Litcius/Paper detail

Health risk assessment and source apportionment of PM2.5-bound toxic elements in the industrial city of Siheung, Korea

Young Su Lee, Young Kwon Kim, Eunhwa Choi, Hyeri Jo, Hyeseung Hyun, Seung‐Muk Yi, Jae Young Kim

2022Environmental Science and Pollution Research24 citationsDOIOpen Access PDF

Abstract

Abstract The emission sources and their health risks of fine particulate matter (PM 2.5 ) in Siheung, Republic of Korea, were investigated as a middle-sized industrial city. To identify the PM 2.5 sources with error estimation, a positive matrix factorization model was conducted using daily mean speciated data from November 16, 2019, to October 2, 2020 (95 samples, 22 chemical species). As a result, 10 sources were identified: secondary nitrate (24.3%), secondary sulfate (18.8%), traffic (18.8%), combustion for heating (12.6%), biomass burning (11.8%), coal combustion (3.6%), heavy oil industry (1.8%), smelting industry (4.0%), sea salts (2.7%), and soil (1.7%). Based on the source apportionment results, health risks by inhalation of PM 2.5 were assessed for each source using the concentration of toxic elements portioned. The estimated cumulative carcinogenic health risks from the coal combustion, heavy oil industry, and traffic sources exceeded the benchmark, 1E-06. Similarly, carcinogenic health risks from exposure to As and Cr exceeded 1E-05 and 1E-06, respectively, needing a risk reduction plan. The non-carcinogenic risk was smaller than the hazard index of one, implying low potential for adverse health effects. The probable locations of sources with relatively higher carcinogenic risks were tracked. In this study, health risk assessment was performed on the elements for which mass concentration and toxicity information were available; however, future research needs to reflect the toxicity of organic compounds, elemental carbon, and PM 2.5 itself.

Topics & Concepts

Health risk assessmentEnvironmental scienceCoal combustion productsApportionmentRisk assessmentEnvironmental chemistryParticulatesHealth riskEnvironmental healthCombustionInhalation exposureCoalPollutantToxicologyWaste managementChemistryToxicityEngineeringMedicineComputer securityOrganic chemistryLawComputer sciencePolitical scienceBiologyAir Quality and Health ImpactsAtmospheric chemistry and aerosolsEnergy and Environment Impacts
Health risk assessment and source apportionment of PM2.5-bound toxic elements in the industrial city of Siheung, Korea | Litcius