RU2681982C1 - Method of combination of plants for destruction of pests and microorganisms - Google Patents

Abstract

FIELD: crop growing.SUBSTANCE: invention relates to protection of plants. Method of combined treatment of plants for the destruction of pests and microorganisms includes the effects of a directed coolant flow and directional bactericidal radiation. Stream of hot air is used as a coolant. Air temperature ranges from 50 to 150 °C. Humidity ranges from 0.01 to 0.15. Flow rate ranges from 3 to 8 m/s. Ultraviolet radiation with a wavelength of 254 nm is used as bactericidal radiation. Radiation density is 400–600 W/m. Duration of exposure reaches a few minutes.EFFECT: improved plant protection against pests and microorganisms.1 cl, 5 dwg

Description

The proposed method relates to the agricultural sector and can be used to protect plants from pests and microorganisms.

A known method of plant protection using chemical and biological compounds (ed. Certificate. USSR No. 168.085). Chemical preparations dichloro-diphenyl-dichloroethane, designed to kill insects and microorganisms, are dissolved in water and applied to plants. The death of pests occurs due to exposure to chemicals.

The disadvantages of this method are:

- Dependence on weather conditions and soil contamination. In the rain after treatment, chemicals are washed off and fall into the soil, infect it, and the effectiveness of the use of drugs decreases;

- after application, time is needed for weathering or decomposition of substances harmful to humans;

- pests get used to chemicals, and they cease to act on them.

A known method of supplying energy to a bioobject, including the impact on the object of a directed flow of coolant, which is used saturated steam of water or its solutions with environmentally friendly substances, the flow of saturated steam with a temperature from 80 ° C to 135 ° C and humidity from 0, 01 to 0.99 is supplied to the target under pressure (1.01-5.2) 10 ⁵ Pa with a flow rate of 0.1 to 10 m / s and a coolant flow rate of 0.05 to 3.0 g / s , and the level of exposure to the coolant is determined by the amount of condensed at the facility p pa (RF №2,177,224 patent A01M 1/20).

When saturated steam is cooled on the surface of an object, heat of condensation of steam and heat of heated gas are supplied to it. The first component is the heat of the vapor-liquid phase transition, which is about twenty times larger than the second component, when the vapor, like any gas, starts to a temperature of 100 ° C at a pressure of 1 atm. During steam condensation at the object, the treated surface heats up to a certain temperature, depending on the heat conductivity and heat capacity of the object and the specific heat flux.

In accordance with the laws of heat transfer on the surface of objects with such specific heat fluxes, a temperature occurs that is approximately equal to the boiling point of the coolant. In this case, biological objects either die, or vital organs are affected, their viability is suppressed.

The disadvantages of this method are:

- limited use on plants, as it can be used only in early spring, when there is no foliage;

- it is impossible to control the temperature of the condensate, which overheats the plants above 45 ° C and the foliage of the plant dies, as well as burns occur on the branches at the branching points where the condensate accumulates.

As a prototype, “Method for the destruction of pests and microorganisms on plants by heat treatment of a plant” was selected (RF patent No. 2,610,130, А01М 1/20, 2015), in which a stream of hot air with a temperature from 50 to 150 ° C, humidity from 0.01 to 0.15, the flow rate from 3 to 8 m / s and the duration of exposure to the object from 1 to 3 seconds.

This method is characterized in that:

- heat treatment is carried out by dry air flow;

- air heat treatment does not create condensate, and therefore does not overheat plants above 45 ° C and the foliage of the plant does not die;

- has no restrictions on the timing of application, can be applied year-round;

- the destruction of pests is carried out by a stream of hot air, not steam.

The basis of the known method based on short-term high-temperature exposure to a hot air stream on the crown, foliage and fruits of plants. Short-term temperature exposure does not damage plants, but instantly destroys pests and microorganisms. The active life of insects occurs at a temperature of 10 to 35 ° C. The upper threshold for the development of insects does not exceed 40 ° C. An increase in temperature from the optimum point has a sharp effect on microorganisms. Heating above the temperature maximum leads to the rapid death of microbes. The cause of death of microorganisms during heating is mainly the coagulation of protein substances of the cell and the destruction of enzymes. Experiments with plant leaves show that the temperature at 47 ° C is extreme. Together with it, the analysis of experimental data shows a large amplitude of lethal temperatures for leaves in different species of woody plants from +45 to + 80 ° С. Therefore, the temperature of the hot air stream and the processing speed of the plants should not heat the leaves above a temperature of 45 ° C.

An object of the invention is to increase the efficiency of plant protection against pests and microorganisms by using bactericidal ultraviolet radiation.

The problem is solved in that the combined treatment of plants for the destruction of pests and microorganisms, including, in accordance with the closest analogue, the impact on the object with a directed coolant flow, which is used as a stream of hot air with a temperature of from 50 to 150 ° C, humidity from 0 , 01 to 0.15, the flow rate from 3 to 8 m / s and the duration of exposure to the object from 1 to 3 seconds, differs from the closest analogue in that they additionally affect the object with a directed bactericidal (ultraviolet) radiation with a wavelength of 254 nm, an irradiation density of 400-600 Bt / m ² and a duration of several minutes.

To determine the resistance of plants to heat treatment, we tested a number of plants growing in the garden and in the garden by the degree of resistance to high temperatures. The most stable of them were identified, which is very important for creating heat treatment schemes. For testing, 6 fresh leaves from various tree species were taken, wrapping the ends of the petioles in wet cotton wool, foil, and all the leaves were placed temporarily in cellophane. If the leaves are exposed to high temperature and then immersed in a weak solution of hydrochloric acid, the damaged and dead cells will turn brown due to the free penetration of acid into them, which causes the conversion of chlorophyll into pheophytin (brown), while the intact cells will remain green. In plants with acidic cell sap, pheophytinization can occur without treatment with hydrochloric acid, since in case of violation of the semi-permeability of the tonoplast, organic acids penetrate from the cell sap into the cytoplasm and displace magnesium from the chlorophyll molecule. The leaves were attached to the rope by suction cups and exposed to hot air at a temperature of 80 ° C and 150 ° C for 1, 2 and 3 seconds. The obtained 6 test leaves, treated with a solution as described above, determined, by their color, the permissible temperature and the rate of heat treatment of plants.

For example, it is necessary to destroy white aphids on tomatoes, it was determined that a leaf of tomatoes withstand a stream of hot air of 80 ° C for 2 seconds. We set the air supply to 80 ° C and process the sheet from above and below, monitoring the processing speed, which should not be more than 2 seconds.

Additionally, the disinfection of plants occurs due to exposure to pests and microorganisms of bactericidal ultraviolet radiation with a wavelength of 254 nm. Inactivation of pests and microorganisms occurs due to the message of a lethal dose of ultraviolet radiation.

The proposed method of killing pests can be implemented using various installation options. In FIG. 1 and 2 show the installation, the blower sleeves of which have a horizontal and vertical position for the processing of beds and vertical plants.

The installation consists of a trolley 1, on which a fan 2 and blower sleeves are fixed. The blower sleeve is made of metal, a metal mesh 5 is installed in the airflow exit zone (Fig. 3). Inside the housing, heating elements 4 are installed, controlled by a temperature sensor 6 mounted externally and maintaining a predetermined temperature of the air flow. To destroy pests on vertical plants, such as tomatoes tied to vertical ropes, the installation is placed in the aisle, and blower sleeves are fixed in a vertical position. On the control panel of the installation, the temperature is regulated and the installation is advanced in the row-spacing at a speed determined experimentally. Air molasses from blower hoses with a given temperature are sent to plants. At least two such installations are installed along plants. After two to three days, when pests are detected on plants, the treatment is repeated. In order to grow environmentally friendly products, especially in greenhouses, treatment of plants should be carried out regularly, at least once every two weeks, preventing pests from multiplying.

In the autumn, before digging the beds, they must be treated with a hot stream at a temperature of at least 200 ° C to destroy spores of fungal diseases and pest larvae.

In spring, when positive temperatures are established, it is necessary to treat the crowns of trees and shrubs with a heat stream without heating the trunk and branches above 45 ° C. Processing should be carried out 3-4 times, since insects creep onto plants and infect them at different times.

In FIG. 4 shows a manual installation that allows you to process a single plant or plant areas populated by pests. The installation consists of a fan 1, a heating element 2, controlled by a temperature sensor 3 mounted externally and maintaining a predetermined air flow temperature. Destruction of pests and microorganisms is carried out by a heat stream with a temperature from 50 to 150 ° C (depending on the plant and type of pest), directed to the leaf and crown, not closer than 25-40 centimeters, lasting from 1 to 3 seconds, moving the heat flux source and directing it to places of accumulation of pests.

In FIG. Figure 5 shows a plant for disinfecting plants with bactericidal ultraviolet radiation (catalog "Installations for disinfecting air and surfaces with ultraviolet radiation UVA", NPO ENT, St. Petersburg, 2012, https://www.npoekt.2u).

The installation consists of a disinfection unit 7, made of stainless steel, inside of which a UV lamp 8 is installed in a quartz casing with a reflector 9 and a control unit 10, in which the batteries, displays and controls are placed (Fig. 5).

The surface disinfection of plants occurs due to exposure to pests and microorganisms of bactericidal ultraviolet (UV) radiation with a wavelength of 254 nm, and an irradiation density of 400-600 W / m ² and a duration of several minutes.

The effect of UV radiation on plants occurs at the same time intervals as the heat treatment of plants.

In the fall, before the beds are digged, they are also treated with UV radiation to destroy spores of fungal diseases, pest larvae, helminth bacteria and other types of microflora.

In the spring, when positive temperatures are established, the crowns of trees and shrubs are also repeatedly treated with UV radiation.

Thus, the proposed method in comparison with the prototype and other technical solutions for a similar purpose provides an increase in the efficiency of plant protection against pests and microorganisms. This is achieved through the use of bactericidal ultraviolet radiation.

The use of combined treatment of plants for the destruction of pests and microorganisms using heat fluxes and bactericidal ultraviolet radiation provides an opportunity for the cultivation of environmentally friendly vegetables and fruits, which leads to a general recovery of the population, a decrease in the incidence rate and an increase in average life expectancy.

Claims (1)

A method of combined treatment of plants for the destruction of pests and microorganisms, including exposure to an object with a directed coolant flow, which is used as a stream of hot air with a temperature of from 50 to 150 ° C, humidity from 0.01 to 0.15, flow rate from 3 to 8 m / s and the duration of exposure to the object 1 to 3, characterized in that further act on the object aimed bactericidal ultraviolet ray with 254 nm wavelength, the irradiation density of 400-600 W / m ² and duration Stu few minutes.

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