SU1042671A1 - Method of stimulation of regeneration processes of grape graftings - Google Patents

Description

The invention relates to vaccination, 8 in particular, to methods of stimulating regeneration processes in grape vaccines and can be used in viticulture. the accelerated reproduction of valuable varieties and the production of vaccines. There is a method of stimulating regeneration processes in grapevine by exposing them to ultrasound with C 1 sound vibrations. The disadvantage of this method is its laboriousness, the use of expensive instruments and the creation of protective equipment for personnel from the effects of ultrasound. There is a known method for stimulating regeneration processes in y and grape strands by mechanical damage to the bark of the stalk C2. The disadvantage of this method is the rapid rotting and dying off of damaged areas of the cutting, which leads to its low efficiency. There is a method of stimulating the regeneration processes in grape grafts by deforming the cell system of the cutting by squeezing S3. The disadvantage of the method is considerable effort, since each cutting is subjected to squeezing, and the efficiency of stimulation is low, since a large part of the squeezed area is removed before grafting. The purpose of the invention is to increase the efficiency of stimulation. This goal is achieved by the fact that the deformation is carried out by mechanical vibrations with the help of a vibrator, while the cuttings are set vertically, and mechanical vibrations are carried out from k to 128 min with a frequency of 16-250 Hz and an amplitude of 2-6 mm. The method is carried out as follows. Cuttings and grafts, or already prepared grafts bundled, are subjected to mechanical vibrations. A plate that is driven into vibrations can be used as a vibrator. The inoculations are placed vertically on the plate and are informed by oscillations from A to 128 minutes with a frequency of 16-250 Hz and an amplitude of 2-6 mm. After treatment of the cuttings, the stratification is carried out at 2–30 ° C and a relative air humidity of 98–100%. The cuttings are germinated according to the generally accepted technology. As a result of the experiments, it was established that a positive effect on regeneration processes in cuttings and grape grafts can be obtained with mechanical vibrations with a frequency in the range of 16-250 Hz and an amplitude of 2-6 mm (Table 1). At the same time, the time required for obtaining a stimulating effect is in the range from A to 128 minutes (Table 2). This table shows that the maximum effect of callus formation stimulation in cuttings of the stock of Berlandieri X Riparia Cober 5BB is observed at the following ratio of oscillation frequency and time: 16 Hz - 32 Hz - 32 min, 63 Hz - 16 min, 125 Hz - 8 min 250 Hz - min. The magnitude of the stimulation effect of regeneration processes depends on the plant variety. Thus, when vibrating for 10 minutes in cuttings of a Kober 5 BB, the maximum effect is observed at a frequency of 63 Hz, and the variety Bastardo Magarach 125 Hz. Example 1. Cuttings stock. Berlandieri X Ripari Kober 5 BB nqq is subject to mechanical vibrations with different frequency (from 16 to 500 Hz) for 10 minutes and with amplitude of 6 mm. A medical device of the type IVCh-02 is used as a vibrator. After the vibration, the cuttings are placed in a thermostat and kept for three weeks at 30 ° C, and high relative humidity of air (T98-100%). After that, the activity of callus and rooting is determined. The maximum effect for callus formation is observed at a frequency of 63 Hz, and rooting at a frequency of 125 Hz. Example 2. To compare the effects of mechanical vibrations with known methods of treating cuttings of grapes, Aleatiko varieties are kept for 9 days at 22 ° C (trim), soaked in water for (heat bath), subjected to mechanical pressure by crusting, squeezing and vibrating for 10 minutes with a frequency of 63 and 125 Hz and an amplitude of oscillation mm. Then, as in the previous experiments, the cuttings are placed on a stratification in a thermostat, and after three weeks the activity of callus-forming and rooting is determined. The results of the experiments are given in table 3, from which it is clear that the furs 310

None fluctuations stimulate regeneration processes more actively than other methods.

The proposed method is more efficient, does not require 5 complex equipment and high labor costs for its implementation .4

It also helps to increase the yield and quality of grafted seedlings, mechanization, and can be used in modern production technology of grafted seedlings of fruit and other plants, as well as in the accelerated reproduction of valuable varieties.

Table 1

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with Control (without treatment) 127.5 91v "Fit 9 days at 22-2k ° C Heat bath kB h at 136, 95.8 Furrow bark (known method) Mechanical effect (known method) 225.8 98.5 Vibration 10min at 232.1 100.0 63 Hz Vibration 10 min at 256.1 100.0 125 Hz

t a bl and c a 3 3.6 91.2 W, 6.5 33.5 58.6 36, 6k, B 3.9 53.1, 0 75.9 50.2 77.5, 81.2

Claims (1)

METHOD FOR STIMULATION OF REGENERATION PROCESSES IN VINE GRAVES by deformation of the stem cell system, characterized in that, in order to increase the stimulation efficiency, deformation is carried out by mechanical vibrations using a vibrator, while the grafts are installed vertically, and mechanical vibrations are carried out from 4 to 128 minutes with a frequency of 1 6-250 Hz and an amplitude of 2-6 mm. >