RU2152144C1 - Soil tillage method - Google Patents

Abstract

FIELD: agriculture, in particular, interrow, presowing and preplanting soil cultivation. SUBSTANCE: method involves basic and presowing cultivation; providing soil moling in the vicinity of rootage of future plant row at arable layer depth prior to sowing or planting operation; repeating moling operation at interrow cultivation period; combining moling and mineral fertilizers application operations. Apart from mineral fertilizers, other nutrient substances may be applied in formed mole. EFFECT: increased soil fertility and improved quality of cultivation of root layer by additional aeration of lower soil layers. 3 cl, 2 dwg

Description

 The invention relates to agriculture, in particular to methods of tillage.

 A known method of tillage, including spring alignment of a plowed surface, cutting ridges (ridges), sowing and cutting gaps in the aisles (SU 1568903 A1, 06/07/1990).

 However, this method does not provide the required addition density (bulk density) and the necessary degree of aeration of the root layer of the soil below 0 - 80 mm. Due to the lack of oxygen, the high lysing ability of the lower layers of the arable horizon of podzolic brown soils is due to the activity of anaerobic microflora, which decomposes fiber to low molecular weight compounds without the process of humification, which together with other factors leads to a decrease in soil fertility. To increase soil fertility, it is necessary to increase the thickness of horizons in which humification of podzolic-brown soils occurs due to aeration of arable horizons to a depth of 90 - 240 mm.

 The closest in technical essence to the achieved analogue to the proposed method is a method of tillage, including inter-row tillage with worming to the depth of the arable horizon (SU 411794 A, 06/18/1974).

 However, this method does not provide the required density of soil compaction in the immediate vicinity of the root system of plant rows and an increase in the humus layer of the arable horizon of podzolic brown soils due to additional aeration of the lower layers of the arable horizon in the zone of the root system of cultivated plants.

 The technical result is an increase in soil fertility and the quality of processing of the root layer.

 This is achieved by first conducting the main and pre-sowing tillage. Before sowing or planting, in close proximity (row spacing) from the root system of the future row of plants, the soil is wormed to the depth of the arable horizon (200 - 240 mm). With inter-row tillage, the worming of the arable horizon is repeated. When necessary, when compaction of the soil, worming is repeated. In addition, local application of mineral fertilizers or other nutrients to the formed molehills is carried out.

 In FIG. 1 is a diagram of a specific implementation of the method of tillage.

 In FIG. 2 shows a working body for worming, side view.

 The method is as follows.

 The main and pre-sowing tillage is carried out in the time required by agricultural technology for a certain climatic zone by known arable and cultivating implements. After the main and pre-sowing tillage before sowing or planting, the soil is wormed to the depth of the arable horizon of the soil in the immediate vicinity of the root system of the future row of plants. Krotovanie carry out working bodies, each of which has a vertical mounting rack 1 with a blade 2 and a mole 3 fixed on its lower end, having a cone-shaped or other shape. The mole is additionally equipped with a feeding tube 4 for local application of mineral fertilizers and other nutrients.

 Before worming, the working bodies are mounted on the cultivator working section by means of the mounting stand 1. At the same time, each working section on the cultivator is mounted in such a way that the copy wheel of the section is installed in the place and direction of the future row of plants. Each mole 3 on the working section is set in such a way that it is located on the side in the immediate vicinity of the future row of plants. When inter-row cultivating the soil, worming is repeated as necessary when compaction of the soil, while the cultivating section is placed in the row-spacing of plants, and mole 3 on the working section is set so that it is approximately in the same place as when processing before sowing or planting. Depending on the needs of the plants, local application of mineral fertilizers and other nutrients to the molehills is carried out through tubes 4.

 When the cultivator moves, the mole 3 deepens into the soil to the set depth, and the atmospheric air passes through the slit cut by the vertical blade 2 into the mole formed by mole 3. As a result of the formation of the molehill, the lower layers of the arable horizon are deformed, and atmospheric air fills the gaps formed in the soil , which leads to saturation with air and a decrease in the density of addition of the lower layers of the arable horizon.

 The proposed method of soil treatment to the depth of the arable horizon provides additional aeration of the lower soil layers, which increases the humification of organic residues in these layers and creates the required density in the root layer of the soil. This significantly improves the water-air regime of the soil and activates the development and growth of cultivated plants.

 The bulk soil mass obtained by the method in the row of plants and at a depth of 100 - 200 mm is 1.3 - 1.4 times lower than with the known method of soil preparation.

Claims (3)

 1. A method of tillage, including inter-row tillage with worming to the depth of the arable horizon, characterized in that the main and pre-sowing tillage is carried out first, and before sowing or planting, the soil is wormed to the depth of the arable horizon in the immediate vicinity of the root system of the future row plants.  2. The method according to claim 1, characterized in that worming during inter-row treatments is repeated as necessary when compaction of the soil.  3. The method according to each of claims 1 and 2, characterized in that they carry out local application of mineral fertilizers or other nutrients to the molehills.

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