RU2423033C1 - Method to reinforce slopes by sowing seeds of woody plants - Google Patents

Abstract

FIELD: agriculture. ^ SUBSTANCE: method to reinforce slopes by sowing seeds of woody plants includes sowing seeds into a slope soil. At the same time in the period of mass propagation of hydrophilous plants seeds, such as willow plants, the surface of a border and a slope is coated with a coarse-grained, for instance, river sand with a layer of 2Ç6 mm, which ensures favourable conditions for active sprouting and rootage of seeds. Seeds are propagated in a forced manner by shaking branches of willow plants that are either available near a reinforced slope or are brought from elsewhere. ^ EFFECT: invention makes it possible to efficiently reinforce slopes of highly moist lands with woody plants without damage to environment. ^ 5 cl, 2 dwg

Description

The invention relates to measures to strengthen the slopes of waterlogged lands, in particular, by planting moisture-loving, for example, willow plants, on the edge of the transition of soil to the slope and directly on the slope.

A known method of strengthening slopes by stepwise terracing of the slope, the installation of anchors, anti-erosion screen, resistant gabion blocks, fixing the resistant gabion blocks to the anchors, see RF patent No. 2171875, publ. 07/20/2000. At the same time, the intersection lines of the berms with the sloping parts of the overlying terraces are located behind the slope collapse plane, after which vertical anchors are installed in the base and on the terrace berms, then the gabion blocks are arranged in the base and on the berm of the terrace slopes and fixed to vertical anchors, then perform the device of the anti-erosion screen and flexible anti-erosion coatings, connecting them with persistent gabion blocks. The technical result consists in increasing the stability of a landslide slope during the wave impact on it.

The disadvantages of this method include the high cost of performing work to strengthen the slopes, which are not acceptable for the many existing around the fields and landings on the slopes, especially near roads, structures, ravines, etc.

To strengthen the slopes of waterlogged lands, a geogrid is used, which is a honeycomb structure made of 1.5 mm thick polyethylene tapes stitched together in a checkerboard pattern with welded high-strength seams. When stretched in the working plane, a stable frame is formed horizontally and vertically, which is designed to fix the filler (soil, quartz sand, concrete, etc.). The geogrid is widely used for soil reinforcement in the transport, hydraulic and other sectors of modern construction. Due to the large bearing capacity and relatively small deformation, the geogrid can be used to fix the pillows of various types of pavement, strengthen slopes and fix slopes of increased steepness, strengthen the coastal zone of reservoirs and rivers, fix slopes of cones of railway tracks, construct retaining walls, etc.

The geogrids are mounted on the surfaces of the slopes using L-shaped anchors 12-16 mm and a length of 0.6-1.2 m, made of steel, or high-strength plastic materials. Anchors are installed along the contour of each geogrid to ensure its proper stretching in the form of a rectangle. Between the geogrids and the surface of the soil slope (in cases of filling the frame with crushed stone), a separation and drainage layer of non-woven geotextiles with a density of 200-400 g / m is laid. As a placeholder for geogrid cells, soil, crushed stone and concrete with frost resistance not lower than M 200 are used.

The disadvantages of this method include significant costs for the manufacture of geogrids and their installation on the slopes, which is also unacceptable for many naturally occurring slopes, for example, near agricultural land, fields, near roads, structures, ravines, etc.

Known more advanced with less cost method of strengthening the slopes, see RF patent No. 2116709, publ. 08/10/1998, "The method of planting forest crops on the slopes" - a prototype that includes soil preparation, laying ring-shaped elements in the form of used tires, filling their voids with soil and planting plants in it, while the tires are perforated before laying, soil preparation is performed by cutting horizontal grooves on the slope surface, tires are laid in furrows with an emphasis on their wall, water-guiding soil bridges are poured between adjacent rows of pneumatic tires, shrubs and trees are used as plants, and planted on lintels, and trees - in the soil filled with hollow tires.

The disadvantages of the known prototype method include its high complexity, low slope strengthening efficiency and environmental pollution with the chemical and mechanical components that make up the tires.

The objective of the present invention is to eliminate the disadvantages of the prototype, in particular the ability to effectively fix the slopes of waterlogged lands with woody plants with low labor costs, without environmental damage to the environment.

The task is achieved by the fact that during the period of mass distribution of seeds of hygrophilous, for example, willow plants, the surface of the edge and slope is sprinkled with coarse-grained, for example, river sand, a layer of 2 ... 6 mm, providing favorable conditions for active seedling and rooting of seeds associated with the accumulation of heat on the surface of the edge and slope, with good warming and water permeability of the soil.

During the period of mass distribution of seeds of hygrophilous willow plants, the seeds are forcedly distributed by shaking the willow plants near them during the directed movement of the wind stream or shaking the imported seeded branches of the willow above the slope and edge.

The width of the edge, sprinkled with sand, then willow seeds, is equal to 0.1 ... 0.5 of the height of the slope.

The surface of the edge and slope is sprinkled with sand in the form of a continuous cover and / or in the form of selective sections.

Annual and more growth of plantings with a peak is bent to the soil surface obliquely down and up, left, right, at an angle, with the shoots crossing, until they come into contact with the soil and fixing the inclined position of the growth by applying a load to it with formation under each lower during growth during growth kidney thick branchy root system.

The novelty of the proposed method is directed sowing during the period of mass distribution of seeds of hygrophilous, for example, willow plants, the surface of the edge and slope with a coarse-grained, for example, river sand layer of 2 ... 6 mm, providing favorable conditions for the active germination and rooting of seeds associated with good warming and moisture permeability of the soil and with the accumulation of heat on the surface of the edge and slope.

So, placing seeds of willow plants on the brow before crossing the mostly horizontal soil surface to the slope allows you to fix the soil on the site most prone to slipping, and planting directly on the slope contributes to a more reliable fixation of the soil from slipping. Willow plants are not afraid of waterlogged soils, multiply well by seeds, take root and form a thick, branched root system. The presence of a layer of sand on the surface of the brow and soil contributes to the absorption of moisture, it accumulates well the heat of sunlight and provides high germination and active germination of seeds.

According to the patent information research, the proposed method is new and is aimed at achieving the objectives of the invention.

Signs of the bending of the tops of shoots obtained from seeds to the surface after their annual growth until they come into contact with the soil with the formation of a thick, branched root system under each lower bud allows an additional positive effect associated with the spread of the root system in the desired direction along the shoots of growth, thereby allowing expand and strengthen a large surface area of the slope from slipping, forming additional mechanical bonds between the root systems of one plant. Since the growth of willow plants can be bent in different directions, the soil is strengthened in a directional and more efficient way. The choice of the directions for the shoots to be bent creates the possibility of the formation of the root system in the direction of areas free from willow plants.

Figure 1 schematically shows the surface of waterlogged land with a brow and a slope, on which a layer of sand, for example, coarse-grained river, is strewn and formed shoots of willow plants are shown.

Figure 2 shows the annual shoots of willow plants bent to the soil surface in different directions. The diagram shows edge 1 and slope 2, on which sand layer 3 is poured. The shoots of 4 willow plants are located both on edge 1 and on slope 2. The shoots of 4 willow plants can be bent to the soil down 5, left 6, right 7, at an angle of 8, or up 9 with the intersection of shoots 10. In the bent position shoots held either by clods of soil 11 or clothespins 12.

The proposed method is as follows:

In the early spring, during the ripening and mass distribution of seeds of willow plants, sand layer 3 is first poured onto the surface of the edge and slope 2 ... 6 mm thick. Then, depending on the presence of seeded willow plants and the direction of the wind, the willow plants begin to shake so that their seeds fly on the edge and on the surface of the fortified slope. In the absence of naturally growing willow plants in the immediate vicinity, seeded willow branches are brought from another locality and shake off the seeds on the surface of sand, edge 1 and slope 2 sprinkled with layer 3. The presence of moisture that has saturated soil in edge 1, slope 2 and sand layer 3 provides constant contact seeds of willow plants with water and promotes their germination, survival and development. After a year of growth, the grown seedlings 4 are bent in the required direction until they come into contact with the soil and secured in a bent position using a load that can serve as a lump of soil, stone, clothespin, etc. improvised item.

Squeezing of the shoots is carried out, for example, in the direction of unplanted shoots or in the direction of a plot free of willow plants. The shoots can be bent to the sides, thereby creating a directed root formation in the soil layer of the slope and the formation of a net structure of plant shoots when they cross and pass one under the other, thereby ensuring better fixing.

A specific example of the method

Initially, in the early spring period (April 21 ... 30), during willow seeds ripening and mass distribution, willow edge 1 and slope surface 2 on an area of 0.17 hectares in the swamp settlement lands of the municipality s. The Quick Source of the Bystroystok district of Altai Territory was sprinkled with 3 layer of coarse-grained river sand 2 ... 6 mm thick in order to be involved in grasslands so that dark spots of soil not covered by sand were visible on the surface. Then, at the moment of the wind flow directed to the area to be strengthened, lightly shaking the seeded willow plants in the immediate vicinity dispersed the seeds over the entire surface of slope 2 and edge 1. The presence of moisture in the moistened soil and sand layer 3 saturated with moisture ensured constant contact of the willow plant seeds with water during their germination, seedlings and growth in the spring-summer period of 2008. On a slope where there were no growing willow plants nearby, seed distribution was carried out by imported seeded willow branches by shaking them above the surface of edge 1 and slope 2.

By the end of autumn 2008, seedlings reached a height of 20 ... 40 cm. To prevent dense growth, the surface of the edge and slope were thinned, based on the calculation of 2 ... 4 shoots per 1 m. ² In the spring, in April 2009, 70 ... 80% of shoots were bent to the soil surface and secured in an inclined position by clods of soil. In this case, the annual growth increment to the soil surface was performed down, left, right, at an angle, up, and with a cross arrangement of plant shoots. The folding of not all the shoots allowed the root system of part of the shoots to develop deep into the slope, and part of the shoots that were bent ensured the formation of the root system along the entire slope and the surface of the edge 1. A good interweaving of the root formations created at different distances from each other of the bent shoots formed a strong, root system strengthening the slope.

Shoots dug for research showed the direction of the formation of the root system towards the shoot. The root system of upright shoots deepened into the soil by 40 ... 60 cm, and under each bud of the shoot bent to the ground, a root system was formed that spread to a depth of 30 ... 35 cm, i.e. concentrated in the surface soil layer.

Currently, the proposed method has developed technical documentation, conducted experimental fixing of the saturated slope, and positive results have been obtained.

It was decided to recommend the proposed method to all farms of the Altai Territory to strengthen the slopes of waterlogged lands.

Claims (5)

1. A method of strengthening slopes by sowing seeds of woody plants, including sowing seeds of woody plants in the soil of the slope, characterized in that during the period of mass distribution of seeds of moisture-loving, for example, willow plants, the surface of the edge and slope is sprinkled with coarse-grained, for example, river sand, a layer of 2 ... 6 mm, providing favorable conditions for active seed germination and rooting, associated with the accumulation of heat on the surface of the edge and slope, with good warming and moisture permeability of the soil. 2. The method according to claim 1, characterized in that during the period of mass distribution of seeds of hygrophilous willow plants, the seeds are forcedly distributed by shaking willow plants located near the reinforced slope during directional movement of the wind stream, or shaking with imported seeded plant branches above the slope and edge and you. 3. The method according to claim 1, characterized in that the width of the edge, sprinkled with sand, then willow seeds, is equal to 0.1 ... 0.5 of the height of the slope. 4. The method according to claim 1, characterized in that the surface of the edge and slope is sprinkled with sand in the form of a continuous cover and / or in the form of selective sections. 5. The method according to claim 1, characterized in that the annual and more growth of the plantings with the apex is bent to the soil surface obliquely down and up, left, right, at an angle, with the shoots crossing, until they come into contact with the soil and fix the inclined growth position by exposure to load with the formation in the process of growth under each lower kidney of a dense branched root system.

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