化学
微生物降解
环境化学
微生物代谢
降级(电信)
微生物
极端微生物
细菌
环境科学
生物降解
生化工程
生物
微生物种群生物学
微生物遗传学
作者
D Wang,Yi Yang,Yuhang Ye,Dandan He,Qizi Fu,Xin Liu
标识
DOI:10.1021/acs.est.6c02515
摘要
Plastic pollution is a major environmental challenge, given its widespread presence and potential risks to both ecosystems and human health. Microbial biodegradation offers a promising solution for managing plastic waste. However, research in this area remains fragmented, with varying reports on degradation efficiency, mechanisms, and practical applications. This review synthesizes recent developments in microbial taxonomy, enzymatic depolymerization, and multiomics functional analysis, highlighting the connections between microbial traits and the four key stages of plastic degradation: colonization, depolymerization, assimilation, and mineralization. It critically evaluates the robustness and comparability of reported degradation metrics, demonstrating that variability in polymer properties, experimental conditions and assessment methods severely hinders meaningful comparisons across studies and limits the translation of laboratory findings to real-world applications. Additionally, this review elaborates on emerging bioaugmentation strategies such as genetic modification, enzyme engineering and synthetic microbial consortia design, while identifying key translational bottlenecks involving scalability, environmental relevance and long-term stability. By integrating insights from multiomics research and synthetic biology, this work proposes a framework to bridge the gap between laboratory-based discoveries and practical biodegradation strategies. It aims to advance microbial plastic remediation research by identifying key knowledge gaps and offering actionable recommendations for future developments.
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