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International Presentations

Updated: October 15, 2021

​*For presentations as coauthor, as far as I remember,,,

  1. S. Sugimoto, K. Ueno, H. Fujinami, T. Nasuno, T. Sato, H. G. Takahashi (2021): Cloud resolving simulation for the nocturnal precipitation over the Himalayas. The Fifth Convection-Permitting Modeling Workshop 2021, Online. (September, 2021) 

  2. S. Sugimoto (2021):Heavy precipitation over southwestern Japan during the Baiu season due to abundant moisture transport from synoptic-scale atmospheric conditions. The 2021 Annual General Meeting of the Asia Oceania Geosciences Society, Online. (August, 2021)

  3. S. Sugimoto, K. Ueno, H. Fujinami, T. Nasuno, T. Sato, and H. G. Takahashi (2021): The simulation for the nocturnal precipitation over the Himalayas. Japan Geoscience Union Meeting 2021, Online. (June 2021)

  4. S. Sugimoto, H. G. Takahashi, H. Sekiyama (2020): Modification of near-surface temperature over East Asia associated with local-scale paddy irrigation. JpGU-AGU Joint meeting 2020, Virtual meeting. (July, 2020)

  5. S. Sugimoto, H. Fujinami, T. Nasuno, H. G. Takahashi, T. Sato, and K. Ueno (2019): Challenges for high resolution simulation over the Himalayas. ICRC-CORDEX 2019. (October, 2019) 

  6. S. Sugimoto, and H. G. Takahashi (2019): Challenges for a systematic understanding of land-atmosphere process over Asia. AsiaPEX International SSG Workshop. (September, 2019)

  7. S. Sugimoto, H. Fujinami, T. Nasuno, H. G. Takahashi, T. Sato, and K. Ueno (2019): Simulated clouds and precipitation over and around the Himalayas using the cloud resolving model. AsiaPEX Kick-off Conference. (August, 2019)

  8. S. Sugimoto, H. Fujinami, T. Nasuno, H. G. Takahashi, T. Sato, and K. Ueno (2019): Advantages of the high-resolution simulation over the Asian mountain regions. International GEWEX/GASS/LS4P and TPEMIP Regional Modeling & Aerosol in Snow Workshop. (July, 2019)

  9. S. Sugimoto, N. Kamizawa, H. G. Takahashi, M. Fujita, Y. Okada, S. Kawazoe, K. Ishihara, and S. Watanabe (2018): Future changes in extreme years of South Asian monsoon and its impact on summer climate in East Asia. The 8th TPE workshop from pole to pole (September, 2018)

  10. S., Sugimoto (2018): An Impact of Low Vortex Propagated from the West on Heavy Precipitation over the Northern Kyusyu Island, Japan During the Baiu Season. AOGS. (June 2018).

  11. S., Sugimoto, R. Ito, K. Dairaku, H. Kawase, H. Sasaki, S. Watanabe, Y. Okada, S. Kawazoe, T. Yamazaki, T. Sasai (2018): Effects of Horizontal Grid Spacing on Simulated Consecutive Dry Days and Near-Surface Temperature over the Central Mountains in Japan. AOGS. (June, 2018)

  12. S., Sugimoto, H. Fujinami, T. Sato, H. G. Takahashi, K. Ueno (2018): Challenges for a systematic understanding of the precipitation process in Asian countries. JpGU meeting. (May, 2018)

  13. S. Kawazoe, M. Fujita, S. Sugimoto, Y. Okada, S. Watanabe, R. Mizuta, A. Murata, M. Ishii, H. Kawase (2018): Projected Changes in Atmospheric Stability for Japan Using Large Ensemble Simulations. 98th AMS Annual Meeting. (January, 2018)

  14. Y. Nakagawa, S. Kawahara, F. Araki, D. Matsuoka, Y. Ishikawa, M. Fujita, S. Sugimoto, Y. Okada, S. Kawazoe, S. Watanabe, M. Ishii, R. Mizuta, A. Murata, H. Kawase (2017): Development of a database system for near-future climate change projections under the Japanese National Project SI-CAT. AGU Fall Meeting 2017. (December, 2017)

  15. S., Sugimoto, R. Ito, K. Dairaku, H. Kawase, H. Sasaki, S. Watanabe, Y. Okada, S. Kawazoe, T. Yamazaki, T. Sasai (2017): Importance of dynamical downscaling with high-resolution for evaluating simulated near surface temperature over the mountainous regions. International Workshop on Climate Downscaling Studies (DSWS2017). (October, 2017)

  16. S. Kawazoe, Sugimoto S., M. Fujita, Y. Okada, S. Watanabe (2017): Examination of “Yamase” events using d4PDF climate ensemble simulations. JpGU-AGU Joint Meeting. (May, 2017)

  17. S. Sugimoto, H. G. Takahashi, and H. Sekiyama (2016): Summer regional climate over East Asia affected by soil moisture modification at the Sichuan basin, AGU fall meeting, San Francisco. (December, 2016)

  18. S. Sugimoto, and H. G. Takahashi (2016): Precipitation-soil moisture coupling over South Asia, Workshop on Global Precipitation System 2016,Yokohama. (November, 2016)

  19. Sugimoto, S., K. Ueno, H. G. Takahashi, and H. Sekiyama (2016): Land surface-atmosphere coupling over surrounding regions of the Tibetan Plateau, International workshop on land surface multi-spheres processes of Tibetan Plateau, Xining, China. (Aug., 2016)​

  20. Sugimoto, S., and H. G. Takahashi (2016): The WRF performances for precipitation characteristics and precipitation-soil moisture coupling over South Asian countries, The International Science Conference on MAHASRI, Tokyo, Japan. (Mar., 2016)​

  21. Sugimoto, S., and H. G. Takahashi (2015): A difference of diurnal variation in simulated precipitation characteristics with and without cloud convective schemes, ACM2015, Kyoto, Japan. (Oct., 2015)

  22. Takahashi, H. G., and S. Sugimoto (2015): Different sensitivities of precipitation to surface condition in terms of with or without cumulus parameterization and horizontal resolution, ACM2015, Kyoto, Japan. (Oct., 2015)

  23. Dado, J. M.-B., H. G. Takahashi, and S. Sugimoto (2015): The impact of sea surface temperature on the southwest monsoon rainfall over western Philippines, ACM2015, Kyoto, Japan. (Oct., 2015)

  24. Sugimoto, S., and H. G. Takahashi (2015): Impacts of soil moisture on precipitation over Bangladesh and its surrounding areas, EGU, Vienna. (April, 2015)

  25. Sugimoto, S., and H. G. Takahashi (2015): Sensitivity of precipitation to soil moisture over Bangladesh and its surrounding areas, The 4th international workshop of GRENE-ei CAAM, Hanoi. (March, 2015)

  26. Sato, T., S. Sugimoto, and T. Sasaki (2014): Seasonally and diurnally different response of surface air temperature to historical urbanization in Sapporo, North Japan, AGU fall meeting, San Francisco. (December, 2014)

  27. Matsumura, S., S. Sugimoto, and T. Sato (2014): Recent intensification of the western Pacific subtropical high associated with East Asian summer monsoon, AGU fall meeting, San Francisco. (December, 2014)

  28. Matsumura, S., S. Sugimoto, and T. Sato (2014): Recent Intensification of the Western Pacific Subtropical High Accompanied with the Baiu-rainband Activity, AOGS 11th Annual Meeting, Sapporo. (July, 2014)

  29. Yamada, T. J., M. Inatsu, T. Sato, K. Nakamura, S. Sugimoto, M. A. Farukh, A. Komatsu, and N. Matsuoka (2014): Development and Application of Comprehensive Downscaling Methods for Hokkaido Region, Japan, AOGS 11th Annual Meeting, Sapporo. (July, 2014)

  30. Sugimoto, S., T. Sato, and T. Sasaki (2014):An impact of historical land-cover conversion on regional climate change during winter in Hokkaido Island, Japan., 7th International Scientific Conference on the Global Water and Energy Cycle, Netherland. (July, 2014)

  31. Sugimoto, S., T. Sato, and T. Sasaki (2014):An impact of historical land-cover conversion on regional climate change during winter in Hokkaido Island, Japan., 3rd Lund Regional-scale Climate Modelling Workshop, Sweden. (June, 2014)

  32. Sato, T., and S. Sugimoto (2013):A modeling study on the role of local SST warming on the precipitation trends observed in north Japan during winter monsoon, AGU fall meeting, U.S. (Dec., 2013)

  33. Sato, T., and S. Sugimoto (2013):Possible impact of sea surface warming on the spatial variation of winter precipitation trends in north Japan., DACA-13, Switzerland. (July, 2013)

  34. Sugimoto, S., and T. Sato (2013):Effect of multi-decadal variation in Okhotsk High on fog frequency over the Pacific side of the Hokkaido Island. Japan., DACA-13, Switzerland. (July, 2013)

  35. Sugimoto, S., and T. Sato (2013):Effect of multi-decadal variation in SST and Okhotsk High on fog frequency at Nemuro, Muroran, and Tomakomai., Mombetsu-2013 Symposium, Japan. (Feb., 2013)

  36. Sugimoto, S., T. Sato, and K. Nakamura (2012):Effects of synoptic-scale circulation pattern and local land surface condition on fog at Kushiro, northern Japan, AGU fall meeting, U.S. (Dec., 2012)

  37. Sugimoto, S., T. Sato, and K. Nakamura (2012):Synoptic condition controlling a long-term decline of fog frequency at Kushiro in Hokkaido during summer, AOGS, Singapore. (Aug., 2012)

  38. Sugimoto, S., and K. Ueno (2012): Role of Mesoscale Convective Systems developed around the eastern Plateau in the eastward expansion of an upper tropospheric high during the monsoon season, AOGS, Singapore. (Aug., 2012)

  39. Inatsu, M., T. J. Yamada, T. Sato, K. Nakamura, N. Matsuoka, A. Komatsu, Y. N. Pokarel, S. Sugimoto, and S. Miyazaki (2012): A New Project on Development and Application of Comprehensive Downscaling Methods over Hokkaido., EGU, Vienna.

  40. Ueno, K., and S. Sugimoto (2010): Mechanism of precipitation system around Tibetan Plateau diagnosed by NHM, NHM Workshop, Kyoto, Japan.

  41. Ueno, K., and S. Sugimoto (2010):Impacts of Tibetan Plateau to MCS formation in the southeastern China, Lhasa, China.

  42. Sugimoto, S., H. Fujii, and K. Ueno (2010): Formation proccesses of mesoscale convective systems over the eastern Tibetan Plateau during monsoon season, The 2nd International Workshop on Energy and Water Cycle over the Tibetan Plateau and High-elevations, Lhasa, China.

  43. Ueno, K., S. Sugimoto, and G. Tartari (2009): Mountain weather modification in the Tibet/Himalayas, MOCA-09, the IAMAS-IAPSO-IACS 2009 Joint Assembly, Montreal, Canada.

  44. Sugimoto, S., and K. Ueno (2009): The effect of synoptic and land surface conditions for precipitation processes over the Tibetan Plateau, MOCA-09, the IAMAS-IAPSO-IACS 2009 Joint Assembly, Montreal, Canada.

  45. Sugimoto, S., W. Sha, and K. Ueno (2009): Transportation of water vapor into the Tibetan Plateau in the case of passage of synoptic trough, Fourth Japan-China-Korea Joint Conference on Meteorology, Tsukuba, Japan.

  46. Sugimoto, S., W. Sha, and K. Ueno (2006): Numerical analysis for water vapor transport in the case of synoptic-scale passing through disturbance over the Tibetan Plateau, The 1stInternational Workshop on Energy and Water Cycle over the Tibetan Plateau, Lhasa, China.

  47. Sugimoto, S., W. Sha, and K. Ueno (2004): Numerical simulation of precipitation phenomena during the monsoon season on the Tibetan Plateau, Proceedings of The 6th International Study Conference on GEWEX in Asia and GAME, T2SS30Jul04201846, Kyoto, Japan.

 

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