会议论文详细信息
8th International Conference on Future Environment and Energy
Progresses in Polystyrene Biodegradation and Prospects for Solutions to Plastic Waste Pollution
生态环境科学;能源学
Yang, S.S.^1,2 ; Brandon, A.M.^2 ; Xing, D.F.^1 ; Yang, J.^3 ; Pang, J.W.^1 ; Criddle, C.S.^2 ; Ren, N.Q.^1 ; Wu, W.M.^2
Harbin Institute of Technology, Harbin
150090, China^1
Stanford University, Stanford
CA
94305-4020, United States^2
School of Chemistry, Beihang University, Beijing
100191, China^3
关键词: Activated sludge;    Biodegradation performance;    Environmental concerns;    Isolated cultures;    Microbial biodegradation;    Microbial culture;    Plastic pollutions;    Sustainable strategies;   
Others  :  https://iopscience.iop.org/article/10.1088/1755-1315/150/1/012005/pdf
DOI  :  10.1088/1755-1315/150/1/012005
学科分类:环境科学(综合)
来源: IOP
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【 摘 要 】

Petroleum-based plastic pollution has been a global environmental concern for decades. The obvious contrast between the remarkable durability of the plastics and their short service time leads to the increasing accumulation of plastic wastes in the environment. A cost-effective, sustainable strategy to solve the problem should focus on source control and clean up. Polystyrene (PS) wastes, a recalcitrant plastic polymer, are among the wide spread man-made plastic pollutants. Destruction of PS wastes can be achieved using various abiotic methods such as incineration but such methods release potential air pollution and generation of hazardous by-products. Biodegradation and bioremediation has been proposed for years. Since the 1970's, the microbial biodegradation of plastics, including PS, has been evaluated with mixed and isolated cultures from different sources such as activated sludge, trash, soil, and manure. To date, PS biodegradation by these microbial cultures is still quite slow. Recently, the larvae of yellow mealworms (Tenebrio molitor Linnaeus) have demonstrated promising PS biodegradation performance. Mealworms have demonstrated the ability to chew and ingest PS foam as food and are capable of degrading and mineralizing PS into CO2via microbe-dependent activities within the gut in less than the 12-15 hrs gut retention time. These research results have revealed a potential for microbial biodegradation and bioremediation of plastic pollutants.

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