Effect of Light and Temperature on Photosynthetic Fluorescence Parameters and Volatile Oil Content of Atractylodes lancea

Meiyu Cao; Kai Sun; Binbin Yan; Sheng Wang; Tielin Wang; Yan Zhang; Lanping Guo

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Effect of Light and Temperature on Photosynthetic Fluorescence Parameters and Volatile Oil Content of Atractylodes lancea

VernacularTitle:光温条件对苍术光合荧光参数及挥发油含量的影响
Author: Meiyu CAO ¹ ; Kai SUN ² ; Binbin YAN ² ; Sheng WANG ² ; Tielin WANG ² ; Yan ZHANG ² ; Lanping GUO ¹
Author Information

1. School of Traditional Chinese Medicine，Guangdong Pharmaceutical University， Guangzhou 510006，China
2. Cultivation Base of State Key Laboratory of Dao-di Herbs， National Resource Center for Chinese Materia Medica， China Academy of Chinese Medical Sciences，Beijing 100700，China
Publication Type:Journal Article
Keywords: Atractylodes lancea; photosynthesis; chlorophyll fluorescence parameters; volatile oil
From: Chinese Journal of Experimental Traditional Medical Formulae 2022;28(20):108-115
CountryChina
Language:Chinese
Abstract: Objective ： To study the effect of temperature and light intensity on photosynthetic fluorescence parameters, volatile oil content, and growth of Atractylodes lancea and provide reference for the rational selection of cultivation environment for A. lancea. MethodWe determined the photosynthetic indexes (such as net photosynthetic rate, water use efficiency, and carboxylation rate), light response curve, CO₂ response curve, fluorescence parameters, and the content of four volatile oils in A. lancea under two temperature treatments (32 °C and 22 °C) and two light treatments (full light and shade). ResultThe net photosynthetic rate and water use efficiency of A. lancea under high temperature + strong light were significantly higher than those under high temperature + weak light and low temperature + strong light. The ability of A. lancea to use weak light at low temperature was the strongest, while the utilization rate of weak light under strong light significantly reduced. The photosynthetic rate of A. lancea at low temperature was more susceptible to light intensity and CO₂concentration than that at high temperature. The maximum photosynthetic rate and apparent quantum efficiency under weak light were significantly higher than those under strong light. The photoreaction efficiency at high temperature was higher than that at low temperature. The total amount of volatile oil in A. lancea treated with high temperature + weak light was the highest, reaching 4.582%. Compared with high temperature + strong light, high temperature + weak light significantly increased the content of hinesol and β-eudesmol in A. lancea by 91.7% and 35.7%, respectively, and low temperature + strong light significantly increased the content of hinesol by 87.5%. The content of β-eudesmol in low temperature + weak light treatment was significantly lower than that in high temperature + weak light treatment. ConclusionTThe growth of A. lancea was affected by the interaction between temperature and light. The light and temperature conditions required for the accumulation of volatile oil were not consistent with those suitable for the growth and development of A. lancea. A. lancea responded to the changes of light and temperature conditions by regulating the synthesis and accumulation of volatile oil.