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Regional transport increased ozone pollution in the Fen-Wei Plain

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Wide landscape photograph of an industrial urban valley showing multiple large factory buildings with tall smokestacks emitting white steam and smoke plumes into a hazy atmosphere, with residential areas, green fields, and forested hills visible in the background under an overcast sky.
Research area:Environmental ScienceAtmospheric ScienceAtmospheric and Environmental Gas Dynamics

What the study found

The study found that cross-regional transport played a major role in ozone (O3) pollution in the Fen-Wei Plain, and that contributions from Henan and Hubei were linked to increases in surface ozone. It also found that this transport was associated with changes in ozone precursor sensitivity, with the system shifting toward a VOC-limited regime.

Why the authors say this matters

The authors conclude that regional transport from different source areas should be considered when making joint prevention and control strategies for ozone pollution. The study suggests that understanding how transported pollution affects ozone precursor sensitivity is important for regional air-quality management.

What the researchers tested

The researchers used multi-source observations and model simulation to study ozone pollution in the Fen-Wei Plain. Their observations included ozone lidar vertical profiles, ozone vertical flux measurements, and volatile organic compound (VOC) component data; VOCs are gases that help form ozone in the atmosphere.

What worked and what didn't

Ozone lidar showed high-concentration layers above 130 µg/m3, and ozone vertical flux showed high-concentration layers below -50 µg/(m2⋅s), which the authors interpreted as evidence of downward transport to the surface. VOCs were dominated by oxygenated volatile organic compounds (OVOCs) above 300 ppbv and alkanes above 20 ppbv. Source apportionment analysis estimated that transport from Henan and Hubei contributed 24.99% and 40.02% of surface ozone enhancement, and these larger contributions were linked with a drop in the HCHO/NO2 indicator to 1.73 and a shift toward VOC-limited conditions.

What to keep in mind

The abstract says that a lack of observations and VOC component data had limited earlier understanding of ozone formation in the region. It does not describe other limitations beyond the scope of the observations and analyses reported here.

Key points

  • Cross-regional transport contributed to surface ozone pollution in the Fen-Wei Plain.
  • Transport from Henan and Hubei accounted for 24.99% and 40.02% of surface ozone enhancement.
  • Ozone lidar showed high-concentration layers exceeding 130 µg/m3.
  • Ozone precursor sensitivity shifted toward a VOC-limited regime when transported contributions were large.
  • The HCHO/NO2 indicator dropped to 1.73 alongside stronger transported influences.

Disclosure

Research title:
Regional transport increased ozone pollution in the Fen-Wei Plain
Authors:
Yufei Han, Danni Xu, Anjie Yin, Chang Liu, Yuheng Chen, Kaihui Zhao
Institutions:
Yunnan University, Yunnan University, Yunnan University, Yunnan University, Yunnan University, Yunnan University, Yunnan University of Finance And Economics
Publication date:
2026-02-24
DOI:
10.3390/toxics14030189
OpenAlex record:
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AI provenance: This post was generated by gpt-5.4-mini (OpenAI). The original authors did not write or review this post.