RU2555031C2 - Method for producing grape seedlings - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture, in particular to viticulture. The method comprises connection of the rootstock with the scion, waxing of grafting, stratification on glauconite, planting in nursery-garden, and treatment of vegetative plants with fertilizers. At that stratification is carried out in two stages: first non-waxed graftings are immersed horizontally into a callusing room for 48 hours in a nutrient medium containing the biologically active substance as Albite 0.4% at a solution temperature of 25-28°C. Then final stratification is carried out for up to 15 days in the room with the installation of grafting vertically on glauconite. After waxing and hardening they are planted in nursery-garden where treated with a solution of Albit 0.2% twice a month during the growing season.

EFFECT: method enables to increase the yield and quality of planting material, resistance to pests and diseases.

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Description

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

A known method of preparing rootstock grape cuttings for grafting, including soaking the rootstock in a solution of trace elements of zinc and manganese with the addition of succinic acid. According to this method, rootstock cuttings are immersed in a solution of zinc sulfate and manganese at a concentration of 0.03% with the addition of succinic acid at a concentration of 0.002% (Malykh G.P., Magamadov A.S. Viticulture of the Chechen Republic, Novocherkassk, 2011, pp. 63-69 )

The disadvantage of this method is the low efficiency due to the formation of a very loose callus in which vascular bundles develop weakly, and therefore the fusion of the stock with the scion is not always of high quality.

A known method of entrepreneurial preparation of rootstock grape cuttings, according to which the tops of rootstock cuttings are soaked in a heteroauxin solution at a concentration of 0.05% for 22 hours. However, with this method, a single technological chain is violated, according to which the cuttings after soaking in water must be additionally soaked in a heteroauxin solution. When updating the section of the top of the rootstock, part of the tissues saturated with heteroauxin is removed and the processing efficiency decreases. Hetero-auxin is a growth promoter and a small error in concentration, which is often observed under production conditions, causes a decrease in the yield of seedlings (Maltabar L.M. Production of grafted grape seedlings in Moldova, Chisinau, “Cartya Moldovanesque”, 1971, p.137-138).

A known method of protecting plants from diseases and regulating their growth according to the Slavic technology, including treating plants with humic compounds and multicomponent growth regulators based on them, in which, immediately before application to plants, their organs and seeds, a protective-stimulating substance is introduced into the working fluid along with humic compounds a complex in a ratio of 1: 1-1: 2, respectively, which includes ammophos, copper sulfate, urea, ammonia or sodium carbonate, with the introduction of other substances into the complex, when fungicidal, and the use of different combinations of components depending on the types of crops and the timing of plant development, while the working fluid can be applied starting from seed dressing, vegetative plants are treated at their height from 0.001 meters to flowering and later (patent RU No. 2177226 )

The disadvantages of the composition include the fact that when creating and using multifunctional preparative forms, their effectiveness is determined by the correct selection of the ratio of components, which is determined either by the quality of the seeds (for pre-sowing seed treatment) or the diagnosis of mineral nutrition of plants (for vegetative treatment of plants). A deterrent to the widespread use of this method is the inaccessibility of certain formulations to obtain a composition.

Known compositions for protecting plants from pathogens by pre-sowing treatment of seeds and planting material, treatment of vegetative plants or soil composition based on aqueous solutions of chitosan containing various organic acids and biological active substances. For the treatment of barley seeds, the following composition is used, wt.%: Chitosan - 0.3; succinic acid - 0.2; glutamic acid - 0.06; heteroauxin - 0.006; salicylic acid - 0.06; catapol - 0.3; water - up to 100 (patent RU No. 2158510).

The disadvantages of the proposed composition should include an assessment of only the biological effectiveness of the claimed composition against root rot, helminthosporious leaf spot, rhinchosporiasis and septoria and the lack of data against pathogens causing diseases in the production of planting grapes.

Recently, biological preparations of complex action have been created, combining both fungicidal and stimulating signs. Albite contains the purified active ingredient poly-beta-hydroxybutyric acid from soil bacteria Bacillus megaterium and Pseudomonas aureofacins. In natural conditions, these bacteria live on the roots of plants, stimulate their growth, protect against diseases and adverse environmental conditions. The composition of the drug also includes substances that enhance the effect of the main active substance; balanced starter set of macro- and microelements (N, P, K, M, S, Fe, Mn, Mo, Cu, Co, B, I, Se, Na, Ni, Zn) and terpene acids of coniferous extract. Albite does not contain living microorganisms (but only the active substances from them), which makes the action of the drug more stable, less exposed to environmental conditions. Albit is characterized by low cost and environmental friendliness of biological products, while at the same time, in terms of efficiency and stability, it approaches chemical ones. Unlike biological products containing living microorganisms, the effect of albite is stable, less affected by environmental conditions. Albit stably increases by 12-23% the yield of cereals, sugar beets, sunflowers, potatoes, flax, vegetables, legumes, fruit crops, and forage grasses (V.T. Alekhin, A.K. Zlotnikov, Biological product Albit: results and application features. Agriculture, 2006. - No. 3, p. 38-40). However, albite was not tested in the nursery for growing grafted seedlings of grapes.

The closest to the means for presowing treatment of seeds of agricultural crops is a preparation on a live carrier, presented in a method for presowing treatment of seeds of cereals, cereals and oilseeds, including the treatment of seed with a solution of natural mineral bischofite, in which the seeds are treated with a bischofite solution with a concentration of 15- 100 wt.% Of the initial brine and a flow rate of 10-15 l / t of seeds, taking into account the type of seeds, their germination, germination energy and density of the bischofite brine. Moreover, the bischofite brine used for seed treatment is activated with a magnetic field with a power of 200-450 Oe (patent RU No. 2224399).

The disadvantages of the described method in relation to the problem we are solving include the fact that inducing a magnetic field on grape cuttings is inefficient and requires special expensive equipment.

The problem to which the invention is directed, is to increase the efficiency of pre-planting treatment of vaccinations of a wide range of crops using a common and affordable drug, as well as expanding the range of growth-promoting agents for crops due to better compatibility and synergy of biorational products.

The technical result of the application of the proposed method is to increase the yield and quality of planting material, as well as resistance to harmful organisms and diseases while reducing cost.

The specified technical result is achieved by the fact that the method of obtaining grafted grape seedlings involves combining the stock with grafting, waxing vaccinations, stratification on green earth, planting in a school, processing vegetative plants with fertilizers. In this case, stratification is carried out in two stages: first, non-paraffinized vaccinations are immersed horizontally in the stratification chamber for 48 hours in a nutrient medium containing Albit 0.4% as a biologically active substance at a solution temperature of 25-28 ° C, and then, in a chamber with installation the vaccine is vertical to glaucanite for up to 15 days, and after waxing and quenching, they are planted in a school where, twice a month during the growing season of plants, they are treated with 0.2% albite solution.

The novelty of the proposed proposal lies in the fact that the proposed method creates conditions for saturation of nutrients with grafts in a stratification chamber at a temperature of 25-28 ° C for 48 hours with a 0.4% albite solution. At the same time, not only is the saturation of the vaccines with nutrients achieved, but also the containment of the germination of the vaccine eyes in the chamber due to their processing at the indicated concentration is controlled. With the existing technology, green shoots or leaded shoots develop during stratification on the scion, which consume a significant amount of nutrients and which burn with hot paraffin at a temperature of 80-85 ° C, which negatively affects the output of seedlings from the school. To delay the development of shoots from the kidneys of the eyes and saturate with nutrients immediately after the vaccination is made, immerse in a 0.4% albite solution, which inhibits the development of eyes in the chamber. After the end of stratification, vaccinations are paraffinized, while according to the proposed method, burns of green growth are minimized if it is formed on some vaccinations. Based on the experiments, the optimum albite concentrations were selected to saturate the vaccinations and to control the opening of eyes in the stratification chamber, which allows creating conditions for the optimal development of vaccinations in the school.

This technical solution is a consequence of our own original experiments and cannot be derived from the existing level of technology, therefore, the developed method for producing grape seedlings meets the criterion of "inventive step".

The effectiveness of the proposed method is proven on the rootstock grade Kober 5BB and the grafted variety Rapture. Rootstock is cut into cuttings of standard length, sorted, blinded eyes, tied in bundles of 100 pieces, inoculated, non-waxed grafts are immersed for the entire length horizontally for 48 hours in a 0.4% albite solution at a solution temperature of 25-28 ° C. The control variant was vaccinations treated with paraffin before stratification and grown according to generally accepted technology with mold treatment with a 0.2% quinosol solution in the chamber.

According to the first option, widely used in production, after vaccinations are made, they are waxed, set to stratification, and as mold develops, they are treated with 0.2% quinosol solution to protect it from mildew and open eyes 3-4 times over the period of stratification.

According to the second option, grafted cuttings are not waxed, but immediately horizontally immersed in a solution of 0.4% albite for 48 hours, then removed from the solution and stratified in a chamber on glaucanite. The impact of vaccination treatment methods on the growth and development of seedlings is presented in Table. No. 1.

Table number 1 n / a Processing option Average increase, cm Shoot diameter, cm The average maturation of the shoot, cm The area of the sheet on top., Cm ² one. Control - conventional stratification technology, paraffin treatment in a chamber with 0.2% mold quinosol from mold 120 0.62 73 1707.78 2. Stratification of grafted grafts in two stages: first grafted grafts in a stratification chamber are immersed horizontally in 0.5% albite for 48 hours, then mounted vertically on glauconite until the end of stratification and grown according to generally accepted technology 163 0.71 82 2228.35 3. Stratification in two stages: first, grafted cuttings in the stratification chamber are immersed horizontally in 0.4% albite for 48 hours, and then placed vertically on glauconite until the end of stratification and grown according to the general technology 173.4 0.75 84.3 2370.41

four. Stratification in two stages: first, grafted cuttings in the stratification chamber immerse horizontally 0.13% albite solution for 48 hours, and then set vertically on glauconite until the end of stratification. After planting vaccinations in the school, foliar top dressing with albite is carried out in the school with a solution of 0.2% concentration, during the growing season 189 0.81 one hundred 2776.20

When the vaccines were saturated in the stratification chamber with a 0.4% albite solution in variants 3 and 4, faster circular callus formation was observed, which stimulated a good development of the conductive system in the intercomponent callus, improved root formation, and led to an increase in the yield of first-class vaccinations.

The effect of vaccine treatment methods on seedlings yield is presented in Table. No. 2.

Table number 2 n / a Processing option Number of vaccinations 1 grade Vaccination rate in school,% The output of standard seedlings,% one. Control: conventional stratification technology, paraffin treatment in a chamber with 0.2% mold quinosol from mold 42 39.5 31.1 2. Stratification of grafted grafts in two stages: at the beginning, grafted grafts in the stratification chamber are immersed horizontally in 0.5% albite for 48 hours, then grafted 45 41.3 33.3

cuttings are mounted vertically on glauconite until the end of stratification and seedlings are grown according to conventional technology 3. Stratification of grafted grafts in two stages: first, grafted grafts in the stratification chamber are immersed horizontally in 0.4% albite for 48 hours, and then grafted grafts are set vertically on glauconite until the end of stratification 47.3 41.6 35,2 four. Stratification of grafted seedlings in two stages: at the beginning, grafted cuttings in the stratification chamber are immersed horizontally 0.2% albite solution for 48 hours, and then grafted cuttings are placed vertically on glauconite until the end of stratification. After planting vaccinations in the school, foliar top dressing with albite is carried out in the school with a solution of 0.2% concentration during the growing season 89.3 67.0 65.5

In Tab. No. 2 shows the yield of first-class vaccinations after stratification: in option 3, it is 5.3% higher than in the control, where vaccinations were treated three times with 0.2% quinosol solution. The use of albite to enhance the fusion of vaccines eliminates the consumption of chemical fungicides during the stratification period. Unlike chemical fungicides, albite does not have a toxic effect, but protects the plant from diseases by increasing the natural resistance (immunity) of plants. Due to the intensification of physiological and biochemical processes, albite can increase the survival rate of vaccinations in the school and accelerate their growth and development. When the vaccines were treated in the school with a 0.2% albite solution twice a month during the growing season, the shoots showed the most intensive growth - 173.4 cm, the shoots were thicker compared to other options, the average shoot maturation was 84.3 cm, and the maximum seedling leaf surface area - 2370 cm ^2.

When using other concentrations, the quality of the seedlings was significantly lower. The yield of standard seedlings was 35.2%, which is 4.1% higher than in control option 1 and 1.9% than in option 2.

In option 4, foliar seedlings were fed with albite of 0.2% concentration in the school twice a month in the morning during the growing season. The best results on the development of seedlings were observed in option 4, when processing with a 0.4% albite solution in the chamber in combination with spraying in a school with a 0.2% albite solution. After the first spraying in the school of seedlings with albite, the growth of shoots in thickness and length sharply increased. The analysis noted an increased content of trace elements in shoots, leaves and roots. At the same time, the growth of shoots during the growing season intensified both in the apical and in the lateral meristem, the maturation of seedlings improved, and their quality improved. The indices for foliar top dressing of seedlings in the school with albite of 0.2% concentration turned out to be the best in comparison with the control variant: the average shoot growth exceeded 69 cm, the leaf surface area by 1068.4 cm ² . The highest yield of seedlings from the school - 65.5% was obtained in option 4 with foliar fertilizing with complex fertilizer albite 0.2% concentration, and according to generally accepted technology the yield of seedlings was only 31.1%.

The economic efficiency of the use of albite in the cultivation of grafted seedlings is given in Table. No. 3, which shows that the full cycle of the drug: pre-stratification and six treatments during the growing season requires an average of 100 ml of albite per hectare, which corresponds to 810 rubles / ha, based on the price of 2200 rubles.

Table number 3 n / a Processing option Exit first-class seedlings from the school. % The cost of drugs for processing the full cycle of growing seedlings, rubles The cost of additional seedlings received, million rubles Profit from the use of the drug, million rubles one. Control - a common stratification technology with processing of 0.2% quinosol solution in the chamber 31.1 320 2. Vaccination treatment 04% r-rom albite in the chamber and vegetative treatments in the school 0.2% r-rom albite during the growing season 65.5 810 6.4 6.0

According to the long-term average data, the increase in the yield of seedlings using albite is 34.2%, or when planting 500 thousand units per hectare in a school, more than 160 thousand seedlings. At a purchase price of 40 rubles per seedling, the cost of the increase will be 6.4 million rubles. Less the cost of the drug for the full treatment cycle: stratification and 6 vegetative treatments - 810 rubles, as well as the costs of digging, sorting, transporting, storing additional seedlings for storage, net profit will be 6 million rubles.

Claims (1)

A method for producing grafted grape seedlings, including joining a stock to a graft, waxing vaccinations, stratification on glauconite, planting in a school, processing vegetative plants with fertilizers, characterized in that the stratification is carried out in two stages: first, non-waxed vaccinations are immersed horizontally in a stratification chamber for 48 hours in a nutrient medium containing 0.4% Albit as a biologically active substance at a solution temperature of 25-28 ° C, and then add up to 15 days in a chamber with nd vaccination vertically glauconite, and after hardening of waxing and planted in shkolku where the treatment solution Albit 0.2% twice a month during the growing season.