Combined use of HYSPLIT model and MODIS aerosols optical depth to study the spatiotemporal circulation patterns of Saharan dust events over Central Europe

IF 3.1 3区 地球科学 Q2 GEOGRAPHY, PHYSICAL Aeolian Research Pub Date : 2024-03-12 DOI:10.1016/j.aeolia.2024.100899
Nadia Gammoudi , János Kovács , Fruzsina Gresina , György Varga
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Abstract

Mineral dust released from the desert region and transported into the atmosphere has a crucial impact on the Earth's climate system's biogeochemical cycle. It has serious adverse effects on human health. The Sahara is one of the world's dustiest areas. This investigation intends to uncover the underlying reasons for atmospheric dust dispersion throughout the year by tracking the dust transport and deposition in Central Europe, focusing on arid areas of North Africa. In this paper, we use the GDAS (Global Data Assimilation System) archival meteorological database to compute the analytical forward trajectories and configure the particle concentrations using the HYSPLIT (Hybrid Single-Particle Lagrangian Integrated Trajectory) model. Besides, we investigate the synoptic meteorological conditions of acute Saharan dust episodes to determine the dynamic atmospheric system during their onset. The forward trajectories reveal the seasonality of wind-blown dust throughout the year. Dust storms are typically more prevalent in the spring, with a second peak in the Summer. As a result, particle transport takes various paths as the seasons and climatic conditions change. The most dust-laden masses, which reach high altitudes from the source areas, are often transported to Central Europe, where their seasonal distribution is relatively similar to that of the studied African region. However, the intensity and frequency of Saharan dust events (SDEs) have significantly changed in the previous decades, with an increased number of intense winter storms. According to the synoptic analysis, this variability is strongly linked to two factors. (1) The intensity and lifetime variation of the Mediterranean cyclones and (2) Climate change triggered lee-side (Sharav) cyclogenesis modified by the topographic complexity of Atlas. This study also confirmed the effectiveness of the HYSPLIT model in simulating atmospheric dust after comparing it with annual aerosol optical depth measurements from MODIS (Moderate-Resolution Imaging Spectroradiometer) data.

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综合利用 HYSPLIT 模型和 MODIS 气溶胶光学深度研究中欧上空撒哈拉沙尘事件的时空环流模式
从沙漠地区释放并进入大气层的矿物尘埃对地球气候系统的生物地球化学循环有着至关重要的影响。它对人类健康有严重的不利影响。撒哈拉沙漠是世界上尘埃最多的地区之一。这项调查旨在通过跟踪中欧地区的沙尘传输和沉积情况,揭示全年大气沙尘扩散的根本原因,重点是北非干旱地区。在本文中,我们利用 GDAS(全球数据同化系统)档案气象数据库计算分析前向轨迹,并使用 HYSPLIT(混合单粒子拉格朗日综合轨迹)模型配置粒子浓度。此外,我们还研究了撒哈拉沙尘急性发作时的同步气象条件,以确定沙尘急性发作时的动态大气系统。前向轨迹揭示了全年风吹沙尘的季节性。沙尘暴通常在春季更为猖獗,夏季则是第二个高峰期。因此,随着季节和气候条件的变化,颗粒物的输送路径也各不相同。从源头地区到达高海拔地区的含尘量最高的颗粒通常会被输送到中欧,其季节分布与所研究的非洲地区相对相似。然而,撒哈拉沙尘事件(SDEs)的强度和频率在过去几十年中发生了显著变化,冬季强风暴的数量有所增加。根据同步分析,这种变化与两个因素密切相关。(1) 地中海气旋的强度和寿命变化;(2) 阿特拉斯地形复杂性改变了气候变化引发的左侧(沙拉夫)气旋生成。这项研究还证实了 HYSPLIT 模型在模拟大气尘埃方面的有效性,并将其与 MODIS(中分辨率成像分光仪)数据的年度气溶胶光学深度测量结果进行了比较。
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来源期刊
Aeolian Research
Aeolian Research GEOGRAPHY, PHYSICAL-
CiteScore
7.10
自引率
6.10%
发文量
43
审稿时长
>12 weeks
期刊介绍: The scope of Aeolian Research includes the following topics: • Fundamental Aeolian processes, including sand and dust entrainment, transport and deposition of sediment • Modeling and field studies of Aeolian processes • Instrumentation/measurement in the field and lab • Practical applications including environmental impacts and erosion control • Aeolian landforms, geomorphology and paleoenvironments • Dust-atmosphere/cloud interactions.
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