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Natural Bacterial Assemblages in Arabidopsis thaliana Tissues Become More Distinguishable and Diverse during Host Development

Kathleen Beilsmith, Matthew Perisin, Joy Bergelson

2021mBio34 citationsDOIOpen Access PDF

Abstract

Developing synthetic microbial communities that can increase plant yield or deter pathogens requires basic research on several fronts, including the efficiency with which microbes colonize plant tissues, how plant genes shape the microbiome, and the microbe-microbe interactions involved in community assembly. Findings on each of these fronts depend upon the spatial and temporal scales at which plant microbiomes are surveyed. In our study, phyllosphere tissues housed increasingly distinct microbial assemblages as plants aged, indicating that plants can be considered collections of tissue habitats in which microbial colonists-natural or synthetic-are established with differing success. Relationships between host genes and community diversity might vary depending on when samples are collected, given that assemblages grew more diverse as plants aged. Both spatial and temporal trends weakened when colonists were grouped by family, suggesting that functional rather than taxonomic profiling will be necessary to understand the basis for differences in colonization success.

Topics & Concepts

Arabidopsis thalianaHost (biology)ArabidopsisBiologyComputational biologyEcologyGeneticsGeneMutantPlant-Microbe Interactions and ImmunityLegume Nitrogen Fixing SymbiosisPlant Pathogens and Fungal Diseases
Natural Bacterial Assemblages in Arabidopsis thaliana Tissues Become More Distinguishable and Diverse during Host Development | Litcius