Large uncertainty in observed estimates of tropical width from the meridional stream function

Weather and Climate Dynamics Pub Date : 2023-06-22 DOI:10.5194/wcd-4-531-2023

Daniel Baldassare, T. Reichler, P. Plink‐Björklund, Jacob S. Slawson

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Abstract

Abstract. Recent Hadley cell expansion rate estimates vary substantially, as a multitude of methods and reanalysis datasets yield conflicting results. Among the many methods of estimating the Hadley cell width, the meridional-stream-function 500 hPa zero crossing is the most widely used, as it is directly related to the poleward edge of the Hadley cell (HC). Other common metrics use atmospheric phenomena associated with the HC as a proxy, for instance the zonal-surface-wind zero crossing. As each of these metrics requires different reanalysis data, each with varying error, the level of data-driven uncertainty differs between each metric. While previous work has analyzed the statistical and dynamical relationships between metrics, to date no study has quantified and compared the uncertainty due to reanalysis data error in different HC metrics. In this study, we use ERA5 ensemble members, which include small perturbations in atmospheric variables based on the data error, to quantify the uncertainty associated with six commonly used HC metrics as well as the range of their trend estimates. In the Northern Hemisphere, the tropical expansion rate calculated by the stream function is roughly 0.05∘ per decade, while the Southern Hemisphere rate is 0.2∘ per decade over the period from 1979–2022. Of the six metrics, only the meridional stream function and precipitation minus evaporation have substantial uncertainties. The stream function errors are large due to uncertainty in the underlying meridional-wind data and the presence of large regions of near-neutral circulation at the poleward edge of the tropics. These errors have decreased in recent decades because of improvements in the assimilated observations. Despite these improvements, metrics which use well-observed and constrained quantities such as the zonal-surface-wind zero crossing have lower uncertainty, particularly in summer and fall in the Northern Hemisphere.

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经向流函数对热带宽度的观测估计有很大的不确定性

摘要最近的哈德利细胞扩增率估计差异很大，因为许多方法和再分析数据集产生了相互矛盾的结果。在许多估算Hadley单体宽度的方法中，经向-流函数500 hPa零点交叉是应用最广泛的方法，因为它与Hadley单体(HC)的极向边缘直接相关。其他常用的度量标准使用与高纬带相关的大气现象作为代理，例如纬向-地面-风零点交叉。由于这些指标中的每一个都需要不同的再分析数据，每个数据都有不同的误差，因此数据驱动的不确定性水平在每个指标之间是不同的。虽然以前的工作已经分析了指标之间的统计和动态关系，但迄今为止还没有研究量化和比较不同HC指标中由于再分析数据误差引起的不确定性。在本研究中，我们使用ERA5集合成员，其中包括基于数据误差的大气变量的小扰动，来量化与六个常用HC指标相关的不确定性及其趋势估计范围。在北半球，由流函数计算出的热带扩张率大约是每十年0.05个°，而在1979-2022年期间，南半球的扩张率是每十年0.2个°。在6个指标中，只有经向流函数和降水减去蒸发量具有较大的不确定性。由于潜在经向风资料的不确定性以及热带极向边缘存在大面积近中性环流，流函数误差很大。近几十年来，由于同化观测的改进，这些误差已经减少了。尽管有这些改进，但使用良好观测和约束量(如纬-地-风零点交叉)的度量具有较低的不确定性，特别是在北半球的夏秋两季。

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

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0.00%

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