Enzymatic pathways of phytate degradation in saline–alkaline soils #sci...


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This study investigates the microbial mechanisms responsible for organic phosphorus mineralization and inorganic phosphorus solubilization in arid cotton fields subjected to brackish water drip irrigation and phosphorus fertilization. It explores how microbial enzymatic activity, community composition, and gene expression regulate phosphorus cycling under combined salinity and nutrient stress. Through a combination of metagenomic, biochemical, and ecological analyses, the research aims to elucidate the functional diversity of phosphate-solubilizing and mineralizing microbes, providing scientific insights for improving phosphorus use efficiency and soil fertility in sustainable cotton production within arid and saline agroecosystems.
  #nutrientcycling #phosphorususeefficiency #microbialbiodiversity #soilmicrobiomefunction #brackishwaterimpact #salinityandnutrientinteraction #microbialstressresponse #sciencefather #chinascientist #trending #technology#facts
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