Hydrogen peroxide (H2O2) is a reactive oxygen species that can damage a variety of cellular structures. Recent studies have shown that H2O2 can mediate multiple physiological and biochemical processes by acting as a signaling molecule. This study was performed to explore the optimum H2O2 treatments for increasing the bioactive compounds in Agastache rugosa plants with roots temporarily immersed in H2O2 concentrations of 0 (control), 4, 8, 16, 32, 64, and 128 mM in a hydroponic culture system. All cultivated plants were subjected to root soaking with diniconazole (120 µmol. mol−1) at 7 days after transplanting to restrict plant height. H2O2 concentrations of 4, 16, and 64 mM significantly reduced root length compared to no H2O2 treatment. Root fresh weight was significantly lower in response to exposure to 128 mM H2O2 compared to control plants. Although shoot and root dry weights were lower in plants exposed to 128 mM H2O2 compared to control plants, no significant differences were detected among treatments. Soaking roots in 16 mM H2O2 induced the highest rosmarinic acid (RA) content and 16, 32, and 64 mM H2O2 significantly increased tilianin content in the whole plant compared to the control. The highest acacetin content was detected under 32 mM H2O2. In addition, root extract of A. rugosa had the highest RA concentration and the tilianin concentration was the highest in flowers. Collectively, these results show that soaking roots in 16 and 32 mM H2O2 at 3.5 weeks after transplanting promotes secondary metabolites of hydroponically grown A. rugosa.
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