4-9 September 2022, Bonn, Germany
EMS Annual Meeting Abstracts
Vol. 19, EMS2022-179, 2022, updated on 28 Jun 2022
https://doi.org/10.5194/ems2022-179
EMS Annual Meeting 2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

On the extreme East Asian dust outbreak in March 2021 - dust-source attribution, dynamical assessment, and air-quality impact

Feifei Mu1, Mark Reyers1, Leon Knarr1, and Stephanie Fiedler1,2
Feifei Mu et al.
  • 1University of Cologne, Institute of Geophysics and Meteorology, Pohligstr. 3, 50969, Cologne, Germany
  • 2Hans-Ertel-Centre for Weather Research, Climate Monitoring and Diagnostics, Cologne/Bonn, Germany

In mid-March 2021, one of the strongest dust storms of the last decades hit East Asia with adverse impacts on socio-economic activities, and loss of life. The dust storm was associated with a Mongolian extra-tropical cyclone. In this study, we assess the atmospheric dynamics involved in the temporal evolution of this event and quantify contributions from the main dust source regions, namely the Gobi Desert and the Taklamakan Desert. We use the ground-based observations from Chinese observational networks, satellite images from MODIS satellite data, and model data from ERA5 and CAMS of ECMWF. Our results highlight that dust aerosols advected far towards the East primarily originated in the Gobi Desert, where anomalously strong dust-emitting winds were associated with the passage of a cold front embedded in the extra-tropical cyclone over Mongolia. The subsequently formed dust cloud of several hundred kilometers in extent led to sharp increases in the concentration of particulate matter that cause severe deterioration of the air quality across Chinese cities. Also, the Taklamakan Desert contributed to the event, but to a lesser degree than the Gobi, measured by the spatial influence across China. In the Taklamakan Desert, strong low-level easterly winds occurred with the cold air intrusion building up a substantial regional dust burden through the morning breakdown of nocturnal low-level jets. The subsequent directional change in synoptic-scale winds allowed an eastward transport of the dust-laden air from the Taklamakan Desert and increased the dust burden over Western China. Indeed the largest dust burden was seen in the West indicating that the Taklamakan Desert contributed to the dust outbreak, although dust from the Gobi Desert affected larger areas. The dust outbreak has led to record-high hourly concentrations of particulate matter in both the western and eastern cities in China based on data of the past seven years. Our results provide the first evidence for the relative contributions of dust aerosols from different East Asian dust source regions to this unusual event. It remains to be investigated how such dust outbreaks change in a warming world.

How to cite: Mu, F., Reyers, M., Knarr, L., and Fiedler, S.: On the extreme East Asian dust outbreak in March 2021 - dust-source attribution, dynamical assessment, and air-quality impact, EMS Annual Meeting 2022, Bonn, Germany, 5–9 Sep 2022, EMS2022-179, https://doi.org/10.5194/ems2022-179, 2022.

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