Two‐way feedback between the Madden–Julian Oscillation and diurnal warm layers in a coupled ocean–atmosphere model

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

Diurnal warm layers develop in the upper ocean on sunny days with low surface wind speeds. They rectify intraseasonal sea‐surface temperatures (SSTs), potentially impacting intraseasonal weather patterns such as the Madden–Julian Oscillation (MJO). Here we analyse 15‐lead‐day forecast composites of coupled ocean–atmosphere and atmosphere‐only numerical weather prediction (NWP) models of the UK Met Office to reveal that the presence of diurnal warming of SST (dSST) leads to a faster MJO propagation in the coupled model compared with the atmosphere‐only model. To test the feedback between the MJO and the dSST, we designed a set of experiments with instantaneous vertical mixing over the top 5 or of the ocean component of the coupled model. Weaker dSST in the mixing experiments leads to a slower MJO over 15 lead days. The dSST produces a increase in the MJO phase speed between the coupled and the atmosphere‐only model. An additional increase is found for other coupling effects, unrelated to the dSST. A two‐way feedback manifests in the coupled model over the 15 lead days of the forecast between the MJO and the dSST. The MJO regime dictates the strength of the dSST and the dSST rectifies the intraseasonal anomalies of SST in the coupled model. Stronger dSST in the coupled model leads to stronger intraseasonal anomalies of SST. The MJO convection responds to these SSTs on a seven‐lead‐day timescale, and feeds back into the SST anomalies within the next three lead days. Overall, this study demonstrates the importance of high vertical resolution in the upper ocean for predicting the eastward propagation of the MJO in an NWP setting, which is potentially impactful for seasonal predictions and climate projections, should this feedback be unrepresented in the models.
海洋-大气耦合模式中的马登-朱利安涛动与日暖层间的双向反馈
在表面风速较低的晴天,海洋上层会出现昼暖层。它们会纠正季节内的海面温度(SST),从而对季节内的天气模式(如马登-朱利安涛动(MJO))产生潜在影响。在这里,我们分析了英国气象局的海洋-大气耦合模式和纯大气数值天气预报(NWP)模式的 15 领导日预报合成,发现与纯大气模式相比,海表温度昼夜温差(dSST)的存在导致 MJO 在耦合模式中传播得更快。为了检验 MJO 和 dSST 之间的反馈,我们设计了一组实验,在耦合模式的海洋部分顶部 5 或更高处进行瞬时垂直混合。在混合实验中,较弱的 dSST 会导致 MJO 在 15 个主导日中变得较慢。在耦合模式和纯大气模式之间,dSST 导致 MJO 相速度增加。与 dSST 无关的其他耦合效应也会导致相速增加。在预报的 15 个先导日内,耦合模式在 MJO 和 dSST 之间出现了双向反馈。MJO 机制决定了 dSST 的强度,而 dSST 则纠正了耦合模式中 SST 的季节内异常。耦合模式中较强的 dSST 会导致较强的季节内 SST 异常。MJO 对流在 7 个主导日的时间尺度上对这些 SST 做出响应,并在接下来的 3 个主导日内反馈到 SST 异常中。总之,这项研究证明了在 NWP 环境中预测 MJO 向东传播的上层海洋高垂直分辨率的重要性,如果这种反馈在模式中没有反映出来,则可能对季节预测和气候预测产生影响。
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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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