期刊论文详细信息
Microbiome
Changes in structure and assembly of a species-rich soil natural community with contrasting nutrient availability upon establishment of a plant-beneficial Pseudomonas in the wheat rhizosphere
Research
Vladimir Sentchilo1  Clara M. Heiman1  Jordan Vacheron1  Daniel Garrido-Sanz1  Christoph Keel1  Senka Čaušević1  Jan Roelof van der Meer1 
[1] Department of Fundamental Microbiology, University of Lausanne, CH-1015, Lausanne, Switzerland;
关键词: Microbiome;    Nutrient availability;    Plant-beneficial inoculant;    Inoculant proliferation;    Rhizosphere;    Wheat;    Bulk soil;    Microbial communities;    Pseudomonas;    Bacterial competition;   
DOI  :  10.1186/s40168-023-01660-5
 received in 2023-03-28, accepted in 2023-08-31,  发布年份 2023
来源: Springer
PDF
【 摘 要 】

BackgroundPlant-beneficial bacterial inoculants are of great interest in agriculture as they have the potential to promote plant growth and health. However, the inoculation of the rhizosphere microbiome often results in a suboptimal or transient colonization, which is due to a variety of factors that influence the fate of the inoculant. To better understand the fate of plant-beneficial inoculants in complex rhizosphere microbiomes, composed by hundreds of genotypes and multifactorial selection mechanisms, controlled studies with high-complexity soil microbiomes are needed.ResultsWe analysed early compositional changes in a taxa-rich natural soil bacterial community under both exponential nutrient-rich and stationary nutrient-limited growth conditions (i.e. growing and stable communities, respectively) following inoculation with the plant-beneficial bacterium Pseudomonas protegens in a bulk soil or a wheat rhizosphere environment. P. protegens successfully established under all conditions tested and was more abundant in the rhizosphere of the stable community. Nutrient availability was a major factor driving microbiome composition and structure as well as the underlying assembly processes. While access to nutrients resulted in communities assembled mainly by homogeneous selection, stochastic processes dominated under the nutrient-deprived conditions. We also observed an increased rhizosphere selection effect under nutrient-limited conditions, resulting in a higher number of amplicon sequence variants (ASVs) whose relative abundance was enriched. The inoculation with P. protegens produced discrete changes, some of which involved other Pseudomonas. Direct competition between Pseudomonas strains partially failed to replicate the observed differences in the microbiome and pointed to a more complex interaction network.ConclusionsThe results of this study show that nutrient availability is a major driving force of microbiome composition, structure and diversity in both the bulk soil and the wheat rhizosphere and determines the assembly processes that govern early microbiome development. The successful establishment of the inoculant was facilitated by the wheat rhizosphere and produced discrete changes among other members of the microbiome. Direct competition between Pseudomonas strains only partially explained the microbiome changes, indicating that indirect interactions or spatial distribution in the rhizosphere or soil interface may be crucial for the survival of certain bacteria.B5pQk-pebCjYS-vjJfR65XVideo Abstract

【 授权许可】

CC BY   
© BioMed Central Ltd., part of Springer Nature 2023

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