Integrating metabolomics and high-throughput sequencing to investigate the effects of tire wear particles on mung bean plants and soil microbial communities

Integrating metabolomics and high-throughput sequencing to investigate the effects of tire wear particles on mung bean plants and soil microbial communities

Tire wear particles (TWPs) generated by vehicle tires are ubiquitous in soil ecosystems, while their impact on soil biota remains poorly understood. In this study, we investigated the effects of TWPs (0.1%, 0.7%, and 1.5% of dry soil weight) on the growth and metabolism of mung bean (Vigna radiata)...

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Veröffentlicht in:Environmental pollution (1987) 2024-01, Vol.340, p.122872-122872, Article 122872
Hauptverfasser: Zeb, Aurang, Liu, Weitao, Ali, Nouman, Shi, Ruiying, Lian, Yuhang, Wang, Qi, Wang, Jianling, Li, Jiantao, Zheng, Zeqi, Liu, Jinzheng, Yu, Miao, Liu, Jianv
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Blastococcus
Chaetomium
fungi
metabolism
metabolites
metabolomics
mung beans
nitrogen
oxidoreductases
plant growth
pollution
soil
soil biota
soil enzymes
soil microorganisms
urease
Vigna radiata
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container_issue
container_start_page 122872
container_title Environmental pollution (1987)
container_volume 340
creator Zeb, Aurang
Liu, Weitao
Ali, Nouman
Shi, Ruiying
Lian, Yuhang
Wang, Qi
Wang, Jianling
Li, Jiantao
Zheng, Zeqi
Liu, Jinzheng
Yu, Miao
Liu, Jianv
description Tire wear particles (TWPs) generated by vehicle tires are ubiquitous in soil ecosystems, while their impact on soil biota remains poorly understood. In this study, we investigated the effects of TWPs (0.1%, 0.7%, and 1.5% of dry soil weight) on the growth and metabolism of mung bean (Vigna radiata) plants over 32 days in soil pots. We found that TWPs-treated soils had high levels of heavy metals and polycyclic aromatic hydrocarbons (PAHs). However, there was no significant impact of TWPs exposure on plant growth, suggesting that mung bean plants have a degree of tolerance to TWPs. Despite the lack of impact on plant growth, exposure to TWPs had significant effects on soil enzyme activities, with a decrease of over 50% in urease and dehydrogenase activity. Furthermore, TWPs exposure resulted in marked changes in the plant metabolite profile, including altered levels of sugars, carboxylic acids, and amino acids, indicating altered nitrogen and amino acid-related metabolic pathways. TWPs exposure also disrupted the rhizospheric and bulk soil microbiota, with a decrease in the abundance of bacterial (Blastococcus) and fungal (Chaetomium) genera involved in nitrogen cycles and suppressing plant diseases. In summary, our study provides new insights into the effects of TWPs on plants and soil, highlighting the potential ecological consequences of TWPs pollution in terrestrial ecosystems and underscoring the need for further research in this area.
doi_str_mv 10.1016/j.envpol.2023.122872
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In this study, we investigated the effects of TWPs (0.1%, 0.7%, and 1.5% of dry soil weight) on the growth and metabolism of mung bean (Vigna radiata) plants over 32 days in soil pots. We found that TWPs-treated soils had high levels of heavy metals and polycyclic aromatic hydrocarbons (PAHs). However, there was no significant impact of TWPs exposure on plant growth, suggesting that mung bean plants have a degree of tolerance to TWPs. Despite the lack of impact on plant growth, exposure to TWPs had significant effects on soil enzyme activities, with a decrease of over 50% in urease and dehydrogenase activity. Furthermore, TWPs exposure resulted in marked changes in the plant metabolite profile, including altered levels of sugars, carboxylic acids, and amino acids, indicating altered nitrogen and amino acid-related metabolic pathways. TWPs exposure also disrupted the rhizospheric and bulk soil microbiota, with a decrease in the abundance of bacterial (Blastococcus) and fungal (Chaetomium) genera involved in nitrogen cycles and suppressing plant diseases. 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TWPs exposure also disrupted the rhizospheric and bulk soil microbiota, with a decrease in the abundance of bacterial (Blastococcus) and fungal (Chaetomium) genera involved in nitrogen cycles and suppressing plant diseases. 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source Elsevier ScienceDirect Journals
subjects Blastococcus
Chaetomium
fungi
metabolism
metabolites
metabolomics
mung beans
nitrogen
oxidoreductases
plant growth
pollution
soil
soil biota
soil enzymes
soil microorganisms
urease
Vigna radiata
title Integrating metabolomics and high-throughput sequencing to investigate the effects of tire wear particles on mung bean plants and soil microbial communities
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