SU1404000A1 - Method of protecting soils from water erosion on slopes - Google Patents

Abstract

This invention relates to agriculture. The purpose of the invention is to reduce erosion processes and increase the productivity of cultivated crops. Across the slope along the contour lines create a system of forest belts. In inter-strip spaces, causa are designated for plowing from bi and sowing soil crops and winter crops and perennial grasses. Hatching plowing for spreading of row and tilled crops (or black steam) is carried out in the zone of deposition of snow stubs, on the strips directly running to the forest stands on both sides, 1 s. f-ly. Il., 1 tab. |

Description

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The invention relates to the field of agriculture and can be used to protect soils from water erosion on slopes.

The aim of the invention is to reduce erosion processes and increase the productivity of cultivated crops.

The drawing shows the layout on the slopes of forest belts, strips of zero plowing and perennial grasses or winter crops.

The method is carried out as follows.

Across the slope along the contours j, a system of forest belts 1 is created. In inter-strip spaces, ca 2 and 3 are allocated for plowing bi and sowing crop crops — winter or perennial grasses, respectively.

Slaughter plowing to accommodate flat and row crops (or black steam) is carried out in the snow plume deposition zone, on the strips 25 directly adjacent to forest plantations on both sides, the width of the strip for plowing being determined by the expression

(20 ... 25) n, 30

where a is the width of the inter-band space, m (usually 300-400 m); n is the steepness of the slope, hail, (as a rule, it does not exceed).

In the experimental plots, the effect of the width of the soil protection strip on soil removal was studied. On a slope with a steepness of up to 1 °, the most effective in soil protection

respect was a strip width of 20-25 m.

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soil culture. The tala water coming from the snow plume on the land plot (near-watershed) of the forest belt adjacent to the lower edge of the first part of the forest belt to the soil-protective strip 3 does not produce a crush on it. Here, there is also collomacy of fine earth. The passage through this lane, the water enters the plot with a dump 2 buoy located in the snow plume zone formed by the water-regulating forest belt 1. Here, under the snow, it also does not wash off, and in the snow slime there is a collimation of fine earth brought from above. The water is completely clarified. In this part and in the forest belt, water absorption is increased, which contributes to the reduction of runoff.

The research results are presented in the table.

Compared with the known method, the water flow decreased by 8.4 mm, soil flushing by 4.4 tons, and the yield increased by 4.5 centners per hectare.

The decrease in water flow and soil reduction under these conditions was due to the fact that an interfacial agrofone (perennial grass) was created in the inter-band space, which had a higher resistance, which prevented soil reduction, and water absorption occurred in areas 3 with bi snow cover.

Thus, the combination of background treatment and perennial tracts, taking into account the slope steepness, located in the inter-band space using the computational method, allows not only to reduce erosion processes, but also to increase moisture accumulation in the soil horizon and yield of cultivated crops.

Claims (2)

where almost all the fine earth was deposited coming from the upper portions with water. When the width of the strips is more than 25 m, the results were the same, therefore, an increase in the width of the strips is not useful, the claims are different. With a strip width of 25 m, their erosion efficiency decreases. In each of the noted owls, they organize their own crop rotation: in the cross of the snow plume — grain-paring, in the middle part of the inter-band space — soil-protective (grass-grain). The mechanism of erosion with this method of placing agricultural crops and agricultural backgrounds is as follows. In the process, the snow from the first place is freed from it by the middle part of the inter-band space, occupied 50 I. The way to protect soil from water erosion on the slopes, including planting forest belts, smooth ground spillage in the inter-strip space in the zone from the snow plume on both sides of the forest belt with subsequent sowing of agricultural crops, in order to reduce erosion processes and higher productivity of cultivated crops, forest belts are planted across the slopes, while in the deposition zone of the snow plume 0 0 five 0 . „ 0 five soil culture. The water coming from the snow plume on the field shelter (watershed) of the forest belt of the first part adjoining to the lower edge of the forest to strip of soil 3 does not produce a crush on it. There is even collomacy of fine earth. The passage through this lane, water enters the area with a dump 2, located in the area of the snow plume formed by the water-regulating forest belt 1. Here, under the snow, it also does not wash off, and in the snow layer there is clogging of the fine soil brought from above. The water is completely clarified. Water absorption is increased in this part and in the forest belt, which helps to reduce runoff. The research results are presented in the table. Compared with the known method, the water flow decreased by 8.4 mm, soil flushing by 4.4 tons, and the yield increased by 4.5 centners per hectare. The decrease in water flow and soil decrease under these conditions was due to the fact that an interfacial agrofone (perennial grass) was created in the inter-band space, which had a higher resistance, which prevented soil loss, and water absorption occurred in the winding zones. resistant snow cover. Thus, the combination of background treatment and perennial grasses, taking into account the slope steepness, located in the inter-strip space using the calculation method, allows not only to reduce erosion processes, but also to increase moisture accumulation in the soil horizon and yield of cultivated crops. Formula of Invention Formula of Invention five 0 I. The way to protect soil from water erosion on the slopes, including planting forest belts, a close sweep of soil in the inter-strip space in the zone from the snow plume on both sides of the forest belt, followed by sowing of agricultural crops, in order to reduce erosion processes and, with an increase in the productivity of the cultivated crops, the forest belts are planted across the slopes, while in the deposition zone of the snow plume they carry out a grain314040004 butthopoproparative crop rotation, and in the middle of which they carry out crop plowing, for its part of inter-band space, the soil-protecting grass-grain sowing- (20 ... 25) n is defined by the expression turnover. 2. A method according to claim I, characterized in that the width is according to no. Z b + forest belts Soil protection background + forest belts З бб + soil-protective background + forest belts 125.8 44.4 80.4. 4,834,2 125.5 49.5 76.0 0.1 120.8 36.0 84.8 0.438.7 + 4.5 where a is the width of inter-band space, m; n - slope steepness, hail.