Spatial Distribution Characteristics and Analysis of PM[sub.2.5] in South Korea: A Geographically Weighted Regression Analysis

PM[sub.2.5] , a critical air pollutant, requires health-conscious management, with concentrations varying across regions due to diverse sources. This study, conducted in South Korea in 2021, employed the geographically weighted regression model to analyze the spatiotemporal correlations of PM[sub.2....

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Veröffentlicht in:	Atmosphere 2024-01, Vol.15 (1)
Hauptverfasser:	Lee, Ui-Jae, Kim, Myeong-Ju, Kim, Eun-Ji, Lee, Do-Won, Lee, Sang-Deok
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Sprache:	eng
Schlagworte:	Air pollution Distribution Environmental aspects Environmental monitoring Particles Vegetation zones
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creator	Lee, Ui-Jae Kim, Myeong-Ju Kim, Eun-Ji Lee, Do-Won Lee, Sang-Deok
description	PM[sub.2.5] , a critical air pollutant, requires health-conscious management, with concentrations varying across regions due to diverse sources. This study, conducted in South Korea in 2021, employed the geographically weighted regression model to analyze the spatiotemporal correlations of PM[sub.2.5] with O[sub.3] and the normalized difference vegetation index (NDVI). Regional differences in the correlation between PM[sub.2.5] and O[sub.3] were observed, influenced by common precursors (SOx, NOx, and volatile organic compounds (VOCs)), seasonal temperature variations, and solar radiation differences. Notably, PM[sub.2.5] and O[sub.3] exhibited a heightened regression coefficient in summer, emphasizing the need for specific management targeting VOCs and NO[sub.2] . The interplay between PM[sub.2.5] and NDVI revealed a negative overall impact but a positive effect in the central region of Korea, suggesting vegetation’s role in the PM[sub.2.5] concentration increase due to atmospheric stagnation caused by mountain ranges. These findings enhance our understanding of PM[sub.2.5] distribution mechanisms, highlighting the need for tailored policies in each region for effective concentration reductions.
doi_str_mv	10.3390/atmos15010069
format	Article
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This study, conducted in South Korea in 2021, employed the geographically weighted regression model to analyze the spatiotemporal correlations of PM[sub.2.5] with O[sub.3] and the normalized difference vegetation index (NDVI). Regional differences in the correlation between PM[sub.2.5] and O[sub.3] were observed, influenced by common precursors (SOx, NOx, and volatile organic compounds (VOCs)), seasonal temperature variations, and solar radiation differences. Notably, PM[sub.2.5] and O[sub.3] exhibited a heightened regression coefficient in summer, emphasizing the need for specific management targeting VOCs and NO[sub.2] . The interplay between PM[sub.2.5] and NDVI revealed a negative overall impact but a positive effect in the central region of Korea, suggesting vegetation’s role in the PM[sub.2.5] concentration increase due to atmospheric stagnation caused by mountain ranges. 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This study, conducted in South Korea in 2021, employed the geographically weighted regression model to analyze the spatiotemporal correlations of PM[sub.2.5] with O[sub.3] and the normalized difference vegetation index (NDVI). Regional differences in the correlation between PM[sub.2.5] and O[sub.3] were observed, influenced by common precursors (SOx, NOx, and volatile organic compounds (VOCs)), seasonal temperature variations, and solar radiation differences. Notably, PM[sub.2.5] and O[sub.3] exhibited a heightened regression coefficient in summer, emphasizing the need for specific management targeting VOCs and NO[sub.2] . The interplay between PM[sub.2.5] and NDVI revealed a negative overall impact but a positive effect in the central region of Korea, suggesting vegetation’s role in the PM[sub.2.5] concentration increase due to atmospheric stagnation caused by mountain ranges. 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This study, conducted in South Korea in 2021, employed the geographically weighted regression model to analyze the spatiotemporal correlations of PM[sub.2.5] with O[sub.3] and the normalized difference vegetation index (NDVI). Regional differences in the correlation between PM[sub.2.5] and O[sub.3] were observed, influenced by common precursors (SOx, NOx, and volatile organic compounds (VOCs)), seasonal temperature variations, and solar radiation differences. Notably, PM[sub.2.5] and O[sub.3] exhibited a heightened regression coefficient in summer, emphasizing the need for specific management targeting VOCs and NO[sub.2] . The interplay between PM[sub.2.5] and NDVI revealed a negative overall impact but a positive effect in the central region of Korea, suggesting vegetation’s role in the PM[sub.2.5] concentration increase due to atmospheric stagnation caused by mountain ranges. These findings enhance our understanding of PM[sub.2.5] distribution mechanisms, highlighting the need for tailored policies in each region for effective concentration reductions.</abstract><pub>MDPI AG</pub><doi>10.3390/atmos15010069</doi></addata></record>
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subjects	Air pollution Distribution Environmental aspects Environmental monitoring Particles Vegetation zones
title	Spatial Distribution Characteristics and Analysis of PM[sub.2.5] in South Korea: A Geographically Weighted Regression Analysis
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