Phosphorus (P) is an essential but limited nutrient in highly weathered subtropical or tropical
forest soils; however, increased P demands owing to elevated nitrogen (N) deposition might …

Microbial residual carbon (C) plays a crucial role in soil organic C (SOC) stabilization, and
exogenous nutrients have frequently been observed to increase the proportion of microbial …

Elevated nitrogen (N) deposition may exacerbate soil phosphorus (P) limitations in P-
deficient subtropical forest ecosystems. However, which abiotic factors predominantly …

Globally increasing atmospheric nitrogen (N) deposition can affect soil phosphorus (P)
transformations, yet the pathways and underlying mechanisms are largely unclear. Here, we …

Soil microbes regulate key functions of terrestrial ecosystems, but the effects and underlying
mechanisms of elevated nutrient inputs on soil microbial diversity in tropical forests remain …

Elevated nitrogen (N) deposition in humid tropical regions may exacerbate phosphorus (P)
deficiency in forests on highly weathered soils. However, it is not clear how P availability …

Nitrogen (N) deposition has increased dramatically since the industrial revolution due to
anthropogenic activities. Meanwhile, global mean precipitation was predicted to rise …

Elevated nitrogen (N) deposition in humid tropical regions may aggravate phosphorus (P)
deficiency in forest on old weathered soil found in these regions. From January 2007 to …

Phosphorus (P) availability is a limiting factor for plant growth in tropical and subtropical
regions, but many tropical and subtropical forests maintain high levels of productivity and …

Abstract Background and Aims Phosphorus (P) is commonly one of most limiting nutrients in
tropical and subtropical forests, but whether P limitation would be exacerbated during forest …