RU2621025C2 - Method for recovery and improvement of soil fertility, especially in desert and semi-desert agricultural regions - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method for recovery and improvement of soil fertility is carried out by adding organic and natural mineral materials to the topsoil in the waiting period and saturating it with water in the postharvest period. The poultry manure is preferably used as an organic material and the sodium bentonite is used as a mineral material. First pre-processing of poultry manure is done using the Oksizin enzymatic drug synthesized from sugar beet molasses and providing for decomposition and disinfection of the organic material. The sodium bentonite designed for water filtration and evaporation rate reduction in the topsoil is ground. Then the produced materials are applied to the topsoil, mixed with the topsoil, buried in the depth of the plant arable layer selected for cultivation. The result is a shielding layer that provides for starting conditions of the microbiocenosis development. After sowing or planting in the plant shielding layer its regular watering is carried out. The first irrigation water is added with the Agrozin enzymatic drug synthesized from sugar beet molasses and providing for increased activity of aerobic soil bacteria in the plant rhizosphere.

EFFECT: invention allows for the efficient development of biocenosis and recovery and improvement of the topsoil fertility.

9 cl, 8 tbl

Description

The invention relates to agriculture, primarily to methods of crop cultivation, in particular, to methods for restoring and maintaining soil fertility in deserts and semi-deserts, as well as on fertile soils in order to obtain high yields while maintaining soil fertility. The invention allows to completely abandon mineral fertilizers, as well as organic ones, based on the planned yield of the required NPK (nitrogen, phosphorus, potassium).

There is a method of increasing soil fertility, in which phosphorus-containing raw materials are added to the soil together with an acidifying additive. As phosphorus-containing raw materials use phosphorite flour. Phosphogypsum is used as an acidifying additive. The ratio of components in the proposed mixture is 1: 1. The use of the invention allows to increase the yield of agricultural crops (RF Patent No. 2178964, IPC АСС 21/00, publ. 02/10/2002).

The disadvantage of this method is the obligatory humus content of more than 3% in the soil of the cultivated area, which is excluded in the sandy desert soil.

A known method of tillage, in which the soil is cultivated by mulching peat chips, pre-mixed with calcium compounds. According to the invention, ammonium lignosulfonate is additionally added to peat in an amount of 0.02-0.5% by weight. based on a completely dry substance, followed by stirring. As a calcium compound, calcium carbonate is used, which is added in an amount calculated by the formula given in the description (RF Patent No. 2067804, IPC A01C 21/00, C09K 17/00, publ. 20.10.1996).

The disadvantage of this method is the mandatory presence in the soil of the cultivated area of organic matter to ensure the vitality of the cultivated culture, which is excluded in the desert sands.

There is a method of soil enrichment, in which a sub-peat layer of sapropel with a high content of organic matter is introduced into the soil. The technical result of the invention is an increase in the content of organic matter in the soil, an increase in the content of beneficial microflora, an improvement in the environmental situation in the soil itself due to an increase in the content of mineral nutrition elements (RF Patent No. 2408181, IPC A01C 21 // 00, published: 01/10/2011).

The disadvantage of this method is the mandatory presence in the soil of the cultivated area of organic matter to ensure the vitality of the cultivated culture, which is excluded in the conditions of desert sands.

The closest in essence and the technical result achieved is a method of restoring and improving soil fertility, which involves cultivating or mulching the soil with mulch containing environmentally friendly agricultural products of natural origin, zeolite-containing raw materials from the Khotynetsky deposit in the Oryol Region (HOTLYLIT), poultry manure , agricultural by-products, sawmill and cereal waste. The consumption of the mixture is 8-10 t / ha. The use of the invention allows to improve the agrophysical and agrochemical properties of the soil (Patent RU 2199193, IPC ⁷ AB 13/16, published ^on 02.27.2003).

The disadvantage of the prototype method is the use of bird droppings without prior disinfection, which introduces pathogenic microflora into the soil, for example, helminths. There is no guaranteed “mechanism” for launching the starting conditions for the development of microbiocenosis for desert sands or semi-deserts and, accordingly, there are no guarantees for the restoration and maintenance of the fertility of such soils.

The basis of the invention is the task of creating such a method of restoring and increasing soil fertility, especially in desert or semi-desert areas of agriculture, in which, thanks to the provision of starting conditions for the development of microbiocenosis in soils in areas of deserts and semi-deserts and the production of humus, higher yields at lower costs than using traditional mineral or organic fertilizers, based on the planned yield of the required NPK (nitrogen, phosphorus, potassium).

The problem is solved by a method of restoring and improving soil fertility, especially in desert or semi-desert areas of agriculture, providing for the introduction of organic and natural mineral materials into the treated soil in the pre-sowing season and its saturation with moisture in the post-sowing season, in which, according to the invention, as an organic material mainly bird droppings are used, and sodium bentonite is used as a mineral material, while processing these materials and adding them to the soil in the pre-sowing period of time is carried out using the following sequence of steps:

(a) pretreatment of predominantly bird droppings with an enzyme preparation, Oksizin, synthesized from molasses of sugar beet and providing decomposition and disinfection of the used organic material;

(b) grinding sodium bentonite, designed to reduce filtration and the rate of evaporation of water in the treated soil;

(c) applying to the cultivated soil the materials obtained in steps (a) and (b); and

(d) mixing the applied materials with the cultivated soil, embedding them to the depth of the arable layer of the plant selected for cultivation, and obtaining a shielding layer that provides the starting conditions for the development of microbiocenosis. In addition, according to the invention, after sowing or planting the plants in the resulting shielding layer, this layer is regularly watered, and the enzyme preparation Agrozin, synthesized from sugar beet molasses and providing increased activity in the rhizosphere of plants of aerobic soil bacteria, is added to the water of the first watering.

In one of the preferred embodiments of this method, it is advisable that in step (b) the bentonite is milled to achieve a particle diameter in the range of 0.005 to 2 mm, and the materials are applied to the treated soil in step (c) alternately or in a mixture.

Preferred for the purposes of this invention is also the selection of the consumption of pre-treated organic material in the range from 3 to 4 tons per hectare with a humus content in the soil of less than 1%, from 1.5 to 2.0 tons per hectare with a humus content in the soil of up to 3% and - from 0.7 to 1.3 tons per hectare with a humus content in the soil of more than 3%.

In addition, it is preferable to choose the flow rate of ground sodium bentonite in the range from 20 to 25 tons per hectare with a humus content in the soil of less than 1%, in the range from 13 to 18 tons per hectare with a humus content in the soil of up to 3% and from 7 to 12 tons per hectare with a humus content in the soil of more than 3%.

The enzyme preparation Agrozin can be added to the water of the first irrigation in proportion with water in the range of 1/200 - 1/1000, and its flow rate can be selected in the range from 4 to 5 liters of concentrate per hectare.

According to another preferred embodiment of the proposed method, after harvesting each crop, it is advisable to re-introduce the organic material pretreated in step (a) into the screening layer from 0.7 to 1.3 tons per hectare and the enzyme preparation Agrozin in proportion with water in the range 1 / 200-1 / 1000 at the rate of 4-5 liters of concentrate per 1 hectare.

In addition, it is also preferable, prior to the implementation of step (a), to add additional poultry production wastes to the poultry litter that comprise not more than 15% of the total mass of organic material.

At the same time, chicken droppings are best used as bird droppings.

The author found that it is a combination of unique factors: the proposed organization of the shielding layer in the pre-sowing season to the depth of the arable layer, the addition of bentonite and a certain amount of processed organic material based on bird droppings, as well as the addition of Agrozin to the first watering during planting or planting, allows start the biocenosis process. According to preferred embodiments of this method, the pre-treatment conditions and the composition of the organic material itself, the grinding of bentonite and the costs of all materials used are optimized, which ensure the most effective development of the biocenosis and, as a result, restoration and increase of soil fertility, especially deserts or semi-deserts.

A distinctive feature of the presence of a biocenosis when using the proposed method is that after starting a biocenosis carried out according to the proposed conditions, in the absence of removal of nutrients from the field with the crop, operations at stages a) -d) are not required, but only irrigation. In case of removal (collection) of the harvested soil from the cultivated area, nutrient removal can be compensated by introducing an additional amount of processed organic material (in much smaller quantities than the initial one), as well as the enzyme preparation Agrozin.

It should be noted that the proposed method allows you to restore the natural (natural) microbiocenosis on soils that have lost fertility, as well as on fertile soils, instead of mineral fertilizers for field cultivation, in order to prevent loss of fertility.

In this case, after irrigation, the screening layer can be saturated with water at the rate of 0.7 PPV (full field moisture capacity of the soil) after sowing.

For northern latitudes, a screening layer is prepared in the autumn to retain moisture in the screen layer after snowmelt, and for latitudes with a humid climate and seasonal rains, a screening layer is prepared on the eve of the rainy season.

Further, the invention is illustrated by a specific example of the method, describing, in particular, the restoration and improvement of fertility of irrigated desert soil in the area of the city of Al Ain (UAE) when growing alfalfa using the technology proposed according to the patented method.

The yield calculation was about 20.0 t / ha for one harvest of green mass and 200.0 t / ha for 10 harvests with year-round harvest of green mass.

The initial soil data were presented as follows:

arable layer for alfalfa - 30 cm,

density of dry soil P _dry. - 1.685 g / cm ³

the density of solid particles of soil P _tv.ch. - 2.65 g / cm ³

soil classification - medium-sized sand.

Laboratory soil analysis is presented in Table 1:

Removal from the soil when harvesting green mass of alfalfa 20.0 t / ha 200 t / ha - Table 2

Thus, the nutrient removal to the planned alfalfa yield of 20.0 t / ha is: nitrogen - 112.7 kg / ha, phosphorus - 27 kg / ha, potassium - 69 kg / ha.

Accordingly, when harvesting 10 crops, the removal of nutrients will be:

nitrogen - 1127 kg / ha; phosphorus - 270 kg / ha; potassium - 690 kg / ha.

In symbiosis with nodule bacteria, alfalfa accumulates up to 50-75 kg / ha (average - 62.5 kg / ha) of nitrogen for each crop or 500-750 kg / ha (average - 625 kg / ha) for 10 crops.

To calculate the fertilizer requirements for the planned crop, the following indicators are adopted, which are shown in table 3.

The calculation of the dose of fertilizers is carried out according to the methodology and formula of the Institute of Agriculture of the National Academy of Agricultural Sciences of Ukraine:

, где:

where:

D - estimated dose of fertilizers, kg / ha;

Unitary enterprise - the planned yield of the main products (dry matter), t / ha;

In - the removal of nutrients 1 ton of products, kg / ha;

P - stock of available nutrients, kg / ha;

a - utilization of nutrients from the soil,%;

y is the utilization rate of nutrients from fertilizers,%;

Table 4. The data on the calculation of nutrient intake for the planned crop are given.

Below is a calculation of the use of common mineral fertilizers in relation to the case under consideration - the cultivation of alfalfa in the UAE on desert sands.

Urea (carbomide) is the most concentrated nitrogen fertilizer - CO (NH ₂ ) ₂ , nitrogen content 46%. Price - 4000 UAH / t ($ 500 / t). The required amount is 2185 / 0.46 = 3957 kg / ha. Cost - 3,957 tons × 500 = $ 1978.5. With tenfold (per year) harvesting from 1 ha.

Double superphosphate - Ca (H ₂ PO ₄ ) ₂ * H ₂ O, phosphorus content of 45-50% (47.5%). Price - 4800 UAH / t (600 $ / t). The required amount is 1823 / 0.47 = 3879 kg / ha. Cost - 3.879 t × 600 = $ 2327. With tenfold (per year) harvesting from 1 ha.

Potassium chloride - KCl, potassium content 52-60% (56%). Price - 4500 UAH / t ($ 562). The required amount is 3365 / 0.56 = 6009 kg / ha. Cost - 6.009 t × 562 = $ 3377. With tenfold (per year) harvesting from 1 ha.

At the same time, the cost of fertilizers will be - $ 1978.5 + $ 2327 + $ 3377 = $ 7682.5, or $ 144.1 per 1 ton of hay.

The disadvantage of using mineral fertilizers is the violation of microbiocenosis and the death of beneficial bacteria.

It is a biocenosis based on a symbiosis of plants and microflora of the root system that is the main geological-transforming factor on Earth, as a result of which humus and soil fertility appeared.

Chemical compounds introduced into the soil with mineral fertilizers disrupt the natural process that has developed over millions of years, the life of autotrophic microbes: organisms that synthesize organic compounds from inorganic, and use inorganic substances of soil, water, air to build their bodies. Autotrophs are the primary link in plant nutrition: the primary producers of organic matter in the biosphere, providing food for the secondary link of microorganisms - heterotrophs, which are also organic producers. Plants secrete up to 20% of their mass as basal secretions, which feed heterotrophs and microorganisms that exhibit properties of both heterotrophs and autotrophs. The whole process is the process of microbiocenosis, which is disturbed by the application of mineral fertilizers. Autotrophs under the influence of “shock doses” of nitrogen, phosphorus and potassium die or mutate under the influence of an excess NPK background, lose the ability to extract elements from the parent soil, that is, their normal vital activity is disrupted. At the same time, the vital activity of the secondary link is disrupted - heterotrophs using the organic substances of the previous link for their vital functions, the process of isolation and assimilation of basal secretions is disrupted, and ultimately the soil degrades and depletes, since there is no one to create fertile humus.

During the growing season of plants, only a small part of the useful components of chemical fertilizers is used, because of which every year an increasing background of substances is created, the amount of which is not characteristic of the soil, not only the biocenosis but also the adjacent ecosystem is disturbed.

Requirements for soil moisture, water for irrigation.

On the formation of one kilogram of its mass (dry matter) - the transpiration coefficient, alfalfa spends water 663-771 kg (717 kg). Alfalfa has high demands on water: it is resistant to atmospheric drought, but demanding on soil moisture.

The minimum flow rate due to evaporation and filtration is 25% of the total flow rate. The total water consumption, taking into account transpiration for the case of alfalfa, on the basis of the planned yield of 20 t / ha for one mowing of green mass (4.6 t / ha of absolutely dry matter or 5.3 t / ha of hay) ≈5067 m ³ / ha, or 956 m ³ per 1 ton of hay.

At the first watering, the amount of water is calculated based on the total field moisture capacity of the soil (PPV):

.In this case, the necessary soil moisture -

.

In the arable layer - 30 cm there is soil - 505.5 kg, respectively, water for the first irrigation per 1 m ^{2 is} necessary - 76.4 l or 764 m ³ / ha, the remaining moisture - 5067-764 = 4303 m ^{3 is} distributed over the entire vegetation period: for the second and subsequent crops for ≈30 days.

Water prices for agricultural use (irrigation) around the world have huge differences. For example, in Ukraine or Uzbekistan, the price is 1 m3. water is approximately $ 0.015. It is difficult to obtain reliable data on water prices for irrigation, especially for countries in the Middle East. According to unofficial data, it is (for example, for Kuwait) - $ 0.9 / m ³ . If we take this price for calculations (and it is one of the highest in the world), then it follows that the cost of water for 1 ton of alfalfa hay can be about $ 860.

Based on the sale (market) price of alfalfa hay - $ 200 / t, it follows that at the existing prices for mineral fertilizers and the above cost of water for irrigation ($ 0.9 / m ³ ), alfalfa is grown in the UAE desert using mineral fertilizer is not profitable!

The path to profitability and lower costs in agricultural production lies in various aspects, including in the field of saving water and reducing the cost of fertilizers.

The problem is solved by implementing the proposed method (hereinafter referred to as “Biocenosis TECHNOLOGIES”, in which starting conditions for microbiocenosis in soils in the desert and semi-desert regions are created, and measures are taken to further maintain it. The biocenosis technology also allows restoration of natural (natural) microbiocenosis on soils that have lost fertility and on fertile soils where mineral fertilizers are used for crop production, in order to prevent the loss of fertility. AI can improve the fertility of the soil through the accumulation of humus and receive yields are significantly higher than in the application of mineral fertilizers.

The technology proposed in the invention contains several operations.

For starting conditions, a screening soil layer is created to the depth of the arable layer of the plant being grown, into which:

1) sodium bentonite with a particle diameter in the range of 0.05-2.0 mm (Table 5);

Bentonite is applied once when creating the starting conditions of the biocenosis. Depending on the productivity of the soil, reintroduction of bentonite in 5-7 years is possible.

For the case under consideration with sand from the UAE desert at a dose of bentonite of 25 t / ha, up to 80% of the moisture from the PPV (full field moisture capacity of the soil) is accumulated in the shielding layer due to the absorption properties of bentonite, each 1 gram of which absorbs 5 grams of water, which is confirmed by experiments .

In the initial period of vegetation, the root system develops in conditions of humidity close to optimal. Part of the peripheral roots penetrates the layer moistened by lowering the moisture below the main layer of the first plowing - 0.30 m. Root hairs die off (exchange) within 10-20 days, forming channels in which moisture condenses and microflora multiplies. Thus, the habitat of both microorganisms and plant roots expands consistently, expanding the accessibility of the entire biocenosis chain to soil nutrients.

The hydroaccumulative properties of bentonite contribute to the preservation of moisture in the soil, preventing evaporation and filtration. Experiments on holding a mixture of sand and bentonite (at a dose of 25 kg of bentonite per 1 m ² with a screen layer thickness for alfalfa of 0.3 m) in a heating cabinet at a temperature of + 50 ° C showed a decrease in the rate of evaporation of water by about 40%. It should be borne in mind that the flow rate of irrigation water for the same crop in one climatic region depends on many factors, for example, the grain composition of the soil, the optimal sowing density, which forms the microclimate on the sown area, and so on. In Ukraine, the alfalfa seed consumption rate is 18-20 kg / ha. In the UAE, this rate increases to 50 kg / ha, that is, the density of sowing in this case prevents the evaporation of moisture.

The amount of water for irrigation in the UAE due to the reduction of evaporation and filtration will decrease from the total amount - 5067 m ³ / ha to 4560 m ³ / ha ($ 774 per 1 ton of hay). The cost of water will be reduced by $ 456 per crop. That is, the cost of bentonite is justified, as it pays for about 4 crops (less than six months).

Clay particles have a significant stimulating effect on the vital activity of a number of types of microorganisms located in the screen layer, in particular on their respiratory activity, and bentonite (montmorillonite) has the most noticeable effect on the physiological activity of microorganisms.

In addition, a shielding layer is introduced

2) chicken droppings, processed by fermentation using the drug - Oksizin, which has the property of an oxidase class enzyme, synthesized from sugar beet molasses (hereinafter referred to as Organic) (Table 6).

Oksizin is produced by the Dnieper Association-K and is described in more detail on the website www.star-k.com.ua.

After each harvest, 1 ton per 1 ha of Organics is applied to the soil (Table 7).

According to the author, the introduction of Organics into the shielding layer is a determining factor in starting a biocenosis.

Technology for the preparation of Organics from chicken manure with the participation of the enzyme preparation Oksizin, occurs in collars and allows you to heat the substrate to temperatures of 45 ° -70 ° C, sterilizing it from pathogenic microflora, helminths and weed seeds. Thermophilic microorganisms participate in the process, converting inaccessible forms of nitrogen, phosphorus and potassium into forms available for plants. The unpleasant odor of droppings will decrease after a few hours from the start of the process. Not only litter is processed, but also feather, carcasses of dead animals and blood. Depending on the ambient temperature, after 7-30 days the pile will be a loose mass from brown to dark brown and black, without a characteristic sharp smell of ammonia, with a humidity of 40-45%, which can be applied to the shielding layer.

In the UAE, at a daily temperature of 35-45 ° С, the process of litter processing takes 7 days.

And finally, another component introduced into the shielding layer after sowing alfalfa is

3) the drug is Agrozin, which has the property of an enzyme of the oxidase class, synthesized from molasses of sugar beets (Table 8).

Agrozin is produced by the Dnieper Association-K and is described in more detail on the website www.star-k.com.ua.

After each harvest, 4.4 liters per 1 ha of Agrozin are applied to the soil.

The solution of the enzyme preparation, Agrozin, introduced with the first watering into the shielding layer, stimulates the development of microorganisms in the plant rhizosphere, and, due to its catalytic properties, promotes the accelerated processing of dying root hairs, leaving a channel for air and moisture to penetrate. Agrozin, in addition to catalytic properties, has the properties of a surfactant, reducing the surface tension coefficient of an aqueous solution from 72 × 10 ^-3 n / m to 28-30 × 10 ^-3 n / m, thereby ensuring high penetration of moisture into the smallest capillaries soil, which provides favorable conditions for the reproduction of microflora and save moisture.

Bentonite and Organic are added to the shielding layer in Tables 5, 6 and mixed for alfalfa to a depth of 0.3 m, for example, with a cultivator. The second and subsequent applications of the Organics are carried out by surface scattering. Agrozin is introduced by a liquid manure sprinkler or irrigation system.

The costs of launching and maintaining fertility in the manufacture of Organic in the conditions of a farm without drying for 10 crops per year will be:

$ 1750 + 3 × 20 $ + 9 × $ 20 + 10 × 4.4 L × $ 22 = $ 2958, or $ 55.5 per ton of hay in the first year and

10 × 20 $ + 10 × 4.4 L × 22 $ = 1168 $, or 21.9 $ / t - hay in the second and subsequent years;

The cost of launching and maintaining fertility in the manufacture of Organics in a farm with drying for 10 crops per year will be:

$ 1750 + 3 × 100 $ + 9 × 100 $ + 10 × 4.4 L × 22 $ = $ 3918, or $ 73.5 per ton of hay in the first year and

10 × 100 $ + 10 × 4.4 L × 22 $ = $ 1968, or $ 36.9 / t - of hay in the second and subsequent years;

The number of available forms of nitrogen, phosphorus and potassium with bentonite, Organic and Agrozin per 10 alfalfa crops per year will be introduced into the soil using Biocenosis Technology into the soil:

- from bentonite (dose - 25 t / ha): Nitrogen = 0; Phosphorus = 7.5 kg / ha; Potassium = 90 kg / ha; - from Organik (dose - 3 t / ha + 9 × 1 t / ha): Nitrogen = 3 × 37.5 + 9 × 37.5 = 450 kg / ha; Phosphorus = 3 × 33.7 + 9 × 33.7 = 404.4 kg / ha; Potassium = 3 × 37.5 + 9 × 37.5 = 450 kg / ha; - from Agrozin (dose - 4.4 l / ha + 9 × 4.4 l / ha): Nitrogen = 4.4 × 0.0035 + 9 × 0.0035 = 0.0469 kg / ha; Phosphorus = 4.4 × 0.0031 + 9 × 0.0031 = 0.0415 kg / ha4 Potassium = 4.4 × 0.0075 + 9 × 0.0075 = 0.1 kg / ha. The total amount will be: Nitrogen - 450.05 kg / ha; Phosphorus - 411.94 kg / ha; Potassium - 540 kg / ha.

Thus, even without taking into account the utilization rates of alfalfa nutrients from bentonite and Organika, it follows that the proposed method yields less than that required when using mineral fertilizers: nitrogen - 4.85 times (2185 kg / ha: 450.05 = 4.85) ; phosphorus - 4.42 times (1823 kg / ha: 411.94 = 4.42); potassium - 6.25 times (3365 kg / ha: 540 = 6.23). However, the technology of biocenosis with these doses of introduced elements in a real desert condition provides a yield of green mass of 20 t / ha for one mowing and 200 t / ha for 10 crops per year that are harvested there. In addition, soil fertility increases from year to year due to the accumulation of humus. The use of mineral fertilizers in desert conditions, although it is designed for a yield of 20 t / ha, actually yields a yield of ≈10 t / ha.

A combination of factors: the organization of the screening layer to the depth of the arable layer, the introduction of bentonite, Organics and Agrozin into it according to the formulations given above, ensures the launch of the biocenosis. A distinctive feature of the biocenosis is that after the launch of the biocenosis, in the absence of removal of nutrients from the field with the crop, fertilizers are not required, only watering. In case of removal from the field of harvest, compensation for the removal of nutrients is carried out by adding an additional amount of Organics and Agrozin.

Plowing (mixing) the field when creating a screening layer is performed only once. If it is necessary to change the sowing crop, for example, from perennial alfalfa to a grain crop, plowing during sowing is carried out by a plane-cutting plow to a depth of 5-7 cm with a surface application of Organic and Agrozin.

In the process of creating a technology for launching a biocenosis as an organic component into the shielding layer, various types of them were tested: cattle, pig, horse and compost manure. Not a single species of these fertilizers triggers a biocenosis, that is, in the absence of removal of nutrients from the crop, it is necessary to feed the plants with the addition of organic matter, otherwise the further life of the plant begins to fade. It is the processed bird droppings, in particular chicken droppings, that trigger the biocenosis. An explanation of this fact is possible, the author believes, is connected with the “genetic” memory of the Earth: 65 million years ago, the cataclysm on earth destroyed the existing life formation, including dinosaurs. But it was the dinosaurs who gave the evolutionary branch of development to the birds, and their vital activity served as an incentive for the biocenosis, the main geological transforming factor on Earth.

In the manufacture of Organic in the conditions of a farm in the UAE without drying, the cost of the technology for launching a biocenosis and maintaining high soil fertility is 2.6 times ($ 7682.5 / 2958 = 2.6) less than when applying mineral fertilizers for the first year, 6.58 times ($ 7682.5 / 1168 = 6.58) for the 2nd and subsequent years.

If you buy ready-made dried Organics at average European prices, the costs of biocenosis technology will be 1.96 times (7682.5 / 3918 = 1.96) less than with mineral fertilizers for the first year, 4.1 times (7682.5 / 1868 = 4.1) for the 2nd and subsequent years.

As calculations show, the cost of production for the case under consideration with alfalfa in the UAE is:

C = CM + Y + (fuel + O) + B, where:

- C - cost;

- SM - the cost of seeds. Accepted = 0.05 × C, provided that the seeds are obtained at the expense of own security, for which 1/20 of the area should be allocated;

- U - the cost of fertilizers;

- fuels and lubricants + O - expenses on equipment and labor remuneration. Accepted = 0.4 × C on the model of existing farms

- In - the cost of water for irrigation.

Taking the selling price of alfalfa hay - $ 200 / t and the cost of water - $ 0.9 / t, the level of profitability when using mineral fertilizers is estimated as:

$ 200 = 0.05 × 200 + 144.1 + 0.4 × 200 + 860 = $ 1094. That is, the deficit (loss ratio) will be: 1092-200 = $ 892 / t.

Considering the yield in the desert is 2 times lower than the calculated one, the actual deficit (loss ratio) will be $ 1784 / t.

The level of profitability when applying Biocenosis Technology starting from the second year is estimated as:

$ 200 = 0.05 × 200 + 21.9 + 0.4 × 200 + 774 = $ 886. That is, the deficit (loss ratio) will be: 886-200 = $ 686 / t.

Thus, with the accepted cost of water and with any technology, growing alfalfa in the desert is not profitable, and can only be subsidized, for example, by government programs. However, the deficit of funds under the Biocenosis Technology will be 2.6 times less than with the use of mineral fertilizers.

With the cost of water similar to the indicators of Uzbekistan or Ukraine ($ 0.015 \ t), the proposed Technology is cost-effective and can serve as a basic element for the implementation of the Government or regional program “Country Food Security”.

It is advisable to use biocenosis technology in existing urban landscaping programs, in forest protection strips of highways, and in other similar projects.

If we take into account the fact that with a daily milk yield of 20 l (7300 l / year), a cow weighing 500 kg, this animal needs 15 feed units per day or 68 kg of alfalfa green mass. For the population of the UAE of 7200000 people, the annual consumption of milk is 94.1 l / person (data for 2003), a herd of cows is needed in an estimated amount of 92,811 heads. With the Technology of Biocenosis and Yields of 200 kg / ha for one mowing and 10 mowing a year, such a livestock can be maintained by cultivating 11,518 ha of desert.

In addition, due to the refreshment of the livestock (4 years) and the receipt of meat and meat products with a yield of 56%, it is possible to provide meat, with consumption of 50 kg / year per person, about 129935 people.

Although the above example of the implementation of the claimed method concerned the benefits of growing alfalfa in a country such as the UAE, it is clear that this invention is not limited to the above data, and may find wide application in the cultivation of other crops and in other areas of agriculture.

Thus, the proposed method allows us to solve the problems of food security of countries, especially with a hot climate with desert and semi-desert territories. An indisputable advantage of the method according to the invention is that it has become possible to completely abandon chemical fertilizers and at the same time provide a constant increase in soil fertility due to the accumulation of humus in such soils.

Claims (14)

1. A method of restoring and improving soil fertility, especially in desert or semi-desert areas of agriculture, by introducing organic and natural mineral materials into the soil under cultivation in the pre-sowing season and saturating it with moisture in the post-sowing period, characterized in that mainly bird is used as the organic material litter, sodium bentonite is used as a mineral material, and the processing of these materials and their introduction into the soil in the pre-sowing period is carried out using the following sequence of steps: (a) pretreatment of predominantly bird droppings with an enzyme preparation, Oksizin, synthesized from molasses of sugar beet and providing decomposition and disinfection of the used organic material; (b) grinding sodium bentonite, designed to reduce filtration and the rate of evaporation of water in the treated soil; (c) applying to the cultivated soil the materials obtained in steps (a) and (b); and (d) mixing the applied materials with the cultivated soil, embedding them to the depth of the arable layer of the plant selected for cultivation, and obtaining a shielding layer that provides the starting conditions for the development of microbiocenosis; but After sowing or planting in the shielding layer of plants, it is regularly watered, and the enzyme preparation Agrozin, synthesized from sugar beet molasses and providing increased activity in the rhizosphere of plants of aerobic soil bacteria, is added to the water of the first watering. 2. The method according to p. 1, characterized in that in step (b), grinding of bentonite is carried out until the diameter of the crushed particles in the range from 0.005 to 2 mm 3. The method according to p. 1, characterized in that the deposition of materials on the treated soil in step (c) is carried out alternately or in a mixture. 4. The method according to p. 1, characterized in that the consumption of pre-treated organic material is from 3 to 4 tons per hectare with a humus content in the soil of less than 1%, from 1.5 to 2.0 tons per hectare with a humus content in the soil up to 3% and from 0.7 to 1.3 tons per hectare with a humus content in the soil of more than 3%. 5. The method according to p. 1, characterized in that the consumption of ground sodium bentonite is from 20 to 25 tons per hectare with a humus content in the soil of less than 1%, from 13 to 18 tons per hectare with a humus content in the soil of up to 3% and 7 to 12 tons per hectare with a humus content in the soil of more than 3%. 6. The method according to p. 1, characterized in that the enzyme preparation Agrozin is used in proportion with water in the range of 1 / 200-1 / 1000 and is consumed in the range of 4 to 5 liters of concentrate per hectare. 7. The method according to p. 1, characterized in that after harvesting each crop, the organic pretreated in step (a) is re-introduced into the screening layer from 0.7 to 1.3 tons per hectare and the enzyme preparation Agrozin in proportion with water in the range of 1 / 200-1 / 1000 at the rate of 4-5 liters of concentrate per 1 hectare. 8. The method according to p. 1, characterized in that before the implementation of stage (a) in the poultry manure, additional waste from the production of poultry meat is added, comprising not more than 15% of the total mass of organic material 9. The method according to p. 1, characterized in that as bird droppings use chicken droppings.