Atmospheric nitrogen (N) deposition is known to alter soil microbial communities, but how
canopy and understory N addition affects soil bacterial and fungal communities in different …

Global change profoundly impacts carbon and nitrogen (N) cycling processes in terrestrial
ecosystems by altering soil microbial communities. However, how enhanced N deposition …

Increased soil nitrogen (N) from atmospheric N deposition could change microbial
communities and functions. However, the underlying mechanisms and whether soil …

Investigating the response of soil microbial communities to nitrogen (N) deposition is critical
to understanding biogeochemical processes and the sustainable development of forests …

Anthropogenic nitrogen (N) deposition and increased precipitation are known to alter soil
microbial communities. However, the combined effects of elevated N deposition and …

Soil microorganisms are key regulators for plant growth and ecosystem health of forest
ecosystem. Although previous research has demonstrated that soil microorganisms are …

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

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

The nitrogen (N) enrichment induced by atmospheric N deposition affects both soil
physicochemical properties and bacterial communities. However, how N enrichment affects …

In the global change scenario, nitrogen (N) deposition has the potential to affect the soil
microbial communities that play critical roles in ecosystem functioning. Although the impacts …