[口头报告]Strong Eddy Kinetic Energy Anomaly Induced by Baroclinic Instability in the Southwest Region of the Kerguelen Plateau, East Antarctic

Strong Eddy Kinetic Energy Anomaly Induced by Baroclinic Instability in the Southwest Region of the Kerguelen Plateau, East Antarctic
编号:2652 稿件编号:1329 访问权限:仅限参会人 更新:2024-04-12 15:34:49 浏览:461次 口头报告

报告开始:2024年05月18日 14:55 (Asia/Shanghai)

报告时间:10min

所在会议:[S17] 主题17、冰冻圈科学 » [S17-1] 主题17、冰冻圈科学 专题17.1、专题17.2、专题17.3(18日下午,306)

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摘要
Eddy activities are particularly prominent in the Southern Ocean due to the instabilities of the dynamic Antarctic Circumpolar Current (ACC), which plays a critical role in energy transport of the global ocean. The Indian sector of the Southern Ocean is a typical eddy-rich region with strong Eddy Kinetic Energy (EKE) and associated energy conversions among different energy reservoirs (kinetic energy and potential energy of the eddy and mean flow). In this study, a systematic energetics analysis framework is employed to examine the notable anomalies of an intensified EKE event observed in the southwest region of the Kerguelen Plateau in 2017 based on a reanalysis product. The EKE anomaly emerges in April, reaches its peak during the austral winter, and persists into the following summer. Energetics analysis indicates that the strong anomalous EKE is primarily determined by baroclinic instability, with distinct governing mechanisms at the surface and in the internal ocean. The intrusion of anomalous warm Circumpolar Deep Water intensifies the baroclinic energy conversion in the subsurface, which contributes to the observed EKE anomalies. Moreover, the anomalous strong wind-induced Ekman pumping serves to amplify the lifting of isopycnals, which enhances the baroclinic instability and subsequently intensifies the EKE anomalies. This study sheds new light on underlying mechanisms governing local polar dynamics and provides insights into the intricate interaction between ocean dynamics and energy distribution in the Antarctic.
关键字
Eddy Kinetic Energy,Baroclinic Instability,Circumpolar Deep Water,Polar Dynamics
报告人
何韵竹
博士研究生 上海交通大学

稿件作者
何韵竹 上海交通大学
周朦 上海交通大学
康杜娟 上海交通大学
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