水热时间模型评价一组引发剂对水分胁迫下两个韭菜品种种子发芽的影响

IF 1.7 4区农林科学 Q2 AGRONOMY

Seed Science and Technology Pub Date : 2021-08-31 DOI:10.15258/sst.2021.49.2.07

Alessandro Romano, Romana Bravi

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引用次数: 5

摘要

水分亏缺是许多栽培植物发芽的主要制约因素之一。在用于促进发芽的技术中，种子激发已被发现起着关键作用。以两种韭菜(Allium ampeloprasum L.)品种“Lungo della riviera”和“Monstrueux de Carentan”的种子为试验材料，采用KCl、KH2PO4、CaCl2和peg8000 4种不同的激发剂，研究了最佳水化条件(Ψw = 0 MPa)和水分亏缺条件(-0.3和-0.6 MPa)对种子萌发性能的影响。PEG和KCl分别在-0.3 MPa和-0.6 MPa下提高了“Lungo della riviera”的发芽率，而CaCl2在-0.6 MPa下提高了“Monstrueux de Carentan”的发芽率。浸渍对种子的发芽率有显著的促进作用，但因基因型和浸渍剂的不同而有不同的促进作用。水时间模型表明，淹水处理对发芽率的影响主要是由于预测水时间常数(θH)的降低，而中位碱水势Ψb(50)在处理后有增加的趋势，但也有例外。在本研究中，水时间模型被证明是一个有用的工具来测试不同的启动处理对韭菜种子的有效性和在水分胁迫下萌发能力和速度的种内变异性。

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Hydrotime model to evaluate the effects of a set of priming agents on seed germination of two leek cultivars under water stress

Water deficit is one of the main constraints of germination for many cultivated species. Among the techniques used to promote germination, seeds priming has been found to play a key role. In the present study, a set of different priming agents (KCl, KH2PO4, CaCl2 and PEG 8000) was tested on seeds of two leek (Allium ampeloprasum L.) cultivars ("Lungo della riviera" and "Monstrueux de Carentan") to assess the effects on germination performances both in optimal hydration condition (Ψw = 0 MPa) and under water deficit (–0.3 and –0.6 MPa). Germination percentage of "Lungo della riviera" was improved by PEG and KCl at –0.3 MPa and –0.6 MPa, respectively, whereas CaCl2 improved germination of "Monstrueux de Carentan" at –0.6 MPa. Osmopriming was beneficial in terms of germination rate although to different extent depending on genotype and priming agent. The hydrotime model showed that the effects of priming on germination rate was mostly due to a lowering of the predicted hydrotime constant (θH), whereas median base water potential Ψb (50) tended to increase following treatments albeit with some exception. In this study, hydrotime model proved to be a useful tool to test the effectiveness of different priming treatments on leek seeds and the intraspecific variability in germination capability and speed under water stress.

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来源期刊

Seed Science and Technology 农林科学-农艺学

CiteScore

3.00

自引率

28.60%

发文量

审稿时长

>36 weeks

期刊介绍： Seed Science and Technology (SST) is an international journal featuring original papers and articles on seed quality and physiology related to seed production, harvest, processing, sampling, storage, genetic conservation, habitat regeneration, distribution and testing. A journal that meets the needs of researchers, advisers and all those involved in the improvement and technical control of seed quality. Published every April, August and December.