RU2171559C2 - Method of cultivating soil in perennial plantation spacings - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves providing various agronomical procedures resulting in formation of tracks left by tractor-mounted unit wheels, each track strictly coinciding with plantation row spacing and being coordinated with respect to longitudinal axis of plantation row; providing deep soil cultivation beyond compressed strip zone; performing surface tillage of compressed strips of soil to depth of 3-5 cm and sowing strips with siderates; cultivating track soil strips formed by tractor-mounted unit wheels by subsoilers and simultaneously applying structuring liquid fertilizers once 3-5 years. Method allows soil structure to be kept. EFFECT: reduced power consumption, increased efficiency of tractor-mounted units in performing various agronomical procedures. 3 cl, 1 dwg, 1 tbl

Description

 The present invention relates to agricultural production, to a soil maintenance system in the aisles of perennial plantations, mainly in gardens.

 It is known that tractor units, vehicles, moving on various agricultural lands, compact the soil, because of which its structure is disturbed. If the aggregates and vehicles carry out the technological processes of cultivating, for example, wheat, beets, vegetables, and other annual crops, then their ruts, as a rule, do not coincide during multiple crossings, this especially applies to deep tillage and transport operations. Although during the growing season of vegetable crops in their row-by-track "track to track" tractor unit passes several times. However, after harvesting the fruits, this system is violated and the distribution of soil rolling by the wheels of tractor units to the entire field occurs almost uniformly.

 As for the technological operations performed by tractor units in perennial plant systems, for example, in gardens, a different picture is observed here. Tractor units, performing the necessary technological operations, for many years move along the aisles, intensively compacting the soil.

 In the spring-autumn period, row-spacing is plowed and soil compacted with a broken structure during the year is mixed with the rest not broken. As a result, firstly, when plowing the compacted layer, energy consumption increases, and secondly, due to repeated mixing of structural and structureless soils, the entire soil in the row-spacings becomes structureless. It “sags” in the row-spacings, forming a hollow along the row, which complicates, firstly, the work of tillage tools for weed control, and secondly, the water-air regime of the root system of trees, as well as the introduction and use of fertilizers by trees, are deteriorating.

 /cm. V. N. Sheptunov et al. Density of soil composition and its fertility. - Agrochemistry, 1982, N 8, p. 91-100 and I. S. Rogachev et al. Soil compaction by running systems of machines. - Agriculture, 1978, N 5, p. 74 /.

However, multiple / up to 20 times a year / passage through the aisles of the garden of various technological units, including heavy ones, significantly affects soil fertility / excessive compaction, biological activity is reduced, nitrification processes are suppressed, plant nutrient intake from the soil is suppressed, etc. d. / The root system of the fruit at a density of 1.6 g / cm ^{2 is} poorly developed and subsequently dies.

 It is known the placement of the working track from the movement of the wheels of the tractor units without displacement "trace in the trail" / see A.S. USSR N 1824040, class A 01 B 79/00, 06/30/93 g.

 It is also known that the track spacing between the rows is centered / coordinated / relative to the rows of stands and the loosening of the track marks to a depth of 4-8 cm / cm. RF patent N 2130701, class A 01 B 37/00, May 27, 1999 /.

 However, these well-known technical solutions do not provide, on the one hand, a reduction in energy consumption during soil cultivation, and on the other hand, the preservation of the structure of soil and subsoil layers.

 The closest technical solution of the known is the method of processing soil by mobile units, including additional cultivation of trace bands / cm. A.A. Yushin et al. Ways to reduce soil compaction by mobile aggregates. - Mechanization and electrification of agriculture, 1985, N 4 - prototype. Nevertheless, the measures described in this method do not reduce the negative impact of multiple passage of tractors through the cultivated area, it is established that after several passes of tractors even through one field, from one to five, the soil hardness along their tracks increases by 1.26 - 1, 96 times, soil density increases by 5 - 15%, porosity decreases by 3.0 - 8.8%. Due to excessive soil compaction, traction resistance increases and aggregate productivity decreases by 3–5%, energy costs and fuel consumption per unit of the cultivated area increases by 5–7%. Excessive compaction, especially with wheeled tractors, leads to a deterioration in the crumbling of the formation during plowing and an increase in lumpiness, which necessitates additional loosening of the soil, and, consequently, an increase in energy consumption.

 The problem to which the invention is directed, is to reduce energy consumption during soil cultivation, maintaining the structure of soil and subsoil layers.

 The problem is solved in that in the known method of maintaining soil between rows of perennial plantings, including various agro-technical treatments using tractor units and the formation of a track gauge, the peculiarity is that each track from the movement of the wheels of the tractor units is placed in the row-spacing track with coordination relative to the longitudinal axis of perennial plantings, while deep-spacing of the row-spacings is performed outside the ruts, and the ruts are processed to a depth of 3-5 cm and seeded with green manure, and every 3 to 5 years they are treated with deep rippers with the simultaneous introduction of structure-forming liquid fertilizers.

 In addition, a feature of the method lies in the fact that the soil cultivation of the rut is carried out by peeling with disk harrows.

 In addition, a feature of the method lies in the fact that fertilizer is applied to the soil between the longitudinal axis of perennial plantations and the near track from the movement of the wheels.

 An analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information, and identification of sources containing information about analogues of the claimed invention, allowing to establish that the applicant did not find a source characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype, as the closest in the totality of the features of the analogue, allowed us to establish a set of significant distinguishing features in relation to the technical result perceived by the applicant in the proposed method and set forth in the claims.

 Therefore, the claimed invention meets the condition of "novelty."

 The results of an additional search for known solutions showed that the claimed invention does not follow explicitly from the prior art for a specialist, since it is not based on a change in a quantitative attribute and its presentation in relation, as well as a change in its appearance, but is the result of a creative research work of the inventors.

 Therefore, the claimed invention meets the condition of "inventive step".

 The proposed method is illustrated in the drawing, where in FIG. 1 shows rows of trees 1 and 2 in a garden with aisle L, along which tractor unit 3 can move, with B being the distance from the longitudinal axis of a row of trees to the outer sides of the wheels of the tractor unit, and C the soil compaction zone from the wheels of the tractor unit.

 The method is as follows.

 Tractor unit 3, moving along the row-spacing with rows of trees 1 and 2, coordinates its rectilinear movement relative to the axis of rows of trees 1 and 2 and constantly maintains distance B.

The entire row spacing is subjected to normal tillage, except for the width of the soil compaction with the support wheels of the tractor units C, that is:
L _arr. = L - 2C
where L _arr. - the width of the aisle processing;
L is the row spacing;
2C - width of soil compaction by the support wheels of tractor units.

 In the fruiting industrial garden, where the aisles were kept under black steam, the age of apple trees was 15 years. The control was the production technology adopted for the production of row spacing under black steam.

 In the proposed method, the entire aisle was subjected to conventional processing, with the exception of the width of the soil compaction, by the support wheels of the tractor units. The tractor unit coordinates its rectilinear movement relative to the axis of the rows of trees.

 The soil over the entire width of the compaction with the support wheels of the 2C tractor units was peeled to a depth of 3-5 cm with a disc harrow in the second half of summer and sown with a vetch-oat mixture. Before harvesting, green manure was rolled up, and after harvesting it was planted into the soil by disking.

 The introduction of mineral fertilizers into the soil was carried out in the space between the longitudinal axes of the trees and the nearest working ruts from the support wheels.

 Once every 3-5 years, the working ruts from the support wheels of the tractor units were treated with a deep-ripper with a scoop to a depth of 50 cm with the simultaneous introduction of polyacrylamide / structurant /, which is also nitrogen fertilizer, the concentration of the aqueous solution of the builder was 0.33%. The consumption rate is 15-20 l / mg.

The studies showed that the density of the soil in the space between the longitudinal axes of the rows of trees and the nearest working track from the support wheels in the proposed method was 1.22 g / cm ³ . This is a fairly close indicator to that obtained with a single pass of the unit / 1.25 g / cm ³ /.

The technology used in the production ensured the density of sod-podzolic soil at the level of 1.45 g / cm ³ . In addition, indicators such as duty cycle, aeration, water resistance, structural coefficient and biological activity of the soil / respiration / were significantly higher in the proposed method / cm. table.

 In addition, the water permeability of the soil in the center of the row spacing was 8.2 times higher than in the soil where the generally accepted technology was used / 193 and 23.6 mm / g, respectively /.

 The proposed method for maintaining soil between rows of perennial plantations allows reducing energy consumption by 10% by reducing the resistance to movement of working bodies in less dense soil, and it is better to absorb nutrients in the root system of perennial plantings.

Claims (3)

 1. A method of maintaining soil between rows of perennial plantings, including various agro-technical treatments using tractor units and the formation of a track gauge, characterized in that each track from the movement of the wheels of the tractor units has a trace in the row-spacings with coordination with respect to the longitudinal axis of perennial plantings deep row-spacing processing is carried out outside the rut, and rutting is carried out to a depth of 3-5 cm and seeded with green manure, and every 3 to 5 years they are treated with hl agitator with the simultaneous introduction of structure-forming liquid fertilizers.  2. The method according to claim 1, characterized in that the soil tillage is carried out by peeling with disk harrows.  3. The method according to claim 1, characterized in that the application of fertilizers in the soil is carried out in the space between the longitudinal axis of perennial plantations and the near track from the movement of the wheels.

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