SU1591821A1 - Method of antierosion protection of slopes - Google Patents

Description

The invention relates to methods for erosion protection of slopes. Target image2

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rocky slopes. On the developed slope, below the planned horizontal landing trenches, two slits are cut into which the edges of the metal grid are embedded. Then arrange planting trenches with rolling off the soil on the established grid, forming a continuous soil roller. When planting, they are covered with a fertile layer of soil and soil, cut off from between rows, flatten and loosen the surface of between rows. 6 Il.

The invention relates to agriculture and forestry, and in particular to methods of erosion protection of slopes, and can be used in forestry production in the development of prone areas for reclamation plantings.

The purpose of the invention is to increase the efficiency of prevention of erosion processes on non-rocky slopes.

FIG. 1 shows a general view of the section after cutting the slits, side view; in fig. 2 - 'the same, after installation in the gap of the metal mesh; in fig. 3 - the same, after cutting the landing furrows; in fig. 4 - the same, after the installation of seedlings in the planting furrows; in fig. 5 - the same, after the root system of the seedlings was embedded, cut off the fertile soil layer with the row spacing; in fig. 6 the same, after a deep, loosening of straightened inter-row spacing.

The method of erosion protection of the slopes is as follows.

In the area under development 1, slots 2 are arranged, the location of which is consistent with the planned planting pattern. In the cut slots close up (stock up) the edges of the metal mesh 3. As a result, the grid takes in transverse

cross-section of a horseshoe-shaped form, 0.6-0.9 m elevated above the soil surface. Then, planting strips 4 are cut into the ground with the roll-off down onto the established grid. At the same time, a continuous soil roller 5 is formed, supported from the bottom side by a metal grid, which changes its initial horseshoe-shaped shape to β-shaped from the mass of the soil being moved. In the cut furrows 4 in early spring, plant seedlings 6 are installed and their root systems are embedded in a fertile soil-soil layer cut off between the rows. The surface of the aisle takes a flattened profile 7, approaching the terrace-like. After embedding the root system and the mandrel of the planted plants, they perform a deep, rootless loosening of the terrace-like inter-row profile 8.

The method of anti-erosion protection of the slopes was tested in the Mekenzievsky forestry of the Sevastopol forestry enterprise on a treeless slope area of 12-15 ° steepness on an area of 0.6 hectares.

In the section after 4.5 m, split slots were cut, one from the other by 0.8—

1.0 m. For this purpose, a ripper was used.

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RTN-2-25 in the unit with the T-130G. The edges of the metal grid, 1.8-2.2 m wide, with a mesh size of 4x4 cm, were manually stored in the cut-up slots. The grid took a horseshoe-shaped shape in cross section, ₅ elevated above the surface of the site by 0.6-0.9 m.

After that, we started cutting the planting trenches using the PPN50 plow in an aggregate with T-130G. Trenches were arranged above the stored nets by 0.3-0.4 m. Yu. The soil removed from the trench was moved by the plow blade to the grid. At the same time, a soil roller was formed with a partial bending of the uphill part of the grid to the ground and shielding its piedmont part below the spring and projecting part of the grid. '· As a result, the grid takes a β-shape in cross section.

In early spring, 4-year-old seedlings of Crimean pine were installed in the cut trenches. To seal the root system of 20 plants with a TS-2.5 terracer, a fertile layer of soil and soil was cut from between rows and fed in a loosened condition to the furrows. After that, the mandrel was planted manually. Then the straightened inter-row spans were subjected to deep rootless loosening with the RH-80 and D-162A rippers system in an aggregate with T-130G.

The method allows to increase water absorption in the zone of distribution of the roots of the planted plants. The installation of a metal mesh in the arranged cracks strengthens the bulk of the soil, which will reduce the likelihood of erosion of the developed area and the occurrence of landslide phenomena.

Claims (1)

Claim The method of erosion protection of slopes, including the formation of a water-retaining protective device with a shaft below the horizontal planting trenches, planting plants with filling them with fertile soil removed from the row spacing, creeping and loosening the row spacing, different in non-stone slopes, in order to form a water-retaining protective device below the landing trenches, two gaps are made in which the edges of the metal mesh for the ground are embedded rmirovaniya soil roller of bulk soil. fig.Z FIG. BUT 1591821 FIG. five FIG. 6