https://www.selleckchem.com/products/asciminib-abl001.html strain combined with miscanthus plantings may be a promising method for accelerating PLA and PET degradation in compost soil. For PLA film it was found that the carbonyl index dropped by over 15% in the presence of B. subtilis, while the film tensile strength decreased by 35% and the oxygen to carbon O/C ratio was higher by 3% in the presence of B. cereus, and the presence of miscanthus resulted in a loss of weight. For PET film, a decrease in the carbonyl index by 16% was observed following inoculation with B. cereus. The metabolic activity of this strain contributed to the reduction of the film's tensile strength by 17% and to the increase in the permeability to O2 and CO2. The most intense degradation of PET film was observed in the presence of bacteria and plants. B. subtilis strain combined with miscanthus plantings may be a promising method for accelerating PLA and PET degradation in compost soil. has broad economic benefits and excellent drought resistance; however, its drought response, adaptation, and recovery processes remain unclear. In this study, the response, tolerance, and recovery processes of leaves and roots under drought stress were determined by Illumina sequencing. Under drought stress, reduced its light-capturing ability and composition of its photosynthetic apparatus, thereby reducing photosynthesis to prevent photo-induced chloroplast reactive oxygen damage during dehydration. The phenylpropanoid biosynthesis process in the roots was suppressed, , , and other genes, which may play important roles in protecting the cell membrane's permeability in root tissues. During the rehydration phase, fatty acid biosynthesis in roots was repressed. Weighted correlation network analysis (WGCNA) screened modules that were positively or negatively correlated with physiological traits. The real-time quantitative PCR (RT-qPCR) results indicated the reliability of the transcriptomic data. These findings