RU3854U1 - MICROCapsule FOR SPRING OF PLANT SEEDS - Google Patents

Abstract

Microcapsule for seed germination of plants, containing a protective coating of nutrients applied to the seed of the plant, characterized in that a particle of highly anisotropic hexagonal ferrite is introduced, located under the coating.

Description

MICROCapsule FOR SPRING OF PLANT SEEDS

The utility model relates to the field of agriculture and can be used to prepare seeds for sowing on a germination medium.

The known structure of the container of biologically inert porous materials, together with nutrients corresponding to agronomic standards, the presence of which protects plants from pests and adverse weather conditions, provides metered nutrition and improves seed germination and seed growth.

However, the germination rate depends on the geomagnetic orientation of the seed placed in the capsule, and for certain directions of orientation relative to the countries of the world (depending on the geomagnetic situation in the area), the germination process slows down.

Granules (microcapsules) are also known for germination, plant seeds, formed by applying a protective film-forming membrane to the surface of the seeds (for example, based on lignin-containing substances with the addition of trace elements) containing nutrients 23.

However, the independence of seed germination and their germination rate from spatial orientation with respect to the countries of the world and the direction of the Earth’s magnetic field and other geophysical factors is not achieved.

M.cl. AOl N S5 / S8

reliability of seed germination, ensuring independence of the speed of seed germination from neblsh tidy external natural and geophysical conditions.

This is achieved by the fact that a particle of highly anisotropic hexagonal ferrite located under the coating is introduced into the well-known microcapsule for seed germination of plants containing a protective coating of nutrients applied to the seed of the plant.

The essence of the proposed utility model is illustrated by the drawing, which shows the structure of the microcapsule.

The microcapsule contains a protective coating 1, for example, a shell of nutrients, under which the seed 2 and at least one particle of highly anisotropic hexagonal ferrite 3 are located. Inside the microcapsule, under the coating 1 there can be a nutrient medium 4. In the absence of medium 4, coating 1 directly envelops the seed 2 s adjoining hexaferrite particle 3.

A particle of hexagonal ferrite 3, which is a magnet of the edo size (up to 10 μm) with a magnetic field strength of up to 0.4 MA / m (5 kOe) and a maximum coercive force of up to 4 W / s (50 kOe), is oriented along the magnetic field lines - Earth But, creating a local magnetic field Nd, acting on the seed S, and the intensity of the created field Nd is significantly greater than the density of the natural magnetic field HO - The presence of a local magnetic field near the seed due to the hexaferrite particle, firstly, due to the biomagnetic effect, the stimulus ruet seed germination, and, secondly, leads to the self-orientation of the embryo and its roots in the direction of the total magnetic field. In this way, the speed of germination of the seed is independent of its initial spatial orientation with respect to the countries of the world, and the lines of force of the Earth’s magnetic field, which leads to uniform germination of seeds planted in the proposed microcapsule:. , sources, AI, TAKE ATTENTION WHEN DRAWING UP A DESCRIPTION FOR A USEFUL WEDDER 1 Seed treatment method. RF patent N 2038724 according to the application N9304.3613 / 15 of 09/13/93. Publ. BI N19.1995. S. 90. 2. A method of growing root crops in controlled conditions and installation for its implementation. Patent N 2040152 according to the application 5059315/13 from 08.20.92. Publ. BI N 21, 1995.S. 92.

Claims (1)

Microcapsule for seed germination of plants, containing a protective coating of nutrients applied to the seed of the plant, characterized in that a particle of highly anisotropic hexagonal ferrite is introduced, located under the coating.