The Impacts of Taklimakan Dust Events on Chinese Urban Air Quality in 2015

Xiaoyu Li,Zhi-Yong Yin,Xiaodong Liu

doi:10.3390/atmos9070281

Abstract

Aerosols are an important factor affecting air quality. As the largest source of dust aerosol of East Asia, the Taklimakan Desert in Northwest China witnesses frequent dust storm events, which bring about significant impacts on the downstream air quality. However, the scope and timing of the impacts of Taklimakan dust events on Chinese urban air quality have not yet been fully investigated. In this paper, based on multi-source dust data including ground observations, satellite monitoring, and reanalysis products, as well as air quality index (AQI) and the mass concentrations of PM10 and PM2.5 at 367 urban stations in China for 2015, we examined the temporal and spatial characteristics of the impacts of the Taklimakan dust events on downstream urban air quality in China. The results show that the Taklimakan dust events severely affected the air quality of most cities in Northwest China including eastern Xinjiang, Hexi Corridor and Guanzhong Basin, and even northern Southwest China, leading to significant increases in mass concentrations of PM10 and PM2.5 in these cities correlating with the occurrence of dust events. The mass concentrations of PM10 on dust days increased by 11–173% compared with the non-dust days, while the mass concentration of PM2.5 increased by 21–172%. The increments of the mass concentrations of PM10 and PM2.5 on dust days decreased as the distances increased between the cities and the Taklimakan Desert. The influence of the Taklimakan dust events on the air quality in the downstream cities usually persisted for up to four days. The mass concentrations of PM10 and PM2.5 increased successively and the impact duration shortened gradually with increasing distances to the source area as a strong dust storm progressed toward the southeast from the Taklimakan Desert. The peaks of the PM10 concentrations in the downstream cities of eastern Xinjiang, the Hexi Corridor and the Guanzhong Basin occurred on the second, third and fourth days, respectively, after the initiation of the Taklimakan dust storm.

Highlights

In recent years, global air quality and atmospheric pollution and their impacts on climate and environment have received extensive attention [1]
As a type of aerosol, aeolian dust is an important source of atmospheric particulate matter (PM), a natural factor influencing the concentration of air pollutants through a series of chemical reactions in the downstream areas [7,8], and a significant risk factor for human health, which is closely associated with the morbidity of respiratory and cardiovascular diseases [9,10,11]
Only a few studies have analyzed the characteristics of the impacts of dust events on the air pollution at a large spatial scale in detail

Summary

Introduction

Global air quality and atmospheric pollution and their impacts on climate and environment have received extensive attention [1]. Atmosphere 2018, 9, 281 production, transportation and human domestic activities, the air pollution sources include natural sources, especially aeolian dust. As a type of aerosol, aeolian dust is an important source of atmospheric particulate matter (PM), a natural factor influencing the concentration of air pollutants through a series of chemical reactions in the downstream areas [7,8], and a significant risk factor for human health, which is closely associated with the morbidity of respiratory and cardiovascular diseases [9,10,11]. The Gobi Desert in Mongolia and the Taklimakan and Badain Juran

Methods

Results

Conclusion