Shortening the Vegetative Growth Stage of Phalaenopsis Queen Beer ‘Mantefon’ by Controlling Light with Calcium Ammonium Nitrate Levels under Enriched CO2
2022
Cho, Ah Ram | Chung, Sun Woo | Kim, Yoon Jin
The vegetative growth, photosynthetic, and stomatal characteristics were investigated in Phalaenopsis Queen Beer ‘Mantefon’ to determine light’s influence with calcium ammonium nitrate (CAN) levels under 800 μmol·mol⁻¹ CO₂. Two lights (150 ± 20 and 300 ± 20 μmol·m⁻²·s⁻¹) and CAN levels were employed for 40 weeks: calcium, ammonium, and nitrate levels by 0.90, 0.55, and 2.97 mmol·L⁻¹ (CAN1), 8.63, 1.11, and 6.05 mmol·L⁻¹ (CAN2), 12.80, 1.72, and 9.13 mmol·L⁻¹ (CAN3), and 18.80, 2.27, and 12.20 mmol·L⁻¹ (CAN4), respectively. The number of leaves increased in the plants grown at 300 ± 20 μmol·m⁻²·s⁻¹ with CAN1 compared to control. Plants grown at 300 ± 20 μmol·m⁻²·s⁻¹ with CAN4 had the lowest number of leaves among all plants. The time to the mature leaf span decreased in the plants grown at 300 ± 20 μmol·m⁻²·s⁻¹ with CAN1. The net CO₂ uptake was higher in the plants grown at 300 ± 20 μmol·m⁻²·s⁻¹ than those grown at 150 ± 20 μmol·m⁻²·s⁻¹ with CAN1–3 conditions. The water-use efficiency is higher in the plants grown with CAN1 than those with CAN2–4 at 300 ± 20 μmol·m⁻²·s⁻¹. The maximum stomatal aperture was the largest in the plants grown at 300 ± 20 μmol·m⁻²·s⁻¹ with CAN1–2 among all plants. Consequently, light levels of 300 ± 20 μmol·m⁻²·s⁻¹ in Phalaenopsis Queen Beer ‘Mantefon’ must be accompanied by nutrient CAN1 to improve photosynthesis and stomatal activity and promote leaf growth under 800 μmol·mol⁻¹ CO₂ conditions.
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