RU2033011C1 - Heavy soil decompaction method - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: slots are cut as the soil moisture is less than its physical maturity. The soil texture is made cellular, and the resulting cracks are filled with mixture of organic and mineral substances. Earthworms are introduced in the soil, and the soil is mulched upon planting. The mixture is humus fertilizer produced in artificial rearing of earthworms. The fertilizer contains nutrients for earthworms. EFFECT: improved soil texture. 3 dwg

Description

 The invention relates to agriculture and can be used for the cultivation of crops on heavy soils.

 A known method of anti-erosion treatment of waterlogged soils, according to which the processing of the subsurface horizon is carried out in strips along the slope of the field, and the untreated sections between them are formed in the form of strips having a cross-sectional shape that is close to straight with compacted side walls.

 The disadvantage of this method is the low quality of work on improving the soil.

 The purpose of the invention is improving the quality of work and improving the soil.

 This is achieved by the fact that the cracks are cut when the soil moisture is less than its physical ripeness, a cellular structure of the soil is created in the gap, and the faults formed in the soil are filled with organomineral mass and sown with earthworms, after which the plants are planted and the soil surface is covered with mulch, and as organomineral mass using humus fertilizers obtained by artificial cultivation of earthworms.

 In FIG. 1 shows a cross section of volume slots; figure 2 the cellular structure of the soil in the volume gap and the distribution of the organomineral mass and ecological spaces for worms; figure 3 placement in the volumetric gap of seeds, plants and root system.

 Wide volume slots 1 are cut with a chisel working body, which forms the vertical walls 2 of the volume slit and an inclined bottom 3 located below the lower boundary of the humus (arable) horizon 4. After processing, the entire gap 1 is filled with coarse-grained fractions of the soil 5 (cellular structure). Simultaneously with the creation of a cellular structure, organic and mineral mass (humus fertilizer) is fed into the cracks and faults in a dry or liquid form, which is distributed between soil units and creates an ecological cellular space in which earthworms are located immediately after sowing them volumetric slots. Subsequently, the worms, migrating, develop the entire soil volume, softening and healing it. The upper layer of the field 7 is treated to a depth greater than the depth of seeding of seeds 8, while the plants 9 are placed at the boundaries of the volume slots 1. The root system 10 of the plants 9 is distributed in accordance with the spatial configuration of the ecological cellular space 6 and while maintaining the location of the volume gap 1 for a number of years, the amount of ecological space is growing due to the penetration of roots into the subsurface horizon of the soil, into the soil separate, which will greatly contribute to the activity of rain worms.

 Soil softening according to the mentioned method has a complex character of impact, which is based on a systematic approach that takes into account the physics of the soil, its flora and fauna and ensures their optimal level. The proposed method of tillage provides deconsolidation of the soil and the subsurface horizon; restoration of soil fauna; soil improvement; elimination of soil degradation; elimination of soil erosion; reduction in energy intensity of the process; herbicide-free (biological) farming.

Claims (2)

 1. METHOD OF DEPLETING HEAVY SOILS, including cutting permanent gaps with vertical walls, filling the gaps with loosened soil, and planting plants along the edge of the gap, characterized in that, in order to improve the quality and improve the health of the soil, the holes are cut when the soil moisture is less than its physical ripeness, create a cellular structure of the soil in the gap, and the faults formed in the soil are filled with an organomineral mass and sown with earthworms, after which the plants are planted and mulch is covered on the surface of the soil.  2. The method according to p. 1, characterized in that as an organomineral mass, humus fertilizers containing worm nutrients obtained from the artificial cultivation of earthworms are used.

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