DD267652A5 - METHOD FOR THE VEGETATIVE REPRODUCTION OF POTATOES - Google Patents

Abstract

The invention relates to the vegetative propagation of potatoes in vitro with higher efficacy. According to the invention, rooted cultures grown as a starting material for propagation in liquid nutrient medium are used. These are separated into shoots and the rooted base part and drives and the base part are propagated separately from each other. The further propagation can take place in liquid nutrient medium or on solid nutrient medium, the latter being preferred. Compared with the use of rooted cultures grown on solid nutrient soil as starting material, in the process according to the invention, ie. H. when using rooted cultures grown in liquid medium, up to five times as much propagating material can be obtained within the same time. The cultures obtained are suitable both for further propagation and for inducing the formation of mini-furrows and finally also for planting in the greenhouse.

Description

Field of application of the invention

The invention relates to a method for the vegetative propagation of potatoes in vitro.

Characteristic of the known state of the art

The vegetative propagation of potatoes in ilro has been reported in numerous publications, for example, a complex process has been carried out with the propagation material of potatoes produced on an industrial scale and, depending on the existing requirements, the propagating material as rooted cuttings, as miniature rolls In experiments related to this method, it was observed that the cultures in liquid nutrient medium proliferated much faster than on solid agar medium.

Object of the invention

The aim of the invention is to further increase the efficiency in the vegetative propagation of potatoes.

Explanation of the essence of the invention

The invention has for its object to develop an improved method for the further propagation of grown in liquid culture medium rooted culture in vitro.

According to the invention, this object is achieved in that the rooted culture separates to obtain plantable into the greenhouse cuttings or minicolls in shoots and the rooted stem part and the shoots and rooted stem parts are applied separately on fresh medium. The proliferation of the shoots grown in the liquid nutrient medium improves the efficiency of propagation, while the use of the rooted base member for propagation is an essential new element of the method by which propagation can be increased to fivefold with significant labor saving.

According to one embodiment of the method according to the invention, both the shoots and the rooted base part are transferred into liquid nutrient medium. The cultures that emerge from the drives correspond completely to the original rooted culture. From them either miniature cultures can be created in vitro, or they can be planted in the greenhouse. Of course, they can also be further propagated to the described WeisG. The roots grown from the rooted base are most advantageously used to produce miniature cultures in vitro.

According to another embodiment, only the shoots are transferred to liquid nutrient medium and to rooted crops

while the rooted base part is planted in solid agar, where, with the help of the already existing roots, the pruned shoots develop within a short time into a large mass of new shoots, which are excellently suited for propagation.

However, the rooted basal part augmented in solid agar is not only suitable for amplification in vitro, but can

- Since it is equivalent to the culture grown in liquid culture medium - are also planted in the greenhouse.

According to a further variant of the method according to the invention, both the shoots and the rooted base part are

transferred into a solid agar medium. From the rooted base part arises within a short time a large number of new

Shoots, while the shoots on the solid medium develop coherent roots. Both9 cultures

can be used in the way already mentioned d. H. they may be further enhanced in vitro or the formation of minicolls in vitro induced on them. Finally, it is also possible to plant the cultures in the greenhouse.

The last-described variant is preferred because, compared with cultures grown in liquid nutrient medium,

the need for Vermohrungsmaterial is lower and the drive pieces can be cut shorter, as evolved from each eye an instinct.

The rooted culture grown on the agar can together with the adherent soil in the soil

be planted. In studying the applications of Agarnährbodens was found that the solid

Culture medium can also be used in a thinner layer than usual. Layers of about 1 cm thick are sufficient The root structure of the cultures growing on such medium is both for in vitro propagation as for Planting in soil suitable. The working time savings result from two facts:

1. The order of the introduced into liquid nutrient medium shoots takes much less time than the ordering of shoots on solid medium.

2. The rooted base part can be placed on the surface of the solid agar plate with a single movement because the whole culture is held together by the connected root system.

embodiment

The invention will be explained in more detail below with reference to exemplary embodiments. In the examples, the following nutrient medium was used:

NH ₄ NO ₃ 1600mgMezoinosit 100 mg KNO ₃ 1900 mg Vitamin Bi 0.5 mg CaCl ₂ -2H ₂ O 440 mg of vitamin Be 1.0 mg MgSO ₄ -7H ₂ O 370 mg nicotinic acid 5.0 mg Na ₂ -EDTA + FeSO ₄ 7H ₂ O 25 mg pantothenic acid 2.5 mg H ₃ BO ₃ 6.2 mg NAA 0.001 mg M _n SO ₄ -4H ₂ O 22.3 mg of sucrose 3OG ZnSO ₄ -4H ₂ O 8.6 mg agar 6.5 g kl 0.83 mg of pH 5.7 N ₂ MoO ₄ -2H ₂ O 0.25 mg CuSO ₄ -5H ₂ O 0.025 mg CoCl ₂ -6H ₂ O 0.025 mg

The liquid nutrient medium had the same composition, but without agar. example 1

The shoots of a potato culture grown on solid medium were cut off. About 10 pieces were placed in 20 ml of liquid nutrient medium, which was in a glass with a volume of 400 ml. The culture was maintained at a temperature of 22 ^° C. for about 2 weeks and a 3000 lux light activated daily for 16 hours. At this time the culture formed 20-25 shoots and one connected root. The rooted culture was removed with the tweezers under sterile conditions from the glass, the shoots cut off and distributed in 2-3 glasses of fresh nutrient medium. The rooted base part was grasped with the tweezers and inserted into a liquid nutrient medium. The cultures grown in this way were stimulated after 2 weeks to form miniature naps. After 2-3 months, an average of 50 miniature rolls were harvested. The cultures obtained from the truncated shoots could be used in the manner described for further propagation. One part was planted in the greenhouse and another part was used for the production of mini-naps. By using the method described herein, about 50% more cultures can be produced within the same time than when using cultures grown on solid culture medium.

Example 2

The procedure was carried out in the manner described in Example 1, with the difference that the rooted rootstock obtained during sterile cutting of the cultures was placed in solid agar medium. The grown in the liquid media cultures were used for further propagation, for the production of miniature niches or for planting in the greenhouse. Within 2 weeks, vigorous shoots were developed from the rooted base part, which had been planted in solid medium, and were suitable for the cultivation of another 3-4 cultures. With this method, about five times as many cultures could be produced within the same time as in the case of using cultures grown on solid nutrient medium.

Claims (8)

1. A method for the vegetative propagation of potatoes in vitro, characterized in that the grown in liquid nutrient medium rooted crops divided into shoots and rooted base part and these are propagated separately from each other. 2. The method according to claim 1, characterized in that both the further propagation of the shoots as well as the further propagation of the rooted base part took place in liquid nutrient medium. 3. The method according to claim 1, characterized in that the further propagation of the shoots in flüss'gem nutrient medium, the further propagation of the rooted base part carried out on solid nutrient medium. 4. The method according to claim 1, characterized in that both the further propagation of the shoots and the Weiterervormehrung the rooted base part made on solid nutrient medium. 5. The method according to any one of claims 1 to 4, characterized in that the method is repeated several times. 6. The method according to any one of claims 1 to 3 and 5, characterized in that the cultures obtained from the grown in liquid nutrient medium shoots cultures are used for the production of mini-nets and / or propagation and / or planting in the greenhouse. 7. The method according to claim 1 or 2, characterized in that the cultures obtained from the grown in liquid nutrient medium base part cultures are used for the production of mini-rollers. 8. The method according to any one of claims 1, 3 or 4, characterized in that the shoots propagated on a solid agar medium and / or the rooted base part are used for applying non-native cultures and / or for obtaining mini-tubers in vitro and / or for planting into the greenhouse become.