Alleviation of allelochemical stress-induced growth inhibition and oxidative damage in lettuce under closed hydroponics through electro-degradation

IF 1 Q3 HORTICULTURE
Md. Raihan Talukder, M. Asaduzzaman, M. Ueno, Hideyuki Tanaka, T. Asao
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引用次数: 6

Abstract

Successive lettuce cultivation in closed hydroponics using the same nutrient solution causes the excess production and accumulation of allelochemicals. The accumulated allelochemicals induce oxidative damage and lipid peroxidation in plants leading to growth inhibition. In this study, we investigated the allelochemicals that induced oxidative damage and lipid peroxidation in lettuce grown in a once used non-renewed nutrient solution (1NR) and a twice used non-renewed nutrient solution (2NR) obtained from the successive cultivation and the alleviation of these damages through electro-degradation (ED). The 1NR solution was used for six weeks for a one-time lettuce cultivation while the 2NR solution was used for twelve weeks for a two-times lettuce cultivation. The results showed that the allelochemical stress caused growth inhibition in the lettuce in both the 1NR and 2NR solutions. It was observed that there was a higher generation of H2O2 and O2. – as well as a lower activity of the antioxidant enzymes, such as superoxide dismutase (SOD), catalase (CAT), guaiacol peroxidase (POD), and ascorbate peroxidase (APX) in the roots of the plants grown in both the 1NR and 2NR solutions compared to plants grown in the new nutrient solution. The higher level of lipid peroxidation due to the higher MDA (malondialdehyde) content and higher soluble protein content were also observed in the roots of those plants. It was evident that lettuce root damage occurred due to accumulation of the allelochemicals in the 1NR and 2NR solutions. These damaged roots could not function normally nor uptake water and minerals from the culture solution. As a result, retarded lettuce growth was observed in the 1NR and 2NR solutions. The oxidative damage, soluble protein content, lipid peroxidation and ultimately growth retardation were more pronounced in the plants grown in the 2NR solution compared to the plants grown in the 1NR solution. The application of ED to the 1NR and 2NR solutions maintained the plant growth through less oxidative damage, soluble protein production and lipid peroxidation as was observed in the plants grown with the new nutrient solution. Therefore, the ED of a non-renewed culture solution would alleviate the allelochemical stress in lettuce under recycled hydroponics.
电降解减轻化感化学胁迫对闭式水培生菜生长抑制和氧化损伤的影响
在封闭水培中连续栽培莴苣,使用相同的营养液会导致化感物质的过量生产和积累。积累的化感物质引起植物氧化损伤和脂质过氧化,导致生长抑制。在本研究中,我们研究了生菜在一次使用的非更新营养液(1NR)和两次使用的非更新营养液(2NR)中诱导氧化损伤和脂质过氧化的化感化学物质,并通过电降解(ED)减轻了这些损伤。1NR溶液用于一次生菜栽培6周,2NR溶液用于两次生菜栽培12周。结果表明,在1NR和2NR溶液中,化感化学胁迫对生菜的生长均有抑制作用。观察到H2O2和O2的生成量较高。与在新营养液中生长的植物相比,在1NR和2NR溶液中生长的植物根部的抗氧化酶活性较低,如超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、愈创木酚过氧化物酶(POD)和抗坏血酸过氧化物酶(APX)。由于MDA(丙二醛)含量和可溶性蛋白含量较高,这些植物的根中脂质过氧化水平也较高。结果表明,1NR和2NR溶液中化感物质的积累导致了生菜根系的损伤。这些受损的根不能正常发挥功能,也不能从培养液中吸收水分和矿物质。结果表明,在1NR和2NR溶液中,生菜生长迟缓。与1NR溶液相比,2NR溶液中生长的植株的氧化损伤、可溶性蛋白含量、脂质过氧化和最终的生长迟缓更为明显。在1NR和2NR溶液中添加ED,可以减少植物的氧化损伤、可溶性蛋白生成和脂质过氧化,从而维持植物的生长。因此,不更新培养液的ED可以缓解循环水培莴苣的化感化学胁迫。
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来源期刊
Horticultural Science
Horticultural Science Horticulture-园艺
CiteScore
2.20
自引率
0.00%
发文量
23
审稿时长
>12 weeks
期刊介绍: The journal publishes results of basic and applied research from all areas of horticulture, fruit-growing, vegetable-growing, wine-making and viticulture, floriculture, ornamental gardening, garden and landscape architecture, concerning plants that are grown under the conditions of European temperate zone, or field plants that are considered as horticultural cultures. Original scientific papers, short communications and review articles are published in the journal. Papers are published in English (British spelling).
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