RU2717503C1 - Method for intensification of disturbed slopes soil-vegetation cover reclamation - Google Patents

Abstract

FIELD: reclamation of disturbed slopes.

SUBSTANCE: invention relates to recultivation of disturbed slopes and can be used for restoration of soil-vegetation cover on erosion-hazardous sections of tundra lands. Method of intensifying soil-vegetation recovery of disturbed slopes consists in the fact that the slope surface is leveled and cleaned, and then trenches are laid on the slope surface, into which tubes are laid, uniformly perforated on the whole surface and made of biodegradable material. Tubes are poured with a layer of local soil and geotextiles webs are laid, which consists of two layers of non-woven flax fabric sewn together, between which a layer of a mixture of seeds of perennial plants, which are adapted to conditions of the Far North, a layer of sapropel and a layer of mineral fertilizer, is sewn. Geotextiles webs are fixed on a slope and poured with a layer of local soil. Layer of fine-grained soil is piled at the foot of the slope at the upper edge of the slope.

EFFECT: higher efficiency and reduced time of recultivation of erosion-hazardous sections located on high slopes.

1 cl, 4 dwg

Description

The invention relates to the field of reclamation of violated slopes and can be used to restore soil cover on erosion-hazardous areas of tundra lands in the Far North.

The closest analogue of the claimed invention is a technical solution intended for the reclamation and landscaping of slopes and slopes, in which the coating is placed on the ground, and the connection of individual coating strips is carried out by laying its strips overlapping each other. The coating is made of at least three layers. The outer layers of the coating are bonded to each other and made of natural biodegradable fibers, and the inner layer is a filler in the form of a mixture of grass seeds, fertilizers and soil-forming additives. The outer layers of the coating are made in the form of canvases or canvases and are fastened with a needle-punched or thread-piercing method. The coating at the edges and in the places of overlap is fixed with fasteners (see patent for utility model RU 127758, Е01С 5/00, E02D 17/20 05/10/2013).

The disadvantage of the above technical solution is the lack of effectiveness of the biological restoration of the vegetation cover of the slopes of high steepness due to the following factors:

- long periods of restoration of natural landscapes due to insufficient consumption of oxygen and mineral fertilizers by the root system of plants;

- thawing of permafrost rocks (MMP) and the development of dangerous exogenous processes.

Moreover, the technical solution mentioned above is suitable only for slopes of not more than 30 ° and cannot be applied in the Far North to restore slopes of high steepness (up to 50 °). In addition, the practical implementation of the aforementioned technical solution may require large economic costs and attract large human resources, which limits the possibility of its application in practice.

The problem to which the claimed invention is directed is to develop an effective method of intensifying the restoration of the land cover of disturbed slopes of high steepness in the process of land restoration in the Far North.

The technical result of the claimed invention is to increase the efficiency and reduce the time of the process of reclamation of erosion-hazardous areas located on slopes of high steepness (up to 50 °), by enhancing the oxygen exchange processes of the plant root system, as well as preventing erosion and solifluction processes.

The technical result of the claimed invention is ensured by the fact that in the method of intensifying the restoration of the land cover of disturbed slopes, the surface of the slope is leveled and cleaned, and then trenches are laid on the entire surface of the slope, some of which are laid parallel to the direction of the slope, and partly across the direction of the slope, after which tubes are laid in trenches uniformly perforated over the entire surface and made of biodegradable material, the tubes are sprinkled with a layer of local soil and on the whole The biomat canvases are laid on the surface of the slope, consisting of two layers of non-woven linen linen stitched together, between which a layer of a mixture of seeds of perennial plants adapted to the conditions of the Far North is sewn, a layer of sapropel and a layer of mineral fertilizer, then the biomat canvases are fixed on the slope and sprinkled with a layer of local soil, then round the upper edge of the slope, and at the foot of the slope a layer of fine-grained soil is poured.

Forced air can flow into the tubes.

The increase in the efficiency of intensification of restoration of the soil and vegetation cover of disturbed slopes is ensured by enhancing soil aeration by laying biomat and canvases uniformly perforated over the entire surface and made of biodegradable material on the slope surface. Enhanced soil aeration is especially important in the Far North for northern soil types, since the presence of oxygen, regulation of which by appropriate technical methods is one of the main factors for accelerated plant growth and restoration of the natural landscape.

The claimed method of intensifying the restoration of the soil and vegetation cover of the violated slopes is illustrated by the drawings.

In FIG. 1 shows the strengthening of the upper part of an erosion-hazardous slope;

In FIG. 2 shows a diagram of the attachment of perforated tubes to the surface of a slope;

In FIG. 3 schematically shows the manufacture of a biomat;

In FIG. 4 shows the tube and the location of the holes in it.

The way to intensify the restoration of the soil and vegetation cover of the violated slopes is as follows.

Level and clean the surface of the slope 1, having a high steepness (up to 50 °) and having erosion-hazardous areas (see Fig. 1). Then, trenches are laid on the entire surface of the slope. The first part of the trenches is laid parallel to the direction of the slope, and the second part is transverse to the direction of the slope. The trenches of the first part are parallel to each other, as well as the trenches of the second part. The distance between two adjacent parallel trenches is 30-40 cm.

In the trenches laid along the entire surface of the slope, tubes 2 are laid uniformly perforated over the entire surface and made of biodegradable material (see Fig. 2 and Fig. 4). As a biodegradable material, an environmentally friendly material can be used - the “Biodegradable Polyethylene-BIO Polyethylene Composition”, which is not subject to accelerated destruction due to solar UV radiation or weather conditions, which is especially suitable for conditions of the Far North and permafrost. The composition of “Metatylene-BIO” includes: biodegradable polyethylene, organophilic nanosilicate “Monamet 104” and a complex of mineral additives. This material under the influence of UV radiation and environmental factors collapses over time and turns into powder, after which microorganisms contained in the soil enter the process. As a result of the biodegradation of the material, the ecosystem will not be harmed by the use of existing materials from ordinary polyethylene.

Tubes 2 are manufactured in the factory. The tubes 2 have a round perforation with rows of through holes (see Fig. 4). The diameter of the tube 2 is 4-5 cm, the length of the tube is 2 m, the wall thickness of the tube is 1 mm, the diameter of the holes of the tube is 0.5-1 mm. The center-to-center distance between adjacent tube openings is 1-2 cm.

The tubes 2 are laid in trenches located parallel to the direction of the slope, and in trenches located across the direction of the slope.

The outer surface of the tubes 2 laid in trenches laid parallel to the direction of the slope, as well as the outer surface of the tubes 2 laid in trenches laid across the direction of the slope, have contact points in which they are fastened together by means of fastening knots 3 made of metal wire with a diameter of 1 mm (see Fig. 2).

Tubes 2 are fastened with fasteners to the surface of the slope and sprinkled with a layer of local soil. When the tube 2 is attached to the surface of the slope, it is deepened into the trench to a depth of 3-4 cm.The cross-location of the tubes 2 in the trenches and their fastening in them ensures that the slope is kept from destruction and creep, thereby reinforcing the surface of the slope, acting as a reinforcing mesh.

In this case, to enhance soil aeration, forced air supply to the tubes can be carried out, for which a device for forced air supply (not shown) can be installed at the ends of the tubes 2 and / or at the places where holes are made in the tube.

Tubes 2 also enhance soil aeration due to perforation, which provides enhanced nutrition of the plant root system with oxygen, which is contained in the air and provides accelerated plant growth. So, on the example of experiments organized on the fields of the Moscow region with the use of mineral fertilizers, results were obtained that showed that the application of all the mineral fertilizers necessary for plants to the soil does not fully increase the yield of these plants: in the vast majority of cases, mineral fertilizer gave an increase in the total yield only by 160-240 kg / ha, increasing the total yield only to 800-900 kg / ha. A weak increase in yield in the studied fields is often caused not by a lack of nutrients, but by a lack of air required for plants in the soil, which does not allow mineral fertilizers to fully demonstrate their effect.

After the tubes 2 are laid in trenches, the biomat 4 canvases are laid on the entire surface of the slope, consisting of two layers of non-woven linen cloth sewn together, between which a layer of a mixture of seeds of perennial plants adapted to the conditions of the Far North, a layer of sapropel and a layer of mineral fertilizer are sewn (see Fig. 3).

Moreover, the mentioned biomat 4 (see Fig. 3) can be made as follows.

On the 1st layer of biomate, which is a horizontal sheet of linen linen measuring 2 × 20 m and a thickness of 0.5-1 cm, apply the 2nd layer of biomat consisting of the following successively applied layers: a layer of a mixture of seeds of perennial plants adapted to the conditions of the Extreme North, a layer of sapropel and a layer of mineral fertilizer. Next, on top of the 2nd layer of biomate, lay the 3rd layer of biomat, which is a linen sheet with dimensions and thickness similar to the dimensions of the linen sheet of the 1st layer of biomat. Then the first and second linen sheets are stitched together with a thread 1-2 mm thick.

As a mixture of seeds of perennial plants adapted to the conditions of the Far North, a mixture of seeds of the following plants can be used: beech rump, meadow fescue, red fescue, meadow timothy, wheat grass creeping. Moreover, the number of seeds sewn into the biomat can be 0.16 kg / m ² , the amount of sapropel - 0.1 kg / m ² , the amount of mineral fertilizer (for example nitroammophoski) - 0.02 kg / m ² .

Canvas biomat 4 is fixed on the entire surface of the slope, after which they are sprinkled with a layer of local soil. The biomate canvas is attached to the surface of the slope with fastening cruciform brackets or wooden pegs 7.

The upper part of the slope is strengthened by rounding off 5 the upper edge of the slope and filling at the foot of the slope with a layer of fine-grained soil 6. Thus, an artificial support is formed from fine-grained soil at the foot of the slope, which prevents the destruction of the slope during the period of activation of hazardous water erosion processes, as well as preventing the washing away of laid materials during the spring flood.

Reliable slope strengthening with the help of biomat and tubes prevents its destruction due to erosion processes, contributes to the accelerated development and development of the plant root system due to increased soil aeration.

The main advantages of the claimed invention compared to existing methods and technical solutions include:

- the safety of the system of intensification of restoration of soil and vegetation cover of disturbed slopes up to 10 years due to fasteners

biomat to the soil surface in the form of cruciform staples;

- reliable conservation of landscapes due to the accelerated growth of the root system of plants due to the enhanced nutrition of oxygen;

- prevention of erosion, creeping and destruction of the reclaimed slope due to the reinforcing action (perforated tubes and biomat).

The practical implementation of the claimed technical solution by 30-40% (according to expert estimates) saves money by eliminating the need for re-restoration of these slopes, saves engineering structures (including road slopes) in the conditions of permafrost.

The claimed technical solution is adapted for single use (without additional seeding) and is designed for a long period of its practical use (up to 10 years), which increases its economic efficiency compared to existing methods of restoring natural landscapes.

Claims (2)

1. A method of intensifying the restoration of the land cover of disturbed slopes, in which the surface of the slope is leveled and cleaned, and then trenches are laid on the entire surface of the slope, some of which are laid parallel to the direction of the slope, and partly across the direction of the slope, and then laid in trenches uniformly perforated over the entire surface and made of biodegradable material, the tubes are sprinkled with a layer of local soil and a biomat web consisting of two layers of non-woven linen cloth stitched together, between which a layer of a mixture of seeds of perennial plants adapted to the conditions of the Far North is sewn, a layer of sapropel and a layer of mineral fertilizer, then the biomat cloths are fixed on the slope and sprinkled with a layer of local soil, then the top edge of the slope is rounded and a layer of fine-grained soil is poured at the foot of the slope. 2. The method according to p. 1, characterized in that the forced air stream is fed into the tubes.

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