大気水圏科学(A)
セッション小記号大気科学・気象学・大気環境(AS)
セッションIDA-AS12
タイトル和文Weather and climate extremes in East Asian monsoon system: mechanism, predictability, and projection
英文Weather and climate extremes in East Asian monsoon system: mechanism, predictability, and projection
タイトル短縮名和文Extremes in East Asian monsoon
英文Extremes in East Asian monsoon
代表コンビーナ氏名和文JinHo Yoon
英文JinHo Yoon
所属和文GIST Gwangju Institute of Science and Technology
英文GIST Gwangju Institute of Science and Technology
共同コンビーナ 1氏名和文Shih-Yu (Simon) Wang
英文Shih-Yu (Simon) Wang
所属和文Utah State University
英文Utah State University
共同コンビーナ 2氏名和文Hyungjun Kim
英文Hyungjun Kim
所属和文The Univ. of Tokyo
英文The Univ. of Tokyo
発表言語E
スコープ和文Weather and climate extremes have happened in sequence with similar characteristics, such as long-lasting drought and severe forest fire. Recently, the succession of two extreme yet opposite characteristics occurring in close proximity, such as the 2018 Japan severe flood followed by record-breaking heat wave, calls for a closer look at the synoptic-climate, which is largely linked to the East Asian Summer Monsoon system. From Europe to Asia, heat waves and severe thunderstorms can happen in rapid succession as well, modulated by a quick phase change of the meandering yet semi-stationary short waves. The changing climate may or may not affect all those circulation ingredients, making extreme-event attribution analysis difficult. However, in-depth understanding of the mechanism and its lifecycle is critically important to disaster mitigation and water security in warming climate. This session calls for recent advancement in combining the mesoscale, synoptic-scale, and large-scale diagnostics and modeling towards understanding mechanism, prediction and its future with a focus on weather and climate extremes particularly in East Asian monsoon system.
英文Weather and climate extremes have happened in sequence with similar characteristics, such as long-lasting drought and severe forest fire. Recently, the succession of two extreme yet opposite characteristics occurring in close proximity, such as the 2018 Japan severe flood followed by record-breaking heat wave, calls for a closer look at the synoptic-climate, which is largely linked to the East Asian Summer Monsoon system. From Europe to Asia, heat waves and severe thunderstorms can happen in rapid succession as well, modulated by a quick phase change of the meandering yet semi-stationary short waves. The changing climate may or may not affect all those circulation ingredients, making extreme-event attribution analysis difficult. However, in-depth understanding of the mechanism and its lifecycle is critically important to disaster mitigation and water security in warming climate. This session calls for recent advancement in combining the mesoscale, synoptic-scale, and large-scale diagnostics and modeling towards understanding mechanism, prediction and its future with a focus on weather and climate extremes particularly in East Asian monsoon system.
発表方法口頭および(または)ポスターセッション