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Effects of Biochar Application on Growth of Pakchoi and Soil Bacterial Community Structure under Microplastic Pollution |
WANG Xiying1,MO Zhongmei1,LI Deyan2,ZHANG Lulu1,3,4,ZHAO Hui1,3,4*,TAN Zhiyong1,3,4,HOU Jianwei1 |
1Tongren University,Tongren 554300,Guizhou,China;2Anshun University,Anshun 561000,Guizhou,China;3Rural Revitalization Research Center of Tongren University,Tongren 554300,Guizhou,China;4Engineering Research Center of Intelligent Monitoring and Policy Simulation for Mountainous Land Space in Colleges and Universities of Guizhou Province,Tongren 554300,Guizhou,China |
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Abstract Pot experiments were conducted using‘Sijixiaobaicai’to study the effects of biochar application on the growth of pakchoi on soils contaminated by different microplastics(PP,PE,and PVC)and on soil bacterial community structure and abundance.Functional prediction of soil bacterial community was also conducted.The results showed that microplastic contamination inhibited the fresh mass and leaf number of pakchoi.Biochar application increased the fresh mass,plant height,and root length of pakchoi grown on microplastic-contaminated soils.Co-treatment with microplastics and biochar significantly increased soil bacterial abundance.The highest soil bacterial abundance was found in PER treatment.Co-treatment with PE or PVC and biochar significantly increased the Chao1 index and ACE index of soil bacteria.On the phylum level,Actinobacteria,Proteobacteria,Chlorobacteria,Firmicutes,and Acidobacteria are dominant taxa.Co-treatment with microplastics and biochar increased the relative abundance of Actinobacteria,but decreased the relative abundances of Proteobacteria and Acidobacteria.Soil pH value and organic carbon,ammonium nitrogen,nitrate nitrogen,and available potassium contents were primary influence factors for changes in soil bacterial community structure.Functional prediction of soil bacterial community using PICRUSt showed that biochar application increased the relative abundances of several metabolic pathways of beneficial bacteria,including soil metabolism,environmental information processing,and organic system.To conclude,biochar application had a significant impact on the bacterial community in microplastic-contaminated soils,though the degree of influence varied with the type of microplastics.
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Received: 03 July 2023
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