RU2658366C1 - System of environmentally safe bio-intensive irrigated farming - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. System of environmentally safe bio-intensive irrigated farming contains rows of U-shaped trays-boxes. Trays are laid under small slope. Trays-boxes are made of concrete with fillers made of tuff, quartz, flint, basalt. Trays are insulated from the soil by the waterproofing materials. To the U-shaped trays bottom layer of wood residues, layer of plant residues and layer of soil are laid. Into the laid layers earthworms, effective microorganisms and fungi spores are introduced. To the soil layer tuff, perlite and coconut substrate are also added. U-shaped trays-boxes are covered with V-shaped trays. V-shaped trays have ribs for the moisture condensation, holes for the moisture draining and the plants planting seedlings. V-shaped trays are connected to each other. V-shaped trays output is connected to the rainwater and atmospheric moisture collector. Rainwater and atmospheric moisture collector is connected to the pipeline inlet through the pump with gate valve and parallel to them gate. Of the pipeline outlet is connected to the V-shaped trays input through the valve and to U-shaped trays-boxes through the tap. Enabling improved soil fertility. Reduced irrigation water costs and losses.

EFFECT: enabling the ecologically clean agricultural products cultivation.

1 cl, 1 dwg

Description

The invention relates to agriculture and can be used for irrigation of crops.

Volcanic tuff is known. It is used as a building material (aggregate in lightweight concrete) and serves as an excellent wall stone due to its light weight and frost resistance. It is easily processed by a saw and an ax.

More than half of the chemical composition of this rock is formed due to silicon oxide (49-75%) and alumina (9-23%).

In addition, the composition of the stone includes oxides of iron, magnesium, potassium, sodium and other chemical elements in small quantities.

Volcanic tuff was created by mixing liquid lava with particles of sand and volcanic ash. This rock is porous (porosity is in the range of 21.3-46.6%), formed by bonding clastic material in one way or another.

The simplicity of its extraction and ease of processing allowed the ancient peoples to use it as a building material from which such famous religious objects as the Lmbatavank Monastery (VII century), the church of Astvatsatsin (VI century), Yereruyk (V century) were built and other structures that have survived to our days in complete safety (http://kamni.ws/?p=80).

Tufa is a polycrystalline homogeneous sedimentary rock that is composed of carbonate minerals in the vicinity of geothermal springs. The main deposits of stone are in Italy, Turkey, Germany, Transcaucasia, Armenia, Russia, Iran, South Africa, Kyrgyzstan and Azeyrbadzhan.

About half of the chemical composition of this rock is calcium carbonate (CaO). In addition to it there are impurities of oxides of silicon, iron, aluminum and other elements.

Tufa is widely used in architectural decoration and decoration of personal plots. It serves as a material for carving sculptures, monuments and other elements of landscape design (http://kamni.ws/?p=77, https://ru.wikipedia.org/wiki/%D0%92%D1%83%D0% BB% D0% BA% D0% B0% D0% BD% D0% B8% D1% 87% D0% B5% D1% 81% D0% BA% D0% B8% D0% B9_% D1% 82% D1% 83% D1% 84).

The fertilizer efficiency of zeolite tuffs and organic waste in increasing the effective fertility of soils and greenhouse soils and increasing crop yields has been revealed (Stepanova L.P. Agroecological aspects of using zeolite tuffs and organic waste in the soil-plant system (by the example of the northern forest-steppe of the European part of Russia (abstract) Dissertation: Specialty of the Higher Attestation Commission of the Russian Federation: 01/06/03 - Agrology and Agrophysics.) (http://www.referun.com/n/agroekologicheskie-aspekty-primeneniya-tseolitovyh-tufov-i-organicheskih-othodov-v-sisteme-pochva- rastenie-na-primere-se v)

Volcanic soil. They come from two sources, they can be lava (products of volcanic lava) or erupted (from substances released into the atmosphere). About 90% of the lava rocks and soils are composed of basalt, the rest include andesite, obsidian, rhyolite and trachyte. Basalt is a rock constituting up to 90% of all lava-based volcanic rocks. Contains various minerals, rich in lime and soda, poor in quartz and potash. Ejected substances have the form of spherical particles, are cooled in the air and fall to the ground as solid particles (pumice) or rise into the air as a solid and are crushed by impact (tuff). Volcanic soils retain moisture very well, saturating even from fogs or light rainfall, so the vine receives enough water for growth. Volcanic rocks mixed with sand are fertile and are used for growing grapes (http.//www.wineservice.ru/vinnyj-mir/tipy-pochv/). (Unique vineyards of the island of Lanzarote (Spain) - Terra-Z. Www.terra-z.ru/archives/19130. Http://www.terra-z.ru/archives/9130).

The mineral composition of basalt. The bulk is composed of plagioclase, clinopyroxene, magnetite or titanomagnetite microlites, as well as volcanic glass. Phenocrysts, as already mentioned, are usually represented by olivine, clinopyroxene, plagioclase, rarely orthopyroxene or hornblende. The most common accessory mineral is apatite.

Chemical composition. The content of silica (SiO ₂ ) ranges from 45 to 52-53%, the amount of alkali Na ₂ + K ₂ up to 5%, in alkaline basalts up to 7%. (SiO ₂ - 52%, TiO ₂ - 1-2.5%, Al ₂ O ₃ - 14-18%, Fe ₂ O ₃ 2.5%, FeO - 6-10%, MnO - 0.1-0 , 2%, MgO - 5-7%, CaO - 6.12%, Na ₂ O - 1.5-3%, K ₂ O - 0.1-1.5%, P ₂ O ₅ - 0.2 -0.5%).

Basalt is used as raw material for crushed stone, production of basalt fiber (for the production of heat and sound insulating materials), stone casting and acid-resistant powder, paving slabs, pavers, cladding plates, and also as a filler for concrete. Basalt is very resistant to weathering and therefore is often used for the exterior decoration of buildings and for the manufacture of sculptures installed outdoors.

https://en.wikipedia.org/wiki/%D0%91%D0%B0%D0%B7%D0%B0%D0%BB%D1%8C%D1%82

The healing properties of basalt. At the moment, the healing properties of basalt are mainly used in stone therapy. This method of treatment has been known since ancient times, we began to practice it relatively recently, taking over the experience from our eastern colleagues.

Stone therapy can strengthen the body’s immune system. This technique is based on the use of stones, the main of which is basalt. Doctors recommend using dark gray and black rocks for this procedure. It is best to use basalts containing olein. http://www.detskiysad.ru/kamni/svoystva_bazalt.html

- минеральное образование, состоящее из кристаллического и аморфного кремнезема (SiO₂) в осадочных горных породах. Часто окрашен окислами железа и марганца в разные цвета с плавными переходами между ними.

- a mineral formation consisting of crystalline and amorphous silica (SiO ₂ ) in sedimentary rocks. Often colored with iron and manganese oxides in different colors with smooth transitions between them.

There is a strong popular belief that such a flint has special effects on water: a small piece of black flint put in water after several hours supposedly changes its structure and makes it sterile, which is why the water does not deteriorate for a long time and does not bloom

https://en.wikipedia.org/wiki/%D0%9A%Dl%80%D0%B5%D0%BC%D0%B5%D0%BD%D1%8C

Quartz has a positive effect on the chest and respiratory organs. It is believed that if you keep a quartz product, a small chip or a quartz crystal, this greatly facilitates the course of colds.

In folk medicine, quartz water, which is made at home, is popular. It is obtained by infusing water on quartz or by passing ordinary water through a filter from a special mixture of various types of quartz.

Quartz water has healing properties and has a very beneficial effect on the human body. It is biologically active and useful for the prevention of various diseases, for stimulation and rejuvenation of the body. http://lithotherapy.ru/katalog/k/kvarts.html

Perlite is an acidic water-containing volcanic glass with a fine concentrically-shelled individuality. Perlite breaks into small balls with a pearl sheen.

Crushed perlite swells when heated to 900-1100 ° C, increasing in volume up to 10-20 times. This expansion is due to the presence of two to six percent bound water in perlite. Since perlite is a form of natural glass, it is classified as a chemically inert material and has a pH of about 7. In horticulture, perlite is used worldwide as a component of a soilless mixture, where it provides optimal aeration and moisture retention for excellent plant growth.

Studies have shown that the highest yield is achieved when using soil with perlite. Another advantage of perlite in hydroponics and other forms of horticulture is the fact that it is sterile and free from insects, diseases, weed seeds and other soil pests and can be used without steam sterilization or chemical treatment of any kind. And unlike organic substances, perlite does not deteriorate over time, that is, it does not rot. Perlite is also used as a basis for fertilizers, herbicides and pesticides, as well as for granulating seeds. Perlite contains silicon, aluminum, potassium, sodium, iron, calcium, magnesium, oxygen and bound water.

(Perlite for plants. Properties. Variants of application in gardening. Http://www.tacca.ru/growing/substrates/254-perlite.html).

Coconut substrate for plants. Coconut fiber is a by-product of the coconut industry. Coconut substrate has an amazing ability to retain water (it can absorb 8 times its own weight in water) and the fibers act like mini-sponges, holding water for a long period of time, while the release of nutrients does not stop. Coconut substrate has an ideal pH range of 5.7 to 6.5, which is ideal for most plants. Coconut substrate contains significant amounts of phosphorus and potassium, essential nutrients for plants. Coconut substrate easily absorbs water and easily gives it away, thereby reducing the need for special impurities. Coconut substrate has a high ability to retain water, while maintaining excellent drainage and aeration. In addition, the coconut substrate contains lignins and cellulose. These compounds stimulate the development of beneficial bacteria, such as rods, mycorrhiza and trichoderma, which have a symbiotic relationship with the plant. Trichoderma work in symbiosis with plant roots to protect them from pathogenic fungi, such as pitium and fusarium. This helps increase yields by reducing pathogens. Bacilli are used all over the world to control insect pests and opportunistic microorganisms of fungi. Mycorrhiza live on the root surface, helping the plant better absorb nutrients (http://www.tacca.ru/growing/substrates/271-kokosovyj-substrat-dlya-rastenij.html).

The root mineral nutrition of plants in the natural habitat (roots in the soil) is indirect, i.e. thanks to microbes and symbionts (cohabitants). This is a very important point. Some plants without symbionts (bacteria or fungi) cannot live at all. Remember heather, lingonberry (mycorrhiza), sea buckthorn, and legumes with their nodule bacteria.

Mycorrhiza is the most powerful “pump” for plants; it not only supplies them with water from the deep layers of the soil, but also nourishes the plants. Because mycorrhiza of the fungus is very closely connected with the root of the plant, it is like a “continuation” of the root - in fact, it is one. The area of the suction surface of mycorrhizal fungi is 100 times larger than the suction surface of the root. In addition to water, fungi, through mycorrhiza, supply plants with everything they need in nutrition: minerals, vitamins, enzymes, biostimulants, hormones and other active substances.

Almost all cap mushrooms form ectomycorrhiza (i.e., superficial), but it should be borne in mind that they create mycorrhiza to a greater extent with woody plants. There are other fungi (representatives of different groups) that can create endomycorrhiza (i.e., penetrating deep into the root of plants). But not only this fact is of practical importance, but the ability of endomycorrhizal fungi to coexist with many plants (both woody and herbaceous). This is a very important property that provides these mushrooms with versatility.

A striking example of endomycorrhizal fungi is the Trichoderma lignorum mushroom, which lives on cereal plants. There is a ready-made biological preparation "Trichodermin" containing the spores of this fungus on a grain substrate. It is known about two companies that produce the biological product "Trichodermin." These firms are: NPO Bioteks, Ekaterinburg (t. 12-22-08) and a biolaboratory of the Novosibirsk plant protection station (t. 41-88-98).

The essence of the action of this fungus (as well as all endomycorrhizal fungi) is as follows. When its root application is carried out, the fungal spores fall into the rhizosphere (the root zone of plants), germinate, penetrate hyphae into the root (as if penetrate its deep tissues) and gradually enter into symbiosis, forming arbuscular-vesicular mycorrhiza. After this, the fungi begin to function, dissolving soil phosphates and other humates inaccessible to plants. If foliar treatment is performed, this technique helps to increase the concentration of fungal spores in the environment, which subsequently act according to the described scheme. Since these mushrooms are small, the more they grow in the root of the plant, the better the effect (in any case, mycologists explain mushroom experts).

It is very important that in addition to the trophic (feeding) function, Trichoderma lignorum mushroom has a very strong antimicrobial and antifungal property (like all symbiotic fungi). The authors have not yet considered this question, but it should be said about it, since this is of great practical importance. Specifically: Trichoderma lignorum suppresses about 60 pathogens that cause root and fruit rot, seed infections, macrosporiosis, fusariosis, late blight, scab and other plant diseases.

Thus, symbiotic fungi have, in addition to all the properties listed above, one more thing - a powerful action to protect plants from pathogens of different origins. Mushrooms release a large number of antibiotics that suppress pathogens into the environment of their habitat and into the rhizosphere. This their property and ability should be "adopted" against many fungal diseases of vegetable, fruit and berry crops.

You can save spores of fungi and make them differently: dry the mushrooms, then grind into powder and sprinkle the soil around the plants with this powder, mulch the soil (Alexander Kuznetsov. 5. Mycorrhiza and its role in plant nutrition. Http: //www.gardenia. com / pages / pochva_002.htm)

Known plastic irrigation trays company Tal-Ya for collecting dew. The aluminum composite tray reacts to temperature changes. When the temperature decreases at night below 12 ° C, dew drops on both surfaces of the Tal-Ya tray and drains to the roots of plants.

Trays are made from recycled PET plastic with UV filters and limestone. They are not susceptible to decomposition in the sun or to pesticides or fertilizers. The service life of the trays is 10 years.

Field trials of the Tal-Ya system in Israel showed the possibility of saving irrigation water up to 50 percent.

Trays protect the soil around plants from weeds and extreme temperatures

(http://www.treehugger.com/clean-water/plastic-irrigation-trays-make-the-most-of-dew-and-weeding-obsolete.html, http://www.tal-ya.com /, http://www.tal-ya.com/about-us/, http://www.tal-ya.com/about-us/, http://www.treehugger.com/clean-water/ plastic-irrigation-trays-make-the-most-of-dew-and-weeding-obsolete.html).

The disadvantage of this system is the loss of water for depth filtration, the use of drip irrigation, which increases its cost.

High beds are known, for the fence of which boards, metal profiles, brick or concrete, plastic fences, etc. are used.

Such beds warm up faster and give an earlier harvest.

The soil for high beds should be light, crumbly and “fluffy”.

At the bottom of each box we put a metal mesh so that it goes a little on the edges of the fencing to protect against the penetration of moles and other underground pests into the beds.

Protection of soil on a high bed from leaching into the main soil. For this, ordinary two-layer packaging cardboard is used so that it covers the entire bottom of our garden box.

High beds allow you to increase the area under the garden because inconvenient slopes or poor or clogged soil can be used. High beds allow an environmentally friendly way to deal with weeds and soil erosion

(http://www.liveinternet.ru/users/vezunchiki/post395929619/).

The disadvantages of these systems are the failure to use moisture condensed from the air for irrigation, the accumulation of precipitation for further use during irrigation, the difficulty of moistening the soil of the beds because of their high height during irrigation along furrows, and possible loss of water for deep filtering.

The technology of organic farming is known, in which weeds are trampled in May, then humus or immature manure is applied to them with a layer of 3-4 cm. Then all this is covered with paper or cardboard. A layer of 10 centimeters of nutrient organic matter (unripened manure or compost) is poured directly onto the cardboard. Top cover with straw, foliage, grass with a layer of 5-6 cm. Cardboard cuts off weeds, the nutrient layer keeps moisture and provides food, straw protects from the sun and birds. When planting, straw and dung are torn a little, then holes are made in cardboard. Seedlings are set in the hole and sprinkled around the ground or with ready-made compost. Raised flower beds are also known. It is applied in northern areas. They warm up earlier, in cases of waterlogging they do not get wet. Compost is applied to the surface of the beds. Plants are planted right in it. To reduce evaporation water losses, backstages are created from corn, beans, sorghum sunflower. By applying mulch from sawdust, oak bark, the reproduction of slugs is restrained. Infusions of rotten straw inhibit the development of late blight and overspore fungi (Kurdyumov N.I. Smart garden in detail. - Rostov n / A; Vladis; M: RIPOL classic, 2013. - P. 98, 181, 239, 241).

The disadvantage of the system is the difficulty of moistening the soil in arid zones.

Known beds made in the form of boxes. At the bottom of the boxes, a net is laid to protect against pests, then straw, sawdust, rotted leaves are laid, and garden soil is placed on top. Boxes can be made metal or plastic (Ideas for designing beds-boxes http://nashadacha.info/topics/idei-oformleniya-gryadok-korobov/).

The disadvantages of the system. When growing vegetables on high ridges from the box, frequent watering is necessary, since the soil passes water very strongly. The height of the beds is less than the depth of the root layer of the soil (60-100 cm).

A known reclamation method, including irrigation with furrows and fine sprinkling of irrigated areas with wide stationary beds having narrow trenches in the middle, filled with plant debris (patent for invention RU 2444179 C1, IPC A01G 25/00 / I.A. Kim, II Kim , A.I. Kim).

The disadvantage of this method is the non-use of atmospheric moisture for irrigation of crops.

The technical result of the claimed invention is the use of vaporous atmospheric moisture and precipitation to moisten the soil of beds, the accumulation of atmospheric precipitation and their use for irrigation, activation of the vital functions of soil flora and fauna, increasing soil fertility and crop yields, cultivating environmentally friendly agricultural products, eliminating moisture loss from root layer of soil for deep filtration.

The claimed result is achieved in that the system of environmentally friendly bio-intensive irrigated agriculture contains rows of concrete trays for growing plants laid with a small slope. Rock and volcanic rocks (quartz, flint, granite, tuff, basalt) containing silicon and plant nutrients are used as concrete fillers.

Outside, the trays are shielded from the soil with a waterproofing material or reclamation film.

U-shaped trays are inserted tubes for monitoring the level of water in the trays and nozzles for discharging or supplying water to the tray, connected through a valve to a pipe connected to the other end through a valve or through a valve and pump connected in series with a rainwater and atmospheric moisture accumulator.

V-shaped trays with ribs for condensation of atmospheric moisture and with openings in the lower part for the drainage of moisture are installed on top of the rainwater and atmospheric moisture accumulator. The drive is shielded from the soil with a waterproofing material.

In the lower part of the U-shaped tray there is a layer of wood residues, higher is a layer of leaves, grass, manure, even higher is a layer of soil with the addition of tuff, perlite, sawdust, coconut substrate, which contains earthworms, manure, spores of mushrooms or Trichodermin "Containing fungal spores, effective microorganisms

Top U-shaped trays are covered with V-shaped trays made of recycled PET plastic with UV filters with limestone and aluminum additives, similar to Tal-YA Agriculture Solutions trays with ribs for condensation of atmospheric moisture. Trays have openings for drainage of moisture and planting. V-shaped trays are interconnected with a rainwater and atmospheric moisture accumulator by connecting trays.

The rainwater and atmospheric moisture accumulator is connected through a pump with a gate valve and a valve parallel to it with a pipe inlet, the outlet of which is connected through a valve to a U-shaped tray box, which has a water level meter in the tray, and through a tap with an input of V-shaped trays.

In FIG. Figure 1 shows a fragment of a system of ecologically safe bio-intensive irrigated agriculture and a section of a U-shaped tray-box for growing crops.

The system of environmentally friendly bio-intensive irrigated agriculture contains rows of U-shaped trays-boxes 1 for growing plants laid with a small slope, made, for example, of concrete.

Rock and volcanic rocks (quartz, flint, granite, tuff, basalt) containing silicon are used as concrete fillers.

Outside, U-shaped trays-boxes 1 are shielded from the soil by waterproofing material or reclamation film 2.

Tubes 3 are inserted into the U-shaped trays-boxes to control the water level in the U-shaped trays-boxes 1 and nozzles 4 to discharge or supply water to the U-shaped tray-boxes 1, connected through valve 5 to the outlet of the pipeline 6, the input of which through a shutter 7 or through a serially connected valve 8 and a pump 9 having a check valve (not shown in Fig.), with a drive 10 of rainwater and atmospheric moisture.

The drive 10 is shielded from the soil by a waterproofing material 11.

V-shaped trays 12 with ribs 13 for condensing atmospheric moisture and with holes 14 at the bottom of the tray for moisture drainage, similar to the Tal-YA Agriculture Solutions trays made of PET recycled plastic with UV filters, are installed on top of the rainwater and atmospheric moisture store 10 with limestone and aluminum additives.

In the lower part of the U-shaped tray-boxes 1 is a layer of wood residues 15, above is a layer of leaves and grass and disinfected manure 16, even higher is a layer of soil 17 with the addition of tuff, perlite, coconut substrate, sawdust. Mushroom spores 18 or the Trichodermin preparation containing fungal spores, effective microorganisms and earthworms are also introduced into the U-shaped trays-box 1.

Top U-shaped trays-boxes 1 are covered with V-shaped trays 19, similar to the trays of Tal-YA Agriculture Solutions, which have ribs for condensation of atmospheric moisture 20. V-shaped trays 19 have openings 21 for moisture drainage and openings 22 for planting and are connected between themselves and the rainwater and atmospheric moisture accumulator 10 connecting trays 23. The input of the V-shaped trays 19 is connected through a valve 24 to the pipeline 6.

The system operates as follows.

In autumn, a layer of wood residues 15 is laid in the lower part of the U-shaped trays-boxes 1, then a layer of leaves, grass, decontaminated manure 16 is laid, effective microorganisms and earthworms are introduced into it. A layer of soil 17 is laid even higher with the addition of perlite, tuff, effective microorganisms, spores of fungi 18, for example, in the form of Trichodermin. Then, from above, the U-shaped trays 1 are covered with V-shaped trays 19, for example similar to the trays developed by Tal-YA. V-shaped trays 19 are connected by connecting trays 23 to each other and to the drive 10 of rainwater and atmospheric moisture.

Autumn-winter-spring-summer and summer periods in the U-shaped trays-boxes 1 and drive 10 accumulate rain and condensing atmospheric moisture.

In the soil in plant and wood remains of U-shaped trays-boxes 1 earthworms, effective microorganisms and fungi begin to produce biohumus and plant nutrients.

In the spring, through the holes of the V-shaped trays 19, seedlings of cultivated plants are planted in the soil layer 17. Humidification of plants is carried out by condensed V-shaped trays 19 of atmospheric moisture and atmospheric moisture that has penetrated into the soil, which accumulates in the soil and tuff, perlite and coconut substrate and plant residues introduced into the soil. Humidification of the soil is also carried out by moisture accumulated in the lower part of the U-shaped tray-boxes.

During the growing season, good soil aeration is carried out, biohumus continues to accumulate, atmospheric nitrogen is fixed by effective microorganisms, fungi fight against pathogenic microorganisms, transformation of plant nutrients contained in tuff, perlite, coconut substrate into forms available for plants, water activation by silicon.

Monitoring the water level in the U-shaped tray-boxes is carried out through tubes 3.

When the water level rises in the U-shaped tray-boxes above the upper set level, valves 5 and water open through pipelines 6, the shutter 7 is discharged into the accumulator 10, which also collects rain water and atmospheric moisture.

When the water level in the U-shaped trays-boxes decreases below the lower set value, the shutter 7 closes, the valve 5 and the valve 8 open, the pump 9 is turned on and water from the reservoir 10 is supplied to the U-shaped trays-boxes 1. When the water level rises in them the upper set level, the pump 9 is turned off, the valve 8, valve 5 are closed.

Thus, the tray-subsoil irrigation of the active soil layer is carried out in the tray-boxes 1.

If there is a shortage of water in the accumulator 10, it can be connected to a water supply system not shown in FIG. 1. When the drive 10 is full, it is connected to a drain system, also not shown in FIG. one.

When there is a shortage of water in the soil layer 17, the valve 8, valve 24 opens, the pump 9 is turned on and water is supplied to the upper part of the v-shaped trays 19, flows through them and fed through the holes 21 into the soil 17, carrying out tray-and-drop irrigation of the soil layer 17.

The economic efficiency of the system lies in the use for irrigation of atmospheric precipitation and moisture condensed from the atmosphere, reduction of water losses due to evaporation, activation of irrigation water, its accumulation in soil, prevention of water loss through deep filtration, improvement of aeration of the root layer of the soil, and the possibility of growing ecologically safe agricultural products without the use of mineral fertilizers, pesticides and herbicides, pesticides, the use of mineral substances for plant nutrition, contained in perlite, tuff, disinfecting the soil from pathogenic microorganisms, preventing the penetration of soil pests into the soil.

Claims (1)

A system of environmentally friendly bio-intensive irrigated agriculture, including wide beds, limited by boxes, with plant residues introduced into the active soil layer, a drip and subsurface irrigation system, characterized in that the boxes are made in the form of U-shaped trays-boxes laid under a small slope, made from concrete with fillers from tuff, perlite, quartz, flint, basalt, containing silicon rock and insulated from the soil with waterproofing materials, put them on the bottom of the U-shaped trays n layer of wood residues, above - a layer of plant debris and manure, then a soil layer, in which earthworms, effective microorganisms and fungal spores are added, tuff, perlite, coconut substrate are added, U-shaped trays-boxes are covered with V-shaped trays condensing atmospheric moisture and having in the lower part of the hole for drainage of moisture into the soil of the U-shaped tray-box and holes for planting seedlings, V-shaped trays are interconnected with a rainwater and atmospheric moisture accumulator, which is connected through a pump with a valve and a parallel valve with a pipe inlet, the outlet of which is connected through a valve to a U-shaped tray box with a water level meter in the tray, and through a tap to the entrance of V-shaped trays.

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