MD300Z - Process for soil tillage in perennial plantings - Google Patents

Abstract

The invention relates to agriculture, namely to horticulture, in particular to a process for soil tillage in perennial plantings.The process, according to the invention, includes the autumn or spring tillage of soil in the spaces between rows of plantings by means of a cultivator. The tillage is carried out in a band of a width of 55 cm on both sides of the row and includes the pruning of roots to a depth of 40 cm with a passive knife, mounted on the frame of the cultivator, and loosening of soil to a depth of 30 m with two loosening hoes, mounted near the knife at a distance of 5 cm. At the same time, the soil tillage is carried out every two years, beginning with the third year after planting at a distance of 0.5 m from the row line during the first tillage, with an increase in the corresponding distance from the row line by 0.2 m during each subsequent tillage until the bands of the tilled soil come together in the middle of the spaces between the rows of plants.The result is to simplify the soil maintenance technology, to provide the suspension of excessive decomposition of humus and to increase the productivity of perennial crops.

Description

The invention relates to agriculture, namely to horticulture, in particular to a method of tilling the soil in perennial plantations.

Tillage in perennial plantations aims to: minimize tillage in perennial plantations to stop excessive decomposition of humus in the soil; reduce costs related to soil care; simplify the technology of agricultural work; increase the receptivity of plants to agrotechnical measures applied in plantations; make maximum use of the fertility potential of the soil and planted land (Rubin S.S. Soil content and fertilizers in intensive gardens. Kolos Publishing House, Moscow, 1983, pp. 59-286).

The procedure of autumn tillage is known, which provides for tillage in the orchard in October by plowing with turning the arable layer every year on the land between the rows of trees. To exclude damage to roots thicker than 6...10 mm, the depth of plowing is set at 6...8 cm in the immediate vicinity of the tree trunks (in the row strip) and 12...15 cm in the middle strip of the interval between the rows. In the area, where the roots have not yet occupied the arable layer of soil, the depth of plowing is 16...18 cm [1].

The disadvantages of this process are: decomposition of humus in the soil; increased energy costs; decreased receptivity of plants to agrotechnical measures; incomplete use of the soil's fertility potential.

The autumn tillage process is also known, which involves tilling the soil in the orchard in autumn by ploughing with turning the arable layer each year in the interval between the rows of trees to a depth of: in young plantations 12...18cm in the row strip and 25cm in the middle strip of the interval; in fruiting plantations 10...12cm in the row strip and 18...20cm in the middle strip [2].

The disadvantages of this method are: soil tillage with turning the arable layer, which contributes to the decomposition of humus in the soil; increased energy costs related to fuels; decreased plant receptivity to agrotechnical measures applied in the plantation; incomplete use of the soil's fertility potential.

The process of renewing the unblocked soil is also known, which involves scarifying the soil in the intervals between rows of plants in multiannual plantations at a depth of 30cm and more with the PRVN (Ru) type cultivator and chisel type cultivators [3].

The disadvantages of this process are: damage to horizontal roots thicker than 10 mm, which reduces plant growth and productivity; increased energy costs.

The closest solution is the procedure, which provides for replacing deep plowing, 18...20cm, with turning the arable layer, in the middle strip of the interval between the rows of plants with plowing, at the same depth, without turning the arable layer [4].

The disadvantages of this procedure are: increased energy costs; the impossibility of applying the renewal of unclogging in plantations because in soil layers deeper than 20cm there are roots thicker than 10 mm, which are not recommended to be damaged according to the guidelines in force.

The problem that the process solves consists of avoiding excessive decomposition of humus in the soil, thereby ensuring the stabilization of the humus content on which soil fertility depends; simplifying the technological implementation of agricultural work; increasing the receptivity of plants to the applied agrotechnical measures; making the most of the soil's fertility potential by plants.

The method, according to the invention, includes autumn or spring tillage of the soil in the intervals between the rows of plants with a cultivator. Tillage is carried out in a strip 55 cm wide on both sides of the row and includes cutting the roots to a depth of up to 40 cm with a passive knife, installed on the cultivator frame, and loosening the soil to a depth of 30 cm with two scarifying paws, installed next to the knife at a distance of 5 cm. At the same time, tillage is carried out every odd year, starting with the 3rd year after planting the plants, at a distance of 0.5 m from the row line at the first tillage with an increase in the respective distance from the row line by 0.2 m at each subsequent tillage until the tilled soil strips reach the middle of the interval between the rows of plants.

The result is to simplify soil care technology, ensure the cessation of excessive humus decomposition, and increase the productivity of perennial plantations.

The invention is explained by the drawings in Fig. 1 - 4, which represent:

- fig.1, the position of the working parts of the adapted cultivator, in the process of scarifying the soil to stimulate root branching in the interval between plant rows in the third year after planting;

- fig. 2, the position of the working parts of the adapted cultivator, in the process of scarifying the soil to stimulate root branching in the interval between plant rows in the fifth year after planting;

- fig. 3, the movement of the strip of land where the soil is subjected to scarification to stimulate root branching over the years during the plantation exploitation period;

- fig. 4, the architectural features of the root system, for example, of the tree, in plantations, where the soil is subjected to scarification to stimulate the branching of horizontal roots.

To carry out the soil scarification process to stimulate horizontal branching, the following technological elements were used:

1 - stem (trunk) of the plant;

2 - soil surface;

3 - adapted cultivator frame;

4 - root cutting knife;

5 and 6 - cultivator scarifying paws;

7 - the width of the strip of land between the rows of plants where the soil is subjected to scarification to stimulate root branching;

8 - the distance by which the strip of land moves towards the center of the interval between rows, where the soil is subjected to special scarification every two years;

9 and 10 - horizontal skeletal roots;

11 - skeletal root intermediate according to the nature of its location in the soil;

12 - vertical skeletal root;

13 - branch of the root subject to cutting;

14 - vertical skeletal root oriented towards the soil surface;

15 - vertical semi-skeletal root oriented towards the depth of the soil;

16 - 23 - the distance between the plant row line and the strip, where the soil is subjected to the respective special scarification per year.

The procedure, in the case of the orchard with planting distances of 5 x 3m taken as an example in figures 1-4, is carried out as follows.

First, to implement the claimed method, one of the mass-produced cultivators for perennial plantations, such as KSG - 5 (Ru), KSM 5 (Ru) and PRVN (Ru), is adapted, depending on the distance between the rows of plants. The adaptation consists in installing on the cultivator frame a passive knife 4 (or if the cultivator is equipped with a knife, having the function of excluding deviations from the direction of movement, it is replaced with a special one), which can cut the roots to a depth of 40 cm, and two scarifying paws 5 and 6 from the cultivator equipment (Fig. 1 and 2), at which the working width is 24 cm. The distance between the knife 4 and the first scarifying paw 5 is 5 cm. Thus accommodated, the cultivator can perform scarification to stimulate branching in the strip of land 7 with a width of 55cm (fig. 1 and 2). The knife 4 cuts the roots to a depth of 40cm, and the paws 5 and 6 scarify the soil to a depth of 30cm, thereby creating conditions for stimulating additional branching (due to the fact that under the action of the knife roots with a thickness of less than 5mm fall, which regenerate easily and guaranteed by conceiving new branches; the soil is loosened) of the horizontal roots.

Scarification is carried out every year, in autumn in October, or in spring, as soon as the physical condition of the soil allows, starting with the third year after planting (fig. 2). The strip of land 7, where the soil is subjected to special scarification to stimulate the branching of horizontal roots, moves each time (every year), towards the center of the interval between the rows of plants at a distance of 20cm equal to the width of strip 8 (fig. 2). Thus, in the case of plantations with a row spacing of 5 m, soil scarification to stimulate root branching is carried out parallel to the row at the following distances from the row line in the respective years after planting the plants: year 3 - 0.5 m, year 5 - 0.7 m, year 7 - 0.9 m, year 9 - 1.1 m, year 11 - 1.3 m, year 13 - 1.5 m, year 17 - 1.9 m (Fig. 3). The last soil work to stimulate horizontal root branching is carried out depending on the distances between the rows of plants in the following years after planting as follows: row spacing 8 m - in year 25; 7 m - in year 23; 6 m - in year 21; 5 m - in year 17; 4 m - in year 15; 3m - in the 13th year. After these years of applying the claimed process, the horizontal roots spread radially freely, and are no longer subject to periodic pruning. Following the scarification of the soil to stimulate the branching of the roots, the root system of the tree acquires a specific architectonics (Fig. 4). The skeletal root of type 9 located in the soil layer of 10...30cm, being subjected to pruning in the 3rd year after planting, in the following years evolves into a branching system of type 13, which very often spreads the soil layer of 10...40cm - the most fertile layer. This circumstance has a positive effect on the growth and fruiting processes of the plant, because the provision of plants with nutrients improves. At the same time, the plant also possesses skeletal, semi-skeletal horizontal roots, type 10, which have not been subjected to branching pruning, in the soil layer of 40...60cm. The branches of root 10 are oriented mainly towards the soil surface (roots 14), the others (roots 15) are oriented towards the depth of the soil. In case of excessive drought the plant is fed by roots of type 11, 12 and 15 located in the deeper layers of the soil, which are relatively wetter than the superficial layers.

In plantations where it is planned to apply the claimed procedure every year instead of the usual deep (18...20cm) autumn plowing, superficial work is applied by autumn cultivation or discing to a depth of 6...8cm. And in the year when it is required to achieve stimulation of horizontal root branching, in October, first scarification is carried out in the technological implementation described above and subsequently, immediately or after a few days, the soil is cultivated (disc) superficially, to a depth of 6...8cm, over the entire width of the interval between the rows. However, cultivators with a large working width (3.0 - 3.5 - 4.0 - 4.5 m) can be accommodated to make it possible to scarify the soil deeply to stimulate root branching simultaneously with its superficial cultivation over the entire width of the interval. By replacing the usual deep plowing, which involves turning the arable layer, with superficial processing (cultivation, harrowing) that does not involve turning the layers, excessive decomposition of humus is avoided, stabilizing its content in the soil of the multiannual plantation.

1. Агроуказания по плодоводству для Мольдавской SSR. Kartea Moldoveneaske, Chişinău, 1981, p. 52, 53

2. Kuteinikov V.K., Losev N.P. Mechanization of work in gardening. Colossus. Moscow, p. 52, 53

3. Михалаке И.Н. Обработка почвы на выроногниках, том.2. Типография Mladinska, Ljubljana, 1986, p. 304, 305

4. Bogdan I., Donică I. Apple fruiting depending on soil care and tillage. Research Institute for Fruit Growing, Chisinau, 2006, vol. 5, p.185, 186, 192

Claims (1)

Soil tillage process in multiannual plantations, which includes tillage in the intervals between plant rows with a cultivator, characterized in that the tillage is performed in a strip 55cm wide on both sides of the row, and includes cutting the roots to a depth of up to 40cm with a passive knife, installed on the cultivator frame, and loosening the soil to a depth of 30cm with two scarifying paws, installed next to the knife at a distance of 5cm, at the same time, the tillage is performed every odd year, starting with the 3rd year after planting the plants, at a distance of 0.5m from the row line at the first tillage with an increase in the respective distance from the row line by 0.2m at each subsequent tillage until the tilled soil strips reach the middle of the interval between plant rows.