RU2520278C2 - Method of meliorative soil treatment - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture and land reclamation. The method comprises the cutting of the arable layer and its shifting to the side, the simultaneous and layerwise application of ameliorant doses in the arable and subsurface layers and mixing them with structural constituents of the respective layers. At that the subsurface layer is treated simultaneously with two instruments: the first - for the depth exceeding the thickness of the subsurface layer, and the second, following the first in the direction of travel for the depth of subsurface layer for destruction of layering of the intermittent horizon and the development of the root system of the plants. The width of the treatment area of the first instrument is less than the width of the treatment area of the second instrument. Then the ameliorant is applied in the subsurface layer and the intensive mixing to the depth of the subsurface layer is carried out.

EFFECT: method enables to increase the yield of crops cultivated on alkaline soils and soils with layered inhomogeneous lower part of the rooting zone, and the effectiveness of their treatment due to use the ameliorants as natural ameliorants placed in the intermittent horizon, change in structures of the three upper layers of soil with simultaneous application of recommended doses of the ameliorants.

1 dwg

Description

The invention relates to the field of agriculture, and in particular to methods of land reclamation treatment with the simultaneous introduction of ameliorants (fertilizers).

A known method of processing solonetzic soils by AS 1664141, including a slice of the arable layer and its shift to the side, simultaneous and layer-by-layer application of the estimated doses of ameliorants to the arable and subsurface layers of the solonetz in a checkerboard pattern and mixing them with soil in the corresponding layer with the shift of the next layer of the arable layer to the reclaimed subsurface layer of the previous passage.

The main disadvantages of the method are the impossibility of its application on soils with a heterogeneous layered lower part of the root layer, which prevents the penetration into the depth of the soil mass of water, air and the root system of plants, which entails a decrease in the biomass of cultivated crops and a decrease in their productivity.

The second disadvantage of this method is its low efficiency due to the non-use of natural accumulations of gypsum and calcium carbonate located in the transition horizon.

The objective of the invention is to increase the productivity of crops cultivated on solonetzic soils and soils with a layered inhomogeneous lower part of the root layer, and the efficiency of their processing due to the use of natural reclamants, lying in the transition horizon, changing the structures of the three upper layers of the soil with the introduction of recommended doses reclamants.

The technological result is achieved by the fact that the topsoil is shifted to the side along the path of the implement, at the same time as the shift, the estimated dose of the reclamant is introduced into the soil and the soil is intensively mixed with the reclamant. The subsurface layer freed from the arable layer of the soil is subjected to simultaneous treatment with two implements: the first to a depth exceeding the thickness of the subsurface layer, and the second, following the first in the direction of travel, to the depth of the subsurface layer. The width of the processing zone of the first implement is less than the width of the processing zone of the second implement. Soil carried out from the transitional horizon to the surface of the subsurface layer, which basically contains natural ameliorants, is intensively mixed with the structural components of the subsurface layer and at the same time the calculated dose of the reclamation material supplied to the soil treatment zone by a metering device.

Thus, the arable soil layer is treated and reclaimed with one estimated dose of the reclamation material, the subsoil layer is treated and reclaimed due to the second estimated dose of the reclamation material and natural reclamation materials from the transition horizon, delivered to the second gun’s working area by the first one working at a great depth, but with a smaller width of the processing zone.

The first tool destroys the layering of the transition horizon, creating the opportunity for better air and water movement, as well as better conditions for the growth and development of the root system of plants, which ultimately affects the increase in crop yields. The natural reclamation agents brought into the subsurface horizon by the first implement and mixed by the second implement mixed with the subsurface layer can drastically reduce the consumption of special reclamants (defecate, gypsum, phosphogypsum) and thereby increase the efficiency of the proposed method of soil reclamation.

The drawing schematically shows the technology for the implementation of the proposed method of land reclamation, cross section (rear view).

The method is as follows.

Soil 1 is cut to the depth of the arable layer a and is shifted to the side by the width of the cultivated layer b. Simultaneously with the shift, the structural components of the arable layer are intensively mixed with the ameliorant introduced at a given dose m.

The subsurface layer 2, freed from the surface from the arable layer 1, and the transition horizon 3 are sequentially processed (in the direction of processing, view A-A) are processed to a depth of t + c with a width of 2d, followed by the introduction of ameliorant k in a predetermined dose into the subsurface layer and intensive mixing the thickness of the subsurface layer t.

As a result of the implementation of the proposed method of soil treatment, reclaimed layers are formed in the field: - arable layer with ameliorant m added to it at a given dose and depth a, - arable layer thickness t with a natural reclamation agent introduced into it, o recovered from transition horizon 3 at a calculated dose, adjustable due to the width d and depth c, as well as the meliorant k with a given dose, - the transition horizon with destroyed natural composition, reclaimed due to the structural components and the subsoil 2.

Thus, each soil layer receives a strictly defined amount of the necessary ameliorant. Moreover, increasing the efficiency of the method of reclamation treatment lies in the fact that for the reclamation of the subsoil layer, natural reclamants are used that are extracted from the transition horizon, which reduces the cost of reclamation work. Destruction of the natural structure of the transition layer and its reclamation due to the structural components of the subsoil layer improve the air-water regimes in the treated layer, expand the distribution zone of the plant root system, which entails an increase in the biological mass of plants and, ultimately, their productivity.

Claims (1)

The method of land reclamation treatment, including cutting the arable layer and shifting it to the side, simultaneous and layer-by-layer introduction of doses of ameliorants into the arable and subsurface layers and mixing them with the structural components of the corresponding layers, characterized in that the subsurface layer is treated simultaneously with two tools: the first - on depth exceeding the thickness of the subsurface layer, and the second, following the first in the direction of travel, to the depth of the subsurface layer to destroy the layering of the transition horizon and the development of the root plant systems, while the width of the treatment zone of the first implement is less than the width of the treatment area of the second implement, followed by the introduction of ameliorant into the subsurface layer and intensive mixing to the thickness of the subsurface layer.

Images