Abstract
Cardamine violifolia is the only selenium hyperaccumulation plant found in China. It has been developed as a source of medicinal and edible products that we can consume as selenium supplements. Many planting approaches have been developed to increase the selenium content of C. violifolia for nutrient biofortification. However, the contribution of rhizosphere microbes of C. violifolia to selenium enrichment has not been investigated. In this study, four types of selenium, i.e., selenate, selenite, nanoparticles selenium from Bacillus subtilis (B. subtilis-Se), and organic selenium from yeast (yeast-Se), were added to the soil that C. violifolia was grown in, respectively. Selenate led to the greatest accumulation of selenium in C. violifolia, followed by selenite, B. subtilis-Se, and yeast-Se. Except for yeast-Se, the concentration of selenium in C. violifolia positively correlated with the amount of selenium added to the soil. Furthermore, the different types of exogenous selenium exhibited distinct effects on the rhizosphere microbiome of C. violifolia. Alpha and beta diversity analyses demonstrated that rhizosphere microbiome was more obviously affected by selenium from B. subtilis and yeast than from selenate and selenite. Different microbial species were enriched in the rhizosphere of C. violifolia under various exogenous selenium treatments. B. subtilis-Se application enhanced the abundance of Leucobacter, Sporosarcina, Patulibacter, and Denitrobacter, and yeast-Se application enriched the abundance of Singulishaera, Lactobacillus, Bdellovibrio, and Bosea. Bosea and the taxon belonging to the order Solirubrobacterales were enriched in the samples with selenate and selenite addition, respectively, and the abundances of these were linearly related to the concentrations of selenate and selenite applied in the rhizosphere of C. violifolia. In summary, this study revealed the response of the rhizosphere microbiome of C. violifolia to exogenous selenium. Our findings are useful for developing suitable selenium fertilizers to increase the selenium hyperaccumulation level of this plant.
Highlights
Selenium (Se) is an essential micronutrient with strong bioactivity for all kinds of organisms, including humans, animals, plants, and microorganisms (White and Brown 2010)
The concentration of Se in the leaves of C. violifolia was positively related to the supplementation of B. subtilis-Se, selenite, and selenate into the soils
The ratio was reduced in higher concentrations of yeast-se and selenite and fluctuated for B. subtilis-Se, indicating that C. violifolia could not utilize high concentration of yeast-Se, selenite, B. subtilis-Se or as well as selenate
Summary
Selenium (Se) is an essential micronutrient with strong bioactivity for all kinds of organisms, including humans, animals, plants, and microorganisms (White and Brown 2010). In the study we examined the effect of the different types of exogenous Se (selenate, selenite, nanoparticles element Se from Bacillus subtilis, and organic selenium from yeast) with varied concentration levels on the growth and Se accumulation in C. violifolia, and analyzed the corresponding response of root-associated bacteria. These results would be helpful for understanding the Se accumulation mechanisms and developing Se biofortification or phytoremediation technologies in future
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