聚乙烯生物降解的微生物视角:探索微生物在解决塑料污染中的作用

M. Muthukumaran, A. A. Narayana, A. D. Babu, Amogha K.R, Wankasaki Lytand, G. Gomadhi, S. J. Prabhavathi, G. Malathi, Abhijit Debnath
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引用次数: 0

摘要

塑料污染,尤其是来自聚乙烯(聚乙烯)的塑料污染,已成为全球关注的重大环境问题。为了应对这一挑战,微生物对聚乙烯的生物降解作为缓解塑料污染的潜在解决方案受到了关注。本文概述了微生物聚乙烯生物降解的基本机制,包括表面侵蚀、生物膜形成、代谢途径、协同作用和适应性。此外,它还探讨了聚乙烯降解微生物的多样性及其在不同环境中的塑料降解作用。书中讨论了影响聚乙烯生物降解的环境因素,如温度、pH 值、湿度和养分供应,以及优化降解率的策略。文章重点介绍了生物技术方法,包括微生物联合体开发和基因工程,认为这是提高聚乙烯降解效率的可行途径。文章最后讨论了从微生物角度解决塑料污染问题的潜力,并概述了该领域未来的研究方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microbial Perspectives on Polythene Biodegradation: Exploring the Role of Microorganisms in Addressing Plastic Pollution
Plastic pollution, particularly from polythene (polyethylene), has emerged as a significant environmental concern worldwide. In response to this challenge, microbial perspectives on polythene biodegradation have garnered attention as potential solutions to mitigate plastic pollution. This article provides an overview of the mechanisms underlying microbial polythene biodegradation, including surface erosion, biofilm formation, metabolic pathways, synergistic interactions, and adaptation. Furthermore, it explores the diversity of polythene-degrading microorganisms and their roles in plastic degradation across different environments. Environmental factors influencing polythene biodegradation, such as temperature, pH, moisture, and nutrient availability, are discussed, along with strategies to optimize degradation rates. Biotechnological approaches, including microbial consortia development and genetic engineering, are highlighted as promising avenues to enhance polythene degradation efficiency. The article concludes with a discussion on the potential of microbial perspectives to address plastic pollution and outlines future research directions in this field.
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