Abstract Changes in precipitation regimes have significant effects on soil carbon (C) cycles;
however, these effects may vary in arid versus humid areas. Additionally, the corresponding …

Understory vegetation accounts for a large proportion of floral diversity. It provides various
ecosystem functions and services, such as productivity, nutrient cycling, organic matter …

Abstract Changes in precipitation regimes can strongly affect soil nitrogen (N) cycling in
terrestrial ecosystems. However, whether altered precipitation regimes may differentially …

Soil fauna plays a key role in regulating biogeochemical cycles, but how multiple global
change factors (GCFs) may affect faunal communities remains poorly studied. We conducted …

Litter decomposition is a major method in which nutrients are recycled, especially carbon
and nitrogen elements, in terrestrial ecosystems. However, how the responses of litter …

Climate change-induced alterations in precipitation regimes can substantially impact litter
decomposition and consequently affect carbon (C) and nutrient cycling in terrestrial …

Litter decomposition is a fundamental ecosystem process, influencing soil carbon storage,
nutrient availability, and forest productivity. Climate change may affect litter decomposition …

Increased atmospheric greenhouse gas (GHG) concentrations resulting from human
activities lead to climate change, including global warming and changes of precipitation …

Abstract Changes in the seasonal precipitation regime induced by global climate change
may alter moisture and the dynamics of related microbes and enzymes, thereby significantly …

Understanding the primary factors influencing atmospheric carbon dioxide (CO 2) dynamics
is essential for addressing global climate change. However, these factors' spatial and …