Litcius/Paper detail

Capacity of soil bacteria to reach the phyllosphere and convergence of floral communities despite soil microbiota variation

Julien Massoni, Miriam Bortfeld‐Miller, Alex Widmer, Julia A. Vorholt

2021Proceedings of the National Academy of Sciences103 citationsDOIOpen Access PDF

Abstract

in a soil substitute and added two microbial communities from natural soils. We estimated that at least 25% of the phyllosphere bacteria collected from the plants grown in the open environment were also detected in the controlled conditions, in which bacteria could reach leaves and flowers only from the soil. These taxa represented more than 40% of the communities based on amplicon sequencing. Unsupervised hierarchical clustering approaches supported the convergence of all floral microbiota, and 24 of the 28 bacteria responsible for this pattern belonged to the Burkholderiaceae family, which includes known plant pathogens and plant growth-promoting members. We anticipate that our study will foster future investigations regarding the routes used by soil microbes to reach leaves and flowers, the ubiquity of the environmental filtering of Burkholderiaceae across plant species and environments, and the potential functional effects of the accumulation of these bacteria in the reproductive organs of flowering plants.

Topics & Concepts

PhyllosphereBiologyBacteriaHost (biology)BotanyEcologyGeneticsPlant Parasitism and ResistanceLegume Nitrogen Fixing SymbiosisPlant and animal studies