Classification of large-scale environments that drive the formation of mesoscale convective systems over southern West Africa

Weather and Climate Dynamics Pub Date : 2023-09-06 DOI:10.5194/wcd-4-773-2023

F. Nkrumah, Cornelia Klein, K. A. Quagraine, Rebecca Berkoh-Oforiwaa, N. Klutse, Patrick Essien, G. M. Quenum, Hubert Azoda Koffi

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引用次数: 0

Abstract

Abstract. Mesoscale convective systems (MCSs) are frequently observed over southern West Africa (SWA) throughout most of the year. These MCS events are the dominant rain-bearing systems, contributing over 50 % of annual rainfall over SWA. However, it has not yet been identified what variations in typical large-scale environments of the seasonal cycle of the West African monsoon may favour MCS occurrence in this region. Here, nine distinct synoptic states are identified and are further associated with being a synoptic-circulation type of either a dry, transition, or monsoon season using self-organizing maps (SOMs) with inputs from reanalysis data. We identified a pronounced annual cycle of MCS numbers with frequency peaks in April and October that can be associated with the start of rainfall during the major rainy season and the maximum rainfall for the minor rainy season across SWA, respectively. Comparing daily MCS frequencies, MCSs are most likely to develop during transition conditions featuring a northward-displaced moisture anomaly (2.8 MCSs per day), which can be linked to strengthened low-level westerlies. Considering that these transition conditions occur predominantly during the pre- and post-monsoon period, these patterns may in some cases be representative of monsoon onset conditions or a delayed monsoon retreat. On the other hand, under monsoon conditions, we observe weakened low-level south-westerlies during MCS days, which reduce moisture content over the Sahel but introduce more moisture over the coast. Finally, we find a majority of MCS-day synoptic states exhibiting positive zonal wind shear anomalies. Seasons with the strongest zonal wind shear anomalies are associated with the strongest low-level temperature anomalies to the north of SWA, highlighting that a warmer Sahel can promote MCS-favourable conditions in SWA. Overall, the SOM-identified synoptic states converge towards high-moisture and high-shear conditions on MCS days in SWA, where the frequency at which these conditions occur depends on the synoptic state.

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驱动西非南部中尺度对流系统形成的大尺度环境的分类

摘要在一年的大部分时间里，在西非南部经常观测到中尺度对流系统(mcs)。这些MCS事件是主要的降雨系统，贡献了西南地区年降雨量的50%以上。然而，尚未确定西非季风季节周期的典型大尺度环境中的哪些变化可能有利于该地区MCS的发生。本文利用再分析数据输入的自组织图(SOMs)，确定了九种不同的天气状态，并进一步将其与干燥、过渡或季风季节的天气环流类型联系起来。我们确定了MCS数量的明显年周期，其频率峰值分别在4月和10月，这可能与西南地区大雨季的降雨开始和小雨季的最大降雨量有关。比较每日MCS频率，MCS最有可能在以北移的湿度异常(每天2.8 MCS)为特征的过渡条件下发展，这可能与增强的低层西风带有关。考虑到这些过渡条件主要发生在季风前和季风后时期，这些模式在某些情况下可能代表季风开始条件或延迟的季风撤退。另一方面，在季风条件下，我们观察到低空西南风在MCS期间减弱，这减少了萨赫勒地区的水分含量，但在沿海地区引入了更多的水分。最后，我们发现大多数mcs日天气状态表现为正纬向风切变异常。纬向风切变异常最强的季节与西南偏南地区北部最强烈的低层温度异常相关，这表明萨赫勒地区变暖可以促进西南偏南地区有利于mcs的条件。总体而言，som识别的天气状态在西南地区MCS日向高湿度和高切变条件趋同，这些条件发生的频率取决于天气状态。

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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