In many soils, the bioavailability of Phosphorus (P), an essential macronutrient is a limiting
factor for crop production. Among the mechanisms developed to facilitate the absorption of …

Phosphorus (P) is an important nutrient for plants, and a lack of available P greatly limits
plant growth and development. Phosphate-solubilizing microorganisms (PSMs) significantly …

Accelerated sea‐level rise is expected to cause the salinization of freshwater wetlands, but
the responses to salinity of the availability of soil phosphorus (P) and of microbial genes …

Sea level rise–induced salinization is projected to influence the decomposition of soil
carbon (C) in tidal wetlands. Despite evidence showing that microbial metabolism can …

Estuarine wetlands, which typically store large amounts of phosphorus (P), are experiencing
increased salinity as well as changed environmental factors caused by rising sea levels. In …

Accelerated marsh erosion caused by climate change and human activity may have
important implications for nutrient cycling and availability. However, how erosion affects …

In the presence of limited phosphorus (P) in terrestrial ecosystems, exploring how land use
change (LUC) affects phosphatase enzyme activity and microbial communities is important …

The bacterial phoD gene encodes alkaline phosphatase plays an important role in the
release of bioavailable inorganic phosphorus (P) from organic P in environmental systems …

Abstract Changes in vegetation communities are projected to have a greater impact on the
turnover and storage of carbon in coastal wetlands by affecting soil organic matter …

Phosphate‐mobilizing bacteria (PMB) play a critical role in the regulation of phosphorus
availability in the soil. The microbial genes pqqC and phoD encode pyrroloquinoline …