posted on 2024-07-13, 13:30authored byHuachuan Feng, Yilin Wang, Xiaofeng Wang, Nan Li, Qiuyang Li, Jin Li, Xiaoming Chen, Qing Wang, Wenkun Zhu
The
addition of soil amendments to facilitate plant-based remediation
of soil contaminated with radioactive nuclides is considered a promising
approach. Here, we tested different levels of biochar to help clean
uranium-contaminated soil in the potted plants. Adding 1% biochar
had the best results in deactivating uranium, increasing soil enzyme
activity, and promoting ryegrass growth. Microbiological and metabolomic
analysis further revealed that 1 wt % biochar significantly enhanced
the abundance of microorganisms such as Actinobacteriota and Myxococcota
and accelerated the production of differential metabolites such as
lipids and lipid-like molecules, organic acids and derivatives, and
organic oxygen compounds. The analysis of biological and nonbiological
interaction networks indicates that the coordinated interaction between
bacteria, enzymes, and metabolites significantly improves the expression
level of the ABC transporter’s metabolic pathway. This enhances
the resistance of living cells to uranium and maintains system homeostasis
under uranium stress. This study provides an example of the application
of biochar-assisted phytoremediation and offers theoretical guidance
for the remediation of soil contaminated with radioactive nuclides.