RU2663992C2 - Method of biomelioration of brown and chestnut soils with solonetz on degradiated bogharic dry land - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the biomelioration of degraded agricultural lands. Method includes searches containing soil agro-meliorative surveys of the site, with a complex, scrupulously diagnosed aerial photographs by a laser scanning system and geophysical route ground, non-digging echolocation probing indicators of degraded land condition and with the simultaneous input of the received data to the magnetic carrier into the PC base, mapping the site to GIS, preparing a program for switching it on and off from the control panel and the coordinate system via the GPS receiver of the combined unit with reference to geographic coordinates and transferring the results to the control processor of the combined unit performing sequentially simultaneous processing. Additionally, it is carried out the targeted introduction of ameliorant, at that the soil layer is cut, at the same time loosening the soil and subsoil boundary layers and feeding into this layer ameliorant – iron vitriol, or spent electrolyte, sulfuric acid solution, and in the cavity between the cut and processed with application of the chemical ameliorant to the disconnected lumps, form a 0.02–0.07 m layer of liquid manure. Bulk subsoil loosening is carried out and simultaneously form at the bottom of the loosened under-sun layer the strip waterproof during precipitation and during the drought, the water-regulating organomineral screen, permeable with the roots of plants, with the laying of the organomineral mixture through the cavities of the deep-seated from 0.35 to 0.55 m parabolic racks of voluminous rippers and between them under the dumps of the mixture with its composition, vol. %: plant residues and humus – 33–50, montmorillonite with a microelement of molybdenum – 3–10, mixture of silt, aleurite, sand – 15–40, iron vitriol – 0–15, clay – 15–37. At that the wings are arranged above the screen in the soil layer and grind the soil aggregates, shrubby shoots and create a layer of a mixture of liquid manure, sand, silt and water in the soil layer of the 0.02–0.1 m backstage. Addressable introduce the ameliorant – loose lime on the soil surface, or phosphogypsum, while the water-regulating organomineral screen is laid below the solonetz layer.EFFECT: method allows to shorten the biomelioration period of degraded lands with the presence of spots of alkaline soil, complexes of solonetzes and subsoil lenses of solonetz, increase the productivity of agricultural lands with rain-fed plant cultivation, while simultaneously desalinizing the soils.3 cl, 2 dwg

Description

The invention relates to the field of bio-reclamation of degraded agricultural land with the presence of complexes of solonetz, or spots with curtains of shrubbery and subsoil layers of highly saline soil, namely, for survey work in meadows and arable land, desalinization of the soil, sowing seeds, preparation of the bottom of the loosened soil for removal products of chemical reactions under a strip with halophytes and subsequent disposal of organic biomass of a ground mixture of halophytes with accumulated sodium and magnesium ions in the exported farmland green fodder. The proposed method, in particular, relates to the creation of simultaneous targeted processing of degraded lands, including preliminary excavation-free diagnostics during the survey, mapping of the site with the introduction of the obtained diagnostic values into the PC database, into a GIS map, preparation of a program with reference to geographical coordinates for combined units, transmission to the PC control processor of the combined unit of the program for automatically turning on and off the working bodies from the control panel and a bunch of coordinates through a GPS code receiver of a combined unit performing simultaneous processing: mechanical - of bands of volumetric subsoil loosening, grinding of cut shrubs on the soil surface, stems of herbaceous plants and soil aggregates in the wings with separation into fractions when laying on the bottom of the wings; chemical - with the distribution of ameliorant and mineral fertilizers; biological - with the introduction of liquid manure, a solution with nitrogen-fixing microorganisms in the soil, sowing seed mixtures.

The essence of the problem lies in the fact that at present large areas (54 million ha.) Of arable land, meadows and pastures have been salinized during degradation and in order to restore the functioning of meadows and arable land along with the prevention of salt transfer to the soil surface during capillary transpiration , preservation of the surface soil layer is required to eliminate the possibility of wind and water erosion, the processing of arable land and meadows with the introduction of liquid manure and an aqueous solution with nitrogen-fixing microorganisms into the solonetzic soil, processing of the soil layer and subsoil soil with the addition of ameliorant, different depth loosening of the soil with the creation of an active screen below the layer of solonetz lens, accumulating an excess of phosphorus and potassium fertilizers, regulating the amount of water above the screen to develop the root mass of plants, creating a curtain with zero processing above the water control screen and alternating pairs of rows with sowing annual cover crops (for example, rye, or wheat and alternating with them: short-barley barley with a stalk height of 0.5-0.6 m or bluegrass - with a height of 0.08-0.1 m), and in the row-spacings on the processed side-row sowing of perennial legumes (for example, clover with a height of 0.08-0.5 m or small alfalfa - 0.1-0.5 m or naked licorice with a stem height of 0.5-1.5 m) and between the wings, halophyte sowing on an existing turf (for example, alternating pairs of rows of amaranth with a stem height of 0.6-3.0 m or lanceolate reed - 0.6-1 , 3 m and solonchak wheat grass with a stem height of 1.0-1.8 m or Veronica long-leaved - 0.6-0.8 m, and in the row-spacing sowing seeds of Sudanese grass or broad-grain wheatgrass), and on the turf strips in between between adjacent water-regulating screens with a width of 0.05 to 1.1 of the length of horizontal capillary moisture transfer, corn or halophytes (for example, feathery feather) are sown in pairs of rows, and in their row-spacings is arched arched or cochia venicus, which will increase productivity reclaimed rainfed lands.

There is a method of complex reclamation of solonetzic soils under irrigation conditions (RU, Pat. Invention No. 2317667, IPC АВВ 79/02, BPMI No. 6, 02.27.2008,), including: soil ameliorative survey of the site, sowing winter crops, grain harvesting with simultaneous chopping the straw and spreading it over the field, after which liquid manure and ameliorant - phosphogypsum are applied superficially, plowed into the soil to a depth of 28-30 cm using heavy disc tools, sowing and cultivating Sudan grass as a phytomeliorant, with it quantity of chopped straw is not less than 5.6 t / ha, liquid manure - a rate of 40 ton / ha and phosphogypsum - a rate of 6 tonnes / ha.

The disadvantage of this method is the destruction of turf and stubble during machining of the surface layer, which causes the development of processes of wind erosion of the soil, as well as the high duration of substitution in the soil absorption complex of an excessive amount of sodium cations by calcium ions. In this case, it is necessary to conduct repeated measures in five years, and the use of large doses of chemical reclamation agents significantly increases the cost of reclamation.

A known method of biomelioration of degraded rainfed lands, (RU, Pat. Invention No. 2589224, IPC АВВ 79/02, АВВ 13/14, С09К 101/00 BPMI No. 19, 07/10/2016,), including: creating a thin layer 0 in the soil layer, 02 ... 0.07 m of a layer of liquid manure, the formation in the subsoil of the water control screen impenetrable during atmospheric precipitation and permeable by the roots of plants during drought, survey of the site, preliminary tier loosening of soil from 0.65 to 1.0 m, preliminary tier loosening of the soil and at an angle to his direction is the main processing of the strip layer. Moreover, create the base of the screen with a transverse profile of a cosine shape and additional horizontal sections at the extreme points of the profile of the base. The strips are processed with subsurface depth-cutting cutting of the upper soil layer, simultaneous treatment of the underlying soil layer and the subsoil solonetz with the introduction of a chemical reclamant onto the separated lumps. A layer of liquid manure is formed in the cavity between the undercut soil layer and the one treated with the introduction of ameliorant. The organic-mineral mixture is laid with inertial-pressure supply through the cavities of different depths from 0.45 to 0.75 m of parabolic racks of volumetric cultivators and between them behind the knives under the dumps. At the same time, the water control screen is laid below the solonetz layer in the form of two symmetric conjugate layers with a curved surface) and the excess of the interface level above the edge level. An organic-mineral mixture is placed in the water control screen, with its composition, vol. %: 35 ... 50 plant residues and humus, 3 ... 10 montmorillonite, 15 ... 40 marine mixed deposits, 15 ... 37 clay. When strip cultivation of plants is performed in a cultivated strip above the screen, a mixture of leguminous grass seeds and a cover crop is sown with the simultaneous application of loose phosphoric and potassium mineral fertilizers into the soil, a solution with nitrogen-fixing microorganisms, and drought-resistant halophytes treated with growth stimulators in the lighthouse strip.

The disadvantage of this method is the indent between adjacent treated strips with water control screens with a width of 3.3 m to 5.25 m, which is 1.1-1.5 of the length of the horizontal capillary moisture transfer, while maintaining degenerated grass stand and performing under-cover volume tier loosening of the soil with bottom profile, along which it is required to move excess water with chemical reaction products under the water control screens into a deep gap in the lighthouse strip with halophytes.

A known method of processing solonetzic soils (SU, US Pat. No. 933015, A01B 79/00, publ. 06/07/1982, BIPM No. 21), including partial mixing of the powdery ameliorant with the soil of the solonetzic layer by combining the operations of raising the supra-solonetzic layer by loosening cutting legs, pneumatic transporting the ameliorant to the sublap space and sieving on the surface of the solonetzic layer and subsequent deep loosening of the solonetzic layer, and after lifting the supra-solonetzic layer, simultaneous milling of the upper part of the solonetzic podlapovoy layer zone to the fine structure and a thorough dusting them in the air flow ameliorant, basically suspended soil particles thrown by the cutter knives. The disadvantage of this method is the high complexity of milling a monolithic solonetzic layer to a finely dispersed structure and the need for air supply for mixing the crushed particles with ameliorant.

A known method of processing solonetzic soils (RU, patent of the invention No. 1635919 AB 79/00, publ. 23.03.1991, BIPM No. 11), including, in the technological sequence, lifting and loosening of the humus layer, the introduction of ameliorant in the solonetzic soil layer with simultaneous mixing between by itself, loosening the subsalt layer of the soil by cutting holes in it, as well as leveling the surface of the humus layer of the soil in the treatment zone, and the humus soil layer when it is raised and loosened is simultaneously displaced on both sides of the treatment zone with the formation of a collar c, the alignment of the surface humus soil layer is carried out when moving the shoulders in the treatment area after chemical substitution reactions in the lower soil layers. The disadvantages of the method is the increase in complexity due to the additional movement in the shoulders and the layout of the humus layer of the soil, as well as crumbling turf in the process of operations.

There is a method of complex reclamation of irrigated solonetzic lands (RU, Pat. Invention No. 2557715, MPK АВВ 79/02, BPMI No. 21, 07/27/2015,), including: deep loosening of the soil, irrigation with an increased irrigation rate, introduction of urea-formaldehyde fertilizer into the top layer of the soil saturated with a solution of ferrous sulfate and inlaid with phosphogypsum, which after washing is moved to the lower part of the arable horizon.

The disadvantage of this method is the inability to apply on rainfed meadows and arable land with solonetzic complexes, and on irrigated lands with a thickness of a layer of soda solonetz more than 0.8 m and without an underlying gypsum layer, in addition, the absence of land reclamation survey of the site, the definition of the boundaries of solonetzic complexes, the implementation of long-term continuous chemical treatment of the site, including soil without soda solonetz, increased water consumption for washing the products of chemical reactions to the bottom of a previously loosened soil layer, th o increases the amount of water-soluble salts with the possibility of their entry into the soil during capillary rise of water.

A known method of processing solonetzic soils (SU, patent of the invention No. 1496659, IPC AB 79/00, Bull. No. 28, 07/30/1989), providing targeted treatment of solonetz without making ameliorant, and including: moving over-solonetzic soil into the dump; selective mixing of the opened solonetz and subsalt layer with a special tool within the limits of solonetzic spots during the main tillage under the control of a device that determines the size and type of solonetzic spot. This invention can be used when applied on neutral soils with a depth of up to 0.08 m with spots of cortical solonetz and subsoil lenses of nutty solonetz and underlying carbonate soil 0.35 m deep from the surface of agricultural land.

The disadvantage of this method is the inability to use in rainfed meadows and arable land with solonetzic complexes with a prismatic, cobbled solonetz with a thickness of 0.6 m without an underlying gypsum layer, as well as with a columnar solonetz, mainly common with a layer thickness of more than 1.0 m. soil into the dump during mechanical treatment leads to the destruction of stubble or turf, causes the development of wind erosion of the soil, and the mixing of the salt layer with the underlying saline soil without chemical chalking welt increase the degree of degradation of farm land, without an apparatus for diagnosing and determining the boundaries of soil-ground solonets complexes providing its installation on the base machine and the operation of the apparatus during motion during the main tillage automatically sending information to the control unit working bodies.

A known method of chemical reclamation of chernozem solonetzic soils, (RU, patent of the invention No. 2084096, АВВ 79/00, publ. 07/20/1997), including: soil agro-reclamation survey of the site and the preparation of the project for reclamation, chemical reclamation and its surface filling with peeling or milling with simultaneous cutting of sod or stubble, and the main tillage is combined with plowing with a three-tier plow, when each hull is deepened in accordance with the reclamation project, and after reclamation treatment, you avnivaniya surface fallow fields and one-reclaimed land, according to the method seeded and cultivation of salt tolerant crops and solontse-, fitomeliorantov - sorghum, Sudan grass, rye, sweet clover and fire under cover mustard, corn, barley. The disadvantage of this method is the high duration due to one-year fallow and the subsequent long-term alternation of mixtures of phytomeliorants, the complete destruction of stubble or turf during mechanical processing of the soil, the inability to use in rainfed meadows.

There is a method of biomelioration of clay and loamy soils (RU, Pat. Invention No. 2125583, С09В 17/40, published Bulletin No. 3 dated January 27, 1999), including the creation of biologically in the arable horizon at a depth of 0.1 ... 0.2 m active water-regulating layer based on a mixture of the following composition, vol. %: organic components: Humus - 30-36; Plant residues - 9.8-9.71; Nitrogen-fixing microorganisms - 0.12-0.15; Growth stimulants - 0.08-0.14; mineral soil: Montmorillonite additives - 10-4; Clay - the rest, while the method does not contain a device for its implementation.

This invention can be used only on irrigated lands with strip removal of the soil layer from 0.10 to 0.25 m into the shaft with the formation of a trough with slopes of 1: 1 and loosening of its bottom to a depth of 0.3 m, followed by laying on the loose surface of the layer organic components with the addition of montmorillonite and applying a clay layer of at least 0.05 m to it with a coating of decaying organic matter, on top of which soil from the previously formed shaft is sprinkled and sowing seeds treated with growth stimulants is carried out. (Maksimenko V.P., Puninsky Yu.S. [et al.], Modes of integrated land reclamation. Recommendations. - M .: VNIIGiM, 2000, S. 48 ... 50). The disadvantage of this method is the need for multiple passes of single-operation machines, the destruction of soil aggregates and their irrational movement in the shaft and vice versa, difficulties in laying on the slopes of the trough a mixture of a water-regulating layer, the need for surface application of ameliorant to a strip with an existing water-regulating screen.

A known method of cultivating winter cereals and legumes on green fodder (RU, patent of the invention No. 1794346, АСС 7/00, published from 02.15.1993, bull. No. 6), including the preparation of steam during the summer, periodic cultivation, fertilizing ( P _60- superphosphate), sowing and rolling in winter cereals and legumes in August by arranging winter cereals in the form of wings in 0.45 m, and winter legumes cross-wise or diagonally to cereals and in spring mechanized harvesting. The disadvantage of this method is the need for preliminary introduction of ameliorant into the solonetz horizon and removal of chemical reaction products by washing, as well as long-term evaporation.

A known method of reclamation of sandy and sandy loamy soils (SU, No. 1555337, C09K 17/00, 1990, Bull. No. 13 of 04/07/1990 g), including laying in the soil horizon in the dust form of a layer of variable water holding capacity with the base of the trapezoid at a depth 0.5 ... 1.2 m, slopes with a laying of 1: 1 based on a mixture of the following composition, vol. %: organic components: Plant residues - 50; Mineral soil: montmorillonite 2-5; clay - 45-48.

This invention can be used to accumulate the required amount of water and regulate the ratio of rational phases of the soil: solid, liquid and gaseous, when draining excess water into the soil under the screen, which is waterproof during atmospheric precipitation, watering plants and with the permeability of the screen during drought, inter-irrigation periods. (Puninsky Yu.S., Kizyaev B.M., Puninsky B.C. [et al.], Recommendations for the biological reclamation of degraded agricultural land. - M .: VNIIGiM, 1999, p. 9 ... 11). The disadvantage of this method is the need for many years of alternating mixtures of phytomeliorants, laying at a depth below 0.02 ... 0.05 m of a flat layer of organomineral biologically active fertilizer mixture (OMBAUS) with a thickness of 0.1 ... 0.3 m, imperfection of the bottom profile and slopes of the screen base, preventing receiving from the trough shape of the stacked screen.

To eliminate these drawbacks, the proposed method for the bio-reclamation of brown and chestnut soils with solonetzes on degraded dry-steppe lands, including the formation in the soil layer of the side wings of fertilizer and limiting the capillary rise of water with the removal of salts of a layer with a thickness of 0.02 ... 0.1 m from a mixture of liquid manure, sand , sludge and water, as well as below the bottom of the wings of a continuous layer of liquid manure 0.02 ... 0.07 m above the loosened soil and subsoil boundary layers in the cavity between the undercut soil layer and treated from the outside by applying to the separated lumps of chemical ameliorant, and containing the formation in the subsoil of the water control screen during atmospheric precipitation, an impenetrable and accumulating the necessary amount of water for rainfed cultivation of plants and draining excess water exceeding the volume of free pores into the soil between the screens to be stored under them, and the screen permeated by the roots of plants during a drought, according to the proposed invention, the method comprises: targeted processing of degraded lands, conducting field surveys of plot, including preliminary excavation-free diagnostics during the survey, mapping of the plot with the introduction of the obtained diagnostic values in the PC database, in the map on the GIS, preparation of the program with reference to the geographical coordinates, transfer to the PC control processor of the combined unit or technical means separately carrying out operations of the technological processes program automatic switching on and off by it of working bodies from the control panel and a bunch of coordinates through the GPS coded receiver in the cab ovannogo unit executing "zero" machining - strips surround subsoil loosening, shredding soil aggregates in the wings with the separation into fractions; chemical treatment - with the distribution of mineral PNK fertilizers, ameliorant in the under-cover horizon in the wings and on the soil surface between the wings; biological treatment - with the introduction of a solution with nitrogen-fixing microorganisms into the soil, sowing of seed mixtures, creation of the wings above the water control screen with zero treatment and alternating pairs of rows with seeding of annual cover crops, and in the row-spacings on the treated wings of seeding of perennial legumes and between the wings of the halophyte sowing existing turf, and on the strips of turf in the spaces between adjacent water-regulating screens, with a width equal to from 0.05 to 1.1 of the length of the horizontal capillary moisture transfer, in Rows of rows are sown with corn or halophytes (for example, feathery feather), and in the row-spacings of pairs of rows, arch is arched or cochia broom; the laying of the organic-mineral mixture into the screen with an inertial-pressure supply through the cavities of the parabolic racks of volumetric cultivators and knives between them under the dumps, with the additional performance of preliminary grinding of the mixture with its composition, vol. %: 33 ... 50 plant residues and humus, 3 ... 10 montmorillonite with molybdenum trace element, 15 ... 40 mixture of silt, silt, sand, 0 ... 15 iron sulfate, 15 ... 37 clay; strip cultivation of plants when sowing their seeds with the simultaneous application of loose mineral fertilizers, leveling the surface of the wings and compaction of the soil with seed placement.

The analysis of patent and technical documentation did not reveal a similar implementation of the method of biomelioration of brown and chestnut soils with solonetzes on degraded dry-steppe lands, showed that the invention is new, does not follow explicitly from the prior art.

The aim of the proposed invention - the method is to accelerate the restoration of the effective functioning of degraded fallow meadows, arable land with solonetzes, obtaining dispersed soil on reclaimed rainfed lands with a supply of moisture and nutrients, which increases the yield of cultivated plants and prevents wind erosion and the removal of toxic salts into the soil horizon.

The technical result of the invention is the reduction of the terms of biomelioration of degraded lands with the presence of spots of solonetzic soil, complexes of solonetz and subsoil lenses of the solonetz, a change in the ratio of solid, liquid, gaseous phases of brown and chestnut soil when saturated with nitrogen-fixing microorganisms that improve the development of a seeded mixture of herbs, integumentary grains and halophones , which provides increased productivity of agricultural land with rainfed cultivation of plants while desalinizing soils.

A new technical result from the application of the proposed method of bio-reclamation in meadows and arable land with desalinization of the soil is achieved by creating a thin 0.02 ... 0.1 m layer of a mixture of liquid manure, sand, silt and water on the treated strip in the soil layer of the backstage below the bottom of the wings, there is a continuous layer of liquid manure 0.02 ... 0.07 m above the loosened soil and subsoil boundary layers in the cavity between the undercut soil layer and treated with the introduction of a chemical reclaimant on the separated lumps, these layers prevent the volume of water during its capillary transpiration with the removal of salts and contribute to the desalinization of the overlying soil with carbon dioxide gases during the decomposition of the introduced manure, which additionally creates in the subsoil layer (below the horizon of the solonetz) a water-regulating organomineral screen with impermeability during atmospheric precipitation to accumulate the necessary amount of water cultivation during dry plants and discharging excess water exceeding the amount of free pores into the soil between the screens, to preserve under them, while the screen during dry we penetrate the roots of the plants, and the base of the screen is formed with a transverse profile of an arcuate shape, which provides regulation of the accumulation of water and horizontal capillary transfer of moisture to the roots of the plants, as well as the method includes the removal of chemical reaction products under crops of halophytes, the completion of processing with simultaneous application of the solution with nitrogen-fixing microorganisms, loose PNK mineral fertilizers, sowing on the scenes with zero treatment and alternating pairs of rows of a mixture of grass seeds cover grain crops, and in the row-spacing of pairs of rows on the treated side of the field sowing perennial legumes (alfalfa, clover, or sweet clover) and between the wings, the sowing of halophyte seeds (for example: amaranth), treated with growth stimulators, in the intervals between adjacent water-regulating screens, with a width equal to from 0.05 to 1.1 lengths of horizontal capillary moisture transfer, in pairs of rows of sowing corn or halophytes (for example, feathery feather), and in their row-spacings - arched arched or cochia venicum, which ensures the acceleration of crops Bani soil and shortening work on biomelioratsii degraded lands.

In addition, the use of the inertial-pressure feed of the organomineral mixture in the method of the alleged invention on the screen base allows it to be laid through the cavity of parabolic racks of volumetric cultivators of different depths from 0.35 to 0.55 m and between them behind the knives under the dumps with a curved arc-shaped in the transverse plane to the direction of movement, and laying after preliminary grinding components and preparing the mixture, with its composition, about. %: 33 ... 50 plant residues and humus, 3 ... 10 montmorillonite with a molybdenum trace element, 15 ... 40 a mixture of silt, silt, sand, 0 ... 15 vitriol, 15 ... 37 clay, which provides favorable water, air and nutritional conditions for development root mass of plants.

Surveying a site with remote diagnostics of soil layers based on the results of lidar geographic location of the boundaries of solonetz, shrubbery, alternating the installation step and the operation of the electrodynamic pathogen allows us to reduce labor costs for pre-project surveys and perform targeted processing of degraded agricultural land at a subsequent stage of work.

The invention is illustrated by drawings, where in FIG. 1 - shows a diagram of preliminary unscheduled diagnostics in the survey and targeted combined cultivation of land, general view; in FIG. 2 - shows a diagram of the stages of processing strips with the formation of curved-arcuate surfaces of the bottom of volumetric loosening and sowing on sections of the soil layer with solonetz, a general view.

The proposed method from the start to sowing contains:

A preliminary soil agro-reclamation survey of section 6 (Fig. 1) with stubble or turf 1 (Fig. 2), soil 3 (Fig. 2) with a depth of H _{1, the} subsoil lens of the solonetz 4 (Fig. 1 and 2) with a depth of H ₂ , with subsolon soils 5 (Fig. 2), with the establishment of borders 30 (Fig. 1) of texture spots (images), with a comprehensive diagnosis of the state of soil using aerial photographs 7 (Fig. 1) and the results of bezroskopnogo echolocation sounding 8 (Fig. 1) with geographical binding 9 (Fig. 1), the development of programs for the PC, transferring them digitally to the control process sor combined unit 10 (FIGS. 1 and 2), the unit depth H ₃ in subsoil layer 5 (FIG. 2), below the horizon solonets _H2O water regulating organomineral screen 18 (FIG. 2) with impermeability during precipitation when accumulating the necessary the amount of water for rainfed cultivation of plants and discharging excess water exceeding the amount of free pores into the soil between the screens, to save below them in a layer of depth H ₄ , the device on the processed strip above the screen 18 (Fig. 2) in the soil layer of the wings 13 (Fig. 2) of a thin 0.02 ... 0.1 m layer 31 (Fig. 2) from a mixture of slurry, sand, silt and water, as well as below the bottom of the rocker 13 of the continuous layer 38 (Fig .2) liquid manure 0.02 ... 0.07 m above the loosened soil and subsoil boundary layers 39 (Fig. 2) in the cavity between the undercut soil layer and treated with the chemical reclamant 28 added to the separated lumps (Fig. 1), targeted application on the soil surface of ameliorant - loose lime, or phosphogypsum 11 (Fig. 1), in soil 3 (Fig. 2) with water-insoluble salts of feed 12 (Fig. 2) in oi 39 (Fig. 2) and backstage 13 (Fig. 2) ameliorant - iron sulfate, or spent electrolyte, a solution of sulfuric acid 28 (Fig. 1), when combining 14 (Fig. 2): "zero" machining of the bands volumetric subsoil loosening with dumps 25 (Fig. 2), grinding of soil aggregates, shrubbery with batteries of chopping saw blades (not shown in the diagram) in the wings 13 with separation into fractions; chemical treatment - with the distribution of mineral PNK fertilizers 26 (Fig. 1) in the under-cover horizon 15 in the wings 13 and on the surface 16 (Fig. 2) of the soil 3 between the wings 13; biological treatment - with the introduction of a solution with nitrogen-fixing associated microorganisms misorin 17 (Fig. 2) into the soil 3, sowing seed mixtures, creating a wings 13 with zero treatment 14 and alternating pairs of rows 19 (Fig. 2) above the water control screen 18 (Fig. 2) ) with the sowing of annual cover crops 27 (Fig. 2), and in the row-spacings on the treated wings 13 with the sowing of perennial legumes 20 (Fig. 2) and between the scenes with the sowing of halophytes 21 (Fig. 2) on the existing turf 1, and strips of turf 1 in the intervals Lcp (Fig. 2) between adjacent water regulation screens 18, with a width equal to 0.05 to 1.1 of the length of horizontal capillary moisture transfer, corn 22 is sown in pairs of rows 19 (Fig. 2) or halophytes 21 (for example, feather grass), and in the row spacing of rows of 19 I will reduce a docular or cohia broom 23 (Fig. 2), and also the method comprises laying the organic-mineral mixture in the screen 18 with inertial-pressure delivery through the cavities of parabolic racks of volumetric cultivators 24 (Fig. 2) and knives between them under the dumps 25 (Fig. 2), with the additional performance of preliminary grinding of the components of the mixture with a size of up to 4 ... 8 mm of the organic part, up to 1.5 ... 3.0 mm of mineral in its composition, vol. %: 33 ... 50 plant residues and humus, 3 ... 10 montmorillonite with molybdenum trace element, 15 ... 40 mixture of silt, silt, sand, 0 ... 15 iron sulfate, 15 ... 37 clay; strip cultivation of plants when sowing a mixture of seeds: legumes 20, previously passed inoculation with rhizotorfin, and cover cereals 22, 27 with misorin or flavobacterin with simultaneous application of loose mineral fertilizers 26, leveling 29 (Fig. 1) of the side of the wings 13 and soil compaction 3 with seed placement 21, 23 in the bands between the wings and on the surface of the complexly processed wings 13.

The method is as follows. In the reclaimed area 6 (Fig. 1), for example, in dry dry steppe lands with brown or chestnut soils 1 with cortical solonetzes, lenses of a nut-like, prismatic solonetz 4 (Fig. 1 and 2) and with the subsoil horizon of a blocky or columnar solonetz, they import: unmanned aerial vehicle 7 (Fig. 1), equipped with a laser scanning system with a transmitter and receiver - lidar 2 (Fig. 1.); sonar 8 (Fig. 1) with an electrodynamic exciter of oscillations 34 (Fig. 1), a geophone 35 (Fig. 1). An unmanned aerial vehicle 7 is launched into the air over section 6 and pre-design surveys are carried out using a geographic information system (GIS) and scan results using lidar 2. The obtained scan data, during land reclamation surveys, are entered into the GIS database and onto the magnetic medium of a personal computer (PC) with geographic reference 9 (Fig. 1) and determine the preliminary route 32 (Fig. 2.) and with a variable pitch of unscheduled sounding 36 (Fig. 1). When moving along the planned route 33, the correspondence of soil types is visually determined by the available site passport, the calculated spectral brightness coefficients of the soil moisture of the surface layer, and the boundaries of the actually observed soil complexes, fix the boundaries 30 (Fig. 1), specify the geophysical route 36 (Fig. 1 ) ground sonarless determination by the sonar of 4 indicators of the depth of the horizons of the soil, the bearing capacity of the soil. Install the electrodynamic vibration exciter 34 with a variable pitch L ₁ from 15.0 to 35.0 m in section 6, L ₂ from 0.5 to 3.5 m above 4 and set at a distance with a radius of R ₁ and r ₂ in section 6 , R ₃ and r ₄ from 0.25 to 1.0 m above 4 from the pathogen 34 of the seismic receiver 35, diagnose horizons with a depth of H ₁ , H ₂ , H ₃ , H ₄ , section 6 (Fig. 1.). According to the results of echolocation with decryption and transferring its results to a PC, they prepare a program for automatically turning on and off the working bodies from the control panel when coordinating the coordinates through a GPS GPS receiver, transfer the program to the PC of combined units 10 (Fig. 1 and 2). Start the engine of the technical means 10, deepen the working bodies, perform targeted processing 37 (Fig. 1) of soil and arrange at a depth of H ₃ in the subsoil layer 5 (Fig. 2), below the horizon of the solonetz H ₂ water-regulating organomineral screen 18 (Fig. 2) , arrange on the treated strip above the screen 18 (Fig. 2) in the soil layer of the wings 13 (Fig. 2) a thin 0.02 ... 0.1 m layer 31 (Fig. 2) from a mixture of liquid manure, sand, silt and water, and also below the bottom of the wings 13 a continuous layer 38 (Fig. 2) of liquid manure with a thickness of 0.02 ... 0.07 m above the loosened soil and subsoil boundary layers 39 (Fig. 2) in the cavity between the cut soil layer and processed with the introduction of chemical ameliorant 28 on the separated lumps (Fig. 1), ameliorant - loose lime or phosphogypsum 11 (Fig. 1) is targeted to the soil surface in soil 3 (Fig. 2) with water-insoluble salts serves 12 (Fig. 2) in layer 39 (Fig. 2) and backstage 13 (Fig. 2) ameliorant - iron sulfate, or spent electrolyte, sulfuric acid solution 28 (Fig. . 1), spend 14 (Fig. 2) “zero” machining of the strips, perform volumetric subsoiling loosening with dumps 25 (Fig. 2), grind the soil aggregates, shrubbery with batteries of chipper-saw blades (not shown) in the wings 13, distribute PNK mineral fertilizers 26 (FIG. 1) in the under-cover horizon 15 in the wings 13 and on the surface 16 (FIG. 2) of the soil 3 between the wings 13; make a solution with the nitrogen-fixing associated microorganism misorin 17 (Fig. 2) into the soil 3. Create scenes 13 with zero treatment 14 and alternating pairs of rows 19 (Fig. 2) above the water control screen 18 (Fig. 2) and sow the annual cover crops 27 ( Fig. 2), and perennial legumes 20 (Fig. 2) and between halves of halophytes 21 (Fig. 2) are sown in the row-spacings on the treated wings 13 (see Fig. 2), and on the turf strips 1 in the intervals Lcp (Fig. 2) between adjacent water control screens 18, with a width of 0.05 to 1.1 lengths of horizontal capillary moisture transfer and, in pairs of rows 19, corn 22 is sown (Fig. 2) or halophytes 21 (for example, feathery feather), and in the row-spacing of pairs of rows 19 I will reduce dougolistic or cohia broom 23 (Fig. 2). The organic-mineral mixture is placed in the screen 18 with inertial-pressure supply through the cavities of the parabolic racks of volumetric cultivators 24 (Fig. 2) and knives between them under the dumps 25 (Fig. 2) with a curved arc-shaped profile in the transverse plane to the direction of movement, additionally grinding components mixtures with sizes up to 4 ... 8 mm organic and up to 1.5 ... 3.0 mm of the mineral part, with its composition, vol. %: 33 ... 50 plant residues and humus, 3 ... 10 montmorillonite with molybdenum trace element, 15 ... 40 mixture of silt, silt, sand, 0 ... 15 iron sulfate, 15 ... 37 clay. Perform strip cultivation of plants and sowing a mixture of seeds of legumes 20 previously inoculated with rhizotorfin and cover crops 22, 27 with misorin or flavobacterin and at the same time make loose mineral fertilizers 26. Level 29 (Fig. 1) the surface of the wings 13 and the soil 3 is compacted with seed placement 21, 23.

Thus, the proposed method of biomelioration of brown and chestnut soils with solonetzes on degraded dryland-steppe lands allows reducing labor costs for pre-project surveys and performing targeted processing of degraded agricultural land at the subsequent stage of work with saving land reclamation materials, and improving the productivity of rainfed agricultural land while creating conditions for reducing soil salinization, regulation of the volume of water accumulated over e taps for consumption by the root system of plants, and provides a reduction in the time of reclamation work, accelerating the restoration of the effective functioning of meadows, arable land on rainfed lands.

Claims (3)

1. The method of biomelioration of brown and chestnut soils with solonetzes on degraded dryland steppe lands, characterized in that it includes surveys containing soil agro-reclamation surveys of the site, with a comprehensive unscheduled diagnosis by aerial photographs of a laser scanning system and geophysical route-based ground-based land-borne echolocation-free sounding and state-of-the-art echolocation sounding with indicators simultaneous input of the obtained data on a magnetic medium into the PC database, mapping of a site on a GIS, p preparation of a program for turning on and off the working bodies from the control panel and coordinate coordinates through the GPS code receiver of the combined unit with reference to geographic coordinates and transferring the results to the control processor of the combined unit that performs simultaneous processing simultaneously, as well as targeted reclamation application, while cutting the soil layer , at the same time loosen the soil and subsoil boundary layers and feed into this layer ameliorant - iron sulfate, or spent electrolyte t, a solution of sulfuric acid, and in the cavity between the cut and treated layers with the chemical reclamant added to the separated lumps, they form a 0.02-0.07 m layer of liquid manure, carry out volume subsoil loosening and at the same time form a strip waterproof in the bottom of the loosened subsalt layer the period of atmospheric precipitation and during drought, the water-regulating organomineral screen penetrated by plant roots with the laying of the organomineral mixture through the cavities of different depths from 0.35 to 0.55 m parabolic racks about volume of cultivators and between them under the dumps of the mixture with its composition, vol.%: plant residues and humus - 33-50, montmorillonite with microelement molybdenum - 3-10, a mixture of silt, silt, sand - 15-40, iron sulfate - 0- 15, clay - 15-37, and arrange the wings above the screen in the soil layer and grind the soil aggregates, shrubs and create in the soil layer of the wings 0.02-0.1 m layer of a mixture of liquid manure, sand, silt and water, targeted add ameliorant to the soil surface - loose lime, or phosphogypsum, while the water-regulating organomine Screen-sectoral stacked below solonets layer. 2. A method for the biomelioration of brown and chestnut soils with solonetzes on degraded dry-steppe lands according to claim 1, characterized in that it comprises conducting a route survey of the site with remote diagnostics of soil layers and alternating step L _{1 of} installation and operation of the electrodynamic pathogen of sonar oscillations from 15.0 up to 35.0 m, a L ₂ from 0.5 to 3.5 m and the installation of a seismic receiver from an exciter with a radius of R ₁ and r ₂ , R ₃ and r ₄ from 0.25 to 1.0 m. 3. The method of biomelioration of brown and chestnut soils with solonetzes on degraded dry dry-steppe lands according to claim 1, characterized in that it contains strip cultivation of plants, while on the wings, alternating cutting pairs of rows and sowing seeds of annual cover crops in them, and in the aisle perennial legumes are sown on the wings and halophytes are sown between the wings on the existing turf; moreover, on the turf strips in the intervals Lcp between adjacent water control screens, with a width of 0.05 to 1.1 lengths of horizontal capillary moisture transfer, corn or halophytes, for example, feathery feathers, are sown in pairs of rows, and sowing seeds of arches of dougolite or cochia venicum with the simultaneous introduction of loose phosphoric and potassium mineral fertilizers into the soil, a solution with nitrogen fixing microorganisms is sown in row rows of these pairs of rows sowing halophyte seeds.

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