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- Title
Measurement report: The 10-year trend of PM2.5 major components and source tracers from 2008 to 2017 in an urban site of Hong Kong, China.
- Authors
Chow, Wing Sze; Liao, Kezheng; Huang, X. H. Hilda; Leung, Ka Fung; Lau, Alexis K. H.; Yu, Jian Zhen
- Abstract
Fine particulate matter (PM 2.5) remains a major air pollutant of significant public health concern in urban areas. Long-term monitoring data of PM 2.5 chemical composition and source-specific tracers provide essential information for the identification of major sources as well as evaluation and planning of control measures. In this study, we present and analyze a 10-year dataset of PM 2.5 major components and source-specific tracers (e.g., levoglucosan, hopanes, K+ , Ni, V, Al, and Si) collected over the period of 2008–2017 in an urban site in Hong Kong, China. The time series of pollutants were analyzed by the seasonal and trend decomposition using the locally estimated scatter plot smoothing (LOESS) method and general least squares with the autoregressive moving average method. Bulk PM 2.5 and all its major components displayed a significant decline of varying degrees over the decade. PM 2.5 was reduced by 40 % at - 1.5 µgm-3yr-1. PM 2.5 components that are predominantly influenced by local vehicular emissions showed the steepest decline, with nitrate decreasing by - 66 %, elemental carbon by - 60 %, and hopanes by - 75 %, confirming effective control of local vehicular emissions. For components that are significantly impacted by regional transport and secondary formation, they had a notably lower percentage reduction, with sulfate declining by - 40 % and organic carbon by - 23 %, reflecting complexity in their region-wide contributing sources and formation chemistry. Levoglucosan and K+ , two tracers for biomass burning, differed in their reduction extent, with K+ at - 60 % and levoglucosan at - 47 %, indicating they likely track different biomass burning types. Dust components in PM 2.5 also decreased, by - 37 % for Al and - 46 % for Si. The year of 2011 was an anomaly in the overall trend in having higher concentrations of PM 2.5 and components than its adjacent years, and the long time series analysis attributed the anomaly to unusually lower rainfall associated with strong La Niña events. This 10-year trend analysis based on measurements exemplifies the utility of chemical composition data in support of an evidence-based approach for control policy formulation.
- Subjects
HONG Kong (China); CHINA; URBAN health; BIOMASS burning; TIME series analysis; PARTICULATE matter; PUBLIC health; AIR pollutants; PERCENTILES; TREND analysis
- Publication
Atmospheric Chemistry & Physics, 2022, Vol 22, Issue 17, p11557
- ISSN
1680-7316
- Publication type
Article
- DOI
10.5194/acp-22-11557-2022