RU2816711C1 - Method for treating fruits on trees during growing season to reduce fruit shedding with liquid suspension oil composition containing 1-methylcyclopropene in form of complex with -cyclodextrin - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method for treating fruits on trees during the growing season to reduce fruit shedding with a liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin, includes the preparation of a tank mixture by dispersing a liquid suspension oil composition in water and subsequent treatment of fruits on trees with the resulting tank mixture by spraying with a flow rate over the liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin, from 1 to 10 kg per 1 hectare of plantings 8-15 days before the onset of the ripeness stage. The tank mixture is prepared immediately before spraying by stirring in two stages, in the first of which an aqueous solution of a drug that reduces the surface tension of water is prepared by stirring for 3-10 minutes, selected from the range: polyester of modified trisiloxane, ethoxylate of higher alcohols, then in the second stage is introduced into this solution, while stirring, is a liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin, with the following content of initial components, wt.%: drug that reduces the surface tension of water - 0.01-0.5; liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin - 0.1-5.0; water - balance.

EFFECT: reduction in fruit shedding during the pre-harvest and harvest periods, extended time period for harvesting, and ability to use the standard sprayers without reducing their productivity.

1 cl, 2 tbl, 16 ex

Description

The invention relates to the field of agriculture, in particular to the technology of growing and preserving fruits and vegetables and crop products - vegetables, fruits, berries (apples, pears, apricots, plums, tomatoes, cherries, etc.).

In the last 20 years, a method has become widespread in which, to increase the shelf life of fruits, vegetables and crop products and expand the so-called. The “picking windows” of plant fruits during the growing season are treated with preparations containing cyclopropene and its alkyl derivatives as a plant growth regulator. It is noted that treating plants and fruits with preparations containing cyclopropene and its alkyl derivatives makes it possible to slow down enzymatic processes in plants and fruits and, as a result, regulate the timing of their ripening, leaf fall, etc. Moreover, it is noted that after processing plants and fruits, there is a sharp decrease in many physiological diseases (tanning, decay from aging, wet burn, oily skin, etc.) and fungal rot.

Treatment with such preparations can be carried out by contacting plants and fruits that are both in the vegetative phase (plant and fruit growth) and after harvesting fruits, vegetables and crop products with the active ingredients of the preparations. It is noted that the most effective drugs currently are those containing 1-methylcyclopropene (1-MCP). It is known that 1-MCP is one of the representatives of the class of substances united by the general name - plant growth regulators, and, in particular, substances that inhibit the synthesis of ethylene in plants and fruits. These preparations under the trademarks “AFXRD-038”, “SmartFresh”, “Harvista” (USA and Europe) and “Fresh-Forma” (Russia) have been widely used over the past five years for the treatment of plants and fruits that are in the growing season , and when storing fruits for storage. Treatment of plants or fruits with gaseous 1-MCP during their growing season or after harvesting usually leads to an increase in yield and/or shelf life.

There is a known method of increasing the yield produced by various plants by contacting the plants with at least one composition that includes at least one cyclopropene, provided that if said plants are apple trees, each of the above compositions does not contain aminoethoxyvinylglycine, a known synthesis inhibitor ethylene, and the contact is carried out at a time when these plants are in the growing season, that is, still in the garden [1].

The main disadvantage of this method and the compositions used is that the composition, in addition to the drug containing 1-MCP, contains a number of other very expensive plant growth regulators.

A liquid composition is known containing one or more preparations—complexes of cyclopropenes with an encapsulating agent and one or more substances referred to in the patent as “pop-hydrocarbon” oil [2].

Organic substances, in particular cyclodextrins, and inorganic substances, in particular zeolites and mixtures thereof, can be used as an encapsulating agent. When using gaseous cyclopropenes (for example, 1-MCP), the complex is obtained according to patents US 6017849 and US 6953540, passing gaseous 1-MCP through a buffer solution of α-cyclodextrin in water or simply through a solution of α-cyclodextrin in water, followed by separation of the 1-MCP complex - α-cyclodextrin by filtration and subsequent drying at room temperature.

It is noted that this composition may also contain auxiliary substances - alcohols, surfactants, a chelating agent and water. Oils of natural origin based on fatty acids (esters, amides, etc.) and, in particular, glycerides of fatty acids can be used as “pop-hydrocarbon” oils. Various complexing agents can be used as chelating compounds, in particular crown ethers and ethylenediaminetetraacetic acid.

In addition to the large number of cyclopropenes, encapsulating agents, chelating agents, “pop-hydrocarbon” oils listed in the patent description, the composition may also contain pigments, fillers, binders, plasticizers, lubricants, wetting agents, spraying agents, defoamers and many other additives, including herbicides and insecticides.

It is also noted that when preparing the compositions, the ingredients of the composition can be mixed in any way and in any order. In particular, the composition can be prepared by mixing one part which contains the cyclopropene encapsulating agent complex, non-hydrocarbon oils and other excipients with another part which contains water. Before use, these two parts are mixed.

It is stated that this composition can be used to treat plants by immersing them in a solution with the composition, or by spraying this composition around the plant.

Despite the very large number of ingredients listed in the patent description, in three examples illustrating the method, only compositions containing water, 1-MCP complex (containing 0.14% 1-MCP), silicone oil additives (four substances), soybean oils and surfactants - “Atplus 367” and sodium salt of ethylenediaminetetraacetic acid. Specific examples of obtaining the above compositions (the order of their mixing), their stability over time (shelf life before use) are not given in the patent description. To assess the effectiveness of the compositions, only the “epinasty test” is used - a test for the growth curvature of tomato shoots.

A liquid composition is known for one-time or repeated treatment of plants at the vegetative stage, which includes a drug that is a complex of 1-MCP with cyclodextrins [3]. The patent description notes that the composition may contain various additives of auxiliary substances: surfactants, alcohols, oils, pigments, fillers, plasticizers, lubricants, wetting agents, spraying agents, defoamers, complexones and a number of other various substances. It is also noted that cyclopropenes can be used in free form or in the form of a complex with an encapsulating agent. Organic substances (eg cyclodextrin), inorganic substances (eg zeolites) or mixtures thereof can be used as encapsulating agents.

It is also noted that when preparing the compositions, the ingredients of the composition can be mixed in any way and in any order, and the contact of the composition with the plant can also be carried out in any way. Preferably, however, the method of spraying the liquid composition is used.

Despite the very large number of ingredients listed in the patent description, in the examples illustrating the method, only one composition is given (an aqueous mixture containing “Dyne-Amic spray oil” as an auxiliary substance) and two preparations, which are a powdered complex 1- MCP with a-cyclodextrin and a 1-MCP content of 3.8 and 2.0%; the method of preparation of the composition is also briefly indicated, which consists of pre-mixing the excipient with water and then adding a drug to this mixture - a complex of cyclodextrin with 1-MCP.

Examples are given of the treatment of various varieties of tomatoes, peppers, melons and watermelon with the above compositions at various stages of the growing season. However, it is noted that the resulting composition should be used within 5-60 minutes. This is probably due to the fact that when the drug (1-MCP complex - α-cyclodextrin) is mixed with water and other ingredients, a very rapid release of 1 -MCP is still at the composition preparation stage.

The main disadvantage of this method is that the proposed composition based on a powdered complex of 1-MCP with α-cyclodextrin is unstable over time and, after mixing all the ingredients, must be processed (used) at least within the first hour after preparation. Since even when preparing the composition, in particular, when mixing the drug complex (1-MCP - α-cyclodextrin) and various excipients with water or an aqueous solution, gaseous cyclopropene is released from the complex even before processing the plants and, as a consequence, irrational use of the drug.

There is a known method for producing a powder preparation by passing gaseous 1-methylcyclopropene through an aqueous solution of cyclodextrins, followed by isolating a solid complex of 1-methylcyclopropene with α-cyclodextrin, filtration and drying, or by sorption of gaseous 1-methylcyclopropene by a porous solid fine organic or inorganic material in which the substances , slowing down the release of 1-methylcyclopropene from the powder preparation, are introduced at the stage of obtaining and/or isolating the complex of 1-methylcyclopropene with α-cyclodextrin or before and/or after sorption of gaseous 1-methylcyclopropene by porous solid organic material. More than one substance that retards the release of 1-MCP may be introduced at one or more stages of preparation, release of the drug, or before or after the sorption process [4].

Preferably, when preparing the drug by passing (bubbling) gaseous 1-MCP through an aqueous solution of cyclodextrins, substances that slow down the release of 1-methylcyclopropene are added to the initial aqueous solution of cyclodextrins.

Preferably, when preparing a drug by sorption of gaseous 1-MCP by porous solid fine organic or inorganic material, substances that slow down the release of 1-MCP are introduced into the drug after completion of the sorption process.

Inorganic substances (such as silicates, chlorides, phosphates of alkali and alkaline earth metals, etc.) and organic water-soluble polymers of natural and synthetic origin (sodium alginate, chitosan, carboxymethylcellulose, polyvinyl alcohol, polymethacrylamide, etc.).

Preferably, sodium silicate, sodium alginate and polymethacrylamide are used as substances that slow down the release of 1-MCP from the drug.

When obtaining a liquid composition from a powder preparation produced by the descriptive method, various oils and surfactants are used, which are preferably ethoxylated fatty alcohols of the general formula: RO(CH ₂ CH ₂ O) _n H, where R = C ₁₂ -C ₁₈ , n=6-25[4].

The disadvantage of this known method is the short delay time for the release of 1-MCP from the working solution when treating plants.

Various oil compositions based on 1-MCP are known, including cyclopropene compounds [5]. In all examples presented in the known technical solution, a complex of 1-MCP and α-cyclodextrin with a 1-MCP content of 4.7%, pre-crushed in an air stream (air classification of particles) to a degree of less than 50 microns, was used as a source of 1-MCP . Next, the resulting powder was mixed with a dispersant, which was a polymer of alkylated vinylpyrrolidone, or a copolymer of vinylpyrrolidone and vinyl acetate, and compositions that were either solid at 25°C - paraffin wax, fully hydrogenated soybean oil, or highly viscous liquids at 25°C - were used as the oil phase. °C - VASELINE™ petroleum gel, or 10% ethylene - vinyl acetate copolymer in a solution of higher petroleum hydrocarbons.

In addition to the listed components, the known composition includes a composition thickening additive, called “Base” in the known technical solution and which consists of a solvent - propylene carbonate - and pyrogenic silica treated with dimethyldichlorosilane "AEROSIL™ R972". The “base” is obtained by mixing on a high shear mixer at a temperature of 65-70°C. In the domestic literature, such pyrogenic silica is called “amorphous microsilica”, and its main amount is formed as a waste during the filtration of waste gases in electric precipitators on an industrial scale during the production of ferroalloys.

All of these components are mixed at the indicated elevated temperature in the following sequence: first, a dispersant based on an alkylated vinylpyrrolidone polymer is mixed with the oil phase, then, while continuing stirring, the 1-MCP complex with α-cyclodextrin is introduced into it, then the “Base” is introduced into the resulting mixture with stirring. , then a second dispersant based on vinylpyrrolidone and vinyl acetate is also introduced into the mixture with stirring and at elevated temperatures, and finally an emulsifier based on the block copolymer “TOXIMUL™ 8320” is added to the composition.

As an indicator of effectiveness, the known technical solution presents only data on the behavior of microdroplets under a microscope of the resulting compositions after dilution in a solvent. Data on the stability of the compositions over time, as well as on the actual treatment of plants, including to reduce pre-harvest fruit drop, are not provided.

The disadvantages of the known compositions are the use of strong-smelling and unsafe petroleum fractions or solvents, their unknown effectiveness in reducing pre-harvest fruit drop, and the difficulty of obtaining the final oil composition.

There are known examples of the use of the suspension preparation “Harvista” based on the 1-MCGT complex with α-cyclodextrin and liquid paraffin to extend the harvest time of apples (see, for example, [6]). The given source does not contain examples of specific implementation and timing of use of the drug.

The use of the same drug is indicated in [7]. The use of “Harvista” on the “Red Delicious” apple variety made it possible to increase the color of the fruits, reduce the crumbling of apples, and increase the hardness and acid content by the picking date.

In our opinion, the closest in its technical essence to the claimed method is the method of using the suspension preparation “Harvista” containing a complex of 1-MCP with α-cyclodextrin in a liquid paraffin environment 15-20 days before the date of harvesting the fruits of the “Modi” apple variety, which made it possible to improve objective indicators before harvesting (hardness, acid content, fruit color) and reduce their shedding before harvesting. Details of the treatments are not given [8].

The objective is to create a method for effectively using a liquid suspension composition containing 1-methylcyclopropene for treating fruits on trees during their growing season to reduce pre-harvest fruit drop. The second expected beneficial effect from the use of the claimed composition should be an increase in the “harvest window” in the event of such a production need.

The problem is solved by the claimed method of treating fruits on trees during the growing season to reduce fruit abscission with a liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin, including preparing a tank mixture by dispersing the composition in water and subsequent processing of fruits on trees with the resulting tank mixture by spraying for no more than one hour from the start of preparing the tank mixture with a flow rate of a liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin, from 1 to 10 kg per 1 hectare of plantings within 8-15 days until the onset of removable ripeness of the fruit, and the tank mixture is prepared immediately before spraying by stirring in two stages, in the first of which an aqueous solution of a drug that reduces the surface tension of water, selected from the range: polyester of modified trisiloxane, ethoxylate of higher alcohols, is prepared by stirring for 3-10 minutes , then at the second stage, a liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin is introduced into this solution with stirring, with the following content of initial components, wt. %:

A drug that reduces the surface tension of water - 0.01-0.5;

Liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin - 0.1-5.0;

Water is the rest.

As a drug that reduces the surface tension of water, but without limiting the capabilities of this technical solution to the brands indicated below, you can use such commercial products as domestic preparations based on polyester of modified trisiloxane “Fresh-Forma - Gladius”, “Isagri Stick”, “Polyphem” ", imported "Silvet Gold", "Silvet 408", based on ethoxylates of higher alcohols - such as isodecyl, for example, "Sigma 90", "Trend 90" "Adju", and other commercial products. All of these drugs are widely used and available commercial compositions.

The removable degree of fruit ripeness is determined according to special tables of removable ripeness, well known to specialists, by measuring various indicators, including fruit hardness, iodine test indicators for residual starch content in points on a 10-point scale, the content of dry soluble substances in “Brix” units, acid content in%, color of fruit seeds, as well as various ratios of measured parameters (see, for example, the Internet resource at link [9]).

The technical result of the proposed technical solution is to reduce the shedding of fruits during the pre-harvest period, as well as to expand the “harvest windows”.

The invention is illustrated by the examples below, which do not in any way limit the possibility of implementing this technical solution within the stated scope of claims.

Example 1

As the initial preparation for treating apple fruits on trees, a sample of the commercial suspension preparation “Harvista” was used, based on a powdery fine complex of 1-methylcyclopropene with α-cyclodextrin with the content of the main substance 1-MCP, according to GLC analysis, being about 1.3 wt. %. GLC analysis was carried out after decomposition of the composition in a closed space of a known volume under the influence of a 1-normal sodium alkali solution with vigorous shaking. Analysis conditions: GLC analysis was carried out on a gas chromatograph “YL 6500 GC” (made in Japan) with a flame ionization detector with a capillary quartz column 30 m long, internal diameter 0.25 mm, coated with a weakly polar stationary liquid phase (SLP). A composition containing 5% phenylpolysiloxane and 95% dimethylpolysiloxane was used as an NLF. (Evaporator temperature - 110°C. Column temperature - 56°C. Detector temperature - 120°C. Hydrogen flow rate - 25 cm ³ /min. Air flow rate - 400 cm ³ /min). Carrier gas consumption (nitrogen) - 25 cm ³ /min. Flow division - 1:100. Nitrogen consumption for “blowing” into the detector is 15 cm ³ /min. Analysis time - 8 minutes. The chromatograph calibration method used was with five internal standards using the butane-propane fraction of hydrocarbons.

This composition was tested in real industrial garden conditions to determine its effectiveness. The experiment was carried out on a plot of an ordinary apple orchard in the Volgograd region with an area of 0.5 hectares with the variety “Northern Sinap”, the age of the orchard was 14 years.

Spraying treatment of an experimental plot of an apple orchard with an area of 0.5 hectares was carried out on September 20, 2021 with an iodine test of 4-5 points (optimal degree of maturity 5-7 points), hardness 9-10 kg/cm ² (optimal degree of maturity 9.5- 10.5 kg/cm ² ) and SRV 12-13% on the Brix scale (optimal maturity 13.5-15.5%). This happened 8 days before the expected harvest date, which was scheduled for September 28, 2021. The apple plantations were processed in the morning in dry weather.

The working solution for spraying was prepared by mixing 900 liters of water, 8.5 kg of the liquid suspension preparation “Harvista” described above, and 250 grams of the spreader “Izagri Stick” as a drug that reduces the surface tension of water. At the beginning, 900 liters of water, 250 grams of Izagri Stick spreader were loaded into a 2000-liter industrial fan sprayer "OVS-2000" based on the "MTZ 82" tractor, equipped with a membrane pump and a circulation mixing system, and mixed for 3 minutes.

Then 8.5 kg of the liquid suspension composition “Harvista” was introduced into the resulting solution and mixed for another 10 minutes, after which they immediately began spraying the experimental plot of the garden. The content of spreader (a substance that reduces the surface tension of water) in the sprayer tank mixture was 0.028 wt. %. The processing time of the plantings was 19 minutes, the total time from the start of introducing the claimed oil composition into the aqueous solution until the end of treatment was 29 minutes.

The consumption of the preparation "Harvista", containing a complex of 1-methylcyclopropene with α-cyclodextrin, per 0.5 ha of garden was 4.25 kg (8.5 kg per 1 ha), the consumption of the working solution per 0.5 ha was 900 liters (1800 liters per 1 ha).

By the time of fruit collection on September 28, 2021, the number of fallen fruits in the control and treated areas of the garden was determined. As a result, it was found that in the garden area treated with the claimed composition, an average of about 2.9% of the collected fruits fell, and in the control untreated area - an average of 22.4%.

In a small area of the treated garden, 10 days after the date of collection, the number of fallen fruits was 6.5%, while in an untreated area of the garden, 10 days after the date of collection, the number of fallen fruits was already 34.9%. Therefore, the use of a liquid suspension composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin by the claimed method turned out to be very effective in reducing pre-harvest fruit abscission, as well as in expanding the “harvest window” of the fruit harvest.

Example 2

As a starting preparation for treating apple fruits on trees, a sample of the commercial suspension preparation “Harvista” was used, based on a powdery, finely dispersed complex of 1-methylcyclopropene with α-cyclodextrin and liquid paraffin with a content of the main substance 1-MCP of about 1.3 wt. %. This composition was tested in real industrial garden conditions to determine its effectiveness.

A sample of this composition was tested in real conditions of an industrial garden in the Belgorod region to determine its effectiveness. The experiment was carried out on a plot of an ordinary apple orchard with an area of 1.0 hectares with the “Ligol” variety, the age of the orchard was 11 years.

Spraying treatment of an experimental plot of an apple orchard with an area of 0.5 hectares was carried out on September 22, 2022 with an iodine test of 4-5 points (optimal degree of maturity 6-7 points), hardness 8-9 kg/cm ² (optimal degree of maturity 7-8 kg/cm ² ) and SRV 12-13% on the Brix scale (optimal maturity 13.0-13.5%). This happened 10 days before the expected collection date, which was scheduled for October 2, 2022. The processing of apple plantations was carried out in the evening in dry weather.

The working solution for spraying was prepared by mixing 1500 liters of water, 8.5 kg of the liquid suspension composition “Harvista” and 450 grams of the “Gladius” spreader as a drug that reduces the surface tension of water. First, 1500 liters of water, 450 grams of Gladius spreader were loaded into a 2000-liter industrial fan sprayer "OVS-2000" based on the "MTZ 82" tractor, equipped with a membrane pump and a circulation mixing system, and mixed for 10 minutes. Then 8.5 kg of the Harvista preparation was introduced into the resulting solution and mixed for another 3 minutes, after which they immediately began spraying the experimental plot of the garden. The content of spreader (a substance that reduces the surface tension of water) in the sprayer tank mixture was 0.030 wt. %, the content of the Harvista preparation in the tank mixture is 0.57 wt. %. The consumption of a liquid suspension composition containing a complex of 1-methylcyclopropene with α-cyclodextrin per 1.0 hectare of garden was 8.5 kg, the consumption of the working solution per 1.0 hectare was 1500 liters. The processing time of the plantings was 28 minutes, the total time from the beginning of the introduction of the claimed oil composition into the aqueous solution until the end of treatment was 31 minutes.

By the time of fruit collection on October 2, 2022, the number of fallen fruits in the control and treated areas of the garden was determined. As a result, it was found that in the garden area treated with the claimed composition, an average of about 4.9% of the collected fruits fell, and in the control untreated area - an average of 18.4%.

In a small area of the treated garden, 10 days after the date of collection, the number of fallen fruits was 3.3%, while in an untreated area of the garden, 10 days after the date of collection, the number of fallen fruits was already 14.9%. Therefore, the use of a liquid suspension composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin by the claimed method turned out to be very effective in reducing pre-harvest fruit abscission, as well as in expanding the “harvest window” of the fruit harvest.

Example 3

The liquid suspension composition was prepared on the basis of the commercial powder preparation 1-MCP “Fresh-Forma”.

Olive oil with an absolute viscosity at room temperature of 78 centipoise in combination with epoxidized sunflower oil with an absolute viscosity at room temperature of 130 centipoise was used as a substrate for distributing the powdered preparation of 1-MCP.

The dispersion size of all particles of solid components was determined by the laser beam scattering method on a FRITSCH ANALYSSETTE 22 Micro Tec Plus device.

In a device with an internal volume of 10 liters, which is usually used for the production of pilot batches of oil paints, equipped with an efficient turbine mixer (with a so-called “mill”), 5000 grams of olive oil, 50 grams of epoxidized sunflower oil, 100 grams of bentonite clay with a maximum particle size of 25 microns and 200 grams of pyrogenic microsilica treated with dimetheldichlorosilane (Aerosil preparation) with a maximum particle size of 10 microns.

The resulting mixture was intensively stirred at room temperature for 10 minutes, after which 50 grams of aluminum oxide with a maximum particle size of 15 microns, 60 grams of ground sodium sulfate decahydrate with a maximum particle size of 22 microns, 200 grams of a commercial non-ionic surfactant were sequentially introduced into the resulting thickened mass with stirring. substances “Neonol AF 9-12” and stirred intensively for another 30 minutes. At the end of the process, 60 grams of the commercial preparation “Fresh-Forma” is introduced into the thickened mass as a source of 1-MCP with a main substance content of 3.5% by weight. (registration number of the drug “Fresh-Forma” in the catalog of pesticides and agrochemicals of the Ministry of Agriculture of the Russian Federation No. 456-07-1623-1 dated November 21, 2017) and a maximum particle size of up to 30 microns. Intensive mixing after loading the last component was continued for 15 minutes and 5715 grams of a suspension oil composition containing components, wt. %:

Complex of 1-methylcyclopropene with α-cyclodextrin - 1.05;

Aluminum oxide - 0.88;

Alkali and/or alkaline earth metal sulfate - 1.05;

Non-inogenic surfactant “Neonol AF 9-12” - 3.5;

Bentonite clay - 1.75;

Epoxidized sunflower oil - 0.88;

Pyrogenic silica treated with dimethyldichlorosilane (“Aerosil”) - 3.5;

Olive oil - the rest.

According to GLC analysis, similar to Example 1, the content of the main substance in the manufactured composition was 0.029 wt. %.

Subsequently, a sample of this composition was tested in real industrial garden conditions to determine its effectiveness. The experiment was carried out on a plot of a mature intensive apple orchard with an area of 0.5 hectares in the steppe region of the Krasnodar Territory with the “Idared” variety, the age of the orchard was 8 years.

Spraying treatment of an experimental plot of an apple orchard with an area of 0.5 hectares was carried out on September 04, 2021 with an iodine test of 4-5 points (optimal degree of maturity 6-7 points), hardness 9-10 kg/cm ² (optimal degree of maturity 7.5- 8.5 kg/cm ² ) and SRV 11-12% on the Vph scale (optimal degree of maturity 13-13.5%). This happened 15 days before the expected harvest date, which was scheduled for September 19, 2021. The apple plantations were processed in the morning in dry weather.

The working solution for spraying was prepared by mixing 425 liters of water, 100 grams of Silvet Gold spreader as a drug that reduces the surface tension of water, and 2.5 kg of a liquid suspension oil composition obtained by the method described above. First, 425 liters of water, 100 grams of Silvet Gold spreader were loaded into an industrial field mounted sprayer with a capacity of 800 liters and spray boom sizes of 12/15 m (Poland), equipped with a membrane pump and a circulation mixing system, and mixed for 5 minutes. . Then 2.5 kg of the liquid suspension oil composition obtained in example 3 was introduced into the resulting solution and stirred for another 5 minutes, after which they immediately began spraying the experimental plot of the garden. The content of spreader (a substance that reduces the surface tension of water) in the tank mixture of the sprayer was 0.023 wt. %, the content of the suspension oil composition in the tank mixture is 0.58 wt. %. The processing time of the plantings was 25 minutes, the total time from the start of introducing the claimed oil composition into the aqueous solution until the end of treatment was 30 minutes.

The consumption of the liquid suspension oil composition manufactured in Example 3 containing a complex of 1-methylcyclopropene with α-cyclodextrin per 0.5 hectares of garden was 2.5 kg (5.0 kg per 1 ha), the consumption of the working solution per 0.5 hectares was 425 liters (850 liters per 1 ha).

By the time of fruit collection on September 19, 2021, the number of fallen fruits in the control and treated areas of the garden was determined. As a result, it was found that in the garden area treated with the claimed composition, an average of about 2.1% of the collected fruits fell, and in the control untreated area - an average of 18.8%.

In a small area of the treated garden, 10 days after the date of collection, the number of fallen fruits was 4.5%, while in the untreated area of the garden, 10 days after the date of collection, the number of fallen fruits was already 21.9%. Therefore, the use of a liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin by the claimed method turned out to be very effective in reducing pre-harvest fruit drop, as well as in expanding the “harvest window” of fruit harvest.

The conditions for the use of suspension compositions based on 1-methylcyclopropene according to Examples 1-10, and the main estimates of their use by the amount of carrion are presented in TABLE 1:

* - in Examples 6,7,8 and 10 of TABLE 1, a special dosing device was installed on the injection line in front of the spray nozzles of a conventional garden sprayer for supplying the claimed oil composition, and mixing it with an aqueous solution of a substance that reduces the surface tension of water occurred in a turbulent flow for 1-3 seconds before spraying.

In Examples 1 and 2 of TABLE 1, the preparation “Harvista” containing the active substance 1-MCP 1.3 wt. was used as the initial suspension composition containing 1-MCP. %, in all other examples - a composition made on the basis of the commercial preparation "Fresh-Forma" according to Example 3 with an active ingredient content of 1-MCP of 0.029 wt. %.

Example 11

In Example 7, as well as in Examples 1-3 from TABLE 1, part of the crop continued to be kept on the trees for another 10 days after the scheduled date of fruit harvest. As a result, the percentage of fallen apples in the treated plot was 5.7%, which is still less than 10 days earlier in the untreated plot (9.4%). At the same time, after 10 days in the untreated area, the percentage of fallen fruits was already 21.5%. This example once again illustrates the possibility of expanding the “picking window” of fruits if such a need arises due to production harvesting conditions (for example, in the case of prolonged rains or in case of a lack of the required number of seasonal workers).

Treatment of other - non-apple - fruit plantations was carried out using the composition from example 8. The results of these treatments for examples 12-16 are presented in TABLE 2:

In Examples 12-16 of TABLE 2, a composition made on the basis of the commercial preparation “Fresh-Forma” according to Example 3 was used as the initial suspension oil composition containing 1-MCP.

The crops indicated in TABLES 1 and 2 do not in any way limit the possibility of using the claimed method for treating fruits on trees during the growing season with a liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin to reduce fruit drop, since the method is applicable for processing various fruits on trees during their growing season.

Thus, from Examples 1-16 it follows that the claimed method for treating fruits on trees with a liquid suspension composition containing 1-methylcyclopropene is easy to implement on an industrial scale due to the availability of the starting components, as well as the ease of implementation of the method.

The technical result of the proposed technical solution is to reduce the shedding of fruits during the pre-harvest period, as well as to expand the “harvest windows”.

An additional advantage of the claimed technical solution is the fact that for the industrial use of the claimed oil composition, as shown in Examples 1-5, 9 and 11-16, modifications to standard industrial sprayers are not required - sprayers can be used on farms that are in operation without any or alterations or retrofits. The effectiveness of using a liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin in examples with sprayers without equipment was the same as in examples with additional equipment for garden sprayers.

Sources of information taken into account:

1. EP 1787513 (A2), US 2007117720 (A1), priority dated November 18, 2005 “Compositions with cyclopropenes”.

2. EP 1782692 (A2), priority dated November 8, 2005 “Compositions with cyclopropenes and non-hydrocarbon oils.”

3. EP 1856975, priority dated May 15, 2006 “Treating horticultural crops”, AFXRD-038 from Rohm and Haas Co.

4. RF Patent No. 2400067, IPC A01N27/00, publ. September 27, 2010

5. RF Patent No. 2560851, IPC A01N27/00, publ. 08/20/2015

6. Internet resource at the link: https://www.agrofresh.com/solutions/harvista/

7. Bulletin of KrasGAU. 2023. No. 1 pp. 40-45.

8. Internet resource at the link:

https://www.agropromvug.com/index.php?option= ^: com content&view=arti cle&id=2656:preduborochnava-obrabotka-regulyatorom-rosta-dlya- snizheniva-osvpaemosti-i-uluchsheniva-tovamykh-kachestv- plodov&catid-83 : fgbnu-seyero-kavkazskij -federalny i -nauchny i -tsentr- sadovodstva-vinogradarstva-vinodeliya&Itemid=262

9. Internet resource at the link: https://freshforma.ru/technology/semnaya-stepen-zrelosti.html

Claims (5)

A method for treating fruits on trees during the growing season to reduce fruit drop with a liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin, including preparing a tank mixture by dispersing the composition in water and subsequent treatment of fruits on trees with the resulting tank mixture by spraying for no more than one hour from the start of preparing the tank mixture with a flow rate of a liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin, from 1 to 10 kg per 1 hectare of plantings within 8-15 days before the onset of removable maturity fruits, and the tank mixture is prepared immediately before spraying by stirring in two stages, in the first of which an aqueous solution of a drug that reduces the surface tension of water is prepared by stirring for 3-10 minutes, selected from the range: polyester of modified trisiloxane, ethoxylate of higher alcohols, then in the second stage, a liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin, with the following content of initial components, wt. %: a drug that reduces the surface tension of water - 0.01-0.5; liquid suspension oil composition containing 1-methylcyclopropene in the form of a complex with α-cyclodextrin - 0.1-5.0; water - the rest.