Permafrost is experiencing climate warming at a rate that is two times faster than the rest of
the Earth's surface. However, it is still lack of a quantitative basis for predicting the functional …

Nitrogen (N) retention is a critical ecosystem function for maintaining soil fertility and
mitigating pollution caused by anthropogenic N input. However, it has not yet been …

Global soil nitrogen (N) cycling remains poorly understood due to its complex driving
mechanisms. Here, we present a comprehensive analysis of global soil δ15N, a stable …

As anthropogenic nitrogen (N) emissions have been rising for decades, it is critical to
develop natural archives that help understand how natural processes were modified in the …

Most existing forests are subjected to natural and human‐mediated selection pressures,
which have increased due to climate change and the increasing needs of human societies …

Anthropogenic fossil fuel burning increases atmospheric carbon dioxide (CO2)
concentration, which is adjusting the climate system. The direct impact of rising CO2 levels …

Nitrogen (N) is a limiting nutrient for primary productivity in most terrestrial ecosystems, but
whether N limitation is strengthening or weakening remains controversial because both N …

Abstract Changes in the nitrogen (N) status of forest ecosystems can directly and indirectly
influence their carbon (C) sequestration potential by altering soil organic matter (SOM) …

Abstract The 15 N: 14 N ratio (δ 15 N) is often used as an integrated indicator of nitrogen (N)
status in natural terrestrial ecosystems. However, the mechanisms by which long-term N …

Рассмотрены механизмы процессов минерализации и иммобилизации азота в почве.
Подчеркнута особая роль углерода в регулировании минерализационно …