RU2076574C1 - Grape grafting method - Google Patents

Abstract

FIELD: horticulture, seedy growing and forestry. SUBSTANCE: method involves preparing grafting components; making copulation cut on graft at location adjacent to internode intercalary growth zone above node; making cut in covering zone above second-third node from earth surface, with length of internode, positioned below selected node, making at least two heights of graft cuts. EFFECT: increased efficiency, simplified method. 3 cl, 6 dwg

Description

 The invention relates to viticulture, but can be used in horticulture, nursery and forestry.

 The purpose of the invention is the reduction of damage in growing media and improving the quality of the plant.

 In FIG. 1 shows a zone of intercalar growth on a stock of grapes; in FIG. 2, 3, 4 stock preparation for various types of vaccinations (oblique, with an omega-shaped neckline, with a spike); in FIG. 5 the location of the grafts of the proposed method on the rootstock relative to the soil surface in comparison with the prototype; in FIG. 6 schematically settled sagging shaft vaccinated according to the proposed method and prototype.

 The following designations are accepted: 1 stock node; 2 bottom of the blinded eye; 3 zone of intercalar rootstock growth; 4 scion; 5 eye scion; 6th place of vaccination according to the proposed method; 7th place of vaccination according to the prototype; 8 zone of the covering shaft, where the damage to the stem is minimal; Zone 9 of the covering shaft with significant damage to the stem of the bush in severe winters and annual damage to fruit formations.

 The implementation of the method of vaccination in growing environments.

 Before performing a cut on the rootstock, grafts are evaluated in length, taking into account the distance from the basal (lower end of the handle, node) to the apical (upper end of the handle, node), adopted for this area in the production of green and table vaccinations. In this case, the length of the lower internode should be at least two heights of the values of the grafting sections. The cut plane is placed in the intercalary zone of the internode directly above the node, not further than 25 mm from the eye along the length of the internode. In this case, the oblique slice can occupy almost the whole of this segment, and with slices on a spike, the plane of the slice will be closer to the node. The cut plane is determined by the type of cut and the technological capabilities of the vaccine.

 The preparation of the scion and rootstock before performing slices is carried out in a known manner. With tabletop vaccination, the slices are carried out after the cuttings are soaked, previously blinding the eyes. Ready vaccinations are sent to stratification.

 With green grafting, the slice is performed by first removing the stepsons and leaves, and after copulation, the eyes are blinded. Before vaccination, determine the zone of intercalar growth 3 (Fig. 1) and its condition. A slice on a green shoot, made along its axis, makes it easy to determine the zone of intercalar growth by a greener color, while the rest of the internode of the shoot is already almost completely filled with wood-fiber bundles and has a whitish hue.

 Example 1. Vaccination of grapes by oblique copying.

 When performing vaccination by the oblique copying method (Fig. 2), the cut is performed above the node 1, being guided by the bottom of the blinded eye 2 in the intercalary zone of the stock 3 (Fig. 1). Begin it on the side opposite to the blinded eye, so that the cut plane in the form of an ellipse passes through the projection of the blinded eye 2 on one side and opposite to it on the other and does not extend beyond the intercalary zone. The end of the cut at point A (Fig. 2) should extend no further than 25 mm from the rootstock assembly.

After preparation of the scion 4 in a known manner, the slice on which is performed below the eye 5 and the leaf scar, it is connected to the stock and firmly fastened by known methods. In this case, the eyes of the scion 5 are positioned 180 ^° relative to the previous eye of the stock, which can be traced to its bottom 2. In green grafting, the grafting site is tied with known methods. In the desktop version, after connecting the components, they are sent for stratification. After survival of the scion, care is conducted with the removal of excess growth points of the stock.

 Example 2. Vaccination of grapes with an omega-shaped neckline.

The preparation of the scion and stock before vaccination is performed by known methods. A scion on the scion is prepared below the leaf scar, orienting the cut in the direction transverse to the plane passing longitudinally through the center of the eye along the shoot, the handle (Fig. 3). The cut on the rootstock is carried out in the zone of intercalar growth 3, perpendicular to the plane passing along the stem, vine, shoot also through the middle of the bottom of the blinded eye 2, along the stem. The cut should pass in the zone of intercalar growth 3 not closer than 7 mm from the node and no further than 18 mm (Fig. 3). The grafting components are connected in such a way that after grafting the scion eye 5 and the rootstock eye (orientation on the bottom of the blinded eye 2) are placed with an offset of 180 ^° .

 Example 3. Vaccination of grapes on a thorn.

A cut on the scion is made below the leaf scar. On the rootstock (Fig. 4), the spike is performed taking into account its length of approximately equal to 7 mm. The rootstock is cut crosswise above the node 1 with a pre-blinded eye 2 at a distance of 14 25 mm above the node. Then, on a grafting machine, for example, MP-7 A, on which the spike is made, the rootstock is oriented so that the step is on the side opposite to the blinded eye 2, and the protrusion on the side of the bottom of the blinded eye 2. Cut the spikes and steps so that the grafting components could be combined with the orientation of the eyes through 180 ^o . The minimum distance from the cross section to the node 1 is determined based on the technical capabilities of the vaccination machine. Then the components are connected at the site of vaccination 6.

 The method provides inoculation into the intercalar zone of the interstitial rootstock above the node with the active zone of the scion below the node. With this copulation, the scion grows into a rootstock in a circular fashion with the intercalary zone, the site of the site and tissues below the site of the stock being included in the process of fusion. It turns out, as it were, the process of lengthening the lower internode due to scion in the zone of intercalar growth with the approach of the genetic spiral of grapes. The growth of the scion in the stock is enhanced by the area of leaf traces and other active tissues below the node on the scion and stock. This process is better traced on a green plant, and also quite actively on a matured internode and node. Such a vaccination reduces damage in growing environments, improves the quality of future plants, and leads to a more productive and durable plant.

 The proposed vaccination directly above the node can be used on any internodes of a green or ripened shoot, vine, below which the length of the internodes is at least two heights of grafting sections. Such a vaccination in the growing environment, when the adhesion site is at a minimum distance from the ground (above the second or third rootstock shoot node), significantly reduces damage to the skeleton of the bush and fruit vines in the covering shaft in the winter, allows you to get a better, more productive and durable plant .

 Vaccination in the air of growing on any internode of the shoot, below which the length of the internode is not less than two heights of grafting sections, provides a better, more productive and durable plant.

 Vaccination on ripened cuttings according to the proposed method in combination with a prototype can reduce damage in growing environments (stratification, school, etc.). The difference in the length of grafted seedlings when using one method can be 5 8 cm, and in combination 3 4 cm.

 The technical and economic efficiency of the proposed method of grafting grapes in comparison with the prototype lies in the possibility of reducing damage in cultivation environments and improving the quality of the plant.

The proposed vaccination significantly reduces damage to the skeleton of the bush and fruit vines in the covering shaft in the winter and, as a result, allows to obtain a better grafted plant with good productivity and durability. When the yield level characteristic of the zones of grape cover culture, the damage according to the proposed method for 2 years of stem restoration is 25 and the prototype 50
The annual effect of the proposed vaccination may be 5 of the cost of gross output in comparison with the base case.

Claims (3)

1. The method of grafting grapes, including the preparation of grafting components by performing copulation slices, combining them into the grafting with a shift of the scion and rootstock by 180 ^o , characterized in that, in order to reduce damage in the cultivation environment and improve the quality of plants, the copulation cut on the rootstock is performed in the zone of intercalar growth of the internodes immediately above the node.  2. The method according to claim 1, characterized in that in the zone of grape cover culture, a section on the inlet is performed above the second or third node from the surface of the earth.  3. The method according to claim 1, characterized in that the rootstock cut is performed above that node below which the length of the internode is at least two grafting sections heights.

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