RU2787725C1 - Method for protecting grain crops from pests and diseases - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. A method for protecting grain crops from pests and diseases is proposed, including spraying vegetative plants with a tank mixture consisting of the insecticide Chance Profi, water dispersable granules: the active substance 800 g/kg of fipronil at a consumption rate of 0.03 kg/ha; the fungicide Tilt Turbo, emulsion concentrate : the active substance 125 g/l propiconazole and 450 g/l phenpropidine in consumption rate of 0.8 l/ha and micronutrients Chance Universal, G: active ingredient 200 g/l of seaweed extract, 100 g/l of zinc, 150 g/l of nitrogen in chelated form at a consumption rate of 0.15 l/ha. At the same time, the flow rate of the working fluid is 300 l/ha, and spraying is carried out once in the earing phase.

EFFECT: invention makes it possible to protect crops from a complex of pests and diseases in the subsequent phases of grain development following the flag leaf, strengthen the immune reactions of plants and increase the productivity and quality of grain, reduce the environmental burden on the ambience by reducing the frequency of use and consumption rates of active substances.

1 cl, 1 tbl

Description

The proposed method of protection relates to agriculture and is designed to protect plants of grain crops from a complex of pests and diseases, to increase the yield and quality of grain.

Currently, there is no serious alternative to the chemical method of crop protection, it is the most effective.

The most important means of increasing the effectiveness of the protection of grain crops is the use of tank mixtures of pesticides. Multi-component tank mixes include pesticides, water-soluble fertilizers, chelated trace elements, growth regulators and surfactants.

A known method of protecting crops from diseases and insect pests, which consists in dressing seed with insectofungicide tank mixtures, in particular, the use of insectofungicide Prestige (1.5-3.5 l / t), which includes two active ingredients (a.i. .) - (imidacloprid and pencecuron) reduces the number of grain fleas in spring wheat crops and damage to the stems by larvae of cereal flies, limits the development of root rot (Silaev A.I., Grishechkina L.D., Churikova V.G. The effectiveness of the use of insectofungicide Prestige for protection of grain crops from pests and diseases // Agrarian scientific journal - 2019. No. 7. P. 34-39). This method can provide protection of grain crops only in the early phases of their development and only from pests and diseases of seedlings, but does not protect crops from pests and diseases in subsequent phases of plant development.

A known method of using fungicidal drugs (Title 390, Colosal Pro, Alto Turbo, Rex Duo, Strike Forte, Falcon, Triada) and insecticidal action (Tanrek, Eforia, Faschans) on wheat during the growing season to protect against diseases and pests (Kekalo A. Yu., Nemchenko V.V., Zargaryan N.Yu., Filippov A.S., Kozlova T.A. A modern approach to the issue of protecting wheat from diseases and pests // Agriculture. - 2020. No. 5. P. 41- 45). However, the known method consists in the separate use of preparations and does not involve the use of tank insect-fungicidal mixtures with microfertilizer.

The closest analogue, taken as a prototype, for the proposed method is the protection of winter wheat crops, including the use of a mixture of an insecticide based on clothianidin in the form of Clotiamet, VDG (water-dispersible granules) (500 g/kg) at the rate of application according to the flag leaf 0.04 kg/ha with the fungicide Abacus, SE (suspension emulsion) based on pyraclostrobin and epoxiconazole and carbamide at an application rate of 15 kg/ha (Illarionov A.I., Zhenchuk A.V. “The effectiveness of tank mixtures of pesticides and agrochemicals with integrated protection of winter wheat from pests”, journal “Bulletin of the Voronezh State Agrarian University”, 2019, vol. 12, no. 1 (60) pp. 13-23).

The disadvantage of this method is that when carbamide is dissolved in water, due to an exothermic reaction, the temperature of the working solution decreases: 15 kg per 100 l lower it by 7-8°C. Such cooling can cause thermal stress in plants. Ideally, the temperature of the working solution and air should be the same so as not to cause stress to the plants during processing, in addition, the application rate of 15 kg/ha of carbamide can cause burns to plants.

Carbamide contains 46% nitrogen in its composition - this is the most concentrated fertilizer. The amount of carbamide for leaf dressing directly depends on the amount of water that is supposed to be consumed. The main requirement is the observance of the percentage ratio of the components of the working solution, acceptable for each specific site, taking into account the phase of plant development and weather and climatic conditions.

The purpose of the present invention is to provide protection of crops from a complex of pests and diseases in the subsequent phases of development of cereal crops from the flag leaf, to enhance the immune responses of plants and increase the productivity and quality of grain, reduce the environmental burden on the environment by reducing the frequency of application and consumption rates of active substances.

To achieve this result, the treatment of plants of grain crops with a tank insect-fungicidal mixture with microfertilizer is used.

The proposed method of protection is carried out by spraying crop plants in the heading phase with a tank insect-fungicidal mixture with microfertilizer, which includes:

insecticide Shans Profi, VDG (a.i. 800 g/kg fipronil) at a rate of 0.03 kg/ha + fungicide Tilt Turbo, EC (emulsion concentrate) (a.i. 125 g/l propiconazole + 450 g/l fenpropidine) at a rate of 0.8 l/ha + microfertilizer Chance Universal, F (liquid) (a.m. 200 g/l of seaweed extract, 100 g/l of zinc, 150 g/l of nitrogen) at a rate of 0, 15 l/ha. Consumption of working fluid - 300 l/ha.

In this mixture, the fungicide Tilt Turbo is used at the minimum consumption rate of the drug, however, the toxic effect is compensated by the Chance Universal microfertilizer, which has immunizing properties.

The composition of the tank mixture of pesticides with microfertilizers includes three active ingredients of pesticides (fipronil, propiconazole and fenpropidine) and microfertilizers (seaweed extract, zinc, nitrogen). The active ingredients of pesticides differ in their spectrum of activity.

Fipronil (on the basis of which the Chance Profi preparation was created) provides a wide range of destruction of soil and ground pests; instant initial impact on the pest; protective action from 2 to 4 weeks; controls pests resistant to organophosphorus compounds (FOS), pyrethroids and carbonate compounds; compatible in tank mixes with insecticides, fungicides, plant growth regulators and microfertilizers; Resistant to rain and high temperatures. The active substance fipronil belongs to the class of phenylpyrazoles, characterized by high long-term insecticidal toxicity; can be absorbed by plants from soil and seeds; due to the slow decomposition in sunlight after spraying, a long-lasting effect is ensured. Phenylpyrazoles are a class of pesticides designed to control pest populations resistant to other groups of insecticides. The mechanism of action of phenylpyrazoles is to block GABA (gamma-aminobutyric acid), which regulates the passage of a nerve impulse through chloride channels in the membranes of nerve cells.

Propiconazole and fenpropidine, on the basis of which Tilt Turbo was created, provide an enhanced “stop effect” against powdery mildew with a simultaneous unique therapeutic effect against septoria and cercosporella; highly active at low air temperatures (from +6°С); have a lasting effect within 3-4 weeks; The synergism of the active ingredients against powdery mildew, spotting and brittle stems prevents the development of resistance.

Microfertilizer Chance Universal is a highly concentrated fertilizer based on seaweed extract, zinc and nitrogen in chelate form. It is used to compensate for obvious or hidden zinc deficiency, enhanced with various amino acids, which not only promote growth, but also act as a chelating agent, facilitating the absorption and assimilation of micronutrients in the plant (the active ingredients of microfertilizers are necessary components for many physiological processes in plants ; directly related to the growth of the hormone auxin, at a low level of which stuns the growth of leaves and roots; play an important role in the formation and activity of chlorophyll; are important for the metabolism of carbohydrates; participate in protein synthesis; increase plant resistance to drought, heat and cold; reduce the degree infection with diseases.The main advantage of microfertilizers is that it is a complex of microelements that are in the most accessible chelate form for plants.Microelements are also present in mineral fertilizers, but there they are in a different, much less in a plant-accessible form.

Under laboratory conditions, the compatibility of the components of the tank mixture of pesticides with microfertilizers was assessed.

Spraying was carried out once in the heading phase.

The counts of the following pests were carried out on the crops: the red-breasted chickweed, the harmful turtle bug, cereal aphids, wheat thrips, bread beetles, etc.

Accounting for larvae and adults of the bug was carried out on 10 plots 0.1 m ² in size (32 cm × 32 cm) in each repetition of the experiment.

The account of the larvae of the grasshopper was determined by counting the larvae of all ages on the upper leaves of 10 adjacent stems at 10 points of each repetition.

The registration of cereal aphids was carried out by counting the larvae and adults of aphids on 25 stems or ears (5 samples of 5 stems or ears) in each repetition.

Pest counts were carried out immediately before treatment, on days 3, 7 and 14 after treatment.

The calculation of biological efficiency was carried out according to the Abbott formula (formula 1):

where E - efficiency, expressed as a percentage of pest reduction, adjusted for control;

K - the number of living individuals in the control at a given accounting period;

O - the number of living individuals in the experiment in a given accounting period.

Accounting for disease infestation was carried out before treatment and 10 and 20 days after on 25 plants (5 samples of 5 plants) from each plot.

All leaves on the main stem were analyzed.

The phytotoxicity of fungicides and their mixtures with microfertilizers was determined according to the following scale (in points):

0 - no defeat;

0.1 - the lesion is barely noticeable;

a small lesion, occupying up to 10% of the leaves;

affected from 11 to 25% of leaves, stems and other parts of plants;

affected from 26 to 50% of leaves, stems and other parts of plants;

over 50% of leaves, stems and other parts of plants are affected.

The biological effectiveness of the tested fungicides and their mixtures is calculated in terms of the development of the disease or the degree of damage (formula 2):

where R _k is the percentage of development or the degree of damage to plants in control;

R ₀ - the percentage of development or the degree of damage in the experimental area;

BE - biological efficiency, %.

Analysis of the crop structure was carried out on trial sheaves (25 plants) from each plot.

Grain quality was assessed by a system of indicators in accordance with the requirements of GOSTs of the Russian Federation.

It has been established that in the proposed method for protecting grain crops, the actual efficiency of using a tank mixture of pesticides with microfertilizer exceeds the efficiency of the expected total effect of individual active substances (table 1). The addition of microfertilizer Chance Universal (a.w. 200 g/l of seaweed extract, 100 g/l of zinc, 150 g/l of nitrogen) to the tank insect-fungicide mixture made it possible to reduce the consumption rates of fungicides for active substances (without reducing their biological effectiveness against a complex of harmful organisms) and, as a result, reduced the burden on the environment.

Conducted field studies confirm the high efficiency against pests and diseases of the proposed method of protecting grain crops. The proposed method for the protection of grain crops ensured the complete death (100%) of wheat thrips, the red-breasted bug and the harmful turtle bug and the death of 88.0% of cereal aphids; showed high efficiency (90.0%) against septoria. Contributed to an increase in the yield of winter wheat by 30.3% and gluten content in grain by 3.7%.

The proposed method for the protection of grain crops can be used to combat the following pests: cereal aphids, wheat tripe, harmful turtle bug, Kuzka grain beetle, leech beetle, grain ground beetle and others; septoria, powdery mildew, brown rust, stem rust, pyrenophorosis, dark brown spot, rhynchosporia, net spot, dwarf rust and others.

The application of the proposed method for the protection of crops will expand the range of action of the working compositions of pesticides; combine measures to protect and care for crops, thereby increasing labor productivity, saving fuel and lubricants, time and reducing the cost of work; slow down the adaptation of harmful organisms to the applied drugs; reduce the pesticide load on the cultivated area (using combinations of the minimum recommended doses of two or more pesticides can provide the same biological effectiveness and duration of action as treatment with a large dose of a more toxic drug); reduce the cost of expensive pesticides by reducing the consumption rate of the drug, due to the synergistic effect; will reduce the frequency of treatments, reducing mechanical damage to the crop, preserving the structure and humus of the soil, reducing the number of field trips of equipment, and reducing the total water consumption for processing. The use of a tank mix of pesticides with microfertilizers will reduce the cost of production and increase the efficiency of technologies for growing grain crops.

Claims (1)

A method for protecting crops from pests and diseases, including spraying vegetative plants with a tank mixture, characterized in that a tank mixture is used, consisting of the insecticide Chance Profi, VDG - the active ingredient is 800 g/kg of fipronil at a consumption rate of 0.03 kg/ha; fungicide Tilt Turbo, EC - active ingredient 125 g / l propiconazole and 450 g / l fenpropidine at a consumption rate of 0.8 l / ha and microfertilizer Chance Universal, G - active ingredient 200 g / l of seaweed extract, 100 g / l zinc , 150 g/l nitrogen in chelate form at a rate of 0.15 l/ha, while the flow rate of the working fluid is 300 l/ha, and spraying is carried out once in the heading phase.