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A combined thermodesorption and pyrolysis GC–MS approach reveals fragmentation and depolymerization products during plastic biodegradation

npj Emerging Contaminants 2026 Score: 40 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Julien Gigault Julien Gigault Adèle Luthi-Maire, Adèle Luthi-Maire, Julien Gigault Julien Gigault Julien Gigault Jesse Greener, Mia Rondinelli, Mia Rondinelli, Julien Gigault Julien Gigault Julien Gigault Julien Gigault Jesse Greener, Julien Gigault Sabhjeet Kaur, Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Saqib Ali, Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Saqib Ali, Julien Gigault Julien Gigault Adèle Luthi-Maire, Adèle Luthi-Maire, Adèle Luthi-Maire, Julien Gigault George C. diCenzo, Julien Gigault Julien Gigault Adèle Luthi-Maire, Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Adèle Luthi-Maire, Julien Gigault Jesse Greener, Adèle Luthi-Maire, Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault Julien Gigault

Summary

Researchers developed an analytical method combining thermodesorption and pyrolysis GC-MS to identify the full range of degradation products when bacteria break down polystyrene (PS) and polyvinyl chloride (PVC) plastics, detecting both soluble molecules and nano-scale polymer fragments. Understanding the complete spectrum of bacterial biodegradation products is essential for assessing whether microbial plastic degradation truly removes the hazard or simply converts it into different toxic forms.

Polymers

PS PVC

While the degradation of plastics into molecules and micro- and nanoplastics (MNPs) through abiotic processes is increasingly well documented, bacterial-driven biodegradation remains poorly understood. Yet, as microbial strategies to mitigate plastic pollution gain traction, identifying the full spectrum of degradation products, from soluble molecules to microplastics and nanoplastics, is essential for elucidating both toxicological impacts and fundamental degradation mechanisms. In this study, we developed an integrated analytical method combining thermodesorption and pyrolysis gas chromatography–mass spectrometry (TDS/Py-GC-MS). A tailored liquid–liquid extraction protocol was optimized for both polymers and applied to culture media containing microbial communities in contact with solid plastic samples. This approach enabled the identification of specific depolymerization products from polystyrene (PS) and polyvinyl chloride (PVC), including known markers (e.g., phthalic anhydride, 2-ethylhexan-1-ol, acenaphthene) and novel aromatic compounds likely associated with microbial activity, such as (1E)-1-benzylideneindene, 2-ethylcyclopentan-1-one, and benzene in samples from superworms intestinal microbiota cultivated with PS or PVC film at different temperature (n = 1). In terms of fragmentation, PS particles were recovered in varying quantities, while no PVC fragments were detected. This study provides a robust analytical framework to characterize plastic degradation and identify molecular markers of degradation.

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