El Niño–Southern Oscillation (ENSO) predictability in equilibrated warmer climates

Yiyu Zheng, M. Rugenstein, P. Pieper, Goratz Beobide‐Arsuaga, J. Baehr
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Abstract

Abstract. Responses of El Niño–Southern Oscillation (ENSO) to global warming remain uncertain, which challenges ENSO forecasts in a warming climate. We investigate changes in ENSO characteristics and predictability in idealized simulations with quadrupled CO2 forcing from seven general circulation models. Comparing the warmer climate to control simulations, ENSO variability weakens, with the neutral state lasting longer, while active ENSO states last shorter and skew to favor the La Niña state. The 6-month persistence-assessed ENSO predictability slightly reduces in five models and increases in two models under the warming condition. While the overall changes in ENSO predictability are insignificant, we find significant relationships between changes in predictability and intensity, duration, and skewness of the three individual ENSO states. The maximal contribution to changes in the predictability of El Niño, La Niña and neutral states stems from changes in skewness and events' duration. Our findings show that a robust and significant decrease in ENSO characteristics does not imply a similar change in ENSO predictability in a warmer climate. This could be due to model deficiencies in ENSO dynamics and limitations in the persistence model when predicting ENSO.
平衡温暖气候中的厄尔尼诺-南方涛动(ENSO)可预测性
摘要厄尔尼诺-南方涛动(ENSO)对全球变暖的反应仍然不确定,这对气候变暖中的ENSO预测提出了挑战。我们研究了ENSO特征和可预测性在理想化模拟中的变化,从七个总环流模型中获得了四倍的二氧化碳强迫。将温暖的气候与控制模拟进行比较,ENSO的可变性减弱,中性状态持续时间更长,而活跃的ENSO状态持续时间更短,并倾向于拉尼娜状态。在变暖条件下,五个模型中评估的ENSO可预测性的6个月持续性略有下降,两个模型中有所增加。虽然ENSO可预测性的总体变化是微不足道的,但我们发现三个单独ENSO状态的可预测性变化与强度、持续时间和偏度之间存在显著关系。厄尔尼诺、拉尼娜和中性状态的可预测性变化的最大贡献源于偏度和事件持续时间的变化。我们的研究结果表明,在气候变暖的情况下,ENSO特征的显著下降并不意味着ENSO可预测性发生类似的变化。这可能是由于ENSO动力学中的模型缺陷和预测ENSO时持久性模型的局限性。
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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