RU2827217C1 - Method of increasing soil fertility and productivity of crops - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. In the method for sowing grain crops or for planting potatoes, a mixture of mineral fertilizers is used with an application rate of 60 kg/ha AD when applying gypsum-containing and dolomite-containing products at ratio of 2:1 with an application rate of 4 t/ha. Mixture of mineral fertilizers and gypsum-containing and dolomite-containing products is applied in the first decade of May – under cultivation at depth of 12-14 cm using a fertilizer spreader. Sowing of winter wheat is carried out at a seeding rate of 5.5 million units/ha at depth of 4-5 cm using a row method. Sowing of maize is carried out with a seeding rate of 45 thousand pieces/ha at depth of 6-7 cm with a row spacing of 70 cm, and potatoes are planted with cutting ridges at depth of 8-10 cm with a planting rate of 2.8 t/ha.

EFFECT: method ensures increase of soil fertility and productivity on common alkaline black soil when growing maize, winter wheat and potatoes with combined use of mineral and gypsum-dolomite-containing products in the form of fertilizers against the background of their application into soil.

4 cl, 5 dwg, 2 tbl, 3 ex

Description

The invention relates to agriculture and can be used in the cultivation of winter wheat, corn and potatoes using mineral fertilizers and a gypsum-containing and dolomite-containing product to increase soil fertility.

Due to the use of local cheaper ameliorants in production, it allows for a significant change in the agrochemical properties of the soil.

In the context of rapidly growing prices for mineral fertilizers, the use and increase in the efficiency of soil-improving substances in the system of fertilizing agricultural crops in specific climatic conditions of gypsum-containing and dolomite-containing products with their inclusion in the composition of modern agricultural technologies is a very relevant area.

In the proposed invention, the authors specifically consider the use of a complex of a mixture of mineral fertilizers and a gypsum-dolomite product during melioration work in the nutritional regime of plants, such as phosphorus. Phosphorus plays a large role at the beginning of plant growth, especially when some crops form an inflorescence in the 4-6 leaf phase, and later, for example, in corn, the development of cobs and grains. A lack of potassium, one of the important elements, leads to a slowdown in the movement of carbohydrates, a decrease in the synthetic activity of leaves, and a weakening of the root system. It is known that by the beginning of the panicle phase, plants absorb up to 90% of potassium.

In agriculture, the most important and basic means of production are soil, which has fertility, and a cultivated plant consumes earthly factors of life mainly through the soil. Soil fertility is understood as its ability to serve as a habitat for cultivated plants, a source of providing earthly factors of life.

It is known that, in particular for corn, the soil acidity is not lower than pH - 5.6 and not higher than pH - 7.0. The yield decreases below pH - 5.6, and at pH - 4.0 the plants of this crop do not survive (Internet source: htt:/www. Arsagro.ru/tehnologija-vozdelyvanija-Kukuruzy).

A method for increasing soil fertility is known, which includes uniform distribution of tobacco dust over the soil surface at a dose of 2-8 t/ha, uniform application of a solution to the treated area that accelerates the decomposition of tobacco dust, and burying it in the soil using disks to a depth of 5-10 cm a month before the expected sowing or planting of agricultural crops, while the solution used is a mixture prepared from bird droppings at a rate of 3 t/ha. Pre-fermented with the microbiological preparation "Baikal M1", diluted in a volume of 10,000-15,000 l/ha (Patent RU No. 2710727, A01C 21/00, C05F 11/00, C05F 11/08, C05F 15/00 dated 10.01.2020).

The disadvantage of the method is the complexity and multiplicity of operations for implementing the method, which makes it significantly labor-intensive and expensive.

A method of cultivating corn is known, including pre-sowing cultivation, sowing seeds, pre-emergence harrowing and subsequent care of crops, where pre-sowing cultivation is carried out to a seed placement depth of 8-9 cm, on the 4-5th day pre-emergence cultivation is carried out with harrowing to a depth of 3-4 cm, and two or three days before emergence of seedlings, repeated harrowing is carried out (Author's certificate SU No. 1475507, A01B 79/02 dated 30.04.1989).

The disadvantage of this method is the insufficiently high yield - no more than 57.9 c/ha due to the fact that no fertilizer application is provided.

A method is known for increasing the yield of cultivated crops by introducing loose organo-mineral fertilizers into an open furrow cut in the soil simultaneously with loose soil, mixing them and filling the furrow with a layer of soil. Mixing organo-mineral fertilizers with the soil before planting prevents uneven concentration of fertilizer, and also helps to create a favorable air-soil balance (Author's Certificate SU No. 1794332, A01B 49/06, A01C 21/00 dated 15.02.1995).

The disadvantage of this technical solution is the need to use a special combination coulter.

A method is known for growing corn for grain with fine-dispersed irrigation, including tillage and wide-row sowing of seeds by forming a compacted bed in the soil and compacting the soil with rollers, inter-row care and irrigation, wherein the tillage is carried out in two periods: in the fall with the layer turnover, and in the spring before sowing - deep volumetric loosening without the layer turnover, when rolling the top layer of soil is combined with sowing, and irrigation is alternated with large and small irrigation rates, wherein small irrigation rates are carried out by fine-dispersed sprinkling at a rate of 200-250 l/h/ha for 0.5-2.0 h at an air temperature above 25°C and a wind speed of more than 5 m/s (Patent RU No. 2129766, A01B 79/02, A01D 91/04, 45/02 dated (26.07.2010).

The disadvantage of this method is that it requires multiple operations and has a low yield of grain corn.

A method of introducing liquid and semi-liquid chicken manure on light-gray forest soils is known. With long-term use of manure, the enrichment of humus with nitrogen increases, and the degree of humification of organic matter increases. The greatest increase in the yield of agricultural crops was ensured by introducing 50 tons of semi-liquid and 200 tons of liquid poultry manure per 1 ha (Orlov P.V. Ecological and agrochemical assessment of the influence of poultry manure on the productivity of agricultural crops and the nitrogen regime of the soil: Abstract of Cand. Sci. (Agricultural Sciences) Dissertation. - B.: 2008 - 17 p.).

The following disadvantage should be noted in the analogous method: application in liquid form contributes to the loss of nitrogen and other nutrients of chicken manure. Increasing the dose of chicken manure in liquid form can lead to a decrease in the quality of the resulting crop, deterioration of the biological properties of the soil.

A method for regulating wheat growth is known. Vegetative plants are sprayed with aqueous solutions of either serine, or alanine, or glycine, with a concentration of 0.1-0.00001% (Patent RU No. 2409028, A01N 25/02, A01N 37/44, A61P 21/00 dated 20.01.2011). The invention makes it possible to increase the efficiency of wheat cultivation. Vegetative wheat plants are then sprayed with the prepared aqueous solutions with different concentrations of amino acids at a rate of 150-250 l/ha.

However, this method is associated with plant growth regulators. It is necessary to take into account the effectiveness of soil treatment types in combination with herbicide treatment on the yield of winter wheat in specific regions, for example, in the conditions of the Samara region, where the use of ordinary solonetzic chernozems of the central and southern agro-climatic zones as ameliorants and the establishment of the degree of their influence on the productivity of agricultural plants is of great importance. However, it is necessary to take into account the known analogue, except for plant growth regulators, then in fact.

The proposed solution does not have enough analogues, and it is possible when considering the new proposal of the authors, therefore below are presented possible technical solutions, where the authors proceeded from the most effective way to increase the yield of grain crops by introducing into the soil a mixture of mineral fertilizers and a gypsum-containing product (GSP) and a dolomite-containing product (DSP).

A method of pesticide-free potato cultivation is known, which includes planting potatoes on the best predecessors, stubble peeling, adding organic fertilizers (rotted manure), autumn plowing of the soil, harrowing or cultivation followed by moldboard-less plowing, cutting ridges before planting, pre-planting treatment of tubers, planting in ridges, inter-row cultivation, weed control, protection from diseases and pests using biological preparations, as well as pre-harvest removal of tops and harvesting of tubers, with organic fertilizers applied at a dose of 60-120 t/ha.

Fertilizers are applied against the background of liming with lime or dolomite flour at a dose of 130 kg/ha. Harrowing, loosening, cultivation and inter-row cultivation are carried out when weeds are detected at the "white thread" stage. Planting is carried out with warmed seeds of tubers with hatched eyes, resistant to potato diseases, with a constant build-up of ridges with a soil layer of 3-4 cm with simultaneous loosening of the furrow bottom and ridge slopes. The subsequent 2-3 inter-row cultivations are carried out at intervals of 10-12 days until the potato tops close. To protect plants from diseases and pests, microbiological and entomopathogenic preparations are used (Patent RU No. 2041585, A01B 79/02, A01G 1/00, A01C 1/00, A01M 21/04 dated 20.08.1995).

However, the given method leaves open the question of more rational use of lands associated with further increase in potato yield. At the same time, herbicides are used to protect plants from weeds in the known method, and insecticides from pests.

The disadvantage of this method is the use of stubble cultivation, which provokes the germination of weeds, destroys growing weeds, and embeds crop residues into the soil.

There is no data that when introducing gypsum- and dolomite-containing products under cultivation, they enhance the most important nutrients in the soil, such as high availability of available phosphorus in the arable layer and its maintenance throughout the growing season, and ultimately, the formation of the harvest. In addition, potassium also has a positive effect on the processes of regulating osmotic pressure in cells, the synthesis of high-molecular compounds, the energy level of development of the root system of plants, increases cold resistance, etc.

The closest to the proposed method is the method of increasing the fertility and productivity of agricultural soils (BY 12267 C1, 30.08.2009), in which carbonate-containing raw materials and an organic complex are successively introduced into the soil with their subsequent incorporation into the soil (into the arable horizon); dolomite flour is used as the carbonate-containing raw material, which is introduced into the soil taking into account the value of its hydrological acidity, and manure is used as the organomineral complex at a dose of 7 t/ha once every 5 years.

The disadvantage of the known method is the unbalanced supply of the main plant nutrition elements to the soil, which is insufficient for the accelerated restoration of degraded agricultural lands and a significant increase in their fertility and productivity. In addition, clean manure that has not undergone sufficient neutralization is a source of many pathogenic organisms and helminths.

The proposed method of increasing the fertility and productivity of agricultural soils in a specific region of Russia using mineral nitrogen against the background of NPK and with the positive impact on the soil of the introduction of gypsum and dolomite-containing products allows eliminating the above-mentioned shortcomings.

Corn is very demanding to the concentration of the soil solution. Nitrogen is the main element limiting the yield of corn. Cultivation is almost everywhere. In Russia, corn crops occupy an area of 3229.4 thousand hectares. This crop is very demanding to soil fertility, very responsive to the introduction of fertilizers.

Winter wheat is one of the most important and most common food crops. It is demanding of its predecessors (sunflower, peas for grain) and depends on the presence of moisture and nutrients at the time of sowing, favorable appearance, yield and grain quality.

The yield of winter wheat depends on the development of nodal roots, which form in the tillering phase in moist soil and penetrate deep into the soil to 20-25 cm. In winter wheat, the roots grow until the milky-wax ripeness of the grain.

Potato growing is a traditional branch of agriculture, firmly holding second place after grain crops. However, one of the main reasons for the low efficiency of domestic potato growing is the significant lag of Russia behind the global agro-technological process.

The modern process in potato growing is possible due to the introduction of high-yielding varieties and the improvement of potato cultivation technology in the conditions of an adaptive-landscape economically justified farming system.

Potato requirements for soil and fertility are related to its biological characteristics: a relatively poorly developed root system and the formation of stolons and tubers in the soil. The best soils for potatoes are loose soils with good air permeability, low humidity and permeable subsoil horizons.

Hence, in general, new methods for expanded reproduction of soil fertility should be created taking into account targeted melioration 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 introduction of a mixture of gypsum- and dolomite-containing products when using them as fertilizers also with mineral fertilizers. This fertilizer contains organic matter, nitrogen, phosphorus, potassium and numerous microelements.

The technical result is an increase in soil fertility and productivity on ordinary solonetzic chernozem when growing corn, winter wheat and potatoes, with the combined use of mineral and gypsum-dolomite-containing products in the form of fertilizers against the background of their introduction into the soil, possessing restorative properties of soil fertility and agrocenoses under crops of the proposed agricultural crops.

The technical result is achieved in that in the method for increasing soil fertility and productivity of agricultural crops, when using gypsum-containing and dolomite-containing products as fertilizer taking into account their hydrolytic acidity with subsequent incorporation into the soil, characterized in that a mixture of mineral fertilizers with an application rate of 60 kg / ha of active ingredient is used for sowing grain crops or planting potatoes, when applying gypsum-containing and dolomite-containing products in a ratio of 2: 1 with an application rate of 4 t / ha, while the mixture of mineral fertilizers and gypsum-containing and dolomite-containing products is applied in the first ten days of May - under cultivation to a depth of 12-14 cm using a fertilizer spreader unit, sowing winter wheat is carried out with a seeding rate of 5.5 million pcs. /ha at a depth of 4-5 cm in rows, sowing corn with a seeding rate of 45 thousand pieces/ha at a depth of 6-7 cm with a row spacing of 70 cm, and planting potatoes is carried out by cutting ridges to a depth of 8-10 cm with a planting rate of 2.8 t/ha.

In addition, grain crops are treated with the insecticide "Fastak KE" at a rate of 0.15 l/ha. In addition, potatoes are treated with the pesticides "Match, VR" at a rate of 50 g/l and "Ridomil Gold MC, VDG" at a rate of 5 kg/ha.

In addition, potatoes are treated against pathogens and pests.

"Immunocytophyte, TAB."

In this regard, the authors' research shows on three different crops that the high efficiency of fertilizers - ameliorants on the "soil - plant" system will be different depending on the soil and climatic conditions and the characteristics of the cultivated crops in specific soil and climatic conditions, and also, this is related to the meteorological conditions of vegetation, in particular in non-irrigated agriculture, they will be decisive.

The following crops were selected as objects of research:

1. Corn - hybrid "Amavit".

2. Winter wheat - variety "Moskovskaya 56".

3. Potatoes - variety "Vympel", mid-season.

Corn hybrid "Amavit". This corn hybrid combines high yield and low grain moisture. The crop is resistant to diseases and pests. The cob has a cylindrical shape, 20-21 cm long, grain at the level of 34-46 pcs. Density primarily depends on the growing region.

Winter wheat variety "Moskovskaya 56" - semi-upright bush. Medium-sized plant. Medium wax coating, absent or very weak on the upper internodes. Spike is semi-club-shaped, loose - medium density, white, short - medium length. Awns at the end of the spike are of medium length. Omission of the apical segment of the spike axis on the convex side is weak. Shoulder is raised, narrow - medium width. Tooth is moderately curved, medium length. Lower spikelet scale on the inner side has very weak ptosis. Caryopsis is colored. Weight of 1000 grains is 40-49 g. Mid-season. Vegetation period is 294-328 days. Plant height is 74-103 cm. Baking qualities are good. Valuable wheat.

Potato variety "Vympel" - a plant of medium to high height, intermediate type, semi-erect. The leaf is medium-sized, closed, green. The corolla is medium-sized. The intensity of anthocyanin coloration of the inner side of the corolla is absent or very weak. Resistant to potato cancer pathogens, golden potato cyst nematode. Moderately susceptible to the pathogen of late blight on tops and tubers.

The studies were conducted in the conditions of OOO Sev 07, Privolzhsky District, Samara Region, in 2022-2023.

The experimental soils of the Samara region are ordinary solonetzic chernozem with a humus content of 4.8% in the arable horizon, a pH value of 7.4 for the aqueous extract with a content of mobile forms of phosphorus and exchangeable potassium, respectively 110 and 240 mg/100 g of soil.

The experiments were carried out in accordance with the methodological instructions of B.A. Dospekhov (1985). The total area of the plot was 500 ^m2 . Replication was threefold. The placement of the experimental variants was systematic.

Field work on the experimental plot was carried out taking into account weather conditions and the requirements of the target crops. Weather conditions during the years of research were analyzed based on meteorological data near the experimental field by the Bezenchukskaya agrometeorological station, which showed that during the period from January to March, in the area of the experimental field, 140 mm of precipitation fell, with an average long-term norm of 66 mm.

An analysis of meteorological conditions allows us to conclude that the vegetation of experimental plants in the spring-summer period, in particular in September, occurred in a harsh temperature regime with a deficit of atmospheric moisture.

In general, for the period May - September, the sum of positive temperatures was 2661°C, with an average norm of 2568°C. The amount of precipitation was 92 mm, with a norm of 207 mm. The GTC for this period was 0.35 units. Under these conditions, the planned crop yield was possible only due to artificial irrigation of the experimental field with a sprinkler machine.

The process of decomposition of organic nitrogen-containing matter in the soil began with amonification. As a result, the activity of ammonifying microflora increased in the soil with an increase in the level of nitrogen nutrition of plants.

Research options:

1. Control (without fertilizers).

2. N ₆₀ P ₆₀ K ₆₀ (Background).

3. Background + Gypsum - 2 t/ha.

4. Background + Gypsum - 4 t/ha.

5. Background + Gypsum + Dolomite in a ratio of 1:1, application rate - 2 t/ha.

6. Background + Gypsum + Dolomite in a ratio of 1:1, application rate - 4 t/ha.

7. Background + Gypsum + Dolomite in a ratio of 2:1, application rate - 2 t/ha.

8. Background + Gypsum + Dolomite in a ratio of 2:1, application rate - 4 t/ha.

Example 1. Gypsum and dolomite-containing products were applied under cultivation to a depth of 12-14 cm according to the above-mentioned experimental schemes. Ameliorants were applied using a tractor-mounted fertilizer spreader RUM-4. Pre-sowing cultivation for sowing corn to a depth of 6-7 cm with a seeding rate of 45 thousand pcs./ha, in a wide-row method with a row spacing of 70 cm, using a precision seed drill GASPARDOMTR 16. Sowing was carried out in the first ten days of May. The crops were treated with the insecticide Fastak KE, - 0.15 l/ha.

Example 2. Based on the previous example with fertilizers, the above-mentioned experimental schemes for cultivation to a depth of 12-14 cm, then pre-sowing cultivation to a depth of 5-7 cm, winter wheat, seeding depth of 4-5 cm with a seeding rate of 5.5 million pcs./ha, in a row method were carried out in the first ten days of May. The crops were treated with the insecticide Fastak KE, - 0.15 l/ha.

Example 3. Based on the previous examples with fertilizers, with the above-mentioned experimental schemes for cultivation of 12-14 cm, cutting ridges for potatoes of 12-14 cm. Planting of tubers in ridges was carried out at a depth of 8-10 cm with a seeding rate of 2.8 t / ha. Potatoes were planted in the first ten days of May. During the vegetation period of potatoes, they were treated with pesticides "Match, VR" - 50 mg / l, "Ridomil Gold MC, VDG" - 5 kg / ha. In order to increase resistance to diseases, potatoes were treated with "Immunoceytofit, TAB".

The analysis of the experiments showed that the content of ammonium nitrate nitrogen in the soil in the variant of application of gypsum-containing product (GSP) at a dose of 2 t/ha was slightly inferior compared to the variant with application of a full dose of mineral fertilizers, both in the phases of corn development and on average for its vegetation. This was due to the introduction of additional forms of nutrition into the soil along with fertilizer and was accompanied by an increase in the processes of nitrification and ammonification in the soil.

It should be noted that phosphorus was one of the most important nutritional elements in the soil. At the same time, the main role in plant nutrition was played by mobile forms of phosphorus. It was the lack of these forms that limited the yield of agricultural crops. It follows that it is important to create conditions that facilitate the release of phosphorus - ions from the solid phase of organic fertilizers into solution. These processes are carried out by lithotrophic and organotrophic microorganisms, methods that promote the activation of their activity are accompanied, as a rule, by an increase in the available forms of phosphorus in the soil environment.

The content of mobile phosphorus in the arable layer (0-30 cm) of ordinary solonetzic chernozem (mg/kg) is given (Fig. 1).

In Fig. 1, variants of experiments: 1, 2, 3, 4, 5, 6, 7, 8 (an explanatory description of the experiments is given above).

The data (Fig. 1) indicate that during the years of research, high availability of crops by providing soil with phosphorus was ensured.

The introduction of a gypsum-containing product (GCP) into the soil, where a noticeable tendency to increase the phosphorus content in the arable layer is manifested, and its maintenance throughout the entire vegetation period, has a significant impact on the growth and development of plants. At the same time, there is an increased consumption of the element for the formation of a crop at a higher level, which is due to the active action of silicon present in the gypsum-containing product (GCP) and its ability to displace phosphorus into the soil solution from hard-to-reach phosphates.

Potassium has a positive effect on the processes of regulating osmotic pressure in cells, the synthesis of high-molecular compounds, the energy level and winter hardiness of crops, and enhances the synthesis and accumulation of a number of vitamins in plants.

Potassium is found in soil in different forms: 1) water-soluble; 2) exchangeable; 3) difficult to exchange; 4) exchangeable, including fixed; 5) potassium of soluble silicates; 6) potassium of the organic part of the soil.

Thus, the entry of these forms into the soil solution occurs from the existing soil reserves. Therefore, it is very important to create such conditions in the soil that would ensure the constant entry of potassium into the soil solution in an accessible form.

Studies have shown that the use of a gypsum-containing product (GCP) at a dose of 4 t/ha increases the potassium content by 7% compared to the control. If we consider the formation of the crop over the entire vegetation period, then in the variants with the introduction of a gypsum-containing product (GCP), a high level of potassium nutrition is maintained, which means that the yield increases.

The reaction of the soil solution environment is the ratio of the concentration of H* and OH* ions of the soil solution, expressed as the pH of the aqueous extract. It has been established that fertilizers change the reaction of the soil solution. This reaction shows the effect on the nutrient regime of the soil, growth, increase in plant productivity, the activity of soil microorganisms, the transformation of the forms of nutrient elements of fertilizers and soil, agrophysical, agrochemical, physicochemical and biological properties of the soil.

Fertilizers and ameliorants allow you to regulate the reaction of soils for crop cultivation.

The studied reaction of the soil solution is determined by the concentration of hydrogen ions (H*) and hydroxide (OH*). For pure water with a neutral reaction, the concentration of hydrogen ions coincides with the concentration of hydroxide ion and is equal to 1⋅ 10 ^-7 mol/l.

It has been established that when adding 1 mmol of hydrochloric and nitric acid to 1 liter of water, which completely dissociate in an aqueous solution, the concentration of hydrogen ions is 1 mmol H*, or 1 ⋅ 103 mol/ ^dm3 . The concentration of hydrogen ions is expressed through the pH indicator as equal to: pH = - lg(C _H ^* ).

The conducted studies allow us to draw the following conclusions: the use of a gypsum-containing product (GSP) allows for a significant neutralization of soil alkalinity, and it, accordingly, decreased by 0.215-0.4 units of pH _KCl . At the same time, the soil moved from the category of slightly alkaline - close to neutral.

As a result of the data analysis, it was shown that the introduction of a gypsum-containing product reduced the acidity of the soil in the variants using GSA, both in its pure form, and is also associated with the content in its composition (Ca + Mg), which improve the soil environment, and in turn, contribute to a decrease in the content of hydrogen ions in it, thereby neutralizing acidity.

The results of studies on the effect of the use of ameliorant fertilizers on the content of basic nutrients in the arable soil layer (mg/kg) and its exchangeable acidity (pH units _KCi ) under corn crops are presented (Table 1).

From the data presented in Table 1, it is evident that the use of a gypsum-containing product (GSP) as a fertilizer (compared to the control) helps to reduce the levels of mineral nitrogen (N - NO ₃ + N - NH*) in the soil solution by 0.5-1.3 mg/kg.

The data presented above indicate the main role of the gypsum-containing product (GCP) in increasing the potassium nutrition of plants. Thus, it is caused by the strengthening (increase) of the activity, first of all, of lithotrophic microorganisms, which leads to the release of potassium from the corresponding soil minerals.

The most optimal solution in crops is the variant with the introduction of gypsum-containing product (GSP), at a dose of 2 t / ha against the background of NPK with the introduction of 60 kg / ha active ingredient, compared to the control; nitrogen was 1.3 mg / kg, and compared to the background remained at the same level. Phosphorus in the soil increased by 27 mg / kg, which in turn indicates a positive effect of gypsum-containing product (GSP) in converting inaccessible forms of the element into available ones.

Potassium content also changed from 146 mg/kg to 167 mg/kg, which is associated with higher consumption of corn, which needs it most, while soil alkalinity decreased by 0.4 units depending on the fertilizer application rate.

This positive effect was associated with the introduction of a gypsum-containing product (GCP), as well as a dolomite-containing product (DCP) with the presence of (Ca + Mg), which, in turn, contribute to the improvement of the water regime of soils, as well as the physical and chemical properties of solonetzic soils, increases fertility, reduces alkalinity and the content of exchangeable sodium in the PPC, and increases the degree of calcium saturation.

Thus, the use of gypsum-containing product (GCP) with the content of mineral nitrogen ( _NH4 ^* + _NO3 ), available phosphorus and potassium in the arable layer of ordinary chernozem is necessary for the nutritional regime, where for growing corn, nitrogen increased by 0.1-1.3 mg/kg of soil, phosphorus by 5-6 mg/kg of soil, potassium by 7-21 mg/kg of soil compared to the control.

The data (Fig. 2) show the content of exchangeable potassium in the arable layer (0-30 cm) of ordinary solonetzic chernozem depending on the use of a gypsum-containing product (GCP) and a dolomite-containing product (DCP), mg/kg.

In Fig. 2 experimental variants: 1, 2, 3, 4, 5, 6, 7, 8 (an explanatory description of the experiments is given above).

The data (Fig. 3) show the exchange acidity of the arable layer of ordinary solonetzic chernozem depending on the use of a gypsum-containing product (GCP) and a dolomite-containing product (DCP).

In Fig. 3 experimental variants: 1, 2, 3, 4, 5, 6, 7, 8 (an explanatory description of the experiments is given above).

The results obtained showed that the gypsum-containing product allows for a significant improvement in the basic physical and chemical properties of the soil, and therefore, the general trend of biological processes and the nutritional regime of the soil.

Corn and potatoes require fertilization in addition to the provision of nutrients.

The data (Fig. 4) indicate the condition of the corn grain at the moment of full maturity with the addition of gypsum-containing (GSP) and dolomite-containing (DSP) products.

Moreover, the data (Fig. 5) indicate the biometric indicators of potatoes in the experimental variants with the addition of gypsum-containing (GSP) and dolomite-containing (DSP) products.

Table 2 shows the yield of grain crops with the introduction of gypsum-containing (GSP) and dolomite-containing (DSP) products.

From the data presented in Table 2, it is evident that the maximum yield of winter wheat crops was revealed in the variants Background + GSP + DSP at a dose of 4 t/ha with a ratio of 2:1 (52.0 c/ha); Background + GSP + DSP at a rate of 4 t/ha with a ratio of 1:1 (50.8 c/ha).

A more noticeable effect of the high efficiency of the gypsum-containing product (GCP) and the dolomite-containing product (DCP) was that the grain yield of corn, depending on the dose, ranged from 146.0 to 153.19 c/ha.

It should be noted that doubling the dose of GSP significantly increased the yield, but not proportionally, but only by 53%. Thus, it is necessary to take this into account when choosing the dose of products for use in production conditions.

Enrichment with gypsum-containing product (GCP) and dolomite-containing product (DCP) at a significant dose of their application is accompanied by an increase in efficiency as a fertilizer. The increase in grain yield in the experiments reached from 1.53 to 2.48 t/ha.

The maximum grain yield in the experiments was achieved with the use of GSP at a dose of 2 t/ha and DSP at a dose of 60 kg of active ingredient/ha: nitrogen, phosphorus and potassium.

The maximum potato yield was achieved using the variants Background + GSP + DSP at a dose of 4 t/ha at a ratio of 2:1 (301.5 c/ha); at a ratio of 1:1 (290 c/ha).

Thus, the use of gypsum-containing and dolomite-containing products in a ratio of 2:1 with an application rate of 4 t/ha together with mineral fertilizers at 60 kg/ha active ingredient results in a reliable increase in the yield of grain crops and potatoes on ordinary chernozem solonetzic soils of the Samara region of Russia.

Claims (4)

1. A method for increasing soil fertility and the productivity of agricultural crops using gypsum-containing and dolomite-containing products as fertilizers, taking into account their hydrolytic acidity, followed by incorporation into the soil, characterized by the fact that a mixture of mineral fertilizers with an application rate of 60 kg/ha of active ingredient is used for sowing grain crops or planting potatoes. when applying gypsum-containing and dolomite-containing products in a ratio of 2:1 with an application rate of 4 t/ha, while a mixture of mineral fertilizers and gypsum-containing and dolomite-containing products is applied in the first ten days of May - under cultivation to a depth of 12-14 cm using a fertilizer spreader unit, winter wheat is sown with a seeding rate of 5.5 million pcs./ha to a depth of 4-5 cm in rows, corn is sown with a seeding rate of 45 thousand pcs./ha to a depth of 6-7 cm with a row spacing of 70 cm, and potatoes are planted by cutting ridges to a depth of 8-10 cm with a planting rate of 2.8 t/ha. 2. The method according to paragraph 1, characterized in that the treatment of grain crops is carried out with the insecticide “Fastak, KE” at a rate of 0.15 l/ha. 3. The method according to item 1, characterized in that the potato is treated with the pesticides “Match, VR” at a rate of 50 mg/l and “Ridomil Gold MC, VDG” at a rate of 5 kg/ha. 4. The method according to paragraph 1, characterized in that the potatoes are treated with Immunocytophyte and TAB against pathogens and pests.