The Indian Ocean Dipole in a warming world

Guojian Wang, Wenju Cai, Agus Santoso, Nerilie Abram, Benjamin Ng, Kai Yang, Tao Geng, Takeshi Doi, Yan Du, Takeshi Izumo, Karumuri Ashok, Jianping Li, Tim Li, Sebastian McKenna, Shuangwen Sun, Tomoki Tozuka, Xiaotong Zheng, Yi Liu, Lixin Wu, Fan Jia, Shijian Hu, Xichen Li
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Abstract

The Indian Ocean Dipole (IOD) strongly affects the climate of the Indo-Pacific. Observations suggest a shift towards stronger and earlier positive IOD (pIOD) events alongside an increased amplitude of sea surface temperature (SST) anomalies, but uncertainty remains, impeding assessments of ongoing changes. In this Review, we synthesize the available knowledge of projected changes in the IOD during the twenty-first century under anthropogenic warming. Compared to observations, models struggle to simulate the Bjerknes feedback, asymmetry in the strength of positive and negative IOD anomalies and El Niño–Southern Oscillation or monsoonal forcings. Yet several models do capture important feedbacks reasonably well and offer useful tools with which to assess IOD evolution. A pIOD-like SST warming pattern (an enhanced west-minus-east SST gradient) alongside shifts in feedback process drive corresponding changes to the IOD. Over the course of the twenty-first century, robust changes include: enhanced IOD SST variability (as measured by the first principal component of spring SST variability, not the dipole mode index); an increase in strong rainfall pIOD events; an increase and decrease in the frequency of strong-pIOD and moderate-pIOD, respectively, as defined by SST; and an increase in the frequency of early-pIOD events. Palaeo evidence reveals similar increases in the magnitude and frequency of pIOD events underpinned by a similar pattern of mean state change (Last Glacial Maximum, post-1960), reinforcing IOD projections. Sustained international efforts are needed to improve IOD simulations and reduce projection uncertainties. The Indian Ocean Dipole (IOD) exerts strong control on the Indo-Pacific climate. This Review outlines twenty-first-century changes in the IOD, noting robust increases in eastern pole sea surface temperature variability, more frequent strong and early positive IOD events, and less frequent moderate positive IOD events.

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变暖世界中的印度洋偶极子
印度洋偶极子(IOD)强烈影响着印度洋-太平洋的气候。观测结果表明,随着海表温度(SST)异常振幅的增加,印度洋正偶极(pIOD)事件正向更强、更早的方向发展,但不确定性依然存在,阻碍了对持续变化的评估。在这篇综述中,我们综合了关于 21 世纪人为变暖条件下 IOD 预计变化的现有知识。与观测结果相比,模式在模拟比耶克内斯反馈、IOD 正负异常强度的不对称性、厄尔尼诺-南方涛动或季风影响等方面存在困难。然而,有几个模式确实很好地捕捉到了重要的反馈,为评估 IOD 演变提供了有用的工具。类似于 pIOD 的 SST 变暖模式(西减东的 SST 梯度增强)以及反馈过程的变化都会引起 IOD 的相应变化。在 21 世纪期间,强有力的变化包括:IOD SST 变异性增强(以春季 SST 变异性的第一个主成分而不是偶极模式指数来衡量);强降雨 pIOD 事件增加;根据 SST 的定义,强 pIOD 和中 pIOD 的频率分别增加和减少;早期 pIOD 事件的频率增加。古生物学证据显示,在相似的平均状态变化模式(最后冰川极盛时期,1960 年后)的支撑下,pIOD 事件的规模和频率也有类似的增加,从而加强了 IOD 预测。需要国际社会持续努力,改进国际海洋学年模拟,减少预测的不确定性。
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