Japan Agency for Marine-Earth Science and Technology Cloud-Resolving Model Development and Application Group (CRM-DAG) Research Center for Environmental Modeling and Application (CEMA) Research Institute for Global Change (RIGC)
About Japan Agency for Marine-Earth Science and Technology Cloud-Resolving Model Development and Application Group (CRM-DAG) Research Center for Environmental Modeling and Application (CEMA) Research Institute for Global Change (RIGC)
Research field (1):
Atmospheric and hydrospheric science
Research keywords (1):
Tropical meteorology, Climate Change, Tropical Cyclone, Intraseasonal Oscillatsion, global nonhydrostatic model, numerical simulation
Research theme for competitive and other funds (6):
2021 - 2025 Impact of stratospheric dynamics on the genesis and development of tropical cyclones
2020 - 2024 島嶼域に着目した西部北太平洋モンスーンにおけるマルチスケール降水特性の解明
2019 - 2024 Predictability of typhoons and explosive cyclones and multi-scale air-sea interaction
2020 - 2022 Study on the effects of SST variability in the midlatitudes on the intraseasonal tropical cyclone activity
2019 - 2022 全球雲解像モデルNICAMを用いた地球規模水循環の新描像確立と将来予測
2014 - 2017 Study of the initial disturbance of tropical cyclone and its development over the Western Pacific
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Papers (80):
Eitarou Oka, Shusaku Sugimoto, Fumiaki Kobashi, Hatsumi Nishikawa, Sachie Kanada, Tomoe Nasuno, Ryuichi Kawamura, Masami Nonaka. Subtropical Mode Water south of Japan impacts typhoon intensity. Science Advances. 2023. 9. 37
Daisuke Takasuka, Chihiro Kodama, Tamaki Suematsu, Tomoki Ohno, Yohei Yamada, Tatsuya Seiki, Hisashi Yashiro, Masuo Nakano, Hiroaki Miura, Akira T. Noda, et al. How Can We Improve the Seamless Representation of Climatological Statistics and Weather Toward Reliable Global K-scale Climate Simulations?. 2023
Yohei Yamada, Tomoki Miyakawa, Masuo Nakano, Chihiro Kodama, Akiyoshi Wada, Tomoe Nasuno, Ying-Wen Chen, Akira Yamazaki, Hisashi Yashiro, Masaki Satoh. Large Ensemble Simulation for Investigating Predictability of Precursor Vortices of Typhoon Faxai in 2019 With a 14-km Mesh Global Nonhydrostatic Atmospheric Model. Geophysical Research Letters. 2023
Tomoe Nasuno, Masuo Nakano, Hiroyuki Murakami, Kazuyoshi Kikuchi, Yohei Yamada. Impacts of Midlatitude Western North Pacific Sea Surface Temperature Anomaly on the Subseasonal to Seasonal Tropical Cyclone Activity: Case Study of the 2018 Boreal Summer. SOLA. 2022. 18. 88-95
Shiori Sugimoto, Kenichi Ueno, Hatsuki Fujinami, Tomoe Nasuno, Tomonori Sato, Hiroshi G. Takahashi. Cloud-Resolving-Model Simulations of Nocturnal Precipitation over the Himalayan Slopes and Foothills. JOURNAL OF HYDROMETEOROLOGY. 2021. 22. 12. 3171-3188
Kunihiko Kodera, Tomoe Nasuno, Seok Woo Son, Nawo Eguchi, Yayoi Harada. Influence of the Stratospheric QBO on Seasonal Migration of the Convective Center Across the Maritime Continent. Journal of the Meteorological Society of Japan. 2023. 101. 6. 445-459
Takuji Kubota, Masaki Satoh, Takeshi Masaki, Toshio Iguchi, Shinta Seto, Tomoe Nasuno, Riko Oki. EVALUATION OF CLOUD LIQUID WATER DATABASE USING GLOBAL CLOUD-SYSTEM RESOLVING MODEL FOR GPM/DPR ALGORITHMS. IGARSS 2020 - 2020 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM. 2020. 3600-3603
山田洋平, 小玉知央, 佐藤正樹, 杉正人, ROBERTS M J, 水田亮, 野田暁, 那須野智江, 中野満寿男, VIDALE PL. HighResMIPマルチモデルアンサンブルの出力を用いた台風発生数の将来変化への台風の種の寄与の解析. 日本気象学会大会講演予稿集(CD-ROM). 2020. 117
KUBOTA Takuji, SATOH Masaki, SETO Shinta, IGUCHI Toshio, MASAKI Takeshi, NASUNO Tomoe, OKI Riko. Cloud liquid water database derived from a global cloud-system resolving model for precipitation retrievals of GPM/DPR observations. 日本地球惑星科学連合大会予稿集(Web). 2020. 2020
EGUCHI Nawo, NASUNO Tomoe, KODERA Kunihiko. Influence of stratospheric dynamics on tropical convection and equatorial waves. 日本地球惑星科学連合大会予稿集(Web). 2020. 2020