Abstract

Mineral dust is of great importance to climate change, air quality, and human health. In this study, multisource data, including the reanalysis data and remote sensing data, were used to compare the three dust events that occurred in the March of 2021 over Beijing and reveal the effects of atmospheric vertical structure on near-surface dust concentration. The combined effect of the Mongolian cyclone and a wide persistent cold-front induced two events (E1: from March 15 to 16 and E3: from March 28 to 29). E1 was more intense, more extensive, and longer-lasting than E3 due to the combination of the stronger Mongolian cyclone, slower high/cold surface pressure, and the low-level jet. However, under the appropriate configurations of temperature and pressure fields between high and low altitudes, weak updrafts were still induced and could elevate dust up to 850 hPa, as occurred during E2 on March 22 and 23. The dust emission was inferior to E1 and E3, which contributes to the low dust concentration near the surface in E2. On the other hand, the downdraft strength directly affected both the vertical distribution of dust and the concentration of surface particles. There was a strong temporal consistency between the occurrence of the downdraft and the dust touchdown. In E1, the continuous strong downdraft caused the maximum dust concentration to be above 4000 μg/m3 at around 200 m. In contrast, the maximum height of the dust mass concentration in E3 occurred at about 800 m due to the transient downdraft, which weakened its effect on surface visibility. Besides, the weak vertical motion in E2 caused most of the dust to become suspended in the air. Overall, the large dust emission resulted from active updrafts in the source region, and the lengthy strong downdrafts led to the ultrahigh particle concentration near the surface.

Highlights

  • Mineral dust is a key component of the Earth system

  • Different dust profiles are presented based on ground-based polarization lidar, which can reflect the vertical structure in different dust events directly

  • Considering the atmosphere during the study period was dominated by dust aerosols, we determined the lidar ratio to be a constant of 50 sr in this paper, which is the typical value for the lidar ratio of dust, from Asia and from the Sahara Desert [49,50]

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Summary

A Comparison of the Different Stages of Dust Events over

Beijing in March 2021: The Effects of the Vertical Structure on Near-Surface Particle Concentration. Futing Wang 1,2 , Ting Yang 1,3, * , Zifa Wang 1,2,3 , Jie Cao 4 , Benli Liu 5 , Jianbao Liu 6 , Shengqian Chen 6 , Shulin Liu 5 and Binghao Jia 7. Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. College of Earth and Planetary Sciences, University of Chinese Academy of Sciences, Beijing 100049, China. Group of Alpine Paleoecology and Human Adaptation, State Key Laboratory of Tibetan Plateau Earth. State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid

Introduction
Polarization Lidar
Reanalysis Datasets
Trajectory Model
FY-4A Satellite
Pollutant Data
Overview of Dust Events
Dust Emission Stage
Regional Circulation Situation
Lidar Continuous Observation
Conclusions
Full Text
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