RU2723184C1 - Fungicide and method for production thereof - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: inventions relate to agriculture. Methods of preparing the fungicide are as follows: the base used is water which is purified from suspended and dissolved substances, then electrolysis is carried out with addition of NaCl in amount required to produce solution with concentration of 0.001 mol/l or without addition of NaCl, wherein the electrodes used are silver and copper or their alloy, using electrolysis, forming silver ions Agand copper ions Cu, from which with the help of chloride Clform silver chloride AgCl and copper chloride CuClor do not form silver and copper chlorides, then add a ligand, which is ammonia or ammonium water, under its action is dissolved silver chloride AgCl and copper chloride CuCland obtaining ammonium complexes of stable cation of diammine silver and stable copper cation during the following reactions: AgCl+2NH*HO↔[Ag(NH)]+Cl+2HO, CuCl+4NH*HO↔[Cu(NH)]+Cl+4HO or Ag+2NH=[Ag(NH)], Cu+4NH=[Cu(NH)], obtained aqueous ionic solution is mixed with fat and/or humic acids, pre-purified from large disperse particles.EFFECT: invention enables to produce a fungicide having high resistance on plants and high penetrating power.6 cl

Description

The invention relates to agriculture, in particular to plant protection products, and can be used to treat seeds and vegetative plants of vegetable and grain crops against a wide range of pathogens. More specifically, the invention relates to a fungicidal and bactericidal aqueous solution based on silver ions and copper ions obtained by electrolysis in water with the addition of chlorine, ammonia and complex fatty acids. The claimed invention is intended to combat plant diseases, seed treatment, and also as a plant growth stimulator.

Known disinfectant aqueous solution according to the patent of the Russian Federation No. 2125971 (IPC C02F 1/50, A61L 2/16, A23L 3/00). This solution contains distilled water, silver ions obtained by electrolysis of solutions using a silver anode, and as food acid, as well as citric or acetic acid in the following ratio of components wt. %: Silver ions Ag + - 0.1 ⋅ 10-5 - 1.0; Citric or acetic acid - 0.25-5.0; Distilled water - The rest. This invention is used to disinfect water and surfaces. The disadvantages include low penetrating ability through fatty films, weak algicidal and fungicidal action, as well as the practical lack of activity against parasites, which reduces its effectiveness for agricultural needs.

These disadvantages are largely eliminated in another analogue of the invention under the name "Disinfectant aqueous solution" according to the patent of the Russian Federation No. 2179155 (C02F 1/50, A01N 59/16, A61L 2/16, C02F 103/04). A disinfecting aqueous solution containing silver ions obtained by electrolysis of solutions using a silver anode, citric or acetic acid, as well as distilled water, additionally contains a concentrated solution of dried and ground seedlings or tops of potatoes and tomatoes, as well as juice or an aqueous extract from specified green plants of the initial stage of vegetation (BINGSTI preparation), or medical ethyl alcohol, or medical iodine, or 5% alcoholic solution of medical iodine or hydrogen peroxide. The analogue has a significantly higher bactericidal, virucidal effect, has parasite activity, as well as penetrating ability. The main disadvantage of the analogue is its lack of activity against spore and fungi, which requires a significant exposure time (up to 2 hours) and reduces its effectiveness.

The closest in combination of essential features analogue (prototype) is a disinfectant aqueous solution according to the international application PCT / RU 2010/000550 (A61L 2/18, A61L 101/02). Which contains silver ions and copper ions (obtained by electrolysis using silver and copper anodes, or an anode of an alloy of silver and copper), ligands (citric, acetic, phosphoric or nitric acid, ammonia or ammonia water), synergistic substances (medical ethyl alcohol , medical iodine, 5% alcohol solution of iodine, hydrogen peroxide, BINGSTI preparation - a concentrated solution of dried and crushed seedlings or tops of potatoes and tomatoes, as well as juice and water extract from these green plants of the initial stage of vegetation) and distilled water in the following ratio components,% mass: silver ions 0.1оны10-5-1.0; copper ions 0.1-10-5-1.0; ligands 0.1-10-5-5.0; synergistic substance 0.01 to 80; distilled water. The main disadvantage of the prototype is the lack of resistance to plants, low penetrating ability, the use of distilled water, the quality of the resulting basic solution, in particular its resistance, depends on its quality. In addition, the processes of preliminary water treatment and distillate production require high costs for equipment, tap water and electricity, which make up 80% of the cost of the prototype. Among other things, the working solutions of the prototype must be prepared with distilled water, which leads to their cost and inconvenience of preparation. In addition, the solution is practically unsuitable for treating plants and seed dressing, due to the lack of resistance to plants, the rapid loss of fungicidal and bactericidal qualities, and low penetration.

The task set by the developer of the invention was to create a fungicide without prototype flaws and having a higher biocidal activity, resistance, simplicity of the cooking process, low cooking costs, as well as making it possible to prepare working solutions based on tap water. The technical result consists in providing the possibility of creating a fungicide based on tap water, suitable for treating plants and seed dressing, which has high resistance to plants and high penetration, while reducing the economic cost of its production. This technical result is achieved due to the totality of the essential features.

The essence of the invention lies in the fact that the fungicide containing silver ions and / or copper ions obtained by electrolysis in water with the addition of chlorine, ligands, a synergistic substance, carbon-containing compounds and water, in the following ratios of components, volume in%:

- silver ions 0.1⋅10 ^-5 -1.0 - copper ions 0,1⋅10 ^-5 -2,0 - chlorine ions 0,1⋅10 ^-6 -2,4 - ligands 0,1⋅10 ^-5 -5,0 - synergistic substance 0.01-80 fatty and / or humic acids from 0.1 - water the rest is up to 100

At the same time, ammonia or ammonia water was used as a ligand. At the same time, hydrogen peroxide or medical ethyl alcohol, or medical iodine, or 5% alcoholic solution of iodine were used as synergistic substances. Besides, instead of fatty and / or humic acids, carbon-containing compounds are used. And as water use from suspended and dissolved substances to the level of indicators SanPiN 2.1.4.1074-01 "Drinking water" tap water or fresh natural water or distilled water. Moreover, the fungicide preparation method consists in using water as a base, which is purified from suspended and dissolved substances to the level of SanPiN 2.1.4.1074-01 “Drinking Water” indicators, then an electrolysis process is carried out with the addition of NaCl in the amount necessary to obtain a solution with a concentration of 0.001 mol / l, moreover, silver and copper or their alloy containing one of the components in an amount from 1 to 99% of the masses are used as electrodes; silver ions Ag are formed by electrolysis⁺ and copper ions Cu²⁺ of which using chlorine ions CI^- form silver chloride AgCl and copper chloride CuCl₂, then the ligand is added under the influence of which silver chloride AgCl and copper chloride CuCl are dissolved₂ and get ammonia complexes: stable colorless diamminosilver cation (1) with β_(arr)= 1,6⋅10⁷, K_nest= 9.31 ⋅ 10^-8

AgCl + 2NH ₃ ⋅ H ₂ O ↔ [Ag (NH ₃ ) ₂ ] ⁺ + Cl ^- + 2H ₂ O,

stable blue cation of copper with β _(arr) = 7.9⋅10 ¹² , K _nest = 2.14 ⋅ 10 ^-13

CuCl ₂ + 4NH ₃ ⋅ H ₂ O↔ [Cu (NH ₃ ) ₄ ] ⁺ + Cl ^- + 4H ₂ O

then the mass amount of chlorine and ammonia ions is adjusted to a level that exceeds the stoichiometric by not less than 5%, then the mass ratio of Ag + / NH3, Cu ++ / NH3 is adjusted to 1/3, the resulting aqueous ionic solution is mixed with pre-purified fatty and / or humic acids from large dispersed particles, then all components under pressure are fed into the mixer, where they are mixed, then the finished solution is fed to the bottling line in containers or in binary packaging. In addition, the components in the mixer are mixed at a temperature in the range from 20 to 55 ° C for at least 20 minutes. At the same time, mixing the aqueous ionic solution with fatty and / or humic acids is carried out immediately before use. In addition, the method of preparation of the fungicide consists in the use of water, which is purified from suspended and dissolved substances to the level of SanPiN 2.1.4.1074-01 “Drinking Water”, then the electrolysis process is carried out, and silver and copper or their alloy containing one of the components in an amount of 1 to 99% by mass, silver ions Ag ⁺ and copper ions Cu ²⁺ are formed by electrolysis, then a ligand is added under the influence of which ammonium ions NH4- and hydroxyl ions OH + are obtained and as a result of the exchange reaction form stable complex compounds: - diammine silver cation:

Ag + 2NH ₃ = [Ag (NH ₃ ) ₂ ] ⁺ ;

- copper cation:

Cu ₂ + 4NH ₃ = [Cu (NH ₃ ) ₄ ] ⁺ .

the resulting aqueous ionic solution is mixed with fatty and / or humic acids, previously purified from large dispersed particles, then all components are pressurized into a mixer, where they are mixed, then the finished solution is fed to a bottling line in a container or in a binary package.

The fungicide contains silver ions and / or copper ions obtained by electrolysis in tap water or any other water with the addition of chlorine, ligands, a synergistic substance, fatty and / or humic acids and other compounds containing carbon and purified tap or distilled water. Moreover, with the following ratios of components, the volume in%:

- silver ions 0.1⋅10 ^-5 -1.0 - copper ions 0,1⋅10 ^-5 -2,0 - chlorine ions 0,1⋅10 ^-6 -2,4 - ligands 0,1⋅10 ^-5 -5,0 - synergistic substance 0.01-80 - fatty and / or humic acid from 0.1 - water the rest is up to 100

As a ligand in the fungicide, ammonia or ammonia water can be used. As synergistic substances, hydrogen peroxide or medical ethyl alcohol, or medical iodine, or a 5% alcohol solution of iodine can be used. Instead of fatty and / or humic acids, it is possible to use other compounds containing carbon. As water, use purified tap water or fresh natural water, purified from suspended and dissolved substances to the level of SanPiN 2.1.4.1074-01 "Drinking water", or distilled water. The inventive fungicidal and bactericidal aqueous solution based on silver ions of copper, fatty and / or humic and any other organic compounds is the main fungicidal solution, which is added to the water to prepare tank mixtures and from which working solutions for processing plants are prepared. The working dose of a fungicidal and bactericidal aqueous solution is determined empirically, based on the condition of maintaining in the tank mixture the residual silver is not less than 0.05 mg / l and the residual copper is not less than 0.05 mg / l. Thus, the obtained fungicide has two or three active substances (depending on the purpose): silver ions, copper ions and chlorine ions. Chlorine in ionic form is odorless, colorless, and other physicochemical properties of gaseous chlorine. The obtained fungicide has high special properties that significantly exceed the properties of the prototype disinfectant: prolonged fungicidal, bactericidal and virucidal action, antiparasitic action, penetrating ability, stability, safety for people and animals. The combined action of silver, copper, chlorine ions, fatty and / or humic and any other organic compounds leads to a synergistic effect, in which germination is increased, the yield is increased and stored longer. When exposed to spores, mycelium, disease carriers, silver and copper ions freely penetrate the cell, inhibit their vital processes (division, germination and respiration). Active silver and copper suppresses many vital proteins in pathogen spores and do not cause strong resistance to them. Advantages of a multifunctional systemic contact fungicide and plant growth regulator with the bactericidal action of the declared organic-based fungicide of copper and silver ions (chlorine, if necessary).

A method for the production of fungicide is that water is used as a base. This water is purified from suspended and dissolved substances to the level of indicators SanPiN 2.1.4.1074-01 "Drinking water". Then, an electrolysis process is carried out with the addition of NaCl in the amount necessary to obtain a solution with a concentration of 0.001 mol / L and higher. Moreover, silver and copper or their alloy containing one of the components in an amount of 1 to 99% of the mass is used as electrodes. As a result of electrolysis, silver ions Ag ⁺ and copper ions Cu ^{2+ are} formed, of which silver chloride AgCl and copper chloride CuCl ₂ ^are formed using chlorine ions CI ^- . Then add a ligand (ammonia or ammonia water) under the influence of which silver chloride AgCl and copper chloride CuCl ₂ are dissolved and ammonia complexes are obtained:

- stable colorless diammin silver cation (1) with β _(arr) = 1.6⋅10 ⁷ , K _nest = 9.31 ⋅ 10 ^-8

AgCl + 2NH ₃ ⋅ H ₂ O ↔ [Ag (NH ₃ ) ₂ ] ⁺ + Cl ^- + 2H ₂ O,

- stable blue copper cation with β _(arr) = 7.9⋅10 ¹² , K _nest = 2.14 ⋅ 10 ^-13

CuCl ₂ + 4NH ₃ ⋅ H ₂ O↔ [Cu (NH ₃ ) ₄ ] ⁺ + Cl ^- + 4H ₂ O

Then the mass amount of chlorine and ammonia ions is adjusted to a level exceeding the stoichiometric by no less than 5%, which ensures the stability of the complexes. The mass ratio of Ag + / NH3, Cu ++ / NH3 is adjusted to 1/3. This mass ratio is 5% superior to stoichiometric, which ensures the stability of the complex. The resulting aqueous ionic solution is mixed with fatty and / or humic acids, previously purified from large dispersed particles. All necessary components under pressure up to 3 atmospheres are fed into the mixer, where they are mixed at a temperature in the range from 20 to 55 ° C, for at least 20 minutes. The finished solution is fed to the bottling line in containers. A binary packaging option is provided, while mixing the basic solution with organic substances is carried out immediately before use.

To obtain a specific variant of the fungicide with a lower content of chlorine ions, the electrolysis process is carried out without the addition of NaCl. Then add a ligand (ammonia or ammonia water). The result is ammonium ions NH4 - and hydroxyl ions OH +. In the process of electrolysis, Ag +, Cu2 + ions are formed, with the help of which stable complex compounds are formed as a result of the exchange reaction: - diammine silver cation:

Ag + 2NH ₃ = [Ag (NH ₃ ) ₂ ] ⁺ ;

- copper cation:

Cu ₂ + 4NH ₃ = [Cu (NH ₃ ) ₄ ] ⁺ .

the resulting aqueous ionic solution is mixed with fatty and / or humic acids previously purified from large dispersed particles, then all components are pressurized into a mixer, where they are mixed, then the finished solution is fed to a bottling line in a container or in a binary package.

The possibility of carrying out the claimed invention with the realization of the indicated purpose is proved by the field tests of the preparation given below in the SE “Livadia”, located in the city of Yalta, Republic of Crimea. The tests were carried out by employees of the Federal State Budgetary Institution "VNNIIIViV" Magarach RAS ", 298600, Republic of Crimea, Yalta, st. Kirova, 31. As the test drug, the declared fungicide was used at a rate of consumption of 1.0 l / ha. Culture - grapes; variety - Bastardo Magarach, year of planting - 1987, planting pattern - 3 × 1.5 m, formation - two-armed cordon on the middle stem. Rootstock - Kober 5 BB. Non-irrigated culture. Soil-climatic zone: Southern coast of Crimea, non-carbonate brown mountain soil, enriched with skeletal fraction (stones, gravel, etc.). Humus content - 1.48%, soil pH - 6.9. Active lime is absent, or its content by profile is not significant. The mechanical composition of the soil is loamy. Agro-technical measures were carried out at the experimental site, common to all variants of the experiment: autumn-winter plowing in November 2017, in 2018 - pruning (February), dry garter (March), two debris (May - June), spring plowing, summer loosening of the soil (3 times), chasing (July). Fertilizers were not applied during the season. The use of the tested fungicide in the norm of consumption of 1.0 l / ha to protect the grapes from the complex of fungal diseases allowed to reduce the development of oidium, mildew and rot complex to an economically insensible level. Biological effectiveness in protecting against mildew, against the background of poor development of the disease in the control, on leaves and clusters was 80.2 and 84.1%, respectively; with protection from oidium, against the background of weak and moderate development of the disease, respectively, 73.9 and 77.4%; against a complex of rot, with a weak development of diseases - 78.4%. The duration of the protective effect of the drug is up to 14 days. Technological advantages of the claimed fungicide: - rapid (3-5 minutes) penetration into the plant; - accelerates the ripening of fruits, repeatedly lengthens their shelf life, improves the organoleptic and biochemical quality of products, stimulates the growth of vegetative mass;

- high dispersion of the active substance allows you to evenly and more densely cover the surface of the protected plants; - organic substances provide good wettability, adhesion, which allows you to firmly hold on the treated surface and provides reliable protection in adverse weather conditions, active at low and high temperatures; - It is recommended for use in anti-resistance technologies; - increases the resistance of plants to fungal diseases, strengthens the immune system of plants; - promotes the formation of chlorophyll; - the working solution is prepared by simple mixing with water; - unused working solution is stored for a long time. Economic advantages of the declared fungicide: - in tank mixtures compatible with all modern pesticides, with the exception of sulfur; - does not form a precipitate, does not clog the tips, as a result - a decrease in the complexity of the process; - waiting period, exit for manual and mechanical work - 1 day; - reducing the load on vehicles; - reduction of the amount of water per treatment of 1 ha when using a protection system; - without restrictions, crop rotation is possible. Environmental advantages of the claimed fungicide: - does not inhibit the activity of a number of microbiological preparations, for example, based on Bac.Thuringiensis (lepidocide, bitoxybacillin); - in the working concentration does not exert a depressing effect on the biological activity of the soil, which determines its fertility; - subject to the regulations for the use of non-phytotoxic; - low toxicity for warm-blooded (4 hazard class); - low hazard for fish, bees, earthworms; - the active substance does not cause poisoning when ingested fruits, tubers, seeds, does not affect the taste and smell of the grown products, moreover, it significantly prolongs its shelf life; does not dust, does not form toxic compounds.

Claims (12)

1. The method of preparation of fungicide, which consists in the fact that water is used as a base, which is purified from suspended and dissolved substances, then an electrolysis process is carried out with the addition of NaCl in the amount necessary to obtain a solution with a concentration of 0.001 mol / l, moreover, as silver and copper or their alloys are used as electrodes, silver ions Ag ⁺ and copper ions Cu ²⁺ are formed by electrolysis, of which silver chloride AgCl and copper chloride CuCl ₂ ^are formed using chlorine ions CI ^- , then a ligand is added, which they use ammonia or ammonia water, they dissolve silver chloride AgCl and copper chloride CuCl ₂ under its influence and obtain ammonia complexes of the stable colorless diammine silver cation (1) with β _(arr) = 1.6 * 10 ⁷ , K _nest = 9.31 * 10 ^-8 and a stable blue copper cation with β _(arr) = 7.9 * 10 ¹² , K _nest = 2.14 * 10 ^-13 with the following reactions: AgCl + 2NH ₃ * H ₂ O ↔ [Ag (NH ₃ ) ₄ ] ⁺ + Cl ^- + 2H ₂ O, CuCl ₂ + 4NH ₃ * H ₂ O ↔ [Cu (NH ₃ ) ₄ ] ⁺ + Cl ^- + 4H ₂ O, then the mass amount of chlorine and ammonia ions is adjusted to a level that exceeds the stoichiometric by not less than 5%, then the mass ratio of Ag ⁺ / NH ₃ , Cu ⁺⁺ / NH _{3 is} adjusted to 1/3, the resulting aqueous ionic solution is mixed with fatty and / or humic acids, previously purified from large dispersed particles. 2. The method of preparation of the fungicide according to claim 1, characterized in that all components under pressure are fed into the mixer, where they are mixed, then the finished solution is fed to the bottling line in containers or in binary packaging. 3. The method of preparation of the fungicide according to claim 2, characterized in that in the mixer the components are mixed at a temperature in the range from 20 to 55 ° C for at least 20 minutes. 4. The method of preparation of the fungicide according to claim 1, characterized in that the mixing of the aqueous ionic solution with fatty and / or humic acids is carried out immediately before use. 5. The method of preparation of the fungicide, which consists in the use of water as a base, which is purified from suspended and dissolved substances, then the electrolysis process is carried out, and silver and copper or their alloy are used as electrodes, silver ions are formed by electrolysis of Ag ⁺ and copper ions Cu ²⁺ , then a ligand is added, which is used as ammonia or ammonia water, under its influence, ammonium ions NH ⁴⁺ and hydroxyl ions OH ^are obtained ^- and as a result of the exchange reaction they form stable complex compounds of the diamminsilver cation and copper cation at the course of the following reactions: Ag + 2NH ₃ = [Ag (NH ₃ ) ₂ ] ⁺ ; Cu ₂ + 4NH ₃ = [Cu (NH ₃ ) ₄ ] ⁺ , the resulting aqueous ionic solution is mixed with fatty and / or humic acids, previously purified from large dispersed particles. 6. The method of preparation of the fungicide according to claim 5, characterized in that all components under pressure are fed into the mixer, where they are mixed, then the finished solution is fed to the bottling line in containers or in binary packaging.