The El Niño Southern Oscillation (ENSO) Recharge Oscillator Conceptual Model: Achievements and Future Prospects

IF 25.2 1区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Reviews of Geophysics Pub Date : 2025-03-20 DOI:10.1029/2024RG000843

J. Vialard, F.-F. Jin, M. J. McPhaden, A. Fedorov, W. Cai, S.-I. An, D. Dommenget, X. Fang, M. F. Stuecker, C. Wang, A. Wittenberg, S. Zhao, F. Liu, S.-K. Kim, Y. Planton, T. Geng, M. Lengaigne, A. Capotondi, N. Chen, L. Geng, S. Hu, T. Izumo, J.-S. Kug, J.-J. Luo, S. McGregor, B. Pagli, P. Priya, S. Stevenson, S. Thual

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Abstract

The recharge oscillator (RO) is a simple mathematical model of the El Niño Southern Oscillation (ENSO). In its original form, it is based on two ordinary differential equations that describe the evolution of equatorial Pacific sea surface temperature and oceanic heat content. These equations make use of physical principles that operate in nature: (a) the air-sea interaction loop known as the Bjerknes feedback, (b) a delayed oceanic feedback arising from the slow oceanic response to winds within the equatorial band, (c) state-dependent stochastic forcing from fast wind variations known as westerly wind bursts (WWBs), and (d) nonlinearities such as those related to deep atmospheric convection and oceanic advection. These elements can be combined at different levels of RO complexity. The RO reproduces ENSO key properties in observations and climate models: its amplitude, dominant timescale, seasonality, and warm/cold phases amplitude asymmetry. We discuss the RO in the context of timely research questions. First, the RO can be extended to account for ENSO pattern diversity (with events that either peak in the central or eastern Pacific). Second, the core RO hypothesis that ENSO is governed by tropical Pacific dynamics is discussed from the perspective of influences from other basins. Finally, we discuss the RO relevance for studying ENSO response to climate change, and underline that accounting for ENSO diversity, nonlinearities, and better links of RO parameters to the long term mean state are important research avenues. We end by proposing important RO-based research problems.

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El Niño南方涛动（ENSO）补给振荡概念模型：成就与未来展望

补给振子（RO）是El Niño南方涛动（ENSO）的一个简单数学模型。它的原始形式是基于描述赤道太平洋海面温度和海洋热含量演变的两个常微分方程。这些方程利用了自然界中运行的物理原理：(a)被称为比耶克内反馈的海气相互作用环，(b)由赤道带内风的缓慢海洋响应引起的延迟海洋反馈，(c)由被称为西风爆发的快速风变化引起的依赖状态的随机强迫，以及(d)非线性，如与深层大气对流和海洋平流有关的非线性。这些元素可以在RO的不同复杂程度上进行组合。RO在观测和气候模式中再现ENSO的关键特性：振幅、主导时间尺度、季节性和冷暖相位振幅不对称性。我们在及时的研究问题的背景下讨论RO。首先，RO可以扩展到考虑ENSO模式多样性（在太平洋中部或东部达到峰值的事件）。其次，从其他盆地的影响角度讨论了ENSO受热带太平洋动力控制的核心RO假说。最后，我们讨论了RO与研究ENSO对气候变化响应的相关性，并强调考虑ENSO的多样性、非线性以及RO参数与长期平均状态的更好联系是重要的研究途径。最后，我们提出了一些重要的基于ro的研究问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Reviews of Geophysics 地学-地球化学与地球物理

CiteScore

50.30

自引率

0.80%

发文量

审稿时长

12 months

期刊介绍： Geophysics Reviews (ROG) offers comprehensive overviews and syntheses of current research across various domains of the Earth and space sciences. Our goal is to present accessible and engaging reviews that cater to the diverse AGU community. While authorship is typically by invitation, we warmly encourage readers and potential authors to share their suggestions with our editors.