Meloidogyne incognita parasitism is affected by Pseudomonas protegens CHA0 and its effects on tomato-associated microbiota

Meloidogyne incognita parasitism is affected by Pseudomonas protegens CHA0 and its effects on tomato-associated microbiota

Abstract Background The multitrophic interactions in plant rhizosphere and endosphere can be beneficial or deleterious for the plant health. The parasitism by root-feeding nematodes is on the negative end of the interaction spectrum, and may be very difficult to control. Biological agents are a prom...

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Main Authors: Olivera Topalović, Enoch Narh Kudjordjie, Sanea Sheikh, Gnimavo Bonaventure Kenou, Frederik Bak, Flemming Ekelund, Mette Vestergård
Format: Article
Language:English
Published: BMC 2025-07-01
Series:Environmental Microbiome
Subjects:
Root-feeding nematodes
Meloidogyne
Pseudomonas
16S rRNA gene
ITS region
Plant growth
Online Access:https://doi.org/10.1186/s40793-025-00743-0
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Summary:Abstract Background The multitrophic interactions in plant rhizosphere and endosphere can be beneficial or deleterious for the plant health. The parasitism by root-feeding nematodes is on the negative end of the interaction spectrum, and may be very difficult to control. Biological agents are a promising alternative to the environmentally harmful nematicides; however, their efficiency in natural soil often seems to be low due to their limited establishment and dispersal. Thus, understanding how the introduced biological agents interact with nematodes and the surrounding microbiota is necessary to improve sustainable management of root-feeding nematodes. Here, we conducted two experiments to study the effects of Pseudomonas protegens strain CHA0 (CHA0) on the performance of the root-knot nematode Meloidogyne incognita. In the first experiment, we compared M. incognita performance in natural and sterilized soil in the presence and absence of CHA0. In the second experiment, we studied the composition of microbes in the rhizosphere and endosphere of tomato plants grown in native soil in response to M. incognita and CHA0. Results We found that nematode performance, especially nematode reproduction, was significantly increased in native soil amended with CHA0. In addition, we found the highest relative abundance of Pseudomonas in tomato endosphere in response to nematode co-inoculations with CHA0, which suggests that root wounding, caused by nematodes, increased the entrance of inoculated and/or native Pseudomonas spp. As many Pseudomonas spp. are plant growth promoting, this may explain that plant growth was highest in this treatment. Furthermore, the rhizosphere of nematode-inoculated plants was enriched with Flavobacterium, Hydrogenophaga and Variovorax, which are genera generally associated with nematode-suppressive soils. On the other hand, other known nematode-suppressive genera such as Bacillus, Lysobacter, Devosia and Rhizobium were depleted in plants where nematodes were co-inoculated with CHA0, which may explain the higher nematode performance when plants were co-inoculated with CHA0. Conclusions Our findings show that the effect of P. protegens strain CHA0 on M. incognita parasitism is influenced by the multitrophic interactions in the rhizosphere and endosphere of tomato plants. We must understand these interactions thoroughly to optimize sustainable means to mitigate the root-knot nematodes.
ISSN:2524-6372

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