RU2646636C2 - Method of combined treatment of saline complexes of rain-fed lands - Google Patents

Abstract

FIELD: land reclamation.

SUBSTANCE: invention relates to amelioration of rain-fed agricultural lands. Method of combined treatment of saline complexes of rain-fed lands, which includes pre-project investigations with preliminary soil reclamation survey of the site, the formation of bands with crushed soil, alternating with stripes of the ends, creation of fertilizer layers in the bands of crushed soil, three curvilinear subsoil surfaces of the bottom of loosened soil for tapping and removing water with products of chemical reactions into bands with halophytes, combination of complex diagnostics of soil conditions on aerial photographs and results of scant soundless echolocation with simultaneous introduction of the received data onto the magnetic medium of a personal computer with geo-referencing, preparation and transmission in digital form of programs to the control processor of the combined unit and the subsequent application of the meliorant to the surface of the soil (loose lime or phosphogypsum) and in soil layers with water-insoluble salts (pulverized – iron sulfate or liquid – waste electrolyte, sulfuric acid solution), and provides for the combination of complex soil treatment with a strip mechanical grinding of the stems of herbaceous plants, turf, soil aggregates with separation into fractions and with the formation of cracks in the strips of turf or stubble headlands with simultaneous voluminous soil and subsoil loosening, in this case, a layer of organomineral biological active fertilizer mixture (OMBAUS) is laid in the thickness of 0.03–0.09 m in soil tracts treated with disks with chipping and knife blades with preliminary crushing of its components with a size of up to 4–8 mm of the organic component, up to 1.5–3.0 mm of the mineral component of the mixture with its composition, vol. %: 35–50 plant residues with nitrogen-fixing associated bacteria – mizorin, humus and additionally (if available in the region) peat, carbonate sapropel with inclusion of H₂O₂, 3–10 powdered montmorillonite with a microelement of molybdenum, 15–40 marine mixed type of sediments, 0–15 iron vitriol, 10–37 clay and NPK mineral fertilizers, and between the shredded discs in strips of soil with turf or stubble, slits are cut with feeding meliorants behind the racks of longline rippers, and behind the disc coulters of the pneumatic seeder is introduced an aqueous solution of ammonia or liquid manure, which has passed accelerated aerobic digestion, strip sowing and leveling of sowing grooves are carried out, and seeding of seeds introduced on the soil surface is carried out.

EFFECT: method allows to shorten the time for reclamation of meadows and arable lands of dry lands with the presence of spots of alkaline soil, saline complexes and subsoil lenses of saline lens, increases productivity of agricultural lands with dense cultivation of plants with simultaneous desalinization of soils.

3 cl, 2 dwg

Description

The present invention relates to the reclamation of agricultural land with the presence of complexes of solonetz and subsoil lenses of solonetz up to a depth of 0.85 m

The essence of the problem lies in the fact that in order to restore the functioning of meadows and arable land on fallow and rainfed lands, along with preventing the transfer of salts to the soil surface during capillary transpiration, maximum preservation of the surface soil layer is required to eliminate the possibility of wind and water erosion, layer treatment soil and subsoil with the addition of ameliorant, different depth loosening of soil with the creation below the layer of solonetz lens in the transverse plane to the direction of movement the frosted bottom surface of loosened soil for the removal of water from the soil into the strip with halophytes of chemical reaction products without being carried into rivers and reservoirs.

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 solonetzic layer by loosening cutting legs, pneumatic transportation ameliorant into 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 layer in the sublap zone to a finely dispersed structure and thoroughly dusting them with ameliorant in the air stream, mainly in the suspended state of soil particles discarded 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.

There is a method of complex reclamation of solonetzic soils under irrigation conditions (RU, patent of the invention No. 2317667, IPC AB 79/02, publ. 02.22.2008, BPMI No. 6), including soil agro-reclamation inspection of the site, sowing winter crops, grain harvesting at the same time grinding straw and spreading it over the field, surface application of liquid manure and ameliorant - phosphogypsum, with cultivation into the soil to a depth of 28-30 cm by sowing, sowing and cultivation of Sudanese grass as a phytomeliorant, and the amount of chopped straw with It 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 complete 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 the replacement 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 reclamation of solonetzic soils (RU, patent of the invention No. 2267891, АВВ 79/00, publ. 01/20/2006, BIPM No. 02), including mechanical tillage, when cutting the formation with a section in the form of a segment from the genetic upper fertile, solonetz and salt horizons, forming a grooved ditch, the layer is lifted above the ditch and crumbled, dusty, erosion-hazardous and agronomically valuable fractions are separated with vigorous stirring at the bottom of the ditch, and large soil aggregates with a diameter of 10 ... 30 cm are transported to the side and laid on overhnost mixture of the fine fraction topsoil, and salt solonets horizons laid on the bottom of the trough ditches formed at the previous pass. The disadvantage of this method is to increase the complexity by separating fractions of the soil and moving large fractions to the adjacent strip, and the method has a limited scope, since the efficiency of crumbling and separation depends on soil moisture and is significantly reduced in the presence of turf.

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 raising and loosening the humus layer, introducing ameliorant into the solonetzic soil layer while mixing them with each other , 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 While leveling the surface soil layer of humus produced when moving the clamps in the treatment zone after chemical substitution reactions in lower layers of soil. 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 comprehensive reclamation of irrigated solonetzic lands (RU, Pat. Invention No. 2557715, IPC АВВ 79/02, publ. 07/27/2015, BPMI No. 21), including deep loosening of the soil, irrigation with increased irrigation rate, introduction of urea-formaldehyde fertilizer into the upper soil layer saturated with a solution of iron 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 lack of land reclamation survey of the site, the inability to use in rainfed meadows and arable land with solonetzic complexes, and on irrigated lands with a layer of soda solonetz more than 0.8 m thick and without an underlying gypsum layer, in addition, increased water consumption for washing products of chemical reactions to the bottom of the arable layer of the soil, which increases the amount of water-soluble salts with the possibility of their entry onto the soil surface with capillary rise of water.

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 inspection of the site and the preparation of the project for reclamation, chemical reclamation and its surface filling by peeling or milling with simultaneous cutting sod or stubble, and the main tillage combined with plowing with a three-tier plow, when each hull is deepened in accordance with the reclamation project, and after reclamation, vnivaniya surface fields and one-fallow land reclaimed 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.

Closest to the proposed is a method of processing solonetzic soils (SU, patent of the invention No. 1496659, IPC AB 79/00, publ. 07/30/1989, BIPM No. 28), 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 solonetzic spots during the main tillage under the control of a device that determines the size and type of solonetzic spot. 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 distributed with a layer thickness of more than 1.0 m. In addition, the movement of soil into the dump during mechanical treatment leads to the destruction of stubble or turf, causes the development of processes of wind erosion of the soil, and the mixing of the solonetzic layer with the underlying saline soil without introducing chemical chalk Oranta will increase the degradation of agricultural land.

The proposed method allows to eliminate these drawbacks by combining pre-project surveys containing soil agro-reclamation surveys of the site, with a comprehensive diagnosis of the state of soil using aerial photographs and the results of unscheduled echolocation sounding with the simultaneous introduction of the obtained data onto the magnetic medium of a personal computer with geographic location, performing processing of the site with solonetz preparation and digitalization of programs for managing processor of the combined unit and subsequent targeted introduction of ameliorant onto the soil surface (loose lime or phosphogypsum) and into the soil layers with water-insoluble salts (dust-like - iron sulfate or liquid - spent electrolyte, sulfuric acid solution), when combining complex soil treatments with strip mechanical stems of herbaceous plants, sod and soil aggregates with separation into fractions, with simultaneous volumetric soil and subsoil loosening, performed with formed we have three curved surfaces of the bottom of the loosened soil for removal and removal, without removal into rivers and reservoirs, of water with chemical reaction products from the strips of plant-mineral mass, the entirety of the soil and the underlying layers of solonetz, adjacent soil into strips with halophytes, according to the invention, the method comprises the creation in the sections of soil treated with disks with chipping and beating knives, a thin 0.03 ... 0.09 m layer of organic mineral biologically active fertilizer mixture (OMBAUS), preventing the rise of water when it capillary transpiration with the removal of salts and providing desalination of the overlying soil with carbon dioxide gases during the decomposition of the introduced organic part of the mixture, in addition, OMBAUS components are pre-crushed with a size of up to 4 ... 8 mm of the organic component, up to 1.5 ... 3.0 mm of the mineral mixture with its composition about %: 35 ... 50 plant residues with nitrogen-fixing associated bacteria - misorin, humus and additionally (if present in the region) peat, carbonate sapropel with H ₂ O ₂ , 3 ... 10 inclusion, powdered montmorillonite with microelement molybdenum, 15 ... 40 marine mixed deposits , 0 ... 15 iron sulfate, 10 ... 37 clay and NPK mineral fertilizers, and between the crushed disks strips in the pillars of the soil with turf or stubble, crevices are created behind the racks of long-level volumetric cultivators with the supply of ameliorants, while behind the disc coulters Mon an aqueous solution of ammonia or liquid manure that has undergone accelerated aerobic digestion is introduced in the center of the seeder; it is carried out in the center along the longitudinal axis of the sowing of a mixture of legumes and cover cereal crops, previously inoculated with rhizotorfin (strain 340A) and mizorin (strain 7) or flavobacterin, respectively treatment of sowing salt-tolerant plants upon inoculation with rhizotorfin (strain 425A) and cereals with mizorin, as well as the introduction of a solution of growth stimulants, such as lentechnine, humate peat oxidate, Azolen-Zh and and melafen, performed posleposevnoe compacting. In addition, chemical ameliorant is introduced with inertial-pressure delivery through the cavities of different depths of parabolic racks of volumetric cultivators and between them behind the knives under the dumps, while the cultivators are in pillars between 0.08 to 0.12 m and from 0.16 up to 0.25 m strips treated with disks with chopping knives at the ends, and the slots that are not closed after making the meliorant behind the racks of the rippers are located on the outside of the extreme treated strips, on the longitudinal axis of the unit in the whole between the processed voices create a gap behind the middle rack of the ripper.

The analysis of the patent and technical documentation did not reveal a similar method along the paths of execution, showed that the invention is new, does not follow explicitly from the prior art.

The aim of the invention is the method is to accelerate the restoration of the effective functioning of meadows and arable land on fallow and rainfed lands with salt licks, to prevent the transfer of salts to the soil surface during the transpiration of water through capillaries, to obtain saline soil on reclaimed rainfed lands with a supply of moisture and nutrients that increase yield cultivated plants and obstructing wind erosion.

The technical result of the invention is to reduce the terms of land reclamation of meadows and arable land in rainfed 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 the soil, as well as saturation of it with nitrogen-fixing microorganisms that improve the development of the seeded mixture of legumes (alfalfa , clover, sweet clover), halophytes (amaranth, licorice, bluegrass, veronica longifolia) and integumentary herbs, grains (rye, corn, barley), which provides increased productivity elskohozyaystvennyh land with rainfed cultivation of the plants, while soil desalinization.

A new technical result from the application of the present invention is achieved in that by combining pre-project surveys containing soil agro-reclamation surveys of the site, with a comprehensive unscheduled diagnostics of the state of soil with the simultaneous introduction of the obtained data onto the magnetic medium of a personal computer with geographical reference, the preparation and digital transmission of programs on the control processor of the combined unit creates the possibility of subsequent address meliorant objection to the soil surface, in layers of soil-ground with water-insoluble salts and conserves soil improver, shortening reclamation of rainfed land with saline soils. The combination of complex treatments of the soil with strip mechanical grinding of the stems of herbaceous plants, turf and soil aggregates with separation into fractions, with the formation of cracks in the strips of the whole turf or stubble with simultaneous volumetric soil and subsoil loosening, performed with the formation of three curved surfaces of the bottom of the loosened soil, provides and removal, without removal into rivers and reservoirs, of water with the products of chemical reactions from the strips from the crushed plant and mineral mass, the whole of the soil and underlying layers of solonetz, adjacent soil in stripes with halophytes. The creation of a thin layer of 0.03 ... 0.09 m of a layer from an organomineral biologically active fertilizer mixture (OMBAUS) in the soil gauges treated with discs with chopping and beating knives prevents the rise of water during its capillary transpiration with the removal of salts and ensures the desalinization of the overlying soil with carbon dioxide gases decomposition of the introduced organic part of the mixture. Pre-ground OMBAUS components with sizes up to 4 ... 8 mm of the organic component, up to 1.5 ... 3.0 mm of the mineral mixture with its composition, vol. %: 35 ... 50 plant residues with nitrogen-fixing associated bacteria - misorin, humus and additionally (if available in the region) peat, carbonate sapropel with H ₂ O ₂ , 3 ... 10 powder montmorillonite with microelement molybdenum, 15 ... 40 marine mixed deposits , 0 ... 15 iron sulfate, 10 ... 37 clay and NPK mineral fertilizers, provide water accumulation under the OMBAUS layer and in loosened soil, which regulates the horizontal capillary moisture transfer to plant roots, favors the nutrition of their fertilizers and NPK and trace elements - molybdenum.

The creation of open gaps behind the racks of longline volumetric cultivators with the supply of ameliorants provides a stable connection of the surface soil layer with loosened soil and from the gap by atmospheric precipitation transfers the products of chemical reactions into the band with halophytes. Ammonia aqueous solution introduced behind the disc coulters of a pneumatic seeder or liquid manure that has undergone accelerated aerobic digestion, sowing a mixture of leguminous seeds (alfalfa, clover, sweet clover) and cover cereals that have previously been inoculated with rhizotorfin and mizorin or flavobacterin, respectively, and sowing along the edges of the salt treatment plants (amaranth, licorice, bluegrass, veronica longifolia) and integumentary herbs, grains (rye, corn, barley) when inoculated with rhizotorfin, as well as the introduction of a solution of growth stimulants increases the yield and feed value of plants; post-sowing rolling is performed. The introduction of a chemical ameliorant with inertial-pressure delivery through the cavities of different depths of parabolic racks of volumetric rippers and between them behind the knives under the dumps and the location of the rippers racks in the rear pillars, between the strips treated with disks with chopping knives at the ends, which are not closed after the ameliorant slots are closed behind the racks of the deep the outer side of the extreme soil-treated strips of soil provides optimal conditions for chemical substitution reactions, improves the development of the root mass of races eny and prevent wind erosion.

The invention is illustrated by drawings, where in FIG. 1 shows a diagram of the stages of processing strips with the formation of three surfaces of the bottom of volumetric loosening and sowing on sections of the soil layer with solonetz, a general view; in FIG. 2 is a diagram of a chopping device with the introduction of technological materials and sowing on the treated strips, a general view.

The proposed method from the start to sowing contains:

preliminary soil agro-reclamation survey of the area with stubble or sod 1 (Fig. 1), soil 2 (Fig. 1) with depth H ₁ , subsoil lens of solonetz 3 (Fig. 1) with depth H ₂ , subsalt soil 4 (Fig. 1) ), with comprehensive diagnostics of the state of soil by aerial photographs and the results of unscrewed echolocation sounding with geographical reference, digital transmission of programs to the control processor of the combined unit 5 (Fig. 1) and targeted application of ameliorant - loose lime or phosphogypsum 6 (Fig. 2), in layers of soil 3 with water-insoluble salts of supply 7 (Fig. 2) of ameliorant - iron sulfate, or spent electrolyte, sulfuric acid solution, when combining complex treatments of soil with strip mechanical grinding 8 (Fig. 1) stems of herbaceous plants, sod, soil aggregates with separation into fractions 9 (Fig. 2) and with simultaneous volumetric soil and subsoil loosening 10 (Fig. 2), performed with the formation of three curved bottom surfaces 11 (Fig. 1) loosened soil 4. The device in the soil gauges B ₁ 14 (Fig. 2) and B ₂ 15 (Fig. 2), treated with disks with chopping and beating knives 12 (Fig. 2), thin 0.03 ... 0.09 m of interlayer 13 (Fig. 1) from an organomineral biologically active fertilizer mixture (OMBAUS), with preliminary grinding of its components with a size of up to 4 ... 8 mm of the organic part, up to 1.5 ... 3.0 mm of the mineral component of the mixture with its composition, about . %: 35 ... 50 plant residues with nitrogen-fixing associated bacteria, humus and additionally (if present in the region) peat, carbonate sapropel with H ₂ O ₂ , 3 ... 10 inclusion, powdered montmorillonite with molybdenum trace element, 15 ... 40 marine mixed type of deposits (silt , silt, sand), 0 ... 15 iron sulfate, 10 ... 37 clay and NPK mineral fertilizers. The device between the crushed disks 12 strips B ₁ 14 and B ₂ 15 in the pillars of the soil B ₃ 16, 26 (Fig. 2) with turf 1 slots 18 (Fig. 1) behind the layers of longline cultivators 19 (Fig. 1) with a feed of 7 dusty or liquid ameliorants. Aqueous ammonia or liquid manure 27 (Fig. 2), which has undergone accelerated aerobic digestion, is introduced behind the disc coulters 20 (Fig. 2) of the pneumatic seeder 21 (Fig. 2). Performed a strip sowing with a pneumatic seeder 21 and leveling of the seed grooves, seeding of seeds deposited on the surface of the soil 22 (Fig. 1). Sowing a mixture of leguminous seeds (alfalfa, clover, sweet clover) and integumentary cereal crops 23 (Fig. 1), previously subjected to inoculation with rhizotorfin and mizorin or flavobacterin, respectively, is carried out along pillar 26 (Fig. 2), bands B ₂ 15 (Fig. 2), along the center of treatment and the longitudinal axis of the combined unit 5, and along the edges of the processing strips B ₁ 14 (Fig. 2), pillar B ₄ 17 (Fig. 2), sowing salt tolerant (amaranth, licorice, bluegrass, veronica longifolia) plants 24 (Fig. 1), when they are inoculated with rhizotorfin and cereals (rye, corn, barley), as well as the introduction of a solution with stimulants ("lentechnine", "humate peat oxidate", "Azolen-Zh", or "melafen") growth 25 (Fig. 2). The chemical ameliorant is fed through the cavities inside the struts of volumetric rippers 19, when installing the rippers' racks in the rear sights 16 between strips 0.08 ... 0.12 m wide - 14 (Fig. 2) and 0.16 ... 0.25 m wide - 15 (Fig. 2), strips treated with disks with chopping knives at the ends 12, and not closed after the introduction of the meliorant slots 18 behind the racks of the rippers 19 on the outer side of the extreme treated strips 14.

The method is as follows. On the reclaimed area, after an irrigation and drainage survey, the delivery of the combined unit 5 with the installed control processor and the salt processing program carries out complex processing with a depth of volumetric loosening of H ₄ (Fig. 1). They include working bodies with a geographic reference through a GPS-navigator, for processing the area with solonetzic complexes 3 with a depth of H ₂ according to the program on the control processor of the combined unit 5 create fertilizer layers 13 in strips 14, 15 of crushed soil 2, three curved bottom surfaces 11 of the loosened soil 3 and sunflower 4 with a depth of water-soluble salts of H ₃ (Fig. 1), address 6 (Fig. 2), ameliorant on the surface of the soil (loose lime or phosphogypsum) and in the layers of soil 3, parts adjacent 4 to the water soluble salts (for example, powdered - iron sulfate or liquid - spent electrolyte, sulfuric acid solution). Combine complex processing of soil with strip 14, 15 grinding of plant stems, turf 1, soil aggregates with separation 9 (Fig. 2) into fractions and perform subsequent continuous volumetric loosening. A layer 13 of an organomineral biologically active fertilizer mixture (OMBAUS) is laid in a thickness of 0.03 ... 0.09 m in soil sections 2 treated with disks with chopping and beating knives 12, with preliminary grinding of its components with a size of up to 4 ... 8 mm of the organic part, up to 1.5 ... 3.0 mm of the mineral component of the mixture with its composition, vol. %: 35 ... 50 plant residues with nitrogen-fixing associated bacteria, humus and additionally (if present in the region) peat, carbonate sapropel with H ₂ O ₂ inclusion, 3 ... 10 powdered montmorillonite with molybdenum trace element, 15 ... 40 marine mixed deposits (silt) , siltstone, sand), 0 ... 15 iron sulfate, 10 ... 37 clay and NPK mineral fertilizers, and between the crushed disks 12 strips 14, 15 in pillars 16, 26 of soil 2 with turf 1 they cut cracks 18 with the supply of ameliorants behind the tier racks volumetric rippers 19, behind disk coulters 20 pneumatic seeder 21 make an aqueous solution of ammonia or liquid manure 27 (Fig. 2), past accelerated aerobic digestion, perform seeder 21 strip sowing and leveling the seed grooves, seeding the seeds brought to the surface of the soil 2. Along the longitudinal axis of the unit 5 sow 22 seed mixture legumes (alfalfa, clover, sweet clover) and cover cereals, pre-inoculation with rhizotorfin and mizorin or flavobacterin, respectively, at the edges of the treatment sowing 23 salt tolerant plants (amaranth, licorice, bluegrass, veron long-leaved eggs) and cereals (rye, corn, barley), and also contribute a solution of growth stimulants 25.

The next adjacent passage along the treated strip of the site is performed in parallel with the indentation by a distance b _to equal 0.2 ... 0.5 of the length of the horizontal capillary moisture transfer. After completion of work, the unit 5 is cleaned and moved to a new facility or storage parking, maintenance.

Thus, the method of combined processing of solonetzic complexes of rainfed land allows for work to increase the productivity of rainfed agricultural lands while creating conditions for reducing soil salinization, regulating the volume of water accumulated for consumption by the root system of plants, and preserving alternating strips - pillars to prevent wind erosion, provides a reduction in terms of reclamation work, accelerating the restoration of the effective functioning of meadows, pa nor on dry land.

Claims (3)

1. The method of combined treatment of solonetzic complexes of rainfed land, characterized in that it includes pre-project surveys with preliminary soil agro-reclamation surveys of the site, the formation of strips with crushed soil, alternating with strips of pillars, the creation of fertilizer layers in strips of crushed soil, three curved subsoil surfaces of the bottom of the loosened soil for the removal and removal of water with chemical reaction products into bands with halophytes, contains a combination of a comprehensive diagnosis tics of soil conditions according to aerial photographs and results of unscheduled echolocation sounding with the simultaneous introduction of the obtained data on the magnetic medium of a personal computer with geographic reference, the preparation and digital transmission of programs to the control processor of the combined unit and subsequent addressing of the reclamation agent onto the soil surface (loose lime or phosphogypsum) and into soil layers with water-insoluble salts (powdered - iron sulfate, or liquid - spent electrolyte, sulfuric acid solution), and provides for combining complex soil treatments with strip mechanical grinding of stems of herbaceous plants, turf, soil aggregates with separation into fractions and with the formation of cracks in the strips of whole turf or stubble with simultaneous volumetric soil and subsoil loosening, at the same time, an interlayer of organic mineral biological active fertilizer mixture (OMBAUS) is laid in a thickness of 0.03-0.09 m in soil gauges treated with chipper discs knives and beater knives with preliminary grinding of its components with a size of up to 4-8 mm organic component, up to 1.5-3.0 mm of the mineral component of the mixture with its composition, vol.%: 35-50 plant residues with nitrogen-fixing associated bacteria - mizorin , humus and additionally (if available in the region) peat, carbonate sapropel with H ₂ O ₂ inclusion, 3-10 powdered montmorillonite with microelement molybdenum, 15-40 marine mixed deposits, 0-15 iron sulfate, 10-37 clay and mineral NPK fertilizer, and between the crushed disk With strips in the pillars of the soil with turf or stubble, cracks are cut with the supply of ameliorants behind the racks of longline volumetric cultivators, and ammonia water or liquid manure that has undergone accelerated aerobic digestion is introduced behind the disc coulters of the pneumatic seeder, strip sowing and seed sowing leveling, seed filling deposited on the surface of the soil. 2. A method for the combined treatment of solonetzic complexes of rainfed lands according to claim 1, characterized in that it contains strip cultivation of plants and is carried out along the longitudinal axis of sowing a mixture of legumes (alfalfa, clover, sweet clover) and cover cereals that have previously been inoculated with rhizotorfin (strain 340A) and mizorin or flavobacterin, at the edges of sowing treatment of salt tolerant plants (amaranth, licorice, bluegrass, veronica longifolia) when inoculated with rhizotorfin (strain 425A) and cereals (rye, corn, barley ) - mizorinom, as well as making a solution of growth stimulants, such as "lentehnin", "humate peat oxidate", "F-azoles" or "melafen", execution is carried posleposevnogo reconsolidation. 3. The method of combined treatment of solonetzic complexes of rainfed lands according to claim 1, characterized in that a chemical reclamation agent is introduced with inertial-pressure delivery of volumetric cultivators through the cavities of different depth parabolic racks and between them behind the knives under the heaps, while the ripper racks are in the rear sections between the strips of the disks treated with chopping knives at the ends, and behind the racks of the rippers, the gaps that are not closed after the meliorant is applied are located on the outside of the extreme nnyh bands, wherein on the longitudinal axis of the unit in the rear sight between the treated soil and grinding the cut strips of the slit-pillar glubokoryhlitelja.

Images