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

Increasing nitrogen (N) deposition has aroused large concerns because of its potential
negative effects on forest ecosystems. Although microorganisms play a vital role in …

Large amounts of nitrogen (N) are loaded in tropical and subtropical regions due to
anthropogenic activities. However, the long-term effect of this deposition on soil biodiversity …

The soil nitrogen (N) cycle, as a network of interlinked processes, is mainly driven by
microbial communities. However, the patterns and factors that influence the abundance of …

The continuous increase of nitrogen (N) deposition has had strong impacts on the structure
and health of forest ecosystems globally. An elucidation of the shifts in rhizospheric …

Serious nitrogen (N) deposition in terrestrial ecosystems causes soil acidification and
changes the structure and function of the microbial community. However, it is unclear how …

Intensified anthropogenic activities will increase rates of nitrogen (N) deposition over the
next decades, especially in the tropics. There are urgent needs to know how soil microbial …

Although a large number of studies have reported the importance of microbial communities
in terrestrial ecosystems and their response to nitrogen (N) application, it is not clear in arid …

Increased nitrogen (N) deposition endangers the biodiversity and stability of forest
ecosystems, and much of the original phosphorus (P) parent material continues to decrease …

It has been predicted that precipitation and atmospheric nitrogen (N) deposition will increase
in northern China; yet, ecosystem responses to the interactive effects of water and N remain …