Soil microorganisms are critical to ecosystem functioning and the maintenance of soil
fertility. However, despite global increases in the inputs of nitrogen (N) and phosphorus (P) …

Soil respiration (Rs) plays a crucial role in regulating carbon (C) cycling in terrestrial
ecosystems and the atmospheric carbon dioxide (CO 2) concentration. However, the impact …

Nitrogen (N) deposition influences both above-and below-ground communities and
influences ecosystem functioning. However it is not clear about direct or indirect interactions …

Understanding the large-scale pattern of soil microbial carbon use efficiency (CUE) and its
temperature sensitivity (CUET) is critical for understanding soil carbon–climate feedback …

Despite widespread anthropogenic nutrient enrichment, it remains unclear how nutrient
enrichment influences plant–arbuscular mycorrhizal fungi (AMF) symbiosis and ecosystem …

Anthropogenic nitrogen (N) input is known to alter plant and microbial α‐diversity, but how N
enrichment influences β‐diversity of plant and microbial communities remains poorly …

Increased human‐derived nitrogen (N) deposition to terrestrial ecosystems has resulted in
widespread phosphorus (P) limitation of net primary productivity. However, it remains …

Black soil is one of the main soil types in northeast China, and plays an important role in
Chinese crop production. However, nitrogen inputs over 50 years have led to reduced black …

Higher ecosystem nitrogen (N) inputs resulting from human activities often suppress soil
microbial biomass and respiration, thereby altering biogeochemical cycling. Soil …

Impacts of reactive nitrogen (N) inputs on ecosystem carbon (C) dynamics are highly
variable, and the underlying mechanisms remain unclear. Here, we proposed a new …