RU2110910C1 - Crop growing method - Google Patents

Abstract

FIELD: agriculture, in particular, plant growing, vegetable growing, horticulture in districts with problematic crop growing conditions. SUBSTANCE: method involves exposing seeds to magnetic field; growing seedlings and exposing them to magnetic field prior to planting into open ground. Magnetic treatment is conducted repeatedly. Seed and seedling treatment date is assigned with Moon position being taken into account. EFFECT: increased efficiency, simplified method and improved yield. 2 cl, 1 dwg, 2 tbl

Description

 The invention relates to agriculture and can be used in crop production, vegetable growing, horticulture and other agricultural sectors related to the cultivation of various crops, especially in areas where natural factors do not provide conditions for the normal course of the vegetative period of plants.

 Known methods [1,2] increase crop yields by pre-sowing seed treatment with various chemical compositions. These methods allow you to slightly increase the germination of seeds, but not effective enough, since complex formulations are used for seed treatment, the shells are easily destroyed and removed from the surface of the seeds during sowing.

 Closest to the proposed method is a method of growing plants, including sowing seeds, growing seedlings, followed by planting it in the ground and exposure to a magnetic field [3].

 However, the implementation of the known method requires the use of energy-intensive and complex devices to create an electromagnetic field. In addition, the known method does not take into account the relationship of magnetic seed treatment and the moon phase, which significantly reduces the effectiveness of magnetic seed treatment, and is also not applicable in the field, since it can only be used in a limited space.

 Thus, the technical result obtained by carrying out the invention is to increase the productivity of crops under conditions of mass plant cultivation, reducing energy intensity and increasing the environmental friendliness of cultivating various plants.

 The specified technical result is achieved by the fact that in the method of growing crops, including sowing seeds, growing seedlings, followed by planting it in the soil and exposing it to a magnetic field, expose the seeds to the magnetic field at least once before sowing, as well as seedlings before planting it in soil, using a magnetic field created by a system of permanent magnets with magnetic induction in the active zone of 30-120 mT. Processing of seed and seedlings with a magnetic field is carried out taking into account the position of the moon on the date of processing of seeds and seedlings.

 Compared to other methods, magnetic seed treatment using permanent magnet systems is not associated with labor-intensive, expensive and often harmful operations (for example, chemical, radioactive or electrical treatment) and is a technologically advanced and easily automated process.

 An example of a device that implements the described method in terms of exposure to magnetic fields on seedlings of crops or their seeds, is presented in the drawing.

 Magnetic modules 1 are made of barium ferrite and have poles with a flat surface. By means of the bracket 2, the magnetic modules 1 are installed with alternating polarity of the poles covering the tape of the transformer 3, through which seedlings or seeds are fed for planting. The number of magnetic modules 1 mounted on the bracket 2 depends on the required magnitude of magnetic processing for a particular seed.

 The proposed method is as follows.

 Seeds of crops are sown in special containers for growing seedlings. Seeds are pre-treated with a magnetic field. Then, the grown seedlings are passed, for example, using a conveyor through a magnetic system formed by magnetic modules 1, after which the seedlings are planted in the ground.

 Depending on the type of crop, the quality of the grown seedlings, the conditions for growing the plant, the exposure mode of the magnetic field is determined and, in accordance with this, the magnitude of the magnetic induction of modules 1 and their number are selected, i.e. magnitude of exposure to a magnetic field.

Example 1. Cotton seeds are sown in peat pots filled with a sand-soil mixture. Seedlings are grown until the plants reach 2 real leaves. When heating the soil in the field to 11 ^o C seedlings are treated with a magnetic field and planted in the ground.

 The optimal regime of exposure to a magnetic field was established at a magnitude of magnetic induction in the active zone of the device of 30 - 120 mT.

Seedlings to be planted were divided into four lots of 100 pieces. The first batch of A _{1-k was} not subjected to magnetic field treatment and landed on a control plot. The second batch of A ₂ was subjected to a single exposure to a magnetic field with a magnetic induction in the affected area of 40 mT. Seedlings of the third A ₃ and fourth A ₄ batch were treated three times with a magnetic field, while the third batch of seedlings was exposed at a magnetic induction of 30 mT, and the fourth batch was 120 mT.

Example 2. Used cotton seeds of the same variety. Before sowing in peat pots, the seeds were treated with a magnetic field with magnetic induction in the zone of influence of 40 mT. Seedlings were grown until the plants reached two true leaves, after which the seedlings were exposed to a magnetic field, as described in example 1, and planted in the ground (lot A ₅ ).

 The results of the experiments are presented in table. 1, which shows the average plot.

 The use of magnetic treatment of cotton seedlings leads to a faster entry of the plant into the phase of budding, flowering and ripening, i.e., to a decrease in the growing season of cotton growing and an increase in its productivity.

 The results of experiments on other crops are given in table. 2. This table shows the data taking into account the influence of the moon phase on the magnetic processing of seeds.

 The use of magnetic seed treatment, taking into account the influence of the moon phase on the magnetic processing process, increases the germination of seeds of various crops by 6-12%.

 The proposed method of growing crops allows you to get a full crop even in regions with risky conditions for cultivating crops.

 Sources of information.

 1. Auth. St. USSR N 1119622, MKI A 01 C 1/06, published. 1984.

 2. Auth. St. USSR N 1625369, MKI A 01 C 1/06, published. 1991.

 3. Auth. St. USSR N 1665952, MKI A 01 C 7/04, published. 1991.

Claims (1)

 1. A method of growing crops, including sowing seeds, growing seedlings, followed by planting it in the ground and exposure to a magnetic field, characterized in that the seeds are exposed to the magnetic field before sowing at least once, as well as seedlings before planting it in the ground, they use a magnetic field created by a system of permanent magnets with magnetic induction in the core 30 - 120 MT.  2 The method according to claim 1, characterized in that the processing of seed and seedlings with a magnetic field is made taking into account the position of the moon on the date of processing of seeds and seedlings.

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