RU2810878C1 - Method for increasing the yield of field crops - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method for increasing the yield of field crops in the non-chernozem zone involves foliar top dressing for grain crops in the booting phase, for legumes and grain legumes in the budding phase, with a composition of biologically active substances in the form of an aqueous solution containing fulvic acids at a dose of 6-14 g/ha, boric acid H₃BO₃ - 41.6 g/ha, cobalt nitrate Co(NO₃)₂ - 10.4 g/ha, ammonium molybdate (NH₄)₂MoO₄ - 16.7 g/ha with water consumption during spraying 200-300 L/ha.

EFFECT: invention makes it possible to increase the biological activity of foliar top dressings.

1 cl, 3 tbl

Description

The invention is intended for use in agriculture in crop production of the non-chernozem zone for foliar feeding of field crops.

Fulvic acids usually include some of the humic acids that are colored from light yellow to light brown, soluble in water, alkalis and acids (GOST 27593-88). In the natural environment, fulvic acids are formed as a result of the decomposition of organic matter of plant, fungal, animal and microbial residues through humification, remaining labile in acidic and alkaline environments (Popov A.I. Humic substances: properties, structure, formation / Ed. E. I. Ermakova - St. Petersburg: St. Petersburg University Publishing House, 2004. 248 p.). In soils, being a component of humus, fulvic acids provide cation and anion exchange, and also participate in the chelation of mineral elements (Orlov D.S. Humic acids of soils and the general theory of humification: monograph. M., 1990. 325 pp.).

The PRC Patent 1995-02-08-08-CN1098437A describes the preparation of a solution of humic and fulvic acids from plant raw materials, containing, in terms of dry matter: humic acid - 9-20% by weight, fulvic acids 30-55% by weight. amino acids 15-25% by weight, carbohydrates 1.5-3.0% by weight. ribonucleic acids 1-3% wt. elements 0.2-0.5% wt.

The authors of the patent indicate: “In agriculture and forestry: the solution is mainly used as a fertilizer for spraying. Foliar application can increase the chlorophyll content of plants and improve photosynthesis. Experiments with corn, cotton and fruit trees at Beijing Agricultural University and the Chinese Academy of Forestry showed that chlorophyll content increased by 1-3% and yield by 5-25%.

Currently, TAGROW company presents the product Bio Fulvic on the market - containing fulvic acid extracted from plants. The benefits of use include increased germination and growth of plants. Bio Fulvic, in addition to fulvic acid, additionally contains in one case (Bio Fulvic 65): BioK - 12% by weight, BioN - 3% by weight, amino acids and nucleic acids - 8% by weight. in another case (Bio Fulvic 90): BioCa- 4-6% wt. (https://www.tagrow.com/products/BioFulvic.htm).

Research results by E.I. Kogotko demonstrate the effectiveness of foliar treatment of spring wheat crops with microelements together with humic substances. The studies examined the effectiveness of complex preparations: EleHum Copper (contains Cu - 50 g/l and humic substances - 10 g/l); Ecolist 3 (contains N -10.5%, K2O - 5.1%, MgO - 2.5%, B - 0.38%, Cu - 0.45%, Fe - 0.07%, Mn - 0, 05%, Mo - 0.0016%, Zn - 0.19%) was applied at a dose of 3 l/ha; Basfoliar 36 extra (contains N - 36.3%, MgO - 4.3%, B - 0.03%, Cu - 0.27%, Fe - 0.03%, Mn - 1.34%, Mo - 0 .01%, Zn - 0.013%) was applied at a dose of 5 l/ha; Vitamar (MgSO4*7H2O - 310 g, H3BO3-60 g, ZnSO4*7H2O - 140 g, MnSO4*4H2O - 80 g, CuSO4*5H2O - 130 g, (NH4)6Mo7O ₄ *4H2O - 2 g, FeSO4*7H2O - 180 g, Mohr's salt (NH4)2SO4 FeSO4*6H2O - 10 g and humates) was applied at a dose of 2 l/ha. According to the experiment, the increase in grain yield of winter wheat was up to 3.6 c/ha. The best effect was observed from the use of microelements together with humic substances (Kogotko E.I. Influence of complex preparations Vitamar and Elegum copper, microfertilizers in chelated form Basfoliar and Ecolist on the yield and quality of spring wheat grain // Bulletin of the BGSAA. - 2013. - No. 2. - pp. 93-98). When recalculating the doses of microelements in g a.i./ha introduced in the experiment as part of complex fertilizers, we obtain the following: Ecolist 3 (B -11.4, Cu - 13.5, Mn - 1.5, Mo - 0.05, Zn - 5.7); Basfoliar 36 extra (B - 1.5, Cu - 13.5, Mn - 67, Mo - 0.5, Zn - 0.65); Vitamar (B - 20.4, Cu - 65, Mn - 40, Mo - 2.2, Zn - 70). The disadvantage of the proposed complex fertilizers is the high doses of introduced microelements, as well as the introduction of elements such as manganese, zinc, copper, the mobility of which in non-chernozem, mainly acidic, soils is high and their additional application is impractical and not environmentally friendly.

The authors of this work decided to further expand the search for a combination of reduced doses of microelements for foliar feeding together with fulvic acids.

After a series of experiments with microfertilizers, a non-obvious solution was found, showing that boric acid, ammonium molybdate and cobalt nitrate have a synergistic effect with fulvic acids, increasing the biological activity of foliar fertilizers with the following combination: fulvic acids at a dose of (6-14) g/ha, boric acid - 41.6 g/ha, cobalt nitrate - 10.4 g/ha, ammonium molybdate -16.65 g/ha with water consumption when spraying 200-300 l/ha.

The following were used in the experiments: fulvic acids, a standard substance containing active ingredients. 90%, made in China; boric acid (H3BO3), chemical grade; ammonium molybdate ((NH4)6Mo7O4*4H2O), chemical grade; cobalt nitrate (Co(NO3)2), chemical grade.

The compatibility of the solution mixture was previously studied, as well as the compactness of the solutions before final dilution, the stability of the composition and storage stability.

Working solutions were prepared for the preparation of tank mixtures of foliar feeding:

An aqueous solution of fulvic acids with a concentration of 0.0025% wt. prepared on the day of feeding.

An aqueous solution containing a mixture of boric acid - 0.01% wt. cobalt nitrate - 0.0025% wt. ammonium molybdate - 0.004%. The solution was prepared 2 weeks before feeding.

When mixed and diluted as part of a tank mixture, the resulting liquid was stable without precipitation.

To assess the biological effect of development in 2021-2022. field experiments were carried out with winter wheat variety Scepter and a mixture of annual grasses, pea variety Tyumen fodder, oats variety Konkur and barley variety Pamyati Chepeleva on sod-fine-podzolic medium loamy soils in the conditions of the Perm region on the experimental field of the Federal State Budgetary Educational Institution of Higher Education Perm State Technical University located (57°55'16.5 ''N 56°21'16.2''E) (field experiment 1) and at the agricultural site of the Perm Research Institute of Agriculture branch of the PFIC Ural Branch of the Russian Academy of Sciences in 2022 located (57°48'53.37''N 56°15'01.70''E) (field experience 2).

In the experiments, foliar feeding of plants was carried out during the booting phase of grain crops using backpack sprayers according to two-factor schemes. Experiment 1: factor A - addition of fulvic acids: AO - 0; Al - 14 g/ha; factor B - application of a mixture of microfertilizers (boric acid, ammonium molybdate, cobalt nitrate): VO - without fertilizers (control); B1 - the main dose of microfertilizers: Co(NO3)2 - 20.8 g/ha, (NH4)2MoO4 - 33.3 g/ha, H3BO3 - 83.3 g/ha; B2 - reduced dose of microfertilizers: boric acid - 41.6 g/ha, cobalt nitrate - 10.4 g/ha, ammonium molybdate - 16.65 g/ha. Experiment 2: Factor A - nitrogen doses, kg a.i./ha: AO - 0; A1 - 15; A2 - 30; factor B - application of a mixture of microfertilizers: VO - without fertilizers (control); B1 - the main dose of microfertilizers: Co(NO3)2 - 20.8 g/ha, (NH4)2MoO4 - 33.3 g/ha, H3BO3 - 83.3 g/ha, fulvic acids 6 g/ha; B2 - reduced dose of microfertilizers: boric acid - 41.6 g/ha, cobalt nitrate - 10.4 g/ha, ammonium molybdate - 16.65 g/ha, fulvic acids 6 g/ha. Water consumption during spraying is 200 l/ha. In experiment 1, urea was introduced in all variants at a dose of 15 kg a.i./ha.

The results of field experiments are shown in tables 1-3. It has been established that the combination of fulvic acids, boron, molybdenum and cobalt in a reduced dose in nitrogen fertilizing leads to an increase in the yield of green mass of barley-oat-pea mixture by 5.7 t/ha (NSR05 = 3.0 t/ha).

The introduction of a complex of microelements into fertilizing, even without urea, increased the yield of wheat grain by (0.39-0.84) t/ha (NSR05 = 0.71), which indicates a possible contribution to the improvement of nitrogen root nutrition due to the involvement of microelements in biochemical processes through leaf surface of plants.

When comparing doses of microfertilizers, it was found that against the background of a sufficient supply of mobile forms of micro- and macroelements in the soil, a reduced dose of microfertilizers with fulvic acids has a positive effect, increasing the yield of winter wheat by 0.52 t/ha (NSR05 = 0.41), up to 5. 34 t/ha.

Foliar feeding with microelements in a reduced dose increased the protein and gluten content in wheat grain. The increase in protein was 0.8% wt. (NSR05=0.4%). When analyzing partial differences on a nitrogen-free background, an increase in protein from the addition of a complex of microelements was noted by (2.4-3.2) wt.% (NSR05 = 0.7%).

Claims (1)

A method for increasing the yield of field crops in the non-chernozem zone, which involves foliar feeding for grain crops in the booting phase, for legumes and legumes - in the budding phase, with a composition of biologically active substances in the form of an aqueous solution containing fulvic acids at a dose of 6-14 g/ha, boric acid H ₃ VO ₃ - 41.6 g/ha, cobalt nitrate Co(NO ₃ ) ₂ - 10.4 g/ha, ammonium molybdate (NH ₄ ) ₂ MoO ₄ - 16.7 g/ha with water consumption at spraying 200-300 l/ha.