Abstract
Root-associated fungal communities are important components in ecosystem processes, impacting plant growth and vigor by influencing the quality, direction, and flow of nutrients and water between plants and fungi. Linkages of plant phenological characteristics with belowground root-associated fungal communities have rarely been investigated, and thus our aim was to search for an interplay between contrasting phenology of host ectomycorrhizal trees from the same location and root-associated fungal communities (ectomycorrhizal, endophytic, saprotrophic and pathogenic root-associated fungi) in young and in adult silver fir trees. The study was performed in a managed silver fir forest site. Twenty-four soil samples collected under two phenologically contrasting silver fir groups were analyzed for differences in root-associated fungal communities using Illumina sequencing of a total root-associated fungal community. Significant differences in beta diversity and in mean alpha diversity were confirmed for overall community of ectomycorrhizal root-associated fungi, whereas for ecologically different non-ectomycorrhizal root-associated fungal communities the differences were significant only for beta diversity and not for mean alpha diversity. At genus level root-associated fungal communities differed significantly between early and late flushing young and adult silver fir trees. We discuss the interactions through which the phenology of host plants either drives or is driven by the root-associated fungal communities in conditions of a sustainably co-naturally managed silver fir forest.
Highlights
In forest ecosystems, tree roots are colonized by various ecto- and/or endo-mycorrhizal fungi as well as by other root-associated fungi
One-way ANOVA with Tukey contrasts conducted on mean alpha diversity among four groups of samples revealed significantly higher ECM fungal richness (Figure 3) in late flushing young silver fir trees compared to earlier flushing young trees (ANOVA, P = 0.0336), whereas for ECM fungal richness of adult silver fir trees only the influence of interaction between phenology and age was observed
We have confirmed the potential interplay of tree phenology and the ectomycorrhiza (ECM), endophytic, saprophytic and pathogenic fungal community belowground as the community on young trees differed between earliest and latest flushing trees from the same location
Summary
In forest ecosystems, tree roots are colonized by various ecto- and/or endo-mycorrhizal fungi as well as by other root-associated fungi. Ectomycorrhizal (ECM) fungi enhance the growth and survival of their host plant through improving nutrient uptake in exchange for photosynthetically derived carbon (Kraigher, 1996). Mycorrhizal fungi associate with a majority of plants, each individual plant benefits most from a unique root-associated fungal community (Smith and Gianinazzi-Pearson, 1988). Different factors can influence ECM community structure, including host plant species composition, stand age, habitat conditions, and edaphic factors (Smith et al, 2002). Several authors have observed a strong effect of tree age on fungal communities, as litter quality and understory vegetation in young stands differ markedly from older stands (Last et al, 1987). Due to rapid growth in early developmental stages, young trees generally have the potential to sequester a larger amount of carbon (Croft et al, 2014), mainly because of carbon allocation to ECM root tips (Wallander et al, 2010)
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