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Uncovering global-scale risks from commercial chemicals in air

Author

Listed:
  • Qifan Liu

    (Environment and Climate Change Canada
    University of Science and Technology of China)

  • Li Li

    (University of Nevada Reno)

  • Xianming Zhang

    (Environment and Climate Change Canada
    Conservation and Parks
    Concordia University)

  • Amandeep Saini

    (Environment and Climate Change Canada)

  • Wenlong Li

    (Environment and Climate Change Canada
    Harbin Institute of Technology)

  • Hayley Hung

    (Environment and Climate Change Canada)

  • Chunyan Hao

    (Conservation and Parks)

  • Kun Li

    (Environment and Climate Change Canada
    Paul Scherrer Institute (PSI))

  • Patrick Lee

    (Environment and Climate Change Canada)

  • Jeremy J. B. Wentzell

    (Environment and Climate Change Canada)

  • Chunyan Huo

    (Environment and Climate Change Canada
    Harbin Institute of Technology)

  • Shao-Meng Li

    (Peking University)

  • Tom Harner

    (Environment and Climate Change Canada)

  • John Liggio

    (Environment and Climate Change Canada)

Abstract

Commercial chemicals are used extensively across urban centres worldwide1, posing a potential exposure risk to 4.2 billion people2. Harmful chemicals are often assessed on the basis of their environmental persistence, accumulation in biological organisms and toxic properties, under international and national initiatives such as the Stockholm Convention3. However, existing regulatory frameworks rely largely upon knowledge of the properties of the parent chemicals, with minimal consideration given to the products of their transformation in the atmosphere. This is mainly due to a dearth of experimental data, as identifying transformation products in complex mixtures of airborne chemicals is an immense analytical challenge4. Here we develop a new framework—combining laboratory and field experiments, advanced techniques for screening suspect chemicals, and in silico modelling—to assess the risks of airborne chemicals, while accounting for atmospheric chemical reactions. By applying this framework to organophosphate flame retardants, as representative chemicals of emerging concern5, we find that their transformation products are globally distributed across 18 megacities, representing a previously unrecognized exposure risk for the world’s urban populations. More importantly, individual transformation products can be more toxic and up to an order-of-magnitude more persistent than the parent chemicals, such that the overall risks associated with the mixture of transformation products are also higher than those of the parent flame retardants. Together our results highlight the need to consider atmospheric transformations when assessing the risks of commercial chemicals.

Suggested Citation

  • Qifan Liu & Li Li & Xianming Zhang & Amandeep Saini & Wenlong Li & Hayley Hung & Chunyan Hao & Kun Li & Patrick Lee & Jeremy J. B. Wentzell & Chunyan Huo & Shao-Meng Li & Tom Harner & John Liggio, 2021. "Uncovering global-scale risks from commercial chemicals in air," Nature, Nature, vol. 600(7889), pages 456-461, December.
  • Handle: RePEc:nat:nature:v:600:y:2021:i:7889:d:10.1038_s41586-021-04134-6
    DOI: 10.1038/s41586-021-04134-6
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    Citations

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    Cited by:

    1. Timothy F. M. Rodgers & Amanda Giang & Miriam L. Diamond & Emma Gillies & Amandeep Saini, 2023. "Emissions and fate of organophosphate esters in outdoor urban environments," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    2. Wei Luo & Ming-Jun Chen & Ting Wang & Jin-Feng Feng & Zhi-Cheng Fu & Jin-Ni Deng & Yuan-Wei Yan & Yu-Zhong Wang & Hai-Bo Zhao, 2024. "Catalytic polymer self-cleavage for CO2 generation before combustion empowers materials with fire safety," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    3. Hongyan Zou & Tao Wang & Zhong-Liang Wang & Zhanyun Wang, 2023. "Continuing large-scale global trade and illegal trade of highly hazardous chemicals," Nature Sustainability, Nature, vol. 6(11), pages 1394-1405, November.

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