4.8 Article

Interactions between white and black carbon in water: A case study of concurrent aging of microplastics and biochar

Journal

WATER RESEARCH
Volume 238, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.watres.2023.120006

Keywords

Microplastics; Biochar; Fluorescence; Dissolved organic matter; Contaminant sorption

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In this study, the interaction between microplastics and biochar during environmental aging was investigated. It was found that early-stage interactions of microplastics and biochar could promote the release of dissolved organic matter (DOM) from biochar, while their long-term interactions resulted in the sorption of hydrophobic and small molecules of microbial byproduct-like DOM. Early-stage interactions also promoted the sorption of organic contaminants, but this promotion was no longer observed after aging due to the influence of heterogeneous aggregation.
Microplastics and biochar, as particulate matter that is prevalent in the water environment, will inevitably encounter and interact with each other during environmental aging. The potential interaction of microplastics and biochar, and the associated impact on their environmental behavior remains largely unknown. In this study, we exposed microplastics and biochar concurrently to ultraviolet light to mimic the aging process, investigated the release and fluorescence characteristics of dissolved organic matter (DOM) in water, and analyzed the effects of co-existing microplastics and biochar on their sorption of organic contaminants. We demonstrate that earlystage interactions of microplastics and biochar could entangle to promote the release of DOM from biochar, while their long-term interactions after light irradiation resulted in the sorption of hydrophobic and small molecules of microbial byproduct-like DOM. Simultaneously, early-stage interactions of microplastics and biochar showed a promotion for sorption of organic contaminants with an increase of 5.3-17.7%. After aging, however, long-term interactions between microplastics and biochar made it no longer promote the sorption of organic contaminants due to the influence of heterogeneous aggregation. Our results provide new insights into the time-dependent interactions between microplastics and biochar and highlight the need to incorporate their interactions into future environmental risk assessments for microplastics in the water environment.

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