RU2739440C1 - Method for white mustard cultivation on gray forest soils of central nonchernozem area - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: white mustard cultivation method includes using pure wheat as a forecrop precursor. Fall plowing is carried out in the spring at the top of arable layer of 20–22 cm, further cultivation at depth of 10–12 cm, rolling and presowing cultivation to depth of 2–4 cm. Then one performs mustard seeding and then rolling again. Multi-component liquid fertilizers are fed into phase of appearance of 2–4 true leaves and in phase of budding—flowering, and harvesting—with full maturation of seeds.EFFECT: technical result is increased yield of oilseeds on gray forest soils of the nonchernozem zone of Russia.1 cl, 3 tbl

Description

The invention relates to the field of agriculture, in particular to agronomy, agrochemistry, and can be used in the cultivation of white mustard in the production of liquid micronutrient fertilizers with growth stimulants for foliar feeding of plants, which, when applied, improve plant nutrition and have a positive effect on the processes of their growth and development ...

It is known that with the help of leaf fertilizers, it is possible to influence the nutritional state and metabolism of plants through the aerial part of plants by supplying nutrients and accompanying (forming) substances. Well-known leaf fertilizers from the assortment of well-known companies, for example, AGRA GROUP a.s. easily soluble and have a balanced ratio of nutrients. They contain organic builders that increase the efficiency of nutrient utilization, which can be described in two ways:

facilitate the penetration of nutrients into the leaves - they have suitable wetting and adhesion properties and high hygroscopicity. This improves the even distribution of liquid and the adhesion of nutrients to the leaf surface, and limits the risk of nutrients being washed away and subsequently falling off the leaf. This prolongs the efficiency and increases the use of fertilizer;

helps to involve nutrients in plant metabolism - they enter plant tissue together with nutrients and activate the course of metabolic reactions or make it more intense. As a result, there is a synergistic effect and thereby an improvement in the utilization of the plant nutrients.

In general, it should be noted that the use of liquid fertilizers for foliar feeding of plants during the period of intensive growth in the budding phase - flowering, the plant needs to replenish the missing nutrients. This direction opens up new possibilities of use, and when used correctly, they are highly economical.

The technology of foliar application of nutrients has long been appreciated abroad. A fairly wide range of water-soluble fertilizers are produced in the world, specially developed for this method of agricultural crops with the necessary elements. Today, in addition to NPK, fertilizers for foliar dressing contain: polysaccharides, vitamins, phytogors, amino acids, and trace elements are used already in a chelated form, which is most easily assimilated by plants. Any plant in different periods of the growing season requires an unequal amount of nutrients, therefore, the same composition cannot be fed to the culture throughout the growing season.

In this regard, the topic of leaf nutrition is increasingly attracting the attention of scientists and industrialists, when the basis should be based on economy, efficiency and quality, in particular the introduction of innovative technologies. The specificity of agricultural production is that the agrarian deals with a living object. One of such technologies is that intensive leaf nutrition depends on the growth of plants during the growing season, and this allows programming to the maximum extent, like an oil crop in the Non-Black Earth Zone of Russia.

It should be noted that at present, gray mustard (Brassica juncea Czern) and white mustard (Brassica sinapis alba L.), oil flax (Linumusitatissimum L.), rapeseed (Brassica napus oleifera Metzg) are considered promising oilseeds in the Non-Black Earth Zone of Russia. As predecessors, these crops are excellent and promising as phytosanitary catch crops.

White mustard significantly surpasses many agricultural crops in nutritional and fodder qualities. This plant is a valuable oilseed crop, which in the near future will be able to take a leading position among the oilseed group in the region. The new varieties of mustard contain 35-50% oil, which is used in the production of canned food, margarine, bakery and confectionery. High-quality edible oil is obtained from white mustard, the content of which in seeds reaches 30-40%.

Mustard is one of the best early melliferous plants: due to flowering (2-3 weeks), it provides collection of more than 100 kg of honey from 1 hectare (Kartamysheva EV Problems and prospects of cultivation of Sarepta mustard. "Agriculture" No. 4. - 2006 - p. 25-26).

In Russia, it is cultivated mainly in the middle zone of the country, including in the Non-Black Earth Zone of Russia. In the Ryazan region, mustard is sown annually on no more than 7000 hectares. The average yield in the region is not higher than 15.0 c / ha. Despite the fact that mustard has a number of advantages, it should be admitted that the achieved level of crop yield (on average 12 kg / ha) does not exhaust the potential in the region. The use of mustard allows you to effectively exploit agricultural land, however, this crop is complex in terms of cultivation technology. Obtaining a significant harvest from each hectare, with minimal expenditure of funds, can be obtained on the basis of chemicalization of crop production in combination with timely soil treatment, using high-quality seeds for sowing.

A known method of feeding soybean plants, in which microelements are introduced, against the background of the main introduction of doses of NPK - fertilizers (Prosypanov G.S., Zherukov B.Kh. Consumption of nutrients for soybeans depending on the activity of symbiosis // News of TSKHA No. 4. M. 1992, p. 196-202).

The disadvantage of this method is that its implementation requires significant costs for all types of fertilizers. In addition, the method of foliar feeding, like white mustard, is distinguished by its best honey plants in the early periods of flowering, although the culture itself is complex in terms of cultivation technology, and timely soil cultivation is necessary using high-quality seeds for sowing.

There is also known a method of cultivation of soybeans, which includes extra feeding, which is carried out three times, starting from the phase of formation of two trifoliate leaves and until the end of the flowering phase, and a mixture of fermented straw manure with water in a given ratio is used as feeding (Patent RU No. 2188532, А01С 21 / 00 from 10.09.2002).

The disadvantage of this method is that the mixtures of manure with water used as foliar feeding are not sufficiently taken into account for the application of foliar feeding of white mustard, in particular, in the budding or flowering phase of feeding with this aqueous solution of one element. During the period of mass development of plants, a number of other elements are required, the complex application of multicomponent fertilizers, which is economically feasible for white mustard, as a promising oilseed crop, and therefore increases the efficiency of the method.

As a prototype method, there is a known method of feeding plants of macro- and microelements in certain phases of development, as in the budding phase - flowering against the background of micronutrient fertilization of nitrogen, phosphorus and potassium, when feeding with mineral water with a slightly alkaline reaction in an amount of 250-300 l / ha ( Patent RU No. 2265306, А01С 21/00 dated 10.12.2005).

However, the known method relates to the cultivation of legume families, in particular soybeans, which distinguishes its vegetative growth and development of plants from white mustard and thereby obtaining consistently high yields of white mustard, when with the help of new leaf fertilizers it is possible to influence their nutritional state and metabolism by feeding nutrients and accompanying (forming) substances, and when these substances must have a balanced ratio of nutrients, and therefore, suitable wetting and adhesion properties and high hygroscopicity. This generally improves the spread of liquid fertilizer and the adhesion of nutrients to the leaf surface. In addition, in order to improve vegetative growth and development of plants, and to obtain consistently high crop yields, it is necessary to carry out several foliar applications. In the phase of leaf development, in order to increase stress resistance, as well as to eliminate the deficiency of mineral nutrition elements. In the growing season, budding-flowering, it is important to carry out repeated foliar feeding to improve the quality of the crop.

The aim of the invention is, in the phase of leaf development, to increase stress resistance, to eliminate the deficiency of elements in mineral nutrition in crops of white mustard during the growing season, budding - flowering, and the possibility of repeated foliar feeding for foliar feeding of plants, contributing to the effective use of varieties of mustard for high yields.

This goal is achieved by the fact that the method of cultivation of white mustard on gray forest soils of the Central Non-Chernozem region, including the use of multicomponent liquid fertilizers at a certain stage of plant development, and winter wheat in its pure form is used as a precursor, then in spring after autumn plowing to a depth of 20 22 cm, early spring harrowing is carried out, then cultivation to a depth of 10-12 cm, rolling, pre-sowing cultivation to a depth of 2-4 cm and sowing of mustard, then re-rolling is carried out, foliar feeding of plants with multicomponent liquid fertilizers is carried out in the phase of appearance of 2-4 true leaves and in the budding phase - flowering, and harvesting is carried out when the seeds are fully ripe.

The studies were carried out in the field at the experimental agrotechnological station of the Federal State Budgetary Educational Institution of Higher Education of the Russian State Aviation Technical University (UNITS "Agrotechnopark") of the Ryazan district of the Ryazan region of the Russian Federation on gray forest soils. Gray forest soils are typical for the Non-Chernozem zone of Russia; in terms of the totality of morphological features and properties, they occupy a transitional position from soddy-podzolic soils of the southern taiga subzone to chernozem soils of the forest-steppe.

The object of research is the mustard variety of the White Seagull - the seed production of the variety is carried out by the Scientific Institute of Breeding; Rhapsody - State Research Institute of Rapeseed Research Institute, Lipetsk Region and Lucia - Penza Research Institute of Agriculture.

Variety Rhapsody - Since 2004, it has been included in the State Register of Protected Varieties Admitted to Production. Plants of average height are 96-123 cm. Weight of 1000 seeds is 5.1-5.9 g. The growing season varies from 64 to 76 days. The content of erucic acid in the oil is 33.3-36.8%, glucosinolates in the meal averages 1.30% (30.4 μmol / g), crude fat in seeds - 26.7-33.8%, protein in seeds - 27.8-29.5%. Essential oil content is 0.17% on average.

Variety Lucia - Since 2017, it has been included in the State Register of Protected Varieties Admitted for Use in Production Vegetation period is 95-96 days. Differs in early maturity (ripens 6-8 days earlier than the Rainbow standard), large-seededness (the weight of 1000 seeds is 7.0-7.1 g, 3.9 g higher than that of the standard), stable seed yield (on average 1.94 t / ha). The fat content in seeds varies between 20.5-20.7%. Lucius seed oil is characterized by a high content of erucic acid (23.6-24.2%) and is intended for use for technical purposes.

The Seagull variety is early maturing. The growing season is 85-90 days. The mass of 1000 seeds is 7-9 g. The potential yield of the variety is 1.9-2.1 t / ha. The variety has improved biochemical parameters: the content of erucic acid is reduced by 50%. Technological, adapted to mechanized cultivation. Resistant to stretching, does not crumble. Due to the reduced content of essential (allyl) oil, it is in demand in the food industry for the production of mustard with a spicy taste.

Production experiments were carried out on a plot, the soil of which was characterized by an average content of phosphorus (on average, according to the experiments, 12.3 mg / 100 g of soil) and potassium (8.2 mg / 100 g of soil). The humus content in the soil was at the level of 2.4-3.5%; depending on the depth of sampling, the soil was acidified. On average over the 0-40 cm layer, the acidity was pH 5.1-5.2.

The field experiment was carried out according to the methodology "Methodology of state variety testing of agricultural crops" and the methodology of the All-Russian Institute of Forage, generally accepted for vegetation experiments. Mathematical processing of the data was carried out according to B.A. Dospekhov (1985) and with the help of computer programs (PC). Biochemical analysis of oilseeds was carried out in the laboratory of the Ryazan Agrotechnological University, the Ryazanskaya agrochemical service station.

The experiment was carried out in four-fold repetition with the introduction of multicomponent liquid fertilizers for white mustard plants in the phase of the beginning of the appearance of 2-4 true leaves and the phase of budding - flowering. The studies used multicomponent liquid fertilizers Intermag profi, Azotovit, Phosphatovit, RauAktiv according to the prescribed scheme.

Characteristics of the drugs used:

Intermag Profi is a concentrated complex liquid micronutrient fertilizer, developed taking into account the nutritional requirements of oilseeds. Contains a well-balanced set of macro-microelements that fully meet the nutritional requirements of oilseeds. The microelements included in the composition are in a chelated form that is easily assimilated by the plant, which guarantees their complete, high-quality and effective assimilation by the plant surface. Registrant: Intermag LLC. State registration number: 1658-09-204-366-0-0-0-1.

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

Phosphatovit is a liquid fertilizer. Spores and living cells of bacteria Paeni bacillus mucilaginosus, concentration not less than 0.12 × 109. Provides plants with phosphorus, potassium and nitrogen nutrition, increases the effectiveness of complex mineral fertilizers. Possesses the phosphate-mobilizing properties of soil bacteria, i.e. promote the dissolution of silicate minerals and the release of phosphorus and potassium from complex compounds, converting them into forms accessible to plants. State registration number: 1086-08-208-106-0-0-0-1.

RauActive is a microbiological fertilizer. The composition, which includes macro-microelements, vitamins B2, B1, B5, B7, PP, B12, B6, B9, E, B4, A, C, as well as amino acids, organic acids.

The application rate of the preparations is 1 l / ha. Working fluid consumption - 200 l / ha.

Agrotechnical measures for the cultivation of white mustard are carried out in accordance with the existing zonal recommendations. The predecessor is winter wheat. Preparing the soil before sowing the experiments included stubble plowing to a depth of 12-14 cm, autumn plowing to a depth of the arable layer of 20-22 cm.In the spring - early spring harrowing, then cultivation of 10-12 cm, rolling, pre-sowing cultivation 2-4 cm. Sowing was carried out in the first decade of May, the seeding rate of seeds - 2 million pcs. viable seeds / ha, i.e. actually 12 kg / ha.

Carried out herbicidal treatment with the preparation Galion - 0.3 l / ha. The treatment was carried out with an OPSh-15-01 sprayer in a unit with MT3-1221. Working fluid consumption - 200 l / ha. To destroy the cruciferous flea in the period from germination to the appearance of four true leaves, treatment with the Fastak insecticide 0.1 l / ha was carried out with a rate of consumption of the working fluid of 250 l / ha. The treatment was carried out with an OH-400 sprayer in a unit with an MT3-1221 tractor, as well as a Kvazar-12 l knapsack sprayer. Fungicidal treatments were not carried out in mustard crops.

In the phase of 2-4 true leaves and the phase of budding - flowering, foliar feeding of plants was carried out with multi-component liquid fertilizers Intermag Profi - 1 l / ha; Azotovit, Phosphatovit, RauActive -2 l / ha, according to the previously adopted experimental scheme. Foliar dressing was done manually. Working fluid consumption - 200 l / ha.

Harvesting is done, mechanized - Tarion-2010 and manually. The height of the cut when growing plants was at the level of 6-8 cm.

In the process of growth and development of white mustard, the following phases are distinguished: shoots, rosette, stemming, flowering, fruit formation and seed ripening.

Field germination is influenced by environmental conditions: soil temperature at the depth of sowing seeds, air temperature, soil moisture, the presence of soil pests, soil crust, soil saturation with mineral nutrients. The sowing qualities of the varieties are given in table. one.

Varietal purity, according to the state standard (GOST), averaged (95-98%), which corresponds to the II quality category. Indicators of germination of seed material of varieties belong to the I class of germination and are 92% and higher.

Varietal indicators had high germination energy and germination capacity, which ensured fast, friendly seedlings and significant increases in productivity. On average, the highest field germination was obtained in the Lucie variety - 189.4 pcs / m ²

The duration of the onset of interphase periods in plants of white mustard varieties is closely related to the meteorological conditions of 2017-2018 for the period from sowing to ripening. Weather conditions over the years of research significantly influenced the passage of phenophases by the plant. The full development cycle from the beginning of germination to ripening in white mustard in the Chaika and Luciya variety was 83-90 days, in the Rhapsody variety - 64-76, and are shown in table. 2.

Field studies of the seedlings of the culture were friendly: the first seedlings appeared on the 6-8th day. Formation of true leaves in white mustard began 7-8 days after germination. The growth and development of mustard plants was hampered by meteorological conditions, the second - third decade of May was characterized by a dry period and a deficiency of the basic elements of mineral nutrition. The beginning of flowering of plants was noted 30-35 days after germination and lasted 25-34 days, depending on the factors studied.

The short growing season of the Rhapsody variety is one of the economically important biological characteristics of white mustard. Quick and friendly ripening of mustard allows harvesting crops much earlier.

The study of the effect of multicomponent preparations in the field has confirmed their effect on the growth and development of white mustard. Foliar feeding of plants by the vegetation phases promoted better preservation of plants, in the Lucie variety - 183.7 pcs / m ^{2 -} an increase in the number of seeds in pods by 2.8 grams and a weight of 1000 seeds per 2 grams.

The yield of crops depends on the potential of the plant, weather, agronomic and biological factors. Among the latter, an important place is occupied by numerous infectious diseases that affect plants at all stages of their organogenesis - from germination of seeds to full ripeness of grain.

The data obtained from the analysis of the yield of varieties of white mustard are given in table. 3.

As follows from the data given in Table 3, the use of multicomponent liquid fertilizers increases the yield of white mustard seeds, in all varieties, in comparison with untreated control. The maximum amount of seeds was obtained by the Lucie variety - 13.9 c / ha, on the variant - Azotovit + Phosphatovit + RauActive - 16.5 c / ha. And also, the drugs used contributed to an increase in yield indicators in the Chaika variety, with a yield of 11.6 c / ha and Rhapsody - 12.2 c / ha, in comparison with the control.

Analysis of the yield of white mustard depending on soil and weather conditions in the Ryazan region, evaluation of the effectiveness of optimization of the conditions of mineral nutrition through the use of multicomponent liquid preparations showed high sensitivity to the use of multicomponent liquid fertilizers for foliar feeding of white mustard, as well as to the formation of seed yield in pods, as the weight of 1000 grains in all variants with the use of drugs in comparison with the yield in the untreated control.

Thus, the proposed method of foliar feeding of white mustard has a high biological and economic efficiency in crops of white mustard, significantly increasing its yield, as well as expanding the area of application on gray forest soils of the Non-Chernozem zone of Russia.

Claims (1)

A method of cultivating white mustard on gray forest soils of the Central Non-Black Earth Region, including the use of multicomponent liquid fertilizers in a certain phase of plant development, characterized in that pure winter wheat is used as a precursor, then in the spring after autumn plowing to a depth of arable layer of 20-22 cm is carried out early spring harrowing, then cultivation to a depth of 10-12 cm, rolling, pre-sowing cultivation to a depth of 2-4 cm and sowing of mustard, then re-rolling, foliar feeding of plants with multicomponent liquid fertilizers is carried out in the phase of appearance of 2-4 true leaves and in the budding phase - flowering, and harvesting is carried out when the seeds are fully ripe.