Research field (1):
Atmospheric and hydrospheric science
Research theme for competitive and other funds (5):
2017 - 2020 Understanding the impact of urban heat island on the local heavy rainfall in the Tokyo area using a next-generation simulation system
2018 - 2019 A Comprehensive Study on the Disaster Due to the July 2018 Torrential Rainfall
2017 - 2018 Research and study on the heavy rainfall disaster due to the Kyushu-hokubu torrential rainfall in July 2017
2010 - 2012 Evaluation of urban bias and microclimate effects for climate change monitoring in Japan
2010 - 2012 Study on influence of anthropogenic aerosol on heat island structure
Papers (39):
Ken Sawada, Naoko Seino, Takuya Kawabata, Hiromu Seko. Impacts of an Urban Canopy Scheme and Surface Observation Data on a Heavy Rain Event through Data Assimilation. SOLA. 2023. 19B. Special_Edition. 1-8
Hiroaki Kawase, Yukiko Imada, Hiroshige Tsuguti, Toshiyuki Nakaegawa, Naoko Seino, Akihiko Murata, Izuru Takayabu. The Heavy Rain Event of July 2018 in Japan Enhanced by Historical Warming. Bulletin of the American Meteorological Society. 2020. 101. 1. S109-S114
Ryohei Misumi, Yoshinori Shoji, Kazuo Saito, Hiromu Seko, Naoko Seino, Shin-Ichi Suzuki, Yukari Shusse, Kohin Hirano, Stephane Belair, Chandrasekar, V, et al. Results of the Tokyo Metropolitan Area Convection Study for Extreme Weather Resilient Cities (TOMACS). BULLETIN OF THE AMERICAN METEOROLOGICAL SOCIETY. 2019. 100. 10. 2027-2042
Comparison of daytime air heating amount between city and surrounding areas. 2016. 11. 1-5
SHIDO Fumitake, AOYAGI Toshinori, SEINO Naoko, FUJIBE Fumiaki, YAMAMOTO Akira. Influence of Nearby Plants and Artificial Structures on the Surface Air Temperature Statistics : An in-situ Measurement at Central Tokyo (Otemachi) throughout Years. JAPANESE PROGRESS IN CLIMATOLOGY. 2015. 2015. 46-46
