RU2169448C1 - Fallow field soil tillage method - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves tilling soil in autumn by means of needle-type or other disks; providing deep tillage or subsoil plowing; tilling soil in spring- summer season by means of needle-type or other disks for destructing dry compacted soil crust and forming two layers, with lower layer being formed at (3-4) - 16 cm depth of soil with small-grain structure, soil aggregate sizes of 0.5-5.0 mm and density of 1.0-1.1 g/cu. cm and upper layer being formed at depth of 3-4 cm with small-grain structure and soil aggregate sizes of 0.2-3.0 mm and density of 0.75-0.85 g/cu. cm; simultaneously combing plant remains into upper layer and mulching tilled field surface with plant remains. Method allows power consumption to be reduced by 22-26%. EFFECT: increased efficiency in cleaning field from weed plants, improved accumulation and retention of soil moisture and increased yield of farm crops.

Description

 The invention relates to agriculture and can be used in the tillage in a steam field.

 A known method of tillage in row-rows of row crops and other crops, in which, when treating dry sowing soil to create an upper dry layer, the soil is subsequently loosened with soil by combing weeds with rotary hoes (see RU 2148898, A 01 B 79/00, 2000).

 A disadvantage of the known method is that when treating dry drainage soil, a moisture-saving layer is created at a depth of 4-6 cm, and the field surface is not sufficiently protected from wind and water erosion.

 The closest analogue of the present invention is a method of tillage, including pre-treatment of the formation to a depth of 40 cm, subsequent loosening and compaction of the upper layer to a depth of 4-6 cm, loosening and compaction of the formation at a depth of 4-6 to 12 cm (see RU 2148303, A 01 B 79/00, 2000).

 The disadvantage of this method is that the created fine-grained layer at a depth of 4-6 to 12 cm has an increased density, weeds are not combed out efficiently enough. In a steam field, if there is a soil crust on the surface of the field, the racks of working bodies of deep-rippers, plows and cultivators shift soil blocks, which makes it difficult to perform subsequent operations of loosening and destroying weeds. The field surface is poorly protected by crop and plant debris from wind and water erosion.

 The objective of the invention is to create a soil cultivation technology in a steam field, which ensures the formation of cultivated soil layers for maximum accumulation, conservation and productive use of soil moisture by agricultural plants, giving the soil layers an optimal structural state for better development of the root system of cultivated plants, destruction of weeds, surface protection fields from wind and water erosion.

 The technical result is an increase in the quality of soil treatment in steam fields, an increase in its moisture storage and moisture-saving ability, weed control, protection of the field surface from wind and water erosion.

This is achieved by the fact that a two-layer soil horizon is created in the steam field, in which the upper loose layer is saturated with crushed plant residues, and the lower layer is loose and more compacted. In the fall, after harvesting, surface treatment of the soil is carried out under eroded hazardous conditions with tools with needle discs. In non-eroded hazardous conditions, the soil is treated with implements with needle, spherical, notched or slotted discs. With such treatments, germinated weeds are destroyed, favorable conditions are created for the germination of weed seeds, which showered on the surface of the field before harvesting and during harvesting of crops. Larvae and pupae of pests are also destroyed. In addition, on a field treated with disk implements, energy consumption is significantly reduced during subsequent plowing or deep loosening. With deep tillage in autumn, dump plows or non-moldboard loosening tools are used. At the same time, the dense upper soil crust is destroyed, favorable traction and agrotechnical conditions are created for subsequent operations by the working bodies of the agricultural machine, sprouted weeds, the remaining pupae and the larvae of crop pests are destroyed. Deep processing improves the structure of the soil, creates conditions for moisture accumulation and moisture conservation, provides the necessary conditions for the development of beneficial microflora. In the spring-summer period, to monitor the condition of the soil, species, quantity and condition of weeds before passing the agromachine with lancet paws and cone rollers in a steam field with dry, continuous soil crust, needle or other disk implements can be used to fulfill the same agrotechnical requirements as in the fall. Disk implements for tillage can be used both in a separate unit and to reduce the number of passes of machine-tractor units across the field by installing needle, spherical and other discs in the first rows of the working bodies of the agromachine. Subsequent tillage operations in a steam field are carried out with the formation being divided into two layers, the lower of which is formed at a depth of 3-4 to 16 cm with a fine-grained structure with soil aggregate sizes from 0.5 to 5.0 mm and a density of 1.0 - 1.1 g / cm ³ . The upper soil layer is formed to a depth of 3-4 cm with a fine-grained structure with soil aggregate sizes from 0.2 to 3.0 mm and a density of 0.75 - 0.85 g / cm ³ , while weeds and plant debris are combed out into the upper layer the soil.

 It is desirable to carry out soil cultivation in a steam field with dividing the reservoir into two layers at the same time to eliminate unnecessary passes of aggregates and additional compaction of the soil by tractors. This treatment allows you to create an upper dry leveled soil layer of 3-4 cm of a certain structure and density. This layer reduces moisture consumption for physical evaporation, captures precipitation even of low intensity. The bottom layer of 3-4 to 16 cm is compacted. It reduces the process of convection and diffusion, "locks" the movement of vapor and film moisture from the lower layers of the soil. Processed by the proposed method, steam fields create the necessary conditions for moisture accumulation, moisture conservation and productive use of soil moisture. Weeds combed into the upper layer of the field die and, together with other plant debris, mulch the surface of the field, which reduces wind and water erosion.

 Depending on the condition of the soil, species and condition of weeds, the proposed tillage is carried out 2-4 times during the spring-summer period. With this treatment, the soil of the steam field is completely prepared for sowing crops.

 Autumn and spring-summer soil cultivation in a steam field is carried out either by a set of well-known tillage machines and implements, or in the spring-summer period by a complex unit, including, for example, sequentially installed needle or other discs, lancet paws and special rollers, loosening and compacting the soil, leveling the surface of the field and combing out weeds and plant debris in its upper layer.

 Soil cultivation in a steam field according to the proposed method allows to reduce energy consumption by 22 - 26%, to clean the field of weed vegetation, to accumulate and preserve soil moisture, to increase crop yields.

Claims (1)

A method of cultivating soil in a steam field, including autumn cultivation with an agromachine with needle or other disk working bodies, deep plowing or rootless cultivation and subsequent cultivation with the formation of upper and lower layers, characterized in that subsequent cultivations are carried out in the spring-summer period by destroying dry soil crust with an agromachine with needle or other discs and the formation of the lower layer at a depth of 3 to 4 to 16 cm with a fine-grained structure with soil aggregates from 0.5 d 5.0 mm and a density of 1.0 - 1.1 g / cm ^3, and the upper layer depth of 3 - 4 cm fine-grained structure with the size of soil aggregates from 0.2 to 3.0 mm and a density 0.75 - 0.85 g / cm ³ , while at the same time plant debris is combed out into the topsoil and mulch the treated field surface.