RU2787041C1 - Organo-mineral preparation for foliar feeding of sunflower - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Organo-mineral preparation for foliar feeding of sunflower contains phosphoric acid, boric acid, iron sulfate, manganese sulfate, zinc sulfate, magnesium sulfate and lignohumate. All components are taken at a certain ratio.

EFFECT: invention makes it possible to improve the synthesis of enzymes by a plant.

1 cl, 3 dwg, 4 ex

Description

The technical field to which the invention belongs

The invention relates to the field of agriculture and can be used for foliar (foliar) feeding of sunflower, containing the necessary meso- and microelements to improve vegetative growth and development of plants, increase yields and quality of the products obtained.

State of the art

A known method of applying to vegetative plants polygibberellic growth regulator Gibbersib at a dose of 10-40 g/ha according to a preparation containing 50% sodium salts of various gibberellins. Plant treatments are carried out by ground spraying (0.005-0.01% aqueous solution, 400 l/ha) or by means of an aerosol generator with controlled particle dispersion (GRD), using a 2-4% solution (0.5-1.5 l/ha). ha). (patent RU 2099948 C1, published 12/27/1997, IPC A01 N 63/04, A01 G 7/00).

The disadvantage of this invention is the lack of a complex of microelements, which are of prime importance in terms of the degree of need of sunflower plants, contributing, among other things, to an increase in the resistance of plants to fungal and bacterial diseases, as well as to adverse environmental conditions, such as lack of moisture in the soil, a decrease or increase in ambient temperature. environment.

Also known is a tool used for foliar feeding of crops - a natural mineral bischofite with a concentration of 4-6%. The drug is used in the period of tillering-exit into the tube at a consumption rate of 400-600 l/ha (RU, patent No. 2120754 C1. MPK6 A01N 59/06, C05D 5/00).

The disadvantage of this invention is the weak growth-regulating activity of the natural mineral bischofite in foliar feeding of oilseeds due to the structural features of sunflower heads, leaves and stems.

The closest technical solution is a tool for vegetative treatment of sunflower plants. The mixture includes (wt.%): bischofite (density 1.30-1.32 t/m ³ ) - 2.0-6.0, boron plus - 0.1, water - the rest. Processing of plants is carried out at the rate of 250-300 liters of composite mixture per hectare. In case of double treatment of plants: the first treatment of sunflower plants is carried out in the phase of 3-5 pairs of true sunflower leaves, and the second treatment is carried out in the phase of the beginning of sunflower head formation. A single treatment of plants is carried out at the beginning of the phase of sunflower head formation. (patent No. 2433591 C2, published 11/20/2011, IPC A01N 65/00).

The disadvantage of this invention is that the recommended doses of the agent are minimal, which will not give the desired result with a single application of this drug, which will entail the cost of a mandatory second treatment of sunflower plants.

Disclosure of invention

The objective of the invention is to create a highly effective organomineral preparation containing salts of humic and fulvic acids and a complex of essential trace elements for foliar (foliar) feeding of sunflower plants, which contributes to a significant increase in the yield and quality of sunflower oil seeds.

The technical result is to develop an organomineral preparation for foliar (foliar) feeding of sunflower plants, which improves the synthesis of enzymes by the plant, which allow more intensive use of energy, water for the formation of high yields and oil content of seeds.

The technical result is achieved using an organomineral preparation for foliar feeding of sunflower containing phosphoric acid, and additionally contains boric acid, iron sulfate, manganese sulfate, zinc sulfate, magnesium sulfate and Lignohumate in the following ratio of components, wt.%:

Boric acid -17.5-18.0

Ferrous sulfate - 13.5-15.0

Manganese sulfate - 12.5-14.0

Zinc sulfate - 15.0-15.5

Magnesium sulfate - 10.0-12.5

Orthophosphoric acid -15.0-16.0

Lignohumate - 12.5-13.0.

Thus, the achievement of the technical result is carried out by providing a balanced diet of meso- and microelements. For normal growth and development of plants, various nutrients are needed. Despite the sharp differences in the quantitative requirement, the function of each essential meso- and microelement in plants is strictly specific; none of the elements can be replaced by another.

The role of trace elements during the growing season of sunflower is diverse and significant. They participate in complex biological and physiological processes, activate the activity of enzymes, vitamins, hormones, are associated with the processes of synthesis of organic substances, increase the productivity of crops and improve product quality. Depending on the reaction of the soil solution, often the microelements in the soil are in a state that is indigestible for the plant organism, therefore the application of microfertilizers (fertilizers containing microelements) is of great importance. It is also known that sunflower plants are able to absorb nutrients not only through the root system, but also through the leaf surface. This type of treatment is called foliar top dressing. Treatment of the surface of plant leaves with aqueous solutions of macro- and microfertilizers improves the photosynthetic activity of plants, creates favorable conditions for their growth and development, increases productivity by 15-18% and increases resistance to adverse environmental factors. Foliar top dressing with fertilizers with microelements improves vegetative growth and development of plants, increases productivity and product quality. The trace elements contained in the preparations increase the utilization rate of the main fertilizers. The most important trace elements include biometal cations such as iron, manganese, zinc, copper, cobalt, as well as molybdenum, titanium and boron. Despite the macronutrients, nitrogen, phosphorus, potassium, the removal of which during harvesting is several hundred kilograms per hectare, the consumption of microelements is much lower, from several grams to several hundred grams. The composition and ratio of microelements are selected taking into account the individual needs of the culture.

The period of maximum absorption of boron in sunflower 70-80%) occurs in the phase of 4-6 leaves (laying the basket) before flowering, if during this period the weather conditions are unfavorable, then the absorption of boron from the soil by the plant is blocked. Boron directly affects the growth processes of sunflower, as it is part of the cell walls of the plant. Boron also regulates plant respiration and water metabolism. Preventive application of boron before a period of drought and high temperatures reduces the intensity of plant respiration, water evaporation and increases the plant's resistance to drought. The main task of boron is to ensure the generative function, with a lack of this element, the number of flowers in the basket decreases, pollen fertility and seed feasibility deteriorate.

Manganese has an impact on important sunflower processes such as the activation of enzyme systems, nitrogen metabolism, photosynthesis and protein synthesis, and has a great impact on the overall yield of the plant. With the manifestation of a deficiency of this element in the plant, growth retardation is observed and leaf chlorosis is manifested.

Zinc affects the metabolism of energy and substances in the plant, which is due to its content in more than 30 enzymes. With a lack of zinc, reducing sugars accumulate, and the content of sucrose and starch decreases, the accumulation of organic acids increases, the content of auxin decreases, and protein synthesis is disturbed. A deficiency of this element is found on carbonates, heavily calcified soils. May increase with the introduction of large doses of phosphorus. All plants with a lack of zinc are characterized by growth retardation.

Magnesium is one of the most important nutrients in sunflower, magnesium deficiency slows down the growth of sunflower, the plant forms a basket with fewer flowers, the quality of seeds decreases and, consequently, their nutritional value. With 1 ton of grain, sunflower takes out, on average, 10-15 kg of available forms of manganese.

Lignohumate contributes to a better development of the sunflower root system, which is very important in dry years, when moisture reserves lie in the deep layers of the soil. Also, the drug contributes to the maximum fulfillment of the basket. Lignohumate activates plant immunity, allowing them to better withstand stress and realize their genetic potential.

Brief description of drawings and other materials

In FIG. 1 - the average content of nutrients in sunflower.

In FIG. 2 - examples of the compositions of the proposed nutrition schemes for growing sunflower,%

Figure 3 - Yield and quality of Pioneer P64LE25 sunflower oilseeds (2019-2021)

Implementation of the invention

Examples of a specific test of an organomineral preparation for sunflower.

Example 1. The test of the proposed organomineral preparation for foliar (foliar) feeding of sunflower was carried out in sunflower crops on the territory of Krasnaya Zarya, Novoaleksandrovsky urban district.

The proposed organomineral preparation for foliar (foliar) feeding of sunflower in a single use during the interphase period: 3-4 pairs of true leaves, against the background of N15P39K ₃₉ sowing and top dressing - N39. The introduction of the drug was carried out at a dose of 2.0 kg/ha. The drug contains boric acid, iron sulfate, manganese sulfate, zinc sulfate, magnesium sulfate, orthophosphoric acid and lignohumate in the following ratio, wt.%:

Boric acid-11.5

Ferrous sulfate-15.0

Manganese sulfate - 10.5

Zinc sulfate - 20.0

Magnesium sulfate-12.0

Phosphoric acid-11.0

Lignohumate-11.0.

This ratio of components used in the test preparation did not ensure the normal course of redox processes, carbohydrate and nitrogen metabolism. Plant growth retardation was detected, as some components of the preparation were found to be in insufficient quantities.

Example 2. It was carried out similarly to example 1, the ratio of components is as follows, wt.%:

Boric acid-17.5

Ferrous sulfate-15.0

Manganese sulfate - 12.5

Zinc sulfate - 15.0

Magnesium sulfate-12.5

Phosphoric acid-15.0

Lignohumate-12.5.

This ratio of components is optimal for plants, while it contributes to an increase in yield by 7.2% and oil content of seeds by 4.3% (Fig. 3). There is also a noticeable reduction in plant stress during pesticide treatments and frosts, the normal course of redox processes, carbohydrate and nitrogen metabolism is ensured.

Example 3. It was carried out analogously to example 1, the ratio of components is as follows, wt.%:

Boric acid-18.0

Ferrous sulfate-13.5

Manganese sulfate - 140

Zinc sulfate - 15.5

Magnesium sulfate-10.0

Phosphoric acid-16.0

Lignohumate-13.0.

This example of the ratio of the components of the preparation is also optimal for cereals and contributes to an increase in yield by 11.3% and oil content of seeds by 4.1% compared with the control (Fig. 3). There is a significant increase in stress resistance of plants.

Example 4. It was carried out analogously to example 1, the ratio of components is as follows, wt.%:

Boric acid-17.5

Ferrous sulfate-17.5

Manganese sulfate - 12.5

Zinc sulfate - 17.5

Magnesium sulfate-5.0

Phosphoric acid-15.0

Lignohumate-15.0

This concentration and ratio of the organomineral preparation for foliar feeding of sunflower was not justified due to the high concentration of some components of the preparation, without ensuring the normal course of the redox process, carbohydrate and nitrogen metabolism. It contributed to an increase in yield by 11.9% and oil content of seeds by 4.5% compared with the control (Fig. 3), which does not differ significantly from the third example of the experiment. The yield did not increase significantly, as did the quality of sunflower oilseeds.

Thus, examples 2 and 3 are the most effective, since the elements are balanced in optimal concentrations and participate in key metabolic processes. The organomineral preparation in the presented dosages has a stimulating effect on plant growth, does not show a toxic effect on cells, a significant increase in growth processes, an increase in immunity and stress resistance of plants to adverse environmental conditions. There is a significant increase in the yield and quality of oilseeds.

From the study, we can conclude that the present invention has the following advantages in relation to known developments:

-physiologically effective for plants, the coefficient of use of biogenic elements from the preparation by plants is 90%;

- doses of the drug are optimal for all soil and climatic zones;

- the mineral nutrition of plants is positively optimized and the unbalanced composition of the soil is corrected with biogenic elements.

Claims (2)

Organo-mineral preparation for foliar feeding of sunflower, containing orthophosphoric acid, characterized in that it additionally contains boric acid, iron sulfate, manganese sulfate, zinc sulfate, magnesium sulfate and lignohumate in the following ratio of components, wt.%: Boric acid 17.5-18.0 ferrous sulfate 13.5-15.0 manganese sulfate 12.5-14.0 zinc sulfate 15.0-15.5 Magnesium sulfate 10.0-12.5 Phosphoric acid 15.0-16.0 Lignohumate 12.5-13.0

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