Increased human‐derived nitrogen (N) loading in terrestrial ecosystems has caused
widespread ecosystem‐level phosphorus (P) limitation. In response, plants and soil micro …

Soil fungi play indispensable roles in all ecosystems including the recycling of organic
matter and interactions with plants, both as symbionts and pathogens. Past observations …

Soil fungi have essential roles in ecosystems, but the seasonal dynamics of soil fungal
communities in forests remain unclear. To explore the pattern and variation of soil fungal …

Background Alpine coniferous forest ecosystems dominated by ectomycorrhizal (ECM) tree
species are generally characterized by low soil nitrogen (N) availability but stabilized plant …

The continuous imbalance between nitrogen (N) and phosphorus (P) deposition is expected
to shift many ecosystems from N‐to P limitation. Extraradical hyphae of ectomycorrhizal …

The interactions between roots and mycorrhizal fungi are critical for our understanding of the
multidimensional root economics space. Our knowledge on their relationships comes mainly …

Ectomycorrhizal (ECM) functional traits related to nutrient acquisition are impacted by
nitrogen (N) deposition. However, less is known about whether these nutrient‐acquisition …

Aim Soil microbial legacy is a potentially important regulator of the associations of plants
and mycorrhizal fungi. However, our understanding of how plant performance and root …

Microorganisms play a crucial role in nutrient cycling in soil. The composition and activity of
microbiota impact the soil quality status, health, and nutrient enrichment. Microbes are …

Increasing atmospheric nitrogen (N) deposition has resulted in phosphorus (P) limitation in
multiple terrestrial ecosystems, yet how plants coordinate aboveground and belowground …