| Literature DB >> 33322790 |
Ya-Nan Han1,2,3, Min Wei1, Fang Han1, Chao Fang4, Dong Wang1, Yu-Jie Zhong1, Chao-Li Guo1, Xiao-Yan Shi1, Zhong-Kui Xie2,3, Feng-Min Li1.
Abstract
The widespread use of polyethylene (PE) mulch films has led to a significant accumulation of plastic waste in agricultural soils. The biodegradation of plastic waste by microorganisms promises to provide a cost-effective and environmentally-friendly alternative for mitigating soil plastic pollution. A large number of microorganisms capable of degrading PE have been reported, but degradation may be further enhanced by the cooperative activity of multiple microbial species. Here, two novel strains of Arthrobacter sp. and Streptomyces sp. were isolated from agricultural soils and shown to grow with PE film as a sole carbon source. Arthrobacter sp. mainly grew in the suspension phase of the culture, and Streptomyces sp. formed substantial biofilms on the surface of the PE film, indicating that these strains were of different metabolic types and occupied different microenvironments with contrasting nutritional access. Individual strains were able to degrade the PE film to some extent in a 90-day inoculation experiment, as indicated by decreased hydrophobicity, increased carbonyl index and CO2 evolution, and the formation of biofilms on the film surface. However, a consortium of both strains had a much greater effect on these degradation properties. Together, these results provide new insights into the mechanisms of PE biodegradation by a microbial consortium composed of different types of microbes with possible metabolic complementarities.Entities:
Keywords: Arthrobacter; FTIR spectroscopy; SEM; Streptomyces; carbonyl index; microbial consortium; plastic biodegradation; plastic pollution; water contact angle
Year: 2020 PMID: 33322790 PMCID: PMC7764375 DOI: 10.3390/microorganisms8121979
Source DB: PubMed Journal: Microorganisms ISSN: 2076-2607