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Identification of a PFAS hyperaccumulator and elucidation of its translocation mechanism for sustainable phytoremediation

Author

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  • Xinyu Guo

    (Westlake University, Key Laboratory of Coastal Environment and Resources of Zhejiang Province, School of Engineering
    Westlake Institute for Advanced Study, Institute of Advanced Technology)

  • Xinxin Zhang

    (Westlake University, Key Laboratory of Coastal Environment and Resources of Zhejiang Province, School of Engineering)

  • Jie Chen

    (Westlake University, Key Laboratory of Coastal Environment and Resources of Zhejiang Province, School of Engineering
    Westlake Institute for Advanced Study, Institute of Advanced Technology)

  • Wenyu Shan

    (Westlake University, Key Laboratory of Coastal Environment and Resources of Zhejiang Province, School of Engineering)

  • Runyun Wang

    (Westlake University, Key Laboratory of Coastal Environment and Resources of Zhejiang Province, School of Engineering)

  • Ke Wang

    (Westlake University, Key Laboratory of Coastal Environment and Resources of Zhejiang Province, School of Engineering)

  • Zhenhuan Chen

    (Westlake University, Key Laboratory of Coastal Environment and Resources of Zhejiang Province, School of Engineering)

  • Lei Wang

    (Westlake University, Key Laboratory of Coastal Environment and Resources of Zhejiang Province, School of Engineering
    Westlake Institute for Advanced Study, Institute of Advanced Technology
    Westlake University, Research Center for Industries of the Future)

  • Yanyan Zhang

    (Westlake University, Key Laboratory of Coastal Environment and Resources of Zhejiang Province, School of Engineering
    Westlake Institute for Advanced Study, Institute of Advanced Technology
    Westlake University, Research Center for Industries of the Future)

Abstract

Remediation of soils contaminated by the globally concerning per- and polyfluoroalkyl substances (PFAS) is imperative yet challenging. Herein, we identify a PFAS hyperaccumulator, the herbaceous Oenothera rosea, in soil near a fluorochemical facility and demonstrate root-to-shoot translocation factors of 3.07 − 58.6 for 18 distinct PFAS. Comparative hydroponic/pot experiments using conspecifics from non-polluted areas confirm that hyperaccumulation arises from domestication after prolonged PFAS exposure. Root cell wall pectin and hemicellulose are critical PFAS binding sites, significantly affecting root-to-shoot translocation. Subcellular and transcriptomic analyses reveal that the hyperaccumulating O. rosea undergoes minimal cell wall remodeling under PFAS stress, a signature of adaptive evolution. Life cycle assessment further validates the environmental superiority of an integrated strategy combining O. rosea phytoremediation with biomass pyrolysis for PFAS destruction and biochar production, achieving a net-negative carbon footprint (–17.9 kg CO2/ton soil). Our work provides a comprehensive framework for PFAS remediation, from hyperaccumulator identification to sustainable field application.

Suggested Citation

  • Xinyu Guo & Xinxin Zhang & Jie Chen & Wenyu Shan & Runyun Wang & Ke Wang & Zhenhuan Chen & Lei Wang & Yanyan Zhang, 2025. "Identification of a PFAS hyperaccumulator and elucidation of its translocation mechanism for sustainable phytoremediation," Nature Communications, Nature, vol. 16(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-65191-3
    DOI: 10.1038/s41467-025-65191-3
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