Effect of Melatonin on Germination and Seedling Growth in Aging Seeds or under Drought Conditions

Seeds Pub Date : 2024-07-04 DOI:10.3390/seeds3030025
Isabel García-Cánovas, Manuela Giraldo-Acosta, Antonio Cano, Marino B. Arnao, J. Hernández-Ruiz
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Abstract

Seed germination (GS) and seedling growth are vital plant stages that can be affected by stresses such as drought and aging, which cause deterioration and reduce seed viability. With the aim of homogenizing and improving GS, priming treatments with biostimulants such as the antioxidant melatonin are commonly used in seeds. In this study, the effects of melatonin on germination and seedling growth in two different situations, i.e., aging seeds of rice, barley, and sorghum and under polyethylene glycol (PEG)-induced drought stress in sorghum, were studied. Aged seeds were primed for 7 days in different concentrations of melatonin, and drought stress seeds were primed for 24 h before PEG treatment for 7 days, and germination and initial growth parameters were monitored. Aging-seeds of rice and barley showed the maximum response in terms of germination percentage at 20 µM melatonin and 0.05 µM respectively; while aging-seeds of sorghum showed improvement in germination for practically all concentrations studied, even the highest tested at 50 µM. Regarding the effect of melatonin treatments on drought stress in sorghum seeds, all the studied parameters showed a significant attenuation of the adverse effects of drought stress, alleviating them, for all concentrations tested but especially at 200 µM melatonin. The results obtained confirm that priming seeds with melatonin under low germinability conditions relieves stress and improves both germination and seedling growth.
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褪黑激素对老化种子或干旱条件下种子发芽和幼苗生长的影响
种子萌发(GS)和幼苗生长是植物的重要生长阶段,会受到干旱和老化等胁迫的影响,这些胁迫会导致种子退化,降低种子活力。为了均匀和改善种子萌发,通常会使用生物刺激剂(如抗氧化剂褪黑素)对种子进行催芽处理。在本研究中,研究了褪黑激素在两种不同情况下对发芽和幼苗生长的影响,即水稻、大麦和高粱的陈化种子以及高粱在聚乙二醇(PEG)诱导的干旱胁迫下的发芽和幼苗生长。老化种子在不同浓度的褪黑激素中浸种 7 天,干旱胁迫种子在 PEG 处理前浸种 24 小时,浸种 7 天,监测萌发和初始生长参数。水稻和大麦的老化种子在褪黑激素浓度分别为 20 µM 和 0.05 µM 时的发芽率最高;而高粱的老化种子在几乎所有研究浓度下的发芽率都有所提高,即使是测试的最高浓度 50 µM。关于褪黑激素处理对高粱种子干旱胁迫的影响,所有研究参数都表明,在所有测试浓度下,尤其是在褪黑激素浓度为 200 µM 时,干旱胁迫的不利影响都会明显减弱或减轻。研究结果证实,在低发芽率条件下,用褪黑素对种子进行催芽可以缓解胁迫,提高发芽率和幼苗生长。
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