RU2748323C1 - Method for increasing the yield of grafted grape seedlings - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: invention is a method that includes harvesting, cutting, eyehole blinding, preparation for grafting of rootstock and scion stalks, subsequent stratification of grafts and grafting. In this case, the stalks are treated with a 0.5% solution of the BioRootPlus preparation for 1÷1.5 seconds before setting them for fitting, the eyeholes are blinded after fitting the rootstock stalks and forming a green cone with a length of 1÷1.5 cm by hand, and then stratification is carried out.

EFFECT: invention makes it possible to obtain healthy full-fledged seedlings, as well as to simplify and reduce the duration of the processing.

1 cl, 4 tbl

Description

The invention relates to agriculture and can be used in viticulture, in particular in nursery, in the production of grafted seedlings.

A known method of growing grafted grape seedlings ("Technology for the production of grafted planting material", Maltabar L.M., Ministry of Agriculture of the USSR, Krasnodar, 1983, pp. 3-50), including the preparation of rootstock and scion, removal of eyes on the rootstock, refreshing cuts on the basal part of the rootstock cuttings, cutting the scion into one-eyed cuttings, locking the scion and rootstock cuttings in water, pickling the cuttings in a fungicide solution, soaking the stock cuttings in a 0.005% solution of heteroauxin for two days, machine grafting, waxing the adhesion site, stratification, sorting growing vaccinations of the second grade, hardening and planting vaccinations in a school.

The disadvantages of this method are the duration of soaking cuttings in solutions of physiologically active substances, the complexity and laboriousness of the process, which increases costs.

A known method of processing grape cuttings with growth regulators Exuberon and indoleacetic acid (IAA). To implement this method, two varieties were taken - Kober and Moldova. The experiments consisted of preliminary preparation, including blinding and soaking the cuttings for 48 hours in solutions of various concentrations (Radchevsky P.P. Improvement of assortment, production of planting material and grapes. - Collection of scientific papers / KGAU. - Issue 394 (422). - Krasnodar , 2002. - S. 126-130).

The disadvantages of this method include the operation of deep removal of eyes on a lignified shoot. This is a laborious process that requires highly skilled workers, in which cuttings are injured. In addition, the disadvantages include the high cost of the drug and the low yield of grafted seedlings.

A known method of using Radifarm as a stimulator of plant growth and development in the composition of an agent used to increase the yield of cruciferous crops (patent RU 2468582).

To stimulate root formation, before using Radifarm and other stimulants, the selected rootstock cuttings must be completely blinded before grafting. With deep removal of the eye, used in this method, wounds are inflicted, the healing of which requires a lot of nutrients and poor callus formation is observed at the site of inoculation, and therefore, the process of fusion of the grafted components worsens. On the surface of the wound in damaged cells, oxidative processes are activated, the pH changes, more often in the direction of an increase in acidity, cytochemical and chemical changes occur in wound cells, intensive division is observed near the cut, especially near the conductive xylem. The infliction of a large number of wounds when removing the eyes before stratification dramatically reduces the yield of grafts with circular callus. Therefore, in the production of grafted seedlings using Radifarm and other stimulating drugs, a low yield of seedlings is obtained.

Recently, a new drug has appeared - an organic stimulator BioRootPlus, which provides not only stimulation of root formation, but also the intensive development of eyes on the handle, which eliminates the need for mechanical removal of the eyes with a knife and the application of deep wounds when preparing grafts for stratification. The preparation contains natural ingredients, including important macro- and microelements, vitamins, humic acids, enzymes. The balanced composition of the product has a beneficial effect on the condition of plants, stimulates root formation and improves the transport of food to parts of the plant.

The technical problem to be solved by this invention is to develop a method for increasing the yield of grafted grape seedlings by treating the basal part of the grafts with an organic growth stimulator BioRootPlus, which makes it possible to exclude the operation of mechanical eye removal with a grafting knife, which sharply reduces trauma to cuttings and ensures the formation of callus at a specific junction rootstock and scion.

This goal is achieved by the fact that in the proposed method of increasing the yield of grape seedlings, including harvesting, cutting, blinding eyes, preparation for grafting stock and scion cuttings, subsequent grafting stratification and grafting. In this case, the processing of cuttings is carried out with a 0.5% solution of the BioRootPlus preparation for 1 ÷ 1.5 seconds before setting them for fitting, and the eyes are blinded after adjusting the stock cuttings and the formation of a green cone 1 ÷ 1.5 cm in length by manual blinding, and then stratification.

New and essential in this method is the use of the BioRootPlus biostimulator, which contains vitamins, enzymes, organic and humic acids, participating in the processes of root formation, optimizing and strengthening them. Studies have shown that BioRootPlus not only stimulates the development of a strong root system, but also promotes the development of eyes on rootstock cuttings. It is known that the process of callus formation occurs faster and more intensively at the lower end of the cutting than at the upper end, where the rootstock and the scion are connected. The proposed method allows us to minimize the phenomenon of vertical polarity in the formation of callus. This is achieved by the fact that the cuttings are treated with the BioRootPlus stimulator before their thermal adjustment, causing intensive development of eyes along the entire length of the rootstock. After washing them, the wound is filled with paraffin with a temperature of 80 ÷ 90 ° C, burns it and disinfects it - healing occurs. In practice, callus is formed only at the junction of the rootstock with the scion, due to which the quality of grafting accretion increases and the yield of seedlings increases.

Gentle manual removal of developed eyes after thermal adjustment before stratification during the formation of a green cone (1 ÷ 1.5 cm) reduces by three times during the growing season a fragment of green shoots in a school and eliminates injury to seedlings, which helps to reduce the duration of the technological process and obtain healthy, full-fledged seedlings.

The technical result is that the proposed method of increasing the yield of grafted grape seedlings by processing the basal part of the grafts with an organic growth stimulator BioRootPlus and careful manual removal of eyes by the method of smoothening allows to reduce trauma and ensure the production of healthy full-fledged seedlings, as well as to simplify and shorten the duration of the processing process.

It is with the sparing method of removing the green cone that the conditions for the death of the main and replacement eyes are created, the accretion of the grafted components improves, during the stratification period the supply of nutrients to the place of the former eyes is prevented, and, accordingly, conditions for their death are created. Treatment with a 0.5% solution of the BioRootPlus preparation for 1 ÷ 1.5 seconds activates physiological processes in the cuttings: cambium and other elements of the shoot structure are very active, the vascular system is restored and nutrients begin to move to the developing eyes.

The essence of the method is illustrated by tables.

Tab. 1 - Influence of various biostimulants on the yield of grafted seedlings; Tab. 2 - Development of grafted components during treatment with drugs of various concentrations during stratification; Tab. 3 - The influence of various drugs on the growth and development of grafted seedlings; Tab. 4 - The effect of drugs on the development of own-rooted seedlings.

The method is carried out as follows. In autumn, the prepared cuttings of the rootstock and scion are soaked in water for 24 hours and placed in a refrigerator for storage. In the spring, before the start of grafting, a number of preparatory work is carried out, including: culling sick and unripe shoots, calibrating the rootstock and scion, removing the eyes on the rootstock, refreshing the cuts on the basal part of the rootstock cutting, cutting the scion into one-eyed cuttings, locking the scion and rootstock cuttings in water, pickling cuttings in a fungicide solution. The removal of eyes on the stock is carried out before setting for stratification and is carried out manually by the method of scrubbing - by holding a hand from top to bottom along the shoot. As a result, the complexity of the process is reduced and there is no need to carry out repeated debris. The technology of growing seedlings provides for the treatment of inoculations with paraffin at a temperature of 90 ÷ 95 ° C, as a result of which the place where the green cone is removed is burned and disinfected. It is recommended to do this during the adjustment of the grafts, after which they are waxed and dipped in the basal part in a 0.5% BioRootPlus solution for 1-1.5 s and set for stratification.

Table. 1 shows the results of experiments on the effect of various biostimulants on the yield of grafted seedlings. It was found that when the grafts were treated with the BioRootPlus biostimulator before grafting stratification, the yield of grafted seedlings increased by 36.3% compared to Radipharm, 51.3% Symbiont and 64.7% Epin.

Table 2 shows the effect of the drug of various concentrations on the example of the Ilya variety. The best callus formation took place in the 5th variant when processing the inoculations with BioRootPlus with a concentration of 0.5%.

As can be seen from the data given in Table 3, the grafted seedlings of the Ilya variety developed most intensively in option 6 when treated with a 0.5% solution of the BioRootPlus preparation. The highest average growth of seedlings, diameter, is observed here. The seedlings yield was 83.3%. The most developed seedlings in terms of growth, leaf surface and development of the root system were obtained in the 5th variant, when processing the basal ends of lignified shortened cuttings for 1.5 ÷ 2 seconds, with a solution of the BioRootPlus preparation with a concentration of 0.5%. At the same time, the yield of seedlings was 78%, which is 5.7% higher than the control variant. For the Preobrazheniye variety, the best option was obtained by treating the basal ends of lignified shortened cuttings for 1.5 ÷ 2 seconds with a solution of the BioRootPlus preparation with a concentration of 0.25%. The seedlings had higher development rates and the highest seedling yield was obtained - 90.6%.

The effect of drugs, except for the grafted ones, was studied on self-rooted seedlings. As can be seen from the data given in Table. 4, self-rooted seedlings of the Preobrazhenie variety developed most intensively in option 6 when treated with a 0.5% solution of the BioRootPlus preparation, where the highest indicator in terms of diameter and length of growth was obtained. However, the highest yield of seedlings was obtained in option 4 and equal to 70.6%, which exceeds the control option by 27.3%.

Thus, the treatment of cuttings with a 0.5% solution of the BioRootPlus preparation and the removal of the green cone of grafts before stratification can increase the yield of seedlings by 25 ÷ 27.3%. The use of these techniques in the production of grafted grape seedlings does not cause a change in the technological process and is economically profitable and reasonable.

Claims (1)

A method of increasing the yield of grape seedlings, including harvesting, cutting, blinding the eyes, preparation for grafting rootstock and scion cuttings, subsequent grafting stratification and grafting, characterized in that the cuttings are treated with a 0.5% solution of the BioRootPlus preparation for 1 ÷ 1.5 seconds before setting them for fitting, and the blinding of the eyes is carried out after fitting the rootstock cuttings and the formation of a green cone with a length of 1 ÷ 1.5 cm by hand flashing, and then stratification.