The Damage Caused by Decline Disease in Bayberry Plants through Changes in Soil Properties, Rhizosphere Microbial Community Structure and Metabolites
文献类型: 外文期刊
作者: Ren, Haiying 1 ; Wang, Hongyan 1 ; Qi, Xingjiang 1 ; Yu, Zheping 1 ; Zheng, Xiliang 1 ; Zhang, Shuwen 1 ; Wang, Zhensh 1 ;
作者机构: 1.Zhejiang Acad Agr Sci, Inst Hort, Hangzhou 310021, Peoples R China
2.Yangtze Univ, Sch Hort & Landscape Architecture, Jingzhou 434023, Peoples R China
3.China Agr Univ, Coll Plant Protect, Beijing 100193, Peoples R China
4.Zhejiang Univ, Inst Biotechnol, Hangzhou 310058, Peoples R China
关键词: bayberry; decline disease; soil properties; microbial community; secondary metabolites
期刊名称:PLANTS-BASEL ( 影响因子:3.935; )
ISSN:
年卷期: 2021 年 10 卷 10 期
页码:
收录情况: SCI
摘要: Decline disease causes serious damage and rapid death in bayberry, an important fruit tree in south China, but the cause of this disease remains unclear. The aim of this study was to investigate soil quality, microbial community structure and metabolites of rhizosphere soil samples from healthy and diseased trees. The results revealed a significant difference between healthy and diseased bayberry in soil properties, microbial community structure and metabolites. Indeed, the decline disease caused a 78.24% and 78.98% increase in Rhizomicrobium and Cladophialophora, but a 28.60%, 57.18%, 38.84% and 68.25% reduction in Acidothermus, Mortierella, Trichoderma and Geminibasidium, respectively, compared with healthy trees, based on 16S and ITS amplicon sequencing of soil microflora. Furthermore, redundancy discriminant analysis of microbial communities and soil properties indicated that the main variables of bacterial and fungal communities included pH, organic matter, magnesium, available phosphorus, nitrogen and calcium, which exhibited a greater influence in bacterial communities than in fungal communities. In addition, there was a high correlation between the changes in microbial community structure and secondary metabolites. Indeed, GC-MS metabolomics analysis showed that the healthy and diseased samples differed over six metabolic pathways, including thiamine metabolism, phenylalanine-tyrosine-tryptophan biosynthesis, valine-leucine-isoleucine biosynthesis, phenylalanine metabolism, fatty acid biosynthesis and fatty acid metabolism, where the diseased samples showed a 234.67% and 1007.80% increase in palatinitol and cytidine, respectively, and a 17.37-8.74% reduction in the other 40 metabolites compared to the healthy samples. Overall, these results revealed significant changes caused by decline disease in the chemical properties, microbiota and secondary metabolites of the rhizosphere soils, which provide new insights for understanding the cause of this bayberry disease.
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