NL8800376A - METHOD FOR INCREASING THE EFFICIENCY OF VITRO VEGETATIVE REPRODUCTIONS OF POTATOES. - Google Patents

Description

r EN 34894 Kp / hf \ z

Novotrade RT, Budapest, Hungary

A method for increasing the efficiency of in vitro vegetative propagation of potatoes.

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

Various methods have been developed for the in-vitro vegetative propagation of potatoes. A complicated method has been devised which is suitable for the economical mass production of the propagating material for potatoes in large quantities and it is suitable for the preparation of various propagating materials 10 (cuttings with roots, mini tubers and small tubers. No. of the Hungarian patent application: 1160/84.).

During the application of the above invention, shoots have been found to grow and multiply better in liquid media than on solid media.

Propagation of shoots in liquid media is preferred for obtaining plants with roots.

In addition to these tests, tests are planned for further propagation of plants with roots propagated in a liquid culture medium. As a result of these experiments, a method has now been developed which is much more efficient for in vitro reproduction compared to the known methods.

The essential point of this method is that the plants with roots produced in liquid media, for further cultivation in greenhouses or for the production of mini tubers in vitro, are propagated such that they are first divided into shoots and shoots with roots, after which both parts - the shoots and the shoot pieces with roots - are transferred to fresh nutrient media. The further propagation of the shoots grown in liquid media increases propagation efficiency, however, the essential new step of this method is the use of the root shoots for further propagation, which step multiplies. 88 0.03 76 i '-2 speed can increase by five times, and in this way you can also save a lot of time.

According to a variant of the present invention, both - the shoots and the shoots with roots -5 are placed in a liquid medium, the cultures grown from shoots being identical to the original cultures with roots, which can be used for mini tuber production or placed can be propagated in greenhouses or in the manner described above, while the cultures grown from the root shoots can preferably be used to produce in vitro mini tuber cultures.

According to another variant of the present invention, only the shoots are placed in liquid medium and further cultivated to obtain rooted cultures, while the rooted shoots are transferred to solid media, the rooted pieces in a short time several new produce shoots which in turn are suitable for further propagation.

The root shoots grown on solid agar media are suitable not only for in vitro propagation, but also for greenhouse planting, since they are similar to the cultures grown on liquid media.

According to another variant of the present method, both the shoots with roots and the shoots are transferred to solid media. A large amount of new shoots were developed from the root shoots, while the shoots transferred to solid media have developed a continuous root system. Both cultures can be used in the manner described above, i.e. they can be propagated further under in vitro conditions, in vitro mini tubers can be induced and planted in greenhouses.

The latter method is the preferred variant of the present invention, since this method requires less reproductive material than the method using liquid media, while shoots can be developed from all f 6 8 0 0 5> i # »- 3 - buttons of the shoot pieces, which can be cut short.

The culture with roots grown on agar media can be planted in the soil along with the media.

During the examination of the application possibilities of the solid agar media it has been found that the solid media can also be used in thinner layers than usual, in a layer of 1 cm.

The root system of the cultures grown in such media is more favorable with respect to both in vitro propagation and soil propagation.

The time saving is due to two factors: 1. The arrangement of the roots in the liquid media requires less time compared to the case of solid media.

15 2. The shoots with roots can be placed on the fresh liquid or solid media with one movement because of the adjacent roots.

The following examples serve to illustrate the invention.

The composition of the nutrient media used according to the invention is as follows:

Potato Nutrient Media

Solid, maintainable and reproductive media: NH4N03 1600 mg Mesoinosit 100 mg 25 KN03 1900 mg Thiamine HC1 0.5 mg

CaCl 2 .2H 2 O 440 mg Pyridoxine HCl 1.0 mg

MgS04.7H20 370 mg Nicotinic Acid 5.0 mg

Na2-EDTA + FeS04.7H20 25 mg Panthotenic acid 2.5 mg H3B04 6.2 mg Naphthylacetic acid 0.001 mg 30 MnSQ4.4H20 22.3 mg Sucrose 30 g

ZnS04.4H20 8.6 mg Agar 6.5 g KI 0.83 mg pH 5.7

Na2MoO4.2H20 0.25 mg

CuS04.5H20 0.025 mg 35 CoC12.6H20 0.025 mg

Liquid root media: as above, but without agar.

Example I,

The shoots of the potato cultures, grown on, 8 8 C t.

solid media, were cut and about 10 pieces were transferred to a 400 ml flask containing 20 ml of liquid medium, followed by cultivation at 22 ° C for 16 hours at 3000 lux exposure. Under these conditions, 20-25 new shoots and adjacent roots develop. The root culture is removed with forceps from the flask under sterile conditions, the shoots are cut and transferred into 2-3 flasks containing fresh nutrient media, and the remaining root shoots are transferred into a new liquid medium. The cultures obtained in this way were grown for 2 weeks, after which they were induced for mini tuber production and after 2-3 months - on average - 50 mini tubers can be produced by them.

Cultures developed from the cut shoots can be used - in the manner described above - for reproduction, they can be transferred into greenhouses or mini tubers can be induced by them. Using the method outlined above, 50% more cultures can be obtained within the same time period as in the case of using solid media.

Example II.

Shoots of cultures grown on solid media (their composition is as stated above) were cut and about 10 pieces were transferred into a 400 ml flask containing 20 ml of liquid medium and grown for about 2 weeks at 22 ° C, 16 hours 3000 lux exposure. Under these conditions, the cultures were found to develop 20-25 new shoots, as well as adjacent roots. The rooted cultures were removed with sterile forceps, followed by cutting the shoots and transferring them to 2-3 flasks containing fresh liquid medium. Cultures grown in liquid media were used for propagation, mini tuber induction or they were planted in greenhouses. The root shoots, grown on solid media, were found to develop new shoots within 2 weeks, which are suitable for producing 3-4 new cultures.

Using the method set forth above, one can produce 5 times more cultures within the -88m -wr-5- same period as when using only cultures grown on solid media for propagation, while a lot of time can be saved.

.880037 »

Claims (8)

Method for increasing the efficiency of the in vitro vegetative propagation of potatoes, characterized in that the cultures with roots, grown in liquid media, can be fully propagated by dividing them into shoots and shoots with roots. 2. Method according to claim 1, characterized in that both parts - the shoots and the shoot pieces with roots - are further propagated in liquid media. The method according to claim 1, characterized in that the shoots are further propagated in liquid media, while the shoot pieces with root are further propagated on solid media. 4. A method according to claim 1, characterized in that both the shoots and the shoot pieces with roots are propagated on solid agar media. 5. Method according to any one of the preceding claims 1-4, characterized in that the method can be repeated several times. 6. Method according to claims 1 - 3 and 5, characterized in that the cultures developed from shoots grown in liquid media can be used for mini tuber induction and / or further propagation and / or for planting in greenhouses. A method according to claim 1 or 2, characterized in that cultures developed from shoot shoots with roots grown in liquid media can be used for mini tuber production. A method according to claim 1 or 3 or 4, characterized in that cultures developed from shoot pieces with roots grown on solid media can be used for propagation of new cultures. . 8 S Ü f o 7 t: