Response of Root-Associated Bacterial Communities to Different Degrees of Soft Rot Damage in Amorphophallus konjac Under a Robinia pseudoacacia Plantation

He, Fei

doi:10.3389/fmicb.2021.652758

Front. Microbiol.

2021

DOI: 10.3389/fmicb.2021.652758

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Response of Root-Associated Bacterial Communities to Different Degrees of Soft Rot Damage in Amorphophallus konjac Under a Robinia pseudoacacia Plantation

Fei He

Abstract: Bacterial soft rot is a destructive disease that restricts the development of the konjac (Amorphophallus konjac K. Koch ex N.E.Br) industry. The objective of this study was to investigate how soft rot disease affects bacterial communities associated with the roots of konjac plants growing under a pure Robinia pseudoacacia plantation. Three sampling sites affected by different degrees of soft rot damage were selected based on the disease incidence [0%, non-diseased (ND); 4.2%, moderately diseased (MD); and 18.6… Show more

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Cited by 7 publications

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Intercropping with Robinia pseudoacacia reduces soft rot incidence in konjac by modulating the root bacterial community

Meng,

Xin,

et al. 2024

Pest Management Science

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BACKGROUNDSoft rot (Pectobacterium aroidearum and Dickeya) is a devastating soil‐borne bacterial disease that threatens konjac production. Intercropping with false acacia has been shown to significantly reduce soft rot incidence in konjac by shifting the microbial community. However, how intercropping shapes the root bacterial community and affects soft rot incidence remains unclear. To address this, we investigated three konjac intercropping systems (false acacia, paulownia, and maize) to explore the relationships among intercropping, soft rot incidence, root bacterial community, soil enzyme activity, and soil properties.RESULTSKonjac intercropped with false acacia exhibited the lowest soft rot incidence and the lowest abundance of pathogenic taxa. Soft rot incidence was negatively correlated with total soil nitrogen and potassium but positively correlated with total and available soil phosphorus. The bacterial community structure and function in konjac roots differed among intercropping types, mainly driven by available soil phosphorus. Beneficial microorganisms such as Bradyrhizobium and Variovorax were enriched under a false acacia intercropping system and were negatively correlated with soil‐available phosphorus. Additionally, the stable bacterial community in healthy konjac roots under false acacia may make konjac less susceptible to pathogen invasion.CONCLUSIONThe study showed that intercropping reduced the soft rot incidence by regulating the structure and stability of the konjac root bacterial community, and soil‐available phosphorus was the main factor affecting the difference in the konjac root bacterial community, which provided a basis for the management of soil fertilization in konjac cultivation. © 2024 Society of Chemical Industry.

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Intercropping with Robinia pseudoacacia reduces soft rot incidence in konjac by modulating the root bacterial community

Meng,

Xin,

et al. 2024

Pest Management Science

View full text Add to dashboard Cite

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Assessing the efficacy of plant extract treatment for controlling tuber soft rot caused by Pectobacterium carotovora subsp. carotovora in sweet potato tubers

Ganiyu,

Yassah,

Hamzat

et al. 2023

Indian Phytopathology

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Sampling period and disease severity of bacterial wilt significantly affected the bacterial community structure and functional prediction in the sesame rhizosphere soil

Wang

et al. 2023

Rhizosphere

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Response of Root-Associated Bacterial Communities to Different Degrees of Soft Rot Damage in Amorphophallus konjac Under a Robinia pseudoacacia Plantation

Cited by 7 publications

References 62 publications

Intercropping with Robinia pseudoacacia reduces soft rot incidence in konjac by modulating the root bacterial community

Intercropping with Robinia pseudoacacia reduces soft rot incidence in konjac by modulating the root bacterial community

Assessing the efficacy of plant extract treatment for controlling tuber soft rot caused by Pectobacterium carotovora subsp. carotovora in sweet potato tubers

Sampling period and disease severity of bacterial wilt significantly affected the bacterial community structure and functional prediction in the sesame rhizosphere soil

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