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Plant biomass mediates the decomposition of polythene film-sourced pollutants in soil through plastisphere bacteria island effect.

Authors :
Zhao, Ze-Ying
Wang, Peng-Yang
Xiong, Xiao-Bin
Zhou, Rui
Li, Feng-Min
Cheng, Zheng-Guo
Wang, Wei
Mo, Fei
Cheruiyot, Kiprotich Wesly
Wang, Wen-Ying
Uzamurera, Aimee Grace
Tao, Hong-Yan
Xiong, You-Cai
Source :
Environment International. Aug2023, Vol. 178, pN.PAG-N.PAG. 1p.
Publication Year :
2023

Abstract

The polyethylene (PE) film mulching as a water conservation technology has been widely used in dryland agriculture, yet the long-term mulching has led to increasing accumulation of secondary pollutants in soils. The decomposition of PE film-sourced pollutants is directly associated with the enrichment of specific bacterial communities. We therefore hypothesized that plant biomass may act as an organic media to mediate the pollutant decomposition via reshaping bacterial communities. To validate this hypothesis, plant biomass (dried maize straw and living clover) was embedded at the underlying surface of PE film, to track the changes in the composition and function of bacterial communities in maize field across two years. The results indicated that both dry crop straw and alive clover massively promoted the α-diversity and abundance of dominant bacteria at plastisphere, relative to bulk soil. Bacterial communities tended to be clustered at plastisphere, forming the bacteria islands to enrich pollutant-degrading bacteria, such as Sphingobacterium , Arthrobacter and Paracoccus. As such, plastisphere bacteria islands substantially enhanced the degradation potential of chloroalkene and benzoate (p < 0.05). Simultaneously, bacterial network became stabilized and congregated at plastisphere, and markedly improved the abundance of plastisphere module hubs and connectors bacteria via stochastic process. Particularly, bacterial community composition and plastic film-sourced pollutants metabolism were evidently affected by soil pH, carbon and nitrogen sources that were mainly derived from the embedded biomass. To sum up, plant biomass embedding as a nature-based strategy (NbS) can positively mediate the decomposition of plastic-sourced pollutants through plastisphere bacteria island effects. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
01604120
Volume :
178
Database :
Academic Search Index
Journal :
Environment International
Publication Type :
Academic Journal
Accession number :
169949939
Full Text :
https://doi.org/10.1016/j.envint.2023.108114