Although research on plant growth promoting bacteria began in the 1950s, basic and
applied research on bacteria improving use of phosphorus (P) continues to be a priority …

Modern progress in soil biology is associated with the use of new molecular biology
methods based on the isolation of total DNA from soil and its further analysis. The two main …

Microorganisms play an important role in soil phosphorus (P) cycling and regulation of P
availability in agroecosystems. However, the responses of the functional and ecological …

腐生真菌被孢霉在富含有机质的土壤中丰度很高, 为土壤碳及养分转化的关键微生物成员.
然而目前关于土著被孢霉在秸秆分解过程中对土壤养分有效性影响的研究较少 …

Long‐term elevated nitrogen (N) input from anthropogenic sources may cause soil
acidification and decrease crop yield, yet the response of the belowground microbial …

Microorganisms are critical in mediating carbon (C) and nitrogen (N) cycling processes in
soils. Yet, it has long been debated whether the processes underlying biogeochemical …

Maintaining stability of ecosystem functions in the face of global change calls for a better
understanding regulatory factors of functionally specialized microbial groups and their …

Appling phosphorus (P) fertilizer to agroecosystems affects not only crop yield but also
associated soil microbial communities. The bacterial phoD gene encodes alkaline …

Localized fertilization of phosphorus has potential benefits in achieving higher crop
productivity and nutrient use efficiency, but the underlying biological mechanisms of …

Soil microbes play key roles in soil nutrient cycling and absorption by crops. Thus, shifts in
soil microbial community structure affect the functioning and productivity of agricultural …