Free radicals accelerate in situ ageing of microplastics during sludge composting

Composting is the last “barrier” for microplastics (MPs) in the entry of organic solid wastes into the environment. The transformation of MPs is thought to be mainly driven by microorganisms during composting, whereas the contribution of abiotic processes that involve free radicals is often overlook...

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Bibliographic Details
Published in:Journal of hazardous materials 2022-05, Vol.429, p.128405-128405, Article 128405
Main Authors: Xing, Ruizhi, Chen, Zewei, Sun, Hanyue, Liao, Hanpeng, Qin, Shuping, Liu, Weizhen, Zhang, Yan, Chen, Zhi, Zhou, Shungui
Format: Article
Language:English
Subjects:
Composting
Free Radicals
Iron
Microplastics
Plastics
Polystyrene
Sewage
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Summary:Composting is the last “barrier” for microplastics (MPs) in the entry of organic solid wastes into the environment. The transformation of MPs is thought to be mainly driven by microorganisms during composting, whereas the contribution of abiotic processes that involve free radicals is often overlooked. Herein, we provide initial evidence for the generation of free radicals during sludge composting, including environmental persistent free radicals and reactive oxygen species, which accelerate the oxidative degradation of MPs. The ·OH yield of composting fluctuated greatly from 23.03 to 277.18 μmol/kg during composting, which was closely related to the dynamic changes in Fe(II) (R2 = 0.926). Analyses of the composted MPs physicochemical properties indicated that MPs were aged gradually with molecular weights decrease from 18% to 27% and carbonyl index value increase from 0.23 to 0.52. Further investigation suggested that the microbially-mediated redox transformation of iron oxides could occur on the MPs surface accompanied by the production of abundant free radicals, thereby leading to the damage of MPs during composting. These results reveal the critical role of free radicals in MPs ageing under oxic/anoxic alternation conditions of composting and provide new insights into the bio-chemical mechanism of contaminant removal or transformation during sludge composting. [Display omitted] •The dynamic changes of free radicals were detected during composting.•The·OH with maximum yield of 277.18 μmol/kg during the thermophilic phase.•Free radicals accelerate ageing of MPs of during sludge composting.•The bio-chemical mechanism of MPs ageing during sludge composting was proposed.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2022.128405