RU2812191C1 - Film-type adjuvant for latex-based plants - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: film-type adjuvant for plants based on an aqueous dispersion of a polymer obtained by copolymerization of acrylic, methacrylic acids and/or their derivatives, contains Yarlat BNK latex as an aqueous dispersion of the polymer and additionally contains xanthan gum as a stabilizer-thickener in the following ratio of initial components in wt.%.: 0.1 of Yarlat BNK latex, 0.05 of xanthan gum, the rest is water.

EFFECT: proposed film-type adjuvant is easy to prepare and improves the practical efficiency of using chemical plant protection products.

1 cl, 1 tbl, 4 ex

Description

The invention relates to agriculture and can be used as a film-type adjuvant for plants, reducing pesticide consumption rates and the environmental load on the environment.

A known composition for increasing the effectiveness of herbicides [RF Patent No. 2452179, 2012], consisting of an aliphatic alcohol (20-50% wt), nonionic surfactant (50-80% wt.) and water (0-5% wt.), which has high adhesive properties, elasticity and vapor permeability. The disadvantage of this composition is the impossibility of obtaining a dense coating on the surface of the plant leaf.

A known composition [international application WO 03094614, published November 20, 2003] is based on a salt of sulfated alkoxylated alcohol (sodium lauryl sulfate), fatty alcohol (lauryl alcohol), a complexing component (EDTA), a component that increases the solubility of a pesticide or herbicide (sodium xylene sulfonate, ethanol) and water. The disadvantage of this composition is the high cost and relatively uneven spreading of the composition over the sheet.

The composition of an adjuvant based on ethoxylated sodium lauryl sulfate is known [RU 2611815 C1, published 03/01/2017]. Ethoxylated sodium lauryl sulfate is a surfactant and reduces the surface tension of the adjuvanted pesticide solution. To prepare the composition, take ethoxylated sodium lauryl sulfate - 20-30%, EDTA - 1-2%, diamine ketone - 1-5%, silicone defoamer - 0.2-1%, isothiazolinone preservative - 0.1-0.2%, water up to 100%. This composition helps to obtain a dense leaf coating that is not washed off by precipitation and thereby increases the effectiveness of pesticides. The disadvantages of this adjuvant include the need for very strict adherence to the ratio of components during its preparation, which is due to the physicochemical properties of the substances included in its composition. If we take the ratio of components below the minimum limit, then a weather-resistant and dense coating of the sheet is not formed, and exceeding the maximum limit leads to a composition that is unstable over time.

A known additive to working solutions of pesticides is spartan, consisting of polyoxyethylene monolaurate, alkoxylated fatty amine, acetic acid (Web site www.yankina-agro.ru/doc/spartansglifosatami2.pdf). CnapTaH is a one-of-a-kind, non-ionic adjuvant based on alkoxylated fatty amines. It is used to improve the stickiness/adhesion, wetting, penetration and rain resistance of both plant protection products and microelements, as a technical additive to disinfectants, fungicides, insecticides, and plant growth stimulants. However, spartan contains a highly toxic component - an alkoxylated fatty amine; in addition, its aqueous solutions have increased surface tension values.

Patent RU 2543816 C1 (published on March 10, 2015) describes a composition intended to increase the effectiveness of pesticides, which contains (% wt): acetic acid (7-15); polybasic acid (1-7); dimethylalkylamine (5-17); monoethanolamine (0.1-1.7); superwetting agent (0-4); propylene glycol (10-25); as well as oxyethylated primary fatty alcohols C ₈ -C ₁₀ containing 4-10 ethoxyl groups (19-45), oxyethylated-hydroxypropylated fatty alcohol C ₁₀ -C ₁₂ containing 5-7 moles of ethylene oxide, 2-4 moles of propylene oxide ( 5-20).

The proposed composition for increasing the effectiveness of pesticides reduces the surface tension of their solutions, thereby improving the wettability of plants. However, the multicomponent nature of this composition complicates its preparation, and relatively high concentrations of components may subsequently negatively affect its biodegradation.

Patent RU 558542C2 (published on August 10, 2015) describes a composition for increasing the activity of pesticides, which consists of a graft copolymer obtained by free radical polymerization of a monomer mixture containing N-vinyl lactam, vinyl ester and polyether. The disadvantage of this composition is its toxicity and the ability of vinyl ester to polymerize under the influence of light.

The use of adjuvants in agriculture is often associated with a number of problems. Thus, adjuvants reduce the stability of formulations, especially suspension formulations, due to an increase in viscosity and particle size. Other adjuvants, although effective, are too expensive to produce on an industrial scale. When developing new adjuvant formulations, our goal was to eliminate such problems.

The closest thing to the latex-based adjuvant composition we propose is the film composition described in the patent WO 2008/015185 (published on 02/07/2008), which we adopted as a prototype. The adjuvant is an aqueous composition containing from 30 to 60% by weight of a polymer with an average molecular weight of 1000 to 10000, obtained by polymerization: a) from 60 to 90 mol%. acrylic or methacrylic acid and/or 2-acrylamido-2-methylpropanesulfonic acid; b) from 10 to 40 mol%. ester of acrylic or methacrylic acid and C ₈ -C ₁₈ alcohols. This composition is used as a dispersing agent and stabilizer in pesticide agrochemical preparations.

The objective of the present invention is to create an adjuvant for plants, which will significantly reduce the cost of protective measures in crop production and the pesticide load on the environment.

To solve this problem, we tested a number of industrially produced latexes as the basis for potential adjuvants. It was found that the best results were shown by latexes containing acrylic acid derivatives, especially Yarlat BNK latex (Yaroslavl latex butadiene nitrile carboxylate latex, TU 2294-415-05842324-2006). Below are the technical conditions of latex: Document No. 76.01.07.229.T.000327.04.06 dated April 6, 2006 Sanitary and epidemiological conclusion on project documentation Type of form: sanitary and epidemiological. conclusion on projects, TU (territorial org, 2005) Typographic number of the form: 215617

Project documentation: Technical specifications TU 2294-415-05842324-2006 "Synthetic latex YARLAT BNK", Litera O.

COMPLIANCES with state sanitary and epidemiological rules and regulations: SanPiN 2.2.2.1327-03 "Hygienic requirements for the organization of technological processes, production equipment and working tools", GOST 12.4.021-75 "SSBT. Ventilation systems. General requirements", GOST 12.1.007 -76 "SSBT. Harmful substances. Classification and general safety requirements", GN 2.2.5.1313-03 "MPC of harmful substances in the air of the working area", SanPiN 2.1.7.1322-03 "Hygienic requirements for the disposal and disposal of production and consumption waste", SanPiN 2.1.5.980-00 "Hygienic requirements for the protection of surface waters."

Basis: GOST 2.114-95 "ESKD. Technical conditions. Rules for construction, presentation and design." Sanitary and epidemiological conclusion for products, sanitary and epidemiological conclusions and information cards for chemical safety and health protection on the constituent components. Sanitary expert conclusion No. 110 dated March 29, 2006.

Developer: OJSC Scientific Research Institute "Yarsintez", 150040, Yaroslavl, Oktyabrya Ave., 88.

This latex is an aqueous dispersion of a copolymer of butadiene, acrylic acid nitrile and methacrylic acid.

A film-type adjuvant for plants is proposed based on an aqueous dispersion of a polymer obtained by copolymerization of acrylic, methacrylic acids and/or their derivatives, characterized by the fact that Yarlat BNK latex is used as an aqueous dispersion of the polymer, the adjuvant additionally contains xanthan gum and water as a stabilizer-thickener with the following ratio of initial components in% wt.:

Latex Yarlat BNK 0.1 Xanthan gum 0.05 Water rest

An additional component (natural xanthan gum) increases the viscosity of the adjuvant composition and helps accelerate the decomposition of the resulting film in the environment.

Immediately before use, the adjuvant is mixed with water in a ratio of 1:9 and the working solution thus obtained is used to treat various parts of plants.

The following are examples illustrating the invention.

The method for obtaining the adjuvant is given in examples 1-2, its biotesting is in examples 3-4.

Example 1. Preparation of a 1% adjuvant solution containing xanthan gum.

Load 10 ml of a 10% solution of Yarlat BNK latex into a measuring glass, add 10 ml of a 5% solution of xanthan gum, and adjust the volume of the solution with distilled water to 100 ml.

Example 2. Preparation of a working adjuvant solution with a concentration of 0.1% latex.

Immediately before use, the prepared 1% solutions are diluted with water in a ratio of 1:9.

Example 3. Effect of adjuvant on the effectiveness of insecticide use.

The studies were carried out on an apple tree infected with aphids. During the experiment, a solution of the insecticide Alatar was used, as well as a solution of the insecticide Alatars with a developed adjuvant. The dosage of the drug Alatar when treating control branches was 5 ml/10 l of water. The consumption rate is 1-2 liters per 10 ^m2 .

Spraying was carried out in the daytime, in calm weather, using hand-held sprayers, individual for each solution. Before spraying, the solutions were thoroughly shaken. The branches were treated with appropriate solutions. The duration of the experiment was 7 days. The effectiveness of the adjuvant was assessed visually. A solution of the insecticide Alatar with the developed adjuvant showed good effectiveness. After 3 days, the result was already visible; on the fifth day, all the aphids disappeared. The Alatar insecticide solution showed results only on the 5th day.

Example 4: Adjuvant field trial.

To determine the effect of adjuvants on the ability to increase the efficiency of pesticide use, tests were carried out in the field conditions of the Yaroslavl region, Nekrasovsky district. The experimental plot was located on fallow territory, that is, overgrown arable land that had not been cultivated for 10 years. The soil of the site is meadow-turf, medium loamy, on which the following meadow plants grow: nettle, mantle, goosefoot, sedge, meadow clover, dandelion, plantain, sedge, fragrant spikelet, horsetail, meadow fescue, common bentgrass, sour sorrel.

To combat unwanted plants, specialists have a wide variety of herbicides at their disposal. Roundup is one of the most commonly used herbicides. Active ingredient: glyphosate, 360 g/l.

A herbicide was added to each solution in an amount of 1.5 ml (according to the instructions, 100 ml of Roundup is diluted in 1 liter of water). The liquid consumption was 50 ml per 1 ^m2 .

The experiment was carried out in triplicate. The duration of the experience is 35 days. The area of the plots was 1 m. The experimental plots had side and end (end) protective strips 50 cm wide. Lateral (along the long side of the plot) in order to exclude the influence of neighboring plots (transfer of soil during cultivation, fertilizers during application, etc.), end ones - to protect the recording area of the plot from accidental influences. In addition to the protective strip of plots, a protective strip about 5 meters wide was allocated around the entire experimental plot.

Spraying was carried out using hand sprayers individual for each solution. Spraying was carried out in the daytime, in calm weather.

In order to determine the biological effectiveness of the used latex solutions containing the herbicide, a quantitative-weight method was used to count weeds. The herbicidal effect was measured by the reduction in the number of wet weight of weeds relative to the control 35 days after the start of the experiment. The biological effectiveness of the herbicide is expressed in % and is assessed by the reduction in the number (or wet weight) of weeds in the treated area compared to the control (without treatment with the drug). The results are shown in Table 1.

Claims (2)

Film-type adjuvant for plants based on an aqueous dispersion of a polymer obtained by copolymerization of acrylic, methacrylic acids and/or their derivatives, characterized in that Yarlat BNK latex is used as an aqueous dispersion of the polymer; the adjuvant additionally contains xanthan gum and water as a stabilizer-thickener the following ratio of initial components in% wt.: latex Yarlat BNK 0.1 xanthan gum 0.05 water rest