RU2007072C1 - Method of producing strawberry planting material - Google Patents

Abstract

FIELD: agriculture and biotechnology. SUBSTANCE: strawberry planting material is rooted and adapted to non-sterile conditions of outer substratum within cultivating tanks covered with a film. Before the covering with the film the tanks are additionally closed with plugs made of autoclaved perlite. EFFECT: enhanced quality of the planting material. 2 tbl

Description

 The invention relates to a culture of isolated tissues and organs and can be used for propagation of plants in vitro.

 A known method of propagation of plants in vitro, in which lateral shoots are obtained on a nutrient medium, then they are rooted and transferred to sterile conditions. The last stage, i.e., the transfer of plants to non-sterile conditions, is very responsible. During this period, plants must adapt to new conditions.

 However, due to significant physiological and anatomical deficiencies in the development of plants in vitro, a large percentage of death occurs during transplantation. This is due to the conditions for growing plants in vitro, which occurs in vessels closed with either foil or various films, which creates increased humidity inside the vessel. Therefore, in order to increase the survival rate of plants in non-sterile conditions, they are transplanted to a place with high humidity, which is gradually reduced, bringing to the humidity of the surrounding air. However, in this case, the adaptation is carried out in a greenhouse equipped with an artificial fog system. In this case, the death of plants.

 The aim of the invention is to increase the survival rate of plants obtained in vitro in the field without the use of greenhouses with artificial fog.

 The goal is achieved in that in a method for producing strawberry planting material in tissue culture, including rooting of shoots on a nutrient medium in cultured vessels with a film coating and their adaptation to non-sterile environmental conditions, rooting and adaptation are carried out simultaneously in cultivation vessels, which are additionally coated with a film close the cork made of autoclaved perlite.

 PRI me R. Microclonal propagation of strawberries of the Zenith variety was carried out in vessels with the nutrient medium Murashigo and Skugo, closed with a shrink film.

 Nutrient medium for rooting was used of the same composition with the addition of IMA at a concentration of 0.5 mg / L. Lateral shoots were separated in a laminarbox and planted in rooting vessels (test tubes). Then the tubes were closed with shrink film / control / or additional perlite.

Perlite is sand of volcanic origin. Before use as a means for closing the vessels, it was autoclaved at 2 atmospheres for 30 minutes. After a month, the infection of the tubes was observed. In control and experiment, infection was absent. Rooting was carried out in the light room. During this period, 100% of planted shoots took root. In the experiment used 50 pcs. shoots. After rooting, the control and experimental rooted plants were transplanted in the field into the open ground. Before planting, the soil was spilled with water. In the future, plants satisfied the need for water due to rains. Air temperature ranged from 17-30 ^o C.

 The effect of tube closure on the survival of in vitro strawberry plants in the field (three weeks after transplantation). The results are shown in table. 1.

 The death of control plants occurred 5 hours after transfer to the field.

 According to the proposed method, perlite is preliminarily poured into a flat pallet with a layer of 3 cm and autoclaved at 2 atmospheres for 30 minutes. Sterile perlite is transferred to the laminarbox and after planting the shoots on a rooting medium, the tubes are closed with perlite. The humidity of the autoclaved perlite prevents the cork from crumbling. Then the tubes were closed for 10 days with a film, after which it was removed.

 In addition to transplanting rooted plants directly into the field, the proposed method transplanted plants from vessels into the greenhouse. At the same time, increased humidity was created by covering the plants with a plastic film and shaded them for the first 7 days. The survival rate of such plants was 75%. However, if the transplantation of plants adapted in the greenhouse is carried out in the field one month after adaptation in the greenhouse, only 80% of all adapted plants take root. Thus, the existing method of adaptation of test plants to non-sterile conditions allows to obtain in the field 60% of the number of plants subjected to adaptation. In addition, this known method requires the presence of a greenhouse and an extra transplant operation (see table. 2).

 (56) Harry Jan Swarbr Jan T. Lindstrom, R. H. Zimmerman, Commissiar of the European Communities biological Sceences. In vitro culture of strawberry plants, 1987, p. 79-100.

Claims (1)

 METHOD FOR PRODUCING STRAWBERRY PLANTING MATERIAL IN TISSUE CULTURE, including rooting of shoots on a nutrient medium in cultivated vessels with a film coating and their adaptation to non-sterile environmental conditions, characterized in that rooting of shoots and adaptation is carried out simultaneously in cultivation vessels before covering the vessels cork made of autoclaved perlite.

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