RU2807522C1 - Method for increasing soil fertility of agricultural lands when recycling waste from sugar production when growing sunflowers in conditions of the central black earth region - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method for increasing the soil fertility of agricultural lands when recycling sugar production waste when growing sunflower in the conditions of the Central Black Earth Region, according to which a mixture of sugar production defecate at a dose of 12.6 t/ha and mineral fertilizers at a dose of N₁₄₀P₇₀K₁₀₀ are used as an organomineral complex and treatment of seeds with the microbiological preparation BSka-3 with an application rate of 4 l/t, or with the drug Extrasol with an application rate of 4 l/t. In this case, the mixture of the organomineral complex is applied in the fall - for fall plowing, and in the spring - for cultivation in the surface layer and evenly incorporated into the soil to a depth of 15-20 cm. Seeds are planted 3 cm, sowing is carried out with a seeding rate of 30 thousand pcs./ha of viable seeds.

EFFECT: improving soil fertility and increasing the yield of oilseeds.

1 cl, 1 tbl

Description

The present invention relates to agriculture and can be used in growing sunflowers and increasing soil fertility.

The productivity of agricultural crops, including sunflower, is ensured mainly through agricultural measures aimed, first of all, at changing the agrochemical properties of the soil. The efficiency of in directly depends on the fertilizer application system. Based on this, the regulation of fertility through the use of fertilizers in agrocenoses is relevant for the development of sound recommendations based on changes in indicators of the chemical state of soils (Titova V.I., Dabakhov M.V., Dabakhova E.V. Justification for the use of waste as a secondary material resource in agricultural production: Textbook // N. Novgorod: Publishing House VVAGS, 2000, 178 pp.).

Recently, there has been a large increase in the production of beet sugar in Russia. In the conditions of 2009-2010. it was produced about 3 million tons, and in 2019-2020. – has already exceeded 7 million tons.

Industrial and consumer waste, which is currently generated in huge quantities, poses a threat to the environment. In this regard, the problems of their disposal are becoming increasingly urgent. Such production waste contains valuable nutrients and can be used as a secondary material resource. These include beet pulp, molasses and defecation lime (beet pulp makes up 70-90% of the mass of beets). The composition of pulp includes (% of the total mass): pectin substances - 48-50, cellulose - 22-25, hemicellulose - 21-23, nitrogenous substances - 1.8-2.5, ash - 0.8-1.3 , sugars - - 0.215-0.20, as well as vitamins (B ₁ , B ₂ , B ₆ , C, etc.), enzymes, small amounts of fat and microelements. Consequently, beet pulp can be used not only as food additives in the diet of farm animals, but also as organic fertilizers for crops. In addition, adding fertilizers to the soil not only provides the plant with nutrients, but also changes the conditions for the existence of soil microorganisms, which are producers of vitamins, enzymes, antibiotics and other physiological active substances.

In conditions of rapidly rising prices for mineral fertilizers, the use of non-traditional organic materials and their inclusion in modern agricultural technologies is very relevant.

In the proposed invention, the authors specifically consider the use of sugar production waste. The defect is the remains of plants, sediment after washing beets, which, along with beet pulp, also accumulates at sugar industry enterprises.

The defect, given its agrochemical properties, can also be used as a fertilizer. The fertilizer contains organic matter, nitrogen, phosphorus, potassium and numerous other microelements. The sludge after filtration in sugar production is a defect that contains useful nitrogen substances, phosphoric acid and the main component - CaCO ₃ , which helps to increase the yield of agricultural crops, especially on acidic soils, which include leached chernozem, the acids of which are neutralized with lime. In addition, CaCO ₃ , together with humus, contributes to the formation of a favorable fine-lumpy soil structure.

There is a known method of increasing the fertility and productivity of soils of agricultural lands (BY 12267 C1, 08/30/2009), in which carbonate-containing raw materials and an organomineral complex are sequentially introduced into the soil, followed by incorporation into the soil (into the arable horizon), dolomite is used as a carbonate-containing raw material flour, which is added to the soil taking into account the value of its hydrolytic acidity, and manure is used as an organomineral complex at a dose of 7 t/ha once every 5 years.

The disadvantage of this known method is the unbalanced supply of basic plant nutrients to the soil, which is insufficient for the accelerated restoration of agricultural lands and a significant increase in their fertility and productivity. In addition, clean manure that has not undergone pre-anaerobic treatment or curing to sufficiently neutralize it is a source of many pathogenic organisms and helminths.

There is a known method for increasing sunflower yield based on the selection of components to a natural mineral when treating vegetative plants with 2,4,5,6-tetrachloro-3-(N-benzyl)-pyridinecarbamide in an amount of 200 g/ha, which helps increase the yield by 8.3 c /ha (patent RU No. 2298322, A01N 43/40, A01P 21/00 dated 05/10/2007).

The effectiveness of using the compositions of the resulting drug and doses depends not only on the created drug used, but what is equally important, on the varietal material of maturation and the phase of plant development and the time of application of the drug on a specific sunflower plant, as well as microelements in chelated form for a plant growth stimulator, which requires eliminating the shortage of nutrients.

Fertilizer application is one of the most effective means of increasing sunflower yield. The effect of their use depends on the biological characteristics of the sown genotype, the characteristics of the soil with available nutrients, the timing and method of application. In general, sunflower requires moderate potassium nutrition before the budding phase and increased potassium nutrition in the subsequent ontogenetic phases.

There is a known method for producing agro-mineral mixtures from liquid waste of alcohol production, including coagulation and precipitation of organomineral substances, while coagulation and precipitation of organomineral substances is carried out by introducing defecate into a container with liquid waste of alcohol production in an amount of 10 to 100 kg of dry weight per 1 ton of liquid alcohol waste production, and the precipitated mixture of organomineral substances is pumped out from the bottom of the container (Patent No. 2294318, C05F 3/10 dated February 27, 2007).

There is also a known method for preparing a fertilizer-reclamation mixture based on carbonate sapropel, which includes composting in piles a mixture of frozen sapropel, organic waste and NPK mineral fertilizers, while the frozen carbonate sapropel is treated with hydrogen peroxide in a ratio of 10:1 in terms of air-dry matter , organic waste is brought to a moisture content of 60-65%, mixed with sapropel in a ratio that provides optimal pH values of 6.5-7.5, mineral fertilizers are added, after which the mixture is placed in a pile and, with stirring, 1 liter of solution per 1 ton of mixture at its humidity of 60-65%, temperature 22-24 ^o C and left to ripen for a week, then after repeated mixing, it is left to ripen for another two weeks at a temperature not exceeding 30 ^o C (Patent RU No. 2286321, C05F 7/00, C05F 3/00 dated October 27, 2006).

However, at the same time, new methods must be created for the expanded reproduction of soil fertility, taking into account targeted reclamation and agrotechnical actions that promote the accumulation of humus as a source of potential energy, and it is also necessary to take into account the agrochemical properties of the defecate when using it as a fertilizer. This fertilizer contains organic matter, nitrogen, phosphorus, potassium and numerous trace elements.

There is a known method for obtaining vermicompost when processing waste from the sugar industry, which is carried out by introducing manure worms into the substrate, including beet pulp and defecate in a ratio of 1:3 by volume, which, under the influence of the dung worm, turns into vermicompost, which allows for complete disposal of beet waste from sugar production (RU Patent No. 2339601, C05F 5/00, A01K 67/033 dated November 27, 2008).

The disadvantage of this known method is the low quality of the resulting vermicompost as a fertilizer and ameliorant due to the high alkalinity of the defecate (9-10), the high content of oligo- and monosaccharides in it, which cause the rapid development of putrefactive bacteria, and the low NPK content, which does not allow it to be directly used as a fertilizer in the mixture.

There is a known method of using beet sugar production waste in grain-beet crop rotations (taken as a prototype), including mixing beet pulp and defecate by distributing them over the soil surface in the ratio (1-2): 1-1.5), ensuring the pH of the resulting mixture is 6.8 -7.0 in an amount of 12-20 t/ha, then treating the mixture with the Trichoderma viride culture, species 98 or 838, with an application rate of 5 l/ha and uniform incorporation into the soil to a depth of 7-10 cm (RU Patent No. 2453521, C05F11 /08 dated June 20, 2012).

The disadvantage of this method is the need to treat the resulting mixture with the Trichoderma viride culture, a narrow scope of application.

The invention is aimed at greening agro-industrial production technologies, by creating a technical solution (method), the ability to recycle sugar production waste (defecate, using mineral fertilizers with the protective functions of drugs: BSka-3 and Extrasol, obtaining the greatest effect on the biological activity of the soil, applied under agricultural crops.

The technical result of the invention is to increase the soil fertility of agricultural lands when growing sunflower in the conditions of the Central Black Earth Region, through the joint use of mineral and microbiological fertilizers against the background of the introduction of beet defect, which has restorative properties of soil fertility and agrocenoses on leached soils in the forest-steppe zone of the Central Black Earth Region, using only existing agricultural machinery.

The technical result is achieved by the fact that in the method of increasing soil fertility of agricultural lands when recycling waste from sugar production when growing sunflowers in the Central Black Earth Region, characterized by the fact that a mixture of sugar production waste at a dose of 12.6 t/ha and mineral fertilizers are used as an organomineral complex at a dose of N140P70K100 and seed treatment with the microbiological preparation BSka-3 with an application rate of 4 l/t, or with Extrasol with an application rate of 4 l/t, while the mixture of the organomineral complex is applied in the fall - for fall plowing, and in the spring - for cultivation in the surface layer and evenly embedded in the soil to a depth of 15-20 cm, and seeding 3 cm, sowing is carried out with a seeding rate of 30 thousand pcs./ha of viable seeds

The specified set of essential features of the claimed method is compiled taking into account the arguments given below.

Microbiological fertilizer (preparation) BSka-3 is designed to protect and improve soils, protect and nourish plants, increase crop yields, as well as soil fertility. BSka-3 is supplied in a ready-made liquid formulation. Manufacturer: Bmotekhagro LLC, Russia.

The mechanism of action of the drug is due to the presence of the entire composition of living cultures. These microorganisms, as well as the substances they secrete (metabolites), stimulate seed germination and plant growth, improve their phytosanitary condition, strengthen the root system, provide resistance to lodging of crops and, as a result, increase productivity and restore soil fertility. The drug is compatible with herbicides, insecticides and mineral fertilizers in tank mixtures.

Pre-sowing seed treatment is recommended to be carried out by inlaying (semi-dry dressing) in disinfectants, using the dressing units available on the farm or an auger loader. Seed treatment with preparations based on living microorganisms is carried out no later than 1-20 days before sowing. Processed grain should be stored in the shade.

The finished drug "Extrasol" is a pure culture of bacteria (Artheobacter mysore. Flavobacteeium sp: L-30. Ageobacteeiu eadiobacter 204. Ageobacteium radiobacter 10. Azomonas agilis 12/ Bacillus subtitis 13, Pseudomobmonas fluorescens 2137, etc.).

The mechanism of action of biological products during treatment is that during inoculation, the surface of the seeds is artificially populated with beneficial microflora. When sowing seeds treated with biological preparations, bacteria applied to their surface begin to actively multiply and actively colonize the rhizosphere of the developing plant. The action and its complete suppression are observed 6-12 days after sowing, while the drug has a prolonged stimulating effect on the development of plants as a whole, which leads to increased productivity and better quality of grown products.

Sugar production defect is characterized by a high content of calcium and valuable organic components. Defecated lime from sugar production contains up to 84% active CaO, and taking into account the introduction of mineral fertilizers, which can be returned to the soil depleted by growing crops.

Mineral fertilizers that are part of the organomineral complex are, first of all, a source of macroelements, and when used in combination with defecate and microbiological preparations, they help accelerate the processes of restoring fertility and increasing soil productivity on leached chernozem soils of the forest-steppe. This means that the crop rotation system is a scientifically based technology for the use of fertilizers together, designed for implementation on leached chernozem soils of the forest-steppe. From this we can conclude that a properly developed fertilizer system (defecate, mineral fertilizers and microbiological preparations) ensures an increase in productivity, improves product quality, maintains or improves soil fertility and prevents environmental pollution from fertilizers.

Based on this, we can conclude that the claimed invention meets the patentability criterion of “industrial applicability”, because can be used in agriculture.

The proposed method of increasing soil fertility of agricultural lands was tested on the lands of the Lipetsk region in the experimental plots of the private enterprise Arinina, in 2018-2021.

The proposed method is carried out as follows.

Indicators of agrochemical properties on leached Chernozem soils are represented by the following characteristics of the arable layer: humus content - 5.56-5.75%; N _g – 5.25-5.30 mg/eq per 10 g of soil; P ₂ O ₅ – 121.7-126.8 mg/kg of soil; K ₂ O – 151-156.6 mg/kg of soil; Ca – 1525-16.01 mmol/100 g of soil; Mg – 2.05-2.39 mmol/100 g of soil.

According to the chemical composition, sugar production defect: CaCO ₃ – 75.0-77.6%; mass fraction of dry matter – 70.3-72.0%; organic matter – 38.5%.

The sunflower variety “Poseidon 625” was chosen as the object of research.

The experiment was based on a two-factor system: A – calculated rate of defecate application of 6.3 t/ha and 12.6 t/ha.

Application in autumn and spring in two stages in combination with doses of mineral fertilizers (N ₉₀ P ₄₀ K ₅₀ and N ₁₄₀ P ₇₀ K ₁₀₀ ) - for fall plowing and for pre-sowing cultivation, respectively.

Factor B - the use of microbiological fertilizers (preparations): BSka-3 and Extrasol, by treating the seeds before sowing. The rate of drug use is 4 l/t. Working fluid consumption – 10 l/t.

Activities for growing sunflower were built in accordance with generally accepted recommendations in the conditions of the Central Black Earth Region (CH). Sowing sunflower variety Poseidon 625 at a planting depth of 3 cm. The seeding rate is 30 thousand pcs./ha of viable seeds. The predecessor is winter wheat.

The experiment was carried out in accordance with the methodological instructions of B.A. Dospehova (1985). The total area of the plot is 120 ^m2 , the registered area is 80 ^m2 .

Field work at the experimental site was carried out taking into account weather conditions and crop requirements. Weather conditions during the years of research were favorable for growing sunflower: State Customs Committee 2018-0.77; 2019-1.12; 2020-1.25; 2021-1.78.

Example. We will carry out the disposal of sugar production waste - defects with the application of mineral fertilizers and the use of microbiological fertilizers for seed treatment before sowing: BSka-3 and Extrasol.

According to the known method, beet defecate with a calculated dose of 6.3 t/ha and 12.6 t/ha in the fall for fall plowing, and in the spring for cultivation, is distributed and evenly incorporated into the soil depending on the hydraulic activity of the soil.

It should be noted that changes in the agrochemical properties of the soil occur not only under the influence of the addition of nutrients. The activity of soil microflora is also important. Due to biochemical transformations, with the participation of microorganisms, the destruction of organic matter, as well as the mineral part of the soil, occurs. The degree of provision of plants with necessary nutrients depends on the intensity of these processes. In this regard, we determined the biological activity of the soil depending on the dose of beet defect in combination with mineral fertilizers.

For the first time, the features of the formation of the planned harvest of sunflower variety Poseidon 625 depending on the nutritional option on leached chernozem (Central Chernozem region) were identified using the example of the Lipetsk region.

The simultaneous application of a mixture of fertilizers is provided for this oilseed crop after the predecessor crop in the form of winter wheat with uniform surface spreading of the defect and mineral fertilizers in the appropriate doses noted above.

The research used the method of decomposition of linen in experimental leached chernozem soil. These data were taken into account based on the activity of cellulose-decomposing microflora.

Analysis of the experimental results showed that the greatest effect on the biological activity of the soil was exerted by mixtures of incorporation of defecate and mineral fertilizers into the soil.

In the options for determining the decomposition of flax fabric, the following was revealed: its low decomposition in the option with the introduction of 6.3 t/ha of defecate in combination with the action of N ₉₀ P ₄₀ K ₅₀ into the soil to an application depth of up to 10 cm (28%). On average, the maximum degree of decomposition of flax fabric was revealed with high doses of defecate application of 12.6 t/ha and at a dose of mineral fertilizers N ₁₄₀ P ₇₀ K ₁₀₀ when planted to a depth of 15-20 cm (more than 48%).

Studies of the biological activity of the soil have shown that biological fertilizers for sunflower crops of the two studied preparations also have a high effect on it: BSka-3 and Extrasol.

On average, the decomposition of linen fabric in the variant with the action of BSka-3 (42.4%) increased by + 10% compared to the control (without treatment); and by + 6% for the option using the drug Extrasol (38.1%).

An assessment of the structural state of the soil when applying high doses of defecate and mineral fertilizers using preparations in the form of microbiological fertilizers during seed treatment was stimulated by an increase (t/ha) in sunflower yield (Table 1).

Table 1 - Sunflower yield in the experiment with the integrated use of defecate and fertilizers, t/ha

Fertilizer level Treatment with microbiological fertilizers No processing BSka-3 Extrasol 6.3 t/ha defective, N ₉₀ P ₄₀ K ₅₀ 18.9 22.6 22.9 12.6 t/ha defective, N ₉₀ P ₄₀ K ₅₀ 20.1 24.0 25.3 6.3 t/ha defective, N ₁₄₀ P ₇₀ K ₁₀₀ 22.8 26.7 26.8 12.6 t/ha defective, N ₁₄₀ P ₇₀ K ₁₀₀ 23.5 29.3 31.2

NSR ₀₅ , t/ha, average, interactions: AB – 4.01.

Analysis of the experimental results showed an improvement in the agrochemical properties of the soil when the defect was applied simultaneously with mineral fertilizers and with the treatment of seeds with the preparations BSka-3 and Extrasol.

It was found that higher doses of mineral nitrogen reduced oil content by an average of 0.5-1.55. The maximum oil content was noted in the variants with the introduction of a higher dose of sugar production defect 12.6 t/ha, when applied with a lower dose of mineral fertilizers (N ₉₀ P ₄₀ K ₅₀ ) against the background of treating sunflower seeds with microbiological fertilizers. The maximum fat indicator was noted in the variant of introducing defecate 12.6 t/ha at N ₉₀ P ₄₀ K ₅₀ and the drug Extrasol (42.5% -42.7%).

Thus, the use of sugar production waste - defecate - depends on the timing of application at a dose of 12.6 t/ha, together with mineral fertilizers N ₁₄₀ P ₇₀ K ₁₀₀ with seed treatment with BSka-3 at a dose of 4 l/t. The biological activity of the soil largely depends on the influence of biological fertilizers, which makes it possible to obtain high, stable, environmentally friendly yields of oil seeds; the resulting fertilizer mixture has restorative properties of soil fertility, and as a result, also helps to increase crop yields.

Claims (1)

A method of increasing the soil fertility of agricultural lands when recycling waste from sugar production when growing sunflower in the conditions of the Central Black Earth Region, characterized by the fact that a mixture of sugar production waste in a dose of 12.6 t/ha, mineral fertilizers in a dose of N ₁₄₀ P ₇₀ K are used as an organomineral complex ₁₀₀ and treatment of seeds with the microbiological preparation BSka-3 with an application rate of 4 l/t, or with the drug Extrasol with an application rate of 4 l/t, while the mixture of the organomineral complex is applied in the fall - for fall plowing, and in the spring - for cultivation in the surface layer and evenly embedded in the soil to a depth of 15-20 cm, and seed placement 3 cm, sowing is carried out with a seeding rate of 30 thousand pcs./ha of viable seeds.