1)金正賢, 浅野仁, 本間宏樹, 井上忠, 山田孝, 笠井美青, 南里智之, 丸谷知己. 2019. 北海道十勝岳美瑛川の大正泥流流下・堆積区域における流木残存・流失実態, 砂防学会誌 72(3): 4-10.

2)Mio Kasai, Takashi Yamada. 2019. Topographic effects on frequency–size distribution of landslides triggered by the Hokkaido Eastern Iburi Earthquake in 2018, Earth, Planets and Space 71.

3)笠井美青. 2019. 地表粗度指標を用いた最適化ホットスポット分析による活動的な地すべり斜面の抽出, 日本地すべり学会誌 56(3) 15-23.

4)小山内信智, 海堀正博, 山田孝, 笠井美青, 林真一郎, 桂真也, 古市剛久, 柳井清治, 竹林洋史, 藤浪武史, 村上泰啓, 伊波友生, 佐藤創, 中田康隆, 阿部友幸, 大野宏之, 武士俊也, 田中利昌, 小野田敏, 本間宏樹, 柳井一希, 宮崎知与, 上野順也, 早川智也, 須貝昂平. 2019. 平成30年北海道胆振東部地震による土砂災害, 砂防学会誌 71(5): 54-65.

5)丸谷知己, 黒木幹男, 笠井美青. 2019. 北海道のダム堆砂速度から見た流域スケールでの土砂生産量の変化, 地形 40(1) 93-104.

6)Kasai, M, Aoki, D, Peacock, D, Marutani, T. 2019. Channel evolution controlled by valley configuration during 70 years in a severely erosive catchment: Mangaoporo River, New Zealand, Catena 174C: 324-338.

7)Osanai, N., Yamada, T., Hayashi, S., Katsura, S., Furuichi, T., Yanai, S., Murakami, Y., Miyazaki, T., Tanioka, Y., Takiguchi, S., and Miyazaki, M. 2019. Characteristics of landslides caused by the 2018 Hokkaido Eastern Iburi Earthquake. Landslides 16(8): 1517-1528, doi: 10.1007/s10346-019-01206-7

8)井良沢道也，松尾新二朗，新井瑞穂，海堀正博，鄒青穎，山田孝，笠井美青，厚井高志，加藤誠章，若原妙子，檜垣大助，池田一，石川芳治，荒井建一，広瀬伸二，佐藤達也，川端秀樹，講武学，丹羽諭，菅原和宏，松坂裕之，多田信之，金俊之. 2020. 2019年10月台風第19号による東北地方における土砂災害，砂防学会誌，72(6): 42-53.

9)今日出人, 栗田悟, 矢部育夫, 久加朋子. 2019. 道内建設業の業務継続計画（BCP）に関する現状と課題点－北海道胆振東部地震を経験して－，土木学会安全問題討論会‘19

10)Landon Kamps, Shota Hirai, Kazuhito Sakurai, Tor Viscor, Yuji Saito, Raymond Guan, Hikaru Isochi, Naoto Adachi, Mitsunori Itoh, Harunori Nagata. 2020. Investigation of Graphite Nozzle Erosion in Hybrid Rockets Using O2/HDPE, Journal of Propulsion and Power, accepted (Feb 3, 2020).

11)Kodai Komizu, Yuji Saito, Ayumu Tsuji and Harunori Nagata, 2020. “Experimental Investigation of the Continuous Transition of Flame-Spreading near the Blow-off Limit”, Journal of Combustion, accepted (6th Jan. 2020).

12)Gotoh, R., Totani, T., Wakita, M., Nagata, H. 2019. Controlling heat release of crystallization from supercooling state of a solid-solid PCM, 2-amino-2-methyl-1,3-propanediol. International Journal of Heat and Mass Transfer 137, 1132?1140. https://doi.org/10.1016/j.ijheatmasstransfer.2019.03.151

13)君野正弥, 勇齋藤士, 奥谷勇士, 津地歩, 添田建太郎, 永田晴紀. 2019. 端面燃焼式ハイブリッドロケットの推力制御時におけるヒステリシス特性に関する研究, 日本航空宇宙学会論文集, vol. 67, no. 4, pp. 119-125.

14)Kamps, L., Sakurai, K., Saito, Y., Nagata, H., 2019. Comprehensive Data Reduction for N2O/HDPE Hybrid Rocket Motor Performance Evaluation. Aerospace 6, 45. https://doi.org/10.3390/aerospace6040045

15)Yuji Saito, Masaya Kimino, Ayumu Tuji, Yushi Okutani, Kentaro Soeda, and Harunori Nagata, 2019. High Pressure Fuel Regression Characteristics of Axial-Injection End-Burning Hybrid Rockets, Journal of Propulsion and Power 35(2): 328-341.　http://dx.doi.org/10.2514/1.B37135

16)Narita, S., Murakami, M. & Tanaka, R. 2019. Quantitative relationship between plume emission and multiple deflations after the 2014 phreatic eruption at Ontake volcano, Japan. Earth Planets Space 71, 145. https://doi.org/10.1186/s40623-019-1124-5．

17)Katsuyama, Y., M. Inatsu, and T. Shirakawa, 2020. Response of snowpack to +2°C global warming in Hokkaido, Japan. Journal of Glaciology, 66: 83–96.

18)Tamaki, Y., M. Inatsu, and T. J. Yamada, 2019. Possible hydrological effect of rainfall duration bias in dynamical downscaling. Hydrological Research Letters, 13: 55–61.

19)Inatsu, M., T. Suematsu, Y. Tamaki, N. Nakano, K. Mizushima, and M. Shinohara, 2019. Development of pressure-precipitation transmitter. Journal of Applied Meteorology and Climatology, 58: 2453–2468.

20)Aikawa, T., M. Inatsu, N. Nakano, and T. Iwano, 2019. Mode-decomposed equation diagnosis for atmospheric blocking development. Journal of the Atmospheric Sciences, 76: 3151–3167.

21)角田叡亮, 岡田成幸, 中嶋唯貴. 2019. 少子高齢化現象が地震津波複合災害の人的被害に与える影響評価　～自助・共助・公助による減災対策効果の限界～, 日本地震工学会論文集、Vol.19、No.5: pp.423-439.

22)篠田茜, 岡田成幸, 中嶋唯貴. 2020. 繰り返し荷重を受ける木造建物の損傷度重畳問題の取り組み：耐震法典劣化の確率評価を用いた後続地震による2次被害シミュレーション, 日本地震工学会論文集、Vol.19、pp.19 （掲載決定）.

23)田中健貴，小竹利明，菅原寛明，木下篤彦，小川内良人，藤原美波. 2019. 14C年代測定による深層崩壊発生頻度推定手法の検討と適用，河川技術論文集，Vol. 25

1)Yongrae KIM，Takashi YAMADA: Experimental study of physical measures against subsequent sediment flow following debris flow deposition. International Journal of erosion control engineering, Vol 13, No.3, pp.56-63, 2021

2)Shui Yamaguchi, Mio Kasai: Incorporating ground cracks in the estimation of post-seismic landslide susceptibility, Proceedings of GEOMORPHOMETRY 2020 Conference 166 – 169, 2020

3)Michiya IRASAWA, Takashi KOI, Ching-Ying TSOU, Nobuaki KATO, Shinjiro MATSUO, Mizuho ARAI, Masahiro KAIBORI, Takashi YAMADA, Mio KASAI, Taeko WAKAHARA, Daisuke HIGAKI, Hajime IKEDA, Yoshiharu ISHIKAWA, Kenichi ARAI, Shinji HIROSE, Tatsuya SATO, Hideki KAWATABATA, Manabu KOUBU, Satoshi NIWA, Kazuhiro SUGAWARA, Hiroyuki MATSUSAKA, Nobuyuki TADA: October 2019 Sediment Disaster in the Tohoku Region owing to Typhoon No. 19 (Tyhpoon Hagibis), International Journal of Erosion Control Engineering 13(2) 48 – 55, 2020

4)柳井 一希, 笠井 美青： WOE法及びロジスティック回帰法による和歌山県那智川流域における表層崩壊危険度分布，日本地すべり学会誌 57(3) 90 – 98，2020年

5)厚井高志，権田豊：溶岩流による火山災害とその対策の方向性－キラウエア２０１８年噴火時の溶岩流出実態とその対応を踏まえて－，砂防学会誌 73(6) 27 – 38，2021年

6)Takashi Koi, Yasuhiro Fujisawa, Nobuo Anyoji. Rainfall-Induced Lahar Occurrences Shortly After Eruptions and Its Initiation Processes in Japan, In: Guzzetti F., Mihalić Arbanas S., Reichenbach P., Sassa K., Bobrowsky P.T., Takara K. (eds) Understanding and Reducing Landslide Disaster Risk. WLF 2020. ICL Contribution to Landslide Disaster Risk Reduction. Springer, Cham. 359 – 364, 2021

7)厚井高志, 長井義樹, 菊井稔宏, 小林拓也, 大野宏之, 城ヶ崎正人, 野呂智之, 水野秀明, 田中淳：平成29年7月九州北部豪雨における土砂移動現象の時空間分布の推定と避難実態，砂防学会誌 73(3) 54 – 59，2020年

8)梶原伴樹、筒井和男、﨑山朋紀、岸畑明宏、坂口隆紀、木下篤彦、柴田俊、松澤真、田中健貴：コアストーンが分布する斜面の水文特性に関する研究，河川技術論文集，vol.26，pp.573-576，2020年

9)海原荘一・浅原　裕・木下篤彦・中谷洋明・田中健貴：高感度地震観測網による大規模土砂移動発生時の地盤振動特性と検知，砂防学会誌，第73巻５号，pp.27-37，2020年

10)林幸一郎・小松慎二・窪田安打・木下篤彦・小竹利明・山田拓・柴田俊・田中健貴：重力変形斜面における降雨と岩盤内地下水の水位変動および水質変化の関係，第10回土砂災害に関するシンポジウム，pp.13-18，2020年

11)田中健貴・木下篤彦・小竹利明・山田拓・柴田俊・窪田安打・小松慎二・林幸一郎：重力変形斜面における地下水の水質変化に岩盤からの溶出イオンが与える影響，第10回土砂災害に関するシンポジウム，pp.25-30，2020年

12)海原荘一・只熊典子・髙田隆行・木下篤彦・柴田俊・小竹利明・山田拓・田中健貴：紀伊半島大水害で発生した深層崩壊斜面下流における蛇行度及び川幅と河床変動の関係，第10回土砂災害に関するシンポジウム，pp.37-42，2020年

13)竹本大昭・海原荘一・木下篤彦・田中健貴：超過確率年を用いた土砂災害警戒避難基準雨量の有効性，第10回土砂災害に関するシンポジウム，pp. 169-174，2020年

14)松永一慶，桂真也：多数の短期・長期降雨指標を用いた平成28年熊本地震後の土砂移動現象発生時の降雨規模評価，第10回土砂災害に関するシンポジウム論文集，p.7-12，2020年

15)桂真也：融雪土砂災害に対する融雪を考慮した土砂災害警戒情報の適用性の検討，第10回土砂災害に関するシンポジウム論文集，p.187-192，2020年

16)Toshiya Aoki, Shin’ya Katsura, Takahiko Yoshino, Takashi Koi, Yasutaka Tanaka, Takashi Yamada: Pressure Head Dynamics on a Natural Slope in Eastern Iburi Struck by the 2018 Hokkaido Earthquake Understanding and Reducing Landslide Disaster Risk, Vol.5 Catastrophic Landslides and Frontiers of Landslide Science, p.81-86, 2021

17)泉典洋，前田健一，岡村未対：簡易なモデルを用いた複層状堤防周辺地盤の浸透流解析，土木学会論文集B1（水工学），Vol.76，No.2，pp.l_325-l_330，2020.11.

18)岩佐 隆広, 二階堂 竜司, 平間 史泰, 田所 壮也, 飯島 直己, 西藤 浩二, 吉川 契太郎, 中津 隆文, 熊谷 直哉, 水野 雄三, 山下 俊彦, 木村 克俊, 加藤 史訓, 平井 康幸：高天端人工リーフの水理特性に関する検討，土木学会論文集B2(海岸工学) 76 巻 2 号 p. I_757-I_762，2020年

19)今日出人・久加朋子・戸嶋光映・松原寛：低平地・千歳川流域における近郊農業の発展と北海道総合開発計画による河川水位・地下水位・土壌湿潤特性の長期変化に関する研究，水文・水資源学会誌，33, pp.98-110, 2020年

20)今日出人・久加朋子・橋場雅弘・土田宏一・西山典志・瀧川憲・杉山拓大・清水康行：電波不感地域における雨量・水位・氾濫情報提供システム開発とハビウ川における検証の試み, 土木学会論文集B1(水工学), 76, pp.I_415-I_420, 2020年

21)Ayumu Tsuji, Yuji Saito, Landon Kamps, Masashi Wakita, Harunori Nagata: Stabilized combustion of circular fuel duct with liquid oxygen, Proceedings of the Combustion Institute, 2020年7月

22)Yuji Saito, Landon Kamps, Ayumu Tsuji, Masashi Wakita, Hiroyuki Koizumi, Keisuke Asai, Harunori Nagata: Initial Firing Tests of Aluminum Rod/Water Hybrid Rockets, AIAA Propulsion and Energy 2020 Forum, 1 – 11, 2020年8月

23)Eduardo Narvaez, Ankit A. Ravankar, Abhijeet Ravankar, Takanori Emaru, Yukinori Kobayashi: Autonomous VTOL-UAV Docking System for Heterogeneous Multi-Robot Team, IEEE Transaction of Instrumentation and Measurement, pp. 1-28 (2020), DOI: 10.1109/TIM.2020.3039649, IF=3.658.

24)Ankit A. Ravankar, Abhijeet Ravankar, Takanori Emaru, Yukinori Kobayashi: Line Segment Extraction and Polyline Mapping for Mobile Robots in Indoor Structured Environments Using Range Sensors, SICE Journal of Control, Measurement, and System Integration, Vol.13, No.3, pp. 138-147 (2020), DOI: 10.9746/jcmsi.13.138, TC=4.

25)Hidenori Ogawa, Yukinori Kobayashi, Takanori Emaru: Relative positioning control of flexible structure for precise positioning stage, JSME Mechanical Engineering Journal, Vol.7, No.2 (2020), DOI: 10.1299/mej.19-00443.

26)Ankit A. Ravankar, Abhijeet Ravankar, Takanori Emaru, Yukinori Kobayashi, HPPRM: Hybrid Potential Based Probabilistic Roadmap Algorithm for Improved Dynamic Path Planning of Mobile Robots, IEEE Access, Vol.8, pp. 221743-221766 (2020), DOI: 10.1109/ACCESS.2020.3043333, IF=3.745.

27)Subramanian, S. S., Fan, X., Yunus, A.P., van Asch, T., Scaringi, G., Xu, Q., Dai, L., Ishikawa, T., Huang, R. : A sequentially coupled catchment-scale numerical model for snowmelt-induced soil slope instabilities, Journal of Geophysical Research: Earth Surface, 125(5): 1-23, 2020.4. （10.1029/2019JF005468）

28)Zhu Y., Ishikawa, T., Subramanian, S. S., Luo, B.: Simultaneous analysis of slope instabilities on a small catchment-scale using coupled surface and subsurface flows, Engineering Geology, 275: 105750, 2020.7. （10.1016/j.enggeo.2020.105750）

29)Nguyen, B.T., Ishikawa, T., Murakami, T.: Effects evaluation of grass age on hydraulic properties of coarse-grained soil, Transportation Geotechnics, 25: 100401, 2020.7.（10.1016/j.trgeo.2020.100401）

30)Yang, J., Ishikawa, T., Lin, T., Tokoro, T., Nakamura, T., Momoya, Y.: Influence of aging on hydro-mechanical behavior of unsaturated ballast, Transportation Geotechnics, 27: 100480, 2021.1.（10.1016/j.trgeo.2020.100480）

31)Zhu Y., Ishikawa, T., Subramanian, S. S., Luo, B.: Early warning system for rainfall and snowmelt induced slope failure in seasonally cold regions, Soils and Foundations, 61(1): 198-217, 2021.1. （10.1016/j.sandf.2020.11.009）

32)Zhu, Y., Ishikawa, T., Subramanian, S. S.: Simulation of runoff and infiltration using iterative cross-coupled surface and subsurface flows, Japanese Geotechnical Society Special Publication (8th Japan-China Geotechnical Symposium), Vol. 8, No. 3, pp.41-46, 2020.9.（10.3208/jgssp.v08.j13）

33)Nishimura, S., Sasahara, K., Ishikawa, T.: Effect of snow cover evolution on p ore water pressure behaviour in embankments and cut slopes: Field observations, Japanese Geotechnical Society Special Publication (8th Japan-China Geotechnical Symposium), Vol. 8, No. 8, pp. 288-293, 2020.9.（10.3208/jgssp.v08.j07）

34)Shohei Narita, Taku Ozawa, Yosuke Aoki, Masanobu Shimada, Masato Furuya, Youichiro Takada & Makoto Murakami: Precursory ground deformation of the 2018 phreatic eruption on Iwo-Yama volcano, revealed by four-dimensional joint analysis of airborne and spaceborne InSAR. Earth Planets Space 72, 145 (2020). https://doi.org/10.1186/s40623-020-01280-5

35)Yamada, T., A. K. Kurokawa., A. Terada., W. Kanda., H Ueda., H. Aoyama., T. Ohkura., Y. Ogawa., T. Tanada: Locating hydrothermal fluid injection of the 2018 phreatic eruption at Kusatsu-Shirane volcano with volcanic tremor amplitude, Earth, Planets and Space, 73(1), 14, 2021.

36)Tanioka, Y.: Improvement of near-field tsunami forecasting method using ocean-bottom pressure sensor network (S-net), Earth Planets Space, 2020, doi:10.1186/s40623-020-01268-1

37)Katsuyama, Y., and M. Inatsu: Advantage of volume scanning video disdrometer in solid-precipitation observation. Scientific Online Letters on the Atmosphere, 17，35–40. 2021

38)Sugawara, K., M. Inatsu, S. Shimoda, K, Murakami, and T. Hirota: Risk assessment and possible adaptation of potato production in Hokkaido to climate change using a large number ensemble climate dataset d4PDF. Scientific Online Letters on the Atmosphere, in press. 2021

39)Inatsu, M., R. Yoshida, S. Karino, S. Takeuchi, and S. Kobayashi: A high-resolution prediction system for birch pollen in Sapporo. Agricultural and Forest Meteorology, 29, 108229. 2021

40)Kawazoe, S., M. Inatsu, T. J. Yamada, and T. Hoshino: Climate change impacts on heavy snowfall in Sapporo with 5-km mesh large ensemble simulations, Scientific Online Letters on the Atmosphere, 16, 233–239. 2020

41)Inatsu, M., S. Tanji, and Y. Sato: Toward predicting expressway closures due to blowing snow events. Cold Region Science and Technology, 177, 103–123. 2020

42)Katsuyama, Y., and M. Inatsu: Fitting precipitation particle size-velocity data to mixed joint probability density function with the expectation maximization algorithm. Journal of Atmosphere and Ocean Technology, 37, 911–925. 2020

43)Katsuyama, Y., M. Inatsu, and T. Shirakawa: Response of snowpack to +2°C global warming in Hokkaido, Japan. Journal of Glaciology, 66, 83–96. 2020

44)大久保光・中嶋唯貴・岡田成幸：地震時室内状況把握のためのリアルタイム音情報解析，地域安全学会論文集，37，1-9，2020.11.

1)横地　穣・関本幸一・井上　京：泥炭地に敷設された農業用管水路の不同沈下の実態, 農業農村工学会論文集, No.341 (90-1), pp. I_45-I_52, doi.org/10.11408/jsidre.90.I_45. 2022

2)Hidenori Takahashi, Koichi Yamamoto, Takashi Inoue: Chapter 19: Principles of Hydrological Management of Tropical Peatland Tropical Peatland Eco-management Editors: Mitsuru Osaki, Nobuyuki Tsuji, Nazir Foead, Jack Rieley Publisher: Springer Singapore Print ISBN: 978-981-334-653-6 Electronic ISBN: 978-981-334-654-3

3)Shui Yamaguchi, Mio Kasai: A new index representative of seismic cracks to assess post-seismic landslide susceptibility Transactions in GIS (00) 1-22. 2022

4)Rintaro Ueda1, Kei Sawata, Takanobu Sasaki and Yoshihisa Sasaki: Effects of decay on the shear properties of nailed joints parallel and perpendicular to the grain. Journal of Wood Science 67:70 (2021) DOI:10.1186/s10086-021-02006-1

5)Tomohumi Huzita, Takanobu Sasaki, Shogo Araki and Chihiro Kayo: Life Cycle Regional Economic Impacts of Bridge Repair Using Cross-Laminated Timber Floor Slabs: A Case Study in Akita Prefecture, Japan. Buildings 12(2), 158 (2022) DOI: 10.3390/buildings12020158

6)下川 亮太, 佐々木 貴信, 澤田 圭, 佐々木 義久, 上田 麟太郎：炭素繊維強化プラスチック(CFRP)シートを用いた木質ハイブリッド梁の曲げ性能. 土木学会論文集E2（材料・コンクリート構造）, Vol.77, No.5, I_14-I_21, 2021.

7)小川 虹輝, 後藤 文彦, 佐々木 貴信, 荒木 昇吾, 青木 由香利：鋼製防護柵を取り付けたCLT床版の破壊挙動. 土木学会論文集E2（材料・コンクリート構造）, Vol.77, No.5, I_55-I_63, 2021.

8)鄒青穎, 金俊之, 厚井高志, 山本佑介, 小岩直人, 野田龍, 井良沢道也, 加藤清和, 對馬博, 森洋,岩田英也, 佐藤達也, 池田一, 工藤唯志, 小林基比古, 荒井健一, 黒岩知恵, 古賀勇輝, 石川丈瑛, 對馬美紗, 長野英次, 三浦順, 齋藤はるか, 川上礼央奈：２０２１年８月豪雨による青森県下北半島北部における土砂災害. 砂防学会誌 74(6) 41–51. 2022

9)Takashi Koi, Norifumi Hotta, Yasutaka Tanaka, and Shin’ya Katsura: Generation and subsequent transport of landslide-driven large woody debris induced by the 2018 Hokkaido Eastern Iburi Earthquake. Frontiers in Earth Science. 2022. doi: 10.3389/feart.2021.769061

10)松永隆正・桂真也：熱収支法に基づく気象庁観測データを用いた時間融雪水量の推定と地すべり地の地下水位変動解析への適用. 日本地すべり学会誌58(4)：1-16. 2021

11)泉典洋，岩瀬晴夫，酒井尚孝，野村圭司：細砂で構成された側岸部を有する礫床河川の自律形成機構. 河川技術論文集，第27巻，pp. 451-456, 2021

12)泉典洋，岩瀬晴夫，野村圭司：礫河床上への細砂の堆積によって自律形成される河道の平衡横断面形状. 土木学会論文集B1（水工学），Vol. 77, No. 2, pp. I_739-I_744

13)泉典洋，高津 教彰, 川村 里実：河床砂州の発達に及ぼす流量変化の影響. 土木学会論文集A2（応用力学），Vol. 77, No. 2, pp. I_451-I_456

14)Warda Panondi and Norihiro Izumi: Climate change impact on the hydrologic regimes and sediment yield of Pulangi River Basin (PRB) for watershed sustainability. Sustainability 2021, 13, 9041, https://doi.org/10.3390/su13169041

15)Mamy Rija Abndriamboavonjy, Tomoya Terakado and Norihiro Izumi: Spatiotemporal evolution of bed configurations in mixed bedrock alluvial in uniformly curved channels. Water 2022, 14, 397, https://doi.org/10.3390/w14030397

16)岩佐隆広, 二階堂竜司, 平間史泰, 田所壮也, 飯島直已, 吉川契太郎, 中津隆文, 水野雄三, 山下俊彦, 木村克俊, 加藤史訓, 矢部浩規：高天端人工リーフの安定性に関する実験的検討，土木学会論文集B2(海岸工学)77巻2号 p.I_703-I_708，2021

17)Viscor, T., Kamps, L., Yonekura, K., Isochi, H., and Nagata, H.: “Large-Scale CAMUI Type Hybrid Rocket Motor Scaling, Modeling, and Test Results.” Aerospace, Vol. 9, No. 1, 2022, p. 1. https://doi.org/10.3390/aerospace9010001.

18)Kamps, L., Hirai, S., and Nagata, H.: “Hybrid Rockets as Post-Boost Stages and Kick Motors.” Aerospace, Vol. 8, No. 9, 2021, p. 253. https://doi.org/10.3390/aerospace8090253.

19)Bianchi, D., Migliorino, M. T., Rotondi, M., Kamps, L., and Nagata, H.: “Numerical Analysis of Nozzle Erosion in Hybrid Rockets and Comparison with Experiments.” Journal of Propulsion and Power, 2021, pp. 1–22. https://doi.org/10.2514/1.B38547.

20)Viscor, T., Isochi, H., Adachi, N., and Nagata, H.: “Burn Time Correction of Start-Up Transients for CAMUI Type Hybrid Rocket Engine.” Aerospace, Vol. 8, No. 12, 2021, p. 385. https://doi.org/10.3390/aerospace8120385.

21)Suehara, K., Takai, R., Ishikawa, Y., Koshizaki, N., Omura, K., Nagata, H., and Yamauchi, Y.: “Reduction Mechanism of Transition Metal Oxide Particles in Thermally Induced Nanobubbles during Pulsed Laser Melting in Ethanol.” ChemPhysChem, Vol. 22, No. 7, 2021, pp. 675–683. https://doi.org/10.1002/cphc.202001000.

22)S. Vachmanus, A. A. Ravankar, T. Emaru and Y. Kobayashi: Multi-Modal Sensor Fusion-Based Semantic Segmentation for Snow Driving Scenarios, IEEE Sensors Journal, Vol. 21, No. 15, pp. 16839-16851, DOI: 10.1109/JSEN.2021.3077029.

23)Teppei J. Yasunari, Hisashi Nakamura, Kyu-Myong Kim, Nakbin Choi, Myong-In Lee, Yoshihiro Tachibana, Arlindo M, da Silva: Relationship between circum-Arctic atmospheric wave patterns and large-scale wildfires in boreal summer Environmental Research Letters 16(6) 064009-064009. 2021

24)Yasunari, T. J., S. Wakabayashi, Y. Matsumi, and S. Matoba (2022), Developing an insulation box with automatic temperature control for PM2.5 measurements in cold regions, J. Environ. Manage., doi:10.1016/j.jenvman.2022.114784, in press.

25)Ren, J., Zhang, S., Wang, C., Ishikawa, T., Vanapalli, S. K.: The Measurement of Unfrozen Water Content and SFCC of a Coarse-Grained Volcanic Soil, Journal of Testing and Evaluation, 51(1): 2021.6. （10.1520/JTE20210049）

26)Zhu Y., Ishikawa, T., Yamada, T., Subramanian, S. S.: Probability Assessment of Slope Instability in Seasonally Cold Regions under Climate Change, Journal of Infrastructure Preservation and Resilience, 2: 20, 2021.7. （https://jipr.springeropen.com/articles/10.1186 s43065-021-00034-1）

27)Ishikawa, T., Yoshimi, M., Isobe, K., Yokohama, S. : Reconnaissance report on geotechnical damage caused by 2018 Hokkaido Eastern Iburi earthquake with JMA seismic intensity 7, Soils and Foundations, 61(2021): 1151-1171, 2021.8. （10.1016/j.sandf.2021.06.006）

Ishikawa, T., Tokoro, T., Nakamura, T., Kijiya, I., Okayasu, T.: Effect evaluation of drainage condition and water content on cyclic plastic deformation of aged ballast and its estimation models, Transportation Geotechnics, 30: 100606, 2021.9.（10.1016/j.trgeo.2021. 100606）

29)Ishikawa, T., Dareeju, B., Gallage, C., Lin, T.: Resilient deformation characteristics of unsaturated subgrade materials of rail tracks under cyclic moving wheel loads, Geotechnical Engineering Journal of the SEAGS & AGSSEA, 52(4): 23-32, 2021.12.

30)Lin, T., Ishikawa, T., Yang, J., Tokoro, T.: Evaluation of climate effect on resilient modulus of granular subgrade material, Cold Regions Science and Technology, 194: 103452, 2021.12. （10.1016/j.coldregions.2021.103452）

31)Zhu, Y., Ishikawa, T., Subramanian, S. S.: Integrated modeling of fully coupled two-phase surface and subsurface flow, Proceedings of the 16th International Conference on Computer Methods and Advances in Geomechanics, Torino, Italy, Vol. 1, pp.680-687, 2021.5.

32)Lin, T., Ishikawa, T., Tokoro, T., Maruyama, K., Ueno, C.: Modification of Japanese pavement fatigue life criteria by considering climate effect in cold regions, Advances in Transportation Geotechnics IV (4th International Conference on Transportation Geotechnics), Proceedings of the 4th International Conference on Transportation Geotechnics 1, Chicago, USA, pp.29-39, 2021.5. (10.1007/978-3-030-77230-7_3)

33)Yasuoka, T., Ishikawa, T., Luo, B., Wu, Y., Maruyama, K., Ueno, C.: Coupled analysis on frost-heaving depression effect of geosynthetics drainage material for road pavement, Advances in Transportation Geotechnics IV (4th International Conference on Transportation Geotechnics), Proceedings of the 4th International Conference on Transportation Geotechnics 2, Chicago, USA, pp.509-520, 2021.5. (10.1007/978-3-030-77234-5_42)

34)Ishikawa, T.: Lessons from recent geo-disasters in Hokkaido under heavy rainfall, Understanding and Reducing Landslide Disaster Risk Vol. 6 Specific Topics in Landslide Science and Applications, Proceedings of the 5th World Landslide Forum, Kyoto, Japan, pp.131-139, 2021.11.

35)深田 秀実・橋本 雄一：マルチ・エージェント ･ シミュレーションによる 津波避難ビルへの避難行動分析―北海道釧路市中心市街地を事例として―，地理学論集，96(2)，7-18

36)塩﨑 大輔・橋本 雄一：ニセコひらふ地区におけるリゾート開発と土砂災害リスク，地理学論集，96(1)，1-6，

37)Akihiko Terada, Wataru Kanda, Yasuo Ogawa, Taishi Yamada, Mare Yamamoto, Takahiro Ohkura, Hiroshi Aoyama, Tomoki Tsutsui, Shin’ya Onizawa: The 2018 phreatic eruption at Mt. Motoshirane of Kusatsu–Shirane volcano, Japan: eruption and intrusion of hydrothermal fluid observed by a borehole tiltmeter network. Earth, Planets and Space, 73, 157, 2021

38)Taishi Yamada, Aika K. Kurokawa, Akihiko Terada, Wataru Kanda, Hideki Ueda, Hiroshi Aoyama, Takahiro Ohkura, Yasuo Ogawa, Toshikazu Tanada: Locating hydrothermal fluid injection of the 2018 phreatic eruption at Kusatsu-Shirane volcano with volcanic tremor amplitude. Earth, Planets and Space, 73, 14, 2021

39)Yuki Susukida, Kei Katsumata, Masayoshi Ichiyanagi, Mako Ohzono, Hiroshi Aoyama, Ryo Tanaka, Masamitsu Takada, Teruhiro Yamaguchi, Kazumi Okada, Hiroaki Takahashi, Shin’ichi Sakai, Satoshi Matsumoto, Tomomi Okada, Toru Matsuzawa, Hiroki Miyamachi, Shuichiro Hirano, Yoshiko Yamanaka, Shinichiro Horikawa, Masahiro Kosuga, Hiroshi Katao, Yoshihisa Iio, Airi Nagaoka, Noriko Tsumura, Tomotake Ueno: Focal mechanisms and the stress field in the aftershock area of the 2018 Hokkaido Eastern Iburi earthquake (MJMA = 6.7). Earth, Planets and Space, 73, 1, 2021

40)Takabatake, D., and M. Inatsu: Summertime precipitation in Hokkaido and Kyushu, Japan in response to global warming. Climate Dynamics, 2021 https://doi.org/10.1007/s00382-021-05983-7.

41)Uda, T., T. Sakajo, M. Inatsu, and K. Koga: Identification of atmospheric blocking with morphological type by topological flow data analysis. Journal of the Meteorological Society of Japan, 99, 1169–1183. 2021

42)Inatsu, M., S. Kawazoe, and M. Mori: Trends and projection of heavy snowfall in Hokkaido, Japan as an application of self-organizing map. Journal of Applied Meteorology and Climatology, 60, 1483–1494. 2021

43)Tanji, S., M. Inatsu, and T. Okaze: Development of snowdrift model with the Lattice Boltzmann Method. Progress in Earth and Planetary Science, 8, 57. 2021

44)丹治 星河, 稲津 將, 川添 祥, 佐藤 陽祐: 2017/2018年冬季における北海道の吹雪発生マップの作成. 雪氷, 83, 275-284. [57]. 2021

1)Imran, Y., Melling, L., XhuanWong, G., Hatano, R., Inoue, T., Aeries, E. B., Goh, K. J. and Mah, D. Y. S.: Long term dynamics of surface fluctuation in a peat swamp forest in Sarawak, Malaysia, Environmental Research Communications, 4 (2022) 041001: doi.org/10.1088/2515-7620/ac6295

2)横地穣, 関本幸一, 井上京: 泥炭地に敷設された農業用管水路の不同沈下の実態, 農業農村工学会論文集, No.341 (90-1), pp. I_45 – I_52 (2022)

3)岡本涼太郎, 佐々木貴信, 澤田圭, 大橋義徳, 宮内輝久, 加藤貴博：CLT床版を用いた林道橋の補修設計と解析. 土木学会論文集，Vol. 79, No.28 (2023)，DOI: https://doi.org/10.2208/jscejj.22-28003

4)石原亘, 高梨隆也, 川合慶拓, 大橋義徳, 佐々木貴信, 澤田圭：低湿度環境で暴露したカラマツおよびトドマツCLTのせん断強度. 木材学会誌，Vol.68, No.4, p. 154-164 (2022), DOI: https://doi.org/10.2488/jwrs.68.154

5)川合慶拓, 高梨隆也, 澤田圭, 佐々木義久, 佐々木貴信：面外曲げをうけるカラマツCLTのせん断強度の評価. 木材学会誌，Vol.68, No.4, p. 179-187 (2022), https://doi.org/10.2488/jwrs.68.179

6)Flavio Furukawa, Junko Morimoto, Nobuhiko Yoshimura, Takashi Koi, Hideaki Shibata, Masami Kaneko (2022): UAV Video-Based Approach to Identify Damaged Trees in Windthrow Areas. Remote Sensing 14(3170) 3170-3170

7)森洋，野田龍，厚井高志，鄒青穎，荒井健一，金俊之，櫻井由起子，對馬美紗，齋藤はるか，佐藤達也，講武学，大坪俊介，金子秀人，丹羽諭，森千夏，松尾新二朗，池田一，工藤唯志，北村一貴，林一成，寒河江岳雄，西尾克人，山口和真，貝羽哲郎：２０２２年８月豪雨により山形県飯豊町で発生した土砂災害. 砂防学会誌 75(6) 25–35. 2023

8)Aoki, T., Katsura, S., Koi, T., Tanaka, Y., and Yamada, T. (2022): Hydrauli c properties of and pressure-head dynamics in thick pyroclastic-fall deposit s in Atsuma, Northern Japan: Implications for the role of water in shallow landslides induced by the 2018 Hokkaido Eastern Iburi Earthquake, Landslides 19(8): 1813-1824, doi: 10.1007/s10346-022-01884-w

9)Yoshino, T., and Katsura, S. (2022): Perennial groundwater zone formation processes in thin organic soil layers overlying thick clayed mineral soil layers in a small serpentine headwater catchment, Water, 14, 3122, doi: 10.3390/w14193122.

10)MR Andriamboavonjy, T Terakado, N Izumi, Spatiotemporal Evolution of Bed Configurations in Mixed Bedrock-Alluvial in Uniformly Curved Channels, Water 14 (3), 397, 2022

11)M Okamura, Y Tsuyuguchi, N Izumi, K Maeda, Centrifuge modeling of scale effect on hydraulic gradient of backward erosion piping in uniform aquifer under river levees, Soils and Foundations 62 (5), 101214, 2022

12)K Ohata, H Naruse, N Izumi, Upper and lower plane bed definitions revised. Progress in Earth and Planetary Science 9 (1), 23, 2022

13)Z Wu, N Izumi, Transportational Cyclic Steps Created by Submarine Long-Runout Turbidity Currents. Geosciences 12 (7), 263, 2022

14)K Ohata, H Naruse, N Izumi, Linear stability analysis of plane beds under flows with suspended load. Earth Surface Dynamics Discussions, 1-35, 2022

15)R NISHIGUCHI, S TAGATA, K KAGEYAMA, N IZUMI, M SEKINE, RIVER FLOW INVERSE ANALYSIS AND DATA ASSIMILATION, Journal of JSCE 10 (1), 430-442, 2022

16)泉典洋，川村里実, 流量がゆっくりと変化する条件下での砂州の弱非定常安定解析. 土木学会論文集 B1 (水工学) 78 (2), I_949-I_954, 2022

17)山口里実，泉典洋, 流量減少時の砂州性蛇行の発達と側岸侵食に関する水理実験, 土木学会論文集 B1 (水工学) 78 (2), I_889-I_894, 2022

18)藤原圭哉，佐藤誠，亀田敏弘，泉典洋，堀宗朗, 河川管理検討プロセスの高度化・省力化システム (X-EVA) の提案, 河川技術論文集 28, 247-252, 2022

19)田方俊輔，泉典洋, 高波浪時における堤防近傍の地形変化の三次元性について. 土木学会論文集 B3 (海洋開発) 78 (2), I_109-I_114, 2022

20)Chultem Batbold, Keiya Yumimoto, Sonomdagva Chonokhuu, Batdelger Byambaa, Batdavaa Avirmed, Shuukhaaz Ganbat, Naoki Kaneyasu, Yutaka Matsumi, Teppei J. Yasunari, Kenji Taniguchi, Noriko Hasebe, Keisuke Fukushi, Atsushi Matsuki: Spatiotemporal dispersion of local-scale dust from the Erdenet mine in Mongolia detected by Himawari-8 geostationary satellite. SOLA 2022年9月

21)Wu, Y., Ishikawa, T., Maruyama, K., Ueno, C., Yasuoka, T., Okuda, S.: Modeling Wicking Fabric inhibition effect on frost heave, Applied Sciences, 12: 4357, 2022.4. （10.3390/app12094357）

22)Zhang, Y., Ishikawa, T., Luo, B. : Influence of freeze-thaw of ballasted track on vehicle vibration and its evaluation, Transportation Engineering, 8: 100116, 2022.6. （10.1016/j.treng.2022.100116）

23)Zhu, Y., Ishikawa, T., Zhang, Y., Nguyen, B.T., Subramanian, S. S. : A FEM-MPM hybrid coupled framework based on local shear strength method for simulating rainfall/runoff- induced landslide runout, Landslides, 19(8): 2005-2019, 2022.8. （10.1007/s10346-022-01849-z）

24)片寄陸・中津川誠・石川達也：気候変動に伴う降雨と融雪を誘因とする斜面災害発生危険度の推定，土木学会論文集B1（水工学），Vol.78，No.2，I_91-I_96，2022.11.（10.2208/jscejpe.78.2_I_91）

25)He, W., Ishikawa, T., Nguyen, B.T. : Effect evaluation of grass roots on mechanical properties of unsaturated coarse-grained soil, Transportation Geotechnics, 38: 100912, 2022.12.（10.1016/j.trgeo.2022.100912）

26)He, W., Ishikawa, T., Zhu, Y. : Wide / narrow-area slope stability analysis considering infiltration and runoff during heavy precipitation, Soils and Foundations, 63(1): 101248, 2023.2. （10.1016/j.sandf.2022.101248）

27)Ren, J., Zhang, S., Ishikawa, T., Li, S., Wang, C. : The frost heave characteristics of a coarse-grained volcanic soil quantified by particle image velocimetry, Geoderma, 430:116352, 2023.1. （10.1016/j.geoderma.2023.116352）

28)Murakami, T., Ishikawa, T., Sako, T., Tokoro, T. : Effects of fine fraction outflow from surface layer caused by rainfall history on slope stability, Proceedings of the 20th International Conference on Soil Mechanics and Geotechnical Engineering, Rahman and Jaksa (Eds), Sydney, Australia, pp.2439-2444, 2022.5.

29)Wu, Y., Ishikawa, T. : Thermal- hydro-mechanical coupled analysis on frost susceptible soils, Proceedings of the 5th International Symposium on Transportation Soil Engineering in Cold Regions (Research in Cold and Arid Regions), Zhuhai, China, 14(2022): pp.223-234, 2022.8.（10.1016/j.rcar.2022.08.002）

30)Murakami, T., Ishikawa, T., Nguyen, B.T., Mori, A. : Prediction of slope failure in cold regions induced by a rainfall during snowmelt period, Proceedings of the 16th International Conference on Computer Methods and Advances in Geomechanics, Torino, Italy, Vol. 2, pp.457-465, 2022.9.

31)Zhang, S., Ishikawa, T. : Influence of frost heave induced track deformation on ballast settlement of culvert transition zone in freezing period, Proceedings of the 16th International Conference on Computer Methods and Advances in Geomechanics, Torino, Italy, Vol. 3, pp.375-384, 2022.9.

32)工藤由佳，橋本雄一：路面状況と道路ネットワーク途絶を考慮した積雪寒冷地における津波避難困難人口の推定―千島海溝地震による津波の浸水想定域の事例―. 地理学論集，97(1)，1-12

33)Akiko Takeo, Kiwamu Nishida, Hiroshi Aoyama, Motoko Ishise, Takeru Kai, Ryo Kurihara, Takuto Maeda, Yuta Mizutani, Yuki Nakashima, Shogo Nagahara, Xiaowen Wang, Lingling Ye, Takeshi Akuhara, Yosuke Aoki: S-wave modelling of the Showa-Shinzan lava dome in Usu Volcano, Northern Japan, from seismic observations. Geophysical Journal International, 230, 1662-1678, 2022年5月

34)青山裕：北海道の活火山における減災に向けた観測研究の取り組み−物理観測と物質科学の今後の連携を見据えて−. 火山, 67, 171-193, 2022年6月

35)池田航, 市原美恵, 本多亮, 青山裕, 高橋英俊, 吉本充, 酒井慎一：富士山における雪崩空振現象の多項目観測と統合解析. 雪氷, 84, 421-432, 2022年9月

36)Theodorus Permana, Hiroshi Aoyama: Locating Volcanic Earthquakes and Tremors Using Delay Time and Amplitude Ratio Information from Cross-Correlation Functions. Seismological Research Letters, 2022年11月

37)Yamanaka, Y. and Y. Tanioka, Short-wave run-ups of the 1611 Keicho tsunami along the Sanriku Coast, Prog. Earth Planet. Sci., 9, 37, 2022, doi:10.1186/s40645-022-00496-1

38)Tanioka, Y., Y. Yamanaka, and T. Nakagaki, Characteristics of the deep sea tsunami excited offshore Japan due to the air wave from the 2022 Tonga eruption, Earth Planet. Space, 74:61, 2022, doi:10.1186/s40623-022-01614-5

39)David A. Yuen, Melissa A. Scruggs, Frank J. Spera, Yingcai Zheng, Hao Hu, Stephen R. McNutt, Glenn Thompson, Kyle Mandli, Barry R. Keller, Songqiao Shawn Wei, Zhigang Peng, Zili Zhou, Francesco Mulargia, Yuichiro Tanioka: Under the surface: Pressure-induced planetary-scale waves, volcanic lightning, and gaseous clouds caused by the submarine eruption of Hunga Tonga-Hunga Ha’apai volcano. Earthquake Research Advances 2(3) 100134-100134 2022

40)Fumihiko Imamura, Anawat Suppasri, Taro Arikawa, Shunichi Koshimura, Kenji Satake, Yuichiro Tanioka: Preliminary Observations and Impact in Japan of the Tsunami Caused by the Tonga Volcanic Eruption on January 15, 2022 Pure and Applied Geophysics, 179(5) 1549-1560, 2022

41)Kazue Oshiro, Yuichiro Tanioka, Jürg Schweizer, Ken Zafren, Hermann Brugger, Peter Paal: Prevention of Hypothermia in the Aftermath of Natural Disasters in Areas at Risk of Avalanches, Earthquakes, Tsunamis and Floods. International journal of environmental research and public health, 19(3), 2022

42)Kanamori, Y., M. Inatsu, R. Tsurumaki, N. Matsuoka, T. Hoshino, and T. J. Yamada, 2022: Global warming effect and adaptation for a flooding event at Motsukisamu River in Sapporo. Scientific Online Letters on the Atmosphere, 40, 249–253.

43)Murakami, K., S. Inoue, M. Nemoto, Y. Kominami, M. Inatsu, and T. Hirota, 2022: Projected changes in field workability of agricultural machinery operations for upland crop production with +4 K warming in Hokkaido, Japan. Journal of Agricultural Meteorology, 78, 155–163.

44)Kawazoe, S., and M. Inatsu, 2022: Predictability of heavy snowfall events in western Hokkaido from JMA Operational 1-Month Ensemble Predictions using self-organizing maps. Scientific Online Letters on the Atmosphere, 18, 147–153.

45)村上 貴一, 根本 学, 稲津 將, 菅原 邦泰, 広田 知良, 2022: 現在および将来気候のもとでの確率的な農業影響評価のための1 km アンサンブル日平均気温・日降水量データセット. 生物と気象, 22, 33–38.