SU1486135A1 - Method of desinsecting grain - Google Patents

Description

The invention relates to the field of storage of agricultural products and can be used in preparation for storage is correct.

The purpose of the invention is the expansion of the spectrum of exposure, reducing the consumption of insecticide and contamination of grain.

The method includes the introduction of a contact action insecticide into the Grain, wherein a mixture of permethrin and pyrimifosmethyl is used as the insecticide in a mass ratio of 1.0:

: 1.7 and a consumption rate of 2.0-5.5 g per 1 ton of grain.

Such a mixture of permethrin contains 0.7-2.0 g per 1 ton of grain, and pyrimiphosmethyl 1.3-3.5 g per 1 ton. The minimum permissible level of these substances in the grain is 2.0 and 5.0 g per 1 t respectively.

The effectiveness of pest control is due to the fact that one component of the mixture

754) METHOD FOR DISINSECTION OF GRAIN (57) The invention relates to the storage of agricultural products and can be used in preparing grain for storage. The purpose of the invention the effect of an insecticide on a complex of pests, reducing costs and contamination of grain with an insecticide. The method includes the introduction of a contact action insecticide into the grain, wherein a mixture of permethrin and pyrimifosmethyl is used as the insecticide in a mass ratio of 1.0: 1.7 and a consumption rate of 2.0-5.5 g per 1 ton of grain.

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active against insects of those species against which the other component is slightly toxic.

The lethal doses of pyrimiphosmethyl against the grain grinder and corn weevil are 61.7 and 2.6 g / t, respectively, and the doses of permethrin against insects of these species are 2.2 and 66.1 g / t, respectively. To destroy a complex of these types of insects in grain, consumption rates of one pyrimiphosmethyl 61.7 g / t or one permethrin 66.1 g / t would be required. A mixture of pyrimiphosmethyl and permethrin destroys these insects at a consumption rate of 2.05.5 g / t, i.e. the effect provides an accepted ratio.

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In the table. Figure 1 shows lethal doses of permethrin and pyrimiphosmethyl and their mixtures (1.0: 1.7) in the ratio of the main 3 insect species harmful to grain.

Table 1

Species and populations Lethal doses g / t '5 tion Nshis Permet Pirimi Mixture rin phosme teal 10 Grain Sharpener box, laboratory population 2.24 3.89 2.1 Grain Sharpener fifteen pike, population from Argentina No. 1.00 8.70 2.0

Grain Sharpener

pike, population from Argentina No. 2 0.60 61.66 1.5 20 Rice weevil, laboratory population 3.98 1,07 1.9 Mace Hrushchak, laboratory population 13.80 1.74 5,0 25 Suriname Mucoed, laboratory population 5,0 Suriname Mucoed, a population from Argentina 17.61 3.72 5.5 thirty Corn Weevil, US Population 66.10 2.63 2.6 35 Complex of species 66.10 61.66 5.5

When compiling a mixture of two insecticides, the characteristics of the resistance of insects of different species to them were taken into account. To establish the optimal ratio of components in the insecticidal mixture, the lethal doses of the most resistant insect to this component among those insect species that are more sensitive to this component than to the other in the mixture are taken as the basis for the amount of each component.

When establishing the correlation of the components in the mixture, a lethal 50 dose of permethrin for the laboratory population of the grain grinder, equal to 2.24 g / t, and a lethal dose of pyrimiphosmethyl for the Surinamese mucoed, equal to 3.72 g / t, were adopted. ^ 5

The ratio of these values gives the ratio of permethrin and pyrimiphosphomethyl in the insecticidal mixture equal to 1.0:

: 1.7.

If the mixture ratio is changed, then it will not be optimal in composition and then there will be an unproductive consumption of one of the components. If the ratio of permethrin in the mixture is less than 1.0, for example 0.9, then with the required lethal dose of 2.24 g / t, the amount of pyrimiphosmethyl in the mixture increases and instead of the required amount of 3.72 g / t it is 4.2 g / t If in the mixture we take the ratio of pyrimifosmethyl less than 1.7, for example 1.6, then with the required lethal dose of 3.72 g / t, the amount of permethrin in the mixture increases and instead of the required amount, 2.24 g / t it is 2.32 g / t

From the data table. Figure 1 shows that in order to achieve a lethal effect on insects of different species, the mixture must be used from 2.0 (rice weevil and grain grinder) to 5.5 g / t (Surinamese flour-eater).

The method of disinsection of grain is as follows.

The sprayer tank, equipped with nozzles installed above the conveyor belt for transporting contaminated grain, is loaded with an insecticidal mixture consisting of concentrates of permethrin and pyrimiphosmethyl emulsions in a ratio of 1.0: 1.7 by weight of the active substance. These insecticides are produced by the factory in the form of ready-made concentrates of emulsions, including the known content of the active substance, as well as additives in the form of solvents and emulsifiers.

A well-known permethrin-based drug called ambush is available in the form of an emulsion concentrate containing 25% of the active substance.

The actellic preparation is also available on the basis of pyrimifosmethyl in the form of an emulsion concentrate containing 50% of the active substance.

Preparations are mobile oily liquids that mix well with water. They are applied to the grain in the form of an aqueous solution sprayed to a droplet-liquid state. At the same time, up to 1 liter of water is consumed per 1 ton of grain. Insect-infected grain is loaded onto the conveyor belt and the sprayer is turned on. The grain infected by insects, passing under the nozzles, mixes with the insecticidal mixture and then enters. repository. When processing grain, the feed of the insecticidal mixture and grain is synchronized so that from 2.0 to 5.5 g of the insecticidal mixture falls per 1 ton of grain. The required dose of the insecticidal mixture is selected depending on what kind of insects the grain is infected.

The method of grain disinsection can be implemented on grain elevators, in grain depots, during transshipment of grain from ships to wagons, and during any other transshipment or movement of grain, for example, when grain is received and dispensed.

Example 1. Wheat grain infected with a grain grinder was treated with an aqueous solution of ambush products based on permethrin or actellik based on pyrimifosmethyl, or with a mixture of ambush and actellica with a mixture ratio of 1.0: 1.7 at a dose of 2.0 g / t according to the current substance.

At the same time, the amount of 25% concentrate of emulsion of ambush was 8 g / t, and 50% of concentrate of emulsion of emulsion 4 g / t. When a mixture of these drugs was used, the amount of ambush and actellica in the mixture was 0.7 and 1.3 g / t for the active substance or 2.8 and 2.6 g / t for the drug, respectively. The rate of water consumption in which these preparations were dissolved was 1 liter per 1 ton of grain. After 7 days, insect death was determined.

In the grain treated with one permethrin, 99% of insects died, with one pyrimiphosmethyl 94%, with a mixture of 100% insects.

Example 2. Permethrin or pyrimifosmethyl, or a mixture of permethrin with pyrimiphosmethyl (1.0:

: 1.7) at a dose of 5.5 g / t.

The calculation of insecticides for the preparation was carried out analogously to example 1. After 7 days, insect death was determined.

The results are shown in table. 2

t a b l and c 2 Insect species and populations The number of dead insects,%, at processing per- met ri- nom piri mi- fos— meti- scrap a mixture Grain grinder, laboratory population 100 100 100

Grain Sharpener50

box, populations from Argentina No. 1 Grain sharpener 100 97 100 box, populations from Argentina No. 2 100 56 100 Rice weevil, laboratory population 100 100 100 Mace Hrushchak, laboratory population 39 100 100 Suriname Mucoed, populations from Argentina 92 100 100 Corn weevil, populations from the USA 78 100 100

From the data table. 2 it can be seen that each insecticide individually at a dose of 5.5 g / t cannot destroy a complex of insect species, and the mixture infects all insects.

If you apply the mixture in a dose of less than 2.0 g / t, then you can not achieve the complete death of an insect of any kind. It is also impractical to use the mixture at a dose of more than 5.5 g / t, since this dose is enough to infect insects of all species, including the most stable of them - Surinamese mukoed.

Using the method of grain disinsection using a mixture of permethrin with pyrimiphosmethyl increases the efficiency of disinsection, reduces the rate of consumption of components in the mixture and reduces grain pollution with insecticides.

Claims (1)

The claims '' A method of grain disinsection, including the introduction of pyrimifosmethyl into the grain of the insecticide 7, characterized in that, in order to expand the spectrum of exposure, reduce insecticide consumption and contamination of the grain, pyrimiphosmethyl is pre-mixed with permethrin at a mass ratio of 1.7: 1, 0, and the introduction is carried out at a rate of 2.0-5.5 g per 1 ton of grain.