RU1771545C - Water erosion control methods - Google Patents

Abstract

A method of combating water soil erosion. Usage: agriculture. SUMMARY OF THE INVENTION: Shafts arranged across the slope are aligned with the water-absorbing ditches located upstream of the slope. At the intersection of the shaft with the troughs, the water-absorbing ditches are arranged below the shaft along the slope. In the body of the shaft, where the marks of the bottom of the potential pond in front of the shaft are equal to the mark of the maximum permissible water level, openings are made. From the ditch, within the limits of the potential pond, fan-shaped diverging mole drains with slopes that prevent dusting and erosion by water flows are withdrawn in it. 4 ill.

Description

The invention relates to the field of agriculture, in particular to methods for protecting soils from erosion.

A known method of dealing with water erosion of soils, including crafts across the slope of the shafts, combined with water-absorbing ditches located higher up the slope, filling the ditches with organic material and laying on the adjacent slopes of the trough fan-shaped diverging mole drains at a depth of 0.5-0.6 m with a slope that do not allow siltation and erosion by water flows.

The disadvantage of this method is that it is applicable for a limited type of shaft channels, namely those created by plowing the ridges and canary slots with a planting plow with the removal of excavated soil below the slope. The shaft obtained in this way has a height of 0.3-0.4 m and a gentle downhill slope, which ensures unhindered passage of the tractor to the ditch and lowering of the mole blade into it to a sufficient depth (0.3-0.4 m). In areas with deep freezing of the soil and a large volume of meltwater runoff, it is recommended that the ditches be made deeper than in the southern areas. The higher shafts that form in this way prevent the molehills from being cut. If the drainage capacity exceeds the water-absorbing capacity of the ditch shaft with moleholes, it is possible to overflow water through the shaft ridge and break through it.

The purpose of the invention is to increase the efficiency of water erosion control in areas with a large volume of surface runoff by improving the conservation of shafts.

h x1 "-

cl

Сь СЛ

This goal is achieved by the fact that by the method of combating water erosion of soils, including crafts across the slope of shafts, combined with water-absorbing grooves located above the slope, filling the ditches with organic material and laying on the adjacent slopes of the trough fan-shaped diverging mole drains at a depth of 0.5- 0.6 with a slope that does not allow silting out erosion by water flows, at the intersections with hollows, water-absorbing ditches are laid below the shaft along the slope, while mole drains are removed from the ditch, disposing of x in place Prudkyy potential, but in the body of the shaft, which mark the bottom of the potential Prudkyy front shaft is around the maximum permissible water level, make openings. The proposed method differs from the prototype in the following features: at the intersection with the troughs, water-absorbing ditches are laid below the shaft along the slope, and mole drains are removed from the ditch, placing them in place of the potential pond: Q body of the shaft, where the mark of the bottom of the pond in front of the shaft is equal to the maximum permissible mark water level, make openings.

Figure 1 shows the layout of the shaft ditches and drainage mole drains, plan; Fig. 2 - the same, in the case of placement of ditch shafts in the middle of the forest belts; Figs. 3 and 4 show cross-sections of oval grooves along the axis of moleholes, respectively, when using groove shafts independently and in combination with a forest strip.

The method is carried out as follows.

Anti-erosion shafts 1 are formed across the slope along the main direction of the horizontal lines, combined in water-absorbing ditches 2, separated by jumpers 3 into separate containers. At the same time, the planting plows PPU-50A, the chain dredger ETTs-161, a bucket or rotary excavator - a ditch digging a ditch, the excavated soil is dumped lower down the slope, forming a shaft, making jumpers. This technology is used on an even part of the slope between the trough edges. In the hollows, a ditch is dug along the main shaft path, and soil is dumped higher up the slope. With the help of the level, a point is found along the shaft path with a mark equal to the mark of the permissible water level, and in this place an opening 4 is arranged in the shaft body, interrupting it or notching with the help of a plow or excavator. The surface of the earth in the opening and slopes of the shaft, it is advisable to tin. Then the mole rat KID-0.45; ЩН-2-140

or another from a ditch within a potential pond, they make radial molehills 5 with slopes that are safe for flooding and erosion. The depth of the mole drains is 0.5-0.6 m. The cavity of the ditch is filled with organic filler using feeders.

A second embodiment of the method is the formation of a ditch with a shaft located below along the entire path of the shaft-ditch (Fig. 2,4). An additional short ditch 6 is dug in the troughs with soil falling off into the body of the main shaft. This

the option is justified if the ditch is located in the middle of the forest belt. When melt or rain runoff occurs, ponds form in the trough in front of the shafts. Excess drive through openings

it flows into the lower-thawed section of the ditch and spreads along the moleholes about the subsurface layer of the slopes of the hollow. If the moleholes cannot cope with the absorption of the incoming water volume, the flow through the shaft does not occur and it is not damaged, and the water flows out of the ditch and flows along the undisturbed soil of the bottom of the trough, which is more resistant to erosion, protected by agricultural plants

or tinned.

The effect of using the method is to expand the applicability of the method under conditions where deeper ditches with an enlarged shaft, which does not allow cutting of moles, for example, in the conditions of the Northern steppe, Forest-steppe, as well as in the applicability of the method to enhance the stock-regulating role of forest belts, are more appropriate.

Claims (1)

The claims A method of combating water erosion of soils, including crafts across the slope of the shafts, combined with water-absorbing ditches located above the slope, filling the ditches with organic material and laying on the adjacent slopes of the trough a fan-shaped diverging mole drains at a depth of 0.5-0.6 m with a slope that does not allow siltation and erosion of water flows, characterized in that, in order to increase the efficiency of water erosion control in areas with a large volume of surface runoff by improving the conservation of shafts, in places intersections with hollows, water-absorbing ditches are laid below the shaft along the slope, while mole drains are removed from the ditch, placing them in place of the potential rod, and in the shaft body, where the mark of the maximum permissible level of the potential pond in front of the shaft is equal to do openings.  I44 N F MjfojNg g WWrmH fVC 111 i l f l 777 Fig. Fig. { AT 5 Fip4