Tomorrow's agriculture, challenged by increasing global demand for food, scarcity of arable
lands, and resources alongside multiple environment pressures, needs to be managed …

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

The ecology of forest soils is an important field of research due to the role of forests as
carbon sinks. Consequently, a significant amount of information has been accumulated …

Although the effects of chemical fertilization management on microbial communities in soils
have been well studied, few studies have examined such impacts of long-term chemical …

Soils represent a significant reservoir of biological diversity that underpins a broad range of
key processes and moderate ecosystem service provision. Our understanding of the role …

Aim Soil nitrogen (N) cycling is critical to the productivity of terrestrial ecosystems. However,
the impact of global change factors (GCFs) on the microbial mediators of N cycling pathways …

Background One promise of the recently presented microbiome definition suggested that, in
combination with unifying concepts and standards, microbiome research could be important …

Greenhouse gas emissions from wetlands are significantly promoted by global nitrogen
input for changing the rate of soil carbon and nitrogen cycling, and are substantially affected …

The traditional view holds that biological nitrogen (N) fixation is energetically expensive and
thus, facultative N fixers reduce N fixation rates while obligate N fixers are excluded by non …

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