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Kazutoshi Sato, Atsuyoshi Manda, Qoosaku Moteki, Kensuke K. Komatsu, Koto Ogata, Hatsumi Nishikawa, Miki Oshika, Yuriko Otomi, Shiori Kunoki, Hisao Kanehara, Takashi Aoshima, Kenichi Shimizu, Jun Uchida, Masako Shimoda, Mitsuharu Yagi, Shoshiro Minobe, and Yoshihiro Tachibana

the global and mesoscale analyses. We used a blended daily satellite SST dataset from the JMA called the Merged Satellite and In Situ Data Global Daily SST (MGDSST) ( Kurihara et al. 2006 ) for analyzing SST fields during the campaign. The MGDSST dataset was also used for the bottom boundary condition of the mesoscale model. To assess thermodynamic forcing and oceanic influence on the atmosphere around the BFZ, we estimated apparent heat sources and moisture sinks using output of the mesoscale

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Hidetaka Hirata, Ryuichi Kawamura, Masaya Kato, and Taro Shinoda

, respectively. 2. Model design and validation of the simulation a. Design of a coupled atmosphere–ocean regional model To properly simulate an explosive cyclone, we used a high-resolution coupled atmosphere–ocean regional model, the Cloud Resolving Storm Simulator–Non Hydrostatic Ocean model for the Earth Simulator (CReSS–NHOES; Aiki et al. 2015 ). The coupled model consists of CReSS ( Tsuboki and Sakakibara 2002 , 2007 ) and NHOES ( Aiki et al. 2006 , 2011 ). The model domain is East Asia and the

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