Clonal micropropagation in vitro of essential oil plants of the family Lamiaceae Lindl.

UKRAINIAN BLACK SEA REGION AGRARIAN SCIENCE Pub Date : 2022-09-10 DOI:10.56407/2313-092x/2022-26(4)-5

T. Manushkina, T. Kachanova, M. Samoilenko, O. Petrova

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Abstract

The relevance of research on the development of biotechnology for clonal micropropagation of plants of the family Lamiaceae Lindl. is determined by the need for mass production of healthy, pure-grade planting material for the establishment of industrial plantations and the expansion of areas of essential oil crops in Ukraine. The aim of the research was to develop biotechnological methods of clonal micropropagation of essential oil plants of the Lamiaceae family – Lavandula angustifolia Mill., Mentha x piperita L., Salvia officinalis L. and Monarda fistulosa L. The task of the research was to select optimal conditions for effective cultivation of plants of the Lamiaceae family at four stages of clonal micropropagation. The main methods of research: laboratory, field, analytical, mathematical and statistical. The optimal nutrient media for the induction of in vitro morphogenesis and the multiplication stage were determined based on the basic medium of Murashige and Skoog: for L. angustifolia supplemented with kinetin (1.0 mg/l) and gibberellic acid (1.0 mg/l), for M. x piperita – with 6-benzylaminopurine (1.0 mg/l) and gibberellic acid (0.1 mg/l), for S. officinalis – with 6-benzylaminopurine (1.0 mg/l) and IOLK (0.5 mg/l ), for M. fistulosa – 6-benzylaminopurine (1.0 mg/l) and β-indolyl-3-oleic acid (0.1 mg/l). At the stage of multiplication, it is advisable to carry out seven to eight cycles of cultivation. At the stage of rooting of microshoots, the most effective for all studied plant species was determined to be the Murashige and Skuga nutrient medium with a halved concentration of components, supplemented with β-indolyl-3-oleic acid (0.5 mg/l) and β-indolyl-3-acetic acid ( 0.5 mg/l). The optimal substrate for plant adaptation to in vivo conditions is peat: perlite in a volume ratio of 3:1. Incorporation of the developed biotechnology of clonal micropropagation into the seeding system of essential oil crops of the Lamiaceae family will allow to quickly obtain healthy pure-bred planting material and introduce new productive varieties into production

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兰科挥发油植物的离体克隆繁殖研究。

兰科植物无性繁殖与生物技术发展的相关性研究。是由于需要大量生产健康的纯级种植材料，以便在乌克兰建立工业种植园和扩大基本油料作物的种植面积。本研究旨在探索兰科精油植物薰衣草无性系微繁的生物技术方法。以薄荷、鼠尾草、水仙和赤羊藿为研究对象，在无性繁殖的4个阶段，选择最优栽培条件。主要研究方法:实验室、实地、分析、数学和统计。以Murashige和Skoog为基础培养基，确定诱导离体形态发生和增殖阶段的最佳营养培养基:鹅叶草中添加了动素(1.0 mg/l)和赤霉素酸(1.0 mg/l)，胡椒田鼠中添加了6-苄基氨基嘌呤(1.0 mg/l)和赤霉素酸(0.1 mg/l)， officinalis中添加了6-苄基氨基嘌呤(1.0 mg/l)和IOLK (0.5 mg/l)，赤竹田鼠中添加了6-苄基氨基嘌呤(1.0 mg/l)和β-吲哚-3-油酸(0.1 mg/l)。在繁殖阶段，宜进行七至八个周期的培养。在微芽生根阶段，对所有被研究植物最有效的是Murashige和Skuga营养培养基，其成分浓度为一半，添加β-吲哚基-3-油酸(0.5 mg/l)和β-吲哚基-3-乙酸(0.5 mg/l)。植物适应体内条件的最佳底物是泥炭:珍珠岩，体积比为3:1。将先进的无性系微繁生物技术应用于香薷科油料作物的播种系统，可以快速获得健康的纯种种植材料，并将新的生产品种引入生产

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UKRAINIAN BLACK SEA REGION AGRARIAN SCIENCE

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