RU2630316C1 - Preparation for combating with insects-ceratophages - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: preparation for combating with insects-ceratophages contains an insecticidal active substance and auxiliary components. As the insecticidal active substance, it contains avermectin hemisuccinate B_1a or abamectin, and the auxiliary components are isopropyl alcohol, dimexide, Tvin-80 and 1,2-propylene glycol at the following component ratio, wt %: avermectin hemisuccinate B_1a or abamectin 0.5-2.0; isopropyl alcohol 43.0-48.0; dimexide 1.2-2.3; Tvin-80 1.0-1.8; 1,2-propylene glycol to 100.

EFFECT: invention allows to implement said purpose.

10 ex

Description

The invention relates to the field of disinfestation and the production technology of insecticides and can be used to control keratophagous insects (down-eaters, clothes, fur, fur, felt, carpet moths and beetle beetles) in everyday life, in industry and in warehouses, where keratin-containing finished products and raw materials are stored.

Among the many bioagents that cause significant damage to raw materials, semi-finished products and finished products of animal origin (wool, skin, fur, hair, bristles, fluff, feathers, etc.), keratophagous insects that are in the larval stage of development (moth caterpillars and larvae are especially dangerous) leather-eater). Along with this, in addition to the economic damage caused in industrial and agricultural production, keratophagous insects are dangerous for museums that store unique keratin-containing exhibits, as well as for everyday life.

In this regard, at the present stage, there is a constant search for highly effective substances, methods and means of integrated control of keratophagous insects that can solve the problems of environmental harmlessness, toxicity and allergy to humans, as well as overcome pest resistance to long-used insecticides.

To date, the most effective ways to deal with keratophagous insects used in sanitary and household pest control and veterinary medicine are methods based on the use of various drugs containing quaternary ammonium salts - QUAS and pyrethroids as active insecticidal substances.

A known method for controlling keratophagous insects with the use of a preparation containing synthetic pyrethroid as alpha-active substance alpha-metrine (0.04-0.06 mass%), polyoxyethylene glycol ethers of higher fatty alcohols C ₁₂ -C ₂₀ , lavender oil, essential and aqueous ethanol solution (Patent RU 2214093 C2, A01N 25/04, A01N 53/06, A01M 1/00, publ. 10/20/2003).

The disadvantage of this tool is: relatively high cost, toxicity to humans and warm-blooded animals, lack of environmental harmlessness. In addition, most pyrethroid biocides contain chemical solvents that reduce the quality of raw materials and goods.

A contact action preparation is also known for the extermination of keratophage insects using an agent that includes deltamethrin, O-xylene, calcium alkyl (C10-C18) -benzenesulfonate, butylhydroxytoluene, citral ethoxylated with 9-12 moles of ethylene oxide alkylphenol (the alkyl group is represented by the trimer ), as well as distilled water as a solvent (Patent RU 2119283 C1, A01N 25/04, A01N 53/06, publ. 09/27/1998).

The disadvantages of this method are that after such disinsection, the materials and the environment contain residues of chemicals for a long time, which creates environmental harmlessness, toxicity and allergic problems for warm-blooded animals, and also worsens the consumer properties of the fabric.

The closest prototype of the invention to the proposed drug according to the technical nature and the achieved result is a method of exterminating keratophage insects using an insecticidal agent containing 0.01-60 wt. % of the quaternary ammonium salt - clathrate-didecyldimethylammonium bromide, ethyl or isopropyl alcohol and a pH regulator (Patent RU 2251844 C1, D06M 13/46, A01N 33/12, publ. 20.05.2005).

The disadvantages of the tool are: a relatively high cost, lack of environmental friendliness with high concentrations of HOURs.

The task of the invention is the construction of an effective and environmentally friendly insecticidal preparation for protection against keratophagous insects: larvae of moths and skin-eaters.

The technical result of the claimed invention is the creation of a preparation comprising an insecticidal active ingredient (AI) - avermectin B1a hemisuccinate or abamectin, isopropyl alcohol, tween-80 (polyoxyethylene sorbitan monooleate), dimexide (dimethyl sulfoxide) and 1,2-propylene glycol.

The technical result of the invention is achieved due to the qualitative and quantitative composition of the components that make up the drug, which is aimed at improving efficiency and creating an environmentally friendly product. Hemisuccinate Avermectin B1a, which is part of the preparation, was not previously known (synthesized by the authors of this application, Zavarzin I.V., Dzhafarov M.Kh., Mirzaev MN, Kolobov A.V., Chernoburova E.I., Bobova T.A., Patent RU 2453553 C1, C07H 19/01, C07H 17/08, publ. 20.06.2012) and was not used as an ingredient in preparations used against keratophagous insects.

The essence of the invention is as follows: the proposed new ratio of selected ingredients, provides the drug with high insecticidal activity. The drug contains the following ratio of ingredients (wt.%):

avermectin B1a hemisuccinate or abamectin 0.5-2.0 isopropyl alcohol 43.0-48.0 dimexide 1.2-2.3 Twin 80 1.0-1.8 1,2-propylene glycol up to 100

The implementation of the proposal is demonstrated by the following specific examples.

Example 1. A composition is prepared containing 1.5% avermectin B1a hemisuccinate, 44% isopropyl alcohol, 1.7% dimexide, 1.5% Tween-80 and up to 100% 1,2-propylene glycol.

The resulting preparation is tested as an insecticidal agent with respect to test objects - the moth Tineola bisselliella and the skin eater Attagenus smirnovi Zhant. standard methods adopted in the study of the effectiveness of contact action drugs against keratophagous insects (P 4.2.2643-10 p. 6.3.6 and MU 3.5.2 1759-03 p. 4.21).

Acute insecticidal effect was evaluated by direct irrigation of insects with a product diluted 1000 times — 28-30 day old moth caterpillars and 11-12 week old skin beetle larvae on an edible tissue substrate — cloth (10 × 10 cm). The experience was taken into account after 24, 48, 72 hours. All experiments were performed in triplicate using at least 30 insects in each experiment.

As a result of the experiment, a 100% biocidal effect of the preparation was established with respect to moth caterpillars and skin eater larvae.

Example 2. All operations are carried out as in example 1, but the test objects are treated with the drug, diluted 3,000 times and 5,000 times.

In this case, a 50-70% and 0-50%, respectively, biocidal effect is observed.

Example 3. A composition is prepared containing 1.5% abamectin, 44% isopropyl alcohol, 1.7% dimexide, 1.5% Tween-80 and up to 100% 1,2-propylene glycol, i.e. the composition of the drug is the same as in example 1, but as the active substance contains abamectin instead of hemisuccinate Avermectin B1a. The processing of insects is carried out as in example 1.

The insecticidal activity of the drug is 100% when diluted 1000 and 3000 times, and when diluted 5000 times, the activity is 50-70%.

Example 4. Compose a composition as in example 1, but containing 0.5% hemisuccinate avermectin B1a. Further, all operations are carried out as in example 1.

The insecticidal activity of the drug when diluted 1000, 3000, 5000 times is 50-70%, 0 and 0%, respectively.

Example 5. Compose a composition as in example 1, but containing 2.0% hemisuccinate avermectin B1a. Further, all operations are carried out as in example 1 and 2.

The insecticidal activity of the drug when diluted 1000, 3000, 5000 times is 100%, 70-100% and 50-70%, respectively.

Example 6. Compose a composition as in example 1, but containing 2.0% abamectin. Further, all operations are carried out as in example 1 and 2.

The insecticidal activity of the drug when diluted 1000, 3000, 5000 times is 100%, 100% and 70-100%, respectively.

Example 7. Make up the composition of the drug as in example 1, and the acute insecticidal effect is evaluated by free contact by treating a tissue sample (cloth, 10 × 10 cm) with a product diluted 1000 times, at a rate of 10 g / m ² (until slightly moistened) ) A day after applying the drug, insects were planted. Accounting for the death of insects and evaluation of effectiveness was carried out after 24, 48 and 72 hours. All experiments were performed in triplicate using at least 30 insects in each experiment.

As a result of the experiment, a 100% biocidal effect of the preparation was established (diluted 1000 times - working solution) with respect to moth caterpillars and skin-bearer larvae.

Example 8. All operations are carried out as in example 7, but the acute insecticidal effect is evaluated by diluting the drug 3,000 and 5,000 times.

In this case, the insecticidal effect was 50-70% and 0-50%, respectively.

Example 9. The composition of the drug is made as in example 1, but the biocidal effect of the agent is evaluated by determining the residual effect of the drug on test objects. The tests were carried out on glass, plywood and fluff a month after processing (based on the consumption rate of 10 g / m ^2), the studied insects (caterpillars of the moth and larvae of the skin eater) were planted on them. The experience was taken into account after 24, 48, 72 hours. To avoid the spread of test objects, insects were covered with a Petri dish on top. All experiments were performed in triplicate using at least 30 insects in each experiment.

As a result, the insecticidal effect of the agent at a dilution of 1: 1000 was 100% in relation to the caterpillars of the moth and 50-70% of the skin-bearer larvae.

Example 10. All operations are carried out as in example 9, but the biocidal effect of the agent is evaluated by determining the residual effect of the drug when diluted 3000 and 5000 times.

It is shown that the residual effect of the drug when diluted 3,000 times is 50-100% against moth larvae and 20-70%. When diluted 5000 times, the biocidal effect amounted to 20–50% in relation to moth caterpillars and 10–40% in skin-bearer larvae.

Based on the analysis of experimental data on the assessment of biocidal activity of various formulations of drugs and the selection of a method for preparing working dilution, it was found that the most optimal is the composition of the drug, including wt. %:

avermectin B1a hemisuccinate or abamectin 1,5 isopropyl alcohol 44.0 dimexide 1.7 Twin 80 1,5 1,2-propylene glycol up to 100

This formulation, when diluted 1000 times, provides the maximum biocidal effect against insect keratophages. Formulations containing active substances (avermectin B1a hemisuccinate and abamectin) at lower concentrations have lower activity, and at higher (more than 1.5%) DV concentrations, the economic performance of the drug worsens and technological problems arise with the dissolution of the components.

Thus, the materials presented demonstrate the high efficiency of the proposed drug when used against moth caterpillars and skin-eater larvae. At low concentrations of DV, the drug has a selective biological effect and high entomological activity, due to the mechanism of action of the active substance of the drug (hemisuccinate avermectin B1a or abamectin). Selective toxicity to insects is the effect on the value of the current of chlorine ions through the membranes of nerve and muscle cells of the parasites. The main target is glutamate-sensitive chlorine channels, as well as gamma-aminobutyric acid receptors (GABA). A change in the current of chlorine ions disrupts the conduction of nerve impulses, which leads to paralysis and death of insects.

Along with this, the pronounced lipophilic properties of avermectins (avermectin B1a hemisuccinate, abamectin hemisuccinate) increase the intake of DV drugs in the body of insects, thereby causing their high insecticidal activity.

In addition, the use of a qualitatively new synthesized substance as the active substance allows overcoming the resistance of pests to long-lasting previously used insecticides.

At the same time, the main advantage of the proposed tool is environmental safety and its relatively low toxicity to humans and animals, which eliminates environmental pollution and intoxication of workers. Therefore, the invention allows to increase the effectiveness of prevention and protection against keratophagous insects due to the high insecticidal activity of the drug when diluted 1000 times and can be used to ensure sanitary and hygienic safety in everyday life, industry and in warehouses where products made of keratin-containing materials are stored.

References

1. Patent RU 2214093 C2, 10.20.2003.

2. Patent RU 2119283 C1, 09/27/1998.

3. Patent RU 2251844 C1, 05.20.2005.

4. Patent RU 2453553 C1, 06/20/2012.

5. Guidelines MU 3.5.2.1759-03 "Methods for determining the effectiveness of insecticides, acaricides, development regulators and repellents used in medical pest control", p. 4.21.

6. Guidance R 4.2.2643-10 "Methods of laboratory research and testing of disinfectants to assess their effectiveness and safety", paragraph 6.3.6.

Claims (2)

A keratophage insecticide preparation containing an insecticidal active ingredient and auxiliary components, characterized in that it contains avermectin hemisuccinate B _1a or abamectin, and the auxiliary components are isopropyl alcohol, dimexide, Tween-80 and 1,2- propylene glycol in the following ratio, wt.%: avermectin B _1a hemisuccinate or abamectin 0.5-2.0 isopropyl alcohol 43.0-48.0 dimexide 1.2-2.3 Twin 80 1.0-1.8 1,2-propylene glycol up to 100