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Integrated assessment of the chemical, microbiological and ecotoxicological effects of a bio-packaging end-of-life in compost

The Science of The Total Environment 2024 12 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 60 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Chiara Gnoffo, Chiara Gnoffo, Elisângela Silva Lopes Ricardo, Francesca Bandini, Elisângela Silva Lopes Ricardo, Filippo Vaccari, Francesca Tagliabue, Francesca Bandini, Edoardo Puglisi, Arianna De Bernardi, Daniele Duca, Filippo Vaccari, Filippo Vaccari, Filippo Vaccari, Chiara Gnoffo, Überson Boaretto Rossa, Eren Taskin, Francesca Bandini, Chiara Gnoffo, Enrica Marini, Alberto Frache, Amarildo Otávio Martins, Filippo Vaccari, Filippo Vaccari, Filippo Vaccari, Chiara Gnoffo, Chiara Gnoffo, Überson Boaretto Rossa, Eren Taskin, Gabriele Bellotti, Arianna De Bernardi, Francesca Bandini, Francesca Bandini, Enrica Marini, Ester Foppa Pedretti, Amarildo Otávio Martins, Alessio Ilari, Francesca Bandini, Francesca Bandini, Edoardo Puglisi, Edoardo Puglisi, Francesca Tagliabue, Andrea Fiorini, Andrea Fiorini, Costantino Vischetti Edoardo Puglisi, Filippo Vaccari, Cristiano Casucci, Alberto Frache, Cristiano Casucci, Edoardo Puglisi, Costantino Vischetti Gianluca Brunetti, Cristiano Casucci, Francesca Bandini, Edoardo Puglisi, Alberto Frache, Edoardo Puglisi, Alberto Frache, Filippo Vaccari, Gianluca Brunetti, Edoardo Puglisi, Arianna De Bernardi, Edoardo Puglisi, Gabriele Bellotti, Enrica Marini, Vincenzo Tabaglio, Vincenzo Tabaglio, Francesca Tagliabue, Andrea Fiorini, Edoardo Puglisi, Edoardo Puglisi, Alessio Ilari, Chiara Gnoffo, Chiara Gnoffo, Alberto Frache, Eren Taskin, Überson Boaretto Rossa, Elisângela Silva Lopes Ricardo, Amarildo Otávio Martins, Daniele Duca, Edoardo Puglisi, Ester Foppa Pedretti, Costantino Vischetti

Summary

This study tested what happens when a new type of biodegradable packaging breaks down during composting and how the residues affect earthworms. The bioplastic residues altered the earthworms' gut bacteria and caused measurable toxic effects, even though the packaging was designed to be environmentally friendly. The findings suggest that even compostable bioplastics may leave behind fragments that could affect soil organisms and potentially enter the food chain.

Body Systems

Reproductive

Models

Invertebrate other

The present study aimed to i) assess the disintegration of a novel bio-packaging during aerobic composting (2 and 6 % tested concentrations) and evaluate the resulting compost ii) analyse the ecotoxicity of bioplastics residues on earthworms; iii) study the microbial communities during composting and in 'earthworms' gut after their exposure to bioplastic residues; iv) correlate gut microbiota with ecotoxicity analyses; v) evaluate the chemico-physical characterisation of bio-packaging after composting and earthworms' exposure. Both tested concentrations showed disintegration of bio-packaging close to 90 % from the first sampling time, and compost chemical analyses identified its maturity and stability at the end of the process. Ecotoxicological assessments were then conducted on Eisenia fetida regarding fertility, growth, genotoxic damage, and impacts on the gut microbiome. The bioplastic residues did not influence the earthworms' fertility, but DNA damages were measured at the highest bioplastic dose tested. Furthermore bioplastic residues did not significantly affect the bacterial community during composting, but compost treated with 2 % bio-packaging exhibited greater variability in the fungal communities, including Mortierella, Mucor, and Alternaria genera, which can use bioplastics as a carbon source. Moreover, bioplastic residues influenced gut bacterial communities, with Paenibacillus, Bacillus, Rhizobium, Legionella, and Saccharimonadales genera being particularly abundant at 2 % bioplastic concentration. Higher concentrations affected microbial composition by favouring different genera such as Pseudomonas, Ureibacillus, and Streptococcus. For fungal communities, Pestalotiopsis sp. was found predominantly in earthworms exposed to 2 % bioplastic residues and is potentially linked to its role as a microplastics degrader. After composting, Attenuated Total Reflection analysis on bioplastic residues displayed evidence of ageing with the formation of hydroxyl groups and amidic groups after earthworm exposure.

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