Soil organic carbon (SOC) changes under future climate warming are difficult to quantify in
situ. Here we apply an innovative approach combining space-for-time substitution with meta …

Subsoil stores the majority of soil organic carbon (SOC), and plays a vital role in the global
carbon cycle in terrestrial ecosystems and in regulating climate change. Response of SOC …

Plastic film mulching (PFM) and nitrogen (N) fertilization are two important agricultural
management methods that are used to enhance crop yields in semi-arid dryland agriculture …

Understanding the mechanisms of soil organic carbon (SOC) sequestration in forests is vital
to ecosystem carbon budgeting and helps gain insight in the functioning and sustainable …

Organic carbon decomposition in lake sediments contributes substantially to the global
carbon cycle and is strongly affected by temperature. However, the magnitude of …

As one of the most important drivers of global climate change, land use change (LUC) has
markedly altered the regional and global carbon (C) cycles. However, the geographic …

Evaluating soil organic carbon (SOC) mineralization and its temperature sensitivity (Q 10) is
essential to understand SOC sequestration capacity. However, little is known about the …

Purpose The response of soil organic carbon (SOC) fractions to climate warming plays an
important role in influencing the fate of soil C stocks. Coastal wetlands have high C …

The temperature sensitivity (Q 10) of soil organic C (SOC) decomposition is an important
parameter to predict C dynamics under climate change. Given that SOC is mainly protected …

Soil contains a substantial amount of organic carbon, and its feedback to global warming
has garnered widespread attention due to its potential to modulate atmospheric carbon (C) …