印度洋海温异常对南半球中高层大气的影响
编号:1113
稿件编号:723 访问权限:仅限参会人
更新:2026-04-13 16:25:00 浏览:92次
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报告开始:2026年04月28日 09:30 (Asia/Shanghai)
报告时间:10min
所在会议:[S1-30] 专题1.30 低层大气与临近空间耦合 » [F57] 专题1.30 低层大气与临近空间耦合
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摘要
An index representing the midlatitude Indian Ocean Dipole (MIOD) is derived from the second empirical orthogonal function (EOF) mode of austral winter (JJA) sea surface temperature (SST) anomalies to examine its impact on the Southern Hemisphere middle and upper atmosphere. ERA5 reanalysis datasets, together
with satellite observations and WACCM6 simulations, are used to analyze the associated atmospheric responses
to MIOD. The results show pronounced but asymmetric impacts between positive and negative events, primarily
driven by differences in wavenumber-1 planetary wave activity. Positive MIOD events enhance planetary-wave
propagation from the Indian Ocean sector, leading to momentum deposition, variations in temperature, zonal
winds, as well as a strengthening of the residual meridional circulation. These dynamical anomalies warm the
midlatitudes and modify the vortex’s vertical–meridional structure. Changes in stratospheric winds further regulate gravity-wave filtering, providing a pathway for SST signals to extend upward into the mesosphere. In
contrast, negative events generally produce weaker and less statistically robust signals. These results identify Indian Ocean SST variability as an additional driver of large-scale atmospheric variability and reveal a previously
underappreciated pathway through which the Indian Ocean can influence the middle and upper atmosphere at
interannual timescales.
with satellite observations and WACCM6 simulations, are used to analyze the associated atmospheric responses
to MIOD. The results show pronounced but asymmetric impacts between positive and negative events, primarily
driven by differences in wavenumber-1 planetary wave activity. Positive MIOD events enhance planetary-wave
propagation from the Indian Ocean sector, leading to momentum deposition, variations in temperature, zonal
winds, as well as a strengthening of the residual meridional circulation. These dynamical anomalies warm the
midlatitudes and modify the vortex’s vertical–meridional structure. Changes in stratospheric winds further regulate gravity-wave filtering, providing a pathway for SST signals to extend upward into the mesosphere. In
contrast, negative events generally produce weaker and less statistically robust signals. These results identify Indian Ocean SST variability as an additional driver of large-scale atmospheric variability and reveal a previously
underappreciated pathway through which the Indian Ocean can influence the middle and upper atmosphere at
interannual timescales.
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海洋温度,中高层大气
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