<p>This study aimed to identify the optimal photoperiodic conditions for <i>Centella asiatica</i>, a medicinal plant known for its high-value bioactive compounds, including madecassoside and asiaticoside, in a vertical farming system. <i>C. asiatica</i> plants were cultivated for 4 weeks under varying photoperiods [20/4, 16/8, 12/12, and 8/16&#xa0;h (light/dark)] with a light intensity of 200 ± 10 µmol·m<sup>− 2</sup>·s<sup>− 1</sup>. The findings revealed that shoot fresh and dry weights, leaf length, leaf area, and leaf width were highest under 20/4, 16/8, and 12/12&#xa0;h, while the number of runners peaked at 12/12&#xa0;h. However, physiological disorders were observed under 20/4 and 16/8&#xa0;h. Total phenol, total flavonoid, and antioxidant capacity increased linearly with photoperiod, reaching their maximum at 20/4&#xa0;h and minimum at 8/16&#xa0;h. Madecassoside and asiaticoside concentrations increased when the photoperiod exceeded 12/12&#xa0;h, while madecassic acid and asiatic acid concentrations were higher under 8/16&#xa0;h. Furthermore, light-use efficiency and energy-use efficiency, energy efficiency metrics, were highest at 12/12&#xa0;h compared to other treatments. These findings indicate that the optimal photoperiod for maximizing biomass and secondary metabolite production in <i>C. asiatica</i> grown under 200 µmol·m<sup>− 2</sup>·s<sup>− 1</sup> white light-emitting diodes in vertical farms is 12/12&#xa0;h.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Optimizing photoperiod for growth and centellosides biosynthesis in Centella asiatica under vertical farming conditions

  • Gyu-Sik Yang,
  • In-Je Kang,
  • Han-Sol Sim,
  • Seong-Nam Jang,
  • Ga Oun Lee,
  • Kyoung-Ok Choi,
  • Jun Gu Lee,
  • Yu Kyeong Shin,
  • Thanh-Tam Ho,
  • Ki-Ho Son

摘要

This study aimed to identify the optimal photoperiodic conditions for Centella asiatica, a medicinal plant known for its high-value bioactive compounds, including madecassoside and asiaticoside, in a vertical farming system. C. asiatica plants were cultivated for 4 weeks under varying photoperiods [20/4, 16/8, 12/12, and 8/16 h (light/dark)] with a light intensity of 200 ± 10 µmol·m− 2·s− 1. The findings revealed that shoot fresh and dry weights, leaf length, leaf area, and leaf width were highest under 20/4, 16/8, and 12/12 h, while the number of runners peaked at 12/12 h. However, physiological disorders were observed under 20/4 and 16/8 h. Total phenol, total flavonoid, and antioxidant capacity increased linearly with photoperiod, reaching their maximum at 20/4 h and minimum at 8/16 h. Madecassoside and asiaticoside concentrations increased when the photoperiod exceeded 12/12 h, while madecassic acid and asiatic acid concentrations were higher under 8/16 h. Furthermore, light-use efficiency and energy-use efficiency, energy efficiency metrics, were highest at 12/12 h compared to other treatments. These findings indicate that the optimal photoperiod for maximizing biomass and secondary metabolite production in C. asiatica grown under 200 µmol·m− 2·s− 1 white light-emitting diodes in vertical farms is 12/12 h.