RU2797448C1 - Agricultural adjuvant “biogor” - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention is related to agricultural adjuvants. The adjuvant for agricultural purposes "Biogor" contains an ethoxylated surfactant, a water-retaining agent and a defoamer, and a synergistic mixture of ethoxylated fatty alcohols of the C₁₂-C ₁₄ fraction, ethoxylated fatty alcohols of the C₉-C₁₂ fraction and hydrogenated oil is used as a surfactant, in the following ratio of components, in wt. %: alcohols of C₁₂-C₁₄-10 fraction, alcohols of C₉-C₁₂-80 fraction, hydrogenated oil - 10, while the adjuvant contains components in the following ratio: surfactant - 80%; pH regulator - 5%; humectant - 13%; defoamer - 2.0%. The optimal concentration of the adjuvant in the working aqueous solution during seed treatment before sowing is 2.5-3.5 mg/l. The optimal concentration of the adjuvant in the working aqueous solution when treating the vegetative part of plants is 500 ml/l at a flow rate of the working solution of 200 l/ha.

EFFECT: proposed adjuvant for agricultural purposes "Biogor" provides an increase in dispersion and stability of working solutions of pesticides, an improvement of the sprayability and stickiness of the applied working solutions of plant protection products and activators of their growth and development, an acceleration and increase of degree of penetration of active substances of plant protection products and their assimilation by biological objects, a decrease of consumption of active substances and increase of effectiveness of their impact, allowing to prolong the period of their action and retaining its properties when using hard water.

3 cl, 3 tbl

Description

The invention relates to the production of agricultural crop products and is intended to increase the effectiveness of pesticides, plant growth and development activators.

Modern agriculture cannot do without plant protection chemicals (pesticides) used to control weeds, pathogens and other harmful macro- and micro-organisms. However, the use of pesticides has a negative side - pesticide stress - an environmental factor that leads to significant restructuring of all elements of the agrosystem and a significant weakening of their biological potential. Pesticides have a particularly negative effect on soil microflora. There is a violation of regulatory processes, which is accompanied by outbreaks of mass reproduction of harmful species of phytophages.

The most important role in solving the problem of pesticide stress belongs to adjuvants - multicomponent preparations based on surfactants. Surfactants ensure uniform spreading of aqueous solutions of pesticides over the leaf surface, as a result, the area covered by the sprayed solutions on the leaf surface increases and a more uniform penetration of active substances through the epicuticular layer of the leaf is ensured. At the same time, dripping of drops of sprayed solutions from the leaf surface is practically excluded.

Adjuvants minimize the problems of using pesticide solutions such as poor wetting, rapid evaporation from the leaf surface, incompatibility of components in the solution, foaming, etc.

The use of an adjuvant in the working solutions of pesticides in the treatment of vegetative plants makes it possible to reduce the rate of their application without losing the qualitative and quantitative indicators of the yield, and while maintaining the current standards, to increase the degree of plant protection. Currently, adjuvants are produced as independent preparations for universal use, and are also included in liquid fertilizers, chemical protection products, biological activators, etc.

Adjuvant formulations are known from the prior art, most of which are based on the effects inherent in surfactants, i.e. The main active ingredients in the composition of the adjuvant are surfactants, as a rule, of a non-ionic type.

This line is most reflected in the decision on the patent RU No. 2539495 IPC A01N 25/30, publ. 08/20/2013, in which the formula of the agricultural composition of alkoxylation products used as an adjuvant corresponds to the following structure:

R ¹ (CO) _m -[R ² O] _n R ³ ,

Where

R ¹ - linear or branched, saturated or unsaturated hydroxy-functional radical containing - 30 carbon atoms;

R ² - group of ethylene, propylene, butylene;

R ³ - hydrogen or acetyl group, where C=1÷8 atoms;

m = 0÷1, n = 3÷100 etc.

The disadvantage of the known composition is, according to the applicant, the wide coverage offered by the above formula, because this includes (in large quantities) compounds that do not have adjuvant properties. In this case, it is necessary to conduct special studies in order to optimize the composition of the adjuvant for all the numerous components of the formula. These products cannot claim to be environmentally friendly, low toxicity or biodegradable.

Patent RU 2611815, IPC A01N 25/30, 03/01/2017, "Adjuvant to increase the effectiveness of pesticides", where the main component of the composition is ethoxylated sodium lauryl sulfate, was adopted as a prototype. The drug has properties that are characteristic of an adjuvant and expands the range of industrial adjuvants. However, the use of ethylenediaminetetraacetic acid (EDTA) in the composition of the preparation at a concentration of up to 2% does not allow the use of this adjuvant in the production of organic products, since EDTA salts, entering the environment, form water-soluble complexes with heavy metal ions present in soils in undissolved form. In the prototype, a single product is proposed as a surfactant. The critical micelle concentration for ethoxylated sodium lauryl sulfate is 0.9 g/l, and the surface activity is 53 units (72 units for water). EDTA salts are stable, poorly biodegradable, which contributes to the penetration of heavy metals from sedimentary rocks and soil into groundwater and reservoirs.

The objective of the invention is to maximize the degree of plant protection with a minimum consumption of adjuvant by providing a maximum reduction in the surface tension of the working solution of pesticides with a minimum content of adjuvant in the solution.

The problem is solved by using a mixture of ethoxylated fatty alcohols of the C12-C14 fraction, a mixture of ethoxylated fatty alcohols of the C6-C12 fraction and hydrogenated castor oil as a surfactant in the adjuvant composition, which has a synergistic effect, significantly lowering the surface tension of the aqueous solution.

When creating compositions (mixtures) of nonionic surfactants (including surfactants that differ in the length of the hydrocarbon radical or the number of moles of ethylene oxide), synergistic effects occur, resulting in a significant decrease in the surface tension of the solution.

The technical result of using the proposed adjuvant for agricultural purposes "Biogor" is to increase the dispersion and stability of working solutions, and as a result, improve the "sprayability" and "stickiness" of the applied working solutions of plant protection products and activators of their growth and development; acceleration and increase in the degree of penetration of active substances of plant protection products and their assimilation by biological objects, a decrease in the consumption of active substances, an increase in the residence time of the mixture on the leaf surface due to a decrease in moisture evaporation, as well as an increase in the effectiveness of their impact. In addition, the adjuvant for agricultural purposes "Biogor" allows you to prolong the period of their action and retains its properties when using hard water.

The essence of the invention is that in the adjuvant "Biogor" for agricultural purposes, containing ethoxylated surfactants, water-retaining agents and defoamers, a mixture of ethoxylated fatty alcohols of the C ₁₂ -C ₁₄ fraction, a mixture of ethoxylated fatty alcohols of the C fraction is used as a surfactant. ₆ -C ₁₂ , and hydrogenated oil, in the ratio of the components of the mass%:

alcohol fraction C ₁₂ -C ₁₄ - no more than 10,

alcohol fraction C ₆ -C ₁₂ - no more than 80,

hydrogenated oil - no more than 10.

At the same time, the adjuvant contains: 80% of the synergistic composition of nonionic surfactants; 1-5% - pH regulator; 5-15% - water-retaining substances; 0.1-2.0% - defoamer. The composition of nonionic surfactants used for the production of adjuvant is a mixture of nonionic surfactants corresponding to the general formula: R'O - (R''O) _n - H, where

R' is a radical based on higher fatty alcohols with 9-18 carbon atoms.

R'' - means a group of ethylene oxide or propylene oxide or mixtures thereof,

n - means an integer between 3 and 10.

The proposed adjuvant for agricultural purposes "Biogor" can be effectively used with the combined use of fertilizers, growth activators and biopesticides in one product (except when their incompatibility is experimentally shown).

The composition of nonionic surfactants corresponding to the general formula R'O-(R''O) _n -H provides the maximum effective reduction in the surface tension of aqueous solutions in comparison with the original components, therefore, it allows to achieve the desired wetting effect at a minimum concentration of active substances ( tables 1 and 2).

The results of studies of the surface tension of surfactant mixtures (table 1, table 2) show that the resulting synergistic effect is most manifested when the concentration of oxyethylated alcohols C6-C12 up to 80% in the mixture (table 2 option 1).

Studies of the impact of the adjuvant on the environment have been carried out. As a result of the tests, it was found that the Biogor adjuvant is rapidly degradable (class 1 according to GOST 32509-2013) and has low phytotoxicity (class 1 according to GOST 33777-2016).

The effect of the agricultural adjuvant "Biogor" on the efficiency of seed germination was assessed according to the method of Belgorod State Agrarian University. V.Ya. Gorin (BSAU named after Gorin).

Intact and untreated oat seeds were placed in Petri dishes covered with one layer of paper, 15 pieces each. Then, 2 ml of an adjuvant solution (a mixture of ethoxylated C6-C12 fatty alcohols - 80%, a mixture of ethoxylated fatty alcohols of the C12-C14 fraction - 10%, hydrogenated castor oil - 10%) was poured into Petri dishes at the following concentrations: 1.5 mg/l; 3.1 mg/l; 6.2 mg/l; 12.5 mg/l. 2 ml of drinking water was added to the control cup. Petri dishes with moistened seeds were placed in a thermostat. The tests were carried out at a temperature of 22°C. The duration of the tests is 3 days. At the end of the exposure period, germinated seeds were removed from Petri dishes and the lengths of their main roots were measured. The length of the main roots of the seeds in the control experiment was (22-25) mm, the length of the main roots in the solutions of the adjuvant concentration (1.5-6.2) mg/l is (30-35) mm, at an adjuvant concentration of 12.5 mg/l, the length of the main roots of oats decreases up to (25-27) mm. (table 3)

Thus, the test results show that during the germination of oat seeds at adjuvant concentrations in solution (1.5-6 mg/l), the length of the main roots increases by an average of 20% compared with the control experiment. Therefore, small concentrations of the adjuvant remaining in the soil after the treatment of plants will increase the rate of seed germination during subsequent plantings. It is possible to use the adjuvant "Biogor" in the treatment of seeds before sowing. The recommended adjuvant concentration range is 2.5-3.5 ml/liter: even at this high dilution, the adjuvant allows a significant increase in root length to be obtained.

When using the adjuvant as part of the bioactivator "Biogor" series "KM" in the treatment of the vegetative part of plants, the optimal application rate per hectare was determined up to 100 g/ha. When applying 200 liters per hectare of the adjuvant working solution, its concentration will be 500 mg/liter.

The adjuvant works effectively, including when using hard water for the preparation of aqueous solutions of agrochemical preparations, however, it does not contain complexing agents such as ethylenediaminetetraacetic acid salts, which are highly stable in the environment and have the ability to retain heavy metal salts in a water-soluble state.

As part of the Biogor adjuvant, raw materials were used, which make it possible to classify it as low-hazardous in terms of phytotoxicity (see Appendix “Biodegradability Test Protocol”). The selection of the composition of nonionic surfactants was carried out, which makes it possible to significantly reduce the surface tension of aqueous solutions of the mixture, and thereby ensure good wetting of the leaf surface with solutions, which ultimately increases the effectiveness of pesticides and bioactivators. Known additives (antifoam) can reduce the foaming of the proposed product, reduce the evaporation of moisture on the surface of the treated sheet.

Adjuvant "Biogor" was experimentally tested on the fields of the experimental station of the Belgorod State Agrarian University. According to the results of tests in comparison with the drug "Adyu" based on isodecyl alcohol ethoxylate. The drug developed by the authors showed the best results (“The results of studying the effectiveness of the adjuvant produced by LLC “NTC BIO” on soybean crops” are attached).

The proposed composition of nonionic surfactants provides the maximum effective reduction in the surface tension of aqueous solutions in comparison with the original components, therefore, allows you to achieve the desired wetting effect with a minimum concentration of active substances. The minimum concentration of the adjuvant remaining in the soil after the treatment of plants will increase the rate of seed germination during subsequent plantings, which confirms the effectiveness of the proposed adjuvant. Even with a strong dilution, the adjuvant "Biogor" allows you to get a significant increase in the length of the roots. The initial raw materials make it possible to classify it as low-hazardous in terms of phytotoxicity. The agricultural adjuvant "Biogor" works effectively, including when using hard water for the preparation of aqueous solutions of agrochemical preparations, and does not contain complexing agents, which are highly stable in the environment and the ability to retain heavy metal salts in a water-soluble state.

Thus, the problem of the invention is solved.

Claims (14)

1. Adjuvant for agricultural purposes "Biogor", containing an ethoxylated surfactant (surfactant), a water-retaining agent and a defoamer, characterized in that a synergistic mixture of ethoxylated fatty alcohols of the C ₁₂ -C ₁₄ fraction, ethoxylated fatty alcohols of the C ₉ fraction is used as a surfactant -C ₁₂ and hydrogenated oil, in the ratio of components, wt. %: alcohols of fraction С ₁₂ -С ₁₄ - 10, alcohols of fraction C ₉ -C ₁₂ - 80, hydrogenated oil - 10, while the adjuvant contains: Surfactant - 80%; pH regulator - 5%; humectant - 13%; defoamer - 2.0%, and ethoxylated fatty alcohols correspond to the general formula R'O-(R''O) _n -H, where R' is a radical based on higher fatty alcohols with 9-18 carbon atoms, R''O is the ethylene oxide radical, n is an integer between 3 and 10. 2. Adjuvant according to claim 1, characterized in that the optimal concentration of the adjuvant in the working aqueous solution during seed treatment before sowing is 2.5-3.5 mg/liter. 3. Adjuvant according to claim 1, characterized in that the optimal concentration of the adjuvant in the working aqueous solution when treating the vegetative part of plants is 500 ml/l at a flow rate of the working solution of 200 liters per hectare.