RU2739502C1 - Use of insecticide combination of baiting agent for indoor flies - Google Patents

Abstract

FIELD: veterinary science.

SUBSTANCE: invention relates to disinsection of rooms and can be used in veterinary science, livestock farming and poultry farming. For controlling Musca domestica, a composition containing an insecticidal composition in the form of a powder is used, and water, mixed in ratio of 1:3 respectively, wherein the insecticidal composition contains substances - ivermectin and chlorfenapyr, the sex hormone - tricosene and food - saccharose or glucose attractants, thickener - modified potato cold-swelling starch, with the following ratio of components, wt. %: ivermectin - 0.006, chlorfenapyr - 0.06, tricosene - 0.15, modified potato starch - 18, saccharose or glucose - 81.784, the insecticide composition is mixed with cold water until the composition thickens, which is applied in Musca domestica accumulation points in amount of 250 ml of composition per 1 m² with a brush or roller on the surface of the room or on substrates.

EFFECT: invention enables to achieve the specified purpose.

1 cl, 2 tbl, 3 ex

Description

One of the main tools for controlling the number of harmful insects at the objects of veterinary and sanitary supervision are insecticides [1, 2]. Modern insecticides must be highly effective against target targets. One of the ways to increase the insecticidal efficiency of drugs is to combine two or more active substances with different mechanisms of action [3, 4]. The advantage of combined drugs is also the ability to prevent the formation of resistant populations of insects through their use [5].

In order to check the patent purity of the claimed product, known patents were analyzed. Patent No. 2627277 describes a method for producing 4 "- O, 5-O-di (methylcarbamate) ivermectin and the use of agents based on it for fighting parasites in both acidic and alkaline environments. To do this, ivermectin is reacted with methyl isocyanate in the presence of a molybdenum-containing catalyst in an inert solvent. According to another invention No. 2415930, as a result of various biotechnological processes, ivermectin is used as an immune detector, which allows quantitative determination of avermectins in biological fluids and tissues. In patent No. 2670202, ivermectin is reacted with chloroacetic acid chloride in an organic solvent in the presence of an amine type catalyst, followed by the isolation of the resulting 5.4 '' bis (chloroacetyl) ivermectin and its treatment with a previously prepared solution of sulfur and amine in DMF, this allows you to get highly effective antiparasitic agents based on it. In the patent No. 2497364 it is proposed to dissolve ivermectin in a simple ether of glycol, propylene glycol dicaprylate / dicaprinate, stearyl stearate, palmitate and myristate, as well as to use a stability enhancer, which is glycerol formal or PEG, this method allows to obtain a veterinary composition that has increased stability and provides improved active substances when applied topically. In the following inventions, patents Nos. 2554350 and 2554074, ivermectin is reacted with succinic anhydride in an organic solvent in the presence of an amine type catalyst, thus obtaining a new highly effective insecticidal agent, which is 5-O-succinoylivermectin, resistant to sunlight, which in further can be used to control insects in lower concentrations.

On the basis of ivermectin, inventions are known: No. 2519085, 2452503, 2426550, 2611387, 2416094, 2437668, 2613145, 2655729, for the prevention and treatment of parasitic diseases, arachnoentomosis in farm animals, also or including from helminthic invasions - No. 2568906, 26997 , 2681214, 2627893, 2140737, 2516891, 2367435, 2412698, 2635514, 2412697, or including birds - No. 2694546, 2412700, 2412705, 2709535. In another invention, patent No. 2652134, which relates to agriculture, a method of processing seeds for protection consists in applying a coating of alginate containing one or more plant protection agents selected from the group including ivermectin, chlorfenapyr.

The disadvantage or limitation of the listed inventions is that they do not show the concentration of substances and data on experimental efficacy against Musca domestica.

A close analogue of the claimed invention is a method of controlling flies in livestock buildings, patent No. 2540553. A method for controlling flies involves treating livestock buildings with an insecticidal composition, which contains fipronil, or ivermectin, or chlorfenapyr as an active ingredient. The disadvantage of this method is that these mono-component baits will be ineffective when used against resistant populations of flies to one of the listed active substances. The difference and advantage of the claimed invention lies in the fact that it is proposed to use a binary mixture of active substances with a different mechanism of action on insects, which will make it possible to use it, including against insects resistant to fipronil, and / or ivermectin, and / or chlorfenapir.

There are also close analogues to the claimed invention described in patents No. 2628936 and No. 2692620, and including the use against houseflies (Musca domestica) of binary baits containing a mixture of two neurotoxins, namely acetamiprid and ivermectin, fipronil and ivermectin, respectively. The difference between the claimed invention is the use of a new combination of active substances with fundamentally different mechanisms of action - the neurotoxin ivermectin and the modulator of chlorfenapir metabolism. The proposed invention will make it possible to effectively use it against natural populations of houseflies, including those resistant to fipronil, and / or to acetamiprid, and / or to ivermectin.

Other close analogs are patents No. 2711401 and No. 2711383, including the use against houseflies (Musca domestica) of binary baits containing a mixture of neurotoxin acetamide and fipronil, respectively, with a modulator of chlorfenapir metabolism in both inventions. The difference between the claimed invention is the use of a new combination of active substances with fundamentally different mechanisms of action - the neurotoxin ivermectin and the modulator of chlorfenapir metabolism. The proposed invention will make it possible to effectively use against natural populations of houseflies, including against those resistant to fipronil, and / or to chlorfenapir, and / or to acetamiprid.

An analogue may be patent No. 2646044, but the difference lies in the fact that its binary mixture consists of other active active substances of the neurotoxins fipronil and acetamiprid with a distinctive mechanism of action on insects. The proposed invention will make it possible to effectively use against natural populations of houseflies, including against those resistant to fipronil and / or to acetamiprid.

The aim of the present invention is to increase the efficiency of disinsection of objects of veterinary and sanitary supervision against resistant populations of flies (Musca domestica), expand the range of means for its implementation, reduce chemical load, and increase the safety of disinsection measures for the personnel performing them and the environment.

This goal is achieved by using an insecticidal composition made in the form of a powder, which contains two active substances ivermectin and chlorfenapyr in a hundred times lower concentration of each, respectively, without reducing the effectiveness, as a food attractant - sucrose or glucose, as a sex attractant - tricosene, as a thickener - modified cold swelling potato starch.

A method for controlling Musca domestica, including the use of an insecticidal bait composition for treating premises containing an insecticidal composition made in the form of a powder and water mixed in a ratio of 1: 3, respectively, and the insecticidal composition contains substances - ivermectin and chlorfenapir, sexual - tricosene and food - sucrose or glucose attractants, thickener - modified potato starch of cold swelling with the following ratio of components, wt. %:

ivermekin - 0.006,

chlorfenapyr - 0.06,

tricosene - 0.15,

modified potato starch - 18,

sucrose or glucose - 81.784,

the insecticidal composition is mixed with cold water until the composition thickens, which is applied in places where Musca domestica accumulates at the rate of 250 ml of the composition per 1 m ^{2 with a} brush or roller on the surface of the room or on substrates.

The invention provides a long-term, irreversible insecticidal effect, including against a resistant population of flies to one of the active substances - ivermectin or chlorfenapir. The proposed method allows to reduce the chemical load on livestock and poultry buildings due to the possibility of using on substrates, reducing the amount of each active substance by a hundred times without loss of effectiveness, reducing the frequency of treatments against resistant populations of flies to products containing one of the active substances, increases safety for personnel , which produces insecticidal treatment, does not require special equipment for work, makes it possible to easily dispose of insecticide residues when using substrates. Thanks to the modified starch included in the insecticidal composition, when mixed with cold water, a thick mass is formed, which is convenient to apply to substrates or other surfaces and not to bear the loss of the drug.

Ivermectin is a semi-synthetic macrocyclic lactone obtained from the soil actinomycete Streptomyces avermictilis. effective against invertebrates, including insects. Registered in the Russian Federation.

Chlorfenapir - belongs to a new group of insecticides - pyrrole derivatives. This insecticide has a contact and intestinal effect. It is used in plant protection, is effective against insects with a sucking and gnawing mouth apparatus. Chlorfenapyr is a pro-insecticide that is converted into a toxin in insects, disrupting the function of mitochondria during oxidative phosphorylation. Registered in the Russian Federation.

Modified cold swelling potato starch is capable of thickening in cold water, due to which it is widely used in the food industry as a thickener, stabilizer, texturizer.

Thus, all the essential ingredients for making insecticidal formulations are available.

The invention is carried out by the following examples.

Example 1. Preparation of an insecticidal composition.

The required amount of active ingredients (ivermectin and chlorfenapyr) is weighed and, with constant stirring (for example, using a magnetic stirrer), is dissolved in acetone or isopropyl alcohol, which is taken in a volume equal to the amount of sucrose. Then, the calculated volumes of the sex attractant tricosene, the food attractant (sucrose or glucose), the thickener (modified starch) and the active substances dissolved in acetone or isopropyl alcohol are combined, while continuing to stir. The prepared mixture is dried, stirring occasionally, and packed in plastic containers of 50, 100, 150 or 300 g. Components and their ratios are presented in table 1.

Example 2. Comparative insecticidal effectiveness of bait compositions in laboratory conditions.

Under laboratory conditions, using a laboratory culture of the house fly Musca domestica, the finished preparative form of the developed composition with the working name "Mukhnet IKh" was tested, containing 0.006% ivermectin and 0.06% chlorfenapyr (working solution 0.002% and 0.02% according to respectively), in comparison with the bait formulations "Mukhnet I" with a content of 0.6% ivermectin (working solution 0.2% by ae) and "Mukhnet X" with a chlorfenapyr content of 6% (working solution 2% by etc.). The test was carried out by the method of evaluating the effectiveness of food insecticidal baits for controlling flies as described in the manual “Methods for laboratory research and testing of disinfectants to assess their effectiveness and safety. Guideline R 4.2.2643-10. ". The finished formulations were diluted with water in a ratio of 1: 3 (for example, 10 g of powder and 30 g of cold water) with constant stirring. The resulting thick mass was applied with a brush to glass test objects measuring 100 cm ² in an amount of 2.5 ml. After drying, the test objects were placed in a cage with flies; as an alternative, ordinary food was placed in the cage (glucose mixed with milk powder). The death of insects was counted after 24 and 48 hours. It was found that the bait compositions have an insecticidal efficiency of at least 97 ± 0.5% after 24 hours of exposure and 100% after 48 hours (Table 2).

When comparing the effectiveness of working solutions of a bait composition based on two active ingredients "Mukhnet IKh" with a content of 0.002% ivermectin and 0.02% chlorfenapyr, and solutions with bait compositions "Mukhnet I" containing one d.v. ivermectin in a concentration of 0.2% and "Mukhnet X" with a content of one d.v. chlorfenapir at a concentration of 2%, it was found that the combination of the active ingredients ivermectin and chlorfenpyr in the developed bait composition "Mukhnet IKh" provides a 100% insecticidal effect at a concentration of active ingredients 100 (for ivermectin and chlorfenapri) times lower than monocomponent preparations.

Example 3. Evaluation of the effectiveness of the insecticidal bait composition "Mukhnet IKH" under production conditions in comparison with "Mukhnet I" and "Mukhnet X".

The compositions "Mukhnet IKh", "Mukhnet I" and "Mukhnet X" were mixed with water in a ratio of 1: 3 and applied to substrates at the rate of 250 ml per 1 m ² , which were placed in places where flies accumulated in livestock buildings (on windows, doorways , in the corners of the premises, heat sources - water heaters, feed kitchens, etc.). At the same time, the content of active substances in ready-made solutions was: 0.002% and 0.02% (Mukhnet IH), 0.2% (Mukhnet I), 2% (Mukhnet X). Before disinfestation and after 24 hours, the number of insects was counted by trapping on sticky sheets 10 × 50 cm in size, which were located at 8 counting points along the perimeter of the room.

In the pigsty before processing, there were up to 4.5 thousand insects / m ^{2 of the} registration sheet, after processing by the proposed method, their number decreased to 0.55 thousand individuals / m ² . Thus, the effectiveness of the treatment of the premises against flies using the insecticidal bait "Mukhnet I" was 88% on the first day. The increase in the number of insects after the application of the bait composition "Mukhnet X" up to 30% of the initial number occurred within 4-5 days. The restoration of the number of flies to the initial level was noted on the 8-9th day after disinfestation.

In the calf house before disinfestation with the composition "Mukhnet X" there were up to 3.6 thousand flies per 1 m ² , and on the next day after treatment, their number decreased to 0.3 thousand individuals per / m ² , the processing efficiency was 91.7% ... The increase in the number of insects after the application of the bait composition "Mukhnet X" up to 30% of the initial number occurred within 4-5 days. The recovery of the number of flies to the initial level was noted 7-8 days after disinfestation.

The test of the composition "Mukhnet IH" was carried out in a calf barn. Before processing with the developed composition, there were up to 26 thousand insects / m ^{2 of the} record sheet, after processing with the proposed method, their number decreased to 1.0 thousand individuals / m ² , the processing efficiency was 96.2%. The increase in the number of insects after the application of the bait composition "Mukhnet IKH" to 30% of the initial number occurred within 6-7 days. The restoration of the number of flies to the initial level in the room was noted 10-12 days after disinfestation.

The above examples demonstrate that the claimed method for controlling flies in livestock buildings expands the arsenal of means for disinsecting objects of veterinary and sanitary supervision, comparable in efficiency with existing methods, and safer for personnel and the environment by reducing the concentration of active substances. Thus, the task has been solved.

Sources of information taken into account:

1. Sivkov G.S., Pavlov S.D., Domatsky V.N., Glazunov Yu.V., Silivanova E.A. et al. Methodical recommendations for disinsection and deacarization of livestock objects of veterinary and sanitary supervision. - Tyumen, 2010 .-- 45 p.

2. Rutz D.A., Geden C.J., and Pitts C.W. Pest Management Recommendations for Dairy Cattle. Cornell and Perm State Cooperative Extension Publication [Electronic resource] - 2000. - Access mode: http://hdl.handle.net/1813/42361 (Date of access: 16.04.2018).

3. Eremina O.Yu., Ibragimkhalilova I.V. Synergistic action of binary mixtures of neonicotinoids and pyrethroids on insects // Agrochemistry. - 2010. - No. 2. - S. 37-44.

4. Smirnov A.A. Screening of insectoacaricides and their mixtures, creating a composition with a synergistic effect // Veterinary pathology. - 2006. - No. 1. - S. 118-121.

5. Sudo M., Takahashi D., Andow D.A., Suzuki Y, and Yamanaka T. Optimal management strategy of insecticide resistance under various insect life histories: Heterogeneous timing of selection and interpatch dispersal // Evolutionary Applications. - 2017. - V. 11 (2). - pp. 271-283.

6. Methodical instructions MU 3.5.2.1759-3 "Methods for determining the effectiveness of insecticides, acaricides, developmental regulators and repellents used in medical disinsection" (approved by the Chief State San. Doctor of the Russian Federation on September 28, 2003).

Claims (7)

A method for controlling Musca domestica, including the use of an insecticidal bait composition for treating premises containing an insecticidal composition made in the form of a powder and water mixed in a ratio of 1: 3, respectively, and the insecticidal composition contains substances - ivermectin and chlorfenapir, sexual - tricosene and food - sucrose or glucose attractants, thickener - modified potato starch of cold swelling with the following ratio of components, wt. %: ivermekin - 0.006, chlorfenapyr - 0.06, tricosene - 0.15, modified potato starch - 18, sucrose or glucose - 81.784, the insecticidal composition is mixed with cold water until the composition thickens, which is applied in places where Musca domestica accumulates at the rate of 250 ml of the composition per 1 m ^{2 with a} brush or roller on the surface of the room or on substrates.