Plant diversity and soil microbial diversity are closely related, and they maintain the health
and stability of terrestrial ecosystems. As a hotspot region of global biodiversity research …

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

Atmospheric nitrogen (N) deposition and changing precipitation regimes greatly affect the
structure and functions of terrestrial ecosystems. However, their impacts on the diversity and …

Plant and microbial diversity are key to determine ecosystem functioning. Despite the well‐
known role of local‐scale α diversity in affecting vegetation biomass, the effects of …

Soil fungi play critical roles in ecosystem processes and are sensitive to global changes.
Elevated atmospheric nitrogen (N) deposition has been well documented to impact on …

The determination of organic nitrogen (N) mineralization is crucial for estimating N
availability, quantifying exogenous inputs, and estimating associated environmental …

Soil erosion, which involves the degradation of the physical and chemical properties of soil,
is a major threat to the soil environment. Although the effects of soil erosion on the physical …

Different fungal guilds within the soil fungal community regulate forest ecosystem processes.
Soil fungi are dictated by edaphic factors such as soil water and nutrient availabilities …

Changing climates are causing agricultural water shortages at unprecedented scales and
magnitudes, especially in regions historically reliant on irrigation. Identifying and …

Under the background of the Coronavirus Disease 2019 (COVID-19) pandemic, research on
pathogens deserves greater attention in the natural environment, especially in the widely …