RU2019942C1 - Method for preparation of light soils for summer grain crops sown over row-crop predecessor - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves autumn and spring chiselling to a depth of 10-12 cm and at speeds not under 2.8 m/s. At soil density exceeding 1.35 g/cu.cm chiselling is carried out on two tracks. EFFECT: higher efficiency. 4 tbl

Description

 The invention relates to agricultural production, in particular to soil-protective methods of tillage for spring crops, and is mainly used on sod-podzolic loosely-soddy and loamy soils, underlain by sands, thin layers of eroded moraine loam in plain conditions.

 A known method of tillage, including autumn plowing of a row crop predecessor by plows with skimmers to the depth of the arable horizon or plowing it without skimmers to a depth of 16-18 cm [1].

 The disadvantages of the method are high energy and labor costs, excessive compaction of the subsurface horizon, increased erosion processes, accelerated decomposition of organic matter.

 A known method of tillage, including autumn chisel to a depth of 18-20 and 10-12 cm [2].

 However, this method was used on sod-podzolic sandy loam soil, underlain by moraine loam and the predecessor were vetch-lupine-oat mixtures, while reducing the depth of treatment of such soils, the yield, for example, of barley decreased from 52.8 to 43.9 c / ha.

 The purpose of the invention is to increase productivity by creating conditions for increasing moisture reserves in the root layer of the soil and reducing energy and labor costs.

PRI me R 1. Autumn soil preparation begins with cultivation by steam cultivators such as KPS-4 in order to select losses, for example, potatoes or root crops immediately after harvesting. Mineral fertilizers are applied (P60K90). The main tillage is carried out by chisel - KCh-5.1 cultivator, after applying mineral fertilizers to a depth of 10-12 cm at speeds of at least 2.8 m / s. When the soil density is more than 1.35 g / cm ^3, chiseling is carried out in two mutually perpendicular directions or at an angle to each other, depending on the contour of the field and the ratio of length and width. When the soil density is less than 1.35 g / cm ^{3 they are} limited to one trace (direction). In the spring, spring chiseling is carried out with one trace to a depth of 10-12 cm also at speeds of at least 2.8 m / s. Nitrogen fertilizers (N 90) are introduced and cultivation is carried out without a time gap with harrowing by the KPS-4 cultivator in an aggregate with BZSS-1,0 harrows or KShP-8 cultivator without harrowing. In this case, the soil surface is leveled to the values established by agricultural requirements. If the soil density after cultivation with harrowing does not provide the optimum depth of seed placement, the soil is treated with the combined RVK-3.6 aggregate. After pre-sowing tillage, spring crops, for example barley, are sown with grain seeders of all modifications (disk, anchor, roller). Further care for spring crops is carried out according to generally accepted intensive technology.

The method was carried out in a field experiment (repetition - fourfold, the area of the accounting plot of 196 m ² ). Observations confirmed its effectiveness in increasing productivity, for example, of barley by creating conditions for increasing moisture reserves in the root-inhabited (arable) layer of soil and reducing fuel consumption and labor costs.

 The results of the experiments are given in table. 1.

 The three-year results of taking barley crops into account, depending on the main (autumn) and pre-sowing (spring) tillage methods, showed that in 1988 the depth of cheeselization of the potato field did not significantly affect the increase in barley yield. In 1989-1990 this influence was very significant. The increase in barley harvest in 1989 against the background where the potato field was growing to a depth of 10-12 cm was 2.3-4.4 kg / ha, in 1990 - 1.5-4.4 kg / ha with a background of 20-22 cm. The average increase in barley yield for 1988-1990 against the background where the potato field was growing to a depth of 10-12 cm was 1.6-2.6 c / ha compared to a background of 20-22 cm. The reason for the significant difference in yield is due to the fact that in 1989-1990, in the phase of the most intensive plant growth (April - June), 1.6-2.5 times less rain fell compared to the norm.

 PRI me R 2. A comparative determination of the moisture content of the soil of the arable horizon in the layer 0-22 cm and determined the coefficient of air humidification. The results are presented in table. 2 and 3.

 The data presented in table. 2, show that in 1988, on both backgrounds (10-12 and 20-22 cm), the soil moisture was almost the same, in 1989, with a cultivation depth of 10-12 cm, it was 1.6-3.6% and in 1990, it was 0.4-1.5% higher compared to the background of 20-22 cm. The coefficient of humidification in 1988 was 0.52-1.88 in 1989-1990 - 0.18- 0.38 with an optimum of 0.4-0.6.

 PRI me R 3. When cultivating row crops, especially potatoes and sugar beets, a large number of agricultural and transport equipment are used, which leads to soil compaction not only in its upper layers, but also in the subsurface horizon, forming a compacted subsoil sole. The arable sole prevents the entry of water into the depths of the lying horizons and its lifting into the arable layer. The penetration of moisture through the subsurface and arable layers slows down due to the various capillary properties of the soil in these horizons at the boundaries of their contact. In the proposed method for decompaction of the subsoil sole, chisel processing is carried out at speeds of at least 2.8 m / s. It has been established that the T-150 K power tool in the aggregate with the KCh-5.1 chisel at speeds of 2.8 m / s and more is a vibrating system that, acting on the soil, decompresses the subsoil sole. At speeds less than 2.8 m / s, the KCh-5.1 chisel resembles the operation of a conventional steam cultivator of the KPS-4 type and does not decompress the subsoil sole. In addition, when the row crop precursor is chiseled under spring crops, for example, potato, at a speed of less than 2.8 m / s, clumpiness of the soil (soil aggregates more than 5 cm) increases due to less crumbling, and the number of cracks on the surface of soil prisms formed by workers organs of chisel, which makes it difficult for more moisture to penetrate these cracks, which, in winter, freezes and swells the soil. And these processes have a favorable effect on improving the water-physical properties of the arable layer, which in the end result contributes to an increase in moisture reserves in the root-inhabited horizon. In known methods, tillage is carried out at speeds of not more than 2.2-2.5 m / s (7-8 km / h).

 PRI me R 4. Studied by timing observations, fuel consumption and productivity of the chisel cultivator on both backgrounds. The data are presented in table. 4.

 Presented in the table. 4 data show that reducing the processing depth from 20-22 to 10-12 cm allows you to save up to 20.8% of fuel and increase production by 12% in 1 hour of shift time.

 Thus, the proposed method provides an increase in the yield of spring grain crops by creating conditions for increasing moisture reserves in the root-inhabited layer of loamy sandy, lined with sand, especially in years with insufficient moisture, and reducing energy and labor costs. The method can be used in areas where arable land is lined with loose sand. For example, in the Brest region there are 69% of such lands, in the Republic of Belarus - 41.3%, in the Non-Chernozem zone of the Russian Federation - about 20-25%.

Claims (1)

 METHOD FOR PREPARING EASY SOILS UNDER SPRING GRAIN CROPS OF LANDING PREDATOR, Including autumn and spring chese cultivation, cultivation with harrowing and treatment with combined aggregates, characterized in that, in order to increase yields by creating conditions for increasing soil moisture reserves and root water consumption, the root water supply is reduced labor, autumn and spring chizelovanie carried out at least one trace to a depth of 10 to 12 cm and at speeds of at least 2.8 m / s.

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