Tree bark constitutes an ideal habitat for microbial communities, because it is a stable substrate, rich in micro-niches. Bacteria, fungi, and terrestrial microalgae together form microbial communities, which in turn support more bark-associated organisms, such as mosses, lichens, and invertebrates, thus contributing to forest biodiversity. We have a limited understanding of the diversity and biotic interactions of the bark-associated microbiome, as investigations have mainly focused on agriculturally relevant systems and on single taxonomic groups. Here we implemented a multi-kingdom metabarcoding approach to analyze diversity and community structure of the green algal, bacterial, and fungal components of the bark-associated microbial comm...
IntroductionTrees interact with fungi in mutualistic, saprotrophic, and pathogenic relationships. Wi...
Depending on their tree species composition, forests recruit different soil microbial communities. L...
Investigating forest soil biodiversity is essential to increase our understanding of ecosystem funct...
Tree bark constitutes an ideal habitat for microbial communities, because it is a stable substrate, ...
Tree bark constitutes ideal habitat for microbial communities, because it is a stable substrate, ric...
Tree bark constitutes an ideal habitat for microbial communities, because it is a stable substrate, ...
Beech trees (Fagus sylvatica) are prominent keystone species of great economic and environmental val...
Deadwood represents an important nutrient source and microbial habitat in forest ecosystems. Its dec...
This study investigated the possible effects of tree species diversity and identity on the soil micr...
The impacts of plant species on the microbial communities and physico-chemical characteristics of so...
IntroductionTrees interact with fungi in mutualistic, saprotrophic, and pathogenic relationships. Wi...
The complex interactions between trees and soil microbes in forests as well as their inherent season...
Due to land use history, most of the current temperate and boreal forests are developed on nutrient-...
National audienceThe impact of plant species on the soil microbial communities and the physico-chemi...
IntroductionTrees interact with fungi in mutualistic, saprotrophic, and pathogenic relationships. Wi...
IntroductionTrees interact with fungi in mutualistic, saprotrophic, and pathogenic relationships. Wi...
Depending on their tree species composition, forests recruit different soil microbial communities. L...
Investigating forest soil biodiversity is essential to increase our understanding of ecosystem funct...
Tree bark constitutes an ideal habitat for microbial communities, because it is a stable substrate, ...
Tree bark constitutes ideal habitat for microbial communities, because it is a stable substrate, ric...
Tree bark constitutes an ideal habitat for microbial communities, because it is a stable substrate, ...
Beech trees (Fagus sylvatica) are prominent keystone species of great economic and environmental val...
Deadwood represents an important nutrient source and microbial habitat in forest ecosystems. Its dec...
This study investigated the possible effects of tree species diversity and identity on the soil micr...
The impacts of plant species on the microbial communities and physico-chemical characteristics of so...
IntroductionTrees interact with fungi in mutualistic, saprotrophic, and pathogenic relationships. Wi...
The complex interactions between trees and soil microbes in forests as well as their inherent season...
Due to land use history, most of the current temperate and boreal forests are developed on nutrient-...
National audienceThe impact of plant species on the soil microbial communities and the physico-chemi...
IntroductionTrees interact with fungi in mutualistic, saprotrophic, and pathogenic relationships. Wi...
IntroductionTrees interact with fungi in mutualistic, saprotrophic, and pathogenic relationships. Wi...
Depending on their tree species composition, forests recruit different soil microbial communities. L...
Investigating forest soil biodiversity is essential to increase our understanding of ecosystem funct...