Tracing local sources and long-range transport of PM10 in central Taiwan by using chemical characteristics and Pb isotope ratios

Central Taiwan is among the most heavily polluted regions in Taiwan because of a complex mixing of local emissions from intense anthropogenic activities with natural dust. Long-range transport (LRT) of pollutants from outside Taiwan also contributes critically to the deterioration of air quality, es...

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Bibliographic Details
Published inScientific reports Vol. 11; no. 1; pp. 1 - 15
Main Authors Wu, Po-Chao, Huang, Kuo-Fang
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 07.04.2021
Nature Publishing Group
Nature Portfolio
Subjects
704/172/169/209
704/172/169/824
704/172/169/895
Air quality
Anthropogenic factors
Combustion
Dust
Dust storms
Humanities and Social Sciences
Isotopes
Lead
Metal concentrations
Monsoons
multidisciplinary
Multiple regression analysis
Oil refineries
Particulate matter
Pollutants
Pollution dispersion
Refineries
Science
Science (multidisciplinary)
Sediments
Trace metals
Wind
Wind speed
Taiwan
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Summary:Central Taiwan is among the most heavily polluted regions in Taiwan because of a complex mixing of local emissions from intense anthropogenic activities with natural dust. Long-range transport (LRT) of pollutants from outside Taiwan also contributes critically to the deterioration of air quality, especially during the northeast monsoon season. To identify the sources of particulate matter < 10 μm (PM 10 ) in central Taiwan, this study performed several sampling campaigns, including three local events, one LRT event, and one dust storm event, during the northeast monsoon season of 2018/2019. The PM 10 samples were analyzed for water-soluble ion and trace metal concentrations as well as Pb isotope ratios. Local sediments were also collected and analyzed to constrain chemical/isotopic signatures of natural sources. The Pb isotope data were interpreted together with the enrichment factors and elemental ratios of trace metals in PM 10 , and reanalysis data sets were used to delineate the sources of PM 10 in central Taiwan. Our results suggested that Pb in PM 10 was predominantly contributed by oil combustion and oil refineries during the local events (48–88%), whereas the lowest contributions were from coal combustion (< 21%). During periods of high wind speed, the contribution from natural sources increased significantly from 13 to 31%. Despite Pb represented only a small portion of PM 10 , a strong correlation (r = 0.89, p  < 0.001, multiple regression analysis) between PM 10 mass and the concentrations of Pb, V, and Al was observed in the study area, suggesting that the sources of PM 10 in central Taiwan can be possibly tracked by using chemical characteristics and Pb isotopes in PM 10 . Moreover, the Pb isotopic signals of PM 10 collected during the LRT event confirmed the impact of LRT from Mainland China, and the chemical characteristics of the PM 10 significantly differed from those of the PM 10 collected during local events. This study demonstrates the robustness of using a combination of Pb isotopic compositions and chemical characteristics in PM 10 for source tracing in complex and heavily polluted areas.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-87051-y