While aboveground biodiversity has been widely studied, how microbial biodiversity
responds to increasing nitrogen (N) deposition is still unclear. Here we conducted a meta …

A meta-analysis of 94 published studies was conducted to explore the impacts of farmland
application of antibiotic-contaminated manures on antibiotic concentrations and ARG …

Globally increasing nitrogen (N) deposition is recognized as an important regulator of soil
microbial communities. However, how N enrichment affects soil microbial diversity, richness …

Soil microbes make up a significant portion of the genetic diversity and play a critical role in
belowground carbon (C) cycling in terrestrial ecosystems. Soil microbial diversity and …

A significant increase in reactive nitrogen (N) added to terrestrial ecosystems through
agricultural fertilization or atmospheric deposition is considered to be one of the most …

Soil respiration (Rs) plays a crucial role in regulating carbon (C) cycling in terrestrial
ecosystems and the atmospheric carbon dioxide (CO 2) concentration. However, the impact …

Global atmospheric nitrogen deposition significantly affects the nutrient cycling and C–N–P
stoichiometry in ecosystems. Herein, a global meta-analysis was conducted based on 898 …

Soil microbes comprise a large portion of the genetic diversity on Earth and influence a large
number of important ecosystem processes. Increasing atmospheric nitrogen (N) deposition …

Soil gross nitrification (GN) is a critical process in the global nitrogen (N) cycle that results in
the formation of nitrate through microbial oxidation of ammonium or organic N, and can both …

Nitrogen (N) fertilization affects the rate of soil organic carbon (SOC) decomposition by
regulating extracellular enzyme activities (EEA). Extracellular enzymes have not been …