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 …

Agricultural and industrial activities have increased atmospheric nitrogen (N) deposition to
ecosystems worldwide. N deposition can stimulate plant growth and soil carbon (C) input …

Atmospheric nitrogen (N) deposition has enhanced soil carbon (C) stocks in temperate
forests. Most research has posited that these soil C gains are driven primarily by shifts in …

Soil microorganisms play a critical role in the biosphere, and the influence of cropland
fertilization on the evolution of soil as a living entity is being actively documented. In this …

Accumulating evidence indicates that future rates of atmospheric N deposition have the
potential to increase soil C storage by reducing the decay of plant litter and soil organic …

Phosphorus (P) is an essential but limited nutrient in highly weathered subtropical or tropical
forest soils; however, increased P demands owing to elevated nitrogen (N) deposition might …

Plant litter decomposition is a central process in the carbon (C) cycle and sensitive to
ongoing anthropogenic nitrogen (N) fertilisation. Previous syntheses evaluating the effect of …

There is evidence that anthropogenic nitrogen (N) deposition enhances carbon (C)
sequestration in boreal forest soils. However, it is unclear how free‐living saprotrophs …

Atmospheric nitrogen (N) deposition in forests can affect soil microbial growth and turnover
directly through increasing N availability and indirectly through altering plant‐derived carbon …