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2023

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论文题目	Revisiting the seasonal evolution of the Indian Ocean Dipole from the perspective of process-based decomposition
论文题目（英文）	Revisiting the seasonal evolution of the Indian Ocean Dipole from the perspective of process-based decomposition
作者	Zhang GL(张广隶)(1);Fan HJ(2);Huang K(2);Long T(龙桐)(1);Song W(宋伟)(1);Xie Q(谢强)(1)
发表年度
卷	22
期	5
页码
期刊名称
摘要
摘要_英文	The seasonal phase-locking feature of the Indian Ocean Dipole (IOD) is well documented. However, the seasonality tendency of sea surface temperature anomalies (SSTAs) during the development of the IOD has not been widely investigated. The SSTA tendencies over the two centers of the IOD peak in September–October–November are of different monthly amplitudes. The SSTA tendency over the west pole is small before June–July–August but dramatically increases in July–August–September. Meanwhile, the SSTA tendency over the east pole gradually increases before June–July–August and decreases since then. The growth rate attribution of the SSTAs is achieved by examining the roles of radiative and non-radiative air–sea coupled thermodynamic processes through the climate feedback–response analysis method (CFRAM). The CFRAM results indicate that oceanic dynamic processes largely contribute to the total SSTA tendency for initiating and fueling the IOD SSTAs, similar to previous studies. However, these results cannot explain the monthly amplitudes of SSTA tendency. Four negative feedback processes (cloud radiative feedback, atmospheric dynamic processes, surface sensible, and latent heat flux) together play a damping role opposite to the SSTA tendency. Nevertheless, the sea surface temperature–water vapor feedback shows positive feedback. Specifically, variations in SSTAs can change water vapor concentrations through evaporation, resulting in anomalous longwave radiation that amplifies the initial SSTAs through positive feedback. The effect of water vapor feedback is well in-phase with the monthly amplitudes of SSTA tendency, suggesting that the water vapor feedback might modulate the seasonally dependent SSTA tendency during the development of the IOD.