Abstract
In order to formulate policies to control regional air pollution and promote sustainable human–land system development, it is crucial to study the space–time distribution of air pollution and the population exposure risk. Existing studies are limited to individual fine particulate pollutants, which does not fully reflect the comprehensiveness of air quality. In addition, the spatiotemporal distribution of air quality and population exposure risk at different scales need to be further quantified. In this study, we used air monitoring station data and population spatial distribution data to analyze the spatiotemporal characteristics of air quality, including seasonal variations, variations before and during heating periods, and the occurrence frequency of priority pollutants in the traditional industrial areas of Northeast China in 2015. The population exposure–air pollution risk (PE-APR) model was used to calculate the population exposure risk at different spatial scales. The results suggest that GIS methods and air monitoring data help to establish a comprehensive air quality analysis framework, revealing spring–summer differentiation and the change trend of air quality with latitude. There are significant clustering features of air quality. A grid-scale population exposure–air pollution risk map is not restricted by administrative boundaries, which helps to discover high-risk areas of the main regional economic corridors and differences between inner cities and suburbs. This study provides a reference for understanding the space–time evolution of regional air pollution and formulating coordinated cross-regional air pollution strategies.
Highlights
Air pollution is an essential factor that affects populations in cities and industrial regions [1]
Based on the air monitoring station data and population distribution data of 36 cities in Northeast China, this study used GIS spatial interpolation and spatial autocorrelation analysis to quantitatively reveal the spatiotemporal characteristics of the region, in order to provide a scientific basis for further exploration of the driving mechanisms of air pollution
In order to quantitatively measure the correlation of air quality between cities and further reveal its regional characteristics, this study used the global Moran’s I spatial autocorrelation index and local Getis-Ord Gi∗ to measure the spatial autocorrelation of urban air quality
Summary
Air pollution is an essential factor that affects populations in cities and industrial regions [1]. Conducting a study on the spatiotemporal distribution of regional multi-level air pollution and assessing the population exposure risk by GIS spatial analysis methods is crucial to better understand the complexity of urban air governance and promote refined “people-oriented” environmental governance. Based on the air monitoring station data and population distribution data of 36 cities in Northeast China, this study used GIS spatial interpolation and spatial autocorrelation analysis to quantitatively reveal the spatiotemporal characteristics of the region, in order to provide a scientific basis for further exploration of the driving mechanisms of air pollution. We adopted a population-weighted air pollution exposure risk assessment model to assess people’s exposure risk at different spatial scales, and our results provide decision-making support for the formulation of environmental governance policies in regions, cities, and central urban areas
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