RU2159030C1 - Tilled crop wide-row sowing method - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves cultivating soil; forming compacted beds in soil; laying seeds, for instance corn seeds; covering beds with soil and compacting with rollers. Soil cultivation is combined with ripping and applying fertilizers to depth of plowed soil, and forming curved concave surfaces at the level below plow bottom over prospective sown seed tracks. Additional soil compaction is performed before seed sowing for forming slit-type beds and compacting their bottom and walls. EFFECT: improved growth conditions for root system and intensified accumulation of soil moisture on root system. 4 cl, 8 dwg

Description

 The invention relates to agriculture, and in particular to technologies for sowing row crops sown in a wide-row way.

 A known method of cultivating row crops, including the tape application of herbicides on the cut surface of the ridge and sowing seeds [1].

 The disadvantage of this method: limited scope, not affecting the problem of increasing the effectiveness of soil moisture and the development of the root system of plants, in particular corn, with which the experiments were carried out.

 There is also a known method of sowing and a device for its implementation, where the method of wide-row sowing includes tillage, formation of compacted beds in the soil, seed placement, closing the bed with soil, soil compaction with rollers and other operations [2].

 The disadvantage of this method: there are no methods and means to improve the growing conditions of the root system of row crops, in particular corn grown for grain, and the targeted effect on the roots of soil moisture.

 Technical task: improving the vegetation conditions of the root system and the accumulation of soil moisture on it.

 The problem is achieved in that in the method of wide-row sowing of row crops, for example corn for grain, the soil treatment is additionally performed by volumetric loosening with the simultaneous application of fertilizers along the depth of the loosened soil and with the formation of seeds of curved concave surfaces located below the plow sole, according to the alleged traces of sowing, and carry out additional rolling of the soil before sowing seeds with the formation and compaction of the bottom and walls of the slit-like beds. Volumetric loosening of the soil is carried out to a depth of 30 - 35 cm; operations of loosening, additional rolling of the soil, the formation of compacted beds in the soil, laying of seeds, closing the bed with soil and subsequent rolling of the soil is carried out in one pass of the combined unit; after sowing, fine irrigation is carried out.

 The method is illustrated in the drawing, where in FIG. 1 shows the state of the soil before cultivation (with soil aggregates); in FIG. 2 - the soil after plowing to a depth of 26 - 28 cm with a turnover of the reservoir and with the incorporation into the soil of root and plant residues and seeds of weeds and herbs; in FIG. 3 - soil after its volumetric loosening to a depth of 30 - 35 cm with the application of fertilizers along the depth of the loosened soil and with the formation of seeds of curved concave surfaces following the alleged traces of sowing; in FIG. 4 - soil after additional rolling with the formation and compaction of slit-shaped beds; in FIG. 5 - deepening slit-like seed beds to the depth of seed placement; in FIG. 6 - seed placement in compacted seed beds; in FIG. 7 - falling asleep seed beds, rolling soil with subsequent fine irrigation; in FIG. 8 - distribution of the root system in the soil with respect to curved concave surfaces, plots of the distribution of moisture (W) and density (T) over the soil depth.

 The method of wide-row sowing of row crops, for example corn on grain, is implemented as follows.

 In the traditional sowing scheme, soil cultivation is carried out to a depth of 26 - 28 cm. As a result of repeated and long-term cultivation at this depth, a plow sole is formed, which is a serious obstacle to the development of the root system. The roots of row crops sown in a wide-row way, including corn for grain (row spacing is mainly 70 cm), are oppressed when the plow sole is reached: a small part of the roots breaks through the sole, and most of the roots lie horizontally along the sole, while the length of the roots limited to. The result of this is a negative impact on the plant, a decrease in productivity and the irrational use of soil moisture, which penetrates through the plow sole and is kept there, contributing to the re-compaction of the soil horizon located below the sole.

 Before plowing the soil (Fig. 1) in the arable horizon - to the plow sole 1, soil aggregates 2 are usually located in the usual order. In the fall, traditional plowing of the soil is carried out - with the formation turning to a normal depth of 26 - 28 cm (Fig. 2). After this, the root and plant residues, as well as the seeds of weeds, annual and perennial grasses, are mainly located in layer 3 (mixed with soil) above the plow sole 1, and soil aggregates 2 are located above this layer. Immediately prior to sowing, volumetric loosening of the soil is additionally carried out with a combined unit with simultaneous fertilizer application along the depth of the loosened soil and with the formation of seeds of curved concave surfaces 4 (Fig. 3) located below the plow sole 1 according to the alleged traces of seed. Step t of curved concave surfaces is equal to the step of wide row sowing corn for grain, for example 70 cm; loosening depth 0 - 35 cm, i.e. a special working body of the cultivator cuts through the plow sole. After that, the same combined unit conducts additional rolling of the soil before sowing seeds (Fig. 4) with the formation and compaction of the bottom and walls of the slit-shaped beds 5 with a step t equal to the row spacing. Further, this unit conducts deepening of the slit-like seed beds 6 with further compaction of their bottom and walls (Fig. 5). The final depth of the bed 6 is 6 - 8 cm, which corresponds to the optimal depth of laying (embedding) of corn seeds in the soil. All the same unit holds seeds 7 in compacted bed 6 of optimal depth (Fig. 6). The last operation of the combined unit is to fill the seed beds with soil 8 and soil rolling (Fig. 7). As a rule, finely dispersed irrigation is carried out immediately after sowing, after which, as is known, the soil crust does not form, and the filled-up compacted bed 6 promotes the flow of moisture to the seeds.

 After emergence and formation of the root system 9 (Fig. 8), regular irrigation is carried out in the established order in addition to natural rainfall. Moisture entering the soil is distributed, first of all, along the horizon of the loosened soil and into the covered soil beds 6 and, penetrating deeper, accumulates in peculiar trenches bounded by curved concave surfaces 4. This creates an additional incentive both for the vegetation of the root system and for some compaction soil under the "gutters". Along with this, most fertilizers dissolving under the influence of soil moisture sink down and also accumulate in the "gutters". As a result, the roots rush into the "gutters", receiving there the necessary nutrients - water, dissolved fertilizers and the corresponding components from the soil. The central part of the root system 9 relatively easily overcomes the waterlogged "bottom" of the curved concave surface 4 and is fixed below the loosened soil layer, receiving power from the always moist, unplowed horizon. Plots of the distribution of moisture W and soil density T (Fig. 8) show that the highest humidity is in the range from the place of seed placement to the "bottom" of the curved concave surface 4, and the soil density begins to increase in front of the plow sole.

 Thus, the described method provides an improvement in the vegetation conditions of the root system and the accumulation of soil moisture on it with limited irrigation. This cannot but affect the development of plants, increasing the quantitative and qualitative indicators of the crop. An increase in yield is achieved without a noticeable increase in the laboriousness of sowing, since additional operations - volumetric loosening of the soil with the formation of curved concave surfaces and additional rolling of the soil with the formation of slit-like beds are carried out in one pass of the combined unit simultaneously with sowing. Additional volumetric loosening of the soil improves the structure and water-air regime of the soil, and the combination of operations during sowing ensures the coincidence of curved concave surfaces with rows of plants.

Sources of information
1. RU N 2082293, IPC ⁶ A 01 B 79/00. A method of cultivating row crops. - Stated 1994. Published 1997.

2. RU N 2086087, IPC ⁶ A 01 C 7/00. The method of sowing and device for its implementation. - Stated 1995. Published 1997.

Claims (4)

 1. A method of wide-row sowing of row crops, for example, corn for grain, including tillage, formation of compacted beds in the soil, seed placement, covering the bed with soil and compaction of the soil with rollers, characterized in that the soil treatment is additionally performed by volumetric loosening with simultaneous application of fertilizers the depth of the loosened soil and with the formation, according to the alleged traces of sowing seeds, curved concave surfaces located below the plow sole, and additional rolling of the soil is carried out before sowing the seeds with the formation and compaction of the bottom and walls of the slit-shaped beds.  2. The method according to claim 1, characterized in that the volumetric loosening of the soil is carried out to a depth of 30 - 35 cm  3. The method according to claims 1 and 2, characterized in that the operations of loosening, additional rolling of the soil to form compacted beds in the soil, laying seeds, closing the bed with soil and subsequent rolling of the soil is carried out in one pass of the combined unit.  4. The method according to p. 1, characterized in that after sowing carry out fine irrigation.

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