硅纳米颗粒播前处理对向日葵发芽能力的影响

M. Janmohammadi, N. Sabaghnia
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引用次数: 55

摘要

硅是广泛存在的对植物生长有益的宏观元素之一。虽然纳米硅对植物生长发育的积极作用已被广泛认为,但关于纳米硅在补种处理中的应用可能性的信息很少。提高种子萌发率可以促进林分建立,对作物的成功生产起着重要作用。与未经处理的种子相比,种子部分水化后在受控环境中脱水通常会导致种子快速发芽和更均匀的出苗。研究了不同浓度纳米硅溶液(0、0.2、0.4、0.6、0.8、1和1.2 mM)浸泡向日葵种子8 h对种子萌发特性的影响。低浓度纳米硅溶液(0.2和0.4 mM)显著降低了种子萌发50%的天数和平均萌发时间,提高了根长、平均日萌发率、幼苗活力指数和最终发芽率。这些结果表明,在适当浓度的激发液中加入纳米硅,可以显著提高种子的萌发性能,并对幼苗进行有效的活化。这些结果强调了播种前用稀释纳米硅溶液浸泡种子对提高向日葵发芽能力的重要性。
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Effect Of Pre-Sowing Seed Treatments With Silicon Nanoparticles On Germinability Of Sunflower (Helianthus Annuus)
Abstract Silicon is one of the most widespread macro elements that have beneficial effects on plant growth. Although its positive effects on plant growth and development have been widely considered, little information is available about possibility of nano-silicon utilization in seed invigoration treatments. Enhanced seed germination may lead to improved stand establishment and it can play important role in successful crop production. Partial hydration of the seeds followed by dehydration in a controlled environment often results in rapid seed germination and more uniform seedling emergence compared to untreated seeds. In the present study, the effect of seed soaking in different concentration nano-silicon solutions (0, 0.2, 0.4, 0.6, 0.8, 1 and 1.2 mM for 8 h) on germination characteristics of sunflower was investigated. Seed soaking in low concentration nano-silicon solutions (0.2 and 0.4 mM) significantly reduced days to 50% germination and mean germination time and improved root length, mean daily germination, seedling vigour index and final germination percentage. These results suggest that the incorporation of nano-silicon in priming solution, in an appropriate concentration, remarkably enhances germination performance and causes an effective invigoration of the seedling. These results underline the importance of pre-sowing seed soaking in diluted nano-silicon solutions for improving the germinability of sunflower.
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