RU2807485C1 - Method for cultivating rapes in non-chernozem zones of russia - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method includes a set of cultivation techniques, consisting of tillage operations, preparing seeds for sowing, autumn sowing of seeds, caring for crops in the autumn, assessing crops after winter for the degree of their safety from low temperatures and with partial death of plants, making a decision on further actions to preserve crops after winter to obtain a yield. Crops with dead above-ground parts of plants, provided that the preserved root part has no less than 15-20 plants per 1 m² of their area, are processed during the period of growth of new above-ground shoots of plants. Before winter, crops are treated during the period of regrowth of the first 4-6 true leaves. The drug “Fastak” is used as an insecticide at a dose of 0.15 l/ha against the cruciferous flea beetle in the autumn before precipitation in form of snow. The drug “Caramba” is used as a growth regulator, which is a systemic fungicide that promotes the development of a powerful root system, at a drug dose of 1.0 l/ha. In the fall, before sowing, the seeds are treated with the drug Ora Start at a dose of 1 l/ha. The field is treated with the continuous action herbicide "Lerashans" at a dose of 0.3-0.35 l/ha until the plants have flower buds; in the spring, during the growing season, during the stemming phase, they are treated with the drug "Azotovit" at a dose of 1 l/ha.

EFFECT: method ensures a more thorough long-term protective effect of the new fungicide in the development of stem leaves that go to wintering during the phase of formation of the first true leaves, eliminates deficiencies in mineral nutrition before sowing winter rapeseed hybrids and the possibility of feeding wintering plants in the spring with treatment with a microbiological drug that provides plants with nitrogen nutrition.

1 cl, 5 tbl, 2 dwg, 1 ex

Description

The invention relates to agriculture, more precisely to crop production, and can be used to produce oilseeds, in particular winter rapeseed on gray forest heavy loamy soils.

It is known that the main purpose of sowing winter rapeseed is to obtain oil seeds. This is possible under favorable overwintering conditions for winter rapeseed hybrid plants.

The composition of fatty acids in the oil of modern varieties and hybrids of rapeseed is significant, changed and depends on soil and climatic conditions, which, in particular, include winter rapeseed. Regulating the conditions of mineral nutrition of oilseeds through fertilizers makes it possible to have a significant impact on the content and quality of the oil. As the root system grows and develops, cabbage plants are able to absorb fertilizer elements well, even from hard-to-reach compounds.

Rapeseed has a relatively large tap root, penetrating to a depth of 1.2-1.6 m, but the presence of thin lateral roots of different varieties and hybrids varies in the arable horizon.

Numerous studies have established that on moderately cultivated soils, 160-180 kg/ha of nitrogen is required to obtain 30 c/ha of winter rapeseed seeds. Therefore, the requirements for soil conditions are more significant than for climatic conditions.

The predecessor of crop rotation has a great influence on the yield of winter rapeseed. The choice of predecessor is determined primarily by the time of its harvesting, in order to qualitatively prepare the soil in the period between its harvesting and the optimal time for sowing rapeseed. Optimizing the growing conditions and mineral nutrition of winter rapeseed in the autumn period is decisive for obtaining the planned seed yield, since the generative organs that determine the yield are in the early stage of plant development in the fall, the formation and differentiation of the reproductive organs in rapeseed occurs when 6-8 true leaves are formed (development phase ). At the same time, the longer the autumn period of laying flower and axillary buds in the growth cone (the top of the root collar), the more there are and the higher the prerequisites for obtaining high yields. It has been established that about 60-70% of the future winter rapeseed harvest is laid before the onset of winter.

Therefore, all this should contribute to the good development of leaves and the accumulation of nutrients in the roots before the onset of winter dormancy, since the nutrients deposited in it are used by young plants when the growing season resumes in the spring.

The amount of nutrients stored in the root in the fall largely determines the ability of rapeseed plants to regenerate in the spring. This is especially important when crops are severely damaged during harsh winters.

In spring, plants can fully compensate for the thinning of crops by forming new shoots on the root collar only if its diameter is at least 8-10 mm.

It is important that the diameter of the root collar (root mass) determines the number of shoots formed during the growing season of rapeseed.

It should be noted that rapeseed is demanding in terms of the level of supply of nutrients. Depending on the growing conditions, the nutrient content in seeds and straw, as well as their removal by the crop, can vary over a fairly wide range.

Like all cabbage plants, rapeseed has a fairly high nitrogen requirement. Seed yield and fat harvest are highly dependent on the level of nitrogen nutrition of rapeseed.

The content of mineral fertilizer in the soil is determined before sowing at a depth of 60-80 cm, or according to average data from agrochemical stations, as well as from the dose of early spring fertilizing, when the growing season resumes, based on the planned yield and possible mineralization of nitrogen-containing organic matter in the soil.

Regulating the stage state of plants is a rather complex task, requiring certain knowledge and practical skills, since weather conditions are unpredictable.

The resumption of the winter rapeseed growing season in spring begins immediately after the soil thaws. At this time, abundant formation of pods occurs. Therefore, the condition of crops after wintering is important.

In general, it can be noted that various bioactive substances (BAS) are currently used to influence the development of agricultural crops. Among the means aimed at increasing the productivity of agricultural crops, plant growth regulators (PPR, also known as plant growth stimulants, photostimulants or phytohormones, both natural and their synthetic analogues) are very promising. When these stimulants are applied to vegetative plants, sometimes in very small doses, they can greatly influence the physiological processes of plant growth and development. This can manifest itself in an increase in yield, in an increase in drought or frost resistance of vegetative plants, in an increase in resistance to plant diseases (1. Application of regulators in plant growing. Reference book. Chisinau. Shtintsa, 1981, p. 8; 2. Muromtsev G.S., Agnistova V. N. Growth hormones - gibberellins. - M.: Nauka, 1973, p. 254; 3. L. J. Nickell. Results of plant growth - application in agriculture. - M.: Kolos, 1984, p. 192; 4 Method of growing crops//A.S.1600653, A01G 31/00, 1990).

The main purpose of sowing winter rapeseed is to obtain oil seeds. This is possible under favorable overwintering conditions for winter rapeseed plants. However, often prevailing weather conditions with a long period of positive temperatures in the autumn lead to the overgrowth of winter rapeseed plants, and low temperatures in winter lead to the death of their above-ground parts.

It should be noted that winter rapeseed in the Ryazan region is not a traditional oilseed crop.

At this time, 110 varieties and hybrids of winter rapeseed are used in the State Register of Breeding Achievements, approved for use throughout Russia. Of all the varieties and hybrids, only six are approved for use in the Central region, in particular for the Ryazan region, which significantly limits the varietal diversity of winter rapeseed cultivation.

The authors in their invention consider the following winter rapeseed hybrids: F1 Rokhman; F1 Einstein; F1 Xenon; F1 Mercedes; F1 Lexion. For more detailed studies in the conditions of Ryazan, the authors chose the last two hybrids.

There is a known method for cultivating winter rapeseed, which includes the entire complex of agrotechnical cultivation techniques, consisting of tillage operations, preparing seeds for sowing, autumn sowing of seeds, caring for crops in the autumn, assessing crops after overwintering for the degree of their safety from low temperatures and making a decision on further actions for cultivating crops, applying nitrogen fertilizers in the spring if crops are abandoned after overwintering (Winter and spring rapeseed. Practical guide to the development of intensive cultivation technology. State Agro-Industrial Committee of the USSR. M., 1988, pp. 13-21) . In case of damage to the above-ground mass of plants in winter and a decision is made to completely destroy such crops (disking) followed by reseeding them with an early spring crop, this leads to additional costs. If they decide to preserve the crops, then the possible yield of rapeseed on such crops will be very low and can even be reduced to zero, because These crops remain at risk of death throughout the entire growing season due to infection that has penetrated through the above-ground parts of the plants damaged by low temperatures.

You can give examples of analogues of technologies for cultivating rapeseed and the use of agrochemicals: 1. Korenev G.V. and others. Plant growing with the basics of selection and seed production. 3rd ed., revised. In addition - M.: VO-Agroproizdat, 1990, p. 311-317; 2. Recommended application rates for the Folikur fungicide and combinations with it on winter rapeseed from “NPC Lembke” were found on-line from the Internet at www. Lembke.riev.ua/news/pdf/W-reg.Raps.pdf, April 2006. Babekov R.F.

The invention of fluoroalkenyl compounds is known, which are expressed by the general formula of chemical elements, mineral or organic acids, or their substitutions. The invention also relates to a combination for combating plant infection by diseases and suppressing plant infection from diseases (Patent RU No. 2117658, С07С 211/74 and other classes, dated 08/20/1998). However, it is complex and expensive for disease suppression.

There is a known analogue of the use of the drug Silka on a number of agricultural crops to increase yields and to combat cotton diseases (Patent RU No. 2025976, A01N 65/00, A01N 37/08 dated 01/09/1995). However, its use on oilseeds to stimulate oil content in oilseeds is not known. Therefore, the simultaneous increase in seed yield and increase in oil content is a new and unpredictable property of this drug.

There is an analogous method for increasing the survival rate of winter rapeseed in the autumn-winter period (Patent RU No. 2367156, A01N 41/06, A01P 21/00, A01P 3/00 dated 09.20.2009), which consists in autumn spraying of plants with a solution of N-methyl-1- phenyl-1-N,N-diethylaminomethanesulfonamide in water at the rate of 0.25 kg to 1.5 kg of active substance per 1 hectare of cultivated area.

It is known from the literature and from experience that the use of plant growth regulators does not automatically lead to the manifestation of certain positive bioeffects. The effects of their use can only appear under certain conditions associated with specific agricultural crops, weather conditions, purposes of growing agricultural crops, processing times, etc. These conditions will be shown by the authors in the following examples of the description of the invention.

The closest analogue (prototype) to the invention, in terms of the totality of characteristics, is a method of cultivating winter rapeseed, including a set of cultivation techniques consisting of tillage operations, preparing seeds for sowing, autumn sowing of seeds, caring for crops in the autumn, assessing crops after overwintering on the degree of their safety from the effects of low temperatures and in the presence of partial death of plants, making a decision on further actions for cultivating the crop, applying nitrogen fertilizers in the spring in case of leaving crops after overwintering to obtain a harvest, while crops with dead above-ground parts of plants and when provided that the root zone is preserved, it has at least 15-20 plants per 1 m ² of their area, treated during the period of growth of new above-ground shoots of plants with a fungicide from the azole group, for example, Folikur fungicide or Kolosal fungicide or Amister fungicide at a dose of 0.8-1 .0 l/ha (Patent RU No. 2405295, A01B 79/02 dated December 10, 2010). However, although the method applies to winter rapeseed on crops with dead above-ground vegetative mass in the case of autumn overgrowth of crops and/or exposure to low temperatures in winter, it is not effectively used in the selection of winter rapeseed for the known erukless new varieties recommended as more competitive for specific weather conditions, namely the Ryazan region, which requires a special methodology for studying research on gray forest heavy loamy soils. It should be noted that the introduction of new preparations and hybrids of winter rape into agricultural production is a very relevant agricultural practice.

Mercedes is a medium hybrid, has a well-developed, powerful leaf apparatus. At the same time, it is characterized by intensive development and at lower autumn temperatures, it can form a 30% larger mass compared to other winter rapeseed hybrids. Included in the State Register, admitted in 2016 for the North-West and North Caucasus regions.

Lexion is a plastic hybrid of a new generation of winter rapeseed, has good stable yield and high oil content in oil seeds, and is frost-resistant.

Therefore, the study of these hybrids in specific soil and climatic conditions is very important, in particular for the Ryazan region.

The objective of the claimed invention is to increase the yield of oilseeds and their quality of winter rapeseed hybrids, overwintered in extreme winter conditions, with the preservation of the remaining plants in the southern part of the Non-Black Earth zone, which includes the Ryazan region.

The technical result is a more complete long-term protective effect of the new fungicide in the development of stem leaves that go to overwinter in the phase of formation of the first true leaves, the elimination of deficiencies in mineral nutrition before sowing winter rapeseed hybrids and the possibility of feeding overwintered plants in the spring with treatment with a preparation of microbiological action that provides plants with nitrogen food. It should also be noted that the application of nitrogen nutrition in the fall is not recommended in order to maintain the length of the stem no more than 2 centimeters in growth - this is very important.

The problem is solved by the fact that the method of cultivating winter rapeseed, including a set of cultivation techniques, consisting of tillage operations, preparing seeds for sowing, autumn sowing of seeds, caring for crops in the autumn, assessing crops after overwintering for the degree of their safety from low temperatures and if there is partial death of plants, a decision is made on further actions to leave the crops after overwintering to obtain a harvest, while crops with the dead above-ground part of the plants and provided that the root zone is preserved have at least 15-20 plants per 1 m ² of their area, treated during the period of growth of new above-ground shoots of plants, according to the invention, crops before wintering are treated during the period of growth in the phase of the first 4-6 true leaves, the drug “Fastak” is used as an insecticide at a dose of 0.15 l/ha against cruciferous flea beetle in autumn period before snow precipitation, and the drug “Karamba” is used as a growth regulator, which is a systemic fungicide that promotes the development of a powerful root system at a dose of 1.0 l/ha; in the fall, before sowing, the seeds are treated with the drug “Ora Start” at a dose of 1 l/ha ha, the field is treated with the continuous action herbicide "Lerashans" at a dose of 0.3-0.35 l/ha until flower buds appear, and in the spring during the growing season during the stemming phase it is treated with the drug "Azotovit" at a dose of 1 l/ha.

A comparative analysis of the claimed technical solution in comparison with the prototype, on gray forest heavy loamy soils, allows us to conclude that the claimed method of foliar feeding of winter rapeseed hybrids with the proposed various preparations containing microfertilizers in winter rapeseed agrocenoses, in the form in which they exist in plants - in the form of complexes with natural chelating elements - plant amino acids, which quickly and without loss absorb, transport, and assimilate all the microelements obtained by the drug.

Thus, the claimed method meets the patentability criterion of “novelty”.

Examining the level of technology when conducting a patent search for all types publicly available in the press, we did not find a distinctive feature from the prototype: the preparation of hybrid seeds for sowing, which had previously been encrusted with an insectofungicidal dressing. Our research revealed that the treatment of rapeseed crops before the appearance of flower buds, in order to combat cruciferous flea beetle, used the drug "Fastak" at a dose of 0.15 l/ha, to combat diseases, the fungicide "Karamba" at a dose of 1 l/ha, and herbicidal treatment was carried out with the drug "Lerashans" at a dose of 0.3-0.35 l/ha. Our research also revealed that of the five hybrid lines of winter rapeseed considered, the first three types of hybrids were completely frozen, and the last two hybrids of winter rapeseed were left for production of agricultural plants, as partially overwintered new lines of winter rapeseed - a new generation, combining contains promising hybrids with frost resistance for a specific region of the Ryazan region.

These studies also established that for the spring use of the remaining two hybrids from the fall, significantly damaged by low temperatures in the winter, in order to obtain satisfactory yields, during the growing season in the phase of 6-8 true leaves (in the fall) and the budding phase in the spring, it is necessary to carry out treatment with a solution microbiological liquid fertilizer Azotovit at a dose of 1.0 l/ha.

An example of the method

The research was carried out on the basis of an experimental agrotechnological station of the Federal State Budgetary Educational Institution of Higher Education Russian State Technical University, the village of Stenkino, Ryazan region, located in the southwestern part of the Ryazan region, 21 km from the city of Ryazan. The research was conducted in 2020-2021.

Field experiments were carried out according to the methods of field experiments by B.A. Dospehova (1986) in fourfold repetition. The total area of the plot is 50 ^m2 , the registration area of the plot is 25 ^m2 .

The soil on which the experiment was carried out was gray forest, heavy loamy. It is characterized by a high content of phosphorus, potassium and low nitrogen. The humus content in the soil is about 3.3%. The depth of the arable horizon is 25-30 cm. The soils of the experimental plot are slightly acidic (Table 1).

The supply of these soils with mobile compounds of phosphorus (P ₂ O ₅ ) and potassium (K ₂ O) in the arable horizon is increased. The phosphorus content (P ₂ O ₅ ) varies from 10.5 to 14.6 mg/100 g of soil; potassium (K ₂ O) - up to 15.6 mg/100 g of soil. The reaction of the soil environment is slightly acidic. Agrophysical indicators of forest gray heavy loamy soils are given in Table 2.

Climatic conditions for 2020-2021 were characterized by significant fluctuations in air temperature and uneven precipitation throughout the growing season.

Hydrothermal coefficient during the years of research: 2020 - humid (HTC - 1.4); 2021 - in some periods hot, with average moisture availability indicators (GTC - 0.9).

Agrotechnical measures for cultivating winter rapeseed hybrids are generally accepted for the Non-Chernozem Zone.

After its predecessor - winter wheat.

For the conditions of the Ryazan region, five types of winter rapeseed hybrids were selected in the experiments: F1 Rohan; F1 Einstein; F1 Xeno; F1 Mercedes; F1 Lexion. However, as a result of the experiment, after overwintering, the crops were assessed for the degree of their safety from the effects of low temperatures, provided that the root zone was preserved. It was revealed that not all options had more than 15-20 plants per 1 m2 of crop area. In this connection, after this analysis about leaving crops for harvest and further actions for their cultivation, leave in the spring only two winter rapeseed hybrids, namely: F1 Mercedes and F1 Lexion.

Therefore, further studies were carried out with winter rapeseed hybrids “F1 Mercedes” and “F1 Lexion”.

Characteristics of the drugs studied in the experiments:

Ora Start is a preparation intended for pre-sowing treatment of seeds before sowing. The organomineral complex includes compounds containing phytohormones (cytoxins, auxins), vitamins, microelements in chelated form (Mg, Fe, Zn, Cu, Mn, Co, Mo, B) and amino acids. It increases the resistance of the seed embryo and shoots to external influences from aggressive chemicals and weather conditions. Stimulates seed germination and root system growth. The solution itself does not require additional time labor for preparing the working solution and processing plant seeds. It allows you to obtain a friendly, earlier appearance of strong, well-developed seedlings. It is characterized by a pronounced stimulating effect on the physiological cycle of seeds, enhances the internal activity of enzymatic processes with the participation of non-toxic microelements, helps to increase the energy of growth and germination of seeds up to 20%, has high solubility and compatibility with other drugs.

Fastak, CE is an insecticide for a wide range of agricultural pests. It is characterized by a rapid destructive effect on pests. Effective at all stages of insect development. Resistant to washing away by precipitation. Used in small doses.

Karamba, EC - a systemic fungicide with a growth-forming effect to control Alternaria, increase resistance to lodging of winter rape, improves winter hardiness. In addition, it regulates shoot growth, promotes the development of a more powerful root system, and increases productivity. Method of application: spraying during the growing season in autumn. Characterizes the property of a plant growth regulator, causing thickening of leaves in winter rapeseed.

Lerashans, EC is a highly effective systemic post-emergence herbicide for the control of dicotyledonous weeds in winter rapeseed crops. It has two active ingredients, affects a range of weeds, and is used before the appearance of flower buds. It is not washed off by rain 1-2 hours after application.

Nitrogen is a microbiological liquid fertilizer. Composition - the number of viable cells of Azotobakter chroococcum is not less than 5 million/cm ³ . Provides plants with nitrogen nutrition, increases productivity, suppresses phytopathogenic microflora, increases the efficiency of using nitrogen mineral fertilizers, reduces the toxic effect of fungicides on plant seedlings, and restores soil fertility. State registration number: 1085-08-208-106-0-0-1.

In the fall, disking MTZ 1221 + BDT-7 and cultivation of MT3-1221 + KPE-3.8 were carried out. Pre-sowing harrowing was carried out by BZTS-1.0. Sowing was carried out using a SSNP-16 seeder with a row spacing of 30 cm and a seed placement depth of 2-3 cm. The seeding rate was 2.0 million pieces. /ha.

Sowing was carried out on August 15, while optimizing the growing conditions and mineral nutrition of winter rapeseed in the autumn, to obtain the planned seed yield, since the generative organs that determine the yield were formed at an early stage of plant development. The formation and differentiation of reproductive organs in rapeseed occurs in the phase of the first 6-8 true leaves (rosette phase).

Immediately after sowing, all experimental plots were rolled with ZKKSH-6 rollers for closer contact of seeds with the soil.

As a treatment for the remaining hybrids of winter rapeseed plants F1 Mercedes and F1 Lexion, spraying in the spring with Azotovit at a dose of 1.0 l/ha was used, in the phase of 6-8 true leaves in the fall, and before flowering in the budding phase in the spring. The spraying rate with the drug solution is 250 l/ha.

To protect winter rapeseed hybrids in the fall, in the phase of the first 6-8 true leaves, they were treated with the insecticide Fastak, KE at a dose of 0.15 l/ha using an OPSH-15-01 sprayer to protect against the cruciferous flea beetle, three to four weeks before leaving the plants for winter dormancy (at a temperature not lower than +3°C). Treatment with insecticide in a tank mixture with Azotovit.

At this time, the plant of the hybrid winter rapeseed developed a powerful root system, then in early October they were treated with the growth-regulating fungicide Karamba, EC at a dose of 1.0 l/ha with a working fluid consumption rate of 250 l/ha. In this case, herbicide treatment was carried out with the herbicide Lerashans at a dose of 0.3-0.35 l/ha with a working fluid rate of 200-300 l/ha.

Harvesting was carried out in mid-July by direct combining.

In studies, crops of hybrids F1 Mercedes and F1 Lexion developed a powerful root system with a root collar diameter of 8-10 mm and formed 8-10 true leaves before going into winter.

It should be noted that to increase winter resistance, rapeseed was provided with all the necessary macro- and microelements, such as phosphorus, potassium, magnesium, sulfur, boron, and others. The increase in winter hardiness was primarily influenced by boron, phosphorus, and potassium.

Boron improves protein synthesis. Phosphorus promotes the development of the root system. Potassium provides carbohydrate transport.

In the spring, during the period of crop stemming and budding, minor losses were observed due to the influence of pests, weeds and unfavorable soil and climatic conditions on winter rapeseed plants.

The results of studies of the standing density of winter rapeseed hybrids are shown in Table 3.

The control was the crop areas without treatment with Azotovit.

Table 4 shows the elements of the harvest structure, depending on the factors.

Experimental autumn sowings of winter rapeseed plants at the agrotechnical experimental station are shown on the crop site before going into winter Fig. 1 (photo) and on the plot in the spring during the green pod phase when determining the biometric indicators of winter rape Fig. 2 (photo).

Table 5 shows the yield of winter rapeseed hybrids.

On average, from 79.5 to 94.8 pods were identified per plant. The maximum rates of cultivation of winter rapeseed hybrids were achieved with double treatment of crops with Azotovit, 1 l/ha. The maximum seed yield was 22.8 c/ha on the F1 Mercedes + Ora Start option, 1.0 l/ha + Azotovit, 1.0 l/ha.

The proposed method of cultivating winter rapeseed hybrids can be recommended for implementation in production in other soil-climatic zones, but with adjustments to the calendar dates for sowing and harvesting.

Claims (1)

A method of cultivating winter rapeseed, including a set of cultivation techniques, consisting of tillage operations, preparing seeds for sowing, autumn sowing of seeds, caring for crops in the autumn, assessing crops after overwintering for the degree of their safety from low temperatures and in the presence of partial plant death , making a decision on further actions to preserve crops after overwintering to obtain a harvest, while crops with dead aerial parts of plants and provided that the root zone is preserved, they have at least 15-20 plants per 1 m ² of their area, are processed during the period of regrowth of new ones aboveground shoots of plants, characterized in that the crops are treated before wintering during the period of regrowth in the phase of the first 4-6 true leaves; the drug “Fastak” is used as an insecticide at a dose of 0.15 l/ha against the cruciferous flea beetle in the autumn before snowfall , and as a growth regulator, the drug “Karamba” is used, which is a systemic fungicide that promotes the development of a powerful root system, at a dose of 1.0 l/ha; in the fall, before sowing, the seeds are treated with the drug “Ora Start” at a dose of 1 l/ha, the field is treated with the continuous action herbicide "Lerashans" at a dose of 0.3-0.35 l/ha until flower buds appear, and in the spring during the growing season during the stemming phase it is treated with the drug "Azotovit" at a dose of 1 l/ha.