RU2175181C1 - Seed treatment method - Google Patents

Abstract

FIELD: agriculture, in particular, presowing treatment of farm crop seeds. SUBSTANCE: method involves exposing seeds to electromagnetic field of decimeter band with amplitude-modulated vibrations of extremely low-frequency range for 120-500 min at field intensity of 0.7-9 V/m. Method allows field intensity to be reduced and, as a result, consumption of power to be decreased. EFFECT: increased efficiency and reduced hazardous effect upon human health. 1 dwg

Description

 The invention relates to the field of agriculture, and in particular to methods for treating seeds of crops before sowing.

 A known method of stimulating the vital processes of biological objects (RF patent N 2113108, IPC (6) A 01 G 7/04, A 01 G 1/00, A 61 N 1/00, 2/00). The object is exposed to an electromagnetic field while transmitting electric current for a period of time from 10 s to 2 hours. The magnitude of the electromagnetic field is set in the range of 80-80000 A / m.

 A known method of growing plants, including sowing seeds in a tank of non-magnetic conductive material and passing an electric current of industrial frequency through a winding located on the outer surface of the tank (ed. St. USSR N 1665952, IPC (5) A 01 G 7/04).

 A device is known for irradiating sown fields with ultra-short waves, which is an ultra-short-wave radio transmitter connected to a directional antenna and mounted in a basket tied over a field by means of balloon cables (ed. St. N 32068, A 01 G 7/04).

A device for irradiating planting material, comprising placing plants in a metal cup with a horn microwave antenna, is known. In order to increase the growth rate, irradiation is carried out in the frequency range 22-60 GHz at a radiation flux density of (1-1.2) • 10 ³ W / m ² (ed. St. N 1371613, A 01 G 7/04).

 The closest of the analogues to the claimed is a high-frequency method of pre-sowing heating of wheat seeds, leading to an increase in seed yield with high and low germination by 5-10% compared with the control, while the frequency of the electromagnetic field is 40.68 MHz, and the field strength is about 25 -40 kV / m (Novikova G.V., Savchukova I.I. Studies of the effects of high frequency electromagnetic fields on seeds of vegetable crops. Problems of electrification, automation and heat supply of agricultural production. Abstracts Dov-Union Scientific and Technical Conference. M., 1985. P.40).

 The disadvantages of the method include: the need to create large electromagnetic fields (of the order of tens of kilovolts), high energy consumption, the harmful effects of radiation on humans.

 The technical objective of the method is to reduce the field strength.

 To solve the technical problem, seeds are exposed to an electromagnetic field of the decimeter range, amplitude-modulated oscillations of the extremely low-frequency range for 120-500 min with a field strength of 0.7-9 V / m.

 As a review of the patent technical literature showed, nowhere has the decimetric electromagnetic field amplitude-modulated by the extremely low-frequency range been used for seed treatment, which allows us to conclude that the claimed technical solution meets the criterion of "inventive step".

 As shown by experimental data, when exposed to the seeds being treated with an electromagnetic field of the decimeter range by amplitude-modulated oscillations of the extremely low frequency range, seed germination remained the same compared to the prototype with a significant decrease in field strength (to 0.7-9 V / m).

 It was experimentally revealed that the seed treatment time should be from 120 to 500 minutes, since starting from a 120-minute treatment an increase in germination occurs, and after 500 minutes the result remains unchanged. It was also experimentally established that the minimum field strength created by the incident amplitude-modulated electromagnetic wave should be 0.7 V / m, and the maximum 9 V / m.

 The drawing shows a diagram of a device used for processing.

 The device consists of an oscillation generator 1, a carrier frequency generator 2, which also performs the function of an amplitude-modulating device, an emitter 3, which is a half-wave vibrator.

 Sinusoidal oscillations of the extremely low-frequency range from the output of the generator 1 go to the input of the generator of the carrier frequency 2, where the amplitude modulation of electrical oscillations occurs. From the output of the carrier frequency generator, the oscillations are transmitted to the radiating device 3.

 An example of a specific implementation.

 A device was used where 1 - GZ-118 was used as a generator of extremely low-frequency oscillations, a carrier frequency generator 3 - G4-37A, and a radiator 3 - a half-wave vibrator. The carrier frequency was 400 MHz, the frequency of the modulating voltage of the extremely low-frequency range was selected for each culture separately.

When processing, the modulation depth m _am = 85%, the field strength of the incident electromagnetic wave 0.7 V / m, the duration of irradiation of the seeds was t = 120 minutes. Seed germination remained unchanged compared to the prototype.

 It was found that the dependence of germination on the frequency of modulating oscillations has a resonant character. The width of the resonant peak is not more than 1 Hz.

Claims (1)

 A method of seed treatment, including exposure to a decimeter-wave electromagnetic field, characterized in that before sowing, the treated seeds are exposed to an electromagnetic field that is amplitude-modulated by vibrations of the extremely low frequency range for 120-500 minutes at a field strength of 0.7 - 9 V / m.