RU2531340C1 - Method of protection of plants from pests - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention is a method of protection of plants from pests, mainly from larvae of sea-buckthorn flies, caterpillars of gelechiid moths, cabbage white butterfly, sod webworms, cabbage, pear and snowball aphids, Colorado potato beetles, including processing plants with the working solution containing insecticide and succinic acid. In the working solution oxalic acid is additionally added in the following ratio of components, wt %: insecticide (0.01-0.3), succinic acid (0.005-0.01), oxalic acid (0.001-0.003), water - the rest.

EFFECT: invention enables to reduce costs, to expand the range of action of the working solutions with the significant stabilising effect in all weather conditions and to obtain environmentally friendly products.

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Description

The invention relates to agriculture, in particular to plant protection products, and can be used to protect plants from various insects, for example, to protect against larvae of sea buckthorn fly, caterpillars of the notch moth, cabbage whitewood, meadow moth, cabbage, pear and viburnum aphids, Colorado beetle.

Known chemical pest control agents using various pesticides (MA Prokofiev. Protection of Siberian gardens from pests. M., 1987. - 236 s).

A disadvantage of known chemical pest control agents is that pesticide residues pollute the environment and agricultural products, worsening its quality.

A known method of combating plant pests using succinic acid as the acid (see RF patent No. 2050776 according to IPC A01N 37/04, publ. 12/27/1995).

Unlike chemical pesticides, succinic acid is completely harmless. It is used in medicine, food industry and agriculture. Succinic acid is harmless to pollinating bees that die when using traditional insecticides. Using succinic acid eliminates environmental pollution and livestock products. The use of succinic acid as an acidide is effective against various aphids.

The deficiency of succinic acid as an acidide is an insufficiently wide spectrum of its action.

The closest in technical essence is a method of protecting plants from pests, including treating plants with a solution containing succinic acid and aphidine insecticide, with a mixture of these acidic agents diluted in 10 l of water in the following ratio, wt.%: Succinic acid - 0.005; afidin-1 (see RF patent No. 2316960 for IPC A01M 1/20, published on July 20, 2007).

The known method has shown good results in protecting against sucking pests, for example, when spraying plants against aphids, however, it is ineffective against sea buckthorn flies and leaf-eating pests. The disadvantages of this method also include the high consumption rate of expensive components used to obtain a working solution, the effectiveness of which, as shown by further studies, significantly depends on weather conditions.

The technical result of the claimed method is to obtain an effective working solution with a wider spectrum of activity with a significant stabilizing effect in relation to weather conditions, cost reduction compared to known methods for producing a working solution using high consumption rates of expensive chemical and biologically insecticides, as well as obtaining environmentally friendly products better quality.

The technical result is achieved by the fact that in the method of protecting plants from sea buckthorn fly larvae, caterpillars of the white-winged moth, cabbage whitewood, meadow moth, cabbage, pear and viburnum aphids, Colorado potato beetle, comprising treating plants with a working solution containing an insecticide and succinic acid, according to the invention Actellik or phytoverm is used as an insecticide in the working solution and oxalic acid is additionally added in the following ratio of components, wt.%: Actellik or phytoverm (0.01-0.3), amber ki Lot (0.005-0.01), oxalic acid (0.001-0.003) Water - the rest.

The boundary values of the constituent components in the working solution for processing obtained by the proposed method were determined experimentally.

The inventive method of protecting plants from pests is illustrated by the example of a specific embodiment, in which widely known effective drugs are used as insecticides: actellic chemical insecticide, as well as phytoverm biological insecticide.

Actellic insecticide in the amount of 0.1 l was dissolved in 100 l of water, previously poured into the sprayer tank OVT - 1A. In a separate container filled with water up to 1 l, 50 g of succinic acid and 10 g of oxalic acid were dissolved. Then the acid solution was poured into the tank of the sprayer, the volume of the working solution was brought up to 1000 l and spraying was carried out.

Obtaining a working solution by the proposed method is carried out similarly and when using the Fitoverm insecticide.

The method was carried out in the stands of sea buckthorn "Experimental Field" Research Institute of Horticulture in Siberia.

The experiment on the use of the chemical insecticide Actellica and the biological insecticide phytoerm in combination with succinic and oxalic acid was carried out in four replicates using sea buckthorn varieties Chuiskaya and Elizaveta.

The death of sea buckthorn fly larvae was taken into account under the MBS-9 microscope by viewing 100 fruits in each repetition and counting live and dead individuals 7-18 days after treatment. The resulting material was processed according to the method of K.A. Gara (Methods of testing the toxicity and effectiveness of pesticides. M. 1963. - 286 p.).

Actellic and phytoerm insecticides consumption rates were determined experimentally.

The effectiveness data of the proposed method of protecting plants from pests in comparison with known methods of protection by treatment with a working solution containing a chemical insecticide, such as Actellik, or a biological insecticide, such as Phytoverm, are presented in the following nine tables. Moreover, the first columns of these tables indicate the names of the options for working solutions, namely the working solution of the actellic insecticide without additives (hereinafter “Actellic”) and the working solution with this insecticide obtained by the proposed method (hereinafter “Declared with Actellic”), as well as working a solution with an insecticide phytoverm without additives (hereinafter “Fitoverm”) and a working solution with this insecticide obtained by the proposed method (hereinafter “Declared with phytoverm”).

A sample of the actellic insecticide working solution for comparison was taken in the following ratio of components, wt.%: Actellic 0.01; succinic acid 0.005; oxalic acid 0.001, and a sample of the working solution of the phytoerm insecticide was obtained in the following ratio of components, wt.%: phytoverm 0.3; succinic acid 0.01; oxalic acid 0.003.

Table 1 Comparative data on the effectiveness of working solutions using actellica insecticide against sea buckthorn flies (processing July 25, 2009) Options The death of larvae,% August 02 August 13th Control (no processing) 27,2 25.7 Actellik (1 l / ha) one hundred one hundred Declared with an actellic (0.5 l / ha) one hundred one hundred Declared with an actellic (0.4 l / ha) one hundred one hundred Declared with an actellic (0.3 l / ha) one hundred one hundred Declared with an actellic (0.2 l / ha) one hundred one hundred Declared with an actellic (0.1 l / ha) one hundred one hundred Declared with an actellic (0.05 l / ha) 83,4 71, NDS 0.5 0.8 0.6

Tests have shown that the use of a working solution obtained by the proposed method can significantly reduce the consumption of an expensive drug, in a specific example, when using the chemical actellic insecticide by 10 times, which also significantly reduces the negative effect of the chemical insecticide on the environment.

table 2 Comparative data on the effectiveness of working solutions using phytoverm insecticide against sea buckthorn flies (processing July 23, 2009) Options The death of larvae,% July 30th 10th of August Control (no processing) 29.3 17.5 Fitoverm (6 l / ha) one hundred one hundred Declared with fitoverm (5 l / ha) one hundred one hundred Declared with fitoverm (4 l / ha) 99,4 one hundred Declared with fitoverm (3 l / ha) 98.9 one hundred Declared with fitoverm (2 l / ha) 73.6 80,4 NDS 0.5 7.6 7.1

Tests have shown that the use of a working solution obtained by the proposed method can reduce the consumption of an expensive drug, for example, in a specific example with a fitoverm 2 times.

Table 3 Yield and weight of sea buckthorn fruits on various processing backgrounds (2012 tests - the second year of fruiting) Options Weight 100 fruits, g Productivity, t / ha The increase in control,% Control - no processing 50.1 1.8 - Actellik 1 l / ha 51.0 3.9 116 “Declared with an actress” (0.1 l / ha) 53.1 4,5 150 Fitoverm 6 l / ha 51,4 3.2 77 "Claimed with fitoverm" (3 l / ha) 54.5 4.3 138 NDS 0.5 0.8 0.98 -

In variants in which the plants were treated with a working solution obtained by the proposed method of plant protection, the weight of the berries and the yield significantly increase.

Toxicological analysis performed by gas-liquid chromatography showed that when using an actellic working solution with a consumption rate of 1 l / ha, residues of actellic in an amount of 0.310 mg / kg were detected. According to sanitary standards, toxic residues in the fruits of the medicinal culture of sea buckthorn are not allowed.

Toxicological analysis showed the absence of actellic in the fruit when used with a consumption rate of 0.1 l / ha in a working solution prepared in composition with other components in accordance with the claimed method. Thus, the claimed method of protecting sea buckthorn from a sea buckthorn fly allows you to get environmentally friendly products.

Against the background of the processing by the claimed method, the indicators of the biochemical composition of the fruits in terms of oil, carotenoid, sugar content improved, and an increase in the sugar-acid index was also noted, which indicates an improvement in the palatability of the fruits and is important when eating fresh berries.

When using a working solution of a biological preparation of a phytoverm with a consumption rate of 6 l / ha, and also when using a working solution obtained by the proposed method in which a phytoverm with a consumption rate of 3 l / ha is used as an insecticide, no toxic residues were found in the fruits. The use of phytoerm in the present method showed a significant increase in the oil content in the fruits.

Table 4 The economic efficiency of working solutions of Actellik and phytoerm with various methods of preparing a working solution while protecting sea buckthorn from sea buckthorn flies. Options Productivity, t / ha Costs, thousand rubles / ha Cost, thousand rubles / ha Revenue, thousand rubles / ha Profit, thousand rubles / ha Profitability level,% Control - no processing 1.8 79.7 44,2 82.8 38.6 48,4 Actellic 1 l / ha 3.9 11.5 28.5 179.4 67.9 60.8 Declared with an actellic (0.1 l / ha) 4,5 120.1 26.6 207.0 86.9 72.3 Fitoverm 6 l / ha 3.2 110.6 34.5 147.2 36.6 33.0 Declared with fitoverm (3 l / ha) 4.3 122.3 28,4 198.8 76.5 62.5

When treated with a working solution, in which an Actellic insecticide of 0.1 l / ha is used as an insecticide, the highest level of profitability is obtained - 72.3%.

When processing with a working solution, in which the fitoverm insecticide is used as an insecticide, the profitability of fruit production in the present method increased from 33 to 62.5%, i.e. almost doubled.

When processing with a working solution in which only one phytoverm insecticide is dissolved is 6 l / ha, the profitability of fruit production is lower than in the control. This means that the use of a phytoerm insecticide is economically justified only when a working solution is obtained by the proposed method, which allows to reduce the consumption rate of an expensive phytoerm insecticide by 2 times.

Below are two examples of the effectiveness of the working solution of the actellic insecticide and the working solution obtained by the proposed method when using the Actellic insecticide in low dosages (tables 5 and 6), as well as three examples of the effectiveness of the working solution of the phytoerm insecticide and the working solution obtained by the claimed method for the use of the insecticide phyto farm (tables 7, 8, 9).

Table 5 Comparative data on the effectiveness of working solutions with actellic insecticide against various pests Options The death of pests,% Sagittarius Moth Caterpillars cabbage white caterpillars Control - no processing 25.0 0.1 Actellic 1 l / ha one hundred one hundred Declared with an actellic (0.4 l / ha) one hundred one hundred NDS 0.5 0.7 2,3

The use of a solution obtained by the proposed method when using an actellica insecticide against vymechatelny moth caterpillars and cabbage larvae caterpillars showed absolute (100%) efficiency and allowed to reduce the consumption rates of expensive actellic insecticide from 1 l / ha (when used without additives) to 0.4 l / ha when used in solution along with other ingredients in accordance with the claimed method.

Similar data were obtained using the proposed method against the Colorado potato beetle (table 6).

Table 6 Comparative data on the effectiveness of working solutions with actellic insecticide against the Colorado potato beetle Options The death of the Colorado potato beetle,% Control - no processing 0.3 Actellic 1 l / ha one hundred Declared with an actellic (0.4 l / ha) one hundred NDS 0.5 4.3

Table 7
Comparative data on the effectiveness of phytoerm working solutions against various types of aphids Options The death of aphids,% green apple pear umbrella viburnum cabbage Control - no processing 4.7 5.2 2.6 18.2 Fitoverm 1 l / ha one hundred 98.1 96.9 one hundred Declared with fitoverm (0.5 l / ha) 99.7 one hundred 98 one hundred NDS 0.5 2,5 2,3 2.7 1.8

The use of a working solution obtained by the proposed method using a phytoerm insecticide in pear, viburnum and cabbage aphids provided a significant increase in efficiency and allowed to reduce the dose of an expensive phytoverm insecticide by 2 times compared with a phytoerm working solution without additives 1 l / ha.

It was also revealed that aphid predators (predatory gall midge larvae, predatory mites) completely die (100%) when using a phytoerm insecticide working solution, and when using the working solution obtained by the proposed method, they remain viable.

Table 8 Comparative data on the effectiveness of working solutions of phytoerm against Colorado potato beetle Options The death of the Colorado potato beetle,% beetles larvae Control - no processing 0.3 1.3 Figoverm 2 l / ha one hundred one hundred Declared with fitoverm (1 l / ha) 98.5 one hundred NDS 0.5 5L 3.8

A decrease in the consumption rate of the phytoerm insecticide from 2 l / ha to 1 l / ha showed 100% efficiency against Colorado potato beetle larvae and almost complete death of the beetles.

Table 9 Comparative performance data against caterpillars of a meadow moth (leaf-eating) Options Caterpillars of a meadow moth,% Control - no processing 0.6 Fitoverm 2 l / ha one hundred Declared with fitoverm (1 l / ha) one hundred NDS 0.5 5,4

The working solution obtained by the proposed method, which uses the biological insecticide phytoverm as an insecticide at a flow rate of 1 l / ha in combination with the other claimed components with the corresponding component ratios, causes 100% death of the tracks of the meadow moth.

Additionally, the presence of oxalic acid in it, which creates a stabilizing effect of protection against pests, regardless of weather conditions, increases the efficiency of the working solution obtained by the proposed method. Oxalic acid maintains the level of acidity, is an additional effective antiseptic that increases the resistance of plants to pests and diseases.

The working solution obtained by the proposed method, due to the content in it of succinic acid, known as a growth promoter, promotes better development of plants, more active entry into fruiting, increased yield and improved biochemical composition of fruits.

In the manufacture of the working solution and tests, the most popular actellics and phytoverms were arbitrarily used as an insecticide, and randomly selected above pests were tested as pests. Moreover, the compositions and ratios of components during the tests changed, without going beyond the minimum and maximum limits.

Tests have shown that the compositions of the working solutions give the effect of killing pests in which the ratio of the components corresponds to the proposed minimum and maximum limits, namely an insecticide (whether it is actellik or phytoverm) - 0.01-0.3; succinic acid - 0.005-0.01; oxalic acid - 0.001-0.003.

The working solution that differs in composition from the proposed boundary values of the ratio of components does not cause pest death.

The inventive method allows to reduce the consumption rate of expensive insecticides by 2-10 times, to increase the profitability of fruit production due to the combined effect of the proposed ingredients in accordance with their boundary values used to prepare the working solution.

The proposed method of protecting plants from pests compared with known methods can reduce costs and expand the spectrum of action of working solutions with a significant stabilizing effect in any weather conditions, as well as obtain environmentally friendly products.

Claims (1)

A method of protecting plants from pests, mainly from larvae of sea buckthorn fly, caterpillars of the vomitous moth, cabbage whale, meadow moth, cabbage, pear and viburnum aphids, Colorado potato beetle, comprising treating plants with a working solution containing an insecticide and succinic acid, characterized in that as An insecticide in a working solution is used Actellik or Fitoverm and additionally add oxalic acid in the following components, wt.%:
Actellik or Fitoverm 0.01-0.3 succinic acid 0.005-0.01 Oxalic acid 0.001-0.003 Water Rest