Management of bioplastic waste: a critical analysis of biodegradation and recycling approaches

Switching from traditional plastics to bioplastics—those made from biological sources and/or designed to be biodegradable—does not inherently solve the problems of resource depletion and the buildup of plastic waste. Creating a fully sustainable plastics value chain requires that the increasing production of bioplastics be accompanied by effective strategies for managing the ultimate disposal and breakdown of bioplastic waste, irrespective of whether these bioplastics are biodegradable. There is broad agreement on the importance of recycling bio-based non-biodegradable bioplastics, such as bio-polyethylene terephthalate (bio-PET), polytrimethylene Terephthalate (bio-PTT), Polylactic Acid (PLA), bio-polyethylene (bio-PE), and bio-polypropylene (bio-PP). However, the approach is less straightforward for biodegradable bioplastics, where biodegradation is frequently considered the only viable end-of-life option. In contrast, recycling processes specifically target the recovery of plastic materials or monomers for reuse in the production cycle; biodegradation generally does not serve this purpose. These recycling processes, both mechanical and chemical, not only manage waste but also help preserve fundamental resources. As the production of bioplastics continues to expand, and these materials are expected to coexist with traditional plastics for a significant time, it is essential to identify the most appropriate end-of-life pathways for each type of commonly used bioplastic.