不同预处理对陈化洋葱种子萌发指标及染色体畸变的影响

Faegheh Jangjoo, Mehdi Tajbakhsh-shishvan
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引用次数: 1

摘要

种子变质是一种影响植物萌发、生化、细胞学和生长特性的生理现象。因此,有必要采用增强种子活力的方法来解决这些问题。其中一种方法是应用种子引种技术来减少变质效应。因此,本研究旨在研究纳米锌、抗坏血酸、腐植酸、赤霉素和kno3等不同预处理对老化洋葱种子萌发指标和染色体畸变的影响。材料与方法:本试验采用全随机设计,3个重复(每个重复100粒种子),采用因子分析法,在乌尔米亚大学农学院进行。第一个影响因素是4个水平(对照、12h、24h和48h)的老化水平,第二个影响因素是6个水平(对照、纳米锌(30 mg)、抗坏血酸(100 mg)、腐殖酸(150 mg)、赤霉素(200 mg/l)和kno3(0.1%))的种子预处理水平。考虑到不同老化水平的种子萌发不相似,分别在对照和6 d后老化12h、8 d后老化24 h和9 d后老化48h萌发。因此,在上述次数后,对发芽率、发芽率、正常幼苗、平均发芽时间和种子活力进行了评价。还检查了染色体畸变。结果与讨论:结果表明,老化和种子预处理对种子萌发指标的交互作用在%1概率水平上显著。随着陈化时间的延长,发芽性状均显著降低。最高发芽率(80%、70%、50%)和发芽率(5.350、3。在12h、24h和48h老化水平下,纳米锌处理得到的种子数量分别为316粒、1.525粒/天。纳米锌和赤霉素对幼苗活力和正常幼苗的影响最大。在12h(1133, 933.9)、24h(742.9, 692)和48h(369.9, 323.3)施用纳米锌和赤霉素显著提高了幼苗活力。经预处理后染色体畸变明显减少。结论:在本研究中,赤霉素(200 mg/l)和纳米锌(30 mg)预处理对提高种子萌发特性和减少染色体畸变最有效。因此,可以认为纳米锌和赤霉素作为种子前处理,可以显著降低洋葱种子变质的影响。
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Effect of Different Pre-Treatments on Germination Indices and Chromosomal Aberrations of Aged Onion Seeds (Allium cepa)
Introduction: Seed deterioration is a physiological phenomenon that affects all germination, biochemical, cytological, and growth characteristics of plants. So it is necessary to use seed vigor enhancement methods to resolve these problems. One of these methods is the application of seed priming techniques to reduce deterioration effects. Therefore, the present study aimed to investigate the effect of different pre-treatments by using Nano-zinc, ascorbic acid, humic acid, gibberellin and KNO 3 on germination indices and chromosomal aberration of aged onion seeds. Material and Methods: This experiment was performed as factorial based on a completely randomized design with 3 replications (100 seeds per replicate) in the faculty of agriculture at Urmia University. The first factor was the level of aging at 4 levels (control, 12h, 24h, and 48h) and the second factor was seed pre-treatments at 6 levels (control, Nano-zinc (30 mg), ascorbic acid (100 mg), humic acid (150 mg), gibberellin (200 mg/l) and KNO 3 (0.1%). Given that the germination was not similar at different levels of aging, the seeds were germinated at control and 12h of aging after 6 days, at 24 and 48h of aging after 8 and 9 days, respectively. Hence, germination percentage, germination rate, normal seedling, mean germination time, and seed vigor were evaluated after the mentioned times. Chromosomal aberrations were also examined. Results and Discussion: The results showed that the interaction effect of aging and seed pre-treatments on germination indices were significant at %1 probability level. By increasing the period of aging, all germination characters decreased significantly. The highest germination percentage (80%, 70%, 50%) and germination rate (5.350, 3. 316, 1.525 seed/day) were obtained by using Nano-zinc At 12h, 24h and 48h ageing levels. Nano-zinc and gibberellin had the highest effect on seedling vigor and normal seedlings. Seedling vigor increased significantly by using Nano-zinc and gibberellin at 12h (1133, 933.9), 24h (742.9, 692), and 48h (369.9, 323.3). The chromosomal aberration was reduced by using pre-treatment. Conclusion: In this study, the most effective pre-treatments to improve germination characteristics and reduce chromosomal aberrations were gibberellin (200 mg/l) and Nano-zinc (30 mg). Therefore, it can be stated that the use of Nano-zinc and gibberellin as seed pre-treatments can significantly reduce the effects of deterioration on onion seeds.
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