The effect of diurnal warming of sea surface temperatures on the propagation speed of the Madden–Julian Oscillation

IF 3 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Eliza Karlowska, Adrian J. Matthews, Benjamin Webber, Tim Graham, Prince Xavier
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Abstract

The diurnal warm layer in the upper ocean develops during low surface winds and high incoming solar radiation conditions, often increasing sea surface temperatures (SSTs) by up to 1 ∘ C. The suppressed phase of the Madden–Julian Oscillation (MJO) favours the formation of such a layer. Here we analyse the coupled ocean–atmosphere and atmosphere‐only Numerical Weather Prediction systems of the UK Met Office to reveal that important differences arise from the representation of the diurnal warm layer in the coupled model. While both models are skilful in predicting the MJO to at least 7‐day lead time, the coupled model predicts approximately10% faster MJO propagation than the atmosphere‐only model due to the ability to resolve diurnal warming in the upper ocean that rectifies onto MJO‐associated SST anomalies. The diurnal warming of SST (dSST) in the coupled model leads to an increase in daily mean SST compared with the atmosphere‐only model persisted foundation SST. The strength of the dSST in the coupled model is modulated by MJO conditions. During suppressed MJO conditions on lead day 1, the dSST is enhanced leading to 0.2 ∘ C warmer daily mean MJO‐associated SST anomalies and increased convection in the coupled model by lead day 7. During active MJO convection, the dSST is suppressed, leading to 0.1 ∘ C colder MJO‐associated SST anomalies in the coupled model and reduced convection by lead day 7. This variability in dSST further amplifies the MJO propagation speed, underlining the importance of the two‐way feedback between the MJO and the diurnal cycle of SST and the need to accurately represent this process in coupled models. This article is protected by copyright. All rights reserved.
海表温度日变暖对麦登-朱利安涛动传播速度的影响
在低地面风和高入射太阳辐射条件下,上层海洋的日暖层形成,常常使海表温度(SSTs)升高1°c。麦登-朱利安涛动(MJO)的抑制期有利于形成这样一层。在这里,我们分析了英国气象局的耦合海洋-大气和仅大气的数值天气预报系统,以揭示耦合模式中日暖层的表示产生了重要的差异。虽然两种模式都能熟练地预测MJO至少提前7天,但耦合模式预测的MJO传播速度比大气模式快约10%,这是由于耦合模式能够解析上层海洋的日变暖,从而校正与MJO相关的海温异常。与仅大气模式持续的基础海温相比,耦合模式中海温的日增温导致日平均海温增加。耦合模型中dSST的强度由MJO条件调制。在受MJO抑制的第1天,dSST增强,导致MJO相关的日平均海温异常升高0.2°C,并在第7天导致耦合模式中的对流增加。在活跃的MJO对流期间,dSST受到抑制,导致耦合模式中与MJO相关的海温异常变冷0.1°C,并在第7天减少对流。dSST的这种变异性进一步放大了MJO的传播速度,强调了MJO和海温日循环之间双向反馈的重要性,以及在耦合模型中准确表示这一过程的必要性。这篇文章受版权保护。版权所有。
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
CiteScore
16.80
自引率
4.50%
发文量
163
审稿时长
3-8 weeks
期刊介绍: The Quarterly Journal of the Royal Meteorological Society is a journal published by the Royal Meteorological Society. It aims to communicate and document new research in the atmospheric sciences and related fields. The journal is considered one of the leading publications in meteorology worldwide. It accepts articles, comprehensive review articles, and comments on published papers. It is published eight times a year, with additional special issues. The Quarterly Journal has a wide readership of scientists in the atmospheric and related fields. It is indexed and abstracted in various databases, including Advanced Polymers Abstracts, Agricultural Engineering Abstracts, CAB Abstracts, CABDirect, COMPENDEX, CSA Civil Engineering Abstracts, Earthquake Engineering Abstracts, Engineered Materials Abstracts, Science Citation Index, SCOPUS, Web of Science, and more.
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