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Locating the missing absorption enhancement due to multi‒core black carbon aerosols

Author

Listed:
  • Xiyao Chen

    (Zhejiang University, State Key Laboratory of Ocean Sensing and Department of Atmospheric Sciences, School of Earth Sciences)

  • Joseph Ching

    (The Education University of Hong Kong, Department of Science and Environmental Studies)

  • Feng Wu

    (Chinese Academy of Science, Key Laboratory of Aerosol Chemistry and Physics and State Key Laboratory of Loess and Quaternary Geology, Institute of Earth Environment)

  • Hitoshi Matsui

    (Nagoya University, Graduate School of Environmental Studies)

  • Mark Z. Jacobson

    (Stanford University, Department of Civil and Environmental Engineering)

  • Fan Zhang

    (Zhejiang University, State Key Laboratory of Ocean Sensing and Department of Atmospheric Sciences, School of Earth Sciences)

  • Yuanyuan Wang

    (Zhejiang University, State Key Laboratory of Ocean Sensing and Department of Atmospheric Sciences, School of Earth Sciences)

  • Zexuan Zhang

    (Zhejiang University, State Key Laboratory of Ocean Sensing and Department of Atmospheric Sciences, School of Earth Sciences)

  • Dantong Liu

    (Zhejiang University, State Key Laboratory of Ocean Sensing and Department of Atmospheric Sciences, School of Earth Sciences)

  • Shupeng Zhu

    (Zhejiang University, State Key Laboratory of Ocean Sensing and Department of Atmospheric Sciences, School of Earth Sciences)

  • Yinon Rudich

    (Weizmann Institute of Science, Department of Earth and Planetary Sciences)

  • Zongbo Shi

    (University of Birmingham, School of Geography, Earth and Environmental Sciences)

  • Hanjin Yoo

    (Inha University, Particle Pollution Research and Management Centre)

  • Ki-Joon Jeon

    (Inha University, Department of Environmental Engineering)

  • Weijun Li

    (Zhejiang University, State Key Laboratory of Ocean Sensing and Department of Atmospheric Sciences, School of Earth Sciences)

Abstract

Black carbon (BC) aerosols, with their strong light-absorbing ability, are major drivers of the global climate. In existing models, BC aerosols are simplified as a single core when determining radiative effects. Here, we found that 21% of BC aerosols contain multiple cores during a wildfire smoke observation. By considering dynamic effective medium approximation (DEMA) with Mie theory and assuming randomly distributed multi‒core BC, the light absorption was 1.81 times greater than that under the single‒core assumption for particles with overall diameters >400 nm and core diameters >200 nm. A machine learning emulator was developed for DEMA-based absorption enhancements and incorporated into a global atmospheric model. For global aerosol absorption, multi‒core BC particles lead to a 19% increase, especially in wildfire-affected regions. This study emphasizes the critical role of multi‒core BC particles in amplifying radiative forcing and the necessity to revise models for the simulation of BC climate impact.

Suggested Citation

  • Xiyao Chen & Joseph Ching & Feng Wu & Hitoshi Matsui & Mark Z. Jacobson & Fan Zhang & Yuanyuan Wang & Zexuan Zhang & Dantong Liu & Shupeng Zhu & Yinon Rudich & Zongbo Shi & Hanjin Yoo & Ki-Joon Jeon &, 2025. "Locating the missing absorption enhancement due to multi‒core black carbon aerosols," Nature Communications, Nature, vol. 16(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-65079-2
    DOI: 10.1038/s41467-025-65079-2
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    References listed on IDEAS

    as
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    8. Payton Beeler & Joshin Kumar & Joshua P. Schwarz & Kouji Adachi & Laura Fierce & Anne E. Perring & J. M. Katich & Rajan K. Chakrabarty, 2024. "Light absorption enhancement of black carbon in a pyrocumulonimbus cloud," Nature Communications, Nature, vol. 15(1), pages 1-7, December.
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    1. Xiyao Chen & Joseph Ching & Feng Wu & Hitoshi Matsui & Mark Z. Jacobson & Fan Zhang & Yuanyuan Wang & Zexuan Zhang & Dantong Liu & Shupeng Zhu & Yinon Rudich & Zongbo Shi & Hanjin Yoo & Ki-Joon Jeon &, 2025. "Locating the missing absorption enhancement due to multi‒core black carbon aerosols," Nature Communications, Nature, vol. 16(1), pages 1-12, December.

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