The forthcoming UN summit marks the halfway point to 2030 and presents an important
milestone in global efforts to address various challenges, including those related to climate …

Identifying controls on soil organic carbon (SOC) storage, and where SOC is most
vulnerable to loss, are essential to managing soils for both climate change mitigation and …

Reactive primary and secondary minerals play a critical role in the transformation and
stabilization of organic matter (OM) in soil, a critical aspect that has been largely overlooked …

Soil is a huge carbon (C) reservoir, but where and how much extra C can be stored is
unknown. Current methods to estimate the maximum amount of mineral‐associated organic …

Biochar is recognized for its role in carbon sequestration and emission mitigation in
farmland topsoil. However, the mechanisms by which biochar affects soil organic carbon …

Coastal blue carbon (C) ecosystems are recognized as efficient natural C sinks and play key
roles in mitigating global climate change. Microbially driven C, nitrogen (N) and sulphur (S) …

The sustainability of bioenergy cropping systems hinges on the dynamics of soil organic
carbon (SOC). Switchgrass and Miscanthus, as the two leading perennial energy crops …

Paddy soil is an important terrestrial carbon (C) pool. Understanding the impact of organic
amendments on soil organic matter (SOM) stabilization pathways is critical for the accurate …

Net rhizodeposition corresponds to the portion of living root carbon (C) that remains in the
soil after microbial processing and partial decomposition. Although it is assumed that this C …

Microbial necromass carbon (C) can substantially contribute to stabilized soil organic matter
(SOM), and effective management of this C may help mitigate climate change. However …