Scientific Reports (Apr 2023)

Fossil and non-fossil sources of the carbonaceous component of PM2.5 in forest and urban areas

  • Ji-Yeon Cha,
  • Kyuyeon Lee,
  • Seung-Cheol Lee,
  • Eun-Ju Lee,
  • Kwang-Jin Yim,
  • Ilhan Ryoo,
  • Minhye Kim,
  • Jinho Ahn,
  • Seung-Muk Yi,
  • Chan-Ryul Park,
  • Neung-Hwan Oh

DOI
https://doi.org/10.1038/s41598-023-32721-2
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 11

Abstract

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Abstract Atmospheric particulate matter (PM2.5) can damage human health. Biogenic organic compounds emitted from trees may increase the concentration of PM2.5 via formation of secondary aerosols. Therefore, the role of biogenic emissions in PM2.5 formation and the sources of PM2.5 need to be investigated. Dual carbon isotope and levoglucosan analyses are powerful tools to track the sources of total carbon (TC) in PM2.5. We collected a total of 47 PM2.5 samples from 2019 to 2020 inside a pine forest and in urban areas in South Korea. The average δ13C and Δ14C of TC in PM2.5 at the Taehwa Research Forest (TRF) were − 25.7 and − 380.7‰, respectively, which were not significantly different from those collected at Seoul National University (SNU) in urban areas. Contribution of fossil fuel, C3-, and C4- plants to carbonaceous component of PM2.5 were 52, 27, and 21% at SNU, whereas those were 46, 35, and 19% at TRF, respectively. The biomass burning tracer, levoglucosan, was most abundant in winter and correlated with the contribution of C4 plants derived carbon. Results indicate that biogenic aerosols emitted from trees is less likely to be an important source of PM2.5 and that trees can act as a bio-filter to reduce PM2.5.