RU2535939C2 - Inducer of sunflower resistance to bacterial diseases and method for its use - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: inducer of the sunflower resistance to bacterial diseases is used as a mixture of amino acids of methionine, lysine and phenylalanine at a ratio of (1-5):(1-5):(0.5-2.5). For processing with the mixture of amino acids of methionine, lysine and phenylalanine at a ratio of (1-5):(1-5):(0.5-2.5), the inducer of the sunflower resistance to bacterial diseases, the single presowing treatment of seeds is carried out with an aqueous solution of the agent at a rate of 2-10 g of the mixture per 1 ton of the seeds in advance and followed by the single treatment of vegetative plants in the phase of 3-4 pairs of true leaves with an aqueous solution of the mixture based on 2-10 g per 1 ha of crops.

EFFECT: reducing the infection of seeds and vegetating plants by neutralising the negative impact of pathogens of bacterial diseases, accelerating growth and partially regenerating the tissue of the plant organism, inducing immunity of the plants to bacterial diseases, obtaining an environmentally friendly sunflower harvest without losses from diseases.

2 cl, 2 tbl, 4 ex

Description

The invention relates to the field of agriculture, namely to protect sunflower crops from bacterial pathogens.

Stable obtaining of high and high-quality sunflower crop is the main and main task in crop production.

Bacteria of the genus Pseudomonas syringae, parasitizing on a plant, disrupt protein biosynthesis in plant cells, which leads to a weakening of the plant organism and its further disease with bacteriosis and partial necrosis. The harmfulness of bacteriosis consists in the partial death of seedlings (i.e., thinning of crops), the manifestation of drying out of baskets, starting from the middle, and they ripen prematurely before the stem, which leads to the formation of full seeds only from the edge, and closer to the center they are lightweight.

Infection of sunflower with a bacterial infection causes enormous damage in crop production, this is reflected in a decrease in the yield by more than 50%, while its quality is also reduced (http://zerno-ua.com).

In determining the prior art used publicly available information provided in all known sources of information.

Currently, to protect sunflower plants from bacterial rot (http://zerno-ua.com) seed treatment with bactericides is carried out: in Russia - TMTD (manufacturer "August", Russia) (List of pesticides and agrochemicals allowed for use on the territory The Russian Federation, 2011), in Ukraine - Royalflof (manufacturer of Unified Chemical Regions Limited, United Kingdom). These preparations have the active substance tiram (consumption rate - 2-3 l / t, with a flow rate of 10 l / t of working fluid). They are recommended for use in tank mixtures with other fungicides and surfactants. Seed dressing is carried out 2-15 days before sowing to reduce the degree of infection of seed material and plants with root rot.

The disadvantage of this tool is its high toxicity and its narrow function is to protect sunflower plants from bacterial rot.

A means for presowing seed treatment of predominantly sunflower seeds (RU, patent No. 2449525) is known, which is a tank mixture of biorational products, the dominant part of which is thiram-containing preparations, in particular TMTD (tetra-methyl-thiram-disulfide) (4000 g / t). Seed treatment is carried out in advance of sowing at the rate of 10 liters of the composite mixture per ton of seeds.

The disadvantages of this tool are the high toxicity of tiram, and its use is unsafe for human health and the environment; the manifestation of bactericidal properties only on the seeds, as well as the multicomponent composition.

Known means for treating seeds of agricultural crops (RU, patent No. 2370956), which is two separate aqueous compositions containing a composition of macro- and microelements, in one of which carbohydrates and amino acids alanine and / or serine are used. Mixing formulations is carried out immediately before use.

The main disadvantage of this tool is a narrow action as a plant growth regulator. Another disadvantage is the unstable form of the product, because its use is carried out immediately after mixing aqueous formulations due to the danger of the precipitation of trace elements and the formation of complexes that are not absorbed by plants.

These tools and methods have a narrow functionality: the manifestation of bactericidal properties only on the seeds, growth-promoting properties, and the main disadvantage is the lack of induction of plant immunity to bacterial diseases.

There is also known a method of cultivating cereal crops (RU, patent No. 2421965), including a single treatment of seeds with the active substance amino acid methionine at the rate of 4-10 g of methionine per 1 ton of seeds and carry out their sowing. In the phase of spring tillering, a single treatment of plants with the same substance is carried out at the rate of 4-10 g of methionine per 1 ha of crops.

The disadvantage of this method is to neutralize the effects of phytopathogenic bacteria of the genus Pseudomonas syringae only on the declared crops, and this tool does not ensure the resistance of sunflower plants to bacterioses.

This method is the closest in technical essence to the claimed group of inventions, and we take it as a prototype.

To date, there are no funds with high immunostimulating activity and environmental safety for the fight against bacterioses of sunflower plants.

The technical result of the proposed tool and method of its use is to reduce the infection of seeds and vegetative plants by neutralizing the negative effects of the pathogen, accelerating the growth and regeneration of plant tissue, inducing plant immunity to bacteriosis, obtaining an environmentally friendly sunflower crop without loss from disease.

The technical result is achieved by using an agent that is a mixture of the amino acids methionine, lysine and phenylalanine in the following ratio (1-5) :( 1-5) :( 0.5-2.5) as an inducer of resistance of sunflower to bacteriosis.

The technical result is also achieved by the fact that, according to the invention, the method includes a single presowing treatment of seeds with an aqueous solution of the agent according to claim 1, based on 2-10 g of the agent per 1 ton of seeds in advance and subsequent single treatment of vegetating plants in a phase of 3-4 pairs leaves with an aqueous solution of the agent according to claim 1, at the rate of 2-10 g of agent for 1 ha of crops.

A comparative analysis of the claimed group of inventions with the prototype allows us to conclude that the proposed mixture of amino acids methionine, lysine and phenylalanine, taken in the ratio (1-5) :( 1-5) :( 0.5-2.5), is used in as an inducer of resistance of sunflower to bacteriosis in the form of an aqueous solution of the agent once for presowing treatment of seed material and once on vegetating plants. Thus, the claimed technical solutions meet the patentability criterion of NOVELTY.

The tool is a mixture of amino acids in powder form. The tool is stable for 12 months. when stored in a sealed package, in a dark place with a humidity of not more than 85% and a temperature of not more than + 25 ° C. The product is soluble in water, has good penetrating ability, non-toxic, its components are absolutely safe for the environment and humans.

Preliminary single treatment of seeds with an aqueous solution of the indicated agent at the rate of 2-10 g of the agent per 1 ton of seeds before sowing will increase the germination energy and seed germination, significantly neutralize the pathogenic effects of bacteria of the genus Pseudomonas syringae in the early stages of growth, accelerate the growth of sunflower plants, and also obtain ecologically clean crop without losses from diseases. The use of an insufficient amount of the claimed product in seed treatment (less than 2 g) leads to a disruption in the biosynthesis of proteins, a slowdown in the growth and development of the plant. The use of a product containing more than 10 g will lead to an ineffective effect of the drug.

When a plant is affected by bacteriosis, it lags behind in development from healthy plants, rot develops on the root system and its death occurs, and an unpleasant specific smell is released. Necrotic patches appear on the stem and leaves. With further development, toxins affect the vascular system, which leads to its complete death and death of the plant. A single treatment of vegetating plants in the phase of 3-4 pairs of leaves with an aqueous solution of the agent at the rate of 2-10 g of the agent per 1 hectare of crops will neutralize the pathogenic effect of bacteriosis pathogens on vegetative plants, helps to accelerate the growth and partial regeneration of damaged tissues of sunflower plants, as well as normalize protein biosynthesis and induce the formation of phytohormones, in addition, gives plants resistance to stressful situations, as well as get an environmentally friendly crop without loss from disease her. The use of an insufficient amount of the claimed funds in the processing of plants (less than 2 g) leads to a slowdown in its growth and development. The use of a product containing more than 10 g will lead to an ineffective effect of the product, and in hot weather - to burns of plants.

Examining the prior art revealed that the claimed inducer of resistance of sunflower to bacteriosis and the method of its application do not explicitly follow from the existing level of technology.

In the claimed mixture, the amino acid methionine was used as a means of neutralizing the negative effect of pathogens of bacterioses, as well as a substance that normalizes protein biosynthesis and regulates plant growth and development. In addition, it significantly increases the resistance of plants to all stressful environmental factors. The amino acid lysine has an antiviral effect, maintains an energy level, participates in tissue repair, improves the absorption of calcium and its transport, enhances the effect of arginine, and regulates plant growth and development. The phenylalanine amino acid is used as an inducer of the formation of phytohormones in a plant and is included in the composition of the agent to accelerate seed germination and enhance phenolic metabolism in plants.

The authors of the present invention found that the combined use of an agent that is a mixture of the amino acids methionine, lysine and phenylalanine increases the ability to suppress pathogens of bacterioses, to obtain a long-term effect of protecting seeds and plants of sunflower from damage by pathogens of bacterioses, to accelerate the growth and regeneration of plant tissue, and to increase the induced resistance to bacteriosis to enhance the immune response. The use of the tool according to claim 1 allows you to maintain the balance of microorganisms existing in the environment and at the same time minimize the adverse effects of phytopathogenic bacteria on plants, in addition, the proposed tool is absolutely safe for the environment.

The action of the declared environmentally friendly product, as you might assume, is based on the previously unknown ability of the combination of ingredients (amino acids methionine, lysine and phenylalanine) to act as a phytoactivator of resistance to bacteria of the genus Pseudomonas syringae through an altered metabolism of the plant pathogen and plant. Only a specific combination of amino acids: α-2-amino-2-methylmercaptobutyric acid (methionine), 2,6-diaminohexanoic acid (lysine), β-phenyl-α-aminopropionic acid (phenylalanine), activates the activity of plant protection genes, which leads to the occurrence of systemic disease resistance in plant tissues.

All of the above arguments confirm the presence of a functional dependence, previously unknown "composition - properties". Thus, the claimed inductor of resistance of sunflower to bacteriosis and the method of its application ensure the achievement of the claimed technical result. This determines the conformity of the claimed solution to such a patentability condition as the INVENTIVE LEVEL.

To prove the conformity of the proposed solution to the INDUSTRIAL APPLICABILITY condition, we give examples of a specific implementation of the method.

Example 1. Preparation of an inducer of resistance of sunflower to bacterioses according to claim 1 for the treatment of sunflower seeds.

The proposed tool is obtained by mixing the claimed components in the form of powders, for example, in a ratio of 1: 1: 0.5. To process 1 ton of sunflower seeds, 0.8 g of methionine, 0.8 g of lysine and 0.4 g of phenylalanine are taken, all are mixed. Immediately before sowing, with thorough mixing, add to 10 l of water. The resulting aqueous solution is treated with seeds in advance of sowing.

In a similar way to obtain compositions with other ratios of components.

Example 2. Preparation of an inducer of resistance of sunflower to bacterioses according to claim 1 for the treatment of vegetative sunflower plants.

The proposed tool is obtained by mixing the claimed components in the form of powders, for example, in a ratio of 1: 1: 0.5. To process 1 ha of sunflower crops, 0.8 g of methionine, 0.8 g of lysine and 0.4 g of phenylalanine are taken, all are mixed. Immediately before processing vegetative plants, with thorough mixing, add to 50-300 l of water. The resulting aqueous solution is used to treat sunflower plants once per vegetative plant in a phase of 3-4 pairs of leaves.

In a similar way to obtain compositions with other ratios of components.

Example 3. Testing the inducer of resistance of sunflower to bacteriosis and the method of its use in laboratory conditions is as follows.

In advance, the seeds of the NK ROCKY hybrid sunflower are treated once with an aqueous solution of the proposed agent, while the mixture of amino acids methionine, lysine and phenylalanine is taken at a ratio of 1: 1: 0.5 with optimal values of the claimed range (2-10 g) by spraying with constant stirring . In addition, the seeds of the NK ROCKY hybrid sunflower are treated with an aqueous solution of a known bactericidal agent with the active substance TMTD (tetra-methyl-thiram-disulfide) at a rate of 4-5 kg per 1 ton of seeds also by spraying with constant stirring. As a control, seeds were used without treatment.

Then, 20 pieces of seeds are placed in Petri dishes, on the bed of which three layers of pre-sterilized and moistened filter paper are completely moistened. Germination temperature is maintained at 30 ± 1 ° C.

Evaluation of the indicators is carried out on the fifth and seventh days. The repetition of the experiment is three times.

The results of laboratory tests are presented in table 1.

The analysis of table 1 shows that when processing seeds with the claimed agent (options 1-5) it gives the best seed germination of 91-95%, which is 5-9% more than in version 6 with TMTD and 17-21%) more than in control (option 7). At the same time, seed treatment in accordance with option 1 in terms of “seed infection” is almost not inferior in effectiveness to option 6 with TMTD, and the efficiency compared to control exceeds more than 3 times. Option 6 using TMTD as a disinfectant is dangerous for people and the environment, in addition, thiram-containing drugs reduce seed germination and are a strong stress factor.

According to the results of laboratory tests, the proposed tool and method of its use significantly exceeds control and improves the sowing quality of seeds, reduces the infection of seeds, and will also accelerate plant growth.

Similar results were obtained on hybrids Armash 150 KS, LG 5665.

Example 4. Evaluation of the effectiveness of the method of application of the inducer of resistance of sunflower to bacteriosis is carried out during field trials.

The experience was laid in the experimental farm of the FSBEI HPE of the Kuban State Agrarian University and in LLC KOLOS of the Rostov Region. The seeds of the hybrid sunflower hybrid "NK ROCKY" before sowing, once treated with an aqueous solution of the proposed tool at the optimal values of the proposed interval (2-10 g) by spraying with constant stirring.

Then they carry out a single treatment of vegetating plants in the phase of 3-4 pairs of leaves with an aqueous solution of the claimed agent at the rate of 2-10 g of agent for 1 ha of crops with a working solution consumption rate of 50-300 l / ha.

The results are presented in table 2.

Analysis of table 2 shows that the use of a mixture of amino acids in the technology of growing sunflower is very effective. So, the degree of infection of plants with bacteriosis after treatment with the agent according to claim 1 is much lower and does not exceed the threshold of infection of seeds, and compared with the control variant, it reduces the degree of infection by more than 3 times.

Similar results were obtained on hybrids Armash 150 KS, LG 5665.

The claimed technical effect is achieved only by combining the described techniques and optimal ratios (1: 1: 0.5) and concentrations (2-10 g) of each substance and allows to achieve the claimed technical result.

As a result of treating the seeds with a mixture of amino acids, the damage to seedlings (seedlings) of sunflower by bacterioses is sharply reduced (immunostimulating effect), seed germination (growth-promoting effect) is increased. And the processing of sunflower crops provides a significant reduction in the degree of spread of bacterial root rot, as well as a significant acceleration of plant growth rates, i.e. an immunostimulating and growth-stimulating effect is also manifested.

The proposed method of processing seeds and crops is cost-effective. When using the permitted TMTD for seed dressing with a consumption rate of 4-8 kg / t of seeds, an average of 1000 to 2400 rubles per treatment (http://www.agrohimiya.ru). A similar treatment with a complex of amino acids reduces economic costs, with a consumption of 2-10 g / t of seeds or 2-10 g / ha, the cost of the drug is up to 100 rubles, which is 10-20 times cheaper. In addition, the use of thiram-containing drugs negatively affects the beneficial microflora of agrobiocenoses, and the amino acid complex is completely harmless (does not change the existing species composition of microorganisms in the ecosystem).

As a result of the use of a mixture of amino acids, the yield increase relative to the technology used as an analogue was 65%.

Table 1 The biological effectiveness of the resistance inducer against bacterial pathogens on sunflower seeds Option Consumption of active substance for 8-10 l of working solution Seed germination,% Infection with seed bacteria,% 1. The stability inductor, according to claim 1 2 g 92 23 2. The stability inductor, according to claim 1 4 g 95 eighteen 3. The stability inductor, according to claim 1 6 g 91 19 4. The stability inductor, according to claim 1 8 g 92 19 5. The stability inductor, according to claim 1 10 g 94 eighteen 6. The active substance TMTD, kg / l 4-5 kg per 8-10 l of working solution 86 22 7. Control No processing 74 77

table 2 The biological effectiveness of the resistance inducer against bacterial pathogens on sunflower plants in the phase of 3-4 pairs of true leaves Option Consumption of active substance, g / ha The length of the plant on the day of processing (phase 3-4 pairs of real leaves), cm Plant length 5 days after processing, cm Plant length 10-15 days after treatment, cm The degree of infection,% 1. The stability inductor, according to claim 1 2 g 10 22 33 22 2. The stability inductor, according to claim 1 4 g 13 25 37 twenty 3. The stability inductor, according to claim 1 6 g 12.3 22.3 35 19 4. The stability inductor, according to claim 1 8 g 12.8 24 37 twenty 5. The stability inductor, according to claim 1 10 g 12.5 25 36 19 6. Control No processing four eighteen 27 77

Claims (2)

1. The use of funds, which is a mixture of the amino acids methionine, lysine and phenylalanine in the ratio (1-5) :( 1-5) :( 0.5-2.5) as an inducer of resistance of sunflower to bacteriosis. 2. The method of using the tool, which is a mixture of the amino acids methionine, lysine and phenylalanine in the following ratio (1-5) :( 1-5) :( 0.5-2.5) as an inducer of resistance of sunflower to bacteriosis, including a single presowing seed treatment with an aqueous solution of the agent at a rate of 2-10 g of the agent per 1 ton of seeds in advance and subsequent single treatment of vegetative plants in the phase of 3-4 pairs of leaves with an aqueous solution of the agent at the rate of 2-10 g of the agent for 1 ha of crops.