RU2674621C1 - Method of producing gates in full fallow - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the field of agriculture, and in particular to methods of producing gates for snow retention. Method includes summer sowing of a full fallow crop, its cultivation and embedding into the soil in the flowering phase with the formation of rows of rocker plants from its part. Embedding the full fallow crop in the soil and the formation of gates of width from 0.5 to 1 m is carried out by treating the field with a disk tool with its movement along a spiral along the contour of the field being processed. Rape or mustard is used as a vapor culture.EFFECT: method allows to increase the moisture reserves in the soil in winter, to protect the soil from erosion and to increase the yield of agricultural crops.3 cl, 1 dwg, 5 ex

Description

The invention relates to agriculture, and in particular to methods for creating scenes for snow retention, protecting the soil from erosion and increasing crop yields. •

A known method of creating the wings in a busy couple, including summer sowing of steam-cultivated crops, their cultivation and incorporation into the soil with the formation of their part of the rows of rocker plants (SU 738533, 06.06.80).

The closest in technical essence is the way to create the wings in a busy couple, including summer sowing of steam-occupied crops, their cultivation and planting in the soil in the flowering phase with the formation of rocker plants from some of their rows (SU 1711697, 02.15.92).

The disadvantage of these methods is that they can be used only in conditions of placement of fields with clearly expressed predominant wind directions in winter. With versatile wind directions in the winter, the desired result on the accumulation of snow cover in the required quantities cannot be achieved. In addition, to exclude the formation of runoff and soil erosion during snowmelt, it is important to take into account the topography of the field where snow is retained in winter.

The objective of the present invention is to increase the moisture reserves in the soil by increasing the accumulation of snow cover in the winter.

The technical essence of this invention lies in the fact that in an area with a weakly pronounced predominant direction of air flows in the wind rose in the fields, the wings are created in a spiral, which allows you to accumulate snow cover in different areas for any direction of snowstorm transfer. As a result, uniformity of its deposition and increase in total reserves are achieved.

The present problem is solved in that in the method of creating a backstage in a busy couple, including summer sowing of a steam cultivated crop, its cultivation and incorporation into the soil in the flowering phase with the formation of rows of rock plants from its part, incorporation of a steam cultivated culture into the soil and the formation of the curtain scenes with a width of 0, 5 to 1 m is carried out by treating the field with a disk tool with its movement in a spiral along the contour of the field being treated, and rape or mustard is used as steam-occupying crops.

In FIG. 1 shows a diagram of the implementation of this method.

The diagram shows: 1 - the place of arrival in the field of a tillage unit; 2 - place of departure of the unit from the treated field; 3 - rows of rocky plants remaining after processing; 4 - rows with a steam cultivated crop introduced into the soil.

The method is as follows. In the summer period (July 10–20), continuous sowing crops (mustard, rapeseed) are sown in an ordinary way with a row spacing of 10–20 cm. Falling summer precipitation actively affects the seedlings and the formation of green mass (15–20 t / ha) of steam-growing crops . At the end of September, the green mass of steam-harvesting crops is embedded in the soil with a disk tool of the BDT type (heavy disc harrow) by spiral passes along the field contour. The width of the inter-backstage space is from 3 to 10 m, and the width of the backstage itself up to 1.0 m is determined by the density of standing and the height of the steam-occupying culture (the higher and denser the culture, the narrower the width of the backstage and the wider the backstage space). The formation of the wings in a spiral creates the most favorable conditions for snow retention on the field. Virtually no blowing and snow transfer zones. In addition, the incorporation of green mass into the soil with a disk tool also allows the placement of plant residues in the soil in a certain direction, which reduces the subsurface runoff of moisture in the upper soil layer.

The proposed method was tested in five versions on the experimental field of the Altai State Agrarian University. During the vegetation period, 162 mm of precipitation fell.

Example 1. Sowing rapeseed in a row method with a row spacing of 10 cm. Was carried out on July 10. The height of the plants reached 110 cm. Plant incorporation into the soil was carried out on September 26 with the BDT gun — 10 passes along the field contour in a spiral. The width of the backstage was 0.5 m. The backstage space was 10 m. Measurement of snow cover carried out in the month of March of the following year, after planting green mass into the soil, showed that its average height varies between 76-81 cm. Replenishment of moisture reserves after rapeseed steam amounted to about 75% of the amount of precipitation for the period between autumn and spring determination. A further increase in the width of the interclinical space does not lead to an increase in the accumulation of snow cover.

Example 2. Sowing rapeseed in a row method with a row spacing of 20 cm was carried out on July 10. The height of the plants reached 110 cm. Plant incorporation into the soil was carried out on September 26 with the BDT gun — 3 passages along the field contour in a spiral. The width of the backstage was 1 m. The inter-back space was 3 m. Measurement of snow cover carried out in the month of March of the following year, after incorporating green mass into the soil, showed that its average height varies between 72-80 cm. Replenishment of moisture after rape vapor amounted to about 75% of the amount of precipitation for the period between autumn and spring determination. A further decrease in the width of the interroom space and an increase in the width of the wings leads only to a decrease in the supply of organic substances to the soil and does not play a role in increasing the height of the snow cover and the moisture reserves in the soil.

Example 3. Sowing mustard in a row-wise way with a row spacing of 20 cm was carried out on July 11. The height of the plants reached 100-120 cm. Plant termination was carried out on September 26 with the BDT gun — 10 passes along the field contour in a spiral. The width of the backstage was 0.5 m. The size of the inter-back space was 10 m. Measurement of snow cover carried out in the month of March following the incorporation of green mass into the soil showed that its average height in this section of the field varied within 71-77 cm.

Example 4. sowing of mustard in a row method with a row spacing of 20 cm was carried out on July 11. The height of the plants reached 100-120 cm. Plant termination was carried out on September 26 with the BDT gun - 3 passes along the field contour in a spiral. The width of the backstage was 0.7 m. The size of the inter-back space was 3 m. Measurement of snow cover carried out in the month of March following the incorporation of green mass into the soil showed that its average height in this section of the field varied between 68-76 cm.

Example 5. Control. Sowing rapeseed in a row method with a row spacing of 10 cm was carried out on July 10. The height of the plants reached 110 cm. Plant incorporation into the soil was carried out on September 26 with the BDT gun — 10 shuttle passes through the field. The width of the backstage was 0.5 m. The backstage space was 10 m. Measurement of snow cover carried out in the month of March of the following year, after planting green mass into the soil, showed that its average height varies between 56-62 cm. Replenishment of moisture reserves after rapeseed steam amounted to about 47% of the amount of precipitation for the period between autumn and spring determination.

Claims (3)

1. A method of creating a backstage in a busy couple, including summer sowing of a steam-cultivated culture, its cultivation and incorporation into the soil in the flowering phase with the formation of rows of rocker plants from its part, characterized in that the incorporation of a steam-occupied culture into the soil and the formation of the curtains with a width of 0.5 up to 1 m is carried out by treating the field with a disk tool with its movement in a spiral along the contour of the field being treated. 2. The method according to p. 1, characterized in that rapeseed is used as the steam-occupied culture. 3. The method according to p. 1, characterized in that the mustard is used as a steam-occupied culture.

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