RU2202866C1 - Soil cultivation method - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves cultivating soil to 27-30 cm depth by plowing or deep mellowing for forming upper and lower layers; diving upper soil layer into top, middle and lower sublayers during autumn or presowing treatment procedures; forming lower sublayer of upper soil layer at depth of from 8-10 cm to 14 cm of small-grained structure with soil aggregates of 5.0-10.0 mm size and 1.3-1.4 g/cu.cm density; forming middle sublayer of upper soil layer at depth of from 2-3 cm to 8-10 cm of small-grained structure with soil aggregates of 0.6-6.0 mm size and 1.1-1.25 g/cu. cm density; forming top sublayer of upper layer at depth of 2-3 cm of small-grained structure with soil aggregates of 0.3-4.0 mm and density of 0.7-0.9 g/cu. cm; simultaneously forming intermittent furrows filled with mellow soil at the depth of 2 cm in upper part of lower soil layer during cultivation; mulching cultivated surface with weed plant remains. EFFECT: increased yield of farm crops due to improved moisture accumulation and moisture retention capacity of soil, improved protection of field from wind and water erosion. 1 dwg

Description

 The invention relates to agriculture and can be used in tillage by moisture-accumulating and moisture-saving technology.

 A known method of tillage, including surface cultivation with cutting the top layer to a depth of seed placement, corrugating the seed bed with an amplitude of oscillation of 1.0-1.5 cm and scattering of earthen chips on a corrugated surface (SU 1250183, A 01 B 79/00, 1986).

 The disadvantage of this method is that for the corrugation of the soil with a given amplitude, even at a translational speed of the aggregate of 3.6 km / h, the working bodies must form at least 65 corrugations per second at a depth of seed placement, which does not ensure high-quality implementation of the technological process of soil treatment.

 The closest analogue to the present invention is a method of cultivating the soil, including cultivating the soil by plowing or deep loosening with the formation of the upper and lower layers, the upper of which, during subsequent processing, is loosened and compacted with separation into layers, and mulching the surface of the field with combed plant residues of weeds (RU 2169447 C1, A 01 B 79/00, 06/27/2001).

 The disadvantage of this method is that when it is used, the treated soil layer has the same density and structure of the same height, which, in turn, reduces the moisture storage and moisture-saving characteristics of the treated layer.

 The objective of the invention is to create a technology that ensures the formation of cultivated soil layers for maximum accumulation, conservation and productive use of soil moisture by agricultural plants, destruction of weeds, protection of the field surface from wind and water erosion.

 The technical result is an increase in the quality of soil cultivation, an increase in its moisture-accumulating and moisture-saving ability, effective destruction of weeds, protection of the field surface from wind and water erosion.

This is achieved by the fact that tillage by plowing or loosening is carried out to a depth of 27-30 cm once a year after harvesting, while the formation of the upper and lower layers is carried out during subsequent tillages in autumn and spring with the separation of the upper layer into three layers - the upper , middle and lower, and the upper layer of the upper layer is formed at a depth of 2-3 cm with a fine-grained structure with soil aggregates from 0.3 to 0.4 mm and a density of 0.70-0.90 g / cm ³ , the middle layer of the upper layer - at a depth of 2-3 cm to 8-10 cm fine-grained with rukturoy soil aggregates with sizes of 0.6 to 6.0 mm and a density of 1.1-1.25 g / cm ^3, and the lower layer of the upper layer - at a depth of 8-10 cm to 14 cm fine-grained structure with the size of soil aggregates from 0.5 to 10 mm and a density of 1.3-1.4 g / cm ³ , in addition, discontinuous grooves 2 cm deep filled with loose soil form in the upper part of the lower layer.

 The drawing shows a layout of layers and layers during soil cultivation by the proposed method.

 Layer-by-layer loosening of the soil and combing of weeds on the surface of the field is carried out either by a set of tillage machines and implements, or to eliminate unnecessary passes of aggregates across the field and save energy, a complex aggregate containing, for example, disk working bodies arranged in a row in the form of alternating disks with solid and discs with cut blades, lancet paws located behind them and special rollers installed behind the last row of lancet paws, loosening the soil and compacting the upper surface layer at the same time leveling the surface of the field, combing out weeds and plant debris on the surface of the field.

This treatment allows the main loosening of the soil to a depth of 27-30 cm with or without a turnover of the formation, with the destruction of sprouted weeds, the incorporation of weed seeds, plant debris, larvae and pupae that have crumbled onto the surface of the field, creating favorable conditions for development beneficial microflora, accumulation and conservation of soil moisture. Subsequent processing of the first, second and third soil layers is carried out in one row with an angle of attack of 30-35 ^o disk working bodies in the form of disks alternating on the shaft with solid and disks with cut blades to a depth of 12-14 cm. Due to the fact that the diameters of the disks with cut blades are larger than the diameters of the disks with solid blades by 2 cm, and these disks are installed on the shafts through one, the disk working bodies perform continuous processing of the upper, middle and lower layers of the upper layer with the destruction of weeds and crumbling soil to the entire depth, while disks with mortise blades form discontinuous grooves 2 cm deep in the upper part of the lower soil layer, which are filled with loose soil. After the passage of the disk working bodies, the soil density of the surface of the lower layer becomes higher than the density of the soil of the lower layer of the upper layer, and therefore soil moisture is accumulated in the formed intermittent micro-cells, stored and subsequently productively used by cultivated plants. The formation on the surface of the lower layer of increased density of discontinuous microcells compared with continuous grooves prevents the development of water erosion.

 Processing the first and second layers of the first layer to a depth of 8-10 cm with lancet paws provides loosening of the soil and cutting of weeds over the entire width of the implement without flaws, giving the soil layers a fine-grained state and a certain density. The special rollers located behind the last row of lancet paws for loosening the soil of the first layer of the first layer to a depth of 2-3 cm, leveling the surface, compacting the upper side of the second layer, combing weeds and plant debris on the field surface.

 With this treatment, the upper dry (mulching) soil layer reduces moisture consumption for physical evaporation, captures precipitation even of low intensity. The middle soil layer has a slightly increased density, it reduces the process of convection and diffusion, "locks" the movement of vapor and film moisture from the underlying soil layers. The lower layer of the upper layer provides moisture accumulation and moisture conservation due to the available intermittent microcells filled with loose soil.

 Implementation of the proposed method of soil cultivation allows due to moisture accumulation and moisture conservation to increase crop yields, reduce costs, protect the field from wind and water erosion.

Claims (1)

A method of cultivating the soil, including cultivating the soil by plowing or deep loosening with the formation of the upper and lower layers, the upper of which, during subsequent cultivations, is loosened and compacted with separation into layers, and mulching the field surface with combed plant residues of weeds, characterized in that the cultivating the soil by plowing or loosening is carried out to a depth of 27-30 cm once a year after harvesting, while the formation of the upper and lower layers is carried out during subsequent tillage in autumn and spring with p dividing the upper layer into three layers - the upper, middle and lower, and the upper layer of the upper layer is formed at a depth of 2-3 cm with a fine-grained structure with soil aggregate sizes from 0.3 to 4.0 mm and a density of 0.70-0.90 g / cm ³ , the middle layer of the upper layer is at a depth of 2-3 to 8-10 cm with a fine-grained structure with soil aggregates from 0.6 to 6.0 mm and a density of 1.1-1.25 g / cm ³ , and the lower layer of the upper layer is at a depth of 8-10 to 14 cm of a fine-grained structure with soil aggregates from 0.5 to 10 mm and a density of 1.3-1.4 g / cm ³ , in addition, to the top parts of the lower stratum form intermittent grooves 2 cm deep filled with loose soil.