营养培养基对葡萄微无性系生理参数的影响

Q3 Economics, Econometrics and Finance
Natalia Zelenіanska, I. Ishchenko, Mykhailo Samofalov
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引用次数: 0

摘要

葡萄微无性系能否在不受控制的环境条件下(体内)成功生根取决于其在体外传代和生长阶段形成的抗性水平。在这种情况下,营养团的水分状况指标发挥了重要作用。本研究的目的是了解葡萄微无性系体外持水能力和蒸腾强度的测定结果,并确定它们对体内适应潜力的影响份额。本研究采用生物技术、实验室、植被、数理统计等研究方法。结果表明,为优化葡萄微无性系叶片和芽部组织的生理过程,提高其在体内条件下的生存能力,宜在含IAA - 0.2 mg/l、6-BAP - 0.3 mg/l的结构性营养培养基(MS + agroperite、MS +蛭石、MS + agroperite +蛭石)上进行离体培养。结构性营养培养基对技术品种和砧木品种的微无性系叶片和芽部组织的水分保持能力和蒸腾强度的降低都有促进作用。在60分钟的研究中,技术品种微无性系的水分蒸发量分别为0.006 g ~ 0.034 g,砧木品种微无性系的水分蒸发量分别为0.003 g ~ 0.053 g。蒸腾强度(10 min后)降低1.7 ~ 1.8倍。在对照Murashige和Skoog营养培养基上,植株在相应时间内的蒸发量较大:技术品种从0.006 g到0.079 g,砧木品种从0.008 g到0.086 g;蒸腾强度较高。在结构营养培养基上培养的葡萄微无性系,叶片和芽组织中干物质含量较高(14.6% ~ 15.0%),体内成活率较高(76.3 ~ 98.5%,对照组为58.5 ~ 65.2%)。多变量方差分析结果证实了所得结果的可靠性。所获得的结果扩大了对葡萄微无性系离体营养质量水分状况指标动态变化及其在体内条件下对植物存活影响的认识
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of nutrient media on the physiological parameters of grape microclones
Successful rooting of grape microclones in uncontrolled environmental conditions (in vivo) depends on the level of resistance, which is formed at the stage of their passage and growth in vitro. An important role in this case is played by indicators of the water regime of the vegetative mass. The purpose of this study was to get acquainted with the results of determining the water-holding capacity, the intensity of transpiration of grape microclones in vitro and to establish the share of their influence on the adaptation potential in vivo. Biotechnological, laboratory, vegetation, and mathematical and statistical research methods were used in this study. The obtained results showed that to optimize the physiological processes in the tissues of the leaves and shoots of grape microclones, to increase their viability under in vivo conditions, it is advisable to cultivate them in vitro on structured nutrient media (MS + agroperlite, MS + vermiculite, MS + agroperlite + vermiculite) with the content of phytohormones IAA – 0.2 mg/l, and 6-BAP – 0.3 mg/l. Structured nutrient media contributed to an increase in water retention capacity and a decrease in the intensity of transpiration of tissues of leaves and shoots of microclones of both technical and rootstock varieties. During 60 minutes of research, from 0.006 g to 0.034 g of water evaporated from microclones of technical varieties, from 0.003 g to 0.053 g from microclones of rootstock varieties, respectively. Transpiration intensity (after 10 min) decreased by 1.7-1.8 times. On the control Murashige and Skoog nutrient medium, plants evaporated a larger amount of water during the corresponding period of time: from 0.006 g to 0.079 g (technical varieties) and from 0.008 g to 0.086 g (rootstock varieties); the intensity of transpiration was higher. After cultivation of grape microclones on structured nutrient media, they were characterized by a higher content of dry matter in the tissues of leaves and shoots (14.6-15.0%) and better survival rates in vivo (76.3-98.5%, at 58.5-65.2% in control). The reliability of the results obtained is confirmed by the results of multivariate analysis of variance. The obtained results expand the understanding of dynamic changes in the indicators of the water regime of the vegetative mass of grape microclones in vitro, their influence on plant survival under in vivo conditions
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来源期刊
Naukovi gorizonti
Naukovi gorizonti Economics, Econometrics and Finance-Economics, Econometrics and Finance (miscellaneous)
CiteScore
1.50
自引率
0.00%
发文量
115
审稿时长
4 weeks
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