RU2760153C1 - Method for stimulating foliar spray nutrition in the technology for growing spring rapeseed in the conditions of the central black earth region - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method includes operations in tillage, seed preparation and sowing, treatment with organomineral active substances. Winter wheat is used as a precursor, the agent "Alterr, EC" or "Fastac, EC" with a consumption rate of 0.15 l/ ha is used as an insecticide. Mineral fertilisers N₄₅P₄₅K₄₅ are introduced in autumn prior to the primary tillage. In the spring, mineral fertilisers are additionally introduced at a dose of N₆₀ kg application rate/ha in the form of ammonium nitrate, and sowing is executed with a seeding rate of 2.5 mil. pcs./ha of viable seeds. The planted rapeseed is treated by spray nutrition with micro-fertilisers, wherein "Microel", or "Lignohumate", or "Power of Life", or "Boroplus", or "Plantafol 20:20:20", or "Plantafol 5:15:45" are used as liquid agents with the respective rate of consumption of the agents: 0.2 l/ha; 0.15 l/ha; 0.4 l/ha; 0.75 l/ha; 1 kg/ha. The crops are treated with micronutrients in two steps: first in the rosette phase, and then foliar spray nutrition of the plants is repeated in the budding phase - the beginning of flowering.

EFFECT: method provides an increase in the yield of oilseeds and the quality thereof when using foliar nutrition micro-fertilisers with biostimulating effect as fertilisers in the forest steppe area of the Central Black Earth region.

1 cl, 4 dwg, 1 tbl, 1 ex

Description

The invention relates to the field of agriculture and can be used in the cultivation of oilseeds, in particular spring rape in the forest-steppe zone of the Chernozem region.

The use of trace elements is an important factor in increasing the yield of spring rapeseed. Optimization of the system of their application is one of the main directions of the effectiveness of the cultivation of rapeseed crops in modern conditions of agricultural production. In the last 2020 alone, the world production of rapeseed amounted to 69 million tons. Today, rapeseed is the third leading oilseed crop in the world. The composition of rapeseed oil contains oleic, linoleic and other useful fatty acids. Therefore, the demand for vegetable oils of this crop has grown significantly. It is the achievements over the past 25 years in the field of crop production, the production of rapeseed has increased by 40-50%. In order to obtain high and stable yields of this crop, in addition to varietal characteristics, it is important to take into account the introduction of a mineral complex of elements in its cultivation technology. The combination of mineral fertilizers and the optimal level of their doses for spring rape, as noted by a number of researchers, largely depends on the soil and climatic conditions of the region, which is an urgent task for the conditions of the forest-steppe of the Central Chernozem region, including the Lipetsk region. Thanks to its powerful root system, the crop efficiently consumes moisture and nutrients from the topsoil to obtain sustainable high yields of rapeseed oilseeds.

Currently, in modern agricultural technologies, foliar (leaf) dressing is actively used. Rapeseed, in certain phases of growth and development, is especially demanding for the presence of the required amount of trace elements such as boron, manganese and molybdenum. Boron promotes root growth, increases tissue elasticity (cracking of stems and root collars during freezing decreases), increases disease resistance, regulates carbohydrate and protein metabolism.

At this stage, in order to increase the productivity of agriculture, in particular, spring rape, the urgent problem of the influence of various micronutrient fertilizers in the form of foliar dressings on the yield is considered, i.e. nutrition of the foliar system of plants.

The substances obtained from the soil are not sufficient, therefore, it is required to compensate with foliar dressing, especially in conditions of inaccessibility for plants during the period of their maximum consumption.

In science and practice, preparations of fungicidal and growth-regulating action for grain crops are known using N - methyl - 1 - phenyl - 1 - N - diethylamino methanesulfonamides as a fungicidal agent for spraying crops of grain crops during the growing season (Patent RU No. 2117658, С07С 21 / 24, A01N 33/04 and other classes from 08/20/1998; A62R 31/12, A61R 37/04, C07C 311/32 from 27.03.2006; Patent RU No. 2314689, C07C 31/32, A01N 4/06 from 03/20/2008). However, these drugs with growth-regulatory activity work on grain crops and, there is no research and information on the effect of micronutrient fertilizers in the form of foliar feeding on the yield of spring rape in the forest-steppe conditions of the Central Chernozem region of Russia, as well as their action on a particular selected variety of spring rape in combination with the drugs suggested below.

A known method of cultivation of winter rapeseed, including a set of cultivation techniques, consisting of soil treatment operations, seed preparation for sowing, autumn sowing of seeds, care of crops in the autumn, assessment of crops after overwintering for the degree of their safety from the effects of low temperatures, taking into account the partial death of plants , making a decision on further actions for the cultivation of crops, the introduction of nitrogen fertilizing in the spring, in case of leaving crops after overwintering to obtain a harvest; at the same time, crops with a dead aerial part of plants and, provided that the root zone is preserved (at least 15-20 plants per 1 m ² ), are treated during the period of regrowth of new aerial shoots in plants with a fungicide from the azole group, for example, the fungicide Folicur, or a fungicide Kolosal or fungicide Amaster at a dose of 0.8-1.0 l / ha (Patent RU No. 2405295 А01В 79/02 dated 10.12.2010).

This rapeseed technology allows to improve the conditions for its growth and production of high-quality oilseeds when using the limited climatic conditions of the winter period.

A known method of stimulating the growth and development of oilseed cabbage crops, including the treatment of vegetative plants with an aqueous solution of a growth regulator; at the same time, as a growth regulator, the drug Silk is used, which is a natural amount of triterpenic acids isolated from fir, and the treatment is carried out once or twice during the growing season at a dose of 1.0-10.0 g / ha for the active ingredient, for rapeseed - treatment is carried out once in the phase of 5-7 leaves at a dose of 1.0-2.0 g / ha (Patent RU No. 2121272, A01N 65/00 from 10.11.1998).

An additional search for sources also made it possible to identify a means of foliar feeding of plants (Patents: RU No. 2120754, A01N 59/06, C05D 5/00 from 06/05/1997 and RU No. 2134252, C05D 9/02, А01С 21/00, A01N 59/08 from 10.08.1999), where natural material is taken as the basis, which includes impurities listed in the descriptions of analogues for grain and oilseeds.

There is a known method of increasing the yield of spring rapeseed, including the separation of the starting material into fractions and sowing with cleaned seeds, while for sowing, seeds of an average fraction with a diameter of 2.0 mm are used, obtained by sorting on gratings with round holes with a diameter of 1.9-2.1 mm (Patent RU No. 2485748, А01С 1/00 dated 20.11.2012). The analogue notes that the seeds for sowing must be large in order to have a large supply of nutrients, which ensures friendly shoots, as a result, forming the largest collection of oil from seeds with a high yield increase.

A known method of processing crops of spring rape, characterized by the fact that before sowing, mineral fertilizing is introduced into the soil in the form of nitrogen-phosphorus-potassium fertilizers, for example, a complex type of NPK in an amount of 12-15 g / m ² together with a plant growth regulator in an amount of 5- 8 ml / ha; then the soil surface is leveled with rollers, then spent rape seeds are sown into the prepared soil, and after sowing, the soil surface is treated with a plant growth regulator and 0.01-0.04% chitosan solution. The method is characterized in that rape seeds are sown according to an equilateral triangle pattern with a distance between seeds equal to 10-15 cm (Patent RU No. 20061262366, А01В 79/02 from 27.01.2008).

The disadvantage of the known analogue is the relatively complex and expensive technology of using the plant growth regulator as a whole, and the manifestation of certain positive biofects is also unknown. It is known that the effects of their use can manifest themselves only under certain conditions associated with specific crops, weather conditions, the goals of growing crops, the timing of treatments, etc. These conditions must be shown with specific examples, in particular, for the proposed spring rapeseed variety "Rif"; It is also recommended to form a method that reflects the entire set of essential features of the proposed method, in particular, the effect of the use of micronutrient fertilizers in the form of foliar dressings proposed by the authors of the invention on the yield in the critical period of consumption, growth and development of the spring rapeseed variety "Rif" by the preparations "Microel" or "Lignohumate" or "Power of life" or "Boroplus" or "Plantafol" in the forest-steppe conditions of the Lipetsk region of Russia, on leached chernozems, and to establish the effectiveness of the influence of foliar dressing with micronutrient fertilizers on the yield and quality of spring rape seeds.

The closest analogue (prototype) to the invention in terms of a combination of features is a method of growing spring rape for feed, where winter rye is used as a previous crop, and rapeseed is used early ripening varieties with a growing season of up to 100 days (Patent RU No. 2244415, A01G 1/00, А01В 79/00 dated 20.01.2005). However, although the method relates to fodder production, it can be used when growing spring rape in fodder crop rotations.

At the same time, given the relevance of the proposed work, in the development of highly productive technologies using foliar dressing for growing plants of spring rape with micronutrient fertilizers proposed below, for the conditions of the forest-steppe of the Central Chernozem region, namely the Lipetsk region, requires a special methodology for studying research on chernozem: determining the optimal timing foliar dressing with micronutrient fertilizers, revealing the formation of the yield and the quality of seeds of spring rape of the "Rif" variety, as a result, achieving high yields and good qualities of seeds. Hence, it should also be noted that the introduction of new drugs into agricultural production and the influence of foliar dressing is one of the priority areas for the development of environmentally friendly and resource-saving technologies. The study of the effect of micronutrient fertilizers as foliar dressings based on the selected variety of spring rape "Rif" and its proposed for this region is a new study in the fields of agriculture and crop production. The variety is included in the State Register for the North-West Volgo-Vyatka, Central Black Earth, Middle Volga, Ural regions. Proposed for implementation in the Kaliningrad, Kirov and Lipetsk regions. It is characterized by light green leaf color, medium height, early flowering. The pod (no spout) is medium, the spout is of medium length, the pedicel is long. The average seed yield by region is 1.5 c / ha (+ 6.9% to the standard level). The fat content in the seeds is from 39% to 45%, the collection of oil is from 4.2 to 7.8 c / ha. The growing season is 90 to 102 days. Plant height from 88 to 114 cm (Application for the protection of the variety "Rif" - patent No. 6975, registration from 2013-07-30).

The objective of the invention is to increase the yield of oilseeds and their quality by increasing soil fertility, as well as using micronutrient fertilizers with a biostimulating effect as a fertilizer for foliar fertilization with a biostimulating effect at consistently high yields, in the forest-steppe zone of the Central Black Earth Region, using only existing agricultural equipment.

The problem is solved by the fact that the method of stimulating foliar feeding when growing the variety of spring rape "Rif" in the Central Black Earth Region, including operations on soil cultivation, seed preparation and sowing, treatment with organic mineral active substances, characterized in that winter wheat is used as a precursor, in as insecticides, use the drug "Alterr, KE" or "Fastak, KE" with a consumption rate of 0.15 l / ha, in the fall, before the main tillage, mineral fertilizers N ₄₅ P ₄₅ K ₄₅ are applied, in the spring mineral fertilizers are additionally applied at a dose of N ₆₀ kg ae / ha in the form of ammonium nitrate, and sowing is carried out with a seeding rate of 2.5 million pcs. / ha of germinating seeds, rape crops are treated with fertilizing microfertilizers, and as liquid preparations they use: "Microel", or "Lignohumat", or "Power of Life", or "Boroplus", or "Plantafol 20:20:20", or " Plantafol 5:15:45 "with the consumption rate of drugs, respectively: 0.2 l / ha; 0.15 l / ha; 0.4 l / ha; 0.75 l / ha; 1 kg / ha, while the crops are treated with micronutrient fertilizers in two steps: the first in the rosette phase, and foliar feeding of plants is repeated in the budding phase - the beginning of flowering.

Comparative analysis of the proposed technical solution, in comparison with the prototype, on leached chernozem soils allows us to conclude that the claimed method of foliar feeding of spring rape with the proposed various preparations containing micronutrient fertilizers in agrocenoses of spring rape, in the form in which they are in plants - in the form complexes with natural chelating elements - plant amino acids, which quickly and without loss absorb, transport, assimilate all the microelements obtained by the preparation. According to the content, which, below, large studies of water-soluble fertilizers for foliar applications have been carried out and the degree of their assimilation is large enough.

Based on this, it can be concluded that the claimed invention meets the patentability criterion "inventive step".

The claimed technical solution meets the criterion of patentability "industrial applicability", since can be used in agriculture.

The method is carried out as follows. Agrotechnical measures for the cultivation of spring rape are generally accepted for the zone. Seeds are prepared for sowing, previously encrusted with insect-fungicidal dressing agents.

Sowing is carried out in the third decade of April (temperature + 14 ° C and above). In experiments, the weather conditions in the third decade of April - the first decade of May according to the years of research were characterized by an increased temperature regime (exceeded the average long-term values of the growing season of rapeseed 1.6 ° C) and high moisture reserves in the soil (the average amount of precipitation was 10.6 mm - 66 % of the norm), which had a favorable effect on the completeness of seedlings, i.e. with sufficient moisture reserves in the conditions for 2019-2020. Weather conditions for 2019-2020 are shown (Fig. 1). In general, climatic conditions developed positively for the development of rapeseed, with the SCC in 2019 - 0.98, in 2020 - 1.28.

All agrotechnological techniques were carried out at the optimal time indicated above. Against cruciferous flea beetles, rapeseed crops were treated with an insecticide "Fastak, KE" with a consumption rate of 0.15 l / ha. Cleaning was carried out at the end of August directly.

For the conditions of the Lipetsk region, the variety of spring rape "Rif" was chosen for research. Characteristics of the drugs studied in the experiment:

Microel is a liquid complex microfertilizer developed by the Russian company Volski Biochemistry. Microel is a well-known preparation of foliar feeding. MICROEL contains 4 macro (N, K ₂ O, MgO, SO ₃ ) and 11 microelements (Mo, Mn, Zn, Cu, Fe, Co, B, Ni, Li, Cr, Se), where: Cu - 0 , 60%, Zn - 1.30%, B - 0.15%, Mn - 0.31%, Fe - 0.30%, Mo -0.20%, Co - 0.08%, Cr - 0.001% , Se - 0.009%, Ni - 0.006%, Li - 0.04%, N - 0.40%, K - 0.03%, Mg - 1.32%. Moreover, the emphasis is on a balanced content, which activates the enzymes of plants, soil and microorganisms. Getting on the surface of the leaf, the nutrients of the preparation without loss penetrate into the intercellular space of the plant, thereby stimulating the processes of photosynthesis and nitrogen fixation. The solution itself does not require additional time-consuming labor for the preparation of the working solution and additional processing of the sowing.

A decrease in stress from unfavorable weather conditions (drought, frost) and an increase in the resistance of seedlings to diseases and pests should be noted.

Lignohumate is a highly active growth stimulant, immunomodulator and antistressant. Contains up to 90% humic acids. It can be used not only for foliar feeding of plants, but also in drip irrigation systems, both in open and protective soil, its action is combined with mineral fertilizers. This is a liquid stimulant of the BM brand potassium with microelements - 20% aqueous concentrate, contains humic substances up to 18%, mass fraction of macro- and microelements: K - not less than 9%, S - not less than 3%, Fe - not more than 0.2% , Mn - no more than 0.015%, Co - no more than 0.12%, Ca, Cr, Mg are present.

Life Force is a line of fertilizers designed for different types of plants. They contain basic trace elements, vitamins and organic acids in the form, fertilizers for assimilation, as well as organic components. Liquid organic mineral fertilizer. Contains (in terms of dry matter) in g / dm3: humic substances up to 15, N - 23, P - 12, K - 15, B - 0.006, Fe - 0.07, Mn - 0.1, Zn - 0, 08, Cu - 0.12, Mo - 0.006, S - 0.1, Mg -1.6, Ca -1.0, Na - 0.8, Mo - 0.006, Co - 0.002, Al - 0.0002, Ni - 0.0003.

Boroplus (Boroplus) is a liquid microfertilizer based on an organic boron compound from the well-known company Valagro (Italy). Boron is the most important trace element participating in and regulating the processes of pollination and fertilization, carbohydrate and protein metabolism. Many plants are very sensitive to boron deficiency - without making a large list of plants here, we note that this also applies to spring rape. In addition, due to its liquid form, containing boron in organic form (hydroboratethylamine), it is highly effective for foliar feeding of plants, also when used in drip irrigation systems. Unlike inorganic boron compounds, Boroplus has a mild effect and a reduced risk of phytotoxicity. Composition of Boroplus fertilizer: - 11.0%, appearance - liquid, colorless, yellowish, density - 1.37 g / cm, pH - 1% aqueous solution.

Plantafol is an ideal fertilizer made in Italy for foliar feeding of a wide range of crops. Improves vegetation and fruiting of different crops, increases the quality characteristics of the crop. Supplements root feeding and promotes plant development during unfavorable weather conditions (frost, drought, excess moisture, etc.). Plantafol is characterized by a high content of NPK and the presence of nitrogen in the amide form, which is optimal for foliar feeding.

Plantafol benefits: high nutrient content; the presence of an adhesive in the fertilizer; balanced formulas for all stages of development; the presence of nitrogen in the amide form. Dose ratio (NPK) - 20: 20; 20 - chelated fertilizer with a complex of macro - and microelements: N - 20%, P - 20%, K - 20%, B - 0.02%, Fe - 0.1%, Mn - 0.05%, Zn - 0.05%, Cu - 0.05%, Mo - 0.005%.

Plantafol (NPK) - 5:15:45 - chelated fertilizer with a complex of macro - and microelements: N - 5%, P - 15%, K - 45%, S - 12%, B - 0.02%, Fe - 0 , 1%, Mn - 0.05%, Zn - 0.05%, Cu - 0.05%, Mo - 0.005%.

An example of the implementation of the method.

The experiments were carried out in the conditions of the experimental field of the Yeletsk State University. I.A. Bunin, Lipetsk region of Russia in 2019-2020.

The soil is leached chernozem. The agrochemical characteristics of the experimental field (plot) showed that the soil in terms of the humus content of the forest-steppe of this region is as follows. The reaction of the soil solution is weakly acidic, the humus content is 5.7-5.8%, the total nitrogen content is 0.285-0.292%, phosphorus is 196.2-198.3 mg / kg, potassium is 114.7-115.0 mg / kg, pH - 5.5.

The object of research included the variety of spring rape "Rif". It is included in the register of selection achievements of the All-Russian Research Institute of Oilseeds. Issue 4 (176), 2018

The counts and observations during the growing season were carried out on the basis of the "Methodology for conducting field agrotechnical experiments with oilseeds" / Krasnodar, 2010 - 327 p. Mathematical processing of the results was carried out according to B.A. Dospekhov "Methodology of field experience (with the basics of static processing of research results)": a textbook for higher agricultural educational institutions. Stereotype. Ed., Reprinted. From the 5th ed., Supplemented and revised. 1985 M .: Alliance, 2014 .-- 351 p.

Research program and methodology.

A control field experiment was established on a fertility-leveled plot. The area of the plot size is 20 m ² , respectively, the accounting area is 15 m ² .

The preparation Microel (0.2 l / ha), Force of life (0.4 l / ha), Boroplus (0.75 l / ha), Plantafol (NPK) - 20:20:20 ( 1 kg / ha), Plantafol (NPK) - 5; 15:45 (1 kg / ha), Lignohumate (0.15 l / ha). Three types of rapeseed leaf treatments were used for the study: 1 - single treatment of plants in the leaf rosette phase; 2 - single treatment of plants in the budding phase - the beginning of flowering; 3 - two-fold processing of plants in the phases of rosette and budding.

Research results.

The onset of phenological phases of plants depended on the weather conditions of the year and options for treating rapeseed with micronutrient fertilizers. On average, the growing season for spring rape ranged from 98 to 101 days.

Single treatments reduced the duration of the growing season by 2-3 days, and double treatments reduced the duration of the growing season by 3-5 days. This effect was manifested at the time of seed ripening. As a result of the provision of microelements, vegetative plants were able to synthesize a full complex of enzymes, which in turn had a favorable effect on the acceleration of biochemical reactions and, as a consequence, was a factor in reducing the duration of the growing season.

The microfertilizers studied in the experiment contributed to the growth of the vegetative mass of the plants. It was found that the weight of 5 plants in the green pod phase was the smallest in the control variant (65.9 grams). Of all the microfertilizers studied in the experiment, the greatest effect was observed with two-fold treatment of vegetative plants with the preparations Plantafol 20:20:20 and Plantafol 5:15:45, exceeding the weight of plants in the control variant by 79.8 and 71.5 g, respectively (Fig. 2). The data of the average vegetative mass of rapeseed plants in the green pod phase, (grams) are shown (Fig. 2).

Single treatments with these microfertilizers in the phase of rosette and budding provided an increase in the vegetative mass, in comparison with the rest of the studied options.

The minimum increase in weight was observed when plants were treated with Boroplus, the average weight of five plants was 83 grams.

The deficiency of trace elements in the plant had a negative effect on the growth processes of plant organisms and, in general, led to their death in the experiment. Foliar feeding of spring rape plants contributed to an increase in plant density. This indicator for options with the use of micronutrient fertilizers was in the range of 215.2-249.7 pcs. / m ² . The maximum plant density was observed in the variant with the use of Plantafol (NPK) - 20:20:20 - 249.7 pcs. / m ² . The data are given (table).

Such biometric indicators as the number of side shoots and the number of pods per plant depended to a large extent on the supply of nutrients.

Single treatments contributed to a lesser formation of these indicators in comparison with double treatment of plants.

Boron is one of the main nutrients for the normal growth of higher plants. Its deficiency can affect a decrease in the number of fertilized flowers, lead to the dropping of buds, ovaries, which leads to a decrease in the formation of pods, and this, in turn, affects the overall yield.

In the micronutrient fertilizers we studied, boron was included in all preparations, except for Lignohumate. It was found that boron alone is not enough. So the processing of Boroplus plants contributed to the increase in pods by 6.3 pcs. compared with the control, but was the least in comparison with the rest of the studied options. For a culture to maximize its productive potential, a full range of microelements is needed.

The use of microfertilizers had practically no effect on the mass of 1000 seeds, which was in the range of 3.33 - 3.42 grams.

Foliar application with micronutrient fertilizers influenced the plant height. The full range of microelements was included in the Plantafol 20:20:20 and Plantafol 5:15:45 micronutrient fertilizers, the introduction of these drugs at all processing times was positive and had an intense effect of plant growth and development. The average height of plants when treated with these preparations in the rosette phase was 95.95 cm, in the budding phase - 104.8 cm, in the rosette + budding phase - 112.6 cm.

During the research, a high photosynthetic potential of plants was established as a result of the application of treatments. Trace elements contained in the preparations fell on the surface of rape leaves and without loss penetrated into the intercellular space of the plant, which stimulated the photosynthetic activity of plants. Thus, the maximum accumulation of pigments was noted on rapeseed plants treated twice, on average, according to the research options, this indicator was 1.216 ± 0.0544 mg / gram of wet weight, in the control version - 0.701 ± 0.0099 mg / g of wet weight.

The average yield of spring rape plants treated in the rosette phase according to the research options was 1.59 t / ha, in the budding phase - 1.69 t / ha, with double processing - 1.85 t / ha, in the control variant - 1.40 t / ha. The influence of the timing of treatments and the type of microfertilizers on the yield of spring rape, t / ha are shown (Fig. 3).

The maximum increase in the yield was provided by micronutrient fertilizers Plantafol (NPK) -20: 20: 20 and Plantafol (NPK) - 5:15:45 with a double treatment, amounting to 2.05 and 1.94 t / ha, respectively, exceeding the control by 0.64 and 0.53 t / ha.

The yield of spring rapeseed in the studied variants strongly depended on the number of pods per plant, the height of plants before harvesting and on the number of plants per 1 m. The correlation coefficient for these variants was r = 0.91 ± 0.10, r = 0.8 ± 0.10 and r = 0.79 ± 0.10, respectively.

The introduction of micronutrient fertilizers had an insignificant effect on the oil content of rape seeds. This indicator was in the range of 43.73-43.77%. There was only a tendency for the accumulation of oil in rape seeds by 0.02-0.04%, which, according to the research options, looked as follows: Microel> Plantafol 20:20:20 ≥ Plantafol 5:15:45> Life force> Boroplus ≥ Lignohumate> water (control). The influence of the timing of treatments and the type of microfertilizers on the oil content of% spring rape seeds and the collection of oil from 1 hectare are shown (Fig. 4).

For spring rapeseed, an important indicator is the gross collection of fat, which depends on the yield and oil content of the crop. The use of Boroplus and Lignohumat preparations provided a lesser effect on the gross oil collection, the increase to the control was 18.2% and 34.8%, respectively (treatment in the rosette phase).

The maximum gross fat collection was noted for the option of double processing of plants. The largest amount of oil was collected when plants were treated with Plantafol 20:20:20 (0.77 t / ha), a little less was obtained in the variants treated with the drugs Force of Life (0.71 t / ha) and Plantafol 5:15:45 (0 , 72 t / ha). This is due to the more diverse trace element composition of Plantafol. It is the composition of microelements that can ensure the normal functioning of plant objects, contribute to an increase in yield and oil content.

So, the studies carried out made it possible to establish the positive effect of the studied microfertilizers on the duration of the growing season. Single treatments reduced the duration of the growing season by 2-3 days, and double treatments reduced the duration of the growing season by 3-5 days. This effect was manifested at the time of seed ripening. This point is very important in the technology of cultivation of spring rape, which makes it possible to take into account bad weather conditions and start harvesting crops ahead of time. The rapeseed yield was consistently high regardless of weather conditions.

All studied microfertilizers in the experiment had a positive effect on productivity. It was found that micronutrient fertilization of rapeseed plants in the rosette phase contributed to an increase in their productivity on average by 13.5% in the research options, in the budding phase by 20.7%, with double treatment by 32% compared to the control option.

The maximum yield increase for the application with the use of Plantafol (NPK) microfertilizer - 20:20:20 and Plantafol (NPK) - 5:15:45 with double treatment, amounting to 2.05 and 1.94 t / ha, respectively, exceeding the control by 0.64 and 0.53 t / ha.

Therefore, it can be noted with confidence that foliar feeding of spring rapeseed plants by using micronutrient fertilizers is an urgent requirement of today, which can increase yields and improve its cultivation, and also makes it possible to recommend this variety of spring rapeseed for introduction on leached chernozem soils of the forest-steppe.

Claims (1)

A method of stimulating foliar feeding when growing a variety of spring rapeseed "Rif" in the Central Black Earth Region, including operations for tillage, preparation of seeds and sowing, treatment with organomineral active substances, characterized in that winter wheat is used as a precursor, the preparation " Alterr, KE "or" Fastak, KE "with a consumption rate of 0.15 l / ha, in the fall, before the main processing of the soil, mineral fertilizers N ₄₅ P ₄₅ K ₄₅ are applied, in the spring mineral fertilizers are additionally applied at a dose of N ₆₀ kg a.i. / ha in the form of ammonium nitrate, and sowing is carried out with a seeding rate of 2.5 million pieces / ha of germinating seeds, rape crops are treated with fertilizing microfertilizers, and as liquid preparations they use: "Microel", or "Lignohumate", or "Power of life ", Or" Boroplus ", or" Plantafol 20:20:20 ", or" Plantafol 5:15:45 "with the consumption rate of drugs, respectively: 0.2 l / ha; 0.15 l / ha; 0.4 l / ha; 0.75 l / ha; 1 kg / ha, while the crops are treated with micronutrient fertilizers in two steps: the first in the rosette phase, and foliar feeding of plants is repeated in the budding phase - the beginning of flowering.

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