印度太平洋
马登-朱利安振荡
气候学
中国
海洋学
印度洋
环境科学
太平洋
地质学
地理
气象学
对流
生态学
生物
考古
作者
Lianyi Zhang,Yan Du,Yuhong Zhang,Zesheng Chen,Yun Liang,Teng Wang
出处
期刊:Journal of Climate
[American Meteorological Society]
日期:2025-05-22
卷期号:38 (15): 3801-3814
被引量:2
标识
DOI:10.1175/jcli-d-24-0620.1
摘要
Abstract Climate conditions over East Asia are significantly affected by coupled ocean–atmosphere interaction in the tropical Indo-Pacific Ocean. In April 2024, South China suffered two rounds of extreme rainfall, occurring from 30 March to 6 April and from 19 to 30 April, resulting in the earliest flood over the Pearl River basin since 1998. This study finds that the early Indo–western Pacific Ocean capacitor (IPOC) effect and the Madden–Julian oscillation (MJO) jointly contributed to the extreme rainfall. Co-occurrence of El Niño and positive Indian Ocean dipole events in 2023–24 led to strong sea surface temperature (SST) warming in the western tropical Indian Ocean via wind forcings and oceanic waves. Such SST warming induced persistent easterly wind anomalies and maintained the anomalous anticyclonic circulation (AAC) over the western North Pacific. The IPOC effect was hence activated in April, approximately 2 months earlier than expected, inducing stronger northward water vapor transport. Moreover, two MJO events were observed in April. With the eastward propagation into the eastern Indian Ocean (phases 1–3), the MJO events facilitated the southwest flank of the AAC and enhanced the northward water vapor transport, leading to extreme rainfall along with strong convection in South China. This study emphasizes the synergistic contributions of climate modes on different time scales to extreme weather.
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