RU2038723C1 - Method for preparation of soil in nurseries - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: soil surface prepared in advance is covered successively with peat, sand mixed with ash, and complex fertilizers mixed with sewage sediments in certain relations. Then the soil is rototilled 18-20 cm deep. EFFECT: higher efficiency. 2 cl

Description

 The invention relates to agriculture and forestry, namely to nursery, and can be used for growing seedlings of tree and shrub species of plants, especially on soils with low fertility and underdeveloped profile.

 There is a method of preparing the nursery soil, according to which planting is carried out to a depth of 60 cm, leveling the surface, growing and sowing green manure, applying 30-120 t / ha of organic fertilizers and 30-120 kg / ha of the active substance of mineral nutrients, taking into account the level of soil fertility . This improves the water, air and nutrient conditions of the soil, creating favorable conditions for the growth of seedlings.

 The disadvantage of this method is that deep tillage and fertilizing, greatly enhancing the growth of seedlings, stimulate the growth of roots inland, and this leads to the loss of most of the deep roots due to cutting by a plow or a shovel when digging seedlings. In addition, in poor soils, especially with a heavy mechanical composition and underdeveloped profile, with this method of preparation, it is often not possible to obtain good seedlings even when using large doses of fertilizers.

 There is also known a method of preparing soil for growing seedlings on ridges, according to which on a well-loosened and leveled ridges 8-10 cm high, a 5-6-cm layer of decomposed peat or peat chips with sand is poured in a ratio of 1 1. The application of this method allows you to create a loose nutritional substrate, concentrate a large number of plants on a small area, organize thorough care and ultimately get a high yield of standard seedlings. At the same time, it is very important that the fibrillation of the root systems of seedlings is enhanced, which facilitates digging and reduces root loss due to cutting. This method of soil preparation was chosen by us as a prototype.

 However, the prototype has drawbacks in that surface-applied peat or peat with sand, as loose soil-improving components, are very loosely connected to each other and the soil, so they can be washed away by water during heavy rains, and this leads to pollution of water bodies and misallocation of valuable natural resources. In addition, the use of peat and sand does not allow to optimize the nutrient regime of the soil due to the lack of certain nutrients and acid reaction in them, which makes it necessary to additionally introduce other soil-improving substances and mineral fertilizers, some of which may also be lost due to insufficient bonding with friend and soil.

 The aim of the invention is to increase the efficiency of organic and mineral soil-improving substances by enhancing their bonds and positive interaction with each other and the soil.

 This goal is achieved by the fact that in the method of preparing the nursery soil, including cultivating and leveling the soil, applying organic and mineral soil improving substances, the soil surface is loosened and leveled with a predominant uniform slope, first they give peat, then sand mixed with ash, and then mixed with liquid complex fertilizers sewage sludge, and the fertilized area is milled to a depth of 18-20 cm with the formation of ridges directed along the surface slope and separated by compacted technological Kimi tracks. Organic and mineral fertilizers and substances are introduced with a dose of 400 t / ha in the following ratio of components, wt. peat 20-35; sand 25-30; ash 0.2-0.3; liquid complex fertilizers 0.1-0.2; sewage sludge rest.

 A comparative analysis of the claimed technical solution with the prototype shows that the proposed method for preparing the nursery soil differs from the known one by adding 400 t / ha of organomineral soil-improving substance with a certain ratio of components, each of which is given in a certain sequence, as well as mixing the components with each other and the soil, milling fertilized area with the formation of ridges directed along the surface slope and separated by technological tracks. Therefore, the claimed method meets the criterion of "novelty."

 There is a method of preparing fertilizers for acidic soils, according to which non-litter (liquid) manure is mixed with superphosphate (nitrogen fixative), then with peat, and then with lime (deoxidant) in the following ratio of components, wt. superphosphate 0.5-1.5; peat 10-60; fine lime 15-20; bedless manure with a humidity of 80-93% the rest. At the same time, a fertilizer mixture with a uniform distribution of nutrients and an optimum moisture content of 60-70% allows using conventional loaders and spreaders of solid organic fertilizers when applying to the soil using special stationary or mobile dosing and mixing devices by changing the content of components in the indicated ranges depending on from their actual humidity.

 Layer-by-layer application of doses of organic and mineral soil-improving components of their usual moisture, necessary for optimizing the physicochemical properties of the arable layer, using serial mechanisms onto the soil surface loosened and leveled with a uniform slope and sealed after milling, allowing the components to be evenly distributed and mixed together and soil while significantly reducing transport and other costs, ensures the claimed technical solution meets the criteria of "n significant differences "and" inventive step ".

 The claimed method is implemented as follows.

 A land plot intended for a nursery is plowed with a plow, for example PS-4-30, to a depth of 30 cm and then treated with BDST-3,5 disc harrows, and then the surface is leveled by a grader to a uniform slope. Then, in dry weather, using the usual serial high-performance mechanisms, peat, sand, ash, fertilizers and sewage sludge are introduced into the soil. These substances, interacting with each other and the soil, optimize the physicochemical properties of the arable layer due to loosening, increasing the content of organic matter, saturation with macro- and microelements in forms accessible to plants, improving the reaction of the soil solution and enhancing biological activity. Moreover, for uniform distribution and mixing of organic and mineral substances with each other and the soil, the following application sequence is observed. First, a spreader of solid organic fertilizers, for example, ROU-6, distributes peat in the area. Strongly dusting ash, a small dose of which is almost impossible to give uniformly, is pre-mixed with sand (8-10 kg per 1 ton) and the mixture is applied with a 1-RMG-4 fertilizer spreader. Finally, with the help of the RZhT-4 liquid organic fertilizer spreader, sewage sludge (WWS) is introduced, into which liquid complex fertilizers (3-4 kg per 1 ton) are added when each tank is loaded, which ensures uniform dilution and distribution of the liquid utilities in the area. The soil-improving substances introduced afterwards are closed up by milling to a depth of 18-20 cm, which strengthens their connection and interaction with each other and the soil. Since the soil is loose and enriched with organomineral substances, especially without vegetation, it is erosion hazardous, the fertilized area after milling is divided into ridges by compacted technological tracks up to 30 cm wide, directed along the surface slope and minimizing erosion. During the preparation of the nursery soil, standard liquid complex fertilizers (ZhKU grades 10-34-0) based on superphosphoric acid, ash from electrostatic precipitators of the household waste incinerator plant, and other soil improvers with ordinary humidity (40-60% river sand) were used 15-18% of sewage sludge from 88-96%). The main value of peat as a loosening substance is the presence of a significant amount of decomposition resistant organic matter 82-94% and nitrogen 1.9-2.4% but it is poor in phosphorus 0.1-0.3% potassium 0.1-0.2 % and trace elements, has a strongly acidic reaction (rNCl 4.3-4.5). Sewage sludge is characterized by a high content of organic matter less resistant to decomposition 67-75% and nitrogen 2.8-3.2% phosphorus 2.3-3.8% and a number of trace elements, but poor in potassium 0.2-0 , 3% and have a creamy consistency, which complicates air exchange in moist soil. Ash is a potassium (14.6-22 -) - phosphorus (2.4-3.5) -limestone (26.0-34.5%) fertilizer with a high content of trace elements and an alkaline reaction (rNCl 9.8-10, 4). Potassium in ash is contained in the form of potash, so it is especially effective for plants that react negatively to chlorine. The combination of organic (peat, sewage sludge) and minerals (sand, ash, water), supplementing each other with positive physical and chemical properties when mixed with the upper part of the arable soil layer, contributes to the formation of high-strength structural aggregates with high strength and organomineral absorbing complex, fixing in exchange a significant supply of plant nutrients. As studies have shown, the optimization of the physico-chemical properties of the nursery soil is achieved by introducing 400 t / ha of organomineral matter in the following ratio of components, wt. peat 20-35; sand 25-30; ash 0.2-0.3; liquid complex fertilizers (ZhKU brand 10-34-0) 0.1-0.2; sewage sludge rest. The introduction and incorporation into the arable layer of such a significant dose of organomineral matter forms a kind of two-layer soil, an air-intensive and enriched upper layer that provides favorable conditions for good seedling growth and the formation of fibrous root systems, and a less air-intensive and more water-resistant underlying layer, making root growth difficult deep, serves as a regulator of moisture supply, providing gravitational removal of excess moisture and its capillary recharge. When growing seedlings, in certain phases of their development, there may be a need for increased growth, which is determined based on the results of leaf diagnostics. In these cases, the readily available nitrogen that is lacking is given in the form of urea with irrigation water.

 The claimed method of preparing the nursery soil is industrially applicable and allows you to effectively exploit the soil, especially its poor low-productivity types with an underdeveloped profile and an adverse reaction for most plants. Compared with known methods, it provides a more productive use of organic and mineral soil-improving substances by strengthening their bonds and positive interaction with each other and soil, optimizing the physicochemical properties of the arable layer, and reducing the loss of organic matter and nutrients. At the same time, through the use of wastes from housing and communal services (ash, sewage sludge), the local accumulation of which is a serious source of environmental pollution, the consumption of valuable resources such as peat, sand and mineral fertilizers is reduced.

Claims (2)

 1. METHOD FOR PREPARING KENNEL SOIL, including soil cultivation and leveling, the application of organic and mineral soil improving substances, characterized in that sand mixed with ash, sewage sludge mixed with liquid fertilizers is applied successively to the soil surface loosened and leveled with a uniform slope. and then milled to a depth of 18 to 20 cm with the formation of ridges directed along the surface slope and separated by compacted technological tracks. 2. The method according to p. 1, characterized in that the organic and mineral soil-improving substances contribute a dose of 400 t / ha in the following ratio of components, wt%
Peat 20 35
Sand 25 30
Ash 0.2 0.3
Liquid complex fertilizers 0.1 0.2
Sewage sludge