Colonization of Naive Roots from <i>Populus tremula</i> × <i>alba</i> Involves Successive Waves of Fungi and Bacteria with Different Trophic Abilities
F. Fracchia, Lauralie Mangeot-Peter, L. Jacquot, F. Martin, Claire Veneault‐Fourrey, Aurélie Deveau
Abstract
The tree root microbiome is composed of a very diverse set of bacterial and fungal communities. These microorganisms have a profound impact on tree growth, development, and protection against different types of stress. They mainly originate from the bulk soil and colonize the root system, which provides a unique nutrient-rich environment for a diverse assemblage of microbial communities. In order to better understand how the tree root microbiome is shaped over time, we observed the composition of root-associated microbial communities of naive plantlets of poplar transferred in natural soil. The composition of the final root microbiome relies on a series of colonization stages characterized by the dominance of different fungal guilds and bacterial community members over time. Our observations suggest an early stabilization of bacterial communities, whereas fungal communities are established following a more gradual pattern.