1. Endophytic Bacillus pumilus G5 Interacting with Silicon to Improve Drought Stress Resilience in Glycyrrhiza uralensis Fisch. by Modulating Nitrogen Absorption, Assimilation, and Metabolism Pathways.
- Author
-
Xu Z, Bai Q, Peng X, Lang D, and Zhang X
- Subjects
- Bacillus metabolism, Stress, Physiological, Chlorophyll metabolism, Soil chemistry, Plant Roots microbiology, Plant Roots metabolism, Droughts, Nitrogen metabolism, Silicon metabolism, Endophytes metabolism, Endophytes physiology, Glycyrrhiza uralensis microbiology, Glycyrrhiza uralensis metabolism, Glycyrrhiza uralensis chemistry, Glycyrrhiza uralensis genetics
- Abstract
Drought stress has become the primary severe threat to global agriculture production, including medicinal plants. Plant growth-promoting bacteria (PGPB) and environmentally friendly element silicon (Si) have emerged as effective methods in alleviating drought stress in various plants. Here, the effects of the plant endophytic G5 interaction with Si on regulating nitrogen absorption, assimilation, and metabolism pathways were investigated in the morphophysiological and gene attributes of Glycyrrhiza uralensis exposed to drought. Results showed that G5+Si application improved nitrogen absorption and assimilation by increasing the available nitrogen content in the soil, further improving the nitrogen utilization efficiency. Then, G5+Si triggered the accumulation of the major adjustment substances proline, γ-aminobutyric acid, putrescine, and chlorophyll, which played an important role in contributing to maintaining balance and energy supply in G. uralensis exposed to drought. These findings will provide new ideas for the combined application of PGPR and Si on both soil and plant systems in a drought habitat.
- Published
- 2024
- Full Text
- View/download PDF