Growth, Triterpene Glycosides, and Antioxidant Activities of Centella asiatica L. Urban Grown in a Controlled Environment with Different Nutrient Solution Formulations and LED Light Intensities

IF 3.1 3区 农林科学 Q1 HORTICULTURE
Bhornchai Harakotr, Lalita Charoensup, P. Rithichai, Y. Jirakiattikul
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Abstract

Nutrients and light are critical factors for sustained Centella asiatica L. Urban production under a controlled environment. The growth, triterpene glycosides, and antioxidant activities of C. asiatica grown under a controlled environment with different nutrient solution formulations (NFFs) and LED light intensities were investigated. Four different NSFs were tested on plant growth, bioactive compounds, and their activities in a conventional greenhouse. The results showed that the plants grown with Houghland and Arnon solution exhibited better growth performance, whereas the use of Resh’s Tropical Dry Summer solution led to increased bioactive compounds and their activities. Subsequently, Resh’s Tropical Dry Summer solution was selected to evaluate the effect of light intensity in a controlled environment. Plants were grown under three LED light intensities (110, 220, and 330 µmol/m2/s PPFD) compared with fluorescent and natural lights (45 and 326 µmol/m2/s PPFD, respectively). We found that light intensity had the strongest influence on growth, triterpene glycosides, and antioxidant activities. Significantly higher values of the most studied parameters were observed in plants grown under high light intensity compared to those grown under low light intensity. The optimal light intensity was 330 µmol/m2/s PPFD, representing an efficient approach for commercially producing this medicinal plant with a higher yield and medicinal properties in a controlled environment.
在不同营养液配方和 LED 光强度的可控环境中生长的积雪草(Centella asiatica L. Urban)的生长、三萜苷和抗氧化活性
在受控环境下,营养和光照是积雪草(Centella asiatica L. Urban)持续生产的关键因素。研究人员调查了在不同营养液配方(NFF)和 LED 光强度的受控环境下生长的积雪草的生长、三萜苷和抗氧化活性。在传统温室中,对四种不同的营养液配方进行了植物生长、生物活性化合物及其活性测试。结果表明,使用 Houghland 和 Arnon 溶液种植的植物表现出更好的生长性能,而使用 Resh's Tropical Dry Summer 溶液则增加了生物活性化合物及其活性。随后,我们选择 Resh's Tropical Dry Summer 溶液来评估光照强度在受控环境中的影响。植物在三种 LED 光照强度(110、220 和 330 µmol/m2/s PPFD)下生长,并与荧光灯和自然光(分别为 45 和 326 µmol/m2/s PPFD)进行比较。我们发现,光照强度对生长、三萜苷类和抗氧化活性的影响最大。与在低光照强度下生长的植物相比,在高光照强度下生长的植物的大多数研究参数值明显更高。最佳光照强度为 330 µmol/m2/s PPFD,这是一种在可控环境下商业化生产这种药用植物的有效方法,可提高产量和药用价值。
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来源期刊
Horticulturae
Horticulturae HORTICULTURE-
CiteScore
3.50
自引率
19.40%
发文量
998
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