Chemolithoautotrophic Antimonite Oxidation Coupled Nitrogen Fixation in the Rhizosphere of Local Plant in Antimony Tailing Area

) confirmed their rapid Sb(III) oxidation coupling autotrophic growth and nitrogen fixation. Isolates also exhibited plant growth-promoting traits, including indole-3-acetic acid production, phosphate solubilization, and siderophore secretion, providing multiple benefits to host plants. Co-cultivation of these isolates revealed minimal antagonism, suggesting the potential for designing synthetic microbial communities for sustainable phytoremediation. Cross-validation further suggests that SbNF is widespread in the rhizosphere of various local plants. These findings uncover a novel biogeochemical process in the rhizosphere, linking mineral oxidation, autotrophic growth, and nitrogen fixation, highlighting its importance for the ecological restoration of degraded tailing area.