Characteristics of Winter Haze Pollution in the Fenwei Plain and the Possible Influence of EU During 1984–2017

Abstract During the past few years, air pollution in the Fenwei Plain (FWP) region had obviously rebounded. In this study, we used quantitative analysis, difference analysis, and correlation analysis methods to analyze the temporal and spatial distribution and the influence of the meteorological and...

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Bibliographic Details
Published in:Earth and Space Science
Main Authors: Zhijun Zhao, Run Liu, Ziyin Zhang
Format: Article in Journal/Newspaper
Language:English
Published: American Geophysical Union (AGU) 2020
Subjects:
Fenwei Plain (FWP)
haze pollution
Eurasian (EU) pattern
meteorological parameters
atmospheric circulations
Astronomy
QB1-991
Geology
QE1-996.5
aleutian low
Online Access:https://doi.org/10.1029/2020EA001134
https://doaj.org/article/eefe39ddd87f4ef992b1faaf8bc0a4c8
Description
Summary:Abstract During the past few years, air pollution in the Fenwei Plain (FWP) region had obviously rebounded. In this study, we used quantitative analysis, difference analysis, and correlation analysis methods to analyze the temporal and spatial distribution and the influence of the meteorological and climatic factors on haze pollution in FWP. The results showed that on the long‐term timescale, the haze pollution had an overall upward trend during the winter of 1984–2017, and the pollution became more serious after 2000. In addition, the differences in meteorological parameters such as relative humidity, sea level pressure, temperature, vertical velocity, and wind fields near the surface between the regional haze days and the regional clean days were remarkable, indicating that the changes in these meteorological parameters had a distinct impact on haze pollution. Among several atmospheric circulations in the Northern Hemisphere mid‐high latitudes, Eurasian (EU) pattern had the most obvious influence on haze pollution via two possible pathways: First, on the interannual timescale, the evolution of EU pattern affected the changes of Siberian high and Aleutian low pressure; second, changes in EU pattern could result in changes in wind speed at 850 hPa, boundary layer height and relative humidity in the lower troposphere. All these findings may provide some help for the government to take prevention measures for haze pollution in FWP.

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