Response of rare and abundant rhizosphere microbial communities to inoculated rhizobium in cadmium-contaminated soil phytoremediation

Abstract

Soil microorganisms play an important role in maintaining ecosystem balance and exerting ecological functions. The taxonomic and functional changes in rare and abundant communities during in bioremediation of cadmium-contaminated soils and their contributions to the remediation of ecosystem functions remain elusive despite the significance of rare and abundant microbial taxa in maintaining soil ecological function. Mesorhizobiumloti HZ76-inoculated seedlings of the Robinia pseudoacacia were used to create a symbiotic system. The effects of rhizobium inoculation on rare and abundant rhizosphere microbial populations were investigated in pot experiments. Despite having minimal effects on the α-diversity of rare and abundant microbial communities, inoculation altered microbial community composition and functional gene abundance. For example, abundant phyla such as Proteobacteria were enriched following inoculation, whereas rare phyla such as Ascomycota were depleted. After inoculation, the abundance of nifH gene increased, while the abundance of amoA, amoB, nirS, nirK and nosZ gene decreased. Rare bacterial populations were more susceptible to the inoculated rhizobium's environmental alterations. In rare communities compared to abundance communities, the α-diversity was higher. Stochastic processes predominated in the communities of uncommon and abundant microorganisms. Furthermore, keystone taxa, particularly rare bacterial taxa (Gemmatimonadaceae and Saprospiraceae) and rare fungal taxa (Ascomycota), more mediates nitrogen cycle processes and is directly associated to the abundance of nitrogen functional genes. Together, our findings demonstrate the different ways that rare and abundant microbial species react to rhizobia inoculation and their connections to the nitrogen cycle.