RU2042298C1 - Method for reclamation of eroded slopes - Google Patents

Abstract

FIELD: agriculture and silviculture. SUBSTANCE: method involves terracing of slopes, making collecting trenches on terrace surface, planting and growing of plants on terraces. A novelty of the method resides in that the upper mounds of the terrace are cut with an inclination towards the top of ravine while the lower ones, inclined towards its mouth. A water basin is constructed at the top of the ravine. EFFECT: higher efficiency. 2 cl, 3 dwg

Description

 The invention relates to agriculture and forestry, in particular to methods of protecting soils from erosion and can be used for the development of highly eroded territories.

A known method for the development of eroded slopes, including cutting excavated bulk terraces in the form of spirals with a reverse transverse slope of the canvas and growing plants. In order to reduce erosion on steep slopes by creating conditions for full retraction drain and its absorption soil on terraces last cut at an angle to the contours ^of 0.3-3, and in the web terraces arrange recesses filled with water absorbing material, above which the web of terraces create clogging areas by sowing perennial grasses.

 The disadvantage of this method is that the spring regulated stock cannot be used for regular watering of plants planted on the terraces.

 There is also a known method for the development of eroded slopes, including cutting excavation-embankment terraces in areas between deep erosion formations, the device of transverse dams in the form of barages and planting forest crops on the canvas of terraces and platforms formed between dams. Part of the cut terraces is combined with bottom dams, which are constructed in the form of horizontal platforms with a water-retaining shaft, and the canvas of combined platforms with terraces is arranged 0.3-0.5 m above the terrace fabric.

 The disadvantage of this method is the large labor costs for cleaning and planning of erosion formation.

Closest to the proposed one is a method of anti-erosion tillage on slopes, including the marking of horizontal tracks, cutting excavation-embankment terraces with a reverse slope, deep non-dump loosening of their canvas and the construction of a water-holding roller on the embankment and the collector trench on the excavation with filling it with stones . In order to improve the completeness of development of the area and improve the quality of processing melkokonturnyh steepness of slope portions 18-35 ^{of the} cutting performed with the terraces of the sole slopes upwards, while the bulk of the upper terrace slope recessed portion overlaps the previously loosened webs the lower terrace, and water-retaining roller and the trench-form collector only on the top terrace.

 The disadvantage of the prototype is that when entering the terraces (especially the upper one on the slope) of the drain, exceeding the calculated value, overfilling of their capacity and transverse erosion of all terraces, i.e. secondary erosion processes occur that impede mechanized tillage on terraces, as well as insufficient productivity of planted plantings due to the fact that the runoff is not used for irrigation.

 The proposed method includes terracing slopes, the device on the canvas terpas collector trenches, planting and growing plants. To prevent secondary erosion processes and the use of runoff for irrigation of plantings, the upper ramparts on the slope are cut with a longitudinal slope towards the top of the beam, and the lower with a slope towards the mouth; a pond is arranged at the top of the beam.

 A comparative analysis of the proposed method with the prototype showed that such signs as terracing of the slopes, the device on the canvas terpas collectors, planting and growing plants are common with the prototype. Signs relating to the cutting of the upper shafts-terps with a slope towards the top of the beam, and the lower with a slope towards the mouth, are absent in the prototype, therefore, the proposed method meets the criterion of "novelty." The device of the reservoir at the top of the beam is a sign that complements the main features of the invention, therefore, can be recognized as additional.

 Figure 1 shows a mastered beam, a top view; figure 2 is a cross section of the slope aa in figure 1; figure 3 is a cross section of the slope BB in figure 1.

 The proposed method is as follows.

 In the beam to be mastered, a tacheometric survey is carried out, places for laying terraces are planned, for the device of the reservoir at the top of the beam the dam axis and the site of excavation necessary for dumping the dam.

 The body of the dam 1 is sprinkled, for example, with scrapers, with layer-by-layer moistening and compaction of the soil. Dam 1 forms an erosion pond at the mouth of the beam 2. From the dam 1 with a slope towards the mouth of the beam, lower excavation-bulk terraces 3 are cut, for example, with the TR-2A, TS-2.5, TK-4 terraces. The longitudinal slope of the terraces of 0.005-0.05 is chosen based on the provision of non-washable water velocity for these soils.

 On the canvas of the lower excavation-embankment terraces 3 on the outer upper edge of the excavation, a collector trench 4 is dug, for example, with an E-2621 A excavator equipped with a back blade. The width of the collector trench 4 is 0.6 m. The earth from the trench collector 4 is poured into the bulk part of 5 terraces, and the collector trench 4 is filled with inorganic material 6, for example, slag.

 Plants are planted on the terraces, while soil preparation and planting (sowing) of plants is carried out according to the technology adopted in this zone with serial tools, for example, a PNS-4-35 plow, an ORN-2.5 cultivator, an MDR-1 planting machine, etc. the main breeds 7 are planted in the bulk part 5 of terrace 3, and creeping species 8, for example, Cossack juniper, are planted in the excavated part of the terrace.

 Above the edge of the beam create inclined shafts-terraces 9, which are shafts with a base width of 2-5 m. The shafts are formed by shifting the soil from one or two sides, for example, a D-271 bulldozer. The height of the shaft is 0.3-0.6 m. The notch at these terraces is made 2-4 m wide with a longitudinal slope of 0.001-0.005. Below the edge of the beam, on its banks, the inclined shafts-terraces 9 pass into the excavation-bulk terraces 10 with a reverse slope of the canvas of 0.050-0.08 and a longitudinal slope towards the top of the beam. The upper excavation-bulk terraces 10 are cut, for example, with terraces TR-2A, TS-2.5, TK-4. The longitudinal slope of the terraces of 0.005-0.05 is chosen based on the provision of non-washable water velocity for these soils.

 When implementing this method, part of the runoff from the catchment and gully shores is redistributed by the upper terraces to the top of the girder and fills the reservoir 2. Water accumulated in the reservoir can subsequently be used for irrigation by letting plants planted on the terraces, which will provide a higher survival rate of plants and more reliably fix slopes of the beam.

Claims (2)

 1. METHOD OF DEVELOPMENT OF ERADED SLOPES, including cutting terraces on slopes, arranging collector trenches on terraces, planting and growing plants on terraces, characterized in that when developing beam slopes, the upper shafts of the terrace on the slope are cut with a slope towards the top of the beam, and the lower ones with a bias towards the mouth.  2. The method according to claim 1, characterized in that a pond is arranged at the top of the beam.

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