Identification of a Novel Pathogen of Peanut Root Rot, <i>Ceratobasidium</i> sp. AG-A, and the Potential of Selected Bacterial Biocontrol Agents

Identification of a Novel Pathogen of Peanut Root Rot, <i>Ceratobasidium</i> sp. AG-A, and the Potential of Selected Bacterial Biocontrol Agents

Peanut root rot poses a significant threat to global peanut production. In order to identify the new pathogen of peanut root rot in Shandong province, China, and to screen the effective antagonistic biocontrol strains against the identified pathogen, ten symptomatic plants from a peanut field (10% d...

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Bibliographic Details
Main Authors: Ying Li, Xia Zhang, Xinying Song, Manlin Xu, Kang He, Yucheng Chi, Zhiqing Guo
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Journal of Fungi
Subjects:
peanut root rot
<i>Ceratobasidium</i> sp. AG-A
biological control
antagonistic bacteria
disease management
Online Access:https://www.mdpi.com/2309-608X/11/7/472
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Summary:Peanut root rot poses a significant threat to global peanut production. In order to identify the new pathogen of peanut root rot in Shandong province, China, and to screen the effective antagonistic biocontrol strains against the identified pathogen, ten symptomatic plants from a peanut field (10% disease incidence) of Rongcheng were sampled for pathogen isolation. The predominant isolate RC-103 was identified as <i>Ceratobasidium</i> sp. AG-A through morphological characterization and phylogenetic analysis of ITS and <i>RPB2</i> sequences. Pathogenicity was confirmed via Koch’s postulates. Three potent biocontrol strains, namely <i>Bacillus subtilis</i> LY-1, <i>Bacillus velezensis</i> ZHX-7, and <i>Burkholderia cepacia</i> Bc-HN1, were screened for effective antagonism against isolate RC-103 by dual-culture analysis. Their cell suspensions could significantly inhibit the hyphal growth of isolate RC-103, with the percentage inhibition of 54.70%, 45.86%, and 48.62%, respectively. Notably, the percentage inhibition of 10% concentration of the cell-free culture filtrate of <i>B. subtilis</i> LY-1 was as high as 59.01%, and the inhibition rate of volatile organic compounds of <i>B. cepacia</i> Bc-HN1 was 48.62%. Antagonistic mechanisms primarily involved the induction of hyphal abnormalities. In addition, the culture filtrate of these biocontrol bacteria significantly promoted the growth of peanut and increased the resistance of peanut plants to isolate RC-103, with the biocontrol efficiency reaching 41.86%. In summary, this study identified a novel pathogen of peanut root rot, <i>Ceratobasidium</i> sp. AG-A, which was reported for the first time in China, and screened three highly effective antagonistic biocontrol strains against <i>Ceratobasidium</i> sp. AG-A isolate RC-103, providing the scientific basis to study the epidemiology and management of this disease.
ISSN:2309-608X

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