RU2476051C1 - Method of crop growing - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture. The method includes a surface soil treatment, sowing seeds of crops in strips, harvesting, fertilisation. Additionally a mechanical care of crops seeds is carried out by loosening the top soil to the depth of up to 5 cm. As fertiliser the green manure crops are used, which are preliminary sown under the crops during their growing season, then grown for green manure with their subsequent application to the soil by disking to a depth of up to 10 cm. And the soil surface treatment is carried out before sowing crops by loosening the soil to a depth of 5-6 cm. The crops planting is carried to a depth of 5-6 cm in rows forming a planting strips with the width of 30 cm which are alternated with strips of gap with the width of 30 cm.

EFFECT: method enables to improve the productivity and quality of the yielded products due to providing reproduction and accumulation of natural fertility of the soil in accessible for plants forms.

10 cl, 3 ex

Description

The invention relates to agriculture, to methods for the cultivation of crops, including winter, spring crops, rapeseed and industrial crops in Russia.

A known method of cutting a layer of perennial grasses for early steam in a system of grain and grass crop rotation, which includes turning the soil layer once in rotation when raising the field from under sown grasses, plowing with the turnover of the sowing layer is combined with the introduction of organic fertilizers and plowing siderates, as the last use plants of the previous culture with laying on the bottom of the furrow. In the remaining years of rotation, pre-sowing surface loosening is provided, this ensures the required seed placement depth.

This method is aimed at increasing the productivity of agrophytocenoses due to the restoration of microbiological activity and photosynthesis in the grain-grass and grass rotation, thereby increasing the yield of cereal crops. (RF patent No. 2282337, A01B 79/00 op. August 27, 2006)

The disadvantage of this method is the plowing with a turnover of the backward layer of the formation of 22-25 cm, disking to a depth of 12-16 cm, which leads to turning to the surface of arable land at a depth of 12-25 cm, where anoerobic microorganisms conduct their active life, which air is destructive, in addition, the top layer of arable land, together with billions of microorganisms that need air, moves to an environment where air is inaccessible, which in general causes tremendous damage to the world of organisms, the activity of which odorodie soil holding slotting at a depth of 40-45 cm and no-till plowing to a depth of 23-27 cm layer of turns are not microorganisms, but disrupts the capillarity of the lower layers of soil, which comes to the surface moisture and nutrients.

In the remaining years of rotation, a significant drawback is the lack of loosening of the soil from the moment of sowing to tillage of arable land after harvesting. As a result of high temperature, the topsoil is covered with cracks, and in the presence of heavy precipitation it is covered with a crust, i.e. in both cases, the friability of the upper soil layer is impaired, which limits or completely blocks the access of air to the soil. As a result, the processes of decay and nitrification are stopped, on which the development and productivity of cultivated crops depends. To overcome the consequences of this shortcoming, it is necessary to apply mineral fertilizers, along with the use of herbicides for weed control, which not only poisons the products, but also leads to the destruction of soil microfauna.

The closest in technical essence to the proposed technical solution is the biological method of row-row cultivation of cultivated plants, including surface tillage, sowing seeds in strips, harvesting, applying biological fertilizer (RF patent No. 2348136, A01B 79/02, 03/10/2009, g ., prototype).

The disadvantage of this method is that the above method does not provide technological operations for keeping the top layer of the seed strip in a loose state prior to sowing, which would ensure that the lower layer is kept in a capillary wet state, which is necessary for the active activity of microorganisms and earthworms, and it is also removed from the surface of the sowing strip for the formation of a biological bed during sowing, which at high air temperature (especially drought) will lead to the drying out and destruction of the lower soil a pillar layer that has been exposed, i.e. to loss of fertility; in addition, straw and crop residues are used as a biological bed, while microorganisms that decompose the straw need to be fed with nitrogen, which entails the need for nitrogen fertilizers, and weed seeds are also present in large numbers at the depth of the entire arable layer, therefore that the top layer of soil will be removed and placed on the rolled strip of crop residues and straw, the problem of field clogging is not solved, hence the inevitability of the use of herbicides.

Thus, the use of nitrogen fertilizers and herbicides not only poisons the products, but also destroys the biofauna of the soil, which focuses on its surface during non-cultivation.

The proposed technical solution avoids the above disadvantages, and also improves the yield and quality of products by ensuring the reproduction and accumulation of natural soil fertility in forms assimilable to plants, which is relevant since land use is characterized by two extremely negative features: degradation of the quality of agricultural land and the constant growth of unused land.

This goal is achieved by the fact that the method of cultivating crops involves surface tillage, sowing seeds of crops in strips, harvesting, fertilizing, mechanically caring for crops by loosening the top layer of soil to a depth of 5 cm, green manure is used as fertilizer crops that are pre-sown for crops during their growing season, then grown on green fertilizers with their subsequent sowing into the soil by disking to a depth of 10 cm, while surface tillage is carried out before sowing crops by loosening the soil to a depth of 5-6 cm, sowing of crops is carried out to a depth of 5-6 cm in rows forming a sowing strip 30 cm wide, which alternate with 30 cm wide sifting stripes, the cultivation of crops is carried out through a crop rotation with a perennial cycle, while in the first year of which green manned perennial beans are cultivated e culture green manure, followed by their introduction into the soil; in the second and subsequent years of the multi-year crop rotation cycle, various crops are cultivated sequentially, but in the final year of the multi-year crop rotation cycle, spring crops are sown with the subsequent sowing of perennial leguminous green crops immediately before the final processing of the sowing strips, and mechanical care of crops is carried out during the growing season of agricultural crops crops from seedlings to the end of the tillering phase by harrowing the field to a depth of about 5 cm, mechanical care of the crops is carried out during the stalking-earing period until the arable land is completely shaded by the green cover of the crops by mechanical loosening of the sifting to a depth of 5 cm, sideral perennial leguminous crops are used as sidereal crops, which are sown by spreading before the final processing of the sifting strips, while clover, clover, and also si Deeral crops use green manure annual crops, sowing which is carried out by the method of scattering 20 days before harvesting crops, while spring colza, phacelia is used as annual green manure crops.

Due to soil erosion processes and excessive humus mineralization, the loss of agricultural land in the world amounts to 10-15 million ha annually.

It has been established that the number of degraded lands in Russia has exceeded 130 million hectares, the share of arable land, according to scientists of the Russian Agricultural Academy with a negative humus balance, exceeds 97% of arable land.

The harsh climate and low natural soil fertility objectively determines the non-competitiveness of products manufactured in the vast majority of regions of the country with similar products manufactured abroad.

Two main factors influencing which you can change the current situation: plant nutrition and plant moisture supply.

It is these two conditions that are the main link, pulling for which you can solve the current problem of agricultural production of the country.

The proposed method of cultivation of crops, which ensures high-quality reproduction and accumulation of natural soil fertility in forms assimilable for plants, is based on the regular annual introduction of green fertilizers into the soil in the form of plant residues of green crops during crop rotation, which makes it possible to annually replenish and accumulate the content of humus in the soil, as well as on the application of technological operations, allowing to contain the upper layer of arable land occupied by crops of cultivated plants, in the loose (Porous) state, it allows to convert the accumulated nutrients in udobousvoyaemye form for plants, which leads to a significant increase in the yield of clean, natural plant products.

At the same time, the proposed method radically changes the cost structure of modern agriculture due to the rejection of the use of mineral fertilizers, herbicides, pesticides, pesticides, which completely eliminates the costs of their use and use by reducing the cost of acquisition, use and storage of equipment.

All this allows us to drastically reduce the cost of production of crop products at least 2 times compared with the intensive technology used today, while the problem of animal husbandry is solved - the high cost and low quality of our own juicy and roughage.

In the proposed method, a multi-year cycle of reproduction of natural soil fertility is carried out, cultivating crops with underseeding of sideral crops and with the additional allocation of a hatcher wedge, where highly effective perennial leguminous crops are grown on animal feed for 10-15 years.

The annual introduction of plant residues of green manure crops into the soil makes the soil more porous, and the decomposition of green manure in the soil enriches it and soil air with a huge amount of carbon dioxide. As a result of this, the plant spends less energy on trapping carbon from the atmosphere, in addition, moisture evaporation is sharply reduced, which allows plants to tolerate long-term drought compared to plants grown using the currently used intensive known technologies, thus, the method allows to have stably high yields even in the drought.

The proposed method will allow to reproduce and accumulate natural fertility in the form of humus reproduction by introducing green fertilizers into the soil in the form of plant residues of sideral crops annually entering the soil.

It has been experimentally established that when plowing the vegetative mass of plant residues of sideral crops, for example clover, the humus in the soil increases by 0.51%, which is 0.05% more than when 40 tons of manure per 1 ha of arable land is added using pure steam. The humus content in the soil increased with plowing of sideral crops, for example, all leguminous siderates, in comparison with pure steams, where in all years a significant decrease in the content of humus and a loss of nitrogen in the soil were observed.

The top layer of 8-10 cm of soil provides the life of aerobic bacteria, which need air to live, and the bottom layer of aeroerobic bacteria, for which air is harmful.

Therefore, it is important when observing the soil to observe the depth of tillage of no more than 10 cm, which allows not only to preserve the "living substance" of the soil, but also to increase it.

Nutrients are present in the soil and in the atmosphere in large quantities, significantly exceeding the needs of plants. But in the soil they are mostly in a form that is not digestible for plants. The ability to convert minerals into an organic, accessible form is provided by soil bacteria that need enough oxygen. Without oxygen, biological processes of decomposition (nitrification) in the soil cannot occur.

Sideral crops are plants grown for their subsequent incorporation into the soil as organic fertilizer. A green, succulent mass of plants that is sown into the soil as a fertilizer, rich in nitrogen, protein, starch, sugars, trace elements, and plant roots are green fertilizers.

Perennial crops that use sideral perennial crops are legumes, such as peas, chickpeas, beans, beans, soybeans, lentils, and herbs, such as annual lupins, sainfoins, alfalfa, clover, which contain colonies of bacteria - nitrogen fixers - on their roots and enrich the soil with nitrogen .

As sideral annual crops use, for example, phacelia, spring colza.

As crops, cereal crops are used: winter, spring or early spring crops, for example, spring wheat, winter rye and wheat, spring oats and barley, and industrial crops, for example, flax, rapeseed, etc.

Thus, soil fertility is created by the process of decomposition (decay), resulting in the release of carbon dioxide, which reacts with water - without moisture, the process of decay is impossible, forming carbonic acid - the supplier of the main food product - carbon, with carbon being the main a condition of balanced nutrition of plants, it affects the compounds of phosphorus and potassium in the soil, turning them into compounds available to plants. Due to the content of the topsoil in a loose state, air is allowed to enter the soil, while the looseness of the soil contributes to the abundant sedimentation of dew into the soil (atmospheric irrigation) and provides the topsoil with capillary moisture, which makes humus constantly in the topsoil moist and capable of absorb ammonia (nitrification), a nitrogen source of plant nutrition. The friability (porosity) of the soil provides optimal moisture; air access; soil temperature; carbon dioxide i.e. conditions under which nutrients found in the soil and atmosphere in large quantities are made digestible for plants.

The method is as follows.

In the proposed method, a crop rotation with a multi-year cycle of reproduction and accumulation of natural fertility is laid by cultivating green manure crops on green fertilizers, followed by applying them to the soil, which are sown under the cover of crops.

In this case, the cultivation of crops during crop rotation with a multi-year cycle of reproduction and accumulation of natural fertility through rotation of the cultivation of crops over the years is carried out taking into account the operations described below.

Presowing cultivation of the soil is carried out in the form of surface tillage by loosening the soil to a depth of 5-6 cm by harrowing-cultivation, harrowing, disc-peeling, for example, peeling with simultaneous harrowing of the field is carried out by the LDH cultivator in conjunction with BZS harrows to a depth of 5-6 cm, at the same time destroying weeds whose seeds germinate throughout the depth of processing. This creates a mulching layer rich in plant debris 5–6 cm deep. There is no “metal” plate under the swollen layer, the soil is in a capillary state due to the previous treatment, penetrated by the roots of green crops. This ensures that moisture along with nutrients rises along the capillaries, in addition, vegetable residues remain on the soil surface after processing sideral vapors, which does not interfere with the decomposition and nitrification processes, however, it complicates the sowing of crops, therefore, the soil is treated immediately before sowing.

Following the loosening of the soil, sowing of seeds of agricultural crops is carried out in strips to a depth of 5-6 cm in rows, forming a sowing strip with a width of 30 cm, which alternate with sowing strips with a width of 30 cm, providing the necessary field treatments. Sowing is carried out in 30 cm stripes, in which rows alternate with row spacing, for example, with a row spacing of 7.5 cm, rows of 5 are obtained, with a row spacing of 6 cm, rows are 6. The next strip of 30 cm will be a sifting strip, etc. When sowing with a row-spacing of 6 cm, the converted SZU-3.6 seeders are used, with a row-spacing of 7.5 cm, the converted SZP-3.6 seeders are used.

When sowing, seeds of crops fall on a dense, moist capillary layer of soil at the same distance from each other in all directions, so that each plant has enough space around it, giving them light and food. At the same time, the plants grow densely, which makes them fight for existence.

Then carry out mechanical care of the crops by loosening the top layer of soil to a depth of 5 cm, in order to maintain the top layer of arable land in a loose state until it is covered with a green cover of crops.

Before sowing crops, green fertilizers are applied, where plant residues of green manure crops are used as fertilizers, which are pre-cultivated, for which they are sown, grown on green fertilizers and then applied to the soil, while green fertilizers are applied by disking the crop residues of green crops to a depth of 10 cm, sowing of green crops is carried out in the form of seeding for crops in a continuous way, during their growing season.

At the same time, green manure crops in the form of perennial legumes are carried out immediately before the final processing of the sifting strips by a weeding agent (cultivator), and annual green manure crops 20 days before harvesting.

Sowing of green manure crops in the form of bean perennials for green manure pairs, and annuals for intermediate sowing of spring crops are carried out by spreading seeds using an Amazone type mineral fertilizer spreader.

For crops, mechanical care is carried out by loosening the top soil layer to a depth of 5 cm, since to obtain high stable yields, regardless of weather conditions, it is necessary to keep the top mulching layer of soil in a loose state, this is achieved by continuous loosening of crops when they appear on the surface of the arable land of cracks and weeds, until the period of complete shading of the streaks of screenings by the green cover of plants.

In this regard, during the growing season of crops from seedlings to the end of the tillering phase, the topsoil is loosened to a depth of 5 cm by harrowing. During the stalk-earing period by means of inter-row weeding and / or loosening of the sifting stripes when cracks appear in the soil and / or during the period of weed growth, as well as the appearance of a crust on the soil surface as a result of heavy rainfall until the soil is completely shaded by the green cover of crops.

When processing intermediate crops, the vegetative mass of annual green manure is treated with disk harrows to a depth of 10 cm, followed by harrowing, and when weeds appear, the field is treated with peeling to a depth of 5 cm, followed by harrowing. In the spring, double harrowing is carried out using BZS harrow couplings. In case of clogging, the fields are peeled to a depth of 5 cm.

Loosening of the upper layer is carried out when cracks and / or weeds grow up until the green plants completely obscure the green cover, as well as when a crust forms on the surface of the arable land as a result of heavy rainfall. Loosening of the upper layer is carried out before germination of cultivated crops, for example, harrowing with tooth clutches of the BZS-1 tooth harrows, and seedlings (until tillering is completed) with ZBP-0.6 harrow hooks.

To control weeds in row-spacings, as well as to maintain soil looseness, for example, cultivators are used, converted with the ability to loosen the soil with a row spacing of 30 cm to a depth of 5 cm.

Crop harvesting is carried out by separate or direct combining with the obligatory chopping and scattering of straw across the field.

In this case, the reproduction of crops is carried out through crop rotation with a multi-year cycle of reproduction and the accumulation of natural fertility through rotation of the cultivation of crops over the years, taking into account the operations described above.

Information confirming the possibility of implementing the claimed invention is confirmed by the use of the following crop rotations.

Example 1

With a three-field three-year crop rotation

In the first year of rotation of the crop rotation on the first field, sideral perennial legumes are cultivated in the form of red clover, which is sown in the previous final year of crop rotation under spring wheat. Upon reaching the budding phase - the beginning of flowering, at the moment when nitrogen-fixing bacteria on the roots of red clover accumulate the greatest amount of nitrogen, the vegetative mass of red clover is introduced into the soil by discing to a depth of 10 cm using BMD disks.

Before sowing winter wheat, the soil surface is discontinued to a depth of 5-6 cm by means of an LDH cultivator with simultaneous harrowing by means of BZS-1 harrows, which makes it possible to destroy weeds and create a mulching layer rich in plant residues, 5-6 cm deep, under which it is stored in the capillary state dense soil penetrated by the roots of green crops.

Following peeling, winter wheat is sown in rows, forming a sowing strip 30 cm wide, alternating with 30 cm wide sifting strips, while winter wheat seeds are placed on a dense capillary soil layer at a depth of 5-6 cm, thereby creating optimal conditions for growing crops .

After sowing, after 2-3 days, when the seeds of winter wheat are in the phase of seedlings, the loosening of the soil is carried out with the BZS-1 harrows with couplings, which allows us to destroy weeds in the phase of threadlike seedlings.

According to the emergence of winter wheat, when cracks, seedlings of weeds and crusts appear on the soil surface as a result of heavy rainfall, the soil is loosened by means of ZBP-0.6 harrows. Loosening of the soil is carried out until the termination of the vegetation of winter wheat as a result of lowering the temperature.

In the first year of rotation of the three-year crop rotation in the second field, winter wheat is cultivated with the sowing of spring colza, while the cultivation of winter wheat is carried out in accordance with the claimed method.

In the first year of rotation of the three-year crop rotation on the third field, spring wheat is cultivated with clover under sowing, while spring wheat is cultivated in accordance with the claimed method.

In the second year of rotation of a three-year crop rotation on the first field occupied by winter wheat, when physiological ripeness occurs to the state of the possibility of passing a tractor with a harrow hitch across the field, the first loosening of the soil is carried out with ZBP-0.6 harrows with sowers across the crop. Loosening is carried out until the end of the tillering phase. From the moment of stalking-earing of winter wheat, loosening of the soil surface occurs when cracks, seedlings of weeds or crust appear from heavy rainfall by cultivation or weeding the sifting strips to a depth of 5 cm until the arable land is completely shaded with green cover of winter wheat.

20 days before harvesting winter wheat, one-year green manure crops are seeded in the form of phacelia in a continuous manner by the spreading method using a fertilizer spreader of the Amazone type. Phacelia seeds germinate in the dark for 12-17 days and by the time of harvesting winter wheat, which is produced by combines equipped with straw choppers that can evenly disperse chopped straw across the field, they are in the seedling phase.

Phacelia from seedlings to the flowering phase requires 40 days of vegetation, thus, 40 days after harvesting winter wheat, a significant green mass with a high protein content is formed and the soil is deeply loosened. At this moment, the vegetative mass of phacelia is introduced into the soil as a green fertilizer by the method of disking to a depth of 10 cm, enriching the soil with organic matter. Disking is carried out by disks of type BDM.

Further, the field must be loosened and leveled using the harrowing method with harnesses of the BZS-1 type harrows. In the autumn, when cracks appear on the arable land or the formation of a crust as a result of heavy rainfall, the soil is loosened by means of ZBP-0.6 harrows.

In the second year of rotation of the three-year crop rotation on the second field, spring wheat is cultivated with clover under sowing, while spring wheat is cultivated in accordance with the claimed method.

In the second year of rotation of the three-year crop rotation on the third field, red clover is cultivated on green manure.

In the final 3rd year of rotation of the three-year crop rotation, spring wheat is sown on the first field with the sowing of a perennial bean crop in the form of red clover. Before sowing spring wheat, the upper soil layer is loosened and leveled using the harrow harrow BZS-1 harrow harrowing. Harrowing begins with the onset of physiological ripeness of the soil, when the soil dries up and does not form blocks during processing.

Before sowing spring wheat, harrowing is carried out by means of the hooks of the toothed tooth harrows BZS. The paws are a smooth 90 mm segment from the knife of the silo harvester, welded to the first, third, fifth rows of teeth of the harrows to a height of 2.5 cm from the edge of the tooth in exactly the same plane. The blade of the foot is very sharp and well cut annual wintering weeds, at the same time create a smooth surface of the capillary layer of soil on which the wheat seeds lie. Depending on the weediness of the field, LDH cultivators are used in an aggregate with BZS harrows. Loosening the soil is carried out to a depth of 5-6 cm. Following the loosening of the soil, spring wheat is sown with the converted SZP-3.6 or SZU-3.6 seeders. Sowing spring wheat is produced in rows, forming a sowing strip of 30 cm, which alternate with sifting stripes 30 cm wide, to a depth of 5-6 cm, placing seeds on the surface of a dense capillary layer of soil. 2-3 days after the end of sowing of spring wheat, the soil is loosened by harrowing harrows with BZS harrows across the sowing crop.

According to spring wheat seedlings, when cracks appear on the soil surface, weeds germinate, and when crusts form as a result of heavy rainfall, harrows are harrowed with ZBP-0.6 harrows across the sowing from the seedling phase to the end of the tillering phase of spring wheat.

During the stalk-earing phase of spring wheat, the topsoil is loosened by cultivators or weeds of the KPS-4 or KSG-4 type to a depth of 5 cm. Loosening is performed when cracks, seedlings of weeds and crusts appear on the soil surface as a result of heavy rainfall.

Before the final weeding of spring wheat crops, sowing of perennial sideral green crops in the form of red clover is carried out. Clover sowing is carried out in a continuous way by the method of spreading by means of a spreader of mineral fertilizers of the Amazone type.

Ripe spring wheat is harvested with combines equipped with straw choppers, which are evenly scattered across the field. Red clover continues to vegetate until the end of the agricultural season this year and resumes its development next year rotation of the crop rotation, thus, the three-year cycle of crop rotation is resumed.

In the final 3rd year of rotation of the three-year crop rotation in the second field, red clover on green manure is cultivated.

In the final 3rd year of rotation of the three-year crop rotation on the third field, winter wheat is cultivated with the sowing of spring colza, while the cultivation of winter wheat is carried out in accordance with the claimed method.

Example 2

When using a five-field crop rotation, in the first year of crop rotation:

In the first field, red clover is cultivated for green manure.

In the second field, winter wheat is cultivated with sowing phacelia.

In the third field, early spring wheat is cultivated with the sowing of spring colza.

In the fourth field, spring rapeseed with undersowing phacelia is cultivated.

On the fifth field, oats are cultivated with red clover sowing, while red clover resumes its development next year, rotation of the crop rotation, thus, the crop rotation cycle resumes.

Example 3

When using a seven-field seven-year crop rotation

Moreover, in the first year of rotation of the crop rotation:

On the first field, clover red as green manure is cultivated.

In the second field, flax is cultivated with the sowing of spring colza.

On the third field, spring wheat is cultivated with undersowing phacelia.

In the fourth field, a vetch-oatmeal mixture with the sowing of spring colza is cultivated.

On the fifth field, spring rapeseed with undersowing phacelia is cultivated.

In the sixth field, spring wheat is cultivated with the sowing of spring colza.

On the seventh field, oats are cultivated with red clover overseeding.

In the second year of crop rotation:

On the first field, flax is cultivated with sub-sowing phacelia.

In the second field, spring wheat is cultivated with the sowing of spring colza.

In the third field, a vetch-oatmeal mixture with undersowing phacelia is cultivated.

In the fourth field, spring rapeseed is cultivated with the sowing of spring colza.

On the fifth field, spring wheat is cultivated with undersowing phacelia.

On the sixth field, oats are cultivated with red clover overseeding.

On the seventh field, red clover is cultivated.

In the third year of rotation of the crop rotation:

In the first field, spring wheat is cultivated with sowing phacelia.

In the second field, a vetch-oatmeal mixture with the sowing of spring colza is cultivated.

On the third field, spring rapeseed with undersowing phacelia is cultivated.

In the fourth field, spring wheat is cultivated with the sowing of spring colza.

On the fifth field, oats are cultivated with red clover overseeding.

On the sixth field, red clover is cultivated.

On the seventh field, flax is cultivated with sub-sowing phacelia.

In the fourth year of crop rotation:

In the first field, a vetch-oatmeal mixture with the sowing of spring colza is cultivated.

In the second field, spring rapeseed with undersowing phacelia is cultivated.

In the third field, spring wheat is cultivated with the sowing of spring colza

On the fourth field, oats are cultivated with red clover overseeding.

On the fifth field, red clover is cultivated.

On the sixth field, flax is cultivated with sub-sowing phacelia.

In the seventh field, spring wheat is cultivated with the sowing of spring colza.

In the fifth year of crop rotation:

In the first field, spring rapeseed with undersowing phacelia is cultivated.

In the second field, spring wheat is cultivated with the sowing of spring colza.

On the third field, oats are cultivated with red clover overseeding.

On the fourth field, red clover is cultivated.

On the fifth field, flax is cultivated with the sowing of spring colza.

On the sixth field, spring wheat is cultivated with undersowing phacelia.

In the seventh field, a vetch-oatmeal mixture with subseeding of spring colza is cultivated.

In the sixth year of crop rotation:

In the first field, spring wheat is cultivated with sowing phacelia.

On the second field, oats are cultivated with red clover overseeding.

On the third field, red clover is cultivated.

In the fourth field, flax is cultivated with subseeding of spring colza.

On the fifth field, spring wheat is cultivated with undersowing phacelia.

On the sixth field, a vetch-oatmeal mixture with the sowing of spring colza is cultivated.

In the seventh field, spring rapeseed with undergrowth of phacelia is cultivated.

In the seventh year of rotation of the crop rotation:

On the first field, oats are cultivated with red clover overseeding.

In the second field, red clover is cultivated.

On the third field, flax is cultivated with subseeding of spring colza.

In the fourth field, spring wheat is cultivated with undersowing phacelia.

On the fifth field, a vetch-oatmeal mixture with the sowing of spring colza is cultivated.

In the sixth field, spring rapeseed with undersowing phacelia is cultivated.

In the seventh field, spring wheat is cultivated with the sowing of spring colza

The proposed method of cultivation of crops is used in crop rotation with any number of fields that differ in the duration of rotation and the variety of sown crops (flax, rapeseed, oats, vetch-oat mixture, etc.), which fully comply with the technology of sowing, caring for crops in all years of rotation, with the obligatory condition of cultivation and application of sideral crops, for example, perennial legume green crops, in the form of green fertilizers in the soil in the first year of rotation in the first field ooborota and perennial legume crops in rotation on the final year of the last field crop rotation, and in all the other years of the rotation on the remaining fields produce reseeding annual green manure crops and introducing them into the soil as green manure.

The arable land in circulation is divided into a given number of fields depending on the number of crop rotation cycles and an additional part of the arable land is isolated on which perennial grasses that can grow in one place for up to 10 years or more, for example, Eastern goatskin, alfalfa are cultivated bonfire, etc. This additionally allocated part of the arable land in the form of a field is an output wedge, in which, based on the needs of production using any crop rotation, they create a highly efficient feed base for animal husbandry.

The proposed method of cultivation of crops provides efficient production through the continuous reproduction and accumulation of natural soil fertility in forms assimilated by plants due to the regular annual introduction of green fertilizers into the soil in the form of plant residues of green crops, the content of the upper soil layer in loose, and the lower soil layer in untouched capillary-dense state, which entails an increase in the quality and productivity of environmentally friendly, natural products plant growing, preserving the flora and fauna of the surrounding world.

Claims (10)

1. A method of cultivating crops, including surface tillage, sowing seeds of crops in strips, harvesting, applying fertilizer, characterized in that they additionally carry out mechanical care of the crops by loosening the top layer of soil to a depth of 5 cm, as fertilizers use green manure crops, which are pre-sown for crops during the growing season, then grown on green fertilizers with their subsequent introduction into the soil by disking to a depth of 10 cm, while surface tillage is carried out before sowing crops by loosening the soil to a depth of 5-6 cm, sowing of crops is carried out to a depth of 5-6 cm in rows, forming a sowing strip with a width of 30 cm, which alternate with 30 cm wide screening strips. 2. The method of cultivation of crops according to claim 1, characterized in that the cultivation of crops is carried out through crop rotation with a perennial cycle, while in the first year green manure is cultivated for many years on green manure, followed by their introduction into the soil; in the second and subsequent years of the multi-year crop rotation cycle, cereal crops and industrial crops are successively cultivated, but in the final year of the multi-year crop rotation cycle, spring crops are sown with the subsequent sowing of perennial green manure crops immediately before the final processing of the sowing strips. 3. The method of cultivation of crops according to claim 1, characterized in that the mechanical care of the crops is carried out during the growing season of crops from seedlings to the end of the tillering phase by harrowing the field to a depth of 5 cm 4. The method of cultivation of crops according to claim 1, characterized in that the mechanical care of the crops of crops is carried out during the period of stalking-earing until the surface of the arable land is completely obscured by the green cover of the crops by mechanical loosening of the screenings to a depth of 5 cm. 5. The method of cultivating crops according to claim 1, characterized in that sidereal perennial leguminous crops are used as sidereal crops, the seedling of which is carried out by scattering before final processing of the screenings. 6. The method of cultivating crops according to claim 5, characterized in that clover is used as perennial bean crops. 7. The method of cultivation of crops according to claim 5, characterized in that as a perennial leguminous crops use clover. 8. The method of cultivating crops according to claim 1, characterized in that green manure is used for green manure crops, which are sowed by the method of spreading 20 days before harvesting the crops. 9. The method of cultivating crops according to claim 8, characterized in that spring colza is used as annual green manure crops. 10. The method of cultivation of crops of claim 8, characterized in that as annual green manure use phacelia.