RU2538817C1 - Method of presowing treatment of cereal seeds - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: seed treatment is carries out in two cycles, the first of which is carried out by irradiation with pulsed infrared radiation with the wavelength from 3.0 to 4.0 microns, and the flux density from 5 to 10 kW per 1 m² for 10 seconds with the speed of the temperature regime from 4.5 to 5°C/s. After the first cycle of treatment, the seeds are placed for binning for a period of 8-10 days. The second cycle of treatment is carried out as treatment of seeds with complex fungicidal protectant with the application rate of 0.4 litres per 1 ton of irradiated seeds for 5-7 minutes.

EFFECT: invention enables to activate the inner potential of seeds and their resistance to the causative agents of various diseases of cereal crops, contributing thereby the increase in productivity of cereal crops and their yield.

Description

The invention relates to agriculture and can be used for seed treatment of grain crops at the stage of pre-sowing treatment to protect seeds from diseases and increase productivity.

There is a method of presowing treatment of seeds of grain crops, which consists in the fact that the grain is poured into a grain dryer and blown through it, atmospheric air or air heated by no more than 7 ° C. At the same time, the relative humidity of the air supplied to the grain layer is reduced to an equilibrium grain moisture of 14% [1].

The disadvantage of this method is the lack of clear recommendations on the temperature of the air supplied to the grain layer, its speed in the grain layer and the time of seed treatment.

The closest technical solution, selected as a prototype, is a method of presowing treatment of seeds. The method provides for simultaneous exposure of seeds to radiation in the infrared and red regions of the spectrum with a certain ratio, volumetric density of radiation and exposure time [2].

The disadvantage of this method is that the cells of the irradiated objects, which are original resonators, under the action of irradiation with a given wavelength and direction of radiation enter into resonance with waves whose wavelength is comparable to or a multiple of the size of the cell. At the same time, “standing waves” are formed in the cells, blocking the intercellular metabolic processes.

The objective of the invention: to increase the efficiency of the method of presowing treatment of seeds of grain crops.

The invention consists in the following. Seed treatment is carried out for two cycles, the first of which is carried out by irradiation with pulsed infrared radiation with a wavelength of 3.0 to 4.0 μm and a flux density of 5 to 10 kW per 1 m ² for 10 seconds with a temperature regime ranging from 4.5 to 5 ° C / s. After processing, the seeds are laid for aging for a period of 8-10 days. The technical result of the first cycle is the activation of the internal potential of seeds to increase sowing qualities. The second cycle is realized by treatment with a complex fungicidal disinfectant of grain seeds with a consumption rate of 0.4 liters per 1 ton of irradiated seeds for 5-7 minutes. The drug begins to act after 2-4 hours after sowing the etched seeds in the soil. The technical result of the second cycle is the protection of seeds from a complex of pathogens of various diseases of grain crops. Together, this will increase the productivity of grain crops due to the increase in yield and quality of grain obtained by pre-sowing treatment in two cycles.

The method is as follows. Seed treatment is carried out for two cycles, in the first cycle, the seeds are irradiated with infrared radiation, and in the second, with a complex fungicidal seed dresser of cereal crops with anti-stress components. In the first cycle, the temperature rate is preliminarily determined. It should range from 4.5 to 5 ° C / s. Exceeding these values of the speed of the temperature regime will cause a state of stress in the seeds. In this case, control of the heating temperature of the seeds is carried out using an optical pyrometer. In the first cycle, a layer of seeds with a thickness within 1-2 of the average grain size is irradiated with an infrared radiation generator (type ESC-1) with a wavelength of 3.0 to 4.0 μm and a flux density of 5 to 10 kW per 1 m ² for 10 sec At the indicated wavelength, the seeds of grain crops have the lowest reflectivity, which facilitates the penetration of radiation into the depths of the seeds and activates the internal potential, thus allowing to increase the sowing quality of seeds, such as germination and germination energy. After processing, the seeds are laid for aging for a period of 8-10 days. In the second cycle, the sedimented seeds before sowing are treated with a complex fungicidal seed dresser of grain crops with a consumption rate of 0.4 liters per 1 ton of irradiated seeds for 5-7 minutes. The drug begins to act after 2-4 hours after sowing the etched seeds in the soil. Penetrating into the seeds and moving into the seed germ, the drug destroys the smut infection. Then, the etchant moves to the growth points of the seedlings and inhibits the biosynthesis of ergosterol in the cell membranes of phytopathogens. Thus, it prevents the development of external (solid smut, septoria, helminthosporiasis) and internal (dust smut) infection of seeds. Protravitel not only disinfects seeds, but also partially disinfects the soil and plant debris around them. The action of chemical disinfectant lasts the first 5-7 weeks after sowing. The combined effects of infrared radiation and a complex fungicide disinfectant can increase seed yield.

Information sources

1. Shevchenko F.P. Air-thermal heating and improvement of sowing qualities of seeds / F.P. Shevchenko, V.A. Krasilnikova // Selection and seed production. - 1950. - No. 3.

2. RF patent 2090031, IPC 6 A01C 1/00, 07.25.95 - prototype.

Claims (1)

A method for pre-sowing seed treatment of grain crops, including exposure to seeds by radiation in the infrared region with a certain volumetric radiation density and exposure time, characterized in that the pre-sowing treatment is carried out in two cycles, the first of which is carried out by irradiation with pulsed infrared radiation with a wavelength of 3.0 up to 4.0 microns and a flux density of 5 to 10 kW per 1 m ² for 10 seconds with a temperature regime in the range from 4.5 to 5 ° C / s, after which the seeds are laid for tracking for a period of 8-10 days her, and the second cycle is carried out before seeding with a complex fungicidal disinfectant of cereal seeds with anti-stress components and with a consumption rate of 0.4 liters per 1 ton of seeds for 5-7 minutes.