Nutrient enrichment is a major global change component that often disrupts the relationship
between aboveground biodiversity and ecosystem functions by promoting species …

Highlights•The sustainable grazing management should focus on the biodiversity
conservation and the maintenance of ecosystem multifunctionality.•Grazing effects on …

Anthropogenic nitrogen (N) input is known to alter plant and microbial α‐diversity, but how N
enrichment influences β‐diversity of plant and microbial communities remains poorly …

Background For achieving long-term sustainability of intensive agricultural practices, it is
pivotal to understand belowground functional stability as belowground organisms play …

China has experienced a widespread increase in N deposition due to intensive
anthropogenic activities, particularly in the subtropical regions. However, the effects of long …

Anthropogenic eutrophication is known to impair the diversity and stability of aboveground
community, but its effects on the diversity, composition and stability of belowground …

Background: Microbes, collectively bacteria, fungi, archaea, and viruses, are the organisms
that are widely distributed on earth, with a huge number of individuals and high diversity of …

Nitrogen (N) enrichment poses threats to biodiversity and ecosystem stability, while
arbuscular mycorrhizal (AM) fungi play important roles in ecosystem stability and …

Although nitrogen (N) enrichment is known to threaten the temporal stability of aboveground
net primary productivity, it remains unclear how it alters that of belowground microbial …

Soil microorganisms play key roles in terrestrial biogeochemical cycles and ecosystem
functions. However, few studies address how long-term nitrogen (N) addition gradients …