| Publications |
- Watanabe, S. I. and H. Niino, 2014: Genesis and development mechanisms of a polar mesocyclone over the Japan Sea. Mon. Wea. Rev., 142, 2248-2270,
- Watanabe, S. I., H. Niino, W.Yanase, 2016: Climatology of Polar Mesocyclones over the Sea of Japan Using a New Objective Tracking Method. Mon. Wea. Rev., 144, 2503-2515
- Watanabe, S. I., H. Niino, W.Yanase, 2017: Structure and Environment of Polar Mesocyclones over the Northeastern Part of the Sea of Japan. Mon. Wea. Rev., 145, 2217-2233
- Watanabe, S. I., H. Niino, W.Yanase, 2018: Composite analysis of polar mesocyclones over the western part of the Sea of Japan. Mon. Wea. Rev., 146, 985-1004.
- Watanabe, S. I., A. Murata, H. Sasaki, H. Kawase, and S. Nosaka, 2019: Future Projection of Tropical Cyclone Precipitation over Japan with a High-Resolution Regional Climate Model. J. Meteor. Soc. Japan, 97.
- Watanabe, S. I., H. Tsujino, A. Murata, and M. Ishii, 2019: Impacts of Sea Surface Temperature Improved by a High-Resolution Ocean Model on Summer Precipitation in a Dynamical Downscaling over Japan. SOLA, 15.
- Watanabe, S. I., H. Niino, and T. Spengler, 2021: Formation of maritime convergence zones within cold air outbreaks due to the shape of the coastline or sea ice edge. Q. J. R. M. S., 148.
- Watanabe, S. I., H. Kawase, Y. Imada, and H. Hirockawa, 2024: The Impact of Anthropogenic Global Warming and Oceanic Forcing on the Frequency of Quasi-stationary Band-Shaped Precipitation Systems, “Senjo-Kousuitai”, during the Rainy Season of 2023. SOLA, 20A.
- Watanabe, S. I., and J. Ito, 2024: A priori test of scale-similarity parameterizations for subgrid-scale fluxes in convective storms. Mon. Wea. Rev., 152.
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