Replicating the Hadley cell edge and subtropical jet latitude disconnect in idealized atmospheric models

Weather and Climate Dynamics Pub Date : 2024-02-20 DOI:10.5194/wcd-5-251-2024

Molly E. Menzel, Darryn Waugh, Zheng Wu, T. Reichler

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Abstract

Abstract. Recent work has shown that variability in the subtropical jet's (STJ) latitude, ϕSTJ, is not coupled to that of the Hadley cell (HC) edge, ϕHC, but the robustness of this disconnect has not been examined in detail. Here, we use meteorological reanalysis products, comprehensive climate models, and an idealized atmospheric model to determine the necessary processes for a disconnect between ϕHC and ϕSTJ in the Northern Hemisphere's December–January–February season. We find that a decoupling can occur in a dry general circulation model, indicating that large-scale dynamical processes are sufficient to reproduce the metrics' relationship. It is therefore not reliant on explicit variability in the zonal structure, convection, or radiation. Rather, the disconnect requires a sufficiently realistic climatological basic state. Further, we confirm that the robust disconnect between ϕSTJ and ϕHC across the model hierarchy reveals their differing sensitivities to midlatitude eddy momentum fluxes; ϕHC is consistently coupled to the latitude of maximum eddy momentum flux, but ϕSTJ is not.

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在理想化大气模型中复制哈德利细胞边缘和副热带喷流纬度脱节现象

摘要最近的研究表明，副热带喷流（STJ）纬度的变化（ϕSTJ）与哈德利小区（HC）边缘的变化（ϕHC）并不耦合，但这种脱节的稳健性尚未得到详细研究。在这里，我们利用气象再分析产品、综合气候模式和理想化大气模式来确定北半球 12 月-1 月-2 月季节中 ϕHC 和 ϕSTJ 脱节的必要过程。我们发现，在干燥的大气环流模式中可以出现脱钩现象，这表明大尺度动力学过程足以再现度量关系。因此，它并不依赖于带状结构、对流或辐射的明确变化。相反，断开需要一个足够现实的气候学基本状态。此外，我们证实，ϕSTJ 和ϕHC 在整个模式层次上的强烈脱节揭示了它们对中纬度涡动量通量的不同敏感性；ϕHC 始终与最大涡动量通量的纬度耦合，而ϕSTJ 则不然。

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

Weather and Climate Dynamics

CiteScore

6.40

自引率

0.00%

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