Author: Su, Tianning; Li, Zhanqing; Zheng, Youtong; Luan, Qingzu; Guo, Jianping
Title: Abnormally shallow boundary layer associated with severe air pollution during the COVIDâ€19 lockdown in China Cord-id: hnpxnu4j Document date: 2020_9_30
ID: hnpxnu4j
Snippet: After the 2020 Lunar New Year, the Chinese government implemented a strict nationwide lockdown to inhibit the spread of the Coronavirus Disease 2019 (COVIDâ€19). Despite the abrupt decreases in gaseous emissions caused by recordâ€low anthropogenic activities, severe haze pollution occurred in northern China during the COVID lockdown. This paradox has attracted the attention of both the public and the scientific community. By analyzing comprehensive measurements of air pollutants, planetary bou
Document: After the 2020 Lunar New Year, the Chinese government implemented a strict nationwide lockdown to inhibit the spread of the Coronavirus Disease 2019 (COVIDâ€19). Despite the abrupt decreases in gaseous emissions caused by recordâ€low anthropogenic activities, severe haze pollution occurred in northern China during the COVID lockdown. This paradox has attracted the attention of both the public and the scientific community. By analyzing comprehensive measurements of air pollutants, planetary boundary layer (PBL) height, and surface meteorology, we show that the severe air pollution episode over northern China coincided with the abnormally low PBL height, which had reduced by 45%, triggering strong aerosolâ€PBL interactions. After dynamical processes initiated the temperature inversion, the Beijing metropolitan area experienced a period with continuously shallow PBLs during the lockdown. This unprecedented event provided an experiment showcasing the role of meteorology, in particular, aerosolâ€PBL interactions in affecting air quality.
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