RU2240663C1 - Method for commercial cultivation of farm crops with the use of laser radiation - Google Patents

Abstract

FIELD: agriculture, in particular, presowing treatment of seeds and grown plants.

SUBSTANCE: method involves presowing radiation of seeds in pits in grain storage by means of laser beam providing for scanning simultaneously in two mutually perpendicular planes; exposing pit surface to radiation by means of laser unit operating in automatic mode at radiation rate preliminarily set for given crop; upon termination of radiation procedure, leaving seeds for rest to provide for energy exchange between radiated and non-radiated seeds in pit; sowing seeds in the field and cultivating crop; exposing plants to one radiation procedure at each of growing stages characteristic of given crop at night by laser beam, which simultaneously provides for scanning in two mutually perpendicular planes by means of similar laser unit operating in automatic mode at radiation rate characteristic of given crop. Radiation is performed by moving laser unit on the field with plants or along process tracks.

EFFECT: increased yield and reduced production costs.

5 cl, 2 tbl, 2 ex

Description

The invention relates to the field of agricultural industrial crop production and can be used for growing crops on vast areas of crops to increase their productivity.

It is known that laser irradiation of seeds and plants activates bioenergetic processes in them and stimulates their growth and development.

A known method of pre-sowing treatment of seeds of grain crops by as USSR No. 1305904, A 01 C 1/00, 1985, according to which the surface layer of seeds placed in a thin layer in the granary is irradiated with laser radiation with a wavelength of 630-660 nm. After irradiation, the seeds are incubated for 7-15 days in a dark room and sown.

The disadvantage of this method is its lack of effectiveness in the industrial cultivation of crops, because only the seeds are activated, and therefore the energy “feed” received by the seeds is not enough to activate the plants throughout the entire growing season, as well as the need for large storage areas for seeds to be placed with a thin layer before irradiation.

A known method of stimulating plant growth by as USSR No. 957452, A 01 G 7/04, 1980, including pulsed laser irradiation of plants throughout the entire growing season with pulses with wavelengths of 750-3400 nm, 550-750 nm, 400-450 nm.

The disadvantage of this method is its high cost, cumbersome, because irradiation is performed during the entire growing season: day and night, which is relatively difficult.

Closest to the claimed invention according to the main essential features is the known method of laser activation of seeds in collars, which we adopted as a prototype, according to the patent of the Russian Federation No. 2072758 according to the application No. 92003049, A 01 C 1/00, A 01 G 7/04, 1992 including presowing activation of large batches of seeds and bulk collars by streams of light pulses created by a scanning laser beam by means of light guide devices installed in the collar of seeds in granary conditions. The energy received by the seeds in the irradiated zones of the pile by means of optical fibers is transferred to the adjacent layers of seeds by contacting the irradiated seeds with non-irradiated ones. Moreover, a certain time interval is required between the end of seed treatment and sowing them in the soil for energy exchange of the entire mass of seeds in the pile. After bedding, the seeds are sown in the field and the culture is grown before harvest.

The disadvantage of this method is its relatively high complexity due to the need to install optical fibers in different places of the collar and the fact that it does not provide a sufficiently effective aftereffect of laser irradiation of seeds on the plants passing through the subsequent stages of ontogenesis and the desired increase in seed yield.

The problem solved by the claimed invention is to increase crop yields and reduce costs in the industrial cultivation of crops on vast areas of crops.

The purpose of the invention is to provide plants with energy recharge during those periods of their vegetation, when they are especially in need, and when using simple unified means.

The technical result is achieved by the fact that in the known method of laser irradiation of seeds in the shoulders, providing for the operation of pre-sowing seed irradiation in the shoulders in the conditions of granaries with light pulse flux generated by a laser unit with a scanning laser beam, operating in automatic mode with the irradiation schedule set for each culture, exposure seeds for a certain period of time between the end of treatment and their sowing for energy exchange between irradiated and unirradiated seeds b urta (bedding), sowing and growing plants, according to the invention, the operation of pre-sowing seed irradiation in the collars with a scanning laser beam is carried out by irradiating the surface of the collar with a laser unit installed above it, which scans the beam simultaneously in two mutually perpendicular planes, and when growing plants, additional operation - their laser irradiation in the phases of their vegetation using the same laser unit, for which it is hung on a vehicle and go around he field with plants along its perimeter or on the tramlines at night once in each of the phases, while the irradiation of seeds in the collars is carried out for 4-6 days, seed tracking - for 7-25 days, the laser unit is moved with at a speed of 4-5 km / h, and laser irradiation of plants is carried out in the phase of tillering, going into the tube, sweeping, flowering and pouring grain inherent in the culture.

A comparative analysis of the proposed technical solution with the prototype allows us to conclude that it differs from the known method for the operation of pre-sowing activation of seeds in the collars (by irradiating the surface of the collar using a laser unit installed above it), the type of element used in performing this operation (a laser unit providing scanning the laser beam simultaneously in two mutually perpendicular planes), as well as an additional operation carried out during the cultivation of races :: operation of laser irradiation of plants with an indication of the specific order and mode of its implementation and the elements used in doing this (this operation is performed in the phases of plant vegetation, once in each phase, at night, and use the same laser system as during irradiation seeds, i.e., providing scanning of the laser beam simultaneously in two mutually perpendicular planes, and a vehicle onto which the laser system is mounted, operating in automatic mode, and go around the field with plants along its perimeter or on tramlines, irradiating plants). Therefore, the claimed technical solution meets the criteria of patentability, novelty.

Studying the state of the art in the process of conducting a patent search on all types of information publicly available in the press, we did not find a technical solution with the claimed combination of essential features, but found the following: a technical solution is known according to which both seeds and plants grown from these are irradiated with laser radiation seeds (AS USSR No. 1827744, A 01 C 1/08, 1991, "Method of combating rice diseases"), and the seeds are soaked in water for 2.5-3 hours before irradiation, and the plants are irradiated in one of phases of their vegetation - into the phase of exit into the tube, when Yes, the manifestation of the disease can be noticed, and the plants are irradiated before the onset of symptoms of damage and by the initial detection of infection in order to increase the resistance of rice to diseases.

Our research and experimental verification revealed the possibility of increasing the yield of agricultural crops during their production cultivation and reducing costs by combining the presowing laser activation of large batches of seeds in granaries using a laser system that scans the beam simultaneously in two mutually perpendicular planes, and operations laser activation of plants using the same laser installation, i.e. installation that provides scanning of the beam simultaneously in two mutually perpendicular planes, operating in automatic mode with the irradiation schedule set for each crop, mounted on the vehicle, which circled the field with plants in the phases of their vegetation, once in each phase, at night its perimeter or tramlines. Therefore, the claimed technical solution meets the criteria of patentability, inventive step.

The claimed technical solution meets the criteria of patentability, industrial applicability, because it can be used in agriculture for the industrial cultivation of crops (when processing large quantities of seeds and large areas with vegetative plants). And, in addition, the description of the invention provides means and methods by which it is possible to implement the claimed technical solution in the form as described in the independent claim.

The method is as follows: above the pile of seeds placed in the granary before sowing, a laser installation is installed that provides scanning of the laser beam simultaneously in two mutually perpendicular planes, sets the irradiation schedule for this crop and the automatic mode of its execution, and irradiates the surface of the seed pile.

After the end of the process of irradiation of the surface of the pile, the seeds are left for baking for energy exchange between trained seeds and non-irradiated ones. After bedding, the seeds are sown in a field for growing plants. In the plant vegetation phases inherent in the culture, they are irradiated once in each of the phases using the same laser setup as when irradiating seeds in a pile, i.e. a laser beam scanning simultaneously in two mutually perpendicular planes at night, for which a laser installation is hung on a vehicle and circled the field around its perimeter or along the tramlines. In this case, the most optimal period of pre-sowing seed irradiation is a period of 4-6 days, the curing period is a period of 7-25 days, the speed of a field detour by a vehicle with an automatic laser system on it is 4-5 km / h, and for phases vegetation of plants in which they are laser activated, take the phase of tillering, going into the tube, sweeping, flowering and pouring grain, which are inherent in the cultivated culture.

Examples of the method

Example 1

They took 150 tons of Yuna winter wheat seeds and placed them in a granary with a shoulder 1.5 m thick. A LU-2 laser unit with a wavelength of 632.8 nm and a power of 25 mW was installed above the pile so that the scanning beam irradiated the entire surface of the pile. On the control unit of this laser unit, the procedure was set for irradiating wheat seeds with a laser beam scanning simultaneously in two mutually perpendicular planes for 5 days in a pulsed automatic irradiation mode.

After the end of the irradiation, the seeds were left for aging, which lasted 7 days. After bedding, the seeds were sown in the field. After germination, the plants were subjected to laser activation in the tillering, flowering phases and in the period between these phases (10 days after the tillering phase) using the same laser unit LU-2 mounted on a tractor that moved along the roads along the perimeter of the field with plants, providing their irradiation with a laser beam scanning simultaneously in two mutually perpendicular planes: options O ₁ and O ₅ . The control was crops from unirradiated seeds and plants (K).

In addition, the crops obtained from non-laser-irradiated seeds were irradiated only in one of the phases of their vegetation: in the tillering phase (option O ₃ ) and in the flowering phase (option O ₄ ), and the experiment was also started without irradiation of plants grown from irradiated seeds (option O ₂ ). Investigated the crop and its structure for all these options. The data are summarized in table. 1.

Example 2

They took rice seeds of the Liman variety (150 t) and acted with them and with the plants grown from them, in the same way as in Example 1. The data are summarized in Table. 2.

Data analysis table. 1 and 2 shows that the cultivation of crops by the proposed method, according to which laser irradiation of seeds in collars and plants is carried out during their vegetation phases (for winter wheat and rice during tillering and flowering phases), gives an increase in yield compared to control (option K ) by 20.5-28.8 kg / ha (option O ₁ ) due to an increase in the mass of 1000 grains, grains of ears (panicles) and the number of ears (panicles) per 1 m ^{2 of} sown area. Cultivation of crops according to other schemes other than the proposed method also gives an increase in yield compared with the control, which is 11-13 kg / ha lower than when grown according to the proposed method.

The operation of pre-sowing activation of seeds in collars by irradiating its surface with a laser unit that bleaches the scanning of the laser beam simultaneously in two mutually perpendicular planes increases the efficiency of seed saturation with energy and simplifies the technical implementation of this operation, since it is easier to install a laser installation in one place of the collar than install optical fibers in different places of the collar and create a working horizontal plane between the optical fibers when the scanning beam is operating, as lays in the prototype, - this requires high accuracy of the adjustment work, and therefore, high costs.

An additional operation carried out during the cultivation of plants — their laser irradiation during the phases of their vegetation — provides plants with energy recharge during those periods of their vegetation, when they are especially needed.

The implementation of this operation at night increases the efficiency of activation of plants by enhancing their photosynthetic response to energy recharge.

The implementation of this operation using the same laser system as in the laser irradiation of seeds, simplifies the technology by unifying the technical means used.

The use of a vehicle for mounting a laser system on it and driving around the field with plants along its perimeter or along the tramlines reduces the complexity of the plant operation and simplifies its implementation.

The use of a laser system, which provides the process of irradiating seeds in an automatic mode according to a given irradiation schedule, simplifies the technology of growing plants and reduces the costs of industrial cultivation of crops on vast areas of crops.

So, the claimed combination of essential features is necessary and sufficient to achieve the goal and solve the problem.

Claims (5)

1. A method of industrial cultivation of crops using laser irradiation, including pre-sowing treatment of seeds of agricultural crops in collars in the conditions of granaries by irradiating them with streams of light pulses generated by a laser unit with a scanning laser beam, operating in automatic mode with the irradiation schedule set for each crop, subsequent seed tracking, sowing and plant cultivation, characterized in that the surface of the shoulder with seeds is irradiated through a laser installation located above them, which provides scanning of the beam simultaneously in two mutually perpendicular planes, and the plants are irradiated during their vegetation phase with a similar laser installation, which is moved along the perimeter of the field with plants or along the tramlines at night once in each of these phases . 2. The method according to claim 1, characterized in that the seeds in the shoulders are irradiated for 4-6 days. 3. The method according to claim 1, characterized in that the curing of seeds is carried out within 7-25 days. 4. The method according to claim 1, characterized in that the laser unit is moved across the field at a speed of 4-5 km / h. 5. The method according to claim 1, characterized in that the plants are irradiated in the phase of tillering, going into the tube, sweeping, flowering and pouring grain inherent in the culture.