堆積物の分布する領域：構成粒子の種類が様々であったり，土壌が混じっていたり，土壌中に不連続に分布したりする等の特徴がある堆積物，および2011年時点の層厚よりも現時点での層厚が厚くなっている堆積物を二次堆積物とした．これらは山地や平野に分布しており，堆積物分布全体の主軸方向に見た時，約22km以内の範囲に分布している．・堆積物の見られない領域：火口から約22km以遠では二次堆積物などの噴火の痕跡も見られなくなる．これらの地点は平野に分布しており，農地や市街地となっている地域が多い．また，これらの地点は2011年時点で堆積物の層厚約1㎝以下，中央粒径約1㎜以下であった地点がほとんどであるが，当時1.8㎝の堆積物（中央粒径約0.7㎜）が見られた地点でも堆積物の痕跡が無い場合が見られた（図１）．以上の結果は，降下火砕物が地質記録として地層中に保存されるための条件（層厚と粒径分布）を知る上で重要な一事例と言える．引用文献 Kiyosugi, K. et al. (2015) How Many Explosive Eruptions are Missing from the Geologic Record? Analysis of the Quaternary Record of Large Magnitude Explosive Eruptions in Japan: recurrence rates, missing data and preservation of geological record of volcanism. Journal of Applied Volcanology, 4, 17. Miyabuchi, Y., Hanada, D., Niimi, H., & Kobayashi, T. (2013) Stratigraphy, grain‐size and component characteristics of the 2011 Shinmoedake eruption deposits, Kirishima Volcano, Japan. Journal of Volcanology and Geothermal Research, 258, 31–46. White, J. T., Connor, C. B., Connor, L., & Hasenaka, T. (2017) Efficient inversion and uncertainty quantification of a tephra fallout model. J. Geophys. Res. Solid Earth, 122, 281–294, doi:10.1002/2016JB013682.
Poster presentation

7300年前の鬼界アカホヤ噴火以降の海底溶岩ドーム直下マグマ供給系の進化
浜田盛久, 羽生毅, Iona McIntosh, Maria Luisa Tejada, Qing Chang, 金子克哉, 木村純一, 清杉孝司, 宮崎隆, 中岡礼奈, 西村公宏, 佐藤智紀, 島伸和, 鈴木桂子, 田中聡, 巽好幸, 上木賢太, Bogdan Vaglarov, 吉田健太
日本地球惑星科学連合2023年大会, May 2023
Keynote oral presentation

Investigating the formation of the Kikai submarine lava dome using matrix glass volatile contents
Iona McIntosh, Morihisa Hamada, Takeshi Hanyu, Maria Luisa Tejada, Takashi Miyazaki, Qing Chang, Bogdan Vaglarov, Katsuya Kaneko, Koji Kiyosugi, Reina Nakaoka, Keiko Suzuki-Kamata, Nobukazu Seam
日本地球惑星科学連合2023年大会, May 2023
Poster presentation

鬼界海底カルデラにおけるアカホヤ噴火以降のマグマ供給系進化
浜田盛久, 羽生毅, Iona McIntosh, Maria Luisa Tejada, 宮崎隆, 上木賢太, Bogdan Vaglarov, 佐藤智紀, 木村純一, 田中聡, 金子克哉, 清杉孝司, 中岡礼奈, 西村公宏
日本鉱物科学会2022年年会・総会, Sep. 2022
Oral presentation

Frequency of volcanic eruptions and long-term magma discharge rate in sub-regions in Japan
Koji Kiyosugi
日本地球惑星科学連合2022年大会, May 2022
Poster presentation

Investigation of subaerial and submarine deposits of pyroclastic density currents: A case study at Kikai volcano, SW Japan
清杉孝司, 出口翔太, 金子克哉, 鈴木桂子, 中岡礼奈, 清水賢, 島伸和, 巽好幸, 羽生毅
日本地球惑星科学連合2022年大会, May 2022
Oral presentation

Investigating the formation of the Kikai submarine lava dome using matrix glass volatile contents
Iona McIntosh, Morihisa Hamada, Takeshi Hanyu, Maria Luisa Tejada, Takashi Miyazaki, Qing Chang, Bogdan Vaglarov, Katsuya Kaneko, Koji Kiyosugi, Reina Nakaoka, Keiko Suzuki-Kamata, Nobukazu Seam
日本地球惑星科学連合2022年大会, May 2022
Oral presentation

Chemical evolution of magma toward the catastrophic eruption at Kikai Caldera recorded in Chikyu SCORE tephra
Hanyu Takeshi, Chang Q., Kaneko Katsuya, Nakaoka Reina, Kiyosugi Koji, Suzuki―Kamata Keiko, Yamamoto Yuzuru, Matsuno Tetsuo, Seama Nobukazu, Tatsumi Yoshiyuki
Abstracts of Annual Meeting of the Geochemical Society of Japan, 2022, Japanese, GEOCHEMICAL SOCIETY OF JAPAN, Kikai submarine caldera caused several catastrophic eruptions. In order to understand the eruption processes and magmatic evolution, we measured chemical composition of tephra collected via the SCORE program with D/V Chikyu. We used submarine tephra from the K-Ah eruption (7300 years ago), that from the K-Tz eruption (95000 years ago), and that intercalated between the two catastrophic eruptions, the age of which is approximately 40000 years ago or younger. The tephra from the K-Tz eruption is predominated by felsic pyroclasts, but the presence of a few mafic pyroclasts suggests the contribution of mafic melts during the K-Tz eruption. The tephra intercalated between the two catastrophic eruptions have chemical composition similar to those of K-Ah, implying that the storage of felsic magmas commenced at least 40000 years ago toward the next catastrophic eruption of K-Ah.

The paleomagnetic record of the lava flows effused during the opening stage of the Sea of Japan: examples in the Hokutan Group, Tango Peninsula, western Honshu, Japan
NAGASAKA Tomoka, KIYOSUGI Koji, SUZUKI Keiko, NAKAOKA Reina, MIKI Masako
Annual Meeting of the Geological Society of Japan, 2022, Japanese, The Geological Society of Japan, はじめに 西南日本は日本海拡大初期（19-18Ma）に回転を伴わずに大陸から分裂・ドリフトし，18-16Maのある時期に約40° 回転して現在の位置に移動したと考えられている[1；2]．これらのテクトニクスのアプローチと共に，そこに噴出するマグマの性質や関連性を明らかにする第一歩として，日本海拡大初期に噴出した玄武岩を含む北但層群八鹿累層と，西南日本の時計回り回転時に形成された北但層群豊岡累層（共に京都府北部丹後半島に分布）の，古地磁気方位測定及び全岩化学組成の分析を行った． 地質概要 八鹿累層は20-17Ma[3]のピクライト質玄武岩～安山岩溶岩と火砕岩からなり，このピクライト質玄武岩は日本海拡大初期に形成されたと考えられている[4]．古地磁気方位はSakamoto[5]により測定されているが，溶岩のクリンカー部を測定しているためかサイト平均にばらつきが見られる．豊岡累層は，下位は溶岩層，上位は堆積層[3]で形成され，丹後半島では不規則な割れ目の入った流紋岩質の塊状溶岩が観察された．また堆積層には15Maの中新統に見られる動物化石群を含む[6]．豊岡累層の古地磁気方位測定結果は，下位の溶岩層が偏角D＝23.8° を示し，上位の堆積岩層の偏角がほぼ北向きを示すことから，西南日本の時計回り回転を記録していると考えられている[6]．ただしIshikawa et al.[6]で示された回転量は，[1]による西南日本の総回転量である約40° と比較するとかなり小さい．手法本研究では，八鹿累層の塊状溶岩3露頭と豊岡累層の塊状溶岩2露頭から，それぞれ8-10個のサンプルを採取し，段階熱消磁実験による古地磁気方位測定を行った．また同試料を用いて全岩化学組成分析も行った．古地磁気方位測定は，神戸大学のスピナー磁力計 (夏原技研製SMM-85)を用い，段階熱消磁実験にはTDS-1を使用した．全岩化学組成分析は，神戸大学の蛍光Ｘ線分析装置（リガク製ZSX Primus II）を用い，主成分と微量元素の測定を行った． 古地磁気方位測定結果 八鹿累層は，走向傾斜を得られていないため傾動補正を行っていないが，得られた平均古地磁気方位は下位から上位にかけて偏角D＝36.3°, 35.9°, 24.0° と東偏から北偏へ変化していた．伏角はI=68.2°，15.1°，57.5° が得られた．豊岡累層は，同地域に分布する豊岡累層の砂礫層から得られた走向傾斜（N16°E, 9°E）を用いて傾動補正を行い，下位から偏角D＝40.5°, 33.0°，伏角I＝70.4°, 14.7° を得られた．豊岡累層の古地磁気方位の結果は，現在の磁北の位置より東偏であり，先行研究で得られている古地磁気方位の結果[6]と整合的である． 全岩化学組成分析結果 八鹿累層の3露頭から得られた溶岩の全岩化学組成及び微量元素の測定結果は，下位の溶岩で約50-52 wt％のSiO₂量を示し，上位の溶岩で約58 wt％のSiO₂量を示した．またピクライト質玄武岩ではNb値に強い負の異常が見られた．これは石渡, 今坂[4]と整合的である．豊岡累層下位の2露頭から得られた全岩化学組成及び微量元素の結果は，SiO₂量が約68-76 wt% の非アルカリ性のデイサイトから流紋岩を示し，こちらも先行研究[3]と一致する結果が得られた．議論本研究において，豊岡累層から得られた古地磁気方位測定の結果は，Ishikawa et al.[6]が測定した豊岡累層の溶岩の古地磁気方位（D=23.8°）より大きな東偏を示した．このことから，本研究で測定した豊岡累層は，Ishikawa et al.[6]が調査を行った豊岡累層の溶岩よりも下位の層に相当すると考えられる．また傾動補正を行っていないものの，八鹿累層の古地磁気方位測定結果からも偏角に変動の兆候が見られた．このことは，八鹿累層が日本海拡大初期のみならず，西南日本の時計回り回転も記録している可能性があることを示す．古地磁気方位を物差しとした溶岩層序の再検討を行うことで，テクトニクスに対応したマグマ組成の変遷を明らかにできる可能性がある．引用文献１．Otofuji, Y. 1996, Isl, Arc 5, 229-249. ２．星博幸 2018, 地質雑 124, 675-691. ３．山元孝広, 星住英夫 1988, 地質雑 94, 769-781. ４．石渡明, 今坂美絵 2002, 地質雑 108, 671-684. ５．Sakamoto, M. 1992, J Geomag. Geoelectr., 44, 55-63. ６．Ishikawa, N., et al. 2017, Evolutionary Models of Convergent Margins Origin of Their Diversity Edited by Itoh, Y. 155-176.
Poster presentation

Characteristics of Kikai caldera volcanic product revealed by seafloor drilling samples
Nakaoka Reina, Kaneko Katsuya, Seama Nobukazu, Suzuki Keiko, Kiyosugi Koji, Hanyu Takeshi, Yamamoto Yuzuru, Matsuno Tetsuo, Satoshi Shimizu, Sugioka Hiroko, Yoshiyuki Tatsumi
Abstracts of Annual Meeting of the Geochemical Society of Japan, 2022, Japanese, GEOCHEMICAL SOCIETY OF JAPAN, Kikai Caldera volcano has repeatedly erupted in large scale eruptions such as the Kikai Akahoya eruption 7,300 years ago and the Kikai Tozurahara eruption 95,000 years ago, and detailed eruption history can be studied by combining seafloor and on-land surveys.In this study, core samples were collected by the SCORE program of CHIKYU based on the subsurface structure revealed by seismic reflection surveys of large eruptive ejecta on the seafloor, which are still largely unknown.The chemical composition of the volcanic glass was analyzed and compared with subaerial deposits, and it was found that the two large-scale eruptive ejecta are thickly deposited on the seafloor as well, and that the Kikai Akahoya product is divided into two units on the seafloor as well.In addition, the chemical compositional characteristics of volcanic glass in piston core samples from a wide area around the Kikai caldera suggest that the Kikai Akahoya product may have become less accessible to distant sites as the eruption progressed.
Invited oral presentation

Evolution of magma plumbing system beneath a submarine caldera after the Akahoya eruption at Kikai volcano
Hamada Morihisa, Hanyu Takeshi, McIntosh Iona M., Tejada Maria Luisa G., Chang Qing, Kaneko Katsuya, Kimura Jun-Ichi, Kiyosugi Koji, Miyazaki Takashi, Nakaoka Reina, Nishimura Kimihioro, Sato Tomoki, Seama Nobukazu, Suzuki-Kamata Keiko, Tanaka Satoru, Tatsumi Yoshiyuki, Ueki Kenta, Vaglarov Bogdan S.
PROGRAMME AND ABSTRACTS THE VOLCANOLOGICAL SOCIETY OF JAPAN, 2022, Japanese, The Volcanological Society of Japan
Oral presentation

鬼界海底カルデラにおける物質科学的研究の現状
清杉孝司, 巽好幸, 鈴木桂子, 金子克哉, 中岡礼奈, 山本由弦, 清水賢, 島伸和, 松野哲男, 菊池瞭平, 山口寛登, 羽生毅
海と地球のシンポジウム2021, Dec. 2021
Invited oral presentation

鬼界海底カルデラ火山の溶岩ドーム流紋岩質マグマの温度・圧力の推定
浜田盛久, 羽生毅, 宮崎隆, Maria L. G. Tejada, 上木賢太, Bogdan S. Vaglarov, Iona McIntosh, 常青, 鈴木桂子, 金子克哉, 清杉孝司, 中岡礼奈
日本火山学会 2021年度秋季大会, Oct. 2021, Japanese
Oral presentation

鬼界カルデラ火山のマグマ変化－ちきゅうSCORE試料より
羽生毅, 常青, 金子克哉, 鈴木桂子, 中岡礼奈, 清杉孝司, 山本由弦, 松野哲男, 島伸和, 巽好幸
日本火山学会 2021年度秋季大会, Oct. 2021, Japanese
Oral presentation

降下火砕堆積物分布の継時変化:新燃岳2011年噴火の例
清杉孝司
日本火山学会 2021年度秋季大会, Oct. 2021, Japanese
Poster presentation

An emplacement mechanism of submarine pyroclastic products: insight form the seismic studies on Kikai caldera
Satoshi Shimizu, Nobukazu Seama, Reina Nakaoka, Keiko Suzuki-Kamata, Koji Kiyosugi, Katsuya Kaneko, Tetsuo Matsuno, Yoshiyuki Tatsumi
Japan Geoscience Union Meeting 2021, Jun. 2021
Oral presentation

Comparison of subaerial and submarine deposits from the Kikai Akahoya eruption
Reina NAKAOKA, Keiko Suzuki-Kamata, Satoshi Shimizu, Katsuya Kaneko, Nobukazu Seama, Koji Kiyosugi, Takeshi Hanyu, Yoshiyuki Tatsumi, Leg, Cruise Scientists, Cruise Scientists, K, Cruise Scientists
Japan Geoscience Union Meeting 2021, Jun. 2021
Oral presentation

Drilling of Kikai caldera volcano for elucidation of magma plumbing system and flow-deposition processes of large ignimbrite
Katsuya Kaneko, Takeshi Hanyu, Reina Nakaoka, Koji Kiyosugi, Nobukazu Seama, Tetsuo, Matsuno, Yojiro Yamamoto, Tomoko Hanyu
Japan Geoscience Union Meeting 2021, Jun. 2021
Oral presentation

鬼界海底カルデラ火山の地質岩石学的研究の進捗状況-溶岩ドーム流紋岩質マグマの温度・圧力の推定を中心として-
浜田盛久, 羽生毅, 宮崎隆, TEJADA Maria L. G., 上木賢太, VAGLAROV Bogdan S., MCINTOSH Iona, 常青, 鈴木桂子, 金子克哉, 清杉孝司, 中岡礼奈
海と地球のシンポジウム発表課題一覧・要旨集(CD-ROM), 2021

阿武単成火山群におけるマグマ組成の空間分布
于賢洋, 清杉孝司, 伊藤靖子, 巽好幸
日本地球惑星科学連合2020年大会
Poster presentation

Preliminary report of marine sediments drilled and cored by D/V Chikyu at Kikai volcano, SW Japan
Koji Kiyosugi, Yoshiyuki Tatsumi, Keiko Suzuki-Kamata, Katsuya Kaneko, Reina NAKAOKA, Yuzuru Yamamoto, Takeshi Hanyu, Satoshi Shimizu, Nobukazu Seama, Tetsuo Matsuno, Ryohei Kikuchi, Hiroto Yamaguchi
日本地球惑星科学連合2020年大会
Poster presentation

鬼界カルデラにおける一連の巨大噴火に伴う火砕堆積物の地震探査層序と分布
清水賢, 中岡礼奈, 島伸和, 羽入朋子, 鈴木桂子, 清杉孝司, 金子克哉, 松野哲男, 井和丸光, 羽生毅, 阿部俊輔, 岡本信行, 巽好幸
日本地球惑星科学連合2020年大会
Oral presentation

An overview of volcanic rocks from submarine Kikai Caldera
Takeshi Hanyu, Nobukazu Seama, Satoru Tanaka, Yoshiyuki Tatsumi, Shunsuke Abe, Morihisa Hamada, Tomoko Hanyu, Hikaru Iwamaru, Souko Kado, Katsuya Kaneko, Ryohei Kikuchi, Koji Kiyosugi, Tetsuo Matsuno, Iona McIntosh, Takashi Miyazaki, Reina NAKAOKA, Nobuyuki Okamoto, Taiki Orii, Satoshi Shimizu, Tsuyoshi Shintani, Keiko Suzuki-Kamata, Maria Luisa Tejada, Kenta Ueki, Bogdan Stefanov Vaglarov
日本地球惑星科学連合2020年大会
Oral presentation

鬼界海底巨大カルデラ火山における二重カルデラ形成過程の解明-新青丸KS-19-17航海概要報告-
島伸和, 清杉孝司, 中岡礼奈, 松野哲男, 金子克哉, 清水賢, 鈴木桂子, 岡本信行, 羽入朋子, 井和丸光, 阿部俊輔, 佐野守, 木村純一, 杉岡裕子, 巽好幸, 羽生毅, 新谷毅, 益田晴恵, 亀尾桂, 沖野郷子, 榎正憲, 石塚治
海と地球のシンポジウム発表課題一覧・要旨集(CD-ROM), 2020
Oral presentation

Risk analysis of small pyroclastic density current: a case study at Iwo-dake volcano in Satsuma-Iwojima island, SW Japan
Koji Kiyosugi, Reina Nakaoka, Keiko Suzuki-Kamata
American Geophysical Union(AGU) Fall Meeting 2019, Dec. 2019, English
Poster presentation

Flow and depositional processes of the Koya Pyroclastic Flow formed by the Kikai caldera-forming eruption at 7.3 ka
Reina Nakaoka, Keiko Suzuki-Kamata, Satoshi Shimizu, Nobukazu Seama, Katsuya Kaneko, Koji Kiyosugi, Tetsuo Matsuno, Yoshiyuki Tatsumi
American Geophysical Union(AGU) Fall Meeting 2019, Dec. 2019, English
Oral presentation

幸屋火砕流の発生・流動様式
鈴木桂子,中岡礼奈,清杉孝司,清水賢,井和丸光,松野哲男,島伸和,巽好幸
日本火山学会2019年度秋季大会, Sep. 2019, Japanese
Oral presentation

鬼界アカホヤ噴火におけるフェルシックマグマの成因
西村公宏,巽好幸,木村純一,常青,鈴木桂子,金子克哉,清杉孝司,中岡礼奈,林和輝
日本火山学会2019年度秋季大会, Sep. 2019, Japanese
Oral presentation

阿多火砕流堆積物中の粗粒岩相の流動堆積機構
里和玲伊,鈴木桂子,中岡礼奈,清杉孝司
日本火山学会2019年度秋季大会, Sep. 2019, Japanese
Poster presentation

バイオレントストロンボリ噴火により形成されたスコリア丘の堆積物：阿武単成火山群伊良尾火山の例
清杉孝司,太田岳洋
日本火山学会2019年度秋季大会, Sep. 2019, Japanese
Poster presentation

鬼界カルデラ・アカホヤ噴火の水中火砕流の分布
Satoshi Shimizu, Nobukazu Seama, Reina Nakaoka, Tetsuo Matsuno, Koji Kiyosugi, Hikaru Iwamaru, Mamoru Sano, Kimihiro Nishimura, Keiko Suzuki-Kamata, Katsuya Kaneko, Hiroto Yamaguchi, Misaki Horiuchi, Toki Hirose, Kazuki Hayashi, Yoshiyuki Tatsumi
Japan Geoscience Union Meeting 2019, May 2019, Japanese, Makuhari Messe, Chiba, Domestic conference
Oral presentation

Identification of submarine volcanic ash around the Kikai caldera with the Koya pyroclastic flow deposit inferred from glass composition
Reina Nakaoka, Keiko Suzuki-Kamata, Satoshi Shimizu, Yoshiyuki Tatsumi, Katsuya Kaneko, Koji Kiyosugi, Nobukazu Seama, Tetsuo Matsuno, Kimihiro Nishimura, Kazuki Hayashi
Japan Geoscience Union Meeting 2019, May 2019, Japanese, Makuhari Messe, Chiba, Domestic conference
Oral presentation

Summary of Kikai submarine caldera researches conducted by KOBEC(Kobe Ocean-Bottom Exploration Center)
Nobukazu Seama, Tetsuo Matsuno, Koji Kiyosug, Satoshi Shimizu, Reina Nakaoka, Keiko Suzuki-Kamata, Yasutomo Seto, Mamoru Sano, Yuiko Morita, Hikaru Iwamaru, Haruhisa Morozumi, Misaki Horiuchi, Kimihiro Nishimura, Hiroshi Ichihara, Kazuki Hayashi, Toki Hirose, Katsuya Kaneko, Hiroto Yamaguchi, Yuki Okizono, Hiroko Sugioka, Kazuo Nakahigashi, Yojiro Yamamoto, Tatsuya Koda, Shuichi Kodaira, Yoshiyuki Tatsumi, Scientific Party of T, S Fukae-maru, Kikai caldera, research cruises
Japan Geoscience Union Meeting 2019, May 2019, Japanese, Makuhari Messe, Chiba, Domestic conference
Oral presentation

Preliminary report of the sea floor survey by a remotely operatedvehicle (ROV) at the Kikai caldera, SW Japan
Koji Kiyosugi, Keiko Suzuki-Kamata, Haruhisa Morozumi, Yoshiyuki Tatsumi, Katsuya Kaneko, Reina Nakaoka, Mamoru Sano, Satoshi Shimizu, Hikaru Iwamaru, Nobukazu Seama, Tetsuo Matsuno, Kimihiro Nishimura, Kazuki Hayashi, Misaki Horiuchi
Japan Geoscience Union Meeting 2019, May 2019, Japanese, Makuhari Messe, Chiba, Domestic conference
Oral presentation

日本の沈み込み帯における噴火頻度の推定
清杉孝司
日本火山学会2018年度秋季大会, Sep. 2018, Japanese, 秋田大学手形キャンパス, Domestic conference
Poster presentation

Estimation of frequency of volcanic eruptions at subduction zones in Japan
KIYOSUGI KOJI
Japan Geoscience Union Meeting 2018, May 2018, Japanese, Makuhari Messe, Chiba, Domestic conference
Poster presentation

The significance of the surface excavation in the Kikai caldera, southern Kyushu
Keiko Suzuki-Kamata, Yoshiyuki Tatsusmi, Kouji Kiyosugi, Reina Nakaoka, Nobukazu Seama, Tetsuo Matsuno, Satoshi Shimizu, Mamoru Sano, Hikaru Iwamaru
Japan Geoscience Union Meeting 2018, May 2018, English, Makuhari Messe, Chiba, International conference
Oral presentation

Integrated marine investigations of Kikai Caldera, SW Japan
Tetsuo Matsuno, Yoshiyuki Tatsumi, Nobukazu Seama, Keiko Suzuki-Kamata, Hiroshi Ichihara, Koji Kiyosugi, Reina Nakaoka, Satoshi Shimizu, Mamoru Sano, Hikaru Iwamaru, Haruhisa Morozumi, Hiroko Sugioka, Kazuo Nakahigashi, Yojiro Yamamoto, Kazuki Hayashi, Kimihiro Nishimura, Yuka Furukawa, Misaki Horiuchi, Daichi Nakata, Ryoto Nakamura, Hirose Toki, Yasutomo Seto, Atsuhiro Oshige, Hideaki Takizawa, Tatsuro Chiba, Shuichi Kodaira
Japan Geoscience Union Meeting 2018, May 2018, Japanese, Makuhari Messe, Chiba, Domestic conference
Oral presentation

Generation of voluminous felsic magma in 7.3ka Kikai-Akahoya eruption
Kimihiro Nishimura, Yoshiyuki Tatsumi, SUZUKI KEIKO, Junichi Kimura, CHANG Qing, KIYOSUGI KOJI, Reina Nakaoka, Kazuki Hayashi
Japan Geoscience Union Meeting 2018, May 2018, Japanese, Makuhari Messe, Chiba, Domestic conference
Oral presentation

Frequency of volcanic eruptions and long-term magma discharge rate in sub-regions in Japan
KIYOSUGI KOJI
IAVCEI 2017, Aug. 2017, English, Portland, Oregon, U.S.A, International conference
Poster presentation

日本の異なる沈み込み帯における噴火の頻度と長期的マグマ噴出率の推定
KIYOSUGI KOJI
JpGU-AGU Joint Meeting 2017, May 2017, Japanese, 幕張メッセ, International conference
Poster presentation

日本の噴火記録の時空間的不均一性
KIYOSUGI KOJI
日本地球惑星科学連合2016年大会, May 2016, Japanese, 幕張メッセ, Domestic conference
Poster presentation

Frequency of volcanic eruptions in sub-regions in Japan
Kiyosugi Koji
PROGRAMME AND ABSTRACTS THE VOLCANOLOGICAL SOCIETY OF JAPAN, 2016, Japanese, The Volcanological Society of Japan
Poster presentation

Effects of vertical diffusivity and plume shape on the inversion analysis of tephra fallout deposits
KIYOSUGI KOJI, 小屋口剛博, 鈴木雄治郎
日本地球惑星科学連合, May 2015, Japanese, 幕張メッセ, Domestic conference
Oral presentation

新燃岳2011年噴火による噴煙柱の粒子離脱量垂直変化(中間報告)
萬年一剛, 長谷中利昭, 宮縁育夫, 清杉孝司
日本火山学会講演予稿集, 2014, Japanese, The Volcanological Society of Japan
Poster presentation

Effects of source conditions, vertical diffusivity and spatial resolution of wind data on simulation results based on the tephra-tracking model PUFF : a case study from the Kirishima 2011 eruption
Kiyosugi Koji, Koyaguchi Takehiro
Programme and abstracts the Volcanological Society of Japan, Oct. 2012, Japanese, Volcanological Society of Japan
Poster presentation

P32 Eruptive History of Irao Volcano, Abu Volcano Group, SW Japan (part 1) : Stratigraphy and Characteristics of the newly-discovered Volcanic Products
HORIKAWA Yoshiyuki, NAGAO Takashi, KIYOSUGI Koji
PROGRAMME AND ABSTRACTS THE VOLCANOLOGICAL SOCIETY OF JAPAN, 2008, Japanese, The Volcanological Society of Japan
Poster presentation

B09 Geology and petrology of Kuroshima Volcano in Fukue Volcano Group, SW Japan : a preliminary report
HORIE Tomonori, NAGAO Takashi, HORIKAWA Yoshiyuki, KIYOSUGI Koji
PROGRAMME AND ABSTRACTS THE VOLCANOLOGICAL SOCIETY OF JAPAN, 2007, Japanese, The Volcanological Society of Japan
Oral presentation

P-194 Characterization of distribution of monogenetic volcanoes : Case studies on the Abu and Yokota Monogenetic Volcanic Groups
KIYOSUGI Koji, TANAKA Kazuhiro
Annual Meeting of the Geological Society of Japan, 2004, Japanese, The Geological Society of Japan
Poster presentation

Geological studies on the Abu Monogenetic Volcanic Group : Characterization of temporal-spatial variations in volcanic activity
KIYOSUGI Koji, TANAKA Kazuhiro
Annual Meeting of the Geological Society of Japan, 2003, Japanese, The Geological Society of Japan
Poster presentation

■ Research Themes

噴火の痕跡はどのように失われて行くのか？：経過時間と地質環境の異なる噴火の比較
清杉孝司
日本学術振興会, 科学研究費助成事業, 基盤研究(C), 神戸大学, 01 Apr. 2024 - 31 Mar. 2029

噴火の痕跡はどのように失われて行くのか？：地質学的プロセスと時間スケールの解明
清杉孝司
日本学術振興会, 科学研究費助成事業, 若手研究, 神戸大学, 01 Apr. 2020 - 31 Mar. 2024
本研究の目的は，火砕堆積物の産状の経時変化を調査し，浸食や埋没，風化の進行のプロセスや時間スケールを明らかにすることである．これらを明らかにすることによって地質調査で得られたデータ（火砕堆積物の分布面積や体積，噴火の回数，給源）に関して堆積物の年代を踏まえた精度の検討が可能となる．今年度（2021年度）４月30日から５月７日にかけて霧島火山において火砕堆積物の浸食量・埋没量・風化の調査を行った．これは昨年度に計画していたものの，新型コロナウィルスの感染拡大防止のため実施できなかった調査である．調査では噴火直後に堆積物の層厚が測定されている地点を中心に現在も確認できる堆積物の産状や層厚の記載を行った．調査の結果を，2011年噴火の降下火砕物の分布軸（火口から南東方向）に沿った変化に着目して記述する．まず，噴火当初の堆積物が明瞭に残っているのは火口からの距離約8km以内である．これらの地点は，2011年時点で数㎝以上の層厚が確認された地点がほとんどである．これより遠方では一部に初生的な堆積物が残るが，火口から約18km以遠になると２次堆積物（おおよそ厚さ１㎝～数㎝）しか見られなくなる．これらの地点は，2011年時点に数㎜～数㎝の堆積物層厚であった地点がほとんどである．さらに火口から約22km以遠では２次堆積物などの噴火の痕跡も見られなくなる．これらの地点は，2011年時点で堆積物の層厚が数㎜であった地点がほとんどであるが，当時1.8㎝の堆積物が見られた地点でも堆積物の痕跡が無い場合が見られた．これらの結果は，浸食による火砕堆積物の消失が，堆積物の当初の層厚が浸食に耐えられるほど厚かったかどうかに規定されることを示唆している．

Elucidation of magma plumbing system beneath caldera volcanoes on the basis of comparative studies on three caldera volcanoes in Kyushu, Japan
金子克哉, 羽生毅, 谷健一郎, 中岡礼奈, 清杉孝司, 鈴木桂子, 巽好幸, 木村純一
Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Grant-in-Aid for Scientific Research (A), Kobe University, 01 Apr. 2019 - 31 Mar. 2024
カルデラ火山は，大陸地殻を持つ火山帯に普遍的に存在し，大量の大規模珪長質マグマを生産・噴出し，広範囲に壊滅的な被害をもたらすこともある．加えて，地球科学の基本問題である大陸地殻の形成と進化に直接関わっており重要な研究対象である． 2021年度でも引き続き，九州の阿蘇，姶良，鬼界の3つのカルデラ火山のマグマ発生に関わる岩石学的，地球科学的研究を行うとともに，それらの研究により得られたデータから噴火現象に関わる火山学的な検討も行った．阿蘇火山では，噴出物斑晶中のメルトインクルージョンの分析を主として行い，これまで得られていたメルトインクルージョンに基づくマグマの多様性を整理し，結論として阿蘇のマグマは，熱源となったマントルで生成したマグマと下部地殻溶融のマグマの2種類が本質であることを明らかにした．さらに，熱源マグマの水量が多いこと，また，大量の珪長質マグマの起源物質である下部地殻は含水量が少ないことを明らかにした．姶良火山では，噴出物の同位体組成および微量元素組成の分析を主として行い，珪長質マグマが生成した下部地殻の岩石学的条件を明らかにするとともに，噴出に直接かかわった浅部マグマ溜まりでの地殻同化過程を明らかにした．また，3万年前の大規模噴火後にマグマ供給系の条件が大きく変化したことを明らかにした．鬼界火山では，7300年前の大規模噴火の海底化の火砕流分布を岩石学的研究と地震学的研究から明らかにし，精密な体積見積もりを行い，先研究で見積もられた倍の海底火砕流堆積物が存在していたことを明らかにした．また，3回の大規模噴火の毎に，マグマ供給系が大きく変わり，大規模噴火が終了するとマグマの性質が変化し，次の大規模噴火のマグマ性質へと変化する可能性が明らかになった．

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KIYOSUGI KojiGraduate School of Science / Division of PlanetologyAssociate Professor

Researcher basic information

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KIYOSUGI Koji
Graduate School of Science / Division of Planetology
Associate Professor