Eunhye Kim, Seongeun Jeong, Yoon-Hee Kang, Min-Gyu Myeong, Soontae Kim
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引用次数: 0
Abstract
Understanding the impact of long-range transport (LTI) on concentrations of particulate matter with an aerodynamic diameter of 2.5 μm or less (PM2.5) is crucial for accurately assessing air quality in affected areas. We developed an integrated approach combining emissions adjustment and model bias correction to improve the replication of observed PM2.5 concentrations and estimate LTI contributions in South Korea, a representative downwind area in Northeast Asia. Using ground observations, we first adjusted emissions of sulfur dioxide, nitrogen oxides, and primary PM2.5 in China, which is upwind of South Korea. Refining factors were applied to further reduce systematic biases in estimating upwind PM2.5 concentrations and enhance LTI calculations. The results demonstrated that our approach reduced both random and systematic biases in simulated PM2.5 concentrations in China, achieving a correlation coefficient of 0.99 between the observed and simulated concentrations. These results were used to refine LTI estimates in South Korea, leading to reduced mean bias between observed and simulated concentrations. The improvements aligned well with observed PM2.5 concentration trends in both countries, highlighting the critical role of accurate LTI estimates in understanding air pollution dynamics in South Korea. Moreover, this approach was effective for assessing both short- and long-term population exposure, enhancing the accuracy of identifying “unhealthy” PM2.5 days and calculating population-weighted concentrations in South Korea. By analyzing PM2.5 concentrations, long-term trends, changes in local emission impacts, and population exposure in areas influenced by long-range transport, this method has substantial potential for broader applicability.
期刊介绍:
Environmental Pollution is an international peer-reviewed journal that publishes high-quality research papers and review articles covering all aspects of environmental pollution and its impacts on ecosystems and human health.
Subject areas include, but are not limited to:
• Sources and occurrences of pollutants that are clearly defined and measured in environmental compartments, food and food-related items, and human bodies;
• Interlinks between contaminant exposure and biological, ecological, and human health effects, including those of climate change;
• Contaminants of emerging concerns (including but not limited to antibiotic resistant microorganisms or genes, microplastics/nanoplastics, electronic wastes, light, and noise) and/or their biological, ecological, or human health effects;
• Laboratory and field studies on the remediation/mitigation of environmental pollution via new techniques and with clear links to biological, ecological, or human health effects;
• Modeling of pollution processes, patterns, or trends that is of clear environmental and/or human health interest;
• New techniques that measure and examine environmental occurrences, transport, behavior, and effects of pollutants within the environment or the laboratory, provided that they can be clearly used to address problems within regional or global environmental compartments.
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