RU2175477C2 - Method of aphid control - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves plants spraying with soap-containing aphidicide composition that has additionally at least one carbonic acid salt in the following ratio of components, % per 1 l of water: green soap, 0.3-0.5; vegetable lipids, for example, mustard oil, 0.3-0.5; carbonic acid salt, 0.1. Invention can be used in horticulture, vegetable growing and flower growing in the opened and protected soil. EFFECT: enhanced hydrophility of working emulsion, enhanced effectiveness of treatment, broadened spectrum of aphidicide composition, absence of phytotoxicity. 2 tbl

Description

 The invention relates to the field of agriculture and can be used in horticulture, vegetable growing and floriculture of open and protected soil.

 A known chemical method of combating aphids using various pesticides (Prokofiev M.A. Protection of Siberian gardens from pests. M., 1987, 236 S.).

 The negative aftereffect of pesticides is well known. It manifests itself in the pollution of agricultural products and the environment with pesticide residues, in violation of the human immune system. In addition, the effectiveness of pesticides is falling year after year. This is due to the rapid emergence in pests of resistance to chemicals. To date, the resistance of insects and ticks to pesticides of all generations has been discovered.

 The closest in technical essence and the achieved result (prototype) is a method of controlling aphids using sunflower oil and green soap as an aphidicidal composition (L. Shamanskaya et al. Assessment of insect-acaricidal properties of sunflower oil. Plant Protection, 1992, No. 2, p. 62).

 The method is as follows. To prepare a stable aqueous emulsion, green soap is used as a stabilizer, and sunflower oil is used as an active ingredient. The optimum ratio of sunflower oil and green soap is 1: 1. To obtain an emulsion concentrate, 1 part of green soap (50 g) was added to 1 part of sunflower oil (50 g) and mixed in the presence of distilled water for 4 - 5 minutes using a tissue grinder RT -1.

 The resulting emulsion concentrate was used to prepare the working emulsion of the required concentration. Working emulsion sprayed against aphids. The method is effective against aphids in protected ground and against green apple aphids in apple stands.

 The disadvantage of this method is the low processing efficiency against other types of aphids due to the hydrophobicity of the integument of the pests. When the content of active substances was doubled (in 1 liter of water of green soap 1%, sunflower oil 1%), the wetting activity of the working emulsion improved, which contributed to an increase in the processing efficiency, but plant phytotoxicity was noted.

 The aim of the present invention is to increase the hydrophilicity of the working emulsion and processing efficiency, expanding the spectrum of action of the afidicidal composition, eliminating its phytotoxicity by introducing an additional component into the afidicidal composition.

 This goal is achieved by the fact that in the known method of treating plants against aphids with an apidicidal composition, which includes green soap 0.5% and sunflower oil 0.5% (based on 1 liter of water), according to the invention, the spraying is carried out with an apidicidal composition, which additionally contains at least one of the salts of carbonic acid in the following percentage ratio of components (calculated per 1 liter of water): green soap 0.3 - 0.5, vegetable lipids, such as mustard oil, 0.3 - 0.5 , carbonic acid salt of 0.1.

 The introduction of one of the salts of carbonic acid into the afidicidal composition increases the hydrophilicity of the working emulsion, which improves the processing efficiency, expands its spectrum of action and eliminates phytotoxicity, as it allows high efficiency against the background of the minimum content of active substances: green soap 0.3 - 0.5 %, plant lipids 0.3 - 0.5%.

 Comparative analysis with the prototype allows us to conclude that the claimed method meets the criterion of "novelty." An analysis of the known solutions in the study area allows us to conclude that they lack features similar to the distinctive features in the claimed method of combating aphids, and to recognize the claimed solution meets the criterion of "inventive step".

 The method is as follows. To obtain a uterine emulsion, 30-50 g of vegetable lipids, for example, mustard oil, 10 g of carbonic acid salt, were added to 30-50 g of green soap, placed in a tank of a tissue grinder PT-1 and mixed for 4-5 minutes with the addition of distilled water. Received a persistent, souffle-like mass of white color (emulsion concentrate). The concentrate volume was adjusted to 10 L, a working emulsion was obtained, which was used for spraying from a backpack sprayer with a flow rate of 0.05 - 0.5 L per plant.

 Plant lipids, being in a small-droplet dispersion system, penetrate into the spiracles of aphids and clog them, causing the effect of hypoxia. Salt of carbonic acid increases the hydrophilization of the oil emulsion during processing and additionally creates a water-depressing effect on harmful objects and accelerates their death. The increase in the hydrophilization of the oil emulsion helps to improve the efficiency with respect to many types of aphids, the integuments of which have a different-grade coating and are highly hydrophobic.

 The method is carried out in the stands of apple, blackcurrant and raspberry experimental production facilities "Barnaul" Research Institute of Horticulture in Siberia named after M.A. Lisavenko. Experiments on spraying these crops from aphids using aphidicidal compositions were carried out in 4 replicates. The death of aphids was taken into account by viewing under a microscope MBS-1 ten damaged leaves in each repetition and counting the number of living and dead individuals. Pest death was recorded 1 day after treatment. The resulting material was processed according to the method of K. A. Gara (Methods of testing the toxicity and effectiveness of insecticides. M., 1963, 286 S.).

 In the table. 1 presents data on the effectiveness of aphidicidal compositions tested against various types of aphids.

 As can be seen from the table. 1, the content in the working fluid of green soap and sunflower oil, 1% of each component (prototype 2) provides high efficiency against all types of aphids, except currant gall. However, the use of an afidicidal composition with such a high content of components is undesirable, as it causes burns to young, forming leaves. Halving the number of components (prototype 1) eliminates phytotoxicity, but it reduces the effectiveness of the treatment against gooseberry and raspberry aphids to 68.3 - 67.3%. With this ratio of active components (0.5 and 0.5%), the treatment showed low efficiency against currant gall aphids (3.2%) and only the death of green apple aphids was high - 98.8%. A sharp decrease in processing efficiency on currants and raspberries is associated with a decrease in the hydrophilicity of the working emulsion.

 To increase the hydrophilicity of the working emulsion and the processing efficiency, at least one of the carbonic salts in the amount of 0.05 - 0.25% was introduced into the afidicide composition. As can be seen from the table. 1, the optimal percentage of components, providing an optimal level of hydrophilization and high processing efficiency against gooseberry, raspberry and green apple aphids (91.3 - 99.9), the following: green soap 0.3 - 0.5, mustard oil 0.3 - 0.5, carbonic acid salt of 0.1. With this ratio of components, the processing efficiency against currant gall aphids increased to 54.0 - 55.6% against 3.2 - 13.3% in prototype 1 and 2.

 Reducing the salt content of carbonic acid in the afidicide composition to 0.05% does not provide high hydrophilicity of the working emulsion, therefore, it increases the efficiency slightly. Testing higher concentrations of carbonic acid salt from 0.15 to 0.25% also showed a decrease in efficiency. This is due to the fact that the aphidicidal composition under the action of higher dosages (more than 0.1%) of the carbonic acid salt exfoliated with the extrusion of the oil phase (Table 2).

 In this case, the possibility of obtaining a stable working emulsion was excluded, which was accompanied by a decrease in its hydrophilicity and a decrease in spraying efficiency.

 The test results of carbonic acid salt at a concentration of 0.1% against the background of the ratio of green soap and mustard oil at 0.3 - 0.5% and 0.6 - 1% practically did not differ in efficiency (Table 1). Moreover, the high ratio of green soap and mustard oil (0.6 - 1% each) in the composition with a carbonic acid salt (0.1%) also showed phytotoxicity. Therefore, the optimal percentage of the components of the new aphidicidal composition in 1 liter of water is as follows: green soap 0.3 - 0.5%, mustard oil 0.3 - 0.5%, carbonic acid salt 0.1%.

 Thus, the proposed method of controlling aphids using an aphidicidal composition, which includes green soap 0.3-0.5%, mustard oil 0.3-0.5%, carbonic acid salt 0.1% (per 1 liter water), in comparison with prototype 1 and 2, has a higher hydrophilicity and effectiveness, a wider spectrum of action (effective not only against green apple aphids, but also against gooseberries and raspberries) and does not cause phytotoxicity.

 This method of combating aphids using a new aphidicidal composition, which additionally contains a salt of carbonic acid, can be used on garden, vegetable and flower crops in open and protected ground.

 The proposed method for combating aphids using a new aphidicidal composition, which includes green soap 0.3 - 0.5%, mustard oil 0.3 - 0.5%, carbonic acid salt 0.1% (per 1 liter of water) , passed the test against various species of aphids in amateur gardens and protected ground on garden, vegetable and flower crops (Barnaul), as well as at the All-Russian Selection and Technology Institute of Gardening and Nursery (Moscow).

Claims (1)

A method of controlling aphids, including spraying plants with an aphidicidal composition containing green and vegetable oil as an active substance, as well as water, characterized in that the composition further comprises at least one of the salts of carbonic acid, and as a vegetable oil mustard oil in the following ratio, wt.%:
Green soap - 0.3 - 0.5
Mustard Oil - 0.3 - 0.5
Salt of carbonic acid - 0.1
Water - Else

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