RU2129355C1 - Method for using fertilizer on sod-podzolic soils - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves altering crops in rotation depending on the amount of organic substances accumulated in soil; applying micro- and macroelements. At the initial stage of rotation, silicon is applied together with organic and mineral fertilizers in the amount of 40-60 kg/ha for corn. Upon harvesting of corn, leaf and stalk mass is plowed in together with sulfuric fertilizer used in an amount of 15-20 kg/ha for following crop, i. e. winter wheat. EFFECT: increased soil fertility and increased crop yield. 3 tbl, 2 ex

Description

 The invention relates to the field of agriculture, in particular to agricultural chemistry, and may find application in the cultivation of crops on sod-podzolic soils.

 There is a known method of applying fertilizers in which optimal doses are introduced in the crop rotation system (A.M. Lykov "Gourmus and soil fertility", Moscow Worker, 1985, p. 49).

 In the known method, the mineralization of the organic matter of the soil is slow. High oxygen content of sod-podzolic soil inhibits the development of soil microflora and the decomposition of nutrients. As a result, soil fertility is increasing at a slow pace (10-15 years).

 There is a known method of applying fertilizers, in which crops are placed in a crop rotation by the amount of accumulation of nutrients with the introduction of optimal doses of macro- and microelements (S. A. Vorobyov "Crop rotation in specialized farms of the Non-Chernozem Territory." - M. Rosselkhozizdat, 1982, pp. 30 - 31 )

 In the prototype method, the following disadvantages can be noted: in acidic soils, the amount of sulfur compounds available for plants is insufficient, which reduces humification; during crop rotation in the crop rotation, the phosphorus and nitrogen compounds are not sufficiently dissolved, forming forms harmful to microorganisms. In addition, in acidic soils chemical compounds are formed, inaccessible to plants. All this reduces the yield of cultivated crops; a lack of sulfur, especially under cereals, disrupts carbohydrate metabolism and thereby inhibits the formation of amino acids, which reduces the quality of agricultural products.

 The purpose of the invention is to increase crop yields, their quality and increase soil fertility.

 This goal is achieved by the fact that organic and mineral fertilizers are mixed with silicon in a dose of 40-60 kg / ha for corn, and after harvesting, green leaf mass with a fertilizer of sulfur in a dose of 15-20 kg / ha for subsequent crop winter wheat.

 The method is as follows.

 At the beginning of the development of the site of sod-podzolic soil, plowing is carried out with the incorporation of a complex of mineral fertilizers (N90P90K60), lime (10 t / ha) and silicon-containing fertilizers (40-60 kg of silicon per ha).

 On acidic soils, there is a loss of mobile nutrients from mineral and organic fertilizers due to the small capacity of the soil absorption complex, chemical fixation and transfer to compounds inaccessible to plants, or due to biological binding. Although organic and mineral fertilizers increase soil fertility, saturation of the absorbing complex with silicon increases its absorption capacity and creates the prerequisites for more efficient use of introduced nitrogen, phosphorus and micronutrient fertilizers. When silicon and lime are added, the phosphorus compounds present in the soil become more accessible, and nitrogen nitrification by bacteria is activated.

 Silicon, as a sorbent substance, detoxifies toxic elements, eliminates the harmful effects of herbicides and pesticides.

 Given these factors, at the beginning of rotation during the development of plots, corn is sown, which accumulates, due to the powerful root system and leafy stem mass, the maximum amount of organic substances. This is important for increasing soil fertility. The introduction of silicon increases the mobility of soil phosphates, the accumulation of nitrogen available to plants. The subsequent crop in this crop rotation is winter wheat. Before sowing, thorough tillage is carried out, where the remains of the leafy mass of maize are smelled and at the same time mineral fertilizers are applied in the same doses (N90P90K60) mixed with sulfur at a dose of 15 - 25 kg / ha (elemental sulfur). The introduced sulfur with a scented leafy mass contributes to an increase in the activity of microorganisms. Above this limit (25 kg), sulfur inhibits the nitrification of the soil, enhances its acidity. Sulfur introduced after silicon contributes to a further increase in the content of nitrate nitrogen, mobile phosphorus and other elements.

 The subsequent culture - winter wheat - under the influence of the sulfur element increases the yield of gluten and starch.

 Compared to other crop rotation crops, corn has the advantage of being a storage medium for organic matter. If perennial grasses (clover, alfalfa) are sown at the beginning of rotation, the process of increasing fertility will be somewhat longer, since nodule bacteria in the zone of the root system cannot tolerate soil acidity.

Example 1. In autumn, a section of sod-podzolic soil was plowed by a plow to a depth of 20-22 cm. Fertilizers were applied in doses: N90P90K60 and silicon 60 kg / ha in the form of Na ₂ SiO ₃ . After surface tillage, corn was sown. At the end of the growing season (end of September), corn was harvested for grain at a high cut by a combine harvester. Then, the leaf-stem mass was ground and flavored against a background of N90P90K60 together with sulfur 15 kg / ha (elemental sulfur). In early October, wheat was sown.

 Example 2. Implemented tillage, as in the first example. The dose of silicon is 50 kg / ha, and sulfur 20 kg / ha. The justification data for the selected process parameters are presented in table. 1 and 2.

 According to the table. Figure 1 shows that the increase in yield begins with the background + Si variant of 40 kg / ha. Silicon fertilizers are not technologically advanced over 60 kg / ha.

 From the table. 2 it follows that the maximum yield on average for 3 years of research is obtained with the introduction of sulfur 15 - 25 kg / ha. With an increase in dose to 30 kg / ha, the yield decreases due to an increase in acidity in the soil. Soil microflora, mobile forms of macrocells and humus also increase (Table 3).

 Therefore, in the claimed method increases not only the yield of cultivated crops, but also the fertility of the soil. In addition, the quality of the resulting grain is improved. So, in the proposed embodiment, the amount of amino acids in corn grain increased from 79.38 to 83.42 mg / 100 g, in the green mass of corn from 42.12 to 45.38 mg / 100 g, in wheat grain by 5-8%.

Claims (1)

 The method of applying fertilizers on sod-podzolic soils, including crop rotation in crop rotation according to the amount of accumulation of organic matter, the introduction of micro- and macrocells, characterized in that they first apply fertilizers in a mixture with silicon in a dose of 40-60 kg / ha for corn, and after harvesting, leaf-stem mass with a sulfur fertilizer in a dose of 15 - 20 kg / ha is smelled for the subsequent crop - winter wheat.

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