Most agroecosystems receive inputs of anthropogenically derived nutrients, which impact
soil organic carbon (SOC). However, the impact of the combination of different fertilizer …

Simple Summary Microorganisms and their enzymes are crucial to ensuring soil quality,
health, and carbon sequestration. Their numerous reactions are essential for …

The long-term effects of different fertilization regimes on the microbial functional potential of
soils involving nutrient cycling remain largely unknown. Here, metagenomic sequencing …

Aim Ecoenzymatic stoichiometry provides a promising avenue for deciphering resource
constraints on soil microbial metabolism but is hampered by limitations in current modelling …

Phosphorus (P) limitation to microorganisms is increasingly recognized in soils, but how the
limitation mediates the metabolic processes of microbes driving soil carbon (C) release …

Soil microbial carbon use efficiency (CUE) is a crucial parameter that can be used to
evaluate the partitioning of soil carbon (C) between microbial growth and respiration …

Mulching and nitrogen (N) fertilization are essential to increase crop yields in semiarid
drylands. However, their long-term effects on soil physicochemical properties, extracellular …

Soil microbial growth and activity are generally limited by availability of resources such
carbon (C), nitrogen (N), or phosphorus (P) in terrestrial ecosystems. However, how soil …

Viruses are critical for regulating microbial communities and biogeochemical processes
affecting carbon/nutrient cycling. However, the role of soil phages in controlling microbial …

Soil extracellular enzyme activity (EEA) stoichiometry reflects the dynamic balance between
microorganism metabolic demands for resources and nutrient availability. However …