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Microplastic pollution: A global perspective in surface waters, microbial degradation, and corresponding mechanism
Summary
This review provides a global overview of microplastic pollution in surface waters and examines the potential for microbial degradation as a remediation strategy. Researchers summarize evidence that certain bacteria, fungi, and algae can break down various types of microplastics, though degradation rates depend heavily on environmental conditions. The study highlights that while microplastics are now found in virtually every environmental niche, biological approaches to breaking them down are still in early stages of development.
Plastics are incredibly useful materials that have many benefits for both society and individual daily lives. However, the extensive utilization of plastic and plastic-derived products has led to plastic pollution in various environmental compartments across the world at alarming levels. Due to different biogeochemical processes, this plastic waste is broken down into tiny, omnipresent, and long-lasting fragments known as microplastics (<5 mm), which are causing great concern among scientists. Microplastics tend to bioaccumulate, contain toxic chemicals, and have other pollutants and pathogens adsorbed on their surface, thus having adverse effects on organisms. Globally dispersed, microplastics can now be found in almost every environmental niche. Therefore, the purpose of this paper is to give an overview of the research that has been done on this topic, summarize the evidence of microplastic pollution in surface waters, and discuss the analytical summary of recent findings on the microbial degradation of microplastics and effects of various parameters on its degradation as well as the potential degradation mechanism of microplastics. A summary of the most recent and relevant literature is provided on microplastic pollution and microorganisms that can break down various microplastics are classified according to their types including bacteria, fungi, and algae. The environmental factors influencing microplastic degradation and the associated degradation effects are therefore generalized. Additionally, a brief discussion of the mechanism underlying the microbial-mediated degradation of microplastics is provided. This review serves as a reference for upcoming research looking into efficient ways to reduce microplastic pollution.
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