SU1586557A1 - Method of countererosion sowing - Google Patents

Abstract

The invention relates to rural and forestry and can be used, for example, to restore vegetation on arid pastures subject to wind erosion. The purpose of the invention is to increase the effectiveness of combating soil erosion by improving the conditions for rooting seedlings. Furrows are formed in the soil and the seeds are mixed with the soil, and then this mixture is introduced into the furrow, followed by rolling. The depth of the furrow is determined from the dependence H≥H + L, where H is the thickness of the soil layer blown by the wind for the period from sowing the seeds to rooting seedlings

L is the depth of the allowable embedment of seeds into the soil, compaction of the seed mixture is performed by rolling with the transformation of the furrow into a trough-shaped form, and the ratio of the width of the transformed furrow to its depth is equal to 7 - 14. 2 Il.

Description

The invention relates to forestry and agriculture, in particular to forest and meadow melioration, and can be used to grow planting material in nurseries, create protective forest plantations and restore vegetation on arid pastures subject to wind erosion.

The purpose of the invention is to increase the effectiveness of combating wind erosion of the soil by improving the conditions for rooting seedlings.

FIG. 1 shows a section of a furrow with a mixture of soil with seeds placed in it; in fig. 2 - the same after rolling.

The method is carried out as follows.

In the soil, perpendicular to the direction of the prevailing erosion winds, they form a furrow 1 of depth H and place a mixture 2 prepared beforehand or simultaneously with the formation of a furrow.

seed with soil. Then, rolling the thickness of the mixture is made equal to the depth of permissible seeding of seeds into soil f, and the furrow is transformed into a trough-shaped 3 with the ratio of its width L to depth H, 7-14.

Example. When creating melioration-fodder plantings from teresken gray on the desert pastures of the North-Western Prikasyp, seeds are sown in dense eroded soil in November, sown furrows are located in the longitudinal direction. During the period from sowing of seeds to good rooting of seedlings (10-14 days after their appearance) due to deflation, a layer of soil with a thickness of 2-3 cm is blown out. Taking into account the heterogeneity of the seeds used (i.e. sprouting) and possible in some years, a significant increase in the activity of the wind regime over average values, as well as a high variation in the area of mechanical

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the composition of the soil, the thickness of this layer can be increased by another 0.5-1.5 cm. Therefore, when the depth of seeding into the soil of the seed is 1.5-2 cm, the original groove of a rectangular cross-section with a width of 6-8 cm is cut to a depth of H 5 -6 cm. A part of the soil that is removed during this process, after thorough re-mixing with seeds, is returned to the furrow and then rolled over with a smooth I-IM roller, having an ellipse shape in axial section.

When the roller is in operation, its transverse axis of symmetry moves along the axis of symmetry of the furrow, and longitudinally, parallel to the soil surface. At the same time, the pressing force of the roller ensures the compaction of the seed mixture with the soil to a thickness of 1.5-2 cm (i.e., to the value of the depth of allowable embedment of seeds into soil E). As a result, the surface of the mixture layer turns out to be 0.5-1.5 cm below the soil blowing layer with thickness h, and the furrow acquires a trough-shaped form with the ratio of its width L to the depth HI equal to 10 (2.5-4, 5 / 25-45 cm). In field experiments on the Black Lands of the Kalmyk ASSR, the use of the method for the forest reclamation of the destructive areas of foci of desertification markedly increased the resistance of furrows to deflation; in the period before the emergence of seedlings prevented them from falling asleep with fine earth; by I 20-30 mm and more increased provision; the quality of seed and seedlings with moisture due to I accumulation of surface sediment I with trough-shaped furrows and, in general, allowed us to get 100% of the sowing effectiveness and survival of teresken shoots within 70% -80%, respectively 30-50 and 20 -30% higher production figures.

The advantages of the proposed method consist of the following: soil compaction and furrowing of a trough-shaped shape with smoothly sloping slopes

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when the ratio of its width to a depth of 7-14, significantly increases the resistance of the furrow to destruction by deflation and prevents it from falling asleep with fine earth; mixing seeds with soil, placing a layer of the mixture in the furrow, compaction and its location below the layer of possible blowing the soil during the period from sowing the seeds to strengthening the culvert improves the contact of the seeds with the soil, reduces the risk of them eating by animals (especially birds), prevents blowing seeds and young seedlings, provides them with additional moisture due to the accumulation of furrows surface runoff of precipitation.

In general, the proposed method, in comparison with the known one, allows growing plant cenoses from small and lowered seeds more successfully in arid climate and active soil deflation and reducing their consumption rate by 10-30% during sowing.

Claims (1)

Invention Formula The method of anti-erosion sowing, which includes the formation of a furrow in the soil, mixing the soil with the sown seeds, placing this mixture in the furrow and subsequent rolling, characterized in that, in order to increase the effectiveness of combating wind erosion of the soil due to improved conditions for rooting of seedlings, the depth of the furrow H is determined from the dependence , where h is the thickness of the layer of soil blown out during the period from sowing of seeds to rooting of seedlings; I - depth of permissible seed placement the soil by rolling, the tall mixture is compacted to a thickness of 1, and the furrow is transformed into a trough-shaped one, with a ratio of its width L to a depth HI of 7 to 14. five //////////////////// Л Fy W //////////, ////////////// Л : %%% /:%: 2