Abstract
The discovery of plastic biodegradation by insects such as Tenebrio molitor larvae has been well known, however, understanding of the roles of larval gut microorganisms is still very limited. The contribution of the gut microbes belonging to respective Gram-positive (G+), Gram-negative (G−), and fungal (F) groups remains unclear. In this study, we tested polystyrene (PS) biodegradation by T. molitor larvae under three selective antibiotics i.e., gentamicin sulfate (GMS) against G− bacteria, ampicillin (AMP) against G+ bacteria and nystatin (NS) against fungi. The larvae consumed and biodegraded PS foams with Mn 86.381 kDa and Mw 181.176 kDa under antibiotic suppressions at reduced rates versus control (CK) with a sequence of CK>GMS>AMP>NS group. Specifically, only NS group showed a significant decreased in consumption compared to the control. The gut microbial counts decreased with GMS, AMP, or NS addition during the PS feeding. The respective gut microbial counts decreased by 103 to 104 with GMS, AMP, or NS addition PS feeding. Analyses of DSC, TGA, FTIR confirmed oxidation and biodegradation in the presence of antibiotics. The ingested PS polymers were depolymerized and mass reduction with negative influence in the order of NS<AMP<GMS. The negative impact of antibiotic suppression on PS biodegradation process was as follows: anti-fungi reagent > anti-G+ bacteria > anti- G− bacteria. Changes in chemical functional groups are probably related to certain gut microbes, such as the fungal genus of Candida, and bacterial genera of unclassified Enterobacteriaceae and Lactobacillus. Our findings provided new insights into the mechanisms of the biodegradation of plastics in insects.
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