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 …

Increased inputs of reactive nitrogen (N) by fertiliser production cause adverse effects on
terrestrial and aquatic ecosystems as well as human health, through impacts on air, soil and …

Whether and how to synchronously regulate stream water nitrogen (N) and phosphorus (P)
concentrations and ratios is a major challenge for sustainable aquatic functions. Soil carbon …

Terrestrial ecosystem carbon (C) sequestration plays an important role in ameliorating
global climate change. While tropical forests exert a disproportionately large influence on …

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 …

Abstract Knowledge-based nitrogen (N) management provides better synchronization of
crop N demand with N supply to enhance crop production while reducing N losses. Yet, how …

Global nitrogen (N) deposition patterns have profoundly affected the production and
morphological structure of fine roots, which in turn changed the distribution of carbon in …

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 …

A mechanistic understanding of plant photosynthetic response is needed to reliably predict
changes in terrestrial carbon (C) gain under conditions of chronically elevated atmospheric …

Nitrogen (N) deposition influences both above-and below-ground communities and
influences ecosystem functioning. However it is not clear about direct or indirect interactions …