Polyester-based Biodegradable Plastics: an Approach Towards Sustainable Development
Overview
Affiliations
Non-degradability of conventional plastics, filling of landfill sites, raising water and land pollution and rapid depletion of fossil resources have raised the environmental issues and global concerns. The current demand and production of plastics is putting immense pressure on fossil resources, consuming about 6% of the global oil and is expected to grow up to 20%. The polyester-based biodegradable plastics (BPs) are considered as a remedy to the issue of plastics waste in the environment. BPs appear to manage the overflow of plastics by providing new means of waste management system and help in securing the non-renewable resources of nature. This review comprehensively presents the environmental burdens due to conventional plastics as well as production of polyester-based BPs as an alternative to conventional commodity plastics. The diversity of micro-organisms and their enzymes that degrade various polyester-based BPs (PLA, PCL, PHB/PHBV and PET) has also been described in detail. Moreover, the impact of plastics degradation products on soil ecology and ecosystem functions has critically been discussed. The report ends with special focus on future recommendations for the development of sustainable waste management strategies to control pollution due to plastics waste. SIGNIFICANCE AND IMPACT OF THE STUDY: Polyester-based BPs considered as a solution to current plastic waste problem as well as leading polymers in terms of biodegradability and sustainability has been critically discussed. The role of microorganisms and their enzymes involved in the biodegradation of these polymers and ecotoxicological impact of degradation products of BPs on soil microbial community and biogeochemical cycles has also been described. This report will provide an insight on the key research areas to bridge the gap for development of simulated systems as an effective and emerging strategy to divert the overflow of plastic in the environment as well as for the greener solution to the plastic waste management problems.
Erdem F, Kandemir H, Alp F ACS Omega. 2025; 10(1):1457-1469.
PMID: 39829549 PMC: 11740110. DOI: 10.1021/acsomega.4c09181.
Fungal bioprocessing for circular bioeconomy: Exploring lignocellulosic waste valorization.
Dhiman S, Kaur P, Narang J, Mukherjee G, Thakur B, Kaur S Mycology. 2024; 15(4):538-563.
PMID: 39678640 PMC: 11636145. DOI: 10.1080/21501203.2024.2316824.
What happens to old insecticide-treated nets after households use in Burkina Faso?.
Hien A, Hien H, Bacye F, Badolo H, Tiono A, Diallo C Malar J. 2024; 23(1):350.
PMID: 39567950 PMC: 11577945. DOI: 10.1186/s12936-024-05181-w.
Lalonde J, Pilania G, Marrone B Polym Chem. 2024; 16(3):235-265.
PMID: 39464417 PMC: 11498330. DOI: 10.1039/d4py00623b.
Insights into the biodegradation of polyhydroxyalkanoates by the tropical marine isolate, NCIM 5124.
Anjulal H, Singhvi M, Zinjarde S 3 Biotech. 2024; 14(10):240.
PMID: 39310033 PMC: 11415560. DOI: 10.1007/s13205-024-04079-3.