RU2653548C1 - Drip irrigation method of an intensive garden - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture and will find its application in the cultivation of intensive gardens and vineyards on stony and light soils. In the implementation of the drip irrigation method of an intensive type garden, a pit is dug out to plant the seedlings. Bottom area of the pit corresponds to the area of the projected tree crown. At the bottom of the pit a 3–7 cm thick screen is placed. Screen is made of clay mixed with pieces of tubes of polymer elastic material. Number of tubes is 30–40 % of the volume of clay. Pit is filled with the excavated soil. In the middle of the pit a seedling is planted. It is covered with the same soil. Drip irrigation is performed. Losses of irrigation water are excluded due to the deep filtration of moisture beyond the root layer. On soils with high permeability conditions are being created to ensure even moistening of the root layer of trees.

EFFECT: favorable air and water regime and a balanced mineral nutrition during the rooting of the seedling are maintained.

1 cl, 2 dwg

Description

The present invention relates to the field of agriculture and will find application in the cultivation of intensive type gardens and vineyards on stony and light soils.

A known method of drip irrigation of intensive-type gardens, including planting trees according to the 4.2 × 1.5 pattern and laying along the rows of pipelines with droppers at the rate of 3 droppers per tree with the formation of a continuous strip of moisture (Ovchinnikov A.S., Borodychev V.V. ., Kucher D.E., Shuravilin A.V. / Drip irrigation of an intensive apple orchard on sod-podzolic soils of the Moscow region // Izvestiya Nizhnevolzhsky Agro-University Complex: Science and Higher Professional Education No. 2, 2016, p. . - 211-220. Volgograds s State Agrarian University (Volgograd).

It was experimentally established that when drip irrigation of sandy soils forms a wedge-shaped contour of moisture. It is characterized by an insignificant horizontal distribution of moisture and its predominant penetration in depth beyond the root layer of the soil (E.V. Shein / Soil paradoxes / journal "Nature" No. 10, 2002, pp. 8-11.

When drip irrigation of trees on sandy, sandy, and stony-sandy soils when applying irrigation rate, designed to moisten the root layer (0.5-1.0 m), significant water loss will occur due to filtering it outside the root layer .

A known method of drip irrigation on sandy, sandy and rocky-sandy soils, including laying along a row of trees of pipelines with droppers at the rate of 2-5 droppers per tree at a distance of at least 50 cm from the tree stem (A.V. Shuravilin, A.I. Kebeka // Reclamation "IFC Ekmos 2006, p. 463-468).

The disadvantage of this method when irrigating plantings on soils with high water permeability, which include sandy, sandy loam and rocky-sandy soils, is also the loss of water due to depth filtration, since the filtration of water outside the moistened root layer is 0.5-1.0 m occurs within 1-2 hours after the start of watering. If frequent irrigation is carried out with small norms to a shallow depth using a large number of droppers, a poorly developed, mainly fibrous root system is formed, located in the immediate vicinity of the droppers. Such roots cannot fulfill the bearing function, which leads to windfall of trees.

The purpose of the invention is a significant reduction in water loss during drip irrigation on soils with high water permeability while ensuring uniform moisture and maintaining a favorable water-air regime of the root layer of trees.

To achieve this goal, the proposed method of drip irrigation of an intensive-type garden, including planting seedlings of trees and laying pipelines with droppers, in which, according to the invention, a pit with a bottom area corresponding to the area of the projected crown of a tree is dug out, at the bottom of the pit, a 3-thick screen is placed 7 cm, made of clay mixed with pieces of tubing of polymer elastic material 4-10 cm long and 1.0-3.0 mm in diameter in an amount of 30-40% of the clay volume, then fill the hole yayut excavated soil, in the midst of its seedling planted and covered it with the same soil. In addition, for better rooting, the seedling can be covered with soil mixed with urea-formaldehyde fertilizer Men, prepared according to the method protected by RF patent No. 2497338.

A new technical result from the application of the proposed solution is that when the screen reaches with the water supplied from the dropper, the clay swells, its volume increases, at the same time, the tubes randomly placed in the screen are clamped and the water is filtered out of the root layer. After the volume of water calculated from the droppers is supplied to moisten the root layer, and watering is stopped as the root system of the plant uses moisture, the clay volume decreases, the compressed section of the tubes straightens, and air and moisture permeability are restored. Thus, in soil with high moisture permeability, conditions are created to maintain a water-air regime favorable for plants. Moreover, the application of Menom urea formaldehyde fertilizer when planting seedlings into the soil, prepared according to the method protected by RF patent No. 2497338, provides a favorable moisture regime and balanced mineral nutrition during the rooting of the seedling.

The essence of the proposal is illustrated in the drawing, where in FIG. 1 shows a general view of a tree planted and irrigated according to the proposed method, FIG. 2 is a sectional view of the landing pit.

The proposed method is as follows.

Before planting the seedlings, they dig a hole 1 with a depth of 0.5-1.0 m, the bottom area of the hole corresponds to the projected area of the planned crown of the tree 5. At the bottom of the hole 1, a screen 2 of 3-7 cm thickness is formed, made of clay mixed with pipe sections 3 of polymer elastic material with a length of 4-10 cm and a diameter of 1.0-3.0 mm Then, pit 1 is filled with excavated soil 4. A seedling 6 is planted in its middle, its root system is covered with soil 7 mixed with urea-formaldehyde fertilizer Men, prepared according to the method protected by RF patent No. 2497338. Along a row of plants lay a pipe 8 with droppers 9.

Consider an example implementation of the proposed method.

On the garden site, dig holes 1 with a depth of 1 m and a bottom area of 1 m ² . At the bottom of the pit 1, a screen 2 is formed, laying a mixture of swellable clay (for example, containing montmoriolonite) with pieces of polymer tubes 3 with a diameter of 1-3 mm and a length of 4-10 cm. The tubes in the clay are located randomly, partially protruding beyond the screen to maintain water air regime of soil. Their volume is 30-40% of the clay volume, which corresponds to the average porosity of loamy soils. The optimal thickness of the screen 2 formed from the stacked mixture is 3-7 cm. After laying the screen 2, the pit is filled with excavated soil 4, the root system of the seedling 6 is placed in the central part of the pit and covered with soil 4 with the addition of urea-formaldehyde fertilizer in an amount of 40-50% of volume of backfill - 0.5 m ³ . At an average density of Menom 16 kg / m ^3, 4 kg of fertilizer will be applied to one tree. The moisture-absorbing capacity of this amount of fertilizer exceeds 16 liters of water. The total water-holding capacity of the soil in the volume of the location of the root system of the seedling will be 20-25 liters. With an irrigation rate of 50 m ³ / ha, about 30 liters of water will be supplied per seedling. Most of this water will be absorbed by the fertilizer, displacing potassium from it and dissolving phosphorus phosphate flour, inlaid granules. In this case, a process of successive transition of urea to ammonium and then to nitrate will occur. Thanks to these processes, favorable water-air and nutritional regimes will be created in the zone of seedling root placement. Excess water supplied will seep deeper than the root layer to the screen. At the same time, the clay of the screen, absorbing moisture, will swell and pinch the tubes. Thanks to this, the screen will lose water permeability, and irrigation water will linger on its surface, spreading along the capillaries to the sides. The clay particles of the screen, having a high absorption capacity, retain mobile batteries on their surface, excluding their entry into groundwater. The implementation of the screen with an area corresponding to the projection of the planned crown 5 of the tree, will ensure due to the spreading of moisture on the screen 2 the formation of a moistened soil volume sufficient to form the root system of the tree 6 in it, ensuring its resistance to windfall. After watering ceases, as the moisture is expended by the roots of the plants and it evaporates from the soil surface, the clay of the screen will dry out and decrease in volume. This will allow the tubules to straighten and restore the breathability of the screen 2. Thus, conditions are created for the distribution of the root system of the seedling to the depth of the screen and the use of moisture and mineral nutrition accumulated on its surface.

As a result of the application of the proposed method of drip irrigation of an intensive type garden, losses of irrigation water due to deep moisture filtration beyond the root layer of the soil layer are eliminated and conditions are created to ensure uniform moistening of the root layer of trees on soils with high permeability and maintain a favorable water-air regime.

Claims (1)

A method of drip irrigation of an intensive-type garden, including planting tree seedlings and laying pipelines with droppers, characterized in that a hole with a bottom area corresponding to the area of the designed tree crown is dug out for planting seedlings; a screen 3-7 cm thick made of clay is placed at the bottom of the hole mixed with pieces of tubing of polymer elastic material 4-10 cm long and 1.0-3.0 mm in diameter in an amount of 30-40% of the clay volume, then the pit is filled with excavated soil, a seedling is planted in its middle and it is covered with the sameRunt.

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