RU1787347C - Seed presowing treatment method - Google Patents

Abstract

The invention relates to the field of agriculture. The aim of the invention is to increase efficiency by accelerating germination, increasing germination and germination energy. In a method for pre-sowing seed treatment, water is exposed to electromagnetic radiation with a dose of 0.04-0.16 J / cm3 in the frequency range of 9-30 GHz. Then the seeds are soaked in it for .6-12 hours. Next, the seeds are sown. 3 tablets, 1 sludge,

Description

The invention relates to agriculture, in particular to pre-sowing seed treatment.

A known method for pre-sowing seed treatment in an electric field, comprising exposing the seeds to an electric field in a working chamber with a system of corona electrodes. The disadvantages of this method include the complexity of the technical implementation of the method: the complex geometry of the electrodes to create a uniform electric field strength, the need to protect against high voltage, the ability to short circuit a high voltage source through the working chamber when it gets wet processed material (seeds) .

A known method for pre-sowing treatment of seeds, including exposure to them with ultrasound in a solution of trace elements while simultaneously and synchronously with ultrasound exposure to an electromagnetic field. The disadvantages of the method include

the complexity of the method, due to the multifactorial effect on the seeds.

There is also known a method of pre-sowing seed treatment, including treating them with a solution of microelements with simultaneous exposure to an electromagnetic field and hydraulic shock, and the electromagnetic field acts in a pulsed manner. The disadvantage is the multifactorial effect and the associated complexity of the implementation of the method.

. The closest in technical essence (prototype) is a method of presowing treatment of seeds, including exposure to electromagnetic radiation and water (in a solution of trace elements) with simultaneous exposure to ultrasound.

The specified method has the following disadvantages: the complexity of the processing method, including the influence of three factors - electromagnetic radiation, ultrasound, trace elements in solution. In this case, the influence of all factors leads to a total of VI 00

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the gain in germination, the length of the roots and the ground part of the seedlings in comparison with the control (without exposure) is not more than 31-50%. Thus, the disadvantage of the prototype is the insufficient gain in comparison with the control, in addition, the prototype method requires sophisticated hardware.

The aim of the invention is to accelerate germination, increase germination and germination energy while simplifying the hardware, Delivered Ј; spruce is achieved by the fact that the seeds are exposed to electromagnetic field and water, and the specified exposure to electromagnetic radiation, which is selected in the range of 9-30 GHz with at a dose of 0.04-0.16 J / cm3, they expose the water and then carry out the indicated effect on the seeds with treated water by soaking them.

A comparative analysis of the claimed method with the prototype allows us to conclude that the claimed method differs from the prototype in that only water is exposed to electromagnetic radiation, electromagnetic radiation in the range of 9-30 GHz with a dose of 0.04-0.16 J / is chosen cm3, seed treatment is carried out with irradiated water by soaking. Thus, the proposed technical solution meets the criterion of novelty. The significance of these characteristics to achieve the goal is confirmed by the following.

Preliminary and separate from the other processes of the method, water treatment by exposure to microwave electromagnetic radiation simplifies the hardware of the method, because at the same time, the final object of influence is not present - seeds and technical means ensuring their participation in the process, as well as due to the water memory property established by the authors, which retains high activating properties for a considerable period after processing. At the same time, it was found for the first time that the action of ultrahigh-frequency electromagnetic radiation on water helps to accelerate germination and increase the germination and germination energy of seeds by the subsequent simple and well-known operation of soaking them.

The choice of the frequency of radiation acting on water from the range of 9-30 GHz is due to the fact that within this range, as shown by experiments, the effect of accelerated germination, germination energy exceeds the similar parameters of the prototype,

Outside the specified range, the effect of processing and the method as a whole is less than that of the prototype. The dose range of 0.04-0.16 J / cm3 is determined on the basis of experimental data: at a dose of less than 0.04 J / cm, the processing effect is less than in the prototype, and gradually decreases to a complete loss as it decreases further; at a dose of more than 0.16 J / cm3, the effect of subsequent exposure to seeds with treated water is sharply reduced.

The invention is further illustrated by an example of an apparatus for treating microwave water

5 electromagnetic radiation.

The drawing shows a block diagram of a device for water treatment, which contains a generator of microwave electromagnetic radiation I, decoupling ferrite

0 valve 2, attenuator 3, and a cell with water 4. A ferrite valve eliminates the influence of the generator load, which is the attenuator and the cell connected in series, on the frequency and value of the generated

5 power. The attenuator sets the required radiation power. According to this block diagram, installations for irradiating water at the following frequencies were assembled

0 I setting - 8.5 GHz, 11 GHz

II installation - 15.8 GHz

III installation - 22 GHz

IV setting - 30 GHz, 33 GHz

For each test, 50 ml of water was taken, poured into a cuvette, after which the water was exposed to electromagnetic radiation of a certain frequency and dose. Then the water from the cuvette was poured into a glass, and seeds were soaked using the known technology. After 6-12 hours, the soaked seeds were transferred onto Petri dishes between layers of tissue (filter paper) moistened with the remains of irradiated water. Tests were conducted as

5 on seeds with short (radish) and long (wheat) vegetation periods. Germination of seeds was carried out under laboratory conditions at room temperature.

0

In each experiment, at one frequency of microwave exposure and one dose of radiation, 3 seed lots of 100 pieces each were taken. In each series of experiments, a control

5th experiment — we took 3 portions of water, 50 ml each of the same intake as for irradiation, and the seeds were soaked in them.

All experiments at different doses of radiation and different frequencies of electromagnetic exposure were carried out by a similar technique. The results of the experiments are shown in tables 1-3,

Table 1 shows the average test results with wheat seeds processed according to the proposed method when exposed to electromagnetic radiation at the frequencies indicated in the table at an irradiation dose of 0.12 J / cm3. At each frequency, three batches of seeds were processed — 100 pieces. in each.

From table 1 it is seen that the proposed method for processing seeds gives an excess in the size of the roots and the ground part compared with the prototype in the range of 9-30 GHz.

Table 2 shows the test results with radish seeds processed by the proposed method. Comparison was made with control.

Table 2 allows us to conclude that the germination energy of radish seeds processed by the proposed method is 1.65 times, and the number of germinated seeds after 4 days is 1.6 times higher compared to the control. The average length of the terrestrial part of the shoots is 2.5 times longer compared to the control. The gain in comparison with the prototype in terms of the number of germinated seeds and the length of the ground part is 1.1 and 1.6 times, respectively.

As established in the experiment, the most effective parameter for evaluating the effectiveness of irradiation is the length of the germinated seed germ. Using this parameter, we estimated the dose limits at which the positive effect exceeded that in the prototype. As an example, Table 3 shows the data obtained at a frequency of 22 GHz for 60 lots of 100 seeds of wheat. in each (3 days after radiation treatment).

It can be seen from Table 3 that the optimal radiation doses according to the proposed method are 0.04-0.16 J / cm3. Similar results confirming the optimality of the indicated radiation doses were obtained at other frequencies in the range of 9-30 GHz. Results confirming the effectiveness of this range for irradiating water were obtained from experiments with radishes.

Thus, the positive effect of seed treatment according to the proposed method when only exposed to electromagnetic radiation was experimentally confirmed, while three stimulating factors are used in the prototype.

The technical and economic effect of the proposed method for pre-sowing seed treatment compared to the prototype is to increase germination and increase germination energy while reducing the number of stimulating effects on seeds from three (electromagnetic radiation, ultrasound, microelements in the prototype) to one (electromagnetic radiation of a selected frequency range and radiation doses - in the proposed method) while simplifying the hardware.

It is not possible to determine the expected economic effect of using the proposed method, since the applicant does not have data on the needs of the national economy in this method.

Claims (1)

SUMMARY OF THE INVENTION A method for pre-sowing seed treatment, including exposing them to a liquid medium, which is also exposed to electromagnetic radiation, characterized in that, in order to increase efficiency by accelerating germination, increase germination and germination energy, a liquid medium is used water, and the frequency range of electromagnetic radiation is selected in the range of 9-30 GHz, and the dose in the range of 0.04-0.16 J / cm3, after which the seeds are exposed to soaking. Table 1 table 2 Table 3