Responses of grapevine genotypes to abiotic stress

Q4 Biochemistry, Genetics and Molecular Biology

Proceedings on Applied Botany, Genetics and Breeding Pub Date : 2024-07-18 DOI:10.30901/2227-8834-2024-2-69-81

N. G. Nilov, I. I. Ryff, S. P. Berezovskaya, V. Stamatidi, M. S. Popova, V. A. Volynkin, V. V. Llikhovskoi

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Abstract

Background. Salt stress reduces water supply and causes ionic imbalance in the plant, eventually leading to a decrease in plant growth, functional activity, and productivity. Variable salinity levels in the field make it difficult to select salt-tolerant cultivars, so a need for other testing methods arises. Materials and methods. The plant material consisted of two own-rooted Vitis vinifera (L.) genotypes: cv. ‘Asma’, and hybrid M. No. 8-08-8-4 (‘Kok Pandas’ × ‘Zeibel 6357’). Salt stress was simulated by treating with NaCl at 0, 50, 80, 100, and 120 mM concentrations. Water status was measured by the leaf water potential (Ψ) using a pressure chamber. Changes in the leaf areaand total root length were assessed in vitro. Results. Salt stress affected growth characteristics and yield structure of both own-rooted vines, but hybrid M. No. 8-08-8-4 was more sensitive. The hybrid showed greater yield reduction (38.6 %) than cv. ‘Asma’ (28.4 %), while the mass concentration of sugars was higher in ‘Asma’. The greatest differences in the predawn leaf water potential were observed for ‘Asma’ and M. No. 8-08-8-4 on the 45th day of irrigation with water containing different NaCl concentrations. The root length of the more salt-tolerant cultivar reduced in vitro to a greater extent. Conclusion. The functional abilities of a cultivar depend on the level of salinization and the genotype. Cv. ‘Asma’ demonstrated higher salt tolerance compared to hybrid M. No. 8-08-8-4. Leaf water potentials characterizing the water status of plants were measured. The responses to salinization were the same in the vines grown in vivo and in vitro, so it is possible to perform testing for salt tolerance in vitro.

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葡萄基因型对非生物胁迫的反应

背景。盐胁迫会减少水分供应，导致植物体内离子失衡，最终导致植物生长、功能活动和生产力下降。田间的盐度水平不一，很难选择耐盐栽培品种，因此需要其他测试方法。材料和方法植物材料包括两种自根葡萄（Vitis vinifera (L.)）基因型：变种 "Asma "和杂交种 M. 编号 8-08-8-4（"Kok Pandas" × "Zeibel 6357"）。通过 0、50、80、100 和 120 毫摩尔浓度的氯化钠模拟盐胁迫。水分状况是通过叶片水势（Ψ）用压力室测量的。对叶面积和根总长度的变化进行离体评估。结果盐胁迫影响了两种自根葡萄藤的生长特性和产量结构，但杂交种 M. 8-08-8-4 号更为敏感。该杂交种的减产幅度（38.6%）大于变种 "Asma"（28.4%），而 "Asma "的糖分浓度更高。在用含不同浓度 NaCl 的水灌溉的第 45 天，'Asma'和 M. 8-08-8-4 的黎明前叶片水势差异最大。耐盐性更强的栽培品种的根长在体外减少的程度更大。结论栽培品种的功能能力取决于盐碱化程度和基因型。Cv.与杂交种 M. 8-08-8-4 相比，'Asma'表现出更高的耐盐性。叶片水势的测量表征了植物的水分状况。体内和体外生长的葡萄藤对盐碱化的反应相同，因此可以在体外进行耐盐性测试。

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