Carbon-nitrogen coupling is fundamental in determining many ecosystem services, such as carbon sequestration, greenhouse gas emissions, and soil ferti...

Dryland ecosystems play a pivotal role in the global carbon cycle, particularly with regard to the interannual variability of land carbon sinks, given...

Peatland contains one-third of global soil carbon, but the response of this bulk amount of old carbon to long-term warming is largely unknown. Methane...

Artificial intelligence (AI) is powerful in uncovering hidden patterns and adaptively learning nonlinear relationships within intricate ecological sys...

Peatlands, known as carbon (C) sinks, risk becoming C sources to worsen climate change due to warming-induced C loss. Elevated CO2 (eCO2) might counte...

Accurately predicting the future terrestrial carbon sink strength is vital for quantifying its efficacy of carbon sequestration and potential in mitig...

Land use and land cover change (LULCC) are among the most significant anthropogenic factors influencing soil organic carbon (SOC) storage. Quantifying...

Deep soil has been proposed to offer a promising solution to climate change. What limits deep soil carbon sequestration has not been well explored. He...