RU2148303C1 - Soil cultivation method - Google Patents

Abstract

FIELD: agriculture, in particular, presowing cultivation. SUBSTANCE: method involves providing leveled dry 4-6 cm thick upper layer of fine-grain structure with soil aggregates of 0.25-3 mm size; forming lower horizontal layer of soil with fine-grain structure at (4-6)-12 cm depth with soil aggregates of 0.25-3 cm size and density of 1.1-1.25 g/cub cm; cultivating upper and lower layers to depth of up to 40 cm by shallow plowing or deep mellowing. Method allows favorable conditions for growing and development of farm crops to be created by forming moisture accumulating and moisture retaining layers and moisture to be effectively used. EFFECT: reduced power consumption, improved quality of cultivated soil and increased yield. 1 dwg

Description

 The invention relates to agriculture and can be used for soil preparation before sowing crops.

 A known method of tillage, including loosening the soil with the formation of the upper and lower layers, the upper of which consists of two layers - fine-grained and finely lumpy structure, respectively (see RU 2015630 C1, 07.15.94, A 01 B 49/02).

 A disadvantage of the known method is that the finely crumpled unconsolidated middle layer does not provide an exception for the rise of vapor and film moisture from the lower layer to the upper, i.e. does not prevent evaporation of moisture from the underlying layers. In atmospheric precipitation, the middle layer, on the contrary, passes all the moisture into the lower layers, without providing sufficient moisture to the roots of cultivated plants located mainly in this layer.

 The closest analogue to the present invention is a method of tillage, including tillage with the formation of the upper and lower layers, the upper of which is loosened and compacted in two layers (see SU 973051, 25.11.82, A 01 B 79/00).

 The disadvantage of this method is that the created upper layer of the upper layer has insufficient depth to effectively keep it from evaporation and absorption of precipitation, as well as for the normal development of the root system of cultivated plants.

 The objective of the invention is to create a technology that ensures the formation of cultivated soil layers for maximum accumulation, conservation and productive use of soil moisture by agricultural plants, as well as giving the soil layers a structural state for better plant development.

 The technical result is an increase in the quality of tillage by increasing its moisture-accumulating and moisture-saving ability.

This is achieved by the fact that the tillage is carried out with the formation of the upper and lower layers, the upper of which is loosened and compacted with separation into two layers, while the upper and lower layers are pre-treated to a depth of 40 cm by peeling and plowing or deep loosening. With subsequent loosening and compaction of the upper layer, its lower layer is formed at a depth of 4-6 cm to 12 cm with a fine-grained structure with a soil aggregate size of 0.25 to 3 mm and a density of 1.1 - 1.25 g / cm ³ and the upper a layer up to 4-6 cm deep with a fine-grained structure with a soil aggregate size of 0.25 to 3 mm.

 The drawing shows the layout of the layers during tillage according to the proposed method.

 The method involves tillage with the formation of the upper 1 and lower 2 layers.

The upper 1 layer is loosened and compacted in two layers 3, 4. The upper 1 and lower 2 layers are pre-treated to a depth of 40 cm by peeling and plowing or deep loosening. Subsequent loosening and compaction of the upper 1 stratum, its lower layer 4 is formed at a depth of 4-6 cm to 12 cm with a fine-grained structure with the size of soil aggregates from 0.25 to 3 mm and a density of 1.1 - 1.25 g / cm ³ . The upper 3 layer with a depth of 4-6 cm is formed by a fine-grained structure with a soil aggregate size from 0.25 to 3 mm.

 Pre-treatment of the upper 1 and lower 2 layers is carried out in the fall or spring with a tillage implement containing, for example, a disk cultivator that provides stubble cultivation, and a dump plow (for plowing the soil) or a non-dump implement. The need for dump plowing or deep landless cultivation is determined depending on the type and condition of the soil, species and condition of weeds. It is desirable to carry out loosening and compaction of the top 1 formation at the same time to eliminate unnecessary passes of aggregates and soil compaction by tractors, loosening the top 3, loosening and compaction of the lower 4 soil layers can be carried out by any set of tillage working bodies, for example, disks, with rollers mounted behind them or mounted lancet paws, spring teeth and rollers or rotary working bodies with the roller and harrow installed behind them.

This treatment allows you to create a leveled dry top 3 soil layer of 4-6 cm with a fine-grained structure with soil aggregates from 0.25 to 3 mm in size, and the bottom 4 vertical layer of soil from 4-6 to 12 cm also with a fine-grained structure with soil aggregates sizes from 0.25 to 3 mm, compacted to 1.1 - 1.25 g / cm ³ . At the same time, the top 3 dry (mulching) layer reduces the moisture consumption for physical evaporation, captures precipitation even of low intensity. The compacted bottom 4 layer reduces the process of convection and diffusion, "locks" the movement of vapor and film moisture from the lower layers of the soil. The soil is simultaneously self-moistened due to the process of capillary condensation. In addition, being humidified or moist, this layer serves as a good conductor of precipitation in the lower 2 layer of soil, which is, in turn, a source of moisture entering the capillaries under dry weather conditions.

 Implementation of the proposed method of tillage allows you to get an additional 10-15 centners of grain per hectare in areas of insufficient moisture, reduce the reduced costs per unit of production by 25-30%, improve the quality of grain and other field products.

Claims (1)

A method of tillage, including processing with the formation of the upper and lower layers, the upper of which is loosened and compacted in two layers, characterized in that the upper and lower layers are pre-treated to a depth of 40 cm by peeling and plowing or deep loosening, and when subsequent loosening and compaction of the upper layer, its lower layer is formed at a depth of 4-6 to 12 cm with a fine-grained structure with a soil aggregate size of 0.25 to 3 mm and a density of 1.1 - 1.25 g / cm ³ and the upper layer is deep up to 4-6 cm fine-grained th structure with the size of soil aggregates from 0.25 to 3 mm.