Effects of TiO2 Nanoparticles on Germination and Primary Growth of Mountain Ash (Sorbus luristanica)

وحید سیدنا, ور بابکپیله, کامبیز ابراری واجاری, مهرداد زرافشار, حمید رضا عیسوند
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引用次数: 3

Abstract

Introduction: Production of nanoparticles and their use are on the rise in different areas of plant science. However, in spite of their increasing production, there is limited information about their effects on plant biology. In the current study, the potential of TiO 2 nanoparticles was investigated for the purpose of improving seed germination of Sorbus luristanica and then subsequent effects of nanoparticles on the growth and biomass of the plants were determined. Materials and Methods: Seeds of S. luristanica were collected from its natural stands. The seeds were primed with different concentrations of 0, 75, 150, 250, 350 and 500 TiO 2 nanoparticles miligeram per liter for 24 h. The treated seeds were placed in wet sand at room temperature for 2 weeks and then in cold for 3 months. The expriment was set as a completely randimized design with 4 replications. Aftre 3 months of stratification in moistened sand, the stratified seeds were put in the germinator and with the appearance of seed germination signs, germination data were recorded daily during 22 days. At the end of the seed germination experiment, some germination parameters such as seed germination percentage, seed vigority and mean time to germination were calculated. Moreover, some growth and biomass parameters including leaf number, plant height and dry and fresh biomass of leaf, stem as well as roots were measured. In addition, scaning electron microscopic (SEM) was used for observation of presence and adhesiveness of TiO 2 nanoparticles on the seed coat. Results: Based on the results, all the germination parametres including seed germination percentage, seed vigoroty and mean germination time were improved by the TiO 2 nanoparticles treatments. In addition, 500 mg.L -1 treatment considerably improved seed germination characteristics. The peresence of TiO 2 nanoparticles on the treated seeds and lack of the nanomatreials on the conrtol seeds were obsereved by scaning electron microscopic pictures. The One-way ANOVA showed that 75 mg.L -1 treatment was more succesful for improving the grwoth (such as shoot length) and biomass production (fresh and dry biomass of leaf, stem and root and total biomass as well). Conclusion: It can be concluded that priming of the seeds of this species with different concentrations of TiO 2 nanoparticles leads to improvement of seed germination and growth and biomass parameters. However, the patterns of effects were different in each phase. Therefore, the objectives should be formulated first and then the best concentration should be chosen. It seems that with appropriate concentrations, nanoparticles can be useful for breaking seed dormancy and production of the species. Given the promising resutls of 150 mg.L -1 treatment, it can represent a successful treatment for breaking seed dormancy and seedling production of S. luristanica .
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TiO2纳米颗粒对山楸萌发和初生生长的影响
纳米颗粒的生产及其在植物科学不同领域的应用正在增加。然而,尽管它们的产量不断增加,但关于它们对植物生物学的影响的信息有限。在本研究中,研究了二氧化钛纳米颗粒对Sorbus luristica种子萌发的促进作用,并测定了纳米颗粒对Sorbus luristica种子生长和生物量的影响。材料与方法:从天然林分采集木耳种子。分别用0、75、150、250、350和500毫克/升tio2纳米颗粒对种子进行24 h的处理,将处理后的种子置于湿沙中,室温下放置2周,然后冷置3个月。试验采用完全随机化设计,设4个重复。在湿润的沙子中分层3个月后,将分层后的种子放入萌发器中,在种子萌发迹象出现后,连续22天每天记录萌发数据。在种子萌发试验结束时,计算种子发芽率、种子活力和平均萌发时间等发芽参数。测定了叶片数、株高以及叶、茎、根的干、鲜生物量等生长和生物量参数。此外,利用扫描电镜(SEM)观察了tio2纳米颗粒在种皮上的存在和粘附性。结果:纳米二氧化钛处理提高了种子发芽率、种子活力和平均发芽时间。另外,500毫克。L -1处理显著改善了种子的萌发特性。通过扫描电镜观察,处理后的种子上存在tio2纳米颗粒,而对照种子上没有tio2纳米颗粒。单因素方差分析显示75毫克。L -1处理在提高生长(如茎长)和生物量(叶、茎、根的鲜、干生物量和总生物量)方面更为成功。结论:不同浓度的tio2纳米颗粒对该植物种子的萌发、生长和生物量参数均有改善作用。然而,在每个阶段的影响模式是不同的。因此,应首先制定物镜,然后选择最佳浓度。似乎在适当的浓度下,纳米颗粒可以用于打破种子休眠和物种的生产。考虑到150毫克的预期效果。在L -1处理下,它可以代表一个成功的处理来打破种子休眠和产苗。
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