Intraseasonal variation of the northeast Asian anomalous anticyclone and its impacts on air pollution in the North China Plain in early winter

Abstract: Abstract. The canonical view of the northeast Asian anomalous anticyclone (NAAA) is a crucial factor for determining poor air quality in the North China Plain (NCP) on the interannual timescale. However, there is considerable intraseasonal variability in the NAAA in early winter (November to January), and the corresponding mechanism of its impacts on air pollution in the NCP is not well understood. Here, we find that the intraseasonal NAAA usually establishes quickly on day −3 with a life span of eight days, a… Show more

“…In addition, a shallower boundary layer height due to the anomalous temperature inversion in ND supports the accumulation of pollutants (Figure 3b). These conditions are related to the anticyclonic anomaly over Northeast Asia as a part of zonal wave train shown in Figure 2a (An, Chen, Fu, et al., 2022; An, Chen, Hu, et al., 2022), and together result in a higher PM 2.5 concentration anomaly over the NCP in early winter (Figures 1a and 1c). For example, such anticyclonic anomaly not only increases atmospheric stability through anomalous descent (Figure 3b), but also increases temperature and humidity by weakening the East Asian winter monsoon and transporting the anomalous warm and moist air flows (Figures 2a, 3a, and 3d).…”

“…Daily PM 2.5 concentration data in China was from Tacking Air Pollution (Geng, Xiao, et al., 2021), which has a horizontal resolution of 10 km since March 2000. This PM 2.5 data set was widely used to study air pollution in China (e.g., An, Chen, Hu, et al., 2022; Yin, Duan, et al., 2022).…”

Key Role of Arctic Sea‐Ice in Subseasonal Reversal of Early and Late Winter PM_2.5 Concentration Anomalies Over the North China Plain

“…In addition, a shallower boundary layer height due to the anomalous temperature inversion in ND supports the accumulation of pollutants (Figure 3b). These conditions are related to the anticyclonic anomaly over Northeast Asia as a part of zonal wave train shown in Figure 2a (An, Chen, Fu, et al., 2022; An, Chen, Hu, et al., 2022), and together result in a higher PM 2.5 concentration anomaly over the NCP in early winter (Figures 1a and 1c). For example, such anticyclonic anomaly not only increases atmospheric stability through anomalous descent (Figure 3b), but also increases temperature and humidity by weakening the East Asian winter monsoon and transporting the anomalous warm and moist air flows (Figures 2a, 3a, and 3d).…”

“…Daily PM 2.5 concentration data in China was from Tacking Air Pollution (Geng, Xiao, et al., 2021), which has a horizontal resolution of 10 km since March 2000. This PM 2.5 data set was widely used to study air pollution in China (e.g., An, Chen, Hu, et al., 2022; Yin, Duan, et al., 2022).…”

Key Role of Arctic Sea‐Ice in Subseasonal Reversal of Early and Late Winter PM_2.5 Concentration Anomalies Over the North China Plain

“…El Niño is usually accompanied by a weakening of the EAWM, which advects warm and moist air to East Asia such as southern China, Japan, and Korea; reversed conditions are observed in the La Niña winters, but with smaller amplitudes (e.g., Kug et al, 2012;Son et al, 2014;Ma et al, 2018a). Air pollution over northern China tends to get worse (lighter) during the El Niño (La Niña) winters due to the weakening (strengthening) of EAWM (An et al, 2022a;An et al, 2022b;Zhao et al, 2022).…”

Recent progress in understanding the interaction between ENSO and the East Asian winter monsoon: A review