RU2436272C2 - Method of presowing treatment of leguminous seeds - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method of presowing treatment of leguminous seeds includes soaking of seeds cover in liquid. For this the seeds of post-harvest ripening stage are soaked in an aqueous solution of bio-stimulator of growth "Biostim". At that the surfaced seeds - the first fraction are selected and dried to 14% moisture content and packed. The remaining seeds - the second fraction are also selected, packed in containers of waterproof material. Additionally the seeds of the second fraction are treated with an aqueous solution of bio-stimulator of growth by spraying, incubated for 20-24 hours and dried to 14% moisture content. The treated seeds are stored until planting each faction separately.

EFFECT: invention enables to increase the yield of seeds and green mass of leguminous grasses and to increase plant resistance to bacterial, viral, fungal diseases, frost and drought.

1 ex

Description

The present invention relates to agriculture, in particular to methods for presowing the treatment of seeds of legumes having a solid moisture-proof shell.

A known method of presowing treatment of seeds having a solid moisture-proof shell, in which the seed shell is mechanically exposed, causing a lot of scratches on its surface from all sides. To do this, the processed seeds from the loading hopper are fed into estrus having abrasive surfaces along which the seeds move in a chaotic state under the influence of a vibration exciter (A.S. No. 1586549, class A01C 1/00, 1990).

The disadvantage of this method of pre-sowing seed treatment is its low quality and productivity, as well as significant complexity.

These disadvantages are due to the fact that in the known method, the intensity of the process of scarification is not regulated, which leads to crushing of a certain amount of seeds.

In addition, since a mechanical effect on the seeds is produced, the point of growth of the root system of the seed germ can be damaged, which reduces their germination.

It is possible to clog the point of the scarifier with foreign objects and plant residues, which increases the complexity of servicing the scarifier in the process of its operation.

A known method of presowing treatment of seeds having a solid moisture-proof shell, in which a mechanical effect is exerted on the seed coat. To do this, the seeds through pipes connected to the holes in the bottom of the hopper, served on the abrasive surface of a flat rotating horizontal circle (RF Patent No. 2240665, CL A01C 1/00, 2004).

The disadvantages of this method of presowing treatment of seeds are its low quality and productivity, as well as the complexity.

These disadvantages are due to the fact that in the known method of presowing seed treatment, 2% of the seeds are crushed.

In addition, as a result of mechanical action on the seeds, the point of growth of the root system of the embryo of some seeds may be damaged, which reduces their germination and, consequently, the quality of the presowing treatment of seeds.

Since in the known method of pre-sowing seed treatment, the flow of seeds coming through the pipes from the hopper is processed on a disk with an abrasive surface, its area of its abrasive surface determines the amount of seed supply, and therefore the capacity of the scarifier, which limits the seed processing performance. The need for periodic filling of the hopper with seeds as they are fed to the disk with an abrasive surface increases the complexity of seed treatment.

The need to isolate impurities from the seeds (pebbles, metal and wooden objects) has led to the use of elastic shutters and cutouts in the pipes, through which seeds come from the hopper, in the design of the scarifier. This complicates the design of the device that implements the known method of seed treatment.

The closest in technical essence and the achieved result to the proposed method for pre-sowing seed treatment of legumes is a method of seed treatment by maceration (destruction) of the upper layer of the seeds of the seed coat with sulfuric acid with a specific gravity of 1.80 ... 1.83 for 10 ... 25 min (cm Prince Filimonov MA Improving the sowing qualities of seeds of forage grasses. - M .: Agricultural Publishing House 1953. S.117-118 - prototype).

The disadvantages of the method of pre-sowing seed treatment, adopted as a prototype, are low quality and high danger to staff.

These shortcomings are due to the fact that the complete elimination of the biological characteristics of the seeds of leguminous grasses - hard seed is not provided. According to the results of an experimental check, with a seed batch processing time of 25 minutes, the “hard” seed remains: red clover 3%; yellow alfalfa 8%; sainfoin 15%.

In the known method of breaking the mechanical barrier on the way of moisture from outside to inside the seed by maceration (destruction) of the upper layer of the cells of the seminal membrane, sulfuric acid destroys the adhesive that connects the cells of the layers of the seminal membrane.

In addition, the use of sulfuric acid requires compliance with increased safety requirements during operation.

The technical solution to the problem is to ensure the full use of the seed resource of legumes in the year of sowing.

The objective is achieved in that in the method of pre-sowing treatment of seeds of legumes by soaking the seed coat with liquid, according to the invention, the seeds at the post-harvest ripening stage are soaked in an aqueous solution of a growth biostimulator, for example, “Biostim”, while the pop-up seeds - the first fraction is selected, dried up to 14% moisture content and packaged, and the remaining - the second fraction is also taken, packaged in a container of moisture-proof material, additionally treated with an aqueous solution of a growth biostimulator by spraying, rzhivayut for not more than 24 hours, dried to 14% moisture content and the seeds were sown each fraction separately.

Due to the distinguishing features of the claimed method, i.e. by soaking the seed coat during the post-harvest ripening of the seeds of legumes in an aqueous solution of Biostim, the process of post-harvest ripening of the seeds of legumes is accelerated and the loss of seeds due to the death and loss of germination of a certain amount is prevented. The reasons for this type of seed loss in violation of the storage temperature and local penetration of moisture into the seed mass.

Phytohormone "Biostim" - a biological stimulator of growth and fertility, acts on the DNA of seed cells, ensuring their resistance, and in the subsequent plant to bacterial, viral and fungal diseases, frost and drought, and also increases the energy of seed growth.

In addition, the separation of seeds into two fractions by specific gravity allows the maximum use of the potential productivity of plants. Sown the two obtained fractions of seeds can eliminate the variance of the competitiveness of plants during their growth, since the seeds of the fraction differ in germination energy, in addition, under the influence of "Biostim" the quality of seeds within each batch is eliminated.

The introduction of Biostim as an component into an aqueous solution ensures the violation of the integrity of the solid moisture-proof shell of solid seeds, i.e. their scarification. The phytohormone "Biostim" penetrates through a solid, moisture-proof shell of hard seeds through the conductive bundles in it. For water, penetration through the conducting tufts of the seminal membrane is not available. Penetrating through a moisture-proof membrane, Biostim activates the growth processes in the seed, regardless of the presence of growth inhibitors in it. Seed growth processes begin with active DNA division and synthesis of the enzyme hydrolysis of reserve nutrients. Seed under the influence of growth processes swells, swelling a solid moisture-proof membrane. The mechanical barrier from the outside to the inside of the seed for water is destroyed. Water begins to actively enter the seed cell and remove toxins from them. The seed germ is growing, i.e. the seed is ready for sowing.

The aging for up to 24 hours of the fraction of seeds having a greater specific gravity with a content of 75 ... 85% aqueous solution of Biostim in the mass of seeds ensures the penetration of this phytohormone into hard seeds and the violation of the integrity of the moisture-proof shell of all hard seeds. The sum of the seeds of both fractions separately up to 14% moisture content ensures the termination of the growth processes in the seeds and their subsequent storage until separate sowing of each of the seeds fractions.

The analysis of the properties of the totality of the features of the claimed method and the properties of the totality of the features of the detected prototype and analogues showed that the totality of the features of the claimed method exhibits a new property - provides germination of all sown seeds of legumes.

An example of a specific implementation.

200 ml of the Biostim extract (containing 30 mg of the dry Biostim preparation) is heated to a temperature of 50 ° -70 ° C and kept in the steaming mode - in a closed container, insist to room temperature. Then it is poured into non-chlorinated water (H ₂ O) with a volume of 800 ... 850 l and the resulting Biostim aqueous solution is used for 5 hours.

Seeds of legumes, such as alfalfa, are loaded into a container with an aqueous solution of Biostim at the rate of 1 ton of seeds per 800 ... 850 l of an aqueous solution of Biostim. There is a separation of seeds into two fractions according to the specific gravity of seeds. Part of the seeds floats to the surface of the Biostim aqueous solution. These are juveniles - seeds with incomplete development. In them, maternal hormones and enzymes are in the active phase. In a container with an aqueous solution of “Biostim”, in the process of separation of seeds into two fractions, “Biostim” molecules penetrate into the emerging seeds with water. These seeds are removed and dried in the active ventilation mode at an air temperature of up to + 40 ° C to obtain 14% moisture content in the seeds. With this moisture content in the seeds, growth processes stop in them. These seeds are packaged in a bag, stored until the time of sowing and sowing.

Another part of the seeds is immersed in an aqueous solution of biostim and settles. These are athletes. They do not have residual maternal hormones and enzymes, but growth inhibitors are present. Activation of their growth processes is carried out due to growth hormones and hydrolysis of reserve nutrients under the control of their own genetic information when water enters the zone of active activity of genes (to the embryo) and the location of reserve nutrients in the seed. Some athletes have a moisture-proof seed coat, i.e. are hard seeds.

After a short exposure to a biostim in an aqueous solution of seeds immersed in it (up to 0.5 hours), the aqueous biostim solution is poured into another container and it is ready for reuse in the processing of the next batch of legume seeds.

Seeds from the container are unloaded on a waterproof surface, for example a plastic film, form a collar from them, which is covered with a plastic film. In a pile under a plastic film, the seeds are aged for 24 hours at a content of 75 ... 85% aqueous solution of biostim in the mass of seeds, which is applied by spraying the seeds with an aqueous solution of biostim. A boom sprayer can be used for this. In this case, the aqueous solution of the biostim should not leak out from under the shoulder on a waterproof surface. The content of the aqueous biostim solution is monitored visually - drops of a visible biostim solution should not form on the inner surface of the plastic film.

Molecules of the biostim phytohormone, which are in aqueous solution, penetrate the seminal membrane of ordinary athletoid seeds. In addition, biostim molecules penetrate through the solid, moisture-proof seed coat of “solid” seeds through the conducting bundles located in it, connecting the developing fetus with the mother plant. It happens as follows. Water begins to flow through the conductive bundles of the spermatic membrane, which immediately causes a local increase in osmotic pressure, which prevents further penetration of water through the conductive bundles into the seed. Since an unlimited amount of water and an aqueous solution of biostim penetrated into the seed through conducting bundles into the zone near the seminal membrane, several molecules of the biostim get into the seed. It's enough. Growth processes in seeds begin with the active division of DNA molecules and the synthesis of enzymes for the hydrolysis of storage nutrients of seed cotyledons. The seeds begin to swell, which causes a violation of the integrity of the solid waterproof seed coat, cracks appear in it, i.e. seed scarification occurs.

After 24 hours of seed treatment in a pile under a plastic film, the seeds are dried in the active ventilation mode at an air temperature of no higher than + 40 ° C to obtain a 14% moisture content in the seeds. At this moisture content in the seeds, they stop the growth processes caused by the biostim phytohormone. Then the seeds are packaged in sackotare, stored until the time of sowing and sown separately from the first fraction of the seeds.

The seeds of both fractions, sown in the soil under the influence of the surrounding moisture, begin to germinate. At the same time, the biostim molecules in them activate their growth processes.

Using the proposed method of presowing treatment of seeds of legumes in comparison with the known methods of presowing treatment of seeds will increase the yield of seeds and green mass of legumes by completely eliminating the biological characteristics of the seeds of legumes - hard seed, ensuring accelerated germination of seeds, increasing the energy of germination and uniformity of their development in herbage, increasing plant resistance to bacterial, viral, fungal diseases, frost and drought.

Hard seed elimination - scarification is excluded from the technological process of pre-sowing seed treatment as a separate technological operation.

Claims (1)

A method for pre-sowing seed treatment of legumes by soaking them, characterized in that the seeds at the post-harvest ripening stage are soaked in an aqueous solution of the Biostim growth biostimulator, while the pop-up seeds - the first fraction - are selected, dried up to 14% moisture content and packaged, and the remaining - the second fraction is also taken, packaged in a container of moisture-proof material, additionally treated with an aqueous solution of a growth biostimulator by spraying, kept for 20-24 hours, dried to 14% moisture content and stored until separate sowing of each fraction of seeds.