RU2325793C1 - Method of preparation of soil overgrown with perennial grasses for sowing winter ruttishness - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention refers to the sphere of agriculture. The suggested procedure includes forecrop removal and subsequent soil tillage. The tillage consists in disking a 6-8 cm-deep stratum, cultivation tillage of a 20-22 cm stratum 10-15 days after the disking and preplanting cultivation. The stratum overgrown with old-aged galega orientalis is cultivated after its first cut for hay at the bud stage. Second plowing of a 25-27 cm-deep stratum is done with the help of a cutout body double dig plow 30-35 days after the cultivation tillage and preplanting cultivation. The preparation process provides for creating favourable condition for growth and development of winter ruttishness which finally results in its productivity increase.

EFFECT: increase of winter ruttishness productivity.

Description

The invention relates to agriculture, in particular to the technology of soil preparation for sowing grain crops for occupied green manure.

The soil treatment system should be developed taking into account the type of soil, its mechanical composition and degree of cultivation, type of water supply, surface topography, predecessor and other factors.

A known method of cultivating soil under winter after perennial grasses (Methodological recommendations for intensive crop cultivation technologies in the Ivanovo region. Ivanovo, 1987, p.20), including disking the formation in the 2nd decade of July, cultivating after 1-2 days, planar treatment with harrowing in the 1st decade of August and pre-sowing treatment in the 2nd decade of August.

This method of tillage after perennial grasses, the main task of which is to deprive the aboveground and underground organs of vitality and create conditions for the decomposition of organic residues, does not take into account their diversity and is therefore ineffective in preparing the soil for sowing after root sprouting and rhizome perennial grasses, such as Eastern goatskin, in view of regrowth of planted plants in winter crops.

A known method of tillage for winter rye after perennial grasses (Resource-saving technologies for tillage for winter rye on drained lands. Kalinin, 1990, p.12, 13, prototype), including disking by 6-8 cm immediately after harvesting the predecessor, plowing by 20 -22 cm after 10-15 days, cultivation by 6-8 cm as weeds germinate and are treated by a planner or field leveler.

A disadvantage of the known method of soil cultivation, as described above, is its inefficiency when introducing into the circulation of a layer of root sprouting and rhizome perennial grasses, for example, an old eastern goatskin with a powerful root system. Intensive regrowth of eastern goat's plants in winter rye crops leads to a decrease in its yield.

The problem solved by this invention is to develop a method of preparing soil for sowing winter rye, taking into account the predecessor, providing favorable conditions for the development of winter rye plants.

The object of the invention is solved by the fact that in the method of preparing the soil for sowing winter rye after perennial grasses, including harvesting the precursor and subsequent tillage, which consists in discarding the formation to a depth of 6-8 cm, cultural plowing to a depth of 20-22 cm after 10- 15 days after disking and pre-sowing treatment, treatment is applied to the formation of an old-age eastern goatskin after its first mowing in the budding phase, while additionally plowing the formation again with a two-tier plow with cut-out hulls mi to a depth of 25-27 cm after 30-35 days after cultural plowing.

Since the soil is prepared for sowing a specific crop - winter rye, it is important to choose the precursor correctly, and taking into account its biological characteristics, develop a method of preparing soil for sowing that provides favorable conditions for the development of winter rye plants.

Eastern goatskin is a valuable precursor for cereal crops, in particular winter rye. Forming a powerful root system with a large number of nodule bacteria, it is a good nitrogen fixer. In the process of growing on reclaimed lands, the eastern goatskin accumulates 28-30 t / ha of air-dry roots in the arable and subsurface horizons of the soil for 8-10 years of life, and after plowing the formation 550-590 kg / ha of biological nitrogen, 104-112 kg / ha of phosphorus and 210-220 kg / ha of potassium. This fact allows you to grow winter rye without making expensive fertilizers, reducing the cost of agricultural products.

The plant remains of the Eastern goatskin have a long lasting aftereffect. The dynamics of nitrogen consumption is as follows: in the 1st year - 30%, in the 2nd year - 35%, in the 3rd year - 55% and in the 4th year - about 100%.

Eastern goatskin cleans the soil of weeds, pathogens and pests, plays a soil-protective role, and can significantly increase crop rotation productivity.

The root system of the eastern goatskin has a pronounced plasticity, allowing it to adapt to various soil-reclaimed conditions of the Non-Black Earth region. Moreover, by developing a powerful network of horizontal large and small roots, it promotes the redistribution of surface water into subsoil, thereby preventing stagnation of moisture in the fields.

The claimed method of preparing the soil for sowing winter rye involves the elimination of plantations of Eastern goatskin. Given its biological characteristics as a root-sprouting plant, systematic depletion of the root system is used. To this end, after disking and cultural plowing operations, a deeper plowing (25-27 cm) is additionally carried out with a two-tier plow with cut-out cases, which does not lead to a turnover of the reservoir and plowing of plant remains of the Eastern goatskin, creating optimal conditions for their decomposition. At the same time, with double plowing of the goat's layer, better conditions were created (water-air regime) for the growth and development of winter rye plants.

The claimed method of preparing soil for sowing winter rye includes the following operations:

- harvesting of the predecessor, the eastern old goat broom, namely its first mowing in the budding phase;

- disking the formation to a depth of 6-8 cm;

- cultural plowing to a depth of 20-22 cm 10-15 days after disking;

- repeated plowing of the formation with a two-tier plow with cut-out cases to a depth of 25-27 cm 30-35 days after the cultivation;

- presowing tillage.

An example of a specific implementation of the method of soil preparation for sowing winter rye.

The experiment was carried out on old-age goat plantations of the eastern 9th year of life during 2001-2003. The plot area is 180 (3.6 × 50) m ² , the accounting area is 80 (2.0 × 40) m ² . The site is drained by closed drainage. Distances between drains 18-20 m; the depth of 0.9-1.2 m, the soil is sod-podzolic, gley.

Field and laboratory studies were carried out in accordance with generally accepted methods in the laboratories of VNIIMZ. The botanical composition, height, foliage, weight of root and crop residues, and eastern goatskin productivity were determined by the method of the All-Russian Research Institute of Feed (1987). Analysis of the elemental composition of plant samples was carried out by energy-dispersive x-ray fluorescence method using semiconductor x-ray spectrometry. The grain harvest was taken into account by direct combining "Sampo-130", recalculation was carried out at 100% purity and 14% humidity. The bioenergy evaluation of the experiments was carried out on the basis of the recommendations of the RAAS All-Russian Research Institute of Feed (M., 2000). The experimental data were statistically processed by the analysis of variance (Dospekhov, 1985).

In the second decade of June, the first goatskin was mowed for the eastern 9th year of life in the budding phase, when it accumulates the maximum amount of nutrients in the aboveground mass and a large amount of organic mass in the soil. The data on the accounting of root and crop residues indicate that the goat's 9th year of life in the 0-30 cm soil layer leaves 28.3 t / ha - 30.3 t / ha of air-dried roots in the soil.

Immediately after harvesting the eastern goatskin, disking the formation to a depth of 6-8 cm with the BDT-3.0 disc harrow was performed. The positive effect of soil disking is that the crushed turf and loose top layer contribute to better plowing, denser laying without the formation of voids in the arable soil layer. Disking the formation before plowing reduces the germination of the eastern goat.

10-15 days after disking, when the eastern goatskin begins to germinate, a plowing was carried out to a depth of 20-22 cm with a plow with a skimmer of PLN-4-35 at a speed of at least 4 km / h for better formation turnover and loosening, otherwise the formation is poor crumbles and falls into a furrow. When plowing disc soil, plant residues (rhizome offspring) fall to the bottom of the furrow. At the same time, a large amount of biological nitrogen 550-590 kg / ha, phosphoric acid 104-112 kg / ha, and potassium oxide 208-218 kg / ha are smelling into the soil.

After 30-35 days, part of the plant residues had grown, and therefore the plow was re-plowed with a two-tier plow with cut-out bodies to a depth of 25-27 cm.

The day before sowing winter rye (in the first ten days of September), pre-sowing soil was cultivated with the RVK-3.0 combined leveler to a depth of 6-8 cm.

The systematic depletion of the root system contributed to the complete elimination of the plantation of the old eastern goatskin. According to this technology, tillage dies up to 97.4% of plants. The experimental data are as follows: for tillage, the number of plants of Eastern goatskin was 105.1 pcs / m, after processing - 2.8 pcs / m.

By spring, when winter rye plants were in the phase of mass tillering - the beginning of the exit to the tube, the soil quickly came to the equilibrium state of 1.37-1.40 g / cm ² under the influence of winter and early spring precipitation. Accounting for the bulk soil mass before harvesting in the phase of full ripeness of winter rye grain was almost at the level of its early spring state by the end of the spring of this year. This circumstance is a consequence of the claimed method of soil preparation for sowing winter rye, the predecessor of which is the Eastern goatskin.

Thus, eastern goatskin is a good precursor for winter rye. Soil preparation by the claimed method and sowing of winter rye after eastern goatskin allows you to obtain 43-47 kg / ha of dry winter rye grain without fertilizing, which is not inferior to (or even surpasses) the winter rye grain yield, the precursor of which is pure steam - its best predecessor ( Agrotechnics of field crops. Under the general editorship of Academician I.V. Yakushin. State Publishing House of Agricultural Literature. Moscow, 1955, p. 64).

The influence of the Eastern goatskin as a precursor on the development of winter rye plants is a consequence of its different effects on the water-air, physical, agrochemical and biological properties of the soil, phytosanitary conditions for plant growth.

The winter rye crop was greatly influenced by weather conditions. When the precipitation during the growing season was uniform and favorable combined with air temperature, the yield of winter rye grain was maximum (in 2001) and amounted to 47.6 / ha. The increase in winter rye yield after Eastern goatskin relative to winter rye yield, which is preceded by pure steam (by 23.4% in the best weather year), is due to an increase in productive bushiness, the number of grains in one ear, the weight of 1000 grains, the best wintering plants (73%).

Claims (1)

The method of preparing the soil for sowing winter rye after perennial grasses, including harvesting the predecessor and subsequent tillage, which consists in discarding the formation to a depth of 6-8 cm, cultivating tillage to a depth of 20-22 cm 10-15 days after disking and pre-sowing, characterized the fact that the treatment is applied to the formation of an old-age eastern goatskin after its first mowing in the budding phase, while additionally plowing the formation again with a two-tier plow with cut-out bodies to a depth of 25-27 cm after 30-35 days After plowing culture.