加藤　輝之　／　KATO Teruyuki

事項	詳細
所属・職名	台風・災害気象研究部・部長
連絡先
個人ページ	全研究業績一覧 http://researchmap.jp/read0005592/
専門分野	大気力学、メソ気象学、集中豪雨、竜巻 集中豪雨や竜巻などの顕著現象のメカニズムやその発生環境場（気候変化も含む）について、非静力学モデルや観測データ、客観解析データを駆使した研究
学位	博士（理学）
受賞歴、委員等	受賞歴 1999年　日本気象学会「山本・正野論文賞」受賞 2002年　気象庁長官表彰（グループ） 2002年　気象研究所所長表彰（グループ） 2008年　気象研究所所長表彰（個人） 2015年　気象研究所所長表彰（個人） 2015年　気象庁長官表彰（個人） 2024年　文部科学大臣表彰科学技術賞表彰（グループ） 委員 日本気象学会　気象集誌(JMSJ)編集委員会委員 日本気象学会　地球環境問題委員会委員
発表論文	Kato, T., 2024: Interannual and diurnal variations in the frequency of heavy rainfall events in the Kyushu area, western Japan during the rainy season, SOLA, 20, 191-197. 加藤輝之, 2022: アメダス３時間積算降水量でみた集中豪雨事例発生頻度の過去45年間の経年変化, 天気, 69, 247-252. Hirockawa, Y., T. Kato, 2022: A new application method of radar/raingauge-analyzed precipitation amounts for long-term statistical analyses of localized heavy rainfall areas, SOLA, 18, 13-18. Araki, K., T. Kato, Y. Hirockawa, and W. Mashiko, 2021: Characteristics of atmospheric environments of quasi-stationary convective bands in Kyushu, Japan during the July 2020 heavy rainfall event, SOLA, 17, 8-15. Hirockawa, Y., T. Kato, K. Araki, and W. Mashiko, 2020: Characteristics of an exetreme rainfall event in Kyushu district, wouthwestern Japan in early July 2020, SOLA, 16, 265-270. Hirockawa, Y., T. Kato, H. Tsuguti, and N. Seino, 2020: Identification and classification of heavy rainfall areas and their characteristic features in Japan. J. Meteor. Soc. Japan, 98, 835-857. Kato, T., 2020: Quasi-stationary band-shaped precipitation systems, named “senjo-kousuitai”, causing localized heavy rainfall in Japan. J. Meteor. Soc. Japan, 98, 485-509. Kato, T., 2018: Representative Height of the Low-Level Water Vapor Field for Examining the Initiation of Moist Convection Leading to Heavy Rainfall in East Asia, J. Meteor. Soc. Japan, 96, 69-83. Ito, J., S. Hayashi, A. Hashimoto, H. Ohtake, F. Uno, H. Yoshimura, T. Kato, and Y. Yamada, 2017: Stalled improvement in a numerical weather prediction model as horizontal resolution increases to the sub-kilometer scale, SOLA, 13, 151-156. Muramatsu, T., T. Kato, M. Nakazato, H. Endo, and A. Kitoh, 2016: Future Change of tornadogenesis-favorable environmental conditions in Japan estimated by a 20-km-mesh atmospheric general circulation model, J. Meteor. Soc. Japan, 94A, 105-120. Murata, A., H. Sasaki, H. Kawase, M. Nosaka, M. Oh’izumi, T. Kato, T. Aoyagi, F. Shido, K. Hibino, S. Kanada, A. Suzuki-Parker, and T. Nagatomo, 2015: Projection of future climate change over Japan in ensemble simulations with a high-resolution regional climate model. SOLA, 11, 90-94. Ohtake, H., M. Murakami, N. Orikasa, A. Hashimoto, A. Saito, and T. Kato, 2014: Statistical validation of a cloud resolving model using aircraft observations of orographic snow clouds. J. Meteor. Soc. Japan, 92, 287-304. Kanada, S., H. Tsuguti, T. Kato, and F. Fujibe, 2014: Diurnal Variation of Precipitation around Western Japan during the Warm Season. SOLA, 10, 72-77. 津口裕茂・加藤輝之, 2014: 集中豪雨事例の客観的な抽出とその特性・特徴に関する統計解析. 天気, 61, 455-469. Tsuguti, H. and T. Kato, 2014: Contributing Factors of the Heavy Rainfall Event at Amami-Oshima Island, Japan, on 20 October 2010. J. Meteor. Soc. Japan, 92, 163-183. Yoshizaki, M., T. Kato and K. Yasunaga, 2013: Linear responses of the buoyancy induced by band-shaped precipitation with an end and numerical verifications Part 1. A theoretical study, J. Meteor. Soc. Japan, 91, 527-538. Ito, K., T. Kawabata, T. Kato, Y. Honda, Y. Ishikawa, T. Awaji, 2013: Simultaneous Optimization of Air-Sea Exchange Coefficients and Initial Conditions near a Tropical Cyclone Using JNoVA, J. Meteor. Soc. Japan, 91, 337-353. Hirockawa, Y. and T. Kato, 2012: Kinetic Energy Budget Analysis on the Development of a Meso-β-scale Vortex Causing Heavy Rainfall, Observed over Aomori Prefecture in Northern Japan on 11 November 2007, J. Meteor. Soc. Japan, 90, 905-921. Kanada, S., M. Nakano, A. Wada and T. Kato, 2012: Effect of PBL schemes on the development of intense tropical cyclones using a cloud resolving model, J. Geophys. Res., 117, D03107. Nakano, M., T. Kato, S. Hayashi, S. Kanada, Y. Yamada, and K. Kurihara 2012: Development of a 5-km-mesh cloud-system resolving regional climate model in the Meteorological Research Institute, J. Meteor. Soc. Japan, 90A, 339-350. Kanada, S., M. Nakano, and T. Kato, 2012: Projections of Future Changes in Precipitation and the Vertical Structure of the Frontal Zone during the Baiu Season in the Vicinity of Japan Using a 5-km-mesh Regional Climate Model, J. Meteor. Soc. Japan, 90A, 65-86. Kato, T., S. Hayashi, and M. Yoshizaki, 2007: Statistical study on cloud top heights of cumulonimbi thermodynamically estimated from objective analysis data during the Baiu season, J. Meteor. Soc. Japan, 85, 529-557. Kato, T., 2006: Structure of the band-shaped precipitation system inducing the heavy rainfall observed over northern Kyushu, Japan on 29 June 1999, J. Meteor. Soc. Japan, 84, 129-153. Kato, T., and K. Aranami, 2005: Formation factors of 2004 Niigata-Fukushima and Fukui heavy rainfalls and problems in the predictions using a cloud-resolving model, SOLA, 1, 1-4.　 Kato, T., M. Yoshizaki, K. Bessho, T. Inoue, Y. Sato and X-BAIU-01 observation group, 2003: Reason for the failure of the simulation of heavy rainfall during X-BAIU-01- Importance of a vertical profile of water vapor for numerical simulations ? J. Meteor. Soc. Japan, 81, 993-1013.　 Kato, T., 1998: Numerical simulation of the band-shaped torrential rain observed over southern Kyushu, Japan on 1 August 1993. J. Meteor. Soc. Japan, 76, 97-128.
担当課題リスト	台風・顕著現象の機構解明と監視予測技術の開発に関する研究 シームレスな気象予測の災害・交通・産業への応用に関する研究