Comparison of plastisphere microbiomes during the degradation of conventional and biodegradable mulching films
Comparison of plastisphere microbiomes during the degradation of conventional and biodegradable mulching films
Biodegradable mulch films (BDMs) are becoming increasingly popular in agriculture and are emerging as an alternative to conventional polyethylene (PE) films. However, the intricate details surrounding the establishment and growth of microorganisms on BDMs and PE during their degradation in agricultural fields remain unclear. In this study, the succession of bacterial communities in farmland soil and the plastispheres of PE and BDMs were compared through 16S rRNA gene high-throughput sequencing and real-time PCR. The results unveiled noteworthy distinctions in bacterial community structures across different samples. Specifically, the α-diversity in the BDM plastispheres was markedly lower than in the PE plastisphere. Hydrogenophaga and Variovorax genera were abundantly present in the BDM plastisphere, whereas Mycobacterium demonstrated significant enrichment in the PE plastisphere. Functional annotations indicated high abundances of degradation-related and pathogen-related functions in both BDM and PE plastispheres. Furthermore, the BDM plastisphere exhibited lower network complexity and modularity and stronger competitive interactions than the PE plastisphere. The conducted iCAMP analysis showed that stochastic community assembly processes largely govern the PE plastisphere, while deterministic processes prevailed in BDMs and increased significantly over time. These findings shed light on different mulching materials’ effects in farmland ecosystems and provide insights into potential ecological risks linked to their usage.
Assembly processes, Bacterial community, Biodegradable mulching film, Plastisphere, Soil microbiome
Yu, Hao
7f3168a3-9114-4345-9d55-1d24a4cd11b0
Zhang, Mingyang
81f9c6e0-e098-4c30-93c4-dc59e3c5d505
Liu, Huiying
30585c21-2a11-4995-bc93-885dd722a76f
Xiao, Juanjuan
5f937a22-346d-4b5f-ad48-f45b555081cc
Men, Jianan
39d494c6-13c6-4ba5-a631-95aa3859b391
Cernava, Tomislav
a13d65aa-2529-479a-ba90-69ebbc4ba07f
Deng, Ye
b53243dd-f8ff-4533-95f1-2d807d43a2cf
Jin, Decai
8154f33b-27a5-4315-adcb-c37ba3e1c5cc
17 January 2025
Yu, Hao
7f3168a3-9114-4345-9d55-1d24a4cd11b0
Zhang, Mingyang
81f9c6e0-e098-4c30-93c4-dc59e3c5d505
Liu, Huiying
30585c21-2a11-4995-bc93-885dd722a76f
Xiao, Juanjuan
5f937a22-346d-4b5f-ad48-f45b555081cc
Men, Jianan
39d494c6-13c6-4ba5-a631-95aa3859b391
Cernava, Tomislav
a13d65aa-2529-479a-ba90-69ebbc4ba07f
Deng, Ye
b53243dd-f8ff-4533-95f1-2d807d43a2cf
Jin, Decai
8154f33b-27a5-4315-adcb-c37ba3e1c5cc
Yu, Hao, Zhang, Mingyang, Liu, Huiying, Xiao, Juanjuan, Men, Jianan, Cernava, Tomislav, Deng, Ye and Jin, Decai
(2025)
Comparison of plastisphere microbiomes during the degradation of conventional and biodegradable mulching films.
Journal of Hazardous Materials, 487, [137243].
(doi:10.1016/j.jhazmat.2025.137243).
Abstract
Biodegradable mulch films (BDMs) are becoming increasingly popular in agriculture and are emerging as an alternative to conventional polyethylene (PE) films. However, the intricate details surrounding the establishment and growth of microorganisms on BDMs and PE during their degradation in agricultural fields remain unclear. In this study, the succession of bacterial communities in farmland soil and the plastispheres of PE and BDMs were compared through 16S rRNA gene high-throughput sequencing and real-time PCR. The results unveiled noteworthy distinctions in bacterial community structures across different samples. Specifically, the α-diversity in the BDM plastispheres was markedly lower than in the PE plastisphere. Hydrogenophaga and Variovorax genera were abundantly present in the BDM plastisphere, whereas Mycobacterium demonstrated significant enrichment in the PE plastisphere. Functional annotations indicated high abundances of degradation-related and pathogen-related functions in both BDM and PE plastispheres. Furthermore, the BDM plastisphere exhibited lower network complexity and modularity and stronger competitive interactions than the PE plastisphere. The conducted iCAMP analysis showed that stochastic community assembly processes largely govern the PE plastisphere, while deterministic processes prevailed in BDMs and increased significantly over time. These findings shed light on different mulching materials’ effects in farmland ecosystems and provide insights into potential ecological risks linked to their usage.
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Accepted/In Press date: 14 January 2025
e-pub ahead of print date: 15 January 2025
Published date: 17 January 2025
Keywords:
Assembly processes, Bacterial community, Biodegradable mulching film, Plastisphere, Soil microbiome
Identifiers
Local EPrints ID: 498064
URI: http://eprints.soton.ac.uk/id/eprint/498064
ISSN: 0304-3894
PURE UUID: 05760dca-5dc5-4f88-8931-2ae8581450f6
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Date deposited: 07 Feb 2025 17:30
Last modified: 14 May 2025 02:09
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Contributors
Author:
Hao Yu
Author:
Mingyang Zhang
Author:
Huiying Liu
Author:
Juanjuan Xiao
Author:
Jianan Men
Author:
Tomislav Cernava
Author:
Ye Deng
Author:
Decai Jin
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