Hydrocarbon-based plastics: Progress and perspectives on consumption and biodegradation by insect larvae

The obvious contrast between the remarkable durability and the high consumption of plastic products leads to the deposition of at least 100 million tons of plastics per year in nature. Since 2010, several studies have shown the potential of insect larvae to biodegrade different types of plastics, at higher rates than those reported for microorganisms. This review discusses a compilation of studies about the consumption and biodegradation of hydrocarbon-based plastics, particularly PE, PS, PP and PVC, by lepidopteran and coleopteran larvae. Insects of the Coleoptera order seem to have a better adaptation for PS biodegradation, while those of the Lepidoptera order can better biodegrade PE. Tenebrio molitor biomineralize PE and PS into CO 2 , and PVC into HCl; while Tenebrio obscurus and Zophobas atratus converts PE and PS into CO 2 , respectively. Plastic biodegradation by T. molitor has been shown to be dependent on microbiota, exception for PE. Similar PS and PE biodegradation profile has been shown for T. obscurus . PS, PP and PE biodegradation by Z. atratus is also reported to be microbial-dependent. For Galleria mellonella , microbial role on PE biodegradation is still controversial, but the PS metabolism was proved to be microbiota-independent. Advances in this field has stimulated new studies with other insect species, which need to be better explored. Uncovering and understanding the chemical processes behind the innate plastic biodegradation by insect larvae will open the perspective to new eco-friendly innovative biotechnological solutions for the challenge of plastic waste. • Ability of insect larvae to biodegrade hydrocarbon-based plastics has been showed. • Coleopterans and lepidopterans are respectively linked to PS and PE biodegradation. • PS biodegradation is microbial-dependent and ubiquitous in Tenebrio genus. • Microbial action might not to be essential for PE biodegradation by G. mellonella . • Metabolic routes developed by insects would contribute to plastic waste management.