不同浓度壳聚糖对渗透胁迫条件下甜玉米种子萌发及部分生化性状的影响

Roya Behboud, A. Moradi, H. Farajee
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引用次数: 1

摘要

甜玉米(Zea mays var. saccharata)是一种玉米品种,由于存在影响胚乳中淀粉产生的基因而与其他品种区别开来。考虑到包括甜玉米在内的大多数植物在萌发初期都面临着发芽不均匀、出苗率差等问题。因此,有机刺激剂的使用是减少非生物胁迫的有害影响,提高种子发芽率,均匀外观,提高产量和质量的途径之一。在渗透电位条件下,研究了不同浓度壳聚糖对甜玉米种子萌发及部分生化性状的影响。材料与方法:为研究壳聚糖和渗透胁迫对甜玉米发芽及生化指标的影响,于2017年在Yasouj大学农学院种子技术实验室采用完全随机设计、4个重复的因子试验。第一个影响因素是0、-3、-6和-9 bar渗透电位下的渗透胁迫,第二个影响因素是0、0.25%、0.5%、0.75%和1% 5个水平的壳聚糖和1个水平的蒸馏水预处理。在25°C和黑暗条件下,将种子浸泡在所需的壳聚糖溶液中3小时,然后在标准萌发条件下萌发预处理的种子。在每个培养皿中,将25粒种子放在滤纸上,用聚乙二醇6000施加渗透势。在黑暗条件下,在25±1℃的萌发器中萌发7天。按标准方法测定发芽性状和生化性状。结果:渗透胁迫降低了种子的发芽率、发芽率、幼苗活力长度指数、发芽均匀系数、异速生长系数和可溶性蛋白含量,提高了平均发芽时间、脯氨酸、可溶性糖含量和过氧化氢含量。在所有渗透胁迫水平下,用浓度为0.5%的壳聚糖预处理种子可提高蛋白质、脯氨酸和可溶性糖的含量。在渗透胁迫水平下,0.5%壳聚糖处理和蒸馏水处理的过氧化氢含量分别最高和最低。结果表明,0.5%壳聚糖预处理提高了芽苗率、发芽率和幼苗活力指数,降低了平均发芽时间和丙二醛。与0.25、0.5和0.75%壳聚糖预处理相比,0和1%壳聚糖预处理导致种子的一些发芽和生化特性降低。结论:0.5%壳聚糖处理能降低渗透势对甜玉米幼苗部分发芽和生化特性的有害影响,促进幼苗生长。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of Different Chitosan Concentrations on Seed Germination and Some Biochemical Traits of Sweet Corn (Zea mays var. Saccharata) Seedling under Osmotic Stress Conditions
Introduction: Sweet corn ( Zea mays var. saccharata) is a corn variety that is distinguished from other varieties due to the presence of genes that affect starch production in the endosperm. Given that the most of plants including sweet corn face with problems such as non- uniform germination and poor seed emergence in the early stages of germination. Thus, the use of organic stimulants is one of the ways to reduce the harmful effects of non-biological stresses, increase seed germination, uniform appearance and increase their yield and quality. The present study was carried out to investigate the effect of different concentrations of chitosan on seed germination and some biochemical traits of sweet corn under osmotic potential conditions. Materials and Methods: To investigate the effect of chitosan and osmotic stress on germination and biochemical parameters of sweet corn, a factorial experiment was conducted in a completely randomized design with four replications at the Seed Technology Laboratory, Faculty of Agriculture, Yasouj University in 2017. The first factor was osmotic stress at 0, -3, -6, and -9 bar osmotic potentials and the second factor was pre-treatment at five levels of chitosan zero, 0.25%, 0.5%, 0.75% and 1% and one level of distilled water. The seeds were immersed in the desired solutions of chitosan for 3 hours at 25 °C and under dark conditions, and then the pre-treated seeds were germinated under standard germination condition. In each petri dish, 25 seeds were placed on a filter paper and osmotic potential was applied using polyethylene glycol 6000. Seed germination was carried out in the germinator at 25 ± 1 ° C for 7 days under dark conditions. The germination traits and biochemical traits were measured according to standard methods . Results: Osmotic stress reduced germination percentage and germination rate, seedling vigour length index, germination uniformity coefficient, allometric coefficient, and soluble protein content and also increased the mean germination time, proline, soluble sugar content and hydrogen peroxide. Pre-treatment of seeds with a concentration of 0.5% chitosan increased protein, proline, and soluble sugars content at all osmotic stress levels. At the osmotic stress levels, the highest and lowest levels of hydrogen peroxide respectively were observed in 0.5% chitosan treatment and distilled water treatment. The results showed that pre-treatment with 0.5% chitosan increased germination percentage and rate and seedling vigour length index, and also reduced the mean germination time and malondialdehyde. Pre-treatment of seed with zero and 1% chitosan led to reduction in some of the germination and biochemical traits in comparison with 0.25, 0.5, and 0.75% chitosan. Conclusions: The results showed that seed treatment with 0.5% chitosan could reduce the harmful effects of osmotic potential on some germination and biochemical traits in sweet corn seedlings and improve seedling growth.
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