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Harnessing the power of microbes: Enhancing soybean growth in an acidic soil through AMF inoculation rather than P-fertilization

Zhongling Wen, Minkai Yang, Aliya Fazal, Hongwei Han, Hongyan Lin, Tongming Yin, Yuelin Zhu, Shouping Yang, Kechang Niu, Shucun Sun, Jinliang Qi, Guihua Lu, Yonghua Yang

2024Horticulture Research13 citationsDOIOpen Access PDF

Abstract

Abstract The low phosphorus (P) availability of acidic soils severely limits leguminous plant growth and productivity. Improving the soil P nutritional status can be achieved by increasing the P-content through P-fertilization or stimulating the mineralization of organic P via arbuscular mycorrhizal fungi (AMF) application; however, their corresponding impacts on plant and soil microbiome still remain to be explored. Here, we examined the effects of AMF-inoculation and P-fertilization on the growth of soybean with different P-efficiencies, as well as the composition of rhizo-microbiome in an acidic soil. The growth of recipient soybean NY-1001, which has a lower P-efficiency, was not significantly enhanced by AMF-inoculation or P-fertilization. However, the plant biomass of higher P-efficiency transgenic soybean PT6 was significantly increased by 46.74%–65.22% through AMF-inoculation. Although there was no discernible difference in plant biomass between PT6 and NY-1001 in the absence of AMF-inoculation and P-fertilization, PT6 had approximately 1.9–2.5 times the plant biomass of NY-1001 after AMF-inoculation. Therefore, the growth advantage of higher P-efficiency soybean was achieved through the assistance of AMF rather than P-fertilization in available P-deficient acidic soil. Most nitrogen (N)-fixing bacteria and some functional genes related to N-fixation were abundant in endospheric layer, as were the P-solubilizing Pseudomonas plecoglossicida, and annotated P-metabolism genes. These N-fixing and P-solubilizing bacteria were positive correlated with each other. Lastly, the two most abundant phytopathogenic fungi species accumulated in endospheric layer, they exhibited positive correlations with N-fixing bacteria, but displayed negative interactions with the majority of the other dominant non-pathogenic genera with potential antagonistic activity.

Topics & Concepts

BiologyInoculationHuman fertilizationAgronomyNitrogen fixationPhosphorusNutrientSoil waterMicrobiomeMineralization (soil science)Biomass (ecology)BacteriaHorticultureEcologyChemistryGeneticsOrganic chemistryBioinformaticsLegume Nitrogen Fixing SymbiosisMycorrhizal Fungi and Plant InteractionsPlant nutrient uptake and metabolism