Litcius/Paper detail

An Enterobacter cloacae strain NG-33 that can solubilize phosphate and promote maize growth

Xinxin Chen, Caihe Yang, Jairo A. Palta, Youzhi Li, Xian‐Wei Fan

2022Frontiers in Microbiology22 citationsDOIOpen Access PDF

Abstract

It is critical to identify and evaluate efficient phosphate-solubilizing bacteria (PSB) that enable P uptake from unavailable forms, and therefore improve the phosphorus (P) uptake efficiency of crops. The Enterobacter cloacae strain NG-33, belonging to PSB, was isolated and identified from calcareous rhizosphere soils in Nonggang National Reserve, Guangxi, China. The stain NG-33 could reduce the pH of the medium to below 5.6, and had the ability to release soluble phosphorus (P; 180.7 μg ml −1 ) during the culture in the National Botanical Research Institute’s Phosphate medium (NBRIP), and produced such organic acids as gluconic acid (4,881 mg L −1 ), acetic acid (346 mg L −1 ), and indole-3-acetic acid (20.4 μg ml −1 ). It could also convert inorganic P in AlPO 4 (Al-P) and FePO 4 (Fe-P) into soluble P, with conversion efficiencies of 19.2 μg ml −1 and 16.3 μg ml −1 , respectively. Under pot experiments and when compared controls without inoculating NG-33, the shoot and root biomass of maize seedlings showed increases by 140% for shoot biomass and by 97% for root biomass in loamy soil (P sufficient) inoculated with NG-33. In sandy soil (P deficit) supplemented with tricalcium phosphate and inoculated with NG-33, the soluble P content was significantly higher, 58.6% in soil and 33.6% in roots, meanwhile, the biomass of shoots and roots increased by 14.9 and 24.9%, respectively. The growth-promoting effects coupled to the significant increase in leaf net photosynthetic rate and stomatal conductance of plants grown in NG-33-inoculated soil. Inoculating NG-33 could significantly improve the diversity and richness of bacterial population and altered the dominant bacterial population in soil.

Topics & Concepts

Enterobacter cloacaeRhizosphereShootPhosphorusPhosphate solubilizing bacteriaPhosphateChemistryHorticultureInoculationRhizobacteriaFood scienceBiologyBacteriaBiochemistryGeneKlebsiella pneumoniaeOrganic chemistryGeneticsEscherichia coliPlant nutrient uptake and metabolismLegume Nitrogen Fixing SymbiosisPhosphorus and nutrient management