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Microbial Transformation of Polyethylene Terephthalate Microplastics by Wetland-Derived Microbial Communities: Implications for Coastal Sediment Systems

Author

Listed:
  • Jing Dong

    (Department of Environmental Science and Engineering, Fudan University, Shanghai 200433, China)

  • Guo Li

    (Department of Environmental Science and Engineering, Fudan University, Shanghai 200433, China
    MOE Key Laboratory for Biodiversity Science and Ecological Engineering, National Observations and Research Station for Wetland Ecosystems of the Yangtze Estuary, School of Life Sciences, Fudan University, Shanghai 200433, China)

  • Jiao Ran

    (Department of Environmental Science and Engineering, Fudan University, Shanghai 200433, China)

  • Zhe Li

    (Department of Environmental Science and Engineering, Fudan University, Shanghai 200433, China)

  • Shanyuan Xue

    (Department of Environmental Science and Engineering, Fudan University, Shanghai 200433, China)

  • Dan Zhou

    (Yancheng Tiaozini Wetland Research Institute Co., Ltd., Yancheng 224237, China)

  • Weizhen Zhang

    (School of Ecological Environment, Chengdu University of Technology, Chengdu 610059, China)

  • Zheng Zheng

    (Department of Environmental Science and Engineering, Fudan University, Shanghai 200433, China)

Abstract

Microplastics are persistent contaminants in coastal wetlands, yet the mechanisms of their microbial transformation remain poorly understood. This study examined the interactions between a wetland sediment-derived microbial consortium and polyethylene terephthalate (PET) fibers over a 60-day incubation. After 60 days, the consortium caused a PET weight loss of 13.7 ± 0.9%, whereas the abiotic control showed a less than 2% loss. The water contact angle decreased from 77.5 ± 1.2° to 75.8 ± 0.4°, suggesting enhanced surface hydrophilicity. Multi-scale surface analyses (SEM, WCA, and FTIR) confirmed progressive microbial colonization, increased surface roughness, and enhanced hydrophilicity through microbially mediated modification. High-throughput 16S rRNA sequencing unveiled a distinct community succession; PET exerted selective pressure that reduced alpha-diversity while enriching specific functional taxa such as Acinetobacter and Pseudomonas . Moreover, isolation and co-culture assays confirmed the importance of synergistic microbial interactions in PET transformation, with co-culture of four representative isolates causing 9.2 ± 0.1% PET weight loss, compared with only 1.7–3.2% in monocultures. These findings underscore the intrinsic natural attenuation potential of wetland ecosystems and provide a critical scientific basis for developing nature-based management strategies. By identifying key functional taxa and PET-associated transformation pathways, this work supports the establishment of early-warning mechanisms to safeguard the ecological integrity and soil health of coastal World Natural Heritage sites like the Tiaozini Wetland.

Suggested Citation

  • Jing Dong & Guo Li & Jiao Ran & Zhe Li & Shanyuan Xue & Dan Zhou & Weizhen Zhang & Zheng Zheng, 2026. "Microbial Transformation of Polyethylene Terephthalate Microplastics by Wetland-Derived Microbial Communities: Implications for Coastal Sediment Systems," Land, MDPI, vol. 15(3), pages 1-21, March.
  • Handle: RePEc:gam:jlands:v:15:y:2026:i:3:p:495-:d:1898960
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