RU2626174C1 - Agent for pre-sowing treatment of vegetable crop seeds in protected soil conditions - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: agent for pre-sowing treatment of vegetable crop seeds in protected soil conditions contains salicylic acid, lectins and a source of magnesium. The agent additionally contains buckwheat bioflavonoids, trichoderma fungus metabolites, humic acids. The lectins are represented by soy lectins. The components are contained at the following ratio, wt %: salicylic acid 0.0001; buckwheat bioflavonoids 0.0001; soybean lectins 0.0001; magnesium sulphate MgSO₄ or magnesium chloride MgCl₂ 6H₂O 0.0001; trichoderma fungus metabolites 0.0001; humic acids 0.0001; water 99.9994.

EFFECT: increasing the disease resistance of vegetable crop seeds in protected soil conditions and increasing their yield.

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Description

The invention relates to agriculture and biotechnology, in particular to means for presowing treatment of seeds of vegetable crops, and can be used in growing vegetables in greenhouse conditions to reduce the susceptibility to diseases and pests and increase the yield of vegetable crops.

Pre-sowing treatment of seeds is carried out with substances that have a protective and stimulating effect, increase immunity, help increase plant growth activity, protect them from diseases and pests, and ultimately increase productivity.

A wide range of growth substances and plant protection products against weeds, pests and diseases is known. A significant part of these drugs belongs to the category of chemical compounds that pollute the environment and pose a danger to human and animal health. At the same time, environmental requirements lead to the need to create drugs that belong to the category of biological products, the use of which in small doses would be effective.

Known presowing seed treatment drug NARCISS BP, which is chitosan (50%), succinic acid (30%), glutamic acid (80%), which can be considered as a biological product (Handbook of pesticides and agrochemicals approved for use in the Russian Federation for 2004. Agrorus Publishing House, Agro 48 LLC, Lipetsk, p. 318) [1]. The consumption rate of 1 l / t is recommended for use on rice, wheat, barley, sunflower, cucumbers.

Salicylic acid is also known as a means of increasing disease resistance, which induces the resistance of plants, such as tobacco and cucumber, to fungal and bacterial diseases (Tarchevsky I.Α., Maksyutova N.N., Yakovleva V.G. Effect of salicylic acid on protein synthesis in pea seedlings // Fiziol. Rast., 1996, v. 43, No. 5. S. 667-670 [2].

The closest technical solution to the claimed is a tool for presowing treatment of pea seeds. The tool contains salicylic acid, bean lectins and a source of magnesium (RF patent No. 2372763) [3].

The disadvantage of the above drugs is that their effect does not apply to vegetable crops protected ground.

The objective of the invention is to increase the disease resistance of seeds of vegetable crops and increase their productivity.

The problem is solved due to the fact that buckwheat bioflavonoids, Trichoderma fungal metabolites, humic acids are additionally introduced into a known product containing salicylic acid, lectins, a magnesium source according to the invention, and soy lectins are used as lectins in the following ratio of components, wt. %:

Salicylic acid 0.0001 Buckwheat bioflavonoids 0.0001 Soya lectins 0.0001 Magnesium Sulphate MgSO ₄ or magnesium chloride MgCl ₂ ⋅⋅ 6H ₂ O 0.0001 Trichoderma mushroom metabolites 0.0001 Humic acids 0.0001 Water 99,9994

Buckwheat bioflavonoids are regulators of the transport of auxins - plant hormones that control the growth and development of plants.

The antibacterial and antifungal properties of bioflavonoids protect plants from pathogens of various infectious diseases.

Buckwheat bioflavonoids protect plants from stressful environmental influences, resulting in the formation of free radicals that disrupt the vital processes of cells.

Soya lectins are involved in the regulation of the activity of a number of enzymes, including those that determine the operation of ion pumps, in the formation, maintenance, or use of reserve nutrients; interaction with polysaccharides and glycolipids during the synthesis and transport of the latter.

An important role of magnesium for a plant is that it is part of chlorophyll, a substance that determines the green color of a plant. Chlorophyll is vital for plants because it is responsible for absorbing the energy of the sun and converting it into the chemical energy needed for life.

Trichoderma mushroom metabolites: growth factors (auxins, cytokines and ethylene), organic acids, intracellular amino acids, vitamins and over 100 antibiotics. Phytohormones Trichoderma (cytokinins), which are responsible for stimulating the physiological processes of plants, enter the plant body and lead to its more active development. One of the possible mechanisms that attract particular attention is the resistance of the biocontrol agent to stress due to the improvement of the root system and increased plant viability. Drying tolerance and increased assimilation of nitrogen are examples of this mechanism. Improving the condition of the root system thanks to Trichoderma may lead to resistance to pathogens that are not directly controlled.

The technology for producing metabolites of the fungus Trichoderma

To isolate metabolites of the Trichoderma fungus, the selected pathogen from the soil was propagated on solid nutrient medium for seven days.

Then, the grown mycelium of the Tricoderma fungus was collected with a sterile bacteriological loop and extraction was carried out in a 1: 2 ratio with diethyl ether during the day. Then 8 thousand revolutions were centrifuged for 10 min. The ether was evaporated at 20 ° C until dry precipitate.

The precipitate was dissolved in water and centrifuged for 8 thousand revolutions for 10 minutes. The separated supernatant containing Trichoderma fungal metabolites was used for the experiment. Yield 5%.

Under the influence of humic acids, plants are more likely to ripen, their embryonic reproductive organs differentiate and form faster, humic acids and other stimulants affect biochemical processes in plants and, in particular, the synthesis of sugars, chlorophyll, protein, and especially oxidative processes.

Humic Acid Technology

The biohumus powder is poured with a solution ten times by weight containing 100 g / l 53% nitric and 420 g / l electrolyte (33% sulfuric acid). The temperature is kept at 70-90 ° C for an hour and the contents are shaken regularly. To reduce evaporation, extraction is carried out in a flask under reflux. Hot acids oxidize vermicompost, which allows to increase the level of extraction of acids almost twice. Filtered. The remaining humine is thrown away or used for its intended purpose. And the solution is neutralized with potassium hydroxide until a pH of 5.2 is reached.

The mechanism of action of the proposed tool is that it causes the expression of genes responsible for immunity and activates the enzymes and reactions necessary for the synthesis of chlorophyll and the light reaction of photosynthesis.

The essence of using the proposed tool is that the seeds were processed before germination for two hours.

Indications were taken during the growing season and fruit formation.

Control options:

1 - option without processing, i.e. soaking seeds for 2 hours in water.

2 - variant with processing by a known agent, that is, soaking for 2 hours (for peppers - “Epin-Extra”, for cucumbers - “Trichoderma viride”, for tomatoes - “Epin”, for parsley, dill and onion “ Epin ").

Experimental options (soaking for 2 hours):

seeds treated with the proposed tool.

Tests of the proposed tool were carried out on the seeds of peppers of the sort “California Miracle”, cucumbers of the varieties “Courage”, “Zozulya”, “Chinese”, tomatoes of the cultivar “Smoothie”, parsley “Sugar ripening”, dill “Gribovsky” and onion “Golden”.

Example 1

In the beginning of fruiting phase, the disease of plants with soft bacterial rot was not observed. But at the beginning of the fruit ripening phase, the disease was noted only in the control variant without treatment and amounted to 5.4%. In the phase of biological ripeness in the variant with the treatment by the proposed agent, the disease was minimally affected and amounted to 1.7%. Moreover, the development of the disease in the control variant without treatment amounted to 7.4%.

Thus, it was found that the proposed tool reduces the incidence of pepper fruits by 4.3 times in comparison with the control without treatment.

Example 2

In the phase of the beginning of fruit formation, damage to plants by a spider mite was not observed. The defeat was noted in the control variant without treatment in the fruit ripening phase and amounted to 2.8%, in the phase of biological ripeness in the variant with the Epin-Extra treatment, the spread of spider mites was 2.9%, 6.8% in the control variant without treatment . In the variant with the treatment of the proposed agent, the pest was not noticed, which indicates high protective properties.

Thus, a 100% decrease in infection with a spider mite of pepper is shown under the influence of the proposed remedy.

Example 3

Presowing seed treatment of pepper seeds of the variety "California Miracle" with the proposed tool increases the yield of plants to 56.4 t / ha, while in the control version using the preparation "Epin-Extra" the yield is 50.8 t / ha, and in the control version without treatment 46.8 t / ha.

Thus, the use of the proposed tool provides an increase in the yield of pepper.

Example 4

When treating tomato seeds with the proposed tool during the growing season and fruit formation, no plants affected by the disease were found, while in the case of processing with the industrial remedy "Epin" 1% of the diseases of plants were revealed, and in the control variant 5, 7%. A complete reduction in the incidence of plants during pre-sowing treatment with the proposed tool contributed to an increase in yield up to 3.9 kg / m ² , in the embodiment using the industrial tool "Epin" - 3.0 kg / m ² , and in the control version without treatment, the yield was 2.1 kg / m ² .

Thus, when growing tomatoes, pre-sowing treatment with the proposed tool contributed to the absence of affected plants and increased yield.

Example 5

In the control variant, without treatment, the Kurag variety had 10% of the plants affected by the disease, the Zozulya variety 30%, and the Chinese variety 15%. In the case of the control variant, the seed treatment with the industrial agent “Trichoderma viride” the percentage of diseased plants is reduced by 10-20 times and corresponds to: “Courage” - 1%, “Zozulya” - 1.5%, “Chinese” - 1%. Seed treatment with the proposed tool showed a complete absence of plants affected by the disease.

The absence of diseased plants during treatment with the proposed agent made it possible in this version to obtain the maximum yield for all varieties, so for the Variety Kurazh - 9.1 kg / m ² , Zozulya - 8.7 kg / m ² , “Chinese” - 8.3 kg / m ² . The yield is slightly lower in the case of seed treatment with the industrial product Trichoderma viride and is: “Courage” - 5.8 kg / m ² , “Zozulya” - 5.9 kg / m ² , “Chinese” - 5.1 kg / m ² . The lowest yield results in the control version without treatment “Courage” - 4.9 kg / m ² , “Zozulya” - 3.9 kg / m ² , “Chinese” - 3.1 kg / m ² .

Thus, the use of the proposed product for presowing seed treatment of cucumbers showed a complete absence of diseased plants and an increase in yield in all varieties.

Example 6

The study of growth indicators during the cultivation of green onions in a protected ground on the variety "Golden" was measured on day 14 (initial measurements) and on day 25 (final measurements). So, in the control version without treatment, the length of the seedlings varies from 10.5 cm to 38 cm using the industrial tool "Epin" the length of the seedlings changes from 11.5 cm to 40 cm. When using the proposed tool, the length of the seedlings changes from 12.3 cm to 47 cm

The length of the seedlings increased on average from 38 to 47 cm, and for samples using the proposed product, the length increase was 1.5% longer in comparison with the Epin preparation.

The average weight of seedlings at the end of the period ranged from 15.97 cm to 19.52 cm, the proposed tool showed the best result.

The mass of plants on the plot is of greater importance in the embodiment using the proposed tool 447.4,

Presowing treatment of onion seeds with the proposed tool increases germination to 96%, despite the fact that with the preparation "Epin" germination is 80%.

The germination energy differs slightly between the variants.

Analysis of the nitrate content at the end of the growing period showed that MPC exceeded for all options is not observed.

Thus, an increase in growth indicators of onion mass, germination and increase in productivity under the influence of the proposed tool is shown.

Example 7

When parsley was cultivated in a protected ground, growth indicators were recorded at the initial development period (10 days) and the end of the period (35 days). The experiment was carried out on a variety of parsley "Sugar precocious." At the beginning of development, the length of the seedlings was 1.6 cm in the control variant “Epin”, 1.4 in the control version without treatment and in the variant with the proposed agent 2.0 cm. At the end of the development period, the length of the seedlings in the control version without treatment was 14 cm , in the control version with the industrial tool "Epin" 16 cm, in the embodiment with the proposed tool 28 cm

Due to the fact that the length of the seedlings in the variants of the proposed product is higher, in the same variant we note a higher mass of one plant (4.13 g) and a mass of plants on the plot (341.5 g), however, in the variant with "Epin" the average weight of plants is noted 4.14 g and plot weight 243.4 g.

It was found that the use of the proposed tool increases the germination of parsley seeds by 3-4%.

The germination energy in the studied variants varies within the experimental error.

Excess nitrate content at the end of the growing period was not found.

Thus, the proposed tool comprehensively affects the growth processes during the cultivation of dill and increases productivity.

Example 8

In the course of the experiment, when cultivating dill of the Gribovsky variety, studies were carried out at the beginning of the experiment (10th day) and the end of the experiment (40th day). In the study of growth indicators, the greatest values of the length of seedlings at the initial stage were revealed in the variant using the proposed product 4.4 cm. In other cases, the length is 2.0 cm (control "Epin") and in the version without processing 1.4 cm.

The average weight of the plant ranged from 1.7 g to 2.4 g. The smallest weight of the samples in the control version without treatment was 1.7 g. In the control version with "Epin" - 2.7 g, and using the proposed tool - 2 9 g

Using the proposed tool increases the germination of dill seeds by 6-10%, and the germination energy in the studied variants does not change significantly.

The excess of MPC for nitrates for all research options was not detected.

Thus, an increase in growth indicators of the mass of dill, germination and increase in yield under the influence of the proposed tool is shown.

As a result of the experiment using the proposed tool, created on the basis of biologically active substances isolated from biological objects, it was found that the proposed tool showed good results in comparison with the control options for the following indicators: length of seedlings, weight of seedlings, crop yields, and germination in variants with the proposed tool is approximately 10% higher than the control.

Thus, studies on the formation of the structure of the crop showed that the proposed product is the most effective.

The advantages of this tool are due to the ability to induce disease resistance of plants of vegetable crops due to the components of the signaling system of resistance.

Thus, the use of the proposed tool will increase disease resistance, reduce the pest infestation of vegetable crops during the growing season and increase their productivity.

Claims (2)

Means for presowing treatment of vegetable seeds in a protected ground, containing salicylic acid, lectins, a magnesium source, characterized in that it additionally contains buckwheat bioflavonoids, Trichoderma metabolites, humic acids, and soy lectins as lectins in the following ratio of components, wt. %: Salicylic acid  0.0001 Buckwheat bioflavonoids  0.0001 Soya lectins  0.0001 Magnesium Sulphate MgSO ₄ or magnesium chloride MgCl ₂ ..6H ₂ O  0.0001 Trichoderma mushroom metabolites  0.0001 Humic acids  0.0001 Water  99,9994