Forests influence climate and mitigate global change through the storage of carbon in soils.
In turn, these complex ecosystems face important challenges, including increases in carbon …

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 …

Nitrogen (N) availability is a primary constraint to plant productivity, especially in marginal
lands with inherently low fertility. Root exudates change with plant nutrient status, and are …

The understanding of nitrogen (N) cycling in forest ecosystems has undergone a major shift
in the past decade as molecular methods are being used to link microorganisms to key …

No-tillage farming is widespread globally; however, the impact of no-tillage on soil microbial
diversity is debatable. The existing research literature needs to be synthesized and a …

Soil microbial growth and activity are generally limited by availability of resources such
carbon (C), nitrogen (N), or phosphorus (P) in terrestrial ecosystems. However, how soil …

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

Fertilizers can affect formation, size distribution and stability of soil aggregates in agricultural
ecosystems. Although many independent studies have been recently carried out to …

The relationship between total and metabolically active soil microbial communities can
provide insight into how these communities are impacted by environmental change, which …

Nitrogen (N) deposition affects soil organic carbon (SOC) decomposition, therefore altering
the global terrestrial carbon (C) cycle. However, it remains unclear how N deposition affects …