RU2080790C1 - Method of struggle against spider mite in the protected soil - Google Patents

Abstract

FIELD: agriculture, chemical plant protection. SUBSTANCE: plants in the protected soil were treated with composition containing, wt.-%: sunflower oil, 0.5; green soap, 0.5; carboxymethylcellulose sodium salt 0.2; and water, the balance taken at amount 0.4 l/1 m². EFFECT: enhanced effectiveness. 4 tbl

Description

 The invention relates to agriculture and can be used in horticulture, vegetable growing and floriculture.

There is a known biological method of combating an ordinary spider mite in a protected ground, based on the use of a biological product bitoxibacillin (E. P. Ader. Biomethod in Estonian greenhouses. Plant protection 1990, N1, pp. 24-27). However, the effectiveness of biological products in many respects depends on the regimes of temperature and humidity in protected ground. So, for example, the effectiveness of bitoxibacillin against spider mites on roses in various temperature and humidity modes ranges from 61 to 90%
There is evidence that insect and tick resistance to biological products is developed, as in the case of pesticides.

 In addition, biological preparations based on bacteria are close in their toxicity to chemical protective agents, and therefore they are far from harmless to humans (S. S. Izhevsky, Classical biomethod of achievement and problems. Plant protection 1990, N1, p. 10 -12). In this regard, biological products did not find application against an ordinary spider mite in protected ground.

 The closest in technical essence and the achieved result (prototype) is a method of combating an ordinary spider mite using sunflower oil and green soap as an acaricidal composition (L.D. Shamanskaya et al. Assessment of insect-acaricidal properties of sunflower oil. Plant Protection 1992, N2, p.62).

 The method is as follows. To prepare a stable aqueous emulsion, green soap is used as a stabilizer. The optimal ratio of sunflower oil and green soap is 1: 1. To obtain a uterine emulsion, 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 min using a RT-1 tissue grinder. The resulting uterine emulsion was used to prepare a working emulsion of the required concentration. Plants were sprayed with a working emulsion in a protected ground against an ordinary spider mite.

 The disadvantages of this method are not sufficiently high acaricidal activity and weak ovicidal action, which necessitates multiple treatments with an interval of 8-10 days.

 The aim of the invention is to increase acaricidal activity and ovicidal action of a method using a composition containing sunflower oil and green soap, as well as reducing labor costs by reducing the frequency of treatments, improving sanitary and hygienic working conditions in protected ground.

This goal is achieved by processing in the protected soil of plants compositions containing 0.5 sunflower oil, 0.5 green soap, 0.2 sodium carboxymethyl cellulose (Na CMC), the rest of the water at a flow rate of 0.4 l per 1 m ² .

 The method is as follows.

To obtain a masterbatch emulsion, 50 g of green soap and 500 ml of water were added to 50 g of sunflower oil, placed in a homogenizer tank equipped with a screw mixer, and intensively mixed at a speed of rotation of the mixer of 4.5-5 thousand rpm for 10 minutes. Received a stable, non-stratified emulsion. 20 g of Na CMC and 500 ml of distilled water were placed in a beaker. To swell Na CMC for 1 2 h was heated on a stove at a temperature of 80 90 ^o C and stirred until complete dissolution, and then cooled. An oil emulsion was added to the resulting colloidal solution of the sodium salt of carboxymethyl cellulose with vigorous stirring. A concentrate was obtained. The concentrate volume was brought up to 10 L — a working fluid was obtained, which was used for spraying from a backpack sprayer with a consumption rate of 0.4 L per 1 m ² .

 The optimal processing time is the mass hatching of larvae, with a population density of 8 12 individuals per 1 leaf.

A test of the effectiveness of the sodium salt of carboxymethyl cellulose in its pure form was carried out at a concentration of a colloidal solution of 0.1, 0.15, 0.2, 0.25, 0.3%. A mother colloidal solution was prepared in the following way. In a beaker was placed 1; 1.5; 2; 2.5; 3 g of Na CMC, respectively 250, 375, 500, 675, 750 ml of distilled water were added. To swell Na CMC, the colloidal solution was heated for 1 2 hours on a stove at a temperature of 80–90 ^° C and stirred until it was completely dissolved, then cooled, then the uterine colloidal solution was brought to a volume of 10 L and a working colloidal solution was obtained, which was used for spraying from a knapsack sprayer with a consumption rate of 0.4 l per 1 m ² . The optimal processing time is the mass hatching of larvae, with a population density of 8 12 individuals per 1 leaf.

 The method is carried out in a protected ground on sea buckthorn, black currant, honeysuckle, wild strawberry, lemon. Experiments on spraying these cultures from a spider mite using a colloidal solution of Na CMC were carried out in parallel with the test with acaricidal compositions containing sunflower oil and green soap; sunflower oil, green soap and Na CMC in 4 repetitions. The death of ticks was taken into account by viewing 10 damaged leaves in each replicate under the MBS-9 microbe. The resulting material was processed according to the method of K. A. Gar (Methods for testing the toxicity and effectiveness of insecticides - M. 1963 p. 286).

 Table 1 presents data on determining the optimal ratios of sunflower oil, green soap and Na CMC in an acaricidal composition used against ordinary spider mites in sheltered soil using sea buckthorn as an example, as well as on the effectiveness of a pure colloidal Na CMC solution tested as film former in the same culture.

 As can be seen from the data table. 1, the effectiveness of the colloidal solution of Na CMC as film former, in its pure form, is weak. The death of the mobile phases of the tick was 1.9-3% of eggs 2-2.6%. The low processing efficiency is explained by the fact that the film formed upon spraying with a colloidal Na CMC solution breaks when the liquid dries and remains on the leaves in the form of small particles that are uneven and far do not completely cover the surface of ticks and eggs. As can be seen from the data in Table 1, such treatment is practically ineffective, since the death of ticks and eggs is within the control parameters. We also noted this on other garden plants.

 A mixture of sunflower oil and green soap in a ratio of 1: 1 (0.5 and 0.5%) ensures the death of the mobile phases of the tick by 88.5% of eggs by 12.1%. Sunflower oil, being in a droplet dispersed system, penetrates the spiracles of ticks and clogs them. The death of ticks comes from suffocation.

 When Na CMC is added to a mixture of sunflower oil and green soap, the effect of the acaricidal composition is enhanced by the formation of a strong polymer film, which, after drying of the liquid, uniformly covers the shell of the eggs and mobile phases, which significantly increases the processing efficiency, i.e., Na CMC provides synergism of the acaricidal composition consisting of sunflower oil and green soap, with the optimal ratio of components providing the highest effect with respect to the mobile phases of the tick (99%) and eggs (95; 1%), as follows sunflower oil 0.5, green soap 0.5, Na CMC 0.2, water the rest.

 This acaricidal composition provided an increase in efficiency in relation to mobile phases in comparison with the prototype by 10.5% (99.0 against 88.5%) in respect of eggs by 83% (95.1 against 12.1%).

 Therefore, the addition of Na CMC to the acaricidal composition, which includes sunflower oil and green soap in a ratio of 1: 1, provides synergism or enhancing its action.

 Low ovicidal acaricidal composition, considered as a prototype, leads to a sharp decrease in processing efficiency due to the mass hatching of larvae from eggs. So, during the hatching of larvae with a single treatment with this composition, the number of ticks was 30 individuals per leaf and 16 after twofold (with an interval of 8 days), and after 30 days 65 ticks were counted on 1 leaflet (Table 2).

 With such an infection, sea buckthorn plants suffered greatly from the pest.

 Control plants, 30 days after the start of the experiment, were killed by a spider mite. At the same time, the acaricidal composition containing 0.5 sunflower oil, 0.5 green soap and 0.5 CMC Na, providing a high initial effect (death of mobile phases of 99.1% of eggs 95.1, table 1), showed pronounced deterrent effect (decrease in the intensity of nutrition and reproduction). The number of all phases of the tick per 1 leaf after a single treatment was 7 individuals, after a double 3, and after 30 days only 5, that is, the population density did not change significantly. With this number of ticks, plants practically do not suffer from the pest and the need for re-processing occurs 2 months after the first.

 When using a composition containing 0.5 sunflower oil and 0.5 green soap (prototype) to maintain plants in a satisfactory phytosanitary condition, systematic treatments are required, with an interval of 8-10 days throughout the growing season in a protected ground.

 Our studies showed that the composition of the invention containing sunflower oil 0.5, green soap 0.5 and Na KTsM 0.2, allows to reduce the multiplicity of treatments in comparison with the prototype by 3 times (table. 3), which is three times reduces labor costs for protective measures.

 The acaricidal composition proposed as an invention is harmless to humans and the environment, which does not adversely affect the sanitary and hygienic working conditions in protected ground. This composition has a selective effect on the predatory tick of phytoseulus. As can be seen from the data in Table 4, under the influence of an acaricidal composition containing 0.5 sunflower oil, 0.5 green soap and 0.2 CMC Na, only 30 larvae of the 1st age died.

 From the above table. 4 data shows that older larvae, adult ticks and their eggs almost completely retain viability. Therefore, in the protected ground in the fight against the common spider mite, the proposed acaricidal composition can be combined with the classical biomethod.

 Thus, the proposed acaricidal composition, which includes: sunflower oil 0.5% green soap 0.5% Na CMC 0.2% in comparison with the prototype has a higher acaricidal activity (99 versus 88.5%), strong suicidal (95.1 versus 12.1%), as well as a deterrent effect, which allows to reduce the multiplicity of treatments against an ordinary spider mite by 3 times and reduce labor costs by more than three times.

 The proposed acaricidal composition is harmless to humans and the environment, selective for the predatory mite phytoseyulyus.

 This composition can be used in the fight against spider mites on sea buckthorn, honeysuckle, wild strawberries, black currants, lemon in open and protected ground, as well as in other garden, vegetable and flower crops. It is also effective against aphids.

Claims (1)

A method of combating an ordinary spider mite by treating a plant in a protected soil with a composition comprising sunflower oil and green soap with a weight ratio of 1: 1 and water, characterized in that the composition further comprises a sodium salt of carboxymethyl cellulose in the following ratio of components in wt. sunflower oil 0.5; green soap 0.5; sodium carboxymethyl cellulose 0.2; the rest of the water, at a rate of composition consumption of 0.4 l per 1 m ² .

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