RU2820870C1 - Composition and method of producing liquid organomineral fertilizer - Google Patents

Abstract

FIELD: fertilizers.

SUBSTANCE: invention relates to industrial production of fertilizers for agriculture, namely to production of liquid organomineral fertilizers. Method of producing liquid organomineral fertilizer to increase crop yield provides for preparation of 1 l of the composition, into a mechanical mixer to 600 ml of water with constant stirring added are 300 ml of a humate preparation, 50 ml of buckwheat husk extract, 50 ml of liquid beet molasses, 10 ml of a solution of microfertilizers with boric acid or ammonium molybdate. At the last stage, 10 ml of a liquid culture of the endophytic bacterium Bacillus mojavensis strain PS17 and 5 ml of unrefined vegetable oil are added to the suspension for a stirring total duration of 30 minutes.

EFFECT: proposed method of producing liquid organomineral fertilizer extends the range of agents for optimizing mineral nutrition, stimulating plant growth and development, as well as for increasing crop yield.

1 cl, 1 dwg, 1 tbl, 1 ex

Description

The invention relates to the field of industrial production of fertilizers for agriculture, namely to the production of liquid organomineral fertilizers based on liquid potassium humate obtained from vermicompost with the addition of beet molasses, endophytic bacteria, aqueous extract from buckwheat husks, a solution of microelements and vegetable oil using an installation with continuous stirring.

Liquid fertilizers based on various humic substances are among the most promising types of organomineral fertilizers [1]. The high efficiency of such fertilizers has been shown on various crops [2,3]. At the same time, due to the growth-stimulating activity of humic substances, not only an increase in yield is noted, but also in the quality of the resulting products. In recent years, liquid humic fertilizers with the addition of various microelements, belonging to the group of organomineral fertilizers, have become increasingly widespread [4,5]. There is information about increasing the efficiency of using humic fertilizers with the addition of various microorganisms, in particular bacteria [6,7].

Husk is a waste product from the production of cereals from buckwheat grain, which contains a significant amount of valuable substances, in particular melanin and pectins [8]. Beet molasses also contains melanin and substances that have a growth-stimulating effect on plants [9]. Melanin has an anti-stress effect against not only plants, but also microorganisms, in particular, it protects bacteria from the effects of various types of radiation [10]. This effect is essential for the survival of beneficial bacteria when biological products are applied to the surface of plant leaves under conditions of exposure to sunlight.

Vermicompost (vermicompost), which is a product of processing organic materials by various types of earthworms, can be a source of humic fertilizers. The high efficiency of using liquid humic fertilizers from vermicompost when processing plants on grain crops has been shown [11].

The composition and method for producing liquid humic fertilizer from vermicompost and peat are known, with the isolation of humic substances in an aqueous alkali solution and subsequent addition of various microelements to the filtered suspension, resulting in a preparation that is highly effective on various crops [12]. The disadvantage of this composition is the absence of microorganisms and growth-stimulating substances in its composition.

There is a known method for producing organomineral fertilizer by preparing a water-peat mixture, followed by treatment with alkali and the addition of chicken manure as a source of nutrients [13]. The disadvantages of this composition is the use of chicken manure as a source of nutrients, the chemical composition of which may vary. The drug contains no growth stimulants or microorganisms.

There is a known method for producing liquid humic fertilizer, which involves mixing humic-containing material with a 1.5-2.0% aqueous solution of caustic potassium three times, settling the suspension and separating the liquid fraction, and the source of humic substances is the waste from the production of a liquid-phase biological product for plant growing and agriculture [14 ]. The disadvantage of this method is that in this fertilizer the source of microelements is the raw material itself, the composition of which can vary.

There is a known method for producing humic fertilizer [15]. The disadvantage of this method is the absence of growth stimulants and microorganisms in the composition.

The closest to the proposed invention is a well-known organomineral fertilizer, which is characterized by the fact that a liquid humic extract is added to a solution of mineral fertilizers (urea, microfertilizers), which makes it possible to create chelate complexes of humic substances with the necessary microelements of plant nutrition [16]. This fertilizer is suitable for organic production. The disadvantage of this composition and the method of its preparation is that during its production beneficial bacteria and growth stimulants are not added to the composition.

The objective of the claimed invention is to develop a composition and method for producing liquid organomineral fertilizer, the application of which to plants by spraying will help stimulate plant growth, reduce the development of diseases and increase crop yields.

The technical result is achieved by the fact that during the production of organomineral fertilizer there is a sequential mixing of a liquid humate composition, a solution of microelements, an aqueous extract from buckwheat husks, beet molasses and vegetable oil with the addition of a culture of the endophytic bacterium Bacillus mojavensis at the last stage using an installation (mixer) with constant stirring .

As a source of organic substances, a liquid humate composition was used, obtained by alkaline extraction from vermicompost (mass fraction of humic substances - 10-12%).

Beet molasses served as an additional source of organic substances. The dry matter content was 80%. The nitrogen content is about 1.5-2%, betaines - 4-7%.

An aqueous extract from buckwheat husks, obtained by extraction with boiling water, acted as an additional source of physiologically active substances. The extraction was carried out according to the following scheme: 100 ml of boiling water was used per 10 g of buckwheat husk, followed by extraction with constant stirring for 1 hour and filtering through a filter.

Unrefined vegetable (sunflower) oil was used as a liquid stabilizer and preservative.

A culture of the endophytic bacterium Bacillus mojavensis strain PS 17 was used as a source of beneficial microorganisms [17].

A 4% solution of boric acid or a 1% solution of ammonium molybdate (NH ₄ ) ₂ MoO ₄ ) was used as a solution of trace elements.

To prepare 1 liter of fertilizer with constant stirring in a mixer, 300 ml of a humate preparation, 50 ml of buckwheat husk extract, 50 ml of liquid molasses, and 10 ml of a solution of microelements were added to 580 ml of water. At the last stage, 10 ml of a liquid culture of the endophytic bacterium Bacillus mojavensis strain PS 17 (titer 5×10 ⁹ CFU/ml) was added. For preservation, vegetable oil was used at a rate of 5 ml.

The method of obtaining organomineral fertilizer is as follows. The full rate of humate preparation was added to a mechanical stirrer with constant stirring, then the required amount of aqueous extract of buckwheat husk and molasses was added, followed by stirring for 10 minutes. After this, with constant operation of the mixer, a solution of trace elements and a bacterial culture were added. The total mixing time was 30 minutes. At the last stage, vegetable oil was added. The output was a homogeneous brown liquid (photo 1). The studies showed that the liquid retained its stability (no sediment formed) for a long time (at least 30 days).

The resulting organomineral fertilizer contained at least 3-5% humic substances.

Example 1

Results of field experiments

The object of research is spring barley of the Raushan variety.

Experience scheme:

1. Control - without applying fertilizers.

2. Standard humic fertilizer, 1 l/ha.

3. Experimental organomineral fertilizer, 0.5 l/ha.

4. Experimental organomineral fertilizer, 1.0 l/ha.

5. Experimental organomineral fertilizer, 1.5 l/ha.

The total area of the plot is 26 ^m2 , the accounting area is 20.0 ^m2 . The experiment was repeated four times. Agrotechnology for cultivating spring barley is generally accepted for the Predkamye zone of the Republic of Tatarstan. Fertilizers in the form of ammophosphate (100 kg/ha) were applied before sowing for pre-sowing cultivation. The weather conditions in 2023 were dry and not favorable enough for the growth and development of spring barley.

The yield assessment results are presented in Table 1.

Table 1. Yield of spring barley of the Raushan variety when using experimental organomineral fertilizer, t/ha, 2023

Option Productivity, t/ha Yield increase t/ha % Control 2.05 Standard, 1 l/ha 2.19 0.14 6.8 Experimental WMD, 0.5 l/ha* 2.24 0.19 9.3 Experimental WMD, 1.0 l/ha 2.36 0.31 15.1 Experimental WMD, 1.5 l/ha 2.44 0.39 19.0 NSR ₀₅ 0.09 Note: experimental OMU - organomineral fertilizer; ** - the difference in yield is not significant compared to the control.

The use of experimental organomineral fertilizer with rates of 0.5-1.5 l/ha contributes to a significant increase in yield compared to the control. A reliable increase in yield compared to the standard was observed when using a norm of 1-1.5 l/ha. The highest yield was obtained when using organomineral fertilizer with a rate of 1.5 (the increase over the control was 28.5%).

List of used literature

1. Zamyatin, S.A. The influence of liquid humic fertilizer "Ekorost" on the grain yield of spring wheat and its quality / S.A. Zamyatin, V.M. Izmestyev, V.R. Gabdullin // Bulletin of the Mari State University. Series: Agricultural Sciences. Economic Sciences. - 2017. - T. 3, No. 3(11). - pp. 23-28.

2. Efficiency of using liquid humic fertilizer Gumavit in spring barley crops / S.N. Rodionov, S.A. Rodionova, N.Yu. Petrov [and others] // News of the Nizhnevolzhsky Agro-University Complex: Science and higher professional education. - 2022. - No. 1(65). - pp. 219-227. - DOI 10.32786/2071-9485-2022-01-21.

3. Filipchenko, S. V. Efficiency of the complex liquid organic humic fertilizer Gumistim in the cultivation of spring grain crops / S. V. Filipchenko, S. V. Kravtsov // Strategy and priorities for the development of agriculture and selection of field crops in Belarus: Materials of the International Scientific- practical conference dedicated to the 90th anniversary of the founding of the Republican Unitary Enterprise "Scientific and Practical Center of the National Academy of Sciences of Belarus for Agriculture", Zhodino, July 05-06, 2017. - Zhodino: Information Computing Center of the Ministry of Finance, 2017. - pp. 109-112.

4. Liquid humic fertilizers with microelements / T. Ya. Kashinskaya, A. P. Gavrilchik, V. V. Lapa [etc.] // Nature management. - 2009. - No. 15. - P. 231-235.

5. Sosnovskaya, N.E. Liquid microelement fertilizers containing peat humic substances, copper and zinc / N.E. Sosnovskaya, I.I. Kovrik, S.A. Kushnerova // Problems of transformation of natural landscapes as a result of anthropogenic activities and ways to solve them: Collection of scientific papers based on the materials of the International Scientific Environmental Conference dedicated to the Year of Science and Technology, Krasnodar, March 29-31, 2021. - Krasnodar: Kuban State Agrarian University named after I.T. Trubilina, 2021. - pp. 53-56. - EDN XIRJAS.

6. The influence of the introduction of agronomically valuable bacteria on the growth-stimulating activity of liquid humic fertilizer Vermix / Z. M. Aleshchenkova, S. L. Maksimova, I. N. Ananyeva, P. V. Rybaltovskaya // Biologically active preparations for crop production: scientific justification - recommendations - practical results: materials of the XVI International Scientific and Practical Conference, Minsk, October 22, 2020. - Minsk: Belarusian State University, 2020. - pp. 27-29.

7. Rybaltovskaya, P.V. Introduction of phosphate-mobilizing bacteria into the microbiocenosis of liquid humic fertilizer / P.V. Rybaltovskaya // Youth in Science - 2020: Abstracts of the XVII International Scientific Conference, Minsk, September 25, 2020 / Editorial Board: V.G. Gusakov (chief editor) [and others]. - Minsk: Republican Unitary Enterprise "Publishing House "Belarusian Science", 2020. - P. 231-233.

8. Shkolnikova, M.N. Study of the composition of buckwheat husk / M.N. Shkolnikova, E.A. Kadritskaya // Food. Ecology. Quality: proceedings of the XVII International Scientific and Practical Conference, Novosibirsk, November 18-19, 2020. - Ekaterinburg: Ural State Economic University, 2020. - pp. 732-735.

9. Ma S.L. Treatment with glycine betaine reduces the harmful effects of drought on tobacco plants / S.L. Ma, Y.C. Wang, S.L. Xi [et al.] // Plant Physiology. - 2007. - T. 54. - No. 4. - P. 534-541.

10. Arsakhanova, G.A. Melanin in the structure of counteracting stress phenomena in the body/G.A. Arsakhanova // International Journal of Applied Sciences and Technologies “Integral”. - 2020. - No. 6. - P.38-44.

11. Kosenko, S.V. The influence of biofertilizer "Agroverm" on the process of germination of grain seeds / S.V. Kosenko, I.I. Pluzhnikova // Bulletin of the Altai State Agrarian University. - 2020. - No. 10(192). - pp. 19-23. - EDN VILBVM.

12. Patent No. 2181710 C1 Russian Federation, IPC C05F 11/02, C05F 3/00. LIQUID HUMIC FERTILIZER AND METHOD FOR ITS OBTAINING: No. 2000120893/13: appl. 08/09/2000, publ. 04/27/2002 / K.V. Mitrofanova, E.E. Volodin, E.I. Smyshlyaev [and others]; applicant CJSC "Ryazan Cardboard and Ruberoid Plant".

13. Patent No. 2015949 C1 Russian Federation, IPC C05F 3/00, C05F 11/02. METHOD FOR OBTAINING LIQUID COMPLEX HUMIC FERTILIZER: No. 5019009/15: appl. 12/26/1991, publ. 07/15/1994 / A.N. Trofimov.

14. Patent No. 2520144 C1 Russian Federation, IPC C05F 3/00, C05F 11/02. METHOD FOR OBTAINING LIQUID HUMIC FERTILIZER: No. 2013101108/13: appl. 01/09/2013, publ. 06.20.2014 / N.V. Fomicheva, G.Yu. Rabinovich; applicant State scientific institution All-Russian Scientific Research Institute for Agricultural Use of Reclaimed Lands of the Russian Academy of Agricultural Sciences (GNU VNIIMZ Rosselkhozakademii).

15. Patent No. 2635449 C Russian Federation, IPC C05F 3/00, C05F 11/00. METHOD FOR PRODUCING HUMIC FERTILIZER BASED ON BIOHUMUS: No. 2017109318: app. 03/20/2017, publ. 11/13/2017 / V.D. Velichko, A.V. Zhdanov, I.V. Cherkin.

16. Patent No. 2792354 C1 Russian Federation, IPC C05F 11/02, C05D 9/02, C05G 1/00. METHOD FOR OBTAINING ORGANOMINERAL COMPLEX FERTILIZER: No. 2022106700: appl. 03/15/2022, publ. 03/21/2023 / A.S. Brichkov.

17. Patent No. 2737208 C1 Russian Federation, IPC C12N 1/20, A01N 63/00, C12R 1/07. BACILLUS MOJAVENSIS PS17 BACTERIAL STRAIN TO INCREASE PRODUCTIVITY AND PROTECT AGRICULTURAL PLANTS FROM PHYTOPATHOGENIC FUNGI: No. 2019141759: appl. 12/13/2019, publ. 11.26.2020 / R.I. Safin, L.Z. Karimova, Sh.Z. Validov [and others]; applicant Federal State Budgetary Educational Institution of Higher Education "Kazan State Agrarian University" (FSBEI HE Kazan State Agrarian University). - EDN ERMTIX.

Claims (1)

A method for producing liquid organomineral fertilizer to increase the yield of agricultural crops, characterized by the fact that to obtain 1 liter of the composition, 300 ml of a humate preparation, 50 ml of buckwheat husk extract, 50 ml of liquid beet molasses were added to a mechanical mixer with 600 ml of water with constant stirring, 10 ml of a solution of microfertilizers with boric acid or ammonium molybdate and at the last stage, 10 ml of a liquid culture of the endophytic bacterium Bacillus mojavensis strain PS17 and unrefined vegetable oil at a rate of 5 ml were added to the suspension, with a total mixing time of 30 minutes.