Iron inactivation by Sporobolomyces ruberrimus and its potential role in plant metal stress protection. An in vitro study

“…Goyal et al [133] demonstrated that Bacillus clausii, a probiotic species of the genus Bacillus, showed a strong ability to survive and tolerate high concentrations of Cr, Cd, Pb, and Ni, thus appearing to be a good candidate for HM alleviation in vivo. In an in vitro co-culture of Arabidopsis arenosa and the basidiomycete Sporobolomyces ruberrimus, Jędrzejczyk et al [134] found that plants inoculated with the fungus showed significantly fewer stress symptoms in medium containing excess Fe, Zn, and Cd. It was also observed that the fungus was able to precipitate Fe in the medium, thus limiting the exposure of plants to metal toxicity.…”

In Vitro Culture Studies for the Mitigation of Heavy Metal Stress in Plants

“…Goyal et al [133] demonstrated that Bacillus clausii, a probiotic species of the genus Bacillus, showed a strong ability to survive and tolerate high concentrations of Cr, Cd, Pb, and Ni, thus appearing to be a good candidate for HM alleviation in vivo. In an in vitro co-culture of Arabidopsis arenosa and the basidiomycete Sporobolomyces ruberrimus, Jędrzejczyk et al [134] found that plants inoculated with the fungus showed significantly fewer stress symptoms in medium containing excess Fe, Zn, and Cd. It was also observed that the fungus was able to precipitate Fe in the medium, thus limiting the exposure of plants to metal toxicity.…”

In Vitro Culture Studies for the Mitigation of Heavy Metal Stress in Plants

Nanoreinforcement strategies for enhancing biodegradable composites in biochemical applications within agriwaste valorisation

Accelerated Pb(II) removal and concurrent bioelectricity production via constructed wetland-microbial fuel cell: Structural orthogonal optimization and microbial response mechanism