RU2326533C2 - Pest management resulted in yields increase and reducing of toxic load on cultural plants, synergistic insecticidal composition - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: presowing plants processing and/or their parts is carried out using water solution of synergistic insecticidal composition which as a toxic ingredient includes insecticide selected from a piretroids or neonicotinoides group, or Ivermectin. The consumption of insecticide is 50% of the total expenditure recommended for each of cultivated crops. As a trust ingredient the composition includes an effective dose of medication "Zircon" which relates to the growth adjustment and inducers of plant resistance. Synergistic insecticidal composition includes insecticides, selected from a group or a piretroids or neonicotinoides group, or avermectin and medicine "Zircon", which contains non-ionic surface-active substance (NSAS) on the basis of hydroxyethyl alkyl phenol and complex of hydroxy-cinnamic derivatives of chlorogenic and coffee acids, while the ratio of these acids is in the composition 79-81:14-16:4-6 and a ratio of complex of hydroxy-cinnamic derivatives acids and NPAV is 1:1.

EFFECT: reducing of the insecticide consumption standards; reducing of toxic load on cultural plants; reducing of damage pests; increase of yields.

5 cl, 5 tbl, 4 ex

Description

The invention relates to agriculture, namely to environmentally friendly methods and means of protection against pests and increase the yield of cultivated plants.

Known methods of protecting cultivated plants from pests with multicomponent compositions, including at least one insecticide that directly causes the death of a pest when it comes in contact with it, and at least one auxiliary substance of a non-pesticidal nature - adhesive, wetting agent, emulsifier, antifreeze, thickener, etc., intended to improve the physicochemical properties of the compositions and to reduce the rate of their consumption (WO 9307750, A01N 53/00, 1993; JP 8225414, A01N 25/04, 1996; CN 1221563, A01N 57/10, 1999; CN 1305710, A01N 53 / 00, 2001; US20020110574, A01N 25/00, 2002). However, these methods are not effective enough due to the instability (rapid decomposition) of the insecticides used in them under the influence of atmospheric oxygen and sunlight, which reduces the duration of their toxic effects, increases the consumption rate due to repeated treatments, causes inhibition of cultivated plants, and reduces the yield.

Known methods of protecting cultivated plants and synergistic compositions for their implementation, including substances that increase the stability (slowing down the decomposition) of insecticides - photostabilizers, antioxidants, etc. For example, the cinnamamide, rotenone and pentadienhydrazone insecticides or a mixture thereof is used together with a triazinylstilbene UV absorber (JP 5255006 A01N 37/46, 1993). To increase the stability of insecticides, easily polymerizable substances are also used, for example, alkyl acrylic esters (US 4668666, A01N 55/00, 1987) and liquid organosilicates (JP 4041406 A01N 25/22, 1992), non-volatile polymerizable oils, for example tung and tall, including fatty acid esters, highly absorbing oxygen (US 4677117, A01N 25/22, 1987), while the proportion of the stabilizing component may exceed the amount of the pesticide by 2-20 times. These methods are not effective enough due to the low permeability of the compositions through the integument and into the intestines of insects, while alkyl acrylic esters and their derivatives have an active herbicidal effect (Handbook of Pesticides. - Kiev, “Harvest”, 1974, p.180, 263) and reduce the yield of cultivated plants. Also known are methods of protection with multicomponent synergistic compositions containing at least one substance from the group of insecticides and at least one antioxidant from the group of alkylated homologues of benzene with hydroxyl groups, for example, butylhydroxytoluene, butylhydroxyanisole (US 5143539, A01N 25/32, 1992; EP 148; A01N 25/02, 2004), dibutylhydroxytoluene (JP 2096505, A01N 25/20, 1990), alkyl derivatives of cresols and thioethers (GB 1513614, A01N 25/28, 1978), as well as inorganic bisulfites and metabisulfites (EP 1559321 A01N 53 / 00, 2005), with antioxidants to leave 10% of the total mixture, and the composition and inhibits the phytotoxicity of the crop plants.

In general, the effectiveness of the above methods of protection is reduced due to the narrowly functional (mainly fighter) purpose of the compositions used and the lack of growth regulators and plant resistance inducers in their composition. Therefore, these methods and compositions are not able to simultaneously and effectively affect both harmful organisms and cultivated plants, do not meet the technical task of protecting against pathogens, reducing toxic load and increasing yield of crops.

Known methods of plant protection and synergistic insecticidal compositions based on the use of substances having growth-regulating and anti-stress activity. Thus, plant protection methods and compositions for their implementation on the basis of aromatic aldehydes are known that combine plant growth control and mild insecticidal properties, for example, cinnamaldehyde with the additional inclusion of saponin as an insect growth regulator and tween-80 emulsifier in the composition (US 6251951, A01N 35/02, 1995; US 5839224, A01N 25/32, 1998). These methods are not effective enough, since cinnamaldehyde without synergistic interaction with the true pesticide has little effect on insects, and at the applied concentration (2500 ppm) it is phytotoxic and inhibits plant growth. The tween-80 emulsifier also inhibits cell division in plants. Also known is a plant protection method and a composition for its implementation (JP 7330513, A01N 25/00, 1995), comprising at least one toxic substance from the group of pyrethroids and at least one auxiliary substance from the group of derivatives of aromatic alcohols (3,4-methylenedioxybenzyl alcohol, 4-chloro-5-methyl-resorcinol, 3-chlorocatechol, chlorohydroquinone) and aromatic ketones (3,4-methylenedioxyacetophenone). The disadvantage of this method and composition is the weak growth-regulating and anti-stress activity of excipients, which does not lead to a noticeable increase in the yield of cultivated plants.

The closest to the combination of essential features, the analogue to the claimed invention is a method of protecting against pests, which provides a simultaneous increase in the yield of cultivated plants and a decrease in the toxic load on agrobiocenosis by treating plants with synergistic compositions that contain at least one insecticide, for example chlorophos, and at least one a substance from the group of growth regulators and anti-stress agents, for example, arachidonic and / or jasmonic and / or eicosopentaenoic acid and and their derivatives, as well as at least one substance from the group of antioxidants, for example ascorbic acid and butyloxytoluene, the implementation of which is registered in the group of applications (RU 2092049, A01N 25/32, 1998; RU 2129371, A01N 25/32, 1999; RU 2212135, A01N 25/32, 2003; RU 2212136, A01N 25/32, 2003; RU 2212137, A01N 25/32, 2003), however, as our studies have shown, this method and composition are not effective enough to obtain the claimed technical result from due to the instability of the working emulsion, a high (2.5 times higher than the control) rate of decomposition of the insecticide, which flushes to reprocess and involves increasing the toxic load on agrobiocenosis.

The technical task of this invention is a method of protecting cultivated plants, as well as a synergistic insecticidal composition for its implementation, which can significantly reduce or completely eliminate the damage caused to cultivated plants by insect pests, reduce the toxic load on agrobiocenosis and increase yield.

We have developed a method for the protection of cultivated plants and a synergistic insecticidal composition for its implementation, significantly reducing or completely eliminating the risk of pests, providing a significant reduction in the toxic load on agrobiocenosis, as well as increasing yield by treating cultivated plants with a composition comprising at least one toxic ingredient (insecticide) directly causing death or substantial inhibition of the harmful insect, and at least one target an ingredient that is a synergist to a toxic ingredient and related to growth regulators and plant resistance inducers, which additionally has antioxidant, emulsive and antibiotic effects. Moreover, due to the antioxidant, emulsive and antibiotic action of the target ingredient, the toxic effect of the insecticide is prolonged, its consumption rate is significantly reduced without reducing its biological effectiveness, phytotoxicity for cultivated plants and agrobiocenosis in general is reduced, the food behavior of insect pests is inhibited, and due to the growth-regulating effect of the target ingredient in under conditions of low phytotoxicity, growth parameters improve and crop yields increase .

The technical result in the implementation of this invention is a twofold reduction in the rate of consumption of the insecticide, the toxic load on the crop plants is reduced by a factor of 2, the damage by insect pests is reduced by a factor of 1.5, and the yield is increased by more than 30%.

Regarding the method of protecting cultivated plants, this technical result is achieved in that in order to increase yield and reduce toxic load on plants, plants and / or their parts are treated by at least once soaking seeds and / or at least once spraying vegetative plants with an aqueous synergistic solution insecticidal composition, which as a toxic ingredient includes an effective dose of an insecticide directly responsible for the death or substance the inhibition of a harmful insect, and the consumption of insecticide is 50% of the total consumption rate allowed for each of the cultivated crops (State catalog of pesticides and agrochemicals approved for use on the territory of the Russian Federation, 2006), and as a target ingredient the composition includes an effective dose of environmentally friendly Zircon preparation (the preparation and the method for its preparation are protected by the RF patent of 02.16.2005 according to the application No. 2004103040/15) related to growth regulators and plant resistance inducers and additionally having antioxidant, emulsive and antibiotic effects, while seeds of cultivated plants are additionally treated with Zircon before planting in the soil. The combined use of insecticides and the named drug "Zircon" creates a synergistic effect, manifested in the mutual strengthening of the protective and regulatory functions of the ingredients of the composition. Due to the antioxidant and emulsive activity of the Zircon drug, compared with the prototype in which insecticides are used without a synergist, the toxic effect of the insecticide is significantly prolonged, the frequency of treatments and its consumption rate are reduced without reducing the biological effectiveness, and due to the antibiotic activity of the Zircon drug the nutritional activity of insects is inhibited, which generally ensures the complete elimination or substantial reduction of the damage they cause to cultivated plants, and reduces toxicity th load. At the same time, with a decrease in toxic load, the growth-regulating effect of the Zircon preparation is significantly enhanced, which increases resistance to insect pests, provides increased seed germination, increases the assimilation surface of leaves and the volume of the root system, and increases the yield of cultivated plants.

Regarding a synergistic insecticidal composition for implementing the claimed method of protecting crop plants, this technical result is achieved in that the synergistic insecticidal composition includes insecticides selected from the group of pyrethroids, or neonicotinoids, or avermectins, and Zircon, which includes a nonionic surfactant (Nonionic surfactants) based on ethoxylated alkyl phenols and a complex of derivatives of hydroxycinnamic acids, namely chicorye, chlorogenic and coffee acid, with a mass ratio of these acids in the complex, respectively, 79-81: 14-16: 4-6 and with a mass ratio of the complex of derivatives of hydroxycinnamic acids and nonionic surfactants 1: 1.

The action of the claimed method for the protection of cultivated plants and a synergistic insecticidal composition for its implementation, as can be assumed, is based on the previously unknown ability of the environmentally friendly plant growth regulator and inducer of plant resistance "Zircon" in combination with the toxic ingredient of the composition to effectively provide simultaneous partial or complete elimination of harmful pests and increase crop yields with a twofold decrease in pesticide and toxic consumption rates th load due to the fact that a part of the ingredients of the composition exhibit synergistic interaction, which manifests itself in improving the physicochemical properties of the composition, increasing the stability of the working mixture, a mutual enhancing protective and other functions of target ingredients. The claimed technical result is ensured, in particular, by the fact that caffeic, chicorye and chlorogenic acids, which are part of the Zircon preparation and are in a strictly defined quantitative ratio with each other, as well as with nonionic surfactants and with the toxic ingredient of the composition, are antioxidants for toxic ingredient and nonionic surfactants prolonging and enhancing their action, and the same acids are growth regulators and inducers of resistance of cultivated plants, and also exhibit antibiotic effect, violating yuschee fermentation in the intestines of insect pests and their overwhelming nutritional activity. The claimed technical result is also ensured by the fact that the nonionic surfactant that is part of the Zircon preparation based on ethoxylated alkyl phenols and is in a strictly defined quantitative ratio with other ingredients of the composition is an emulsifier that improves the physicochemical properties and stability of the insecticidal composition, the same nonionic surfactant in the claimed in relation to other ingredients of the composition additionally exhibits a moderate antibiotic effect against insect pests, suppressing them ischevuyu activity but does not act negatively on the crop plants, but also promotes better penetration of the ingredients of the composition into the target organism. The claimed technical result is also ensured by the fact that a two-fold decrease in the consumption rate of the insecticide that is directly responsible for the death or significant inhibition of insect pests creates conditions for enhancing the growth-regulating, inductive and antibiotic action of other ingredients of the synergistic insecticidal composition, and in some cases the insecticide may prolong the effect of nonionic surfactants.

The patented invention meets the requirement of unity and meets a single inventive concept, since the actions to implement the method of protecting cultivated plants from pests are aimed at obtaining a single set of beneficial effects, and the various ingredients of the synergistic insecticidal composition inhibit and / or potentiate the same complexes of physicochemical properties of the composition and / or vital functions of target organisms.

An analysis of the level of technological development by the applicant, including a search by patent and scientific and technical sources of information, as well as sources containing information about analogues of the claimed method and composition, made it possible to establish that the applicant did not find analogues for both the method and the composition characterizing features of the claimed method and composition for its implementation. Thus, the patented invention meets the criterion of "Novelty." To verify the compliance of each object of the patented invention with the criterion of "inventive step", the applicant conducted an additional search for known solutions to patent and scientific and technical sources of information. The search results showed that the method of protecting cultivated plants from insect pests and the composition for its implementation in relation to the patented invention according to the set of distinctive features do not fall under the well-known technical solutions and do not follow for the specialist explicitly from the prior art.

A method of protecting cultivated plants from pests, comprising treating plants and / or parts thereof by at least once soaking seeds and / or at least once spraying vegetative plants with an aqueous solution of a synergistic insecticidal composition comprising at least one toxic ingredient directly responsible for the death or significant inhibition of insect pests, and the target ingredient related to growth regulators and inducers of plant resistance, characterized in then, in order to partially or completely eliminate insect pests while reducing the toxic load on cultivated plants and agrobiocenosis, as well as to increase the yield of cultivated plants, an effective dose of at least one insecticide in an amount of 50% of the consumption rate is used as a toxic ingredient in the composition, allowed for use on each of the cultivated crops, and as the target ingredient of the composition, an effective dose of a growth regulator and a resistance inducer are used and Zircon plants, which additionally have antioxidant, emulsive and antibiotic effects, and a synergistic insecticidal composition is prepared by simultaneously diluting in water an effective dose of an insecticide in an amount of 50% of the consumption rate allowed for use on each of the treated crops and an effective dose of Zircon "At the rate of 4-80 ml / ha, and the consumption of the finished insecticidal composition for seed treatment is 0.5-1 l / kg and for the treatment of vegetative plants is 300-500 l / ha, whereas on cultivated plants additionally subjected to pre-sowing treatment of 0.001-0.01% solution of the drug "Zircon".

A synergistic insecticidal composition for implementing the claimed method of protecting cultivated plants and obtaining the claimed technical results, characterized in that the toxic ingredient includes at least one insecticide selected from the group of pyrethroids, or neonicotinoids, or avermectins in an amount of 50% of the consumption rate allowed for use on each of the treated crops, and as the target ingredient includes the preparation "Zircon", which includes nonionic surface -active substance (nonionic surfactant) based on ethoxylated alkyl phenols and a complex of derivatives of hydroxycinnamic acids, namely chicorye, chlorogenic and caffeic acids, with a mass ratio of these acids in the complex, respectively, 79-81: 14-16: 4-6 and with a mass ratio of the complex derivatives of hydroxycinnamic acids and nonionic surfactants 1: 1.

The essence of the implementation of the method of protecting cultivated plants and the action of the composition, as well as the features of particular forms of its implementation and application will be more clear from the above examples.

Example 1. A method of protecting white cabbage from a complex of phytophagous insects (cabbage whites, cabbage scoops, cabbage moths, cruciferous fleas) with a tank mixture of a karate pyrethroid insecticide with the Zircon preparation

The method is implemented as follows. The tank mixture was prepared by diluting the Zircon preparation in water at a rate of 10 ml / ha while diluting in the same solution half the norm (50 ml / ha) of the Karate insecticide (dv lambdacigalotrin). Against the background of insect phytophages, the obtained tank mixture was used to spray white cabbage plants, which are in the phase of a full leaf rosette with a flow rate of 3-5 l per 100 m ² or 300 ... 500 l / ha by spraying.

In control variants, the plants were treated with water (control-1) and a full dose of the karate insecticide (control-2). The average damage score by a complex of leaf-eating insects when treated with a half mixture of the Karate insecticide + Zircon preparation decreased by 1.4 times compared to control-1 by 1.4 times (Table 1).

To assess the direct effect of the Zircon preparation on the development of leaf-eating insects, a special experiment was conducted on feeding cabbage leaves to cabbage larvae. The rate of biomass accumulation by caterpillars on cabbage leaves treated with Zircon was 37% lower than in the control (leaves treated with water). The data obtained indicate a decrease in the food activity of pests under the influence of Zircon. The variant of the tank mixture provides a reliable increase in yield (Table 2) not only in comparison with control-1 (water), but also with control-2 (insecticide "Karate").

As our studies have shown, a tank mixture of half the norm of an insecticide with the Zircon preparation provides a delayed decomposition of lambdacigalotrin in the leaves of white cabbage, i.e. prolongs it until the action of the full rate of the pure drug (table 3). In this case, the toxic load on agrobiocenosis is reduced by half.

The effectiveness of this method can be increased by additional pre-sowing 12-hour treatment of white cabbage seeds with 0.001% solution of the Zircon preparation, which increases the number of healthy seedlings with a well-developed root system.

Example 2. A method of protecting the seedlings of a valuable medicinal plant of a two-year-old aspenica from an earthen flea (Haltica oleracea) with tank mixtures of Chinook seed disinfectant and Aktar insecticide of the neonicotinoid class with Zircon preparation

The method is implemented as follows. The biennial oslinik seeds were spring stratified for 20 days. Then, in order to suppress the development of the earthen flea, the seeds were treated with a tank mixture, including an aqueous solution of the Zircon preparation (at a rate of its consumption of 0.1 ml / kg of seeds) and the Chinook insecticidal dressing agent (imidocloprid + betaciflutrin 20% t.s. ), taken in half the norm - 10 ml / kg of seeds. The total flow rate of the working fluid is 0.5-1 l / kg. In control variants, aspen seeds were treated only with Zircon (control-1), only Chinook disinfectant (control-2) and only with water (control-3). Seeding was carried out 3 days after treatment. In the treatment variant with the tank mixture of the disinfectant and the Zircon preparation, the seedling seedlings appeared 8-10 days earlier than in the control variants (1, 2, and 3). At the same time, the proportion of sprouted seeds differed significantly (90, 85, 80, and 10%, respectively). Subsequently, the sprouted plants of all variants were treated twice (with an interval of 10 days) with a tank mixture of half the norm (0.2 l / ha) of the Aktara insecticide (d.v. thiamethoxam) and the Zircon drug at a flow rate of 4 ml / ha . A month after the appearance of the first seedlings, the biennial aspen plants in control variants 1 and 3 began to be damaged by earthen flea, whereas in control variant 2 (the full Chinook protectant) and in the variant of the Zircon preparation with half the Chinook protectant oslinnik not damaged by insects. With the combined use of the insecticidal disinfectant and the Zircon preparation, the donkey plants significantly differed in development. At the end of the growing season, the mass of two-year-old aspen plants during mixed processing (half norm of Chinook disinfectant + Zircon preparation) exceeded the version with Zircon preparation (control 1) by 31.5 and the version with Chinuk protectant (control 2) by 77.7%. At the same time, the assimilation surface area increased by 22.0 and 162.8%, respectively. Thus, the addition of the Zircon preparation to the Chinook seed disinfectant and Aktara insecticide can reduce the consumption rate of these pesticides by 2 times without losing their biological effectiveness and at the same time increase the growth and development rates of the aspen plants.

Example 3. A method of protecting seedlings of a biennial aspen from an earthen flea (Haltica oleracea) with a tank mixture of the Zircon preparation with Fitoverm biopesticide

The method is implemented as follows. A tank mixture was prepared similarly to Example 1 at a dosage of Zircon at a rate of 4 ml / ha while diluting in the same solution a half rate (0.3 l / ha) of Fitoverm bioinsecticide (d.v. aversectin C). The resulting tank mix was treated with seedling seedlings against the present background of phytophage insects. The multiplicity of treatments is at least twofold (with an interval of 10 days). As one of the control options, we used the option of treating the Kinmix pyrethroid insecticide (d.v. cypermethrin) with the Zircon drug at a dose of 4 ml / ha with a half mixture (0.15 l / ha) tank mixture. Processing vegetative plants with the tank mixture of Fitoverm biopesticide with the Zircon preparation reduced damage to the aspen tree by earthen flea to one, increased the leaf area by 2.4 times, increased the height of plants, while the efficiency of treatment with one Fitoverm was inferior to the tank mixture with Zircon by damage by pests almost 3 times, and by leaf surface area by 1.5 times. Comparison of the same indicators with the control version of the Zircon tank mixture with the Kinmix insecticide shows that the use of Zircon together with biopesticides can successfully replace a chemical pesticide, which is important on plantations of medicinal plants where the use of toxicants is undesirable. Thus, the inclusion of the Zircon preparation in a tank mixture with a biopesticide allows us to successfully combat phytophage insects, provides a reduction in the pesticidal load on agrobiocenosis, and increases the parameters of plant growth and development.

The effectiveness of this method can be increased by pre-sowing 12-hour treatment of the seeds of a two-year old aspen seed with a 0.001% solution of the Zircon preparation, which increases the number of healthy seedlings with a well-developed root system.

Example 4. A method of protecting seedlings of Alpine penny against nodule weevils (Sitona lineatus) with a tank mixture of pyrethroid class insecticide "Karate" with the drug "Zircon"

The method is implemented as follows. A preliminary treatment of alpine penny seeds was carried out with the Zircon preparation at the rate of 0.2 ml / kg of seed material. In the first year of vegetation, a single treatment of vegetating plants (seedlings) was carried out with a tank mixture of Zircon (35-80 ml / ha) and a pyrethroid insecticide of the Karate class (0.1-0.05 l / ha), which was prepared like example 1 and selecting dosages depending on the state of seedlings and signs of damage by a nodule weevil. In the second year of vegetation, the penny plants were twice treated with the Zircon preparation (flow rate 35 ml / ha). In control variants, the plants were treated with water (control-1) and a full dose of the karate insecticide (control-2). The average damage score of alpine shoots of alpine nodule weevils when treated with a half mixture of the Karate insecticide + Zircon preparation decreased by 10 times compared to control-1 and 2.2 times compared to control-2. The yields of Alpine pennywort during complex processing increased, respectively, compared to control-1 by 7.9 c / ha, and compared to control-2 - by 4.9 c / ha (Table 5).

Examples 1-3 show a higher efficiency of the proposed method and composition for its implementation compared to the prototype, which is obvious from the data of tables 1, 2, 3 and 4. The implementation of the method and composition according to this invention allowed: 1) to reduce the consumption rate of insecticides, toxic load on cultivated plants 2 times; 2) to reduce damage to cultivated plants by pests by 1.5 times; 3) to ensure an increase in the yield of cultivated plants by more than 30%.

Table 1
Damage to white cabbage plants by a complex of leaf-eating caterpillars depending on the processing method Option Average damage score Water treatment (control 1) 1,57 Processing a full dose of "Karate" (control 2) 0.37 Processing tank mixture "Zircon" +1/2 doses of "Karate" 1.13 table 2
The influence of Zircon and its tank mixtures with Karate on the yield of white cabbage F1 Kolobok (average for 3 years) Option Productivity, t / ha Increase in control t / ha % Water (control 1) 31.9 - - "Karate", the full dose (control 2) 39.3 7.4 18.9 Tank mix “Zircon” +0.5 doses of “Karate” 45.7 13.8 30,2 Prototype Arachidonic acid (immunocytophyte) +0.5 dose of "Karate" 40.5 8.6 21,2 NDS ₀₅
S _x -% -
- 6.2 t / ha
4.3% -
- Table 3
The dynamics of decay in the leaves of cabbage, white active substance of the drug "Karate" in the presence of the drug "Zircon" Option Mass fraction of lambdacigalotrin in the leaves of white cabbage, mg / kg 2nd day 9th day 21st day 1/2 dose of karate 0.25 0.05 0.02 Full dose of karate 0.71 0.14 0,07 1/2 dose of "Karate" + "Zircon" 0.27 0.1 0.06

Table 4
Biological effectiveness of tank mixtures of the Zircon preparation with Fitoverm and Kinmix insecticides against pests of seedlings of a two-year-old donkey Option Degree of damage Leaf area cm ² % to control Control (no processing) Strong 18.2 one hundred Zircon (seeds and plants) Average 24.6 135.4 Zircon + Fitoverm 0.3 l / ha Single 44.3 243.4 Zircon + Kinmix 0.15 l / ha Single 49.8 273.6 Fitoverm 0.3 L / ha Weak 29.6 162.8 Kinmix, 0.5 l / ha Single 31,2 174.9 Table 5
Yield increase and damage reduction by nodule weevil when using tank mixtures of Zircon preparation with Karate insecticide on alpine penny Experience option Damage to seedlings,% Productivity, t / ha Control (water treatment), 1-2 years 39.8 14.47 "Karate" 0.15 l / ha (single treatment for 1 year) 8.3 17.52 1 year: Zircon 0.2 ml / kg (seed treatment) and tank mix Zircon 35 ml / ha + Karate 0.1 l / ha (single treatment of plants, flow rate of the working fluid 300-500 l / ha); 2 year: “Zircon” 35 ml / ha (double treatment of plants) 3.8 22.45 1 year: Zircon 0.2 ml / kg (seed treatment) and tank mix Zircon 80 ml / ha + Karate 0.05 l / ha (single treatment of plants, flow rate of the working fluid 300-500 l / ha); 2 year: “Zircon” 35 ml / ha (double treatment of plants) 4.2 20.5

Claims (5)

1. A method of protecting cultivated plants from pests, reducing the toxic load on cultivated plants and increasing their productivity, providing for pre-sowing treatment of plants and / or their parts with an aqueous solution of a synergistic insecticidal composition, including a toxic ingredient that is directly responsible for the death or significant inhibition of insect pests , and the target ingredient related to growth regulators and inducers of plant resistance, characterized in that as a toxic ingredient at least one insecticide selected from the group of pyrethroids, or neonicotinoids, or avermectins, in the amount of 50% of the consumption rate allowed for use on each of the treated crops, and as the target ingredient use an effective dose of the growth regulator and inducer of plant resistance "Zircon". 2. The method according to claim 1, characterized in that the treatment of cultivated plants is ensured by at least once soaking the seeds and / or spraying vegetative plants with a synergistic insecticidal composition at a flow rate of said composition for seed treatment in an amount of 0.5-1 l / kg and for the treatment of vegetative plants 300-500 l / ha. 3. The method according to claim 1, characterized in that the seeds of cultivated plants are additionally subjected to a 12-hour treatment with a 0.0001% solution of the Zircon preparation. 4. A synergistic insecticidal composition for protecting cultivated plants from pests, reducing the toxic load on cultivated plants and increasing their productivity, including a toxic ingredient directly responsible for the death of a pest, and a target ingredient related to growth regulators and plant resistance inducers, characterized in that as a toxic ingredient, it contains at least one insecticide selected from the group of pyrethroids, or neonicotinoids, or avermectins in amount 50% of the consumption rate allowed for use on each cultivated crop, and as the target ingredient, it contains an effective dose of the Zircon plant growth regulator and plant resistance inducer, which includes a nonionic surfactant based on ethoxylated alkyl phenols and a complex of derivatives of hydroxycinnamic acid, namely chicorye, chlorogenic and caffeic acids, with a mass ratio of these acids in the complex, respectively, 79-81: 14-16: 4-6 and with a ratio of ksa derivatives of hydroxycinnamic acids and nonionic surfactants 1: 1. 5. The composition according to claim 4, characterized in that it contains the named preparation "Zircon" in an amount of 4-80 ml / ha.