RU2818928C1 - Method for stimulating growth and development when growing soya and peas - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method to stimulate growth and development of soya and peas consists in the fact that potatoes are used as a precursor. In autumn, autumn plowing is carried out to depth of 22–24 cm. It is followed by early spring harrowing with application of mineral fertilizers N₆₀P₂₅K₂₅. Seeds are treated with a mixture of HighCoat Super Soya inoculant and Delit Pro fungicide dressing agent. After harrowing, wide-row sowing is carried out with row spacing of 45 cm at seeding rate of 650 thousand/ha of germinating seeds, then rolling. Foliar dressing of vegetative plants is treated in three doses with the preparation Heteroauxin in dose of 50 mg/l: first—in phase of beginning of appearance of 2 true leaves, second—in phase of budding—beginning of flowering and third—in phase of beans formation, and harvesting—when seeds are fully ripe.

EFFECT: invention provides higher yield of soya and peas, as well as higher yield of conditioned seeds.

1 cl, 5 tbl

Description

The invention relates to agriculture, in particular to the cultivation of soybeans and peas using liquid microfertilizers with growth stimulants, used as foliar plant nutrition, which, when used, improve plant nutrition and have a positive effect on the processes of their growth, development and increasing the yield of these crops.

It is known that the main difference between soybean and other agricultural crops is its high protein content. Soybean and its derivatives, soybean meal and cake, are actively used in modern livestock farming as an independent product and as an integral part of complex feed mixtures.

All soy products are important sources of vitamins and microelements: iron, zinc, phosphorus, manganese and potassium. In addition, soy contains two types of unsaturated fatty acids, and they are absorbed by the body almost 100%, which means they reduce cholesterol levels in the blood.

All soybean processing products also contain valuable elements of plant origin - phospholipids. Depending on the variety, they can reach 2-3%. It should be noted that they strengthen the cell membrane of blood capillaries, increase the liver’s ability to cleanse itself, etc.

Note that soybeans and, like other legumes, have an increased removal of boron and molybdenum. In this regard, scientists are faced with the task of improving and optimizing the method of using plant growth regulators, and its cultivation can be considered as an investment platform with prospects for future development.

All growth regulators can be divided into two groups: natural (natural) and synthetic. The first group is a group of phytohormones. Which can significantly speed up or slow down growth. The second group includes artificially created drugs.

It should also be noted that phytohormones are involved in the interaction of cells, tissues and organs. Moreover, they are necessary for regulating the processes of plant ontogenesis. Hormones are synthesized in individual organs, and they spread throughout the plant, regulating the metabolism of lipids, nucleic acids.

Auxins are indoleacetic acid (IAA) compounds that are formed in areas of high meristematic activity. The action of auxins is based on changes in membrane permeability. Auxins activate the process of cell division, accelerate the process of cell elongation, influence the geo- and phototropism of plants, and regulate the formation of vascular bundles. Auxins are able to activate the formation of roots, delay the fall of ovaries and leaves, increase the supply of nutrients to the plant, and enhance the interaction between different plant organs.

Therefore, it is of practical interest to study the effectiveness of concentrations and duration of application of the growth regulator Heteroauxin in agrocenoses of soybeans and peas in the conditions of the Ryazan region.

In general, it should be noted that the study of the effect of the natural phytohormone auxin - (3 - indoline - 3 - acetic acid) on soybean and pea crops is based on the chemicalization of production in combination with timely processing of high-quality seeds for sowing and their development on plant growth and increased productivity soybean and pea crops. Therefore, plant growth regulators are widely used in production.

There is a known method of feeding soybean plants, in which microelements are added, against the background of the main application of doses of NPK fertilizers (Prosypanov G.S., Zherukov B.Kh. Consumption of nutrients for soybean plants depending on the activity of symbiosis // Proceedings of the TSKhA No. 4, M. , 1992, pp. 196-202).

The disadvantage of this method is that its implementation requires significant costs for all types of fertilizers. In addition, the method does not disclose measures with new drugs for the use of a growth regulator in several stages of its use, as fertilizers given in the description below, containing active substances much higher than in a known analogue.

There is also a known method for cultivating soybeans, including foliar feeding, which is carried out three times during the growing season, starting from the phase of formation of two trifoliate leaves and until the end of the flowering phase, and as a feeding, a mixture of fermented straw manure with water is used in a given ratio (Patent RU No. 2188532, A01C 21/00 from 10.09.2002).

The disadvantage of this method is that mixtures of manure and water used as foliar feeding are not stable enough for use first as seed treatment, and then during treatment of vegetative plants until the seeds are fully ripened, and therefore are not always effective as a method.

There is a known method of cultivating soybeans, including harvesting the predecessor, applying organic fertilizers at a dose of 20-25 t/ha and full mineral fertilizer at the rate of N _30-45 , P _60-90 , K _45-60 to obtain 2 t/ha of grain, adding microelements molybdenum and boron during joint pre-sowing treatment with their inoculation with soybean razotorfin, basic tillage to a depth of 0.24 m, pre-sowing tillage: cultivation to a depth of 6-8 cm and before sowing to a depth of 3-5 cm to create a seed bed; with further leveling, application of soil herbicides, sowing soybean seeds of the 1st or 2nd class of the sowing standard with a row spacing of 0.15; 0.45; 0.60 and 0.70 m to a depth of 3-4 cm, caring for soybean crops, pest and disease control; including vegetation irrigation, harvesting and post-harvest processing of grain (see the book Plant Growing of the Central Black Earth Region. Edited by V.A. Fedotov et al. - Voronezh: Center for the Spiritual Revival of the Black Earth Region, 1988. - P. 186-191).

The disadvantages of the described technology for cultivating soybeans for grain, despite the use of microelements molybdenum (Mo) and boron (B), include low grain quality due to a lack of microelements during flowering and fruiting.

There is a known method of cultivating soybeans for grain in irrigated agriculture, including peeling the predecessor stubble, treating the soil with a herbicide, applying fertilizers, pre-sowing watering and cultivation to a depth of 4-5 cm, rolling the soil before and after sowing, harrowing the seedlings, irrigation during the growing season, desiccation of crops and harvesting (see Technology of soybean cultivation: recommendations of the Federal State Scientific Institution "RosNII PM" - Novocherkassk: LLC "Helikon", 2007, - 28 p.).

The disadvantages of the described method, despite the ability to maintain the irrigation regime and the NPK maintenance regime, include low grain quality in terms of microelement content, low fat content in soybean seeds and limited yield.

A complex microfertilizer for foliar feeding of plants is known, which contains a composition of microelements and other chemicals: sulfate salts of gallium, iron, indaya, cadmium, cobalt, manganese, copper, tin, silver, cesium, zinc, nitrate salts, bismuth, mercury, lead, The waist, potassium broomy, iodine, arsenic, selenistocial, telluria, chromovo, chromovo, technical chromium moth ammonium, molibden oxide, as well as nitrogen, boron, gold -chloristine acid and water (patent RU No. 2238924, C05D 9/02 dated 07.10.2004).

The use of this fertilizer increases plant immunity to diseases and resistance to adverse conditions. It is assumed that plants should absorb the entire mass of micro- and macroelements applied to it (26 ingredients). However, scientific research has established that the absorption of exogenous substances, namely micro- and macroelements introduced from outside, depends on the endogenous biochemical processes of the object. Therefore, to create a rational mineral nutrition system, increasing the number of ingredients and increasing the concentration of substances cannot be justified from the point of view of plant physiology and is not advisable from an environmental and economic point of view. Also, a rational mineral nutrition system does not provide for the obligatory use of mineral fertilizers on soils that do not have a deficiency of micro- and macroelements.

A means for foliar feeding of agricultural crops is known, containing a composition of trace elements in the form of copper, zinc, boron, iron, molybdenum and manganese and a composition of trace elements in the form of nitrogen, magnesium and sulfur (Patent RU No. 2377227, CD 9/02 dated 12/27/2009).

This product contains cobalt, chromium, nickel, lithium and potassium, with the following content of ingredients (in mass %): total nitrogen (0.49±0.1), manganese (0.29±0.01), copper (0 .64±0.01), zinc (0.64±0.01), zinc (1.36±0.1), boron (0.15±0.5), magnesium (0.89±0.05 ), iron (0.4±0.01), molybdenum (0.44±0.002), sulfur (5.05±0.001), cobalt (084±0.001), potassium (0.06±0.002) - 15 ingredients in total .

At the same time, microelements: zinc, copper, nickel, iron and cobalt are presented in chelated form.

The known product is a nutrient mixture for the treatment of vegetative plants of agricultural crops and ensures an increase in crop yields, acceleration of plant growth and improvement of the quality of agricultural products not only by providing the plant with nutrients, but also solves the problem of their absorption by activating internal biochemical processes.

This effect is achieved due to the fact that, in comparison with similar products and fertilizers containing various compositions of micro- and macroelements, the composition and quantity of elements of this product are selected taking into account their electrochemical characteristics in contact with biochemical processes.

To achieve the expected effect, it is recommended to use this product on grain crops three times during the tillering, booting and milky ripeness phases, i.e. for feeding the plant during the entire period of its development, as fertilizer.

However, with a rational approach to stimulating the growth and fruiting of cultivated plants at different stages of its development, a differentiated approach to the use of means is necessary to correct its condition, taking into account and depending on changes in ecogenic factors. Repeated use of a known product may not be sufficient to obtain a sustainable final result. In particular, repeated use of this product on soils that do not have a deficiency of microelements is not rational from the point of view of increasing soil fertility, from the point of view of activating biochemical processes.

There is a known method of increasing the oil content of soybean seeds, which consists in pre-sowing treatment of soybean seeds with an aqueous solution of the growth regulator Melafon. The use of Melafon in a concentration of 1⋅10 ^-4 -1⋅10 ^-9 g/l leads to an increase in germination energy and seed germination, yield and oil content in crop seeds (RU Patent No. 2390984, A01C 1/00 dated 06/10/2010).

The disadvantage of this known method is a decrease in yield due to deterioration of symbiotic nitrogen fixation due to the lack of additional treatment of soybean seeds with heteroauxin during the phase of bean formation.

A known method involves moistening, simmering and separating soybean seeds. Moisturizing is done by soaking in water for 2-30 minutes, simmering for at least 10 minutes. until the seeds finish swelling. Separation is carried out in a saline solution followed by drying. The method allows you to improve the quality of the seed by separating damaged, puny, and immature soybean seeds (Patent RU No. 2132120, A01C 1/00 dated June 27, 1999). However, this method is quite traumatic for the seeds, since during soaking followed by simmering, the integrity of the seed coat will be damaged, which will subsequently lead to injury to the seeds during sowing.

The closest in technical essence to the claimed method is, adopted as a prototype, the method of cultivating soybeans using the complete fertilizer “Bioplant Flora”, which consists in pre-sowing seed treatment, sowing, and foliar feeding. Pre-sowing seed treatment is carried out with Rezotodin in a mixture with the Bioplant Flora multicomponent fertilizer at a dose of 1 l/t and foliar feeding of plants, which is carried out with the Bioplant Flora multicomponent fertilizer in the phase of 4-5 leaves and at the end of bean formation at a dose of 0.25-1.0 l/t. ha (Patent RU No. 2482659, A01G 1/00, A01C 1/00, A01N 63/00, C05G 1/00, C05F 11/08 dated 05/27/2013).

The disadvantage of this known method is the low quality of seed treatment, since the soybean seed coat is quite hard and short-term application of solutions does not allow the multicomponent fertilizer to fully influence the physiological processes occurring in the seeds, which is reflected in the seedlings. In addition, foliar feeding is carried out twice during the growing season, which is economically insufficient, since the costs of performing this agrotechnical measure are not recouped by the increase in yield. In addition, the method does not disclose the use of foliar fertilizing with water-soluble modern microfertilizers as fertilizers given in the description below, containing active substances much higher than in known analogues - substances that improve absorption, i.e. increasing the absorbent properties of the leaf, as well as determining the effect of foliar feeding with fertilizers on the biometric indicators of soybeans and peas; establishing the characteristics of soybean yield formation when using fertilizing with microfertilizers as the drug Heteroauxin in three doses at a dose of 50 mg/l, where it has the greatest effect in the budding phase of plants.

The objective of the invention is to increase the vegetative growth and development of plants to obtain high crop yields, the possibility of developing nodules on the root system in order to fix atmospheric nitrogen and convert it into assimilable for the crop, increase the yield of soybeans and peas, and the profitability of production of quality seeds.

This goal is achieved by the fact that the method of stimulating growth and development when growing soybeans and peas, according to which seeds are sowed, foliar feeding, according to the invention, potatoes are used as a precursor, then in the fall after autumn plowing to a depth of the arable layer of 22-24 cm, early spring harrowing with the application of mineral fertilizers N ₆₀ P ₂₅ K ₂₅ for cultivation, then wide-row sowing is carried out with a row spacing of 45 cm at a seeding rate of 650 thousand/ha of viable seeds, rolling, while the seeds before sowing are simultaneously treated with an inoculant of the drug Hicoat Super with a consumption rate of 1 , 42 l/t and the fungicidal disinfectant Delit Pro with a consumption rate of 200 g/l, while the plants are treated in three doses with Heteroauxin at a dose of 50 mg/l: the first - in the phase of the beginning of the appearance of two true leaves, the second - in the budding phase - the beginning of flowering, the third - in the phase of bean formation, and harvesting is carried out when the seeds are fully ripened.

In the experiment conducted in the Ryazan region, the object of research was the soybean variety Maxus.

The Maxus variety has been included in the State Register for the Central Black Earth region since 2014. Early ripening. Plant of determinant type of development. Medium-high, erect. The drooping of the main stem is reddish-brown. The flower is purple. Plant height - 68.6 cm, protein content - 34.8%. Weight of 1000 grains is 169.8 g, oil content is 23.55. The seeds are medium-sized, elongated-flattened, yellow, with a yellow hilum. The start of flowering time is average. The growing season is 90-100 days. The average yield is 20.3 centners/ha. The highest yield - 33.8 centners / ha - was obtained in 2013 in the Kursk region.

Primary treatment with the inoculant of the drug Highcoat Super soybean at a consumption rate of 1.42 l/t and the Delit Pro disinfectant at a consumption rate of 200 g/l was carried out before sowing the seeds.

Characteristics of water-soluble microfertilizers studied in the experiment.

Highcoat Super is a preparation containing an inoculant for treating soybean seeds.

The mechanism of action of the bacterium Bradyrhizohium japonicum causes the formation of nodules on the root system of soybeans, which fix atmospheric nitrogen and convert it into an ammonium form that is digestible for the crop. Compatible with disinfectants.

Delit Pro disinfectant - its active ingredient pyraclostrobin disrupts the energy exchange in the fungal cell, causing the death of conidia during germination, and inhibits the development of the fungal mycelium (mainly protects the action and partially has a therapeutic effect). Pyraclostrobin effectively suppresses infection located on the surface of the seed. Biological effectiveness against fusarium seedlings, fusarium root rot, ascochyta blight, seed molding. Shoots emerge promptly and form a powerful root system without delays in development.

Heteroauxin or (3-indolylacetic acid) is a fast-acting plant growth stimulant that causes stretching of cell membranes, promoting increased cell division and active growth of the root system. The substance is formed in green mass, in the light it is inhibited by other photosynthetic products. Therefore, it is used after sunset, in the shade or darkness. It is the most powerful stimulator of plant growth. Its chemical formula is: C ₁₀ H ₉ NO _2. An example of the method.

The field experiment was carried out according to the generally accepted methodology for vegetation experiments, “Methodology of the State Variety Testing of Agricultural Crops” and the methodology of the All-Russian Institute of Feed. Mathematical data processing was carried out according to B.A. Dospehov (1985) and using computer programs (PC). Biochemical analysis of soybean seeds was carried out in the laboratory of the Ryazan State Agrotechnological University named after P.A. Kostychev, agrochemical service station "Ryazanskaya".

The predecessor of soybeans and peas was potatoes.

Field experiments were carried out in 2021-2022 in the conditions of an experimental agrotechnological station of the Federal State Budgetary Educational Institution of Higher Education Russian State Technical University, Ryazan district, Ryazan region.

Agrotechnical measures for the cultivation of soybeans and peas were carried out in accordance with existing zonal recommendations. Soil preparation before sowing for experiments included fall plowing in the fall after harvesting the predecessor with a reversible plow to a topsoil depth of 22-24 cm. In the spring, early spring harrowing, followed by pre-sowing cultivation. Mineral fertilizers were applied for cultivation at a dose of N ₆₀ P ₂₅ K ₂₅ per 1 ha. After implementation in the second ten days of May, the seed sowing rate is 650 thousand/ha of viable seeds. After sowing, the soil was rolled. Sowing method: wide row with row spacing - 45 cm.

Before sowing, the seeds were simultaneously treated with the inoculant of the drug Highcoat Super soybean at a dose of 1.42 l/t and, together with a protectant, the protection of soybeans from fusarium seedling blight, fusarium root rot, ascochyta blight, and seed molding was carried out with the drug Delit Pro at a dose of 200 g/l.

The field experiment scheme included: 1. Control (water). 2. Heteroauxin at a dose of 25 mg/l. 3. Heteroacusin at a dose of 50 mg/l.

The treatment of crops in the experiments was carried out at the rate of a working solution of 350 liters per 1 ha.

The plot area is 14 ^m2 , respectively, the accounting area is 10 ^m2 .

The experiment was carried out in four repetitions with spraying for soybean plants in the phase of the beginning of the appearance of two true leaves, in the budding phase - the beginning of flowering and in the phase of bean formation. In the studies, a concentration of the drug Heteroauxin was used for spraying (Table 1).

The use of the growth regulator drug Heteroauxin had a positive effect not only on the completeness of seedlings, but also contributed to more active growth and development of plants using soybean as an example. In addition, the use of this drug had a positive role in preserving plants for the harvesting period (Table 1).

In the budding - flowering phase, studies showed the greatest effect of the Heteroauxin drug on the number of soybean seeds surviving for harvesting, where the survival rate in the treated variants was 4.7-5.0% higher than in the control.

The harvesting was carried out mechanically - directly in the first ten days of September.

The conducted studies showed that the survival rate of soybean plants during two years of research before harvesting was 49.1-75.8%, and with later processing (during the phase of bean formation), the survival rate increases by 4.2%.

It should be noted that the effect of the drug is manifested, first of all, in the acceleration of growth processes, increased metabolism and the accumulation of green mass of plants.

The analysis of the dynamics of the formation of generative organs showed the positive role of the stimulator of growth in the concentration of the drug Heteroauxin due to the fact that it has pronounced attracting properties.

In the phase of 2 true leaves and the beginning of bean formation, after 15 days of foliar feeding by spraying plants with liquid fertilizer Heteroauxin, an average of 9.1-12.4 pieces were formed. beans, which is 37.9-87.9% more compared to the control.

In the bean filling phase, accordingly, it amounted to 26.0-36.1 pieces. beans (42.9-98.4% more compared to control).

Indicators of bean formation in soybean plants are given in Table 2

It should be noted that the seedlings of the culture were friendly. Later, the data on the number of expressed beans that survived for harvesting did not coincide with the number of them that began after the period of budding - flowering. The study of the effect of a growth regulator drug in this case had a positive effect on the safety of the remaining beans before harvesting (seeds). Foliar feeding of plants in all three phases of the growing season contributed to better preservation of plants, in particular where they were sprayed during the budding phase of plants. In addition, late treatment with Heteroauxin contributed to a more intense outflow of nutrients from the vegetative organs, and therefore contributed to better formation of ripe beans for harvesting.

Moreover, in the climatic conditions of the Ryazan region, with optimal heat and moisture supply, the use of a soybean growth regulator drug can produce more than 30 grown beans per plant.

Of particular importance for soybean plants during the budding phase was the influence of foliar fertilizing with the drug Heteroauxin. The number of seeds was 2.7-11.6% more compared to the control, the data is shown in Table 3.

When conducting research on the structure of the yield of the Maxus variety, it was found that for soybean an important indicator is played by such an indicator as the number of shoots formed on the plant, i.e. where the beans themselves are formed before ripening. The number of shoots was 2.5 pieces. per 1 plant (highest) at a concentration of the drug Heteroauxin at a dose of 50 mg/l (especially in the budding phase). In addition, a noticeable positive effect was noted on the effect of the growth regulator on the formation of lateral shoots on soybean plants in all experimental variants. Thus, in the control variant the number of shoots was 1.4-1.8 pieces. for 1 plant, and for experienced ones - 1.7-2.5 pieces. for 1 plant.

As follows from the data, the concentration of the plant growth drug weakens apical dominance, and the growth of lateral shoots is activated. This occurs due to the use of cell extensibility and increased absorption of moisture, where the plant continues to grow until the seeds are harvested. According to the experimental indicators, the plant height in the variants was 0.9-6.7 cm higher compared to the control.

The maximum amount per weight of 1000 seeds was obtained in the budding phase (156.5 g), bean formation (155.6 g) when treated with a concentration growth regulator of the drug Heteroauxin at a dose of 50 mg/l.

The obtained data from the analysis of soybean and pea yields are shown in tables 4 and 5.

As follows from the data given in tables 4 and 5, the effectiveness of the phytohormone used is largely dependent on external factors.

Therefore, we can confidently note that the increase in soybean yield in the experimental variants ranged from 4.5 to 10.3%. The maximum yield was obtained with foliar feeding when treating crops with Heteroauxin at a dose of 50 mg/l, and in the budding phase it amounted to 10.3%.

When pea crops were treated with Heteroauxin during the budding phase, the yield was 4.6-8.4% higher compared to the control.

It should be noted that the high effect is associated with the profitability of soybean production due to the treatment of crops with Heteroauxin at a dose of 50 mg/l, and amounted to 84.5% in the budding phase, which is 9.2% more than the control. At the same time, the profitability of peas was 77.4%, which is 7.6% higher than the control.

Thus, we state that the proposed method of treating seeds before sowing and foliar feeding of soybeans and peas by using these preparations in several stages can increase yields and improve their cultivation, and also allows these varieties of soybeans and peas to be recommended for implementation in the conditions of the Ryazan region.

Claims (1)

A method of stimulating growth and development when growing soybeans and peas, according to which seeds are sowed, foliar feeding is carried out, characterized in that potatoes are used as a predecessor, then in the fall after autumn plowing to a depth of the arable layer of 22-24 cm, early spring harrowing is carried out with the application of mineral fertilizers N ₆₀ P ₂₅ K ₂₅ , then wide-row sowing is carried out with a row spacing of 45 cm at a seeding rate of 650 thousand/ha of viable seeds, rolling, while the seeds before sowing are simultaneously treated with the Hicoat Super Soya inoculant with a consumption rate of 1.42 l/t and a fungicidal with Delit Pro disinfectant with a consumption rate of 200 g/l, the plants are treated in three doses with Heteroauxin at a dose of 50 mg/l: the first - in the phase of the beginning of the appearance of two true leaves, the second - in the budding phase - the beginning of flowering, the third - in the phase of bean formation , and harvesting is carried out when the seeds are completely ripe.