RU2349071C1 - Method of fall wheat treatment - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, i.e. to bio-stimulating and growth-controlling means intended for plants growing and harvest increasing. The above method includes top-dressing of vegetative plant by means of mineral fertiliser solution consisting of chemical substances with nutrient elements such as boron, manganese, copper and molybdenum. In addition, the solution includes chemical substances containing iron, potassium, zinc, nickel, iodine, cobalt, sulfur, aluminium, tin and strontium. The weight of each chemical substance to be used for mineral fertiliser solution preparation is defined to the standard weight of separate mineral fertiliser being in 100 g of the fall wheat and according to the formula:

where m(B) -weight of the chemical substance (S) included into the fertiliser weight and having one nutrient element (E); M_r(S) - relative molecular mass of the chemical substance (S) to be defined to the Mendeleev Table based on the chemical formula of the substance; m'(E) - weight of separate nutrient elements (E) in 100 grams of the grains expressed in grams; A_r(E) - relative atomic weight of the nutrient element (E) included into the chemical substance (S). After that, water solution of mineral fertilizers is prepared at concentrations 0.0686÷0.1% containing all calculated chemical substances. The crops of the fall wheat are then treated with the above solution in the amount of 100-300 l per 1 crop hectare.

EFFECT: increase of fall wheat crop-producing power due to nutrient fertiliser solution optimisation for top dressing.

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Description

The invention relates to agriculture, namely to biostimulating and growth-regulating agents intended for use in growing plants in order to increase yield.

Root and non-root top dressing are one of the important factors of plant growth and development, as well as increasing their yield [1]. From the point of view of the physiology of plant nutrition, foliar application is justified by the fact that a single application of fertilizers in the soil in autumn or spring cannot provide the plant with all the nutrients it needs in the ratios that it needs during different periods of vegetation [3]. Top dressing in combination with basic fertilizer makes it possible to achieve a crop that cannot be obtained while all fertilizers are applied to the soil even in a large dose, because based on the ability of plants to absorb nutrients on the surface of green leaves and stems [5].

A known method of processing cereals with calcium chloride by accelerating the loading of grain to increase productivity [7].

The disadvantage of this method is the use of a single nutrient element, while plants need their complex

Known means for foliar feeding of grain crops, involving the use of natural bischofite [8], with the aim of increasing grain yields. The basis of this natural mineral is MgCI ₂ · 6H ₂ O 87-99%, the rest is impurities. The use of this foliar top dressing allows you to get an increase in the yield of spring wheat up to 3 kg / ha. Since bischofite is a natural solution with a certain qualitative and quantitative composition, the needs for macro- and microelements of wheat as an individual culture cannot be taken into account in it.

The lack of trace elements in the nutrient medium disrupts the metabolism, the course of physiological and biochemical processes, which affects the yield. Trace elements are an essential component of many enzymes that make up proteins, sugars, starch, and are involved in the synthesis of vitamins. The necessary and indispensable trace elements include: molybdenum, manganese, boron, zinc, copper, cobalt, their lack leads to lower yields and poor product quality. Of particular importance are microfertilizers containing individual trace elements, and especially fertilizers containing trace elements in soluble form [6].

A known method of processing winter wheat, including foliar feeding of vegetating plants with a solution of mineral fertilizers consisting of chemicals in the following proportions: (NH ₄ ) ₆ Mo ₇ O ₂₄ · 4H ₂ O - 6600 g / ha; MnSO ₃ - 220 g / ha; H ₃ VO ₃ - 110 g / ha; CuSO ₄ · 5H ₂ O - 330 g / ha [3]. This method is the closest in technical essence to the claimed invention and adopted as a prototype [1].

The disadvantage of this method is the content of a very limited number of trace elements. The composition of the solution for foliar feeding of plants is proposed on the basis of general ideas about the need for trace elements without taking into account their quantitative content in each particular culture.

The technical solution to the problem is to increase the yield of winter wheat by optimizing the composition of the nutrient solution of fertilizers for foliar feeding.

The problem is achieved in that in the claimed method of processing winter wheat, including foliar feeding of vegetating plants with a solution of mineral fertilizers consisting of chemicals containing nutrients: boron, manganese, copper, molybdenum, according to the invention, the solution additionally contains chemicals containing iron , potassium, zinc, nickel, iodine, cobalt, sulfur, aluminum, tin, strontium, and the mass of each chemical substance from which a solution of mineral fertilizers is prepared is determined in accordance with standard weight of individual nutrients in 100 g of winter wheat by the formula:

where m (B) is the mass of the chemical substance (B), which is part of the fertilizer and includes one of the nutrients (E);

M _r (B) - the relative molecular weight of the chemical substance (B), which is determined according to the table of D. I. Mendeleev, based on the chemical formula of the substance;

m '(E) - mass of individual nutrient elements (E) per 100 g of grain, (reference data), expressed in grams;

And _r (E) is the relative atomic mass of the nutrient element (E) contained in the chemical substance (B),

then prepare an aqueous solution of mineral fertilizers with a concentration of 0.0686 ÷ 0.1%, containing all the calculated chemicals and process the crops of winter wheat at a flow rate of 100-300 liters of liquid per 1 ha of crops.

The novelty of the proposed proposal is due to the fact that for the formation of plant cells and any plant, the nutrient medium is provided with all the elements that are necessary to build these cells in the proportions that are observed in the chemical composition of the plant itself. Therefore, such a mass of nutrients is introduced into the aqueous fertilizer solution that it contains the necessary amount of trace elements in accordance with its content in wheat grain. Moreover, each substance is responsible for the introduction of one nutrient element in a certain amount.

And the novelty of the proposed proposal is due to the fact that the developed composition of fertilizers differs in specially selected nutrient concentrations for winter wheat, taking into account the chemical composition of its grain.

An example of a specific implementation of the method of processing winter wheat.

Non-root top dressing of vegetative plants of winter wheat is carried out with a solution of mineral fertilizers consisting of chemicals containing boron, manganese, copper, molybdenum, iron, potassium, zinc, nickel, iodine, cobalt, sulfur, aluminum, tin, strontium. In this case, the mass of each chemical substance from which a solution of mineral fertilizers is prepared is determined in accordance with the standard mass of individual nutrients in 100 g of winter wheat (literature data [2]) according to the formula:

where m (B) is the mass of the chemical substance (B), which is part of the fertilizer and includes one of the nutrients (E);

M _r (B) - the relative molecular weight of the chemical substance (B), which is determined according to the table of D. I. Mendeleev, based on the chemical formula of the substance;

m '(E) is the mass of individual nutrient elements (E) per 100 g of grain, taken from the table of the literature [6], expressed in grams;

A _r (E) is the relative atomic mass of the nutrient element (E) contained in the chemical substance (B).

Calculation on the example of iron sulfate FeSO ₄ · 7H ₂ O, necessary for the preparation of a fertilizer solution for the introduction of the iron nutrient Fe.

The initial data for the calculation.

The relative molecular weight of iron sulfate is M _r (FeSO ₄ · 7H ₂ O) = 282.

The relative atomic mass of the iron element is _Ar (Fe) = 56.

The mass of the iron element contained in 100 g of winter wheat m '(Fe) = 5.14 · 10 ^-3 g, according to the literature [2] (5410 μg = 5.14 · 10 ^-3 g).

Since the iron element Fe is located in 100 g of grain, it can be considered that the percentage of iron in the grain is 5.14 · 10 ^-3 wt.%.

We substitute the initial data into the above formula:

So, the resulting mass of iron sulfate is 25.88 · 10 ^-3 g and contains the element iron in mass percent, corresponding to the chemical elemental composition of wheat grain.

This mass of iron sulfate 25.88 · 10 ^-3 g is dissolved in water, bringing the volume of the solution to 100 ml.

Similarly, according to the above formula, other chemicals are calculated with the necessary (other) nutrients (H ₃ BO ₃ , MnSO ₄ · 5H ₂ O, CuSO ₄ · 5H ₂ O, (NH ₄ ) ₆ Mo ₇ O ₂₄ · H ₂ O , ZnSO ₄ · 7H ₂ O, NiSO ₄ · 7H ₂ O, KI, Co (NO ₃ ) ₂ · 6H ₂ O, Al ₂ (SO ₄ ) ₃ , SnCl ₂ · 2H ₂ O, Sr (NO ₃ ) ₂ ) . Then a solution of mineral fertilizers is prepared, where all calculated chemicals are dissolved in distilled water and the volume of the solution is adjusted to 100 ml. The total concentration of dissolved substances in the fertilizer solution is 0.0686%.

The following is table 1, which shows the calculated and literature data used in the preparation of a fertilizer solution with the claimed trace elements in the required proportions.

Table 1 The content of chemicals and micronutrients in their composition in a fertilizer solution in comparison with the content of elements in the grain of winter wheat Formulas of chemicals with essential trace elements The content of chemicals in solution, wt.%, M (V) The content of trace elements in solution, wt.% The content of trace elements in 100 g of winter wheat mcg, m ' wt.% FeSO ₄ · 7H ₂ O 2.6 · 10 ^-2 Fe 5.1 · 10 ^-3 Fe 5140 5.14 · 10 ^-3 H ₃ IN ₃ 1.1 · 10 ^-3 AT 1.8 · 10 ^-4 AT 180 1.8 · 10 ^-4 MnSO ₄ · 5H ₂ O 1.8 · 10 ^-2 Mn 3.7 · 10 ^-3 Mn 3740 3.74 · 10 ^-3 CuSO ₄ · 5H ₂ O 1.6 · 10 ^-3 Cu 4.1 · 10 ^-4 Cu 410 4.1 · 10 ^-4 (NH ₄ ) ₆ Mo ₇ O ₂₄ · 4H ₂ O 2.8 · 10 ^-4 Mo 2.2 · 10 ^-5 Mo 21.5 2.15 · 10 ^-5 ZnSO ₄ · 7H ₂ O 7.4 · 10 ^-3 Zn 2.6 · 10 ^-3 Zn 2610,0 2.6110 ^-3 NiSO ₄ · 7H ₂ O 1.6 · 10 ^-3 Ni 3.3 · 10 ^-5 Ni 33.3 3.33 · 10 ^-5 Ki 6.8 · 10 ^-5 I 5.2 · 10 ^-6 I 5.2 5.2 · 10 ^-6 Co (NO ₃ ) ₂ · 6H ₂ O 2.2 · 10 ^-5 With 4.4 · 10 ^-6 With 4.4 4.4 · 10 ^-6 Al ₂ (SO ₄ ) ₃ 1.2 · 10 ^-2 Al 1.5 · 10 ^-3 Al 1450 1.45 · 10 ^-3 SnCl ₂ · 2H ₂ O 6.3 · 10 ^-5 Sn 3.3 · 10 ^-5 Sn 33,4 3.34 · 10 ^-5 Sr (NO ₃ ) ₂ 5.5 · 10 ^-4 Sr 2.3 · 10 ^-4 Sr 232 2.32 · 10 ^-4

As can be seen from table 1, the content of trace elements in the fertilizer solution exactly corresponds to the content of these elements in the grain of winter wheat.

For processing plants in the field, a fertilizer solution of 100 l was prepared. At the same time, the technique of weighing very small quantities of chemicals containing nutrients was simplified. So, instead of 2.6-10 ^-2 g of iron sulfate, calculated per 100 g of solution, 26 g per 100 kg (≈100 l) of solution were weighed. For convenience, a fertilizer concentrate was prepared in 1 liter of distilled water with a total concentration of dissolved chemicals of 68.6 g / l (6.86 wt.%).

To prepare 100 l of a working fertilizer solution, 1 l of a solution of fertilizer concentrate with a concentration of 68.6 g / l was taken and 99 l of tap water was added. The concentration of the working fertilizer solution was 0.686 g / l or 0.068 wt.%.

Field tests were carried out on winter wheat of the Delta variety in the experimental field of the Kuban training farm. The experiment was repeated three times. Agrotechnics of growing winter wheat was used, recommended for the conditions of the central zone of the Krasnodar Territory. During field trials, winter wheat crops were treated with a solution of fertilizers in the tillering phase (in spring).

Scheme of experience.

1. Control. Tap water.

2. The selected concentration, taking into account the characteristics of the chemical fertilizer solution with a total concentration of dissolved chemicals of 0.686 g / l. The composition of the aqueous nutrient medium included the following elements:

iron, boron, potassium, manganese, copper, molybdenum, zinc, nickel, iodine, cobalt, sulfur, aluminum, tin.

The consumption of an aqueous solution of fertilizers for foliar feeding of winter wheat amounted to 300 l / ha.

The selected composition of foliar top dressing had a positive effect on increasing the elements of the crop structure and the yield of winter wheat (table 2).

table 2 The main elements of the crop structure and yield of winter wheat of the Delta variety, depending on the composition of the foliar application Option Number of productive Spike length, cm The number of grains in the ear, pcs. Mass of 1000 grains, g The mass of grain per ear, g Grain productivity, kg / ha stems pcs / m ² spikelets, pcs / m ² one 501 20.3 7.7 29.7 39.3 1.17 53,4 2 511 25.5 7.8 31.9 40.9 1.34 63,4

When applying foliar top dressing compared with the control, a larger number of productive stems remained (an increase of 2.0%), a larger number of spikelets and grains were formed in the ear, the weight of 1000 grains increased (by 4%), and the weight of the grain from the ear by 14%. An increase in crop structure elements significantly affected winter wheat yields.

The application of the developed foliar top dressing made it possible to increase the yield of winter wheat grain by 10 kg / ha (18%) with a yield of 53.4 kg / ha in the control experiment.

Information sources

1. Lebedeva L.A., Edemskaya N.L. Scientific principles of the fertilizer system with the basics of environmental agrochemistry. - M.: Publishing House of Moscow. Univ., 2005 - S. 42, 222.

2. The chemical composition of food. Edited by Nesterin M.F., Skurikhina I.M. - M .: Food industry, 1979 - P.40.

3. Yakushkina N.I., Bakhtenko E.Yu. Plant Physiology: Textbook. for university students enrolled in the specialty 032400 "Biology" - M .: Humanities. ed. VLADOS Center, 2005 - 463 p. S.202-203.

4. Grodzinsky A.M., Grodzinsky D.M. A brief guide to plant physiology. - Kiev: Naukova Dumka. 1973 - 600 s. S.495.

5. Agrochemistry / Ed. B.A. Yagodina. - M .: VO Agropromizdat, 1989 - S.194-201.

6. Muravin E.A. Agricultural chemistry: textbook. - M .: Kolos, 2004 - 384 p. S.43-55.

7. Copyright certificate No. 946484, А01N 59/06 Method for processing cereals / Akhmetov PP, Sh.Ya. Gilyazetdinov, I.A. Yakhin, N.G. Ramazanov, V.A. Vakhitov, R.F. Nusratullini, application . 12/26/80; Publ. 30.07.82, Bulletin No. 28.

8. Patent 2120754 of the Russian Federation, A01N 59/06, C05D 5/00. Means for foliar feeding of grain crops / T.A. Koroleva, M.N. Belitskaya, V.N. Maksyuta, V.V. Melikhov, V.A. Ermakov, - No. 97107368/13; application 05/06/97; publ. 10/27/98; Bull. No. 30.

Claims (1)

A method of treating winter wheat, including foliar feeding of vegetative plants with a solution of mineral fertilizers consisting of chemicals containing nutrients: boron, manganese, copper, molybdenum, characterized in that the solution additionally contains chemicals containing iron, potassium, zinc, nickel, iodine, cobalt, sulfur, aluminum, tin, strontium, while the mass of each chemical substance from which a solution of mineral fertilizers is prepared is determined in accordance with the standard mass of individual nutrient cells per 100 g formula of winter wheat

where m (B) is the mass of the chemical substance (B), which is part of the fertilizer and includes one of the nutrients (E);
M _r (B) - the relative molecular weight of the chemical substance (B), which is determined according to the table of D. I. Mendeleev, based on the chemical formula of the substance;
m '(E) - mass of individual nutrient elements (E) per 100 g of grain, expressed in grams;
And _r (E) is the relative atomic mass of the nutrient element (E) contained in the chemical substance (B),
then prepare an aqueous solution of mineral fertilizers with a concentration of 0.0686 ÷ 0.1%, containing all the calculated chemicals and process the crops of winter wheat at a flow rate of 100-300 liters of liquid per 1 ha of crops.