RU2628500C2 - Method of biomelioration of degraded rainfed lands - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method includes the excavation-free diagnostics during the survey, the mapping of the site, the preparation of the programme for switching on and off the operating elements from the control panel and linking the coordinate system via the GPS receiver of the combined unit with the reference to the geographical coordinates, and transmitting the results to the control processor of the combined unit performing the simultaneous processing. Shrub growth, stems of herbaceous plants and soil aggregates are mechanically ground with separating into fractions, bulk subsoil loosening is carried out. The soil is chemically treated with distributing an ameliorant and mineral fertilizers, liquid manure and a solution with nitrogen-fixing micro-organisms are introduced in the soil, seed mixtures are additionally sown at strip cultivation of plants, seed mixtures of legumes and an integumentary grain crop are sown over the screen, and on the marker strip - seed mixtures of drought-tolerant halophytes, treated with growth stimulants. Bulk subsoil loosening is carried out with the formation of a curved surface of the loosened soil bottom for draining the products of chemical reactions with water from the soil to the strip with halophytes without being carried to rivers and water bodies. Screens waterproof during the period of atmospheric precipitation and permeable by the roots of plants during drought are formed, the organomineral mixture in the gas shell is supplied to the screens through the cavities of the racks of voluminous rippers under dumps, with its composition, vol. %: 35…50 - plant residues and humus, 3…10 - montmorillonite, 15…40 - marine mixed sediment type, 0…15 - iron vitriol, 15…37 - clay. Wherein the main treatment of strips with dump-free depth-adjustable cutting of the upper soil layer is carried out and simultaneously the underlying layer of soil and subsoil solonetz is treated. The chemical ameliorant is applied to disintegrated lumps, an interlayer of 0.03…0.08 m from liquid manure is formed in a cavity between the cut-up soil layer and that treated with introducing an ameliorant.

EFFECT: shortening the terms of reclamation works and favourable air and nutrient regime for the development of the root mass of plants and increasing their yields allows to reduce labour costs for pre-design studies, to obtain on rainfed lands desalinated soil with a moisture reserve while regulating the volumes of water accumulated above the screens and in the loosened ground, contributes to the implementation of works with directed treatment of hummocks, curtains of bushes, solonetz with savings of introduced ameliorants, prevents the development of wind erosion.

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Description

The present invention relates to the field of bio-reclamation of degraded agricultural land with the presence of complexes of solonetz or plant hummocks, spots with clumps of shrubbery and subsoil layers of highly saline soil, namely, for work on meadows and arable land, desalinization of the soil, sowing seeds, simultaneous pre-utilization crushed mixture of organic biomass. The proposed method, in particular, relates to the creation of targeted processing of degraded lands, carried out after preliminary unscheduled diagnostics when searching with the introduction of the obtained diagnostic values to the control processor of a combined unit that performs complex processing and sowing seed mixtures.

The essence of the problem lies in the fact that at present large areas (130 million hectares) of arable land, meadows and pastures have undergone 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 capillaries, conservation is required the surface layer of the soil to eliminate the possibility of wind and water erosion, processing of arable land and meadows with the introduction of liquid manure and an aqueous solution with nitrogen-fixing microorganisms into acidic or saline soil, cultivating edema of the subsurface layer of the soil and subsoil with the introduction of ameliorant, different depth loosening of the soil with the creation of an active screen that accumulates an excess of phosphorus and potassium fertilizers, regulates the amount of water above the screen for the development of the root mass of plants, which will increase the productivity of reclaimed dry 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 treating solonetzic soils (SU, patent of the invention No. 1496659, IPC AB 79/00, Bull. No. 28, 30. 07. 1989), including: the movement of supra-solonetz soil in 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.

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. This invention can be used when applied on soils of irrigated arable land with complexes of soda solonetzes, with their layer not exceeding the depth of plowing. The advantage of the method is the introduction of iron sulfate in the form of a solution into the MENOM urea-formaldehyde fertilizer and inlaid with phosphogypsum with the gradual transfer of iron sulfate from the MENOM structure to the depth of the loosened soil layer and its desalination. 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.

Known electrodynamic oscillator of a seismic exploration device (SU, patent of the invention No. 1130811, IPC G01V 1/02, G01V 1/147, Bull. No. 47, 12/23/1984), including: a stator and an anchor-drummer, a reverse unit with a relay and transistor keys, switching control units, control elements, and the stator is made in the form of bipolar electromagnets forming the channel, and the firing anchor is placed in the channel and equipped with a bar for alternating interaction with the control elements. In this case, the electrodynamic pathogen is connected to the output of the generator, the other output of which is connected to the registrar-decoder. The generator and recorder-decoder are powered by a power source. The receiver output is connected to the registrar-decoder. The strength of the magnetic field of each electromagnet is selected more than the gravity of the anchor-striker. The seismic exploration method comprises raising under the influence of the magnetic field of the anchor striker into the magnetic field of the conjugated electromagnet, and moving down the armature of the striker under the action of two forces - gravity and magnetic field. In addition, upon reaching the lowest position of the projectile anchor, a strike occurs on the ground, after which the strike anchor rises, with a predetermined time interval, single strikes are made on the ground and excite seismic waves. Reflected from some heterogeneity in the earth, seismic signals are received by the receiver, converting them into a sequence of electrical signals, which are input into a registrar-decoder, where the signal is processed and decoded. On the screen of the electronic beam indicator, a visual display of the signal is obtained, according to which a conclusion is made about the presence or absence of subsoil and subsoil heterogeneity. This invention can be used when applied on degraded lands at the stage of surveys for preliminary unscheduled diagnostics of soil conditions to a depth of 3.0 m. Research (Puninsky BC, “Improving the technology of stone cleaning with their preliminary diagnostics for land reclamation in the humid zone”, thesis on Candidate of Science degree, Candidate of Technical Sciences, Moscow: VNIIGiM, 2007, 202 s) it was established that the method with an electrodynamic exciter of oscillations allows one to determine the size of heterogeneities (stones) with an error of 4 , 5% and the depth of the location with an error of 5 ... 25%, as well as the boundaries of the transitions of soil types, soil types and groundwater standing level, in addition, according to the form of the visual display of the signal on the screen of the electronic beam indicator, decipher the type of soil in the layers between the transitions. The disadvantage of the method with the seismic exploration device is the high complexity (15.63 man-h / ha along the drain lines and 76.92 man-h / ha with continuous diagnostics), the need for manual frequency switching (10 ranges), filters (12 ranges), sweeps, tedious visual selection of the response on the signal image, the requirement to turn off the engines, transmissions of technical equipment, stop all movements in the area at the time of operation of the electrodynamic pathogen in the diagnosis of soil conditions.

A known method of applying the results of aerospace surveys supplemented by data from cartographic sources and field studies (Katyshev M.S. Forecast of channel deformations based on aerospace information and field studies. Materials and problems of the restoration of agriculture in Russia. Materials of the international scientific and practical conference March 20-21, 2013 of the year - M .: Publishing House of VNIIA, 2013.540 s), including: obtaining and decoding a satellite image with the allocation of the contours of objects (rivers, canals, reservoirs) and elements of formations (textures on agricultural land: complexes of solonetzes, salt marshes, shrubs; as well as structures, dams, bridges, roads) and local landmarks available on a topographic map and space image, as well as scanning a space image and the corresponding area on a topographic map with the result one scale and alignment with reference to geographical coordinates. In addition, the method contains an analysis of the dynamics of the contours of objects, the state of textures on agricultural land and proposals for inclusion in the project of land reclamation works. This method can be used to restore the reclamation system with degraded lands at the stage of pre-design surveys. The disadvantage of the method using satellite images when restoring the productivity of reclaimed land is the organizational difficulty of ordering work, the high cost of the image, the lack of specialized programs for decrypting textures and automating the input of information obtained when mapping agricultural land for reclamation work.

In addition, land reclamation methods for degraded land include soil agro-reclamation survey of the site with an assessment of the degree of soil and land degradation using 23 indicator and 7 additional indicators, according to which samples are excavated in the field and analyzes are carried out in stationary conditions to ensure establishment of volumes for the surveyed site introduction of ameliorants and fertilizers (Methodology for determining the extent of damage from soil and land degradation, approved by the Ministry of Natural Resources of Russia, Roskom land and agreed by the Ministry of Agriculture of Russia, the RAAS in July 1994, a letter from Roskomzem No. 3-14-2 / 1139 dated July 29, 1994), and for the selection of technical equipment reclamation is not enough indicator indicator - "filter coefficient", values are required of each area, boundaries, types of textures (spots), the total area of complexes of solonetzes, humps, shrubs, hardness in the layers of soil, their thickness and transition boundaries, the specific mass of soil in layers and the definition for choosing the method of reclamation treatment index ki "standing level of groundwater with any available site on mineralization" carrying capacity sod coating and surface soil plowing ensuring safe operation start timing.

The proposed shortcomings can be remedied by the proposed method of biomelioration of rainfed lands, including pre-project surveys using a geographic information system, the results of soil agro-reclamation surveys of the site obtained with the integrated use of a laser scanning system - lidar and the geophysical method of ground-based non-excavated determination of initial indicators of the state of degraded lands - sonar, introduction georeferenced magnetic data the choice of technical means (TS) that most fully meets the working conditions on the cultivated area and the available textures (complexes of solonetzic soils, bush clumps, steamed saucers and type of hummocks, the degree of salinization of the subsoil layers of the soil), digital transmission of programs to the combined processor control processor or a complex of ameliorative TS, providing: removal, crushing, separation and utilization of bumps, shrubbery, stems of degenerated herbaceous plants, turf with the addition of ameliorant to the soil; creation in the soil layer of a layer of 0.03 ... 0.08 m of liquid manure, which prevents the rise of water during its capillary transpiration with the removal of salts and provides desalinization of the soil; containing deep tier loosening with a bottom that diverts the products of chemical reactions into a strip with halophytes; the formation in the subsurface layer of the water control screen during atmospheric precipitation an impenetrable and accumulating the necessary amount of water for rainfed cultivation of plants and diverting the products of chemical reactions into the soil under the screen with excess water exceeding the free pore volume, according to the invention, the method is carried out with conducting route inspection of the site with remote diagnostics of soil layers according to the results of lidar geographic binding of texture boundaries with alternating mouth pitch Novki and operation of the electrodynamic exciter sonar oscillations between textures of 5.0 m to 25.0 m, and the textures of from 0.5 m to 2.0 m; the main processing of the strips with the subsurface cutting of the topsoil regulated at a depth of 0.05 m to 0.16 m, simultaneous treatment of the underlying soil and subsoil with a lower layer of soil, adding chemical ameliorant to the separated lumps, laying the organic-mineral mixture in a gas shell with feeding through cavities of different depths from 0.5 m to 0.85 m of parabolic racks of volumetric cultivators and knives between them under the heaps with the additional performance of preliminary grinding of the mixture with its composition, vol. %: 35 ... 50 plant residues and humus, 3 ... 10 montmorillonite, 15 ... 40 marine mixed type of deposits, 0 ... 15 iron sulfate, 15 ... 37 clay, as well as the implementation of the creation of two deep cracks in saline soil for the lighthouse to be located between them strips and the formation of a conjugated main strip with a width multiple of the capture of the implement or aggregate, during strip cultivation of plants, when processing strips with simultaneous: introduction of a solution with nitrogen-fixing microorganisms; loose phosphoric and potassium mineral fertilizers, or granules of urea-formaldehyde fertilizer "MENOM" inlaid with phosphogypsum; sowing on the treated strip above the screen a mixture of leguminous grass seeds and cover crops, and on the lighthouse strip of drought-resistant halophytes seeds (for example, amaranth, licorice, bluegrass, barley) treated with growth stimulants.

The analysis of patent and technical documentation did not reveal a similar implementation of the method of biomelioration of degraded rainfed lands, showed that the invention is new, does not follow explicitly from the prior art.

The aim of the invention - the method is to accelerate the restoration of the effective functioning of degraded fallow meadows, arable land with salt licks, or with hummocks, clumps of shrubbery, obtaining deoxidized, saline soil on reclaimed rainfed lands with a supply of moisture and nutrients that increase the yield of cultivated plants and obstructing wind erosion.

The technical result of the invention is the reduction of the terms of biomelioration of degraded lands with acidic soil and the presence of spots of solonetzic soil, complexes of solonetz and subsoil lenses of solonetz, or with hummocks, clumps of shrubbery, an increase and preservation of moisture reserves with a change in the ratio of solid, liquid, gaseous phases of the soil saturation with nitrogen-fixing microorganisms that improve the development of the seeded mixture of herbs, integumentary grains and halophytes, which ensures an increase in agricultural productivity cultivated 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 deoxidation or desalinization of the soil is achieved by conducting pre-project surveys using a geographic information system, the results of soil agro-reclamation surveys of the site obtained by the integrated use of a laser scanning system - lidar and geophysical route-ground method unscheduled determination of initial indicators of the state of degraded lands - a sonar with simultaneous introducing the obtained data on a magnetic carrier with geographic reference, accelerating the research, according to the results of which a computer selection of technical means (TS) is carried out that most fully meets the working conditions on the processed area and the available textures, preparation and digital transmission of programs to the control processor of the combined unit, or a complex of ameliorative TS, allows you to address the introduction of ameliorant, while combining the types of complex treatments of the soil, I provide them: grinding machining stems herbaceous plants and soil aggregates with separation into fractions cutting bush seedlings on the soil surface of subsurface volume loosening or stacking water regulating organomineral screen; chemical treatment - distribution of ameliorant and mineral fertilizers; biological treatment - introducing liquid manure, a solution with nitrogen-fixing microorganisms into the soil, sowing seed mixtures, as well as changing the ratio of solid, liquid, gaseous phases of the soil and subsoil loosened soil that increases and maintains moisture reserves, nutrients with horizontal capillary moisture transfer and reduction of removal salts in the soil layer as a result of creating a layer of 0.03 ... 0.08 m from liquid manure; formation in the subsoil layer of the water control screen during atmospheric precipitation an impenetrable and accumulating the necessary amount of water for rainfed cultivation of plants and diverting the products of chemical reactions with excess water exceeding the free pore volume into the soil under the screen above the layer with deep tier loosening, diverting chemical products along the bottom reactions in the lighthouse strip with halophytes, which ensures an increase in the productivity of agricultural land.

In addition, the use in the proposed method of the main processing of strips with a non-moldable depth-cutting cutting of the upper soil layer allows simultaneous processing of a lower soil layer and subsoil with the introduction of a chemical ameliorant onto the separated lumps, laying the organic-mineral mixture in a gas shell and feeding through cavities of different depths from 0.5 m to 0.85 m of parabolic racks of volumetric cultivators and knives between them under the dumps with the additional performance of preliminary grinding the mixture with its composition, vol. %: 35 ... 50 plant residues and humus, 3 ... 10 montmorillonite, 15 ... 40 marine mixed type of deposits, 0 ... 15 iron sulfate, 15 ... 37 clay, as well as the implementation of the creation of two deep cracks in saline soil for the lighthouse to be located between them strips and the formation of a conjugated main strip with a width multiple of the capture of the implement or aggregate during strip cultivation of plants, when processing strips with simultaneous: introduction of a solution with nitrogen-fixing microorganisms; loose phosphoric and potassium mineral fertilizers, or granules of urea-formaldehyde fertilizer "MENOM" inlaid with phosphogypsum; sowing on the treated strip above the screen a mixture of legume grass seeds and cover crops, and on the lighthouse strip of seeds of drought-resistant halophytes treated with growth stimulants, which ensures the production of deoxidized or saline soil with reclaimed moisture on the reclaimed lands, and a favorable air, nutrient regime for development the root mass of plants, increasing their productivity and prevents wind erosion. Route inspection of a site with remote diagnostics of soil layers according to the results of lidar geographic location of texture boundaries with alternating installation steps and the operation of the electrodynamic pathogen of sonar vibrations between textures from 5.0 m to 25.0 m, and above textures from 0.5 m to 2, 0 m. Allows you to reduce labor costs for pre-design 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 is a diagram of the alternation of the installation step of the electrodynamic oscillator, general view; in FIG. 3 is a cross-sectional diagram of the soil of the main cultivated and lighthouse strips, general view.

The proposed method from the start to sowing contains:

Unscheduled diagnostics during the survey, including pre-project surveys using the geographic information system (GIS), the results of soil agro-reclamation surveys of the site obtained with the integrated use of the laser scanning system - lidar 1 (Fig. 1.), transmission and input of the received data to the GIS database on the PC on a magnetic carrier of a lidar with geographic reference and creating a route with a variable pitch of unscheduled sounding 2 (Fig. 1.), movement along the intended route with a visual definition of the effects of soil types, their acidity according to the site passport and actually observed soils with characteristic plants for acidic, alkaline, soda and neutral soils, with the installation of milestones or colored foam marks of texture boundaries 3 (Fig. 1.) and geophysical route ground-free definition-free initial indicators the state of degraded lands - sonar 4 (Fig. 1.) with the installation of an electrodynamic oscillation pathogen 14 (Fig. 2.) with a variable pitch L ₁ on the plot, L ₂ over the identified textures and installation of the geophone 15 (Fig. 2.) from the pathogen 14 with a radius of R ₁ and r ₂ on the plot, R ₃ and r ₄ , above the textures, connecting and adjusting the elements and blocks of the sonar 4 at the sensing position 5 (Fig. 1.), diagnostics of inhomogeneities 6 (Fig. 1.) with switching frequencies, sweeps, and manually rearranging the seismic receiver 15 near the vibration exciter 14 with transferring data to a PC, moving sonar 4 to the next position with echolocation, deciphering and transferring its results to a PC, selecting hardware with determining the brand of vehicle for treatment of soil with identified pok texture markers 7 (Fig. 1.), inputting the received data into the PC database, into a GIS map, plotting the plot with the input of the obtained diagnostic values and preparing the program with reference to the geographical coordinates for combined units 8 (Fig. 1.), transmitting to PC program to automatically turn on and off the working bodies from the control panel and a bunch of coordinates through the GPS code receiver of the combined unit 9 (Fig. 1.). The method includes a combined mechanical, chemical and biological treatment of degraded land 10 (Fig. 1.), including on soils: - with soda salinization, solonetz complexes with lenses of a nutty, cobbed solonetz soil treatment, for example, with a combined soil cultivating tool for meadows and pastures ( Patent of the invention RU No. 2553638, BIPM No. 17 dated 06/20/2015), including grinding of the sod-soil layer, deep loosening of the subsoil layer with the simultaneous disposal of socks, shrubs of shrubs in a single pass with fraction separation spraying a thin water screen and applying powdered or dusty ameliorant, fertilizers, sowing mixtures of grass mixtures, cover grains, closing cracks and rolling soil into the loosened soil, or in the absence of hummocks and shrubs with a combined biomelioration unit for degraded soils with desalination and sowing seeds, including seed mechanical grinding of soil aggregates and solonetz, volumetric subsoil loosening with the creation of a water control screen from an organomineral mixture with achey sheath gas through the cavity volume racks ripper blades at its under part, vol. %: 35 ... 50 plant residues and humus, 3 ... 10 montmorillonite, 15 ... 40 marine mixed deposits, 0 ... 15 iron sulfate, 15 ... 37 clay; chemical treatment with the distribution of ameliorants: bulk, for example, phosphogypsum with an inertial feed to the soil surface, the introduction of pulverized or liquid (spent electrolyte, sulfuric acid solution) with a pressure feed into loosened soil and subsoil boundary layers with solonetz, while feeding fertilizers with loose potash or granules "MENOM" in the soil; biological treatment with the introduction of liquid manure, previously aerobic digestion, a solution of nitrogen-fixing microorganisms in the soil, sowing seed mixtures 11 (Fig. 1.); - in case of subsoil salinization with water-insoluble salts and acidic and (or) neutral soil with solonetzic complexes, columnar solonetz and lenses of prismatic solonetz, processing, for example, with a combined unit of longline processing of saline lands with seed sowing, including simultaneous sequential performance of: mechanical processing - grinding of soil aggregates with separation into fractions, directed laying and flattening of stems of herbaceous plants, cutting shrubbery, strip grinding of turf deep surround longline loosening the subsoil layers with the creation of the curved bottom surface to remove loosened soil from the soil and removing the chemical reaction products without the removal of the rivers and reservoirs; chemical treatment - distribution of ameliorants: loose with inertial supply to the soil surface, dusty or liquid with pressure feed into the solonetz; biological treatment - the introduction of liquid manure in sections treated with disks, a solution with nitrogen-fixing microorganisms in the soil, sowing of seed mixtures with separate strip sowing of halophytes and legumes, or in the absence of prismatic solonetz, the presence of hummocks and shrubs, saucers with waterlogged peat bogs processing, for example, multifunctional kochkorezom, including the consistent implementation of the radical improvement of meadows with cutting a gap, grinding and simultaneous utilization of spuds, cusco into the turf and bumps into the cultivated soil layer and to the bottom of a deep 0.8-1.5 m gap, applying fertilizer to the loosened soil and into the stream of fine-crumpled plant-soil mass of powdery or dust-like ameliorant, deep 0.5-0.85 m loosening subsoil layer, sowing seeds on the surface of the treated soil and rolling the soil with seeding and (or) processing, for example, with a cutter (Patent of the invention RU No. 2567516, BIPM No. 31 of 10.11.2015) in the absence of the need for ameliorant, elimination of excess water and replanting seed, bumps and shrubs , Saucers to moor comprising stepwise cutting bumps, bushes and milling with recycling in subsurface layer 12 (FIG. one.);

- when salinizing with water-soluble salts from the surface and a neutral pH of the soil with solonetzic complexes, cortical solonetz and lenses of a prismatic solonetz, processing, for example, with a machine for the integrated processing of solonetzic soils (Utility Model Patent RU No. 156195, BIPM No. 31 of 10.11.2015), including the application of ameliorant to the loosened soil, crushing the turf, cutting of the bumps, cutting, chopping of shrubs, stems of herbaceous plants with the incorporation of wood chips, pieces of turf and bumps to the bottom under the treated soil layer, and above the treated mass of water a screen that prevents erosion-hazardous particles of soil from being brought to the surface, accelerating the penetration of the ameliorant into the solonetz layer, loosening with applying liquid manure or a solution of organic fertilizers to the subsoil layer, sowing grass mixture seeds, saping of solonetz lenses with a deep ripper, or in the absence of hummocks and shrubs, hidden average and large stones, saucers with waterlogged peat bog and swamp soil treatment, for example, with a combined reclamation tool (Utility Model Patent RU No. 108901, BIPM No. 28 of 10 .10.2011), including loosening the soil, applying dry ameliorant - gypsum, lime and (or) fertilizers - calcium nitrate to the loosened soil, releasing a stream of water into the area of cultivators-worms that prevents dusting of the ameliorant and accelerating deoxidation or desalinization of the soil, water supply to the soil ammonia solution, and in the slot behind the filter deep-ripper with the formation of a water-conducting collector, if necessary, additionally contains the sowing of the mixtures of grass mixtures 13 (Fig. one).

The method is as follows. In the reclaimed area 16 (Fig. 2.), for example, on the soils 27 (Fig. 3), under unmanned aerial vehicle 18, the unmanned aerial vehicle 18 is brought in with soda salinization with solonetz complexes, columnar solonetz, lenses of a nutty, clumpy solonetz 17 (Fig. 2.) Fig. 2.), equipped with a laser scanning system with a transmitter - lidar 1 (Fig. 1.) and sonar 4 (Fig. 1.) with an electrodynamic vibration exciter 14 (Fig. 2.), a geophone 15 (Fig. 2.) . An unmanned aerial vehicle 18 is launched into the air over section 16 and pre-design surveys are performed using the geographic information system (GIS), the scan results obtained by lidar 1. 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 a geographic reference 19 (Fig. 2.) and determine the preliminary route 20 (Fig. 2.) with a variable pitch of unscheduled sounding 2 (Fig. 1.). When moving along the planned route 20, the correspondence of soil types 27 is visually determined according to the available passport of section 16, calculated according to the dependences of the spectral brightness coefficients of soils (Vinogradova N.V. “Development of methods for assessing the state of drainage systems by aerial photographs using spectral characteristics of soils”, dissertation academic degree, Candidate of Technical Sciences, Moscow: VNIIGiM, 1995, 244 c) humidity 21 (Fig. 2.) of the surface layer, and actually observed soils 27, their humidity 21, fix the boundaries 22 (Fig. 2.) of textures 3 (Fig. 1.) the installation of landmarks, or marks with foam, specify the geophysical route 23 (Fig. 2.) of a sonar’s ground-free determination by the sonar of 4 indicators of the state of degraded lands, taking into account humidity 21 and the soil bearing capacity depending on it. The installation of the electrodynamic oscillation pathogen 14 is performed with a variable pitch L ₁ in the section 16, L ₂ above the identified textures 3 and the installation of the geophone 15 from the vibration exciter 14 is carried out with a radius R ₁ and r ₂ in the section 16, R ₃ and r _4; above the textures 3, connect and configure the elements and blocks of the sonar 4 at the sensing position 5, diagnose heterogeneities 6 (Fig. 1.). According to the results of echolocation with decryption and transferring its results to a PC, a selection of technical means 7 is carried out (Fig. 1.) and the TS brands are determined for processing soil with identified texture parameters 3, the received data are entered into the PC database, the site is mapped onto the GIS using the received diagnostic values and perform the preparation of program 8 (Fig. 1.) with reference to the geographic coordinates 19 (Fig. 2.), a program for automatically turning on and off the working bodies from the control panel when coordinating coordinates via GPS coded receiver IR 9 (Fig. 1.) transmit to the PC combined units 24 (Fig. 2.). Start the engine of the selected technical equipment 24 with a program 9 for automatically turning on and off the working bodies for processing soil, deepen the working bodies, perform targeted tillage 27, soil 28 (Fig. 3) and at the same time mechanically grind the boundary layers 29 (Fig. 3) soil aggregates 27 and solonetz 17, loosen 30 (Fig. 3) the subsoil layer 28 and form a wavy bottom 38 (Fig. 3) in the plane transverse to the direction of movement 11, simultaneously carry out night shavings into the subcover layer of soil 27 25 (Fig. 2.), wood chips of the shrub 26 (Fig. 2.) in one pass with fraction separation and longline laying, carry out volumetric subsurface loosening 30 and create two symmetrical mating screens 31 (Fig. 3) with an arched surface and an excess of level mates above the edges, for example, with a volumetric deep-ripper with dumps in the form of a wedge directed along the direction of movement and in a plane at an angle to the horizontal, form water-resistant screens that are permeable to the roots of plants during drought and are water-resistant during the drought, 31 ganomineralnuyu gas mixture in the shell through the cavity midwater 0,5-0,85 m parabolic struts volume under ryhlitelej blades (not shown) at its composition, vol. %: 35 ... 50 plant residues and humus, 3 ... 10 montmorillonite, 15 ... 40 marine mixed type of deposits, 0 ... 15 iron sulfate, 15 ... 37 clay, perform chemical processing with the distribution of ameliorants and inertially feed that soil surface: loose, for example , phosphogypsum, feed pulverized or liquid (spent electrolyte, sulfuric acid solution) into loosened 30 soil 27 and subsoil 28 boundary layers 29 with solonetz 17, at the same time pour loose potash fertilizers or MENO granules into soil 27, apply layer 0, 03 ... 0.08 m liquid of manure 32 (Fig. 3), previously aerobic digestion, preventing the capillary rise of moisture with the removal of salts to the surface, a solution with nitrogen-fixing microorganisms (not shown) is fed into the soil 27, two slots 33 (Fig. 3) with a depth of 1 are created , 2-1.8 m in the lighthouse strip L _mp and form the conjugate main processing strip L _op with a width multiple of the seeding implement or combination unit 24, and slots 33 without shorting the upper part form at a depth below the bed of solonetz 17 and seed mixtures are sown when by elk cultivation of plants. On the processed strip L _op above the screen 31, interlayers 32 of liquid manure are created, binary sowing of a mixture of leguminous grass seeds 34 (Fig. 3) and ordinary sowing of a cover high-growing grain crop 35 (Fig. 3) are carried out while 27 loose phosphoric and potassium mineral fertilizers, or granules of urea-formaldehyde fertilizer MENOM inlaid with phosphogypsum, a solution with nitrogen-fixing microorganisms, and the ordinary sowing of seeds of highly stalk drought-resistant halophytes, for example, amaranth 36 (Fig. 3), and binary sowing between rows of bushy 37 (Fig. 3) halophytes in the lighthouse L _MP band is carried out without creating a layer 32 of liquid manure, post-sowing treatment is carried out, including seeding, leveling, and soil 11 is rolled (Fig. 1.).

Thus, the proposed method of biomelioration of degraded rainfed lands allows reducing labor costs for pre-project surveys and performing targeted processing of degraded agricultural land at a subsequent stage of work with saving introduced ameliorants, performing work to increase the productivity of rainfed agricultural lands while creating conditions for reducing soil salinization, and regulating volumes of soil water accumulated above the screens for consumption by the root system of the plant And provides a shortening of reclamation work, to hasten the recovery of effective functioning of grassland, arable land on dry land.

Claims (4)

1. The method of biomelioration of degraded rainfed lands, characterized by the fact that they carry out pre-design surveys containing soil agro-reclamation surveys of the site, with a comprehensive diagnosis of aerial photographs using a laser scanning system - lidar and geophysical route ground-based sonarless sounding of state indicators of degraded lands - sonar with simultaneous input of the obtained data georeferenced magnetic carrier and input into geographic information system In this case, they make a computer selection of technical tools for processing with textures, prepare and digitally transfer programs to the control processor of the combined unit, and also make targeted reclamation of textures while combining complex soil treatments that provide mechanical processing, including grinding stems of herbaceous plants and soil aggregates with separation into fractions, cutting shrubbery on the soil surface, volumetric subsoil loosening with the formation of a loosened soil bottom with a curved surface for draining from the soil into a halophyte strip and removing chemical reaction products without being carried into rivers and ponds, or a water-regulating organomineral screen during atmospheric precipitation and permeable by plant roots during a drought with laying of an organomineral mixture in a gas the casing with the supply through the cavities of different depths from 0.5 to 0.85 m of parabolic racks of volumetric cultivators and between them under the dumps of the mixture with its composition, vol.%: 35-50 vegetable residues and humus, 3-10 montmorillonite, 15-40 marine mixed type of deposits, 0-15 iron sulfate, 15-37 clay, chemical treatment, including distribution of ameliorant and mineral fertilizers and biological treatment, including the application of soil into the soil layer, layer 0 , 03 ... 0.08 m of liquid manure, a solution with nitrogen-fixing microorganisms, sowing seed mixtures, and the main processing of the strips is carried out with the baseless depth-cutting cutting of the top soil layer and simultaneous processing of the soil layer and the subsoil solonetz lying below with the introduction of a chemical ameliorant onto the separated lumps, form a layer of liquid manure in the cavity between the cropped soil layer and formed with the introduction of the ameliorant, while the water control screen is laid below the solonetz layer in the form of two symmetrical mates with a curved surface and the level of conjugations exceeds the level edges. 2. The method of biomelioration of degraded rainfed lands according to claim 1, characterized in that a route survey of the site is carried out with remote diagnostics of the soil layers and the alternation of step L _{1 of the} installation and operation of the electrodynamic pathogen of sonar oscillations between textures from 5.0 to 25.0 m, a L ₂ above the textures from 0.5 to 2.0 m, and the installation of the seismic receiver from the pathogen with a radius of R ₁ and r ₂ in the area, R ₃ and r ₄ , above the textures. 3. The method of biomelioration of degraded rainfed lands according to claim 1, characterized in that in the saline soil create two slots with a cavity at the bottom for the location of the lighthouse strip between them and the formation of the conjugate main strip with a width that is a multiple of the seeding implement or combined unit, cracks without shorting the upper part form at a depth below the bed of the solonetz. 4. The method of biomelioration of degraded rainfed lands according to claim 1, characterized in that when strip cultivation of plants on the cultivated strip above the screen create interlayers of liquid manure, sowing a mixture of legume grass seeds and cover grain crops while adding loose phosphoric and potassium mineral to the soil fertilizers, or granules of urea-formaldehyde fertilizer MENOM, inlaid with phosphogypsum, a solution with nitrogen-fixing microorganisms, and sowing seeds of drought-resistant halophytes on ma the egg strip is carried out without creating a layer of liquid manure.

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