RU2803968C2 - Insecticide composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to agents for control of synanthropic insects, namely to an insecticide composition. The insecticide composition contains a mixture of powders of diatomite and silica gel, at the following ratio: diatomite powder – 10-90 wt.%, silica gel powder – 10-90 wt.%. Powders have a particle size from 1 to 200 mcm. The composition additionally contains an additive in amount of 1-10 wt.% in the form of powder with a particle size from 1 to 200 mcm of marshallit or aluminum oxide.

EFFECT: proposed insecticide composition has a synergetic effect, which provides a high degree of destruction of insects and a speed of their death.

3 cl, 1 tbl, 5 dwg, 1 ex

Description

The invention relates to means for controlling insects, namely to an insecticidal composition containing a mixture of diatomaceous earth and silica gel powders, and can be used to kill bedbugs, cockroaches and other insects in the home or at work.

The insecticidal effect of powders containing small, hard particles with sharp edges is due to the structural features of the external skeleton of insects - the cuticle. The cuticle has an outer translucent layer - the epicuticle - with a thickness of 1 micron. This layer contains a lipoprotein complex - cuticulin, stabilized by quinones, but does not contain chitin. The cuticle layer contains lipids (lipoids) and wax-like substances. The epicuticle is waterproof, which sharply reduces the evaporation of water from the surface of the body and allows insects to survive and adapt to existence in conditions of moisture deficiency.

Damage to the epicuticle due to the mechanical action of sharp cutting particles or the dissolution of waxes with organic solvents leads to rapid loss of moisture in insects. The literature describes the death of insects - granary pests from dusting grain with powders of certain non-toxic substances, called the “Zacher effect”. This effect is based on the ability of microparticles of such powders, in particular diatomite, to scratch the lipid-wax layer, which turns into a “molecular sieve” through which water easily evaporates. As a result, the insect dies from dehydration. In addition, the porous particles of powders can adsorb lipid and wax components of the epicuticle, which also increases water evaporation.

State of the art

The use of mountain flask as an insecticide is known (AS USSR No. 692123, IPC A01N61/00, 1986). This insecticide has shown to be effective against fleas, but its effectiveness against household insects (bugs, cockroaches, etc.) has not been studied.

An insecticidal composition for controlling cockroaches and other insects is known, disclosed in US patent US5576007, November 19, 1996. The composition is made on the basis of zeolite powder and may additionally include other porous minerals, in particular diatomite. Zeolites have the ability to effectively absorb water and water vapor, which makes them widely used as drying agents. However, zeolite particles do not have good abrasive properties to effectively destroy the epicuticle and dramatically increase the evaporation of moisture from the surface of the body of insects. The introduction of an abrasive - diatomaceous earth - into the composition only in the form of an additive cannot significantly enhance the insecticidal effect, which causes its relatively low efficiency.

A well-known anti-bed bug drug “Hector” is a powder of 98% hydrophilized silicon dioxide, which, like zeolites, is an effective moisture absorber. Photographs taken using an electron microscope (Fig. 1) show that the powder particles are mainly spherical granules of various sizes, which does not provide high abrasive properties of the powder. However, the effectiveness of the drug itself suggests that it is still sufficient to, in combination with the high hydrophilicity of the powder, provide the necessary insecticidal effect.

It is known to use diatomite powder as a non-toxic insecticide (see, for example, RF patents RU 2660282, 07/05/2018 and RU 2653368, 09/12/2017), as well as the insecticidal agents “ECOKILLER” and “Hector” against crawling insects, which are loose diatomite powder with an average particle size of 25-30 microns. Diatomite belongs to sedimentary rocks and consists of fossilized algae flaps (diatoms) with high porosity and adsorption ability. The main component (70-98%) of diatoms is silicon dioxide (silica), which has high hardness and strength. The lattice skeleton and high hardness of diatoms create a large number of cutting edges that effectively scratch the epicuticle of insects and cause death of insects due to increased evaporation of moisture.

In contrast to the drug “Hector” against bed bugs, in the preparations “Hector” against crawling insects and “ECOCILLER”, photographs taken using an electron microscope (Fig. 2 and Fig. 3.) show the presence of fragments of lattice valves of diatoms, which suggests that these drugs work mainly due to the abrasive destruction of the epicuticle of insects, although the adsorption absorption of moisture by diatomite also takes place.

The effectiveness of this kind of insecticidal preparations could be increased by their combined use with powdered substances that absorb moisture well. However, to date this approach has received virtually no development.

The only known patent is RU2704443 C1, which describes an insecticidal composition containing a powder of a porous mineral - diatomite and boric acid. According to particular embodiments of the invention, the composition may additionally contain an additive of hydrophilic silicon dioxide powder with a particle size from 1 to 200 microns in an amount of 1 to 14 wt. %.

The patent presents the results of experiments assessing the effectiveness of insecticidal mixtures at various ratios of components. However, the studies varied only the ratio of the mixture of diatomite powder with the addition of 15% hydrophilic silicon dioxide and boric acid powder. A study of the insecticidal activity of the mixture without the addition of silicon dioxide, as well as the influence of the amount of added silicon dioxide, has not been carried out, which does not allow us to assess the real contribution of the addition of silicon dioxide to the overall insecticidal properties of the preparation. In the patent itself, the increase in efficiency is explained by the synergistic effect of abrasive diatomaceous earth powder and the toxic effect of boric acid, which penetrates the body of insects as a result of mechanical damage to the cuticle, and the role of the addition of silicon dioxide is not discussed.

Therefore, as prototypes we took the insecticidal compositions described in Russian patents RU 2660282, 07/05/2018 and RU 2653368, 09/12/2017), as well as the insecticidal agents “ECOKILLER” and “Hector” against crawling insects, containing loose diatomite powder

Disclosure of the invention

The technical problem of the claimed invention is to eliminate the above-described disadvantages of analogs and increase the effectiveness of the insecticide.

The technical result of the invention is to increase the rate of death of insects, as well as the level of their damage, expressed in the ratio of the number of dead insects to the total number of insects exposed to the composition.

The specified technical result is achieved in the claimed invention due to the fact that the insecticidal composition contains a mixture of diatomite powder (Fig. 4) in an amount of 10-90 wt.% and silica gel powder (Fig. 5) in an amount of 10-90 wt.%. Moreover, these powders have a particle size from 1 to 200 microns.

In addition, according to particular embodiments of the invention:

- the composition contains a mixture of diatomite powder in an amount of 72 wt. % and silica gel powder in an amount of 28 wt. %.

- the composition additionally contains an additive of marshalite powder with a particle size from 1 to 200 microns in an amount of 1-10 wt. %;

- the composition additionally contains an additive of aluminum oxide powder with a particle size from 1 to 200 microns in an amount of 1-10 wt. %;

Unlike analogues, the composition of the claimed composition uses a combination of diatomaceous earth and silica gel powders, which in the specified proportions ensure the achievement of a synergistic effect, which consists in a significant increase in the rate of death of insects, as well as the level of their damage. This effect is explained by the complex influence of the following factors.

1. The diatomite particles used have a developed surface with sharp edges (Fig. 4) and cause mechanical damage to the waxy cover of the outer layer of the cuticle due to the abrasive effect (scratch the outer layer).

2. As a result of abrasive damage, a more pronounced Zacher effect occurs, in which porous particles of silica gel and diatomaceous earth actively absorb the waxy coating of the insect and water, which leads to more intense loss of moisture.

As a result of the combined action of these mechanisms, the claimed composition demonstrates significantly higher insecticidal activity, which cannot be achieved with the separate use of diatomaceous earth and silica gel powders. In addition, the specified quantitative composition is essential for the claimed composition. When the content of diatomite particles is less than 10 wt. % their abrasive effect on the insect will be insignificant.

Carrying out the invention

The claimed composition is a mechanical mixture of 10-90 wt. % diatomite powder and 10-90 wt. % silica gel powder. In addition, it is possible to introduce the addition of marshalite powder in an amount of 1-10 wt. % and aluminum oxide powder in an amount of 1-10 wt. %.

Diatomaceous earth and silica gel powder can have sizes from 1 to 200 microns. However, it is most preferable to use particles with an average of 5-50 microns, which allow the powder to adhere well to insects at the slightest contact.

To prepare the composition, the powders are mechanically mixed using any device known to a person skilled in the art.

To test the effectiveness of the claimed composition, the insecticidal activity of a mixture of diatomite powder and silica gel against bed bugs Cimex lectularius was studied.

To set up the experiment, we used the method of planting insects on the treated test surface. 200 mg of the product was applied to a plywood test surface measuring 10x10 cm (corresponding to a consumption rate of 20 g/ ^m2 ) and distributed evenly. Adult bedbugs, 20 copies each. without separation by gender, they were planted on the treated surfaces in exposure meters. In the control treatment, insects were placed on untreated plywood. The experiments were repeated three times. The counting was carried out after 24 hours. The experiments were carried out at a temperature of 22-25 ° C and a relative air humidity of 50-90%. After several days after the death of all insects, the composition can be removed from surfaces.

Experiment results

Efficacy of samples against bed bugs

Sample No. Insect mortality (%)
in...h 24 48 No. 1(diatomite) 80 100 No. 2 (silica gel) 100 - No. 3 (diatomite mixture (72%) - silica gel (28%) 100 - Control 0 0

All samples showed high activity against bed bugs of the resistant race. After 24 hours, the death of 100% of insects was observed when using pure silica gel (sample No. 2) and a patented formulation (sample No. 3). At the same time, pure diatomite (sample No. 1) caused the death of approximately 80% of bedbugs in 24 hours, which is slightly lower than that of samples No. 2 and No. 3. The addition of powdered silica gel to diatomite increased the activity of the composition to the level of pure silica gel. Considering that the cost of silica gel is several times higher than the cost of diatomaceous earth, such a composition, with equal insecticidal activity, will have a cost lower than that of pure silica gel.

Despite the fact that the effect of the composition has been demonstrated on bedbugs, it will be clear to a person skilled in the art that it will also be effective against other insects, since the mechanism of action on their outer integument will be the same. In particular, the described composition is promising for combating cockroaches, silverfish and woodlice.

Claims (6)

1. An insecticidal composition containing diatomaceous earth powder, characterized in that it additionally contains silica gel powder, wherein the composition contains components in the following ratio, wt.%: Diatomite powder - 10-90, silica gel powder - 10-90, wherein the powders have a particle size from 1 to 200 microns. 2. The composition according to claim 1, characterized in that it additionally includes an additive of marshalite powder with a particle size from 1 to 200 microns in an amount of 1-10 wt.%. 3. The composition according to claim 1, characterized in that it additionally includes an additive of aluminum oxide powder with a particle size from 1 to 200 microns in an amount of 1-10 wt.%.