Microbial degradation of The study prompts discussions on optimization, synergistic effects, and the identification of key enzymes in plastic degradation, emphasizing the importance of microbial strategies for waste Plastics are recalcitrant polymers released in the environment through unpredicted use leading to accumulation and increased water and soil pollution. These biopolymers usually comprise hydroxy-acyl-CoA derivatives and are synthesized from Moreover, challenges related to microbial specificity, metabolic limitations, and the scalability of degradation processes hindered the The ability of microbial enzymes to degrade synthetic plastics, which are resistant to natural degradation, is a promising biotechnological solution to the global plastic pollution problem [36]. Some suggestions are given below to consider However, biocatalytic degradation is an eco-friendly process which eliminates the accumulation of harmful metabolic byproducts (Florez et al. This calls for an urgent need to develop novel strategies for the efficient degradation of Here the authors review how microbial metabolism could offer greener options for the synthesis and breakdown of plastic monomers and polymers. Health hazards of plastic waste on environment are discussed. For plastics degradation, microbial use is now considered as an eco-friendly method as compared to the conventional methods. They are thus considered non-biodegradable. Plastic, one of its products is known to be expanding with changing lifestyles and increasing population. However, the extent of plastic biodegrada PDF | On Feb 11, 2021, Ren Wei and others published Editorial: Microbial Degradation of Plastics | Find, read and cite all the research you need on Microbial plastics have physicochemical properties like petrochemical plastics. As the global demand on plastics is Keywords: plastic degradation, microbial degradation, methods of degradation study, analysis of degradation can be cast into moulds. Transportation of these recalcitrant The objective of this review is to outline the advances made in the microbial degradation of synthetic plastics and, overview the enzymes Microbial and enzymatic degradation of waste petro-plastics is a promising strategy for depolymerization of waste petro-plastics into However, biocatalytic degradation is an eco-friendly process which eliminates the accumulation of harmful metabolic byproducts (Florez et al. The plastic is made up of carbon, hydrogen, silicon, By enhancing waste management practices, improving the microbial and enzymatic degradation, and developing new biodegradable Bio-degradation of plastics is brought about by the activity of the microbial enzymes through cleavage of polymer chain into monomers and oligomers, which are water soluble and get PDF | — The growing worldwide production of synthetic plastics leads to increased amounts of plastic pollution. , 2015). Even though microbial Taken together, these findings will contribute to building a conception of bio-upcycling plastic wastes by connecting the . This chapter provides a comprehensive review of plastic-degrading microorganisms (PDMs) and details their diversity, degradation pathways, environmental interactions, and It not only increases the carbon footprints but also contributes to global warming. Enzymatic biodegradation mechanism of plastics i This chapter provides a comprehensive review of plastic-degrading microorganisms (PDMs) and details their diversity, degradation pathways, environmental interactions, and a resistance to degradation of this type of plastic. Thermoset plastics cannot be repeatedly softened and hardened, as they solidify ultimately Outdated methods of plastic degradation through physical and chemical means like landfill, incineration, and recycling are expensive and perilous and release hazardous chemical The microbial degradation of (micro)plastics is affected by multiple factors, such as microbial species, plastic properties, and Microbial Degradation of Plastics The accumulation of mismanaged plastic waste in natural environments poses a serious threat to our oceans, wildlife, and human health. Microbial species involved in biodegradation of plastics are being reviewed. The accumulation of mismanaged plastic waste in natural environments poses a serious threat to our oceans, wildlife, and human health. However, the extent of plastic biodegrada Thus, microbes have been played an important role in decompose as well as the production of plastics. A comprehensive review on sustainable approach for microbial degradation of plastic and it’s challenges Archita Roy a , Swati Chakraborty b Show more Add to Mendeley This review accentuates the pivotal role of enzymatic and microbial degradation in mitigating plastic pollution, the associated challenges, and suitable prospects to achieve closed-loop Synthetic polymers are widely used both in food or commercial industry.
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