RU2146440C1 - Grape graft obtaining method - Google Patents

Abstract

FIELD: agriculture, in particular, viticulture. SUBSTANCE: method involves connecting graft with rootstock; stratifying and hardening grafts by means of glauconitic sand used as substrate and containing 40-50% of glauconitic grains. Method allows glauconitic sand to be repeatedly used without additional processing. EFFECT: increased yield of grafted grape seedlings and simplified method. 3 tbl

Description

 The present invention relates to agriculture, in particular viticulture.

 A known method of producing grafted grape seedlings (a.s. 1498432, class A 01 G 17/02), including the periodic supply of water to the basal part of the grafts during their stratification and hardening.

 The disadvantage of this method is the reduction of the rhizogenic activity of the basal part of the rootstock cuttings, the intensive growth of scion cuttings shoots, most of which die as a result of damage by gray rot. The length of the period of stratification and hardening of vaccinations leads to significant losses of carbohydrates, the heel of the stock and the development of roots on the root are dead.

A known method of obtaining grafts inoculations (a.s. 1588325, A 01 G 17/02) is a prototype comprising combining a scion with a stock, their subsequent stratification on a mineral substrate. In this method, perlite with a granule size of 4-6 mm is used as a substrate, which is saturated with water at 20 ± 2 ^° C for 10-20 minutes before laying.

 The disadvantage of this method is the complexity of performing sequential stacking of grafted cuttings in rows in stratification boxes, alternating with layers of perlite 1.5 - 2.0 cm thick, as well as the complexity of sorting. When using perlite, there is a strong overgrowth of the roots of the rootstock cuttings, which leads to a decrease in the survival rate of grafts and, ultimately, to a decrease in the yield of grafted seedlings. Perlite is an expensive substrate, requiring large material costs for its manufacture.

 The aim of the invention is to increase the yield of grafted grape seedlings.

 This goal is achieved by the fact that in the method of grafting grapes, including combining scion with rootstock, their subsequent stratification on a mineral substrate, the grafts are hardened, glauconite sand with a content of glauconite grains in the amount of 40-50% is used as a substrate for stratification and hardening.

 New in the proposed method is the use of glauconite sand as a substrate for stratification and hardening of grafts.

 Glauconite sand is an environmentally friendly, cheap and affordable natural material that can replace expensive readily soluble phosphorus-potash and other fertilizers.

 Glauconite sand has high adsorption, ion exchange, catalytic and filtering properties. Using it as a substrate for stratification and hardening significantly reduces the level of damage to the eyes of the scion with gray rot as a result of inhibition of pathogenic microflora (Botrytis cinerea). Especially valuable is that there is no toxicity and inhibition of the development of the basal part of the rootstock cuttings.

 The content of glauconite grains in the amount of 40-50% in the total mass of sand is significant, which positively affects the survival rate and the yield of grafted seedlings from the school.

 This method is as follows. For grafting, well-ripened grafts of graft and rootstock are selected, having a diameter in the upper part of 7 to 12 mm. The entrepreneurial preparation of grafts and grafts cuttings consists in cutting, dipping, blinding the eyes of the stock, pre-grafting stratification of stock grafts according to the method of Small GP Vaccinations are performed on an omega-shaped machine.

Stratification of pre-waxed and skeletonized vaccinations is carried out on a 4 - 5 cm layer of glauconite sand with a content of glauconite grains of 40 - 50% with a pore diameter of 3 - 5 nm in stratification chambers on racks covered with a plastic film. The stratification process lasts 12 to 14 days at an air temperature of 28 - 30 ^o C. The humidity of the substrate is maintained within 70 - 80% by periodic wetting with water.

Then, for the acclimatization of plants and the further course of physiological and biochemical processes occurring in the components of vaccinations, they are quenched. Quenching is carried out in bright unheated rooms on a 4 - 5 cm layer of glauconite sand with a content of glauconite grains of 40 - 50% with a pore diameter of 3 - 5 nm at an air temperature of 10 - 14 ^o C, for 12 - 15 days. The humidity of the substrate is 100%.

 Inoculations stratified on water, rhizogenic activity is weakened. By the end of stratification, most vaccinations do not form at the basal end of the root stock of root tubercles, which negatively affects survival in the school. When using water as a substrate for stratification, the tissue of the basal part of the stock is deadened as a result of leaching of nutrients. The overwhelming majority of stratified grafted cuttings die mainly during the first month after landing in the school. One of the causes of death is the lack of optimal nutritional conditions.

 When using perlite for stratification, the percentage of grafts with roots increases significantly, but their growth is strong, the root system is loose and breaks off when planting.

 When using glauconite sand, the process of root formation is optimized, which leads to a high rooting percentage, an accelerated rate of root system formation, and its powerful development. Vaccinations that have undergone stratification or hardening on glauconite provide a high survival rate and aligned development in the school.

 It is established that when the content in glauconite sand is 40-50% of glauconite grains, the most favorable conditions are created for the coalescence of the components of grafting, the growth and development of seedlings.

 Glauconite contains a large amount of phosphorus and potassium in an easily accessible form for the plant, which play an important role in the initial stage of fusion of the grafted components and the formation of the conductive system. The activation of these processes during the period of stratification and hardening is an important point in the production of grafted grape seedlings that significantly increase the quality of intergrowth of grafted components. The presence of phosphorus promotes the development of conductive tissues, potassium increases the number of conductive bundles and increases the content of carbohydrates in the shoots. The result of using glauconite sand for both stratification and quenching is a dense callus, in the callus there are vascular-fibrous bundles between the stock and scion, intensely green shoots.

 Glauconite sand, being a natural adsorbent, does not cause the accumulation of toxicants, as a result of life processes during the period of stratification, quenching, there is no increase in the number of pathogens, and the infection background is reduced.

 The nutrients in this mineral raw material are not subjected to intensive leaching, since glauconite is a long-acting mineral fertilizer.

 In this regard, it is possible to repeatedly use (without additional treatments) glauconite sand as a substrate for stratification and hardening in the production of grafted grape seedlings.

Claims (1)

 A method of obtaining grafts inoculations, including combining scion with stock, their subsequent stratification on a mineral substrate, characterized in that the vaccinations are hardened, and glauconite sand with a content of glauconite grains in an amount of 40-50% is used as a substrate for stratification and hardening.

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