Effect of nickel-resistant rhizosphere bacteria on the uptake of nickel by the hyperaccumulator Noccaea caerulescens under controlled conditions

This work was conducted to determine whether Nickel-resistant rhizosphere bacteria (NiRRB) affected the Ni uptake and hyperaccumulation by Noccaea caerulescens. Ni-resistant bacterial strains (10 mM Ni), Bacillus pumilus and Micrococcus spp., were originally isolated from the rhizosphere of N. caerulescens (Brassicaceae) collected from serpentine Ni-rich soil in the Vosges mountains (France). They served to inoculate axenic seeds of N. caerulescens, which were then sown aseptically into sterile soil Magenta boxes and cultured under controlled conditions. Cultures inoculated with NiRRB showed a disappearance of chlorosis signs and a significant increase of the aerial biomass compared to the axenic control (1.5-fold higher). Despite the drastic decrease of the water-extractable Ni in the soil (80 %) at the end of the growth, there was no significant effect on Ni accumulation by N. caerulescens compared to the axenic control. A highly significant promoting effect on plant growth (fourfold higher) and an increase of Ni accumulation (65-fold higher) by N. caerulescens were shown in cultures with native microorganisms (nonsterile control) compared to the axenic control. The NiRRB strains used in this study reduced Ni bioavailability in the soil and did not improve the Ni uptake by N. caerulescens. Nevertheless, they induced promoting effects on the growth of this plant. They could serve as an effective metal-immobilizing and growth-promoting bioinoculant for plants in Ni-stressed soils. Optimal growth and Ni uptake by N. caerulescens requires the presence of native microbial community.