Abstract

The aim of the study is to optimize the conditions for in vitro cultivation of blue honeysuckle, raspberry and strawberry. The work was carried out in 2012-2020. The Murasige-Skuga medium (1/2 MS) was the control for all cultures for the initiation of explants. Additionally, we used a modified nutrient medium 1/2 MS with a reduced NH4 content by 15 % compared to the base MS; and Woodi Plant Medium (1/2 WPM) for honeysuckle; for raspberries - Quoirin-Lepoivre (1/2 QL) and 1/2 Anderson; for strawberries - 1/2 MS. For micropropagation and rooting, the following media were used: honeysuckle - modified MS and WPM; raspberries - QL and Anderson; strawberries - MS modified by Siliplant and Boksyu; control for all - MS. The following growth regulators were added to the optimal each culture a nutrient medium: 6-benzylaminopurine (6-BAP), gibberellic acid (GA), waste products of the large wax moth larvae, indolyl-3-butyric acid (IBA), Siliplant, EcoFus, HB-101. The effect of LED-phytoirradiators with a combination of red, blue and white light in the spectrum 2: 1: 1, 1: 1: 1, 2: 1, respectively, and LED-irradiators with a changing spectrum and flashing were studied at the stages of micropropagation and rooting in all cultures. The survival rate of honeysuckle explants on 1/2 WPM medium was 62.2 % (control 27.9 %). The highest reproduction factor of 5.1 (control 2.6) was achieved when using LED 2 red : 1 blue : 1 white on MS modified + 6-BAP 1.0 mg/L + kinetin 0.5 mg/L, and high rooting rate of honeysuckle 89.0 % (76.0 % k) was achieved on MS modified + IBA 0.5 mg/L. Cultivation of red raspberries on QL + 6-BAP 1.0 mg/L + GA 0.5 mg/L and LED irradiation 2 red : 1 blue : 1 white provided a reproduction factor of 5.3 (control 2.7), addition of IBA 0.5 mg/L + HB-101 100 μL/L in QL and LED irradiation 1 red : 1 blue : 1 white contributed to 100 % rooting. The addition of 6-BAP 1.0 mg/L + IBA 0.2 mg/L + GA 0.5 mg/L in QL and LED lighting 1 red : 1 blue : 1 white increased the reproduction factor of remontant raspberries by 1.6 times (from 2, 6 to 4.1), and the use of QL + IBA 0.5 mg/L + HB-101 50 μL/L and LED 2 red : 1 blue : 1 white increased its rooting ability to 96 % (control 67 %). LED irradiation with a changing spectrum during cultivation of garden strawberries on MS + Siliplant + EcoFus at 0.5 ml/L provided a reproduction factor of 5.9 (control 3.8), and the reproduction factor of remontant strawberries on MS + HB-101 100 μl/L was 7.4 (control 5.6). The addition of IBA 0.5 mg/L + HB-101 100 μL/L to the MS promoted the rooting of garden strawberries of 100 % when using a LED irradiator with a changing spectrum, and remontant strawberries – with a blinking LED irradiator

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