RU2788705C1 - Method for obtaining herbicide from the products of fusarium oxysporum, streptomyces hygroscopicus and lactic acid bacteria - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: the invention relates to agriculture, namely to microbial preparations for plant protection. The herbicidal composition for crops contains a mixture of culture fluid of the fungus Fusarium oxysporum, culture fluid of Streptomyces spp after their filtration and culture fluid of the bacteria Lactococcus and Lactobacillus in a ratio of 1:1:1, while the concentration of microorganisms in the culture fluid is at least 108 CFU/ml. The herbicidal composition is used to control non-perennial weeds, when a working solution is prepared by diluting the herbicidal composition in water and spraying corps with it. Spraying is carried out in the period, when non-perennial weeds are in the early stages of growth, and corps ahead of them in development, or during the period after planting crops, but before emergence of seedlings.

EFFECT: the use of herbicidal composition increases the effectiveness of protection of corps against weeds when processing seedlings, does not have a negative impact on the environment.

3 cl, 9 ex

Description

The technical field to which the invention belongs

The invention relates to agricultural biotechnology. It can be used in the field of plant protection, in particular in the control of unwanted vegetation.

State of the art

The use of biological plant protection products is widely known at the present time. Bioherbicides for their production involve the use of microorganisms. Their main advantages are biodegradability, no environmental pollution, high specificity. The use of drugs based on living organisms makes it difficult to develop resistance in the target. There are two groups of bioherbicides: based on living organisms and based on their metabolites.

The authors of patent RU2577970 propose to use bacteria of the genus Burkholderia, non-pathogenic for animals, as a herbicide. Specified in the patent strain NRRL No. B-50319 produces protein compounds and low molecular weight compounds that act on monocotyledonous cereals, sedge or dicotyledonous weeds.

The decision according to the patent RU 2515899 provides for the use of a strain of the fungus Stagonospacirsii Davis against a common weed - the wild thistle field. A bioherbicide is a conidial suspension that is applied to weeds. The use of a live pathogen is due to its specificity to the field fenugreek and safety for certain crops.

The disadvantage of this approach is the difficulty in selecting a safe strain. The use of metabolites of living organisms opens up great opportunities in the development of drugs in terms of coverage of affected objects and herbicidal activity.

A herbicide derived from the culture broth of Streptomyces griseolus is described in CN101243792. The basis for the biocidal composition is a concentrated butanol extract, which is diluted with organic solvents with the addition of surfactants.

The invention CN1857079 describes the preparation of a herbicide for the protection of rice plantings using the waste products of fungi of the genus Bipolaris. Isolation of a group of active substances is carried out by extraction of the culture liquid with ethyl acetate and its subsequent evaporation.

Extraction with organic solvents of the culture liquid of the fungi Paecilomyces lilacinus CN111592987 also makes it possible to isolate substances with herbicidal properties. They inhibit the growth of both aboveground and underground parts of plants and slow down the germination of seeds. Also known is the herbicide Bialofos (Bilanafos) isolated from culture filtrates of Streptomyces hygroscopicus (Japanese Patent Application JP No. 23282/1984), which is a continuous biological herbicide.

The closest analogue is the decision according to the patent CN101736032, which proposes to use toxins isolated from the culture broth of Fusarium oxysporum as herbicides. The herbicide production process is carried out in several stages: preparation of the growth medium, inoculation of the Fusarium oxysporum strain, cultivation, extraction of the toxin with sodium hydroxide solution and centrifugation, drying of the extract to obtain a solid or powdered toxin. Further, for use as a continuous herbicide, the solid powder of the toxin is diluted with water and sprayed on the fields 10-15 days before sowing or transplanting crops.

Significant disadvantages of this solution are:

- the complexity of extracting the toxin, associated with the need to use alkali and centrifugation, as well as evaporation of a large amount of water to obtain a solid product;

- the possibility of using the toxin only as a herbicide of continuous action.

Disclosure of the proposed technical solution

The developers were faced with the task of creating a biological herbicide devoid of the disadvantages described above, with minimal labor costs, and, accordingly, with minimal cost. Also, the task was to obtain an effective post-emergence herbicide, which makes it possible to protect cultivated plants at the initial stages of their growth.

Many variants of exotoxin-producing microorganism waste products were tested, and unexpectedly for researchers, the use of Fusarium oxysporum and Streptomyces hygroscopicus culture products together with lactic acid bacteria culture products showed the best results. The independent use of Fusarium oxysporum and Streptomyces hygroscopicus culture products also made it possible to obtain acceptable results, but with somewhat less efficiency.

Thus, the present invention proposes the preparation of a herbicide based on the filtered culture liquid of Fusarium oxysporum, Streptomyces hygroscopicus and lactic acid bacteria or the filtered culture liquid of Fusarium oxysporum and Streptomyces hygroscopicus, a method for its production, as well as use as a sprouting herbicide.

The technical result of the invention is the effective suppression of weed seedlings during the treatment of seedlings of the target plants.

Implementation of the invention

The drug was obtained in the following way:

In a 100 L fermenter, a culture of the fungus Fusarium oxysporum was grown on a medium of the following composition: yeast extract 10 g/L, molasses 10 g/L, dibasic potassium phosphate 1 g/L, cultivation temperature 24°C, aeration 1 L of air per 1 liter of medium. Cultivation was carried out for 48 hours to a concentration of 10 ⁸ CFU/ml. At the end of cultivation, the culture liquid was fed to a filtration system (centrifuge and subsequent microfilter (Millipore with 0.2 μm pores)), where the Fusarium oxysporum biomass was completely filtered out, and the remaining liquid without cells and spores was used as the first component of the herbicide.

The safety of the resulting product can also be ensured by carrying out an additional stage of inactivation of Fusarium oxysporum as a pathogen by autolysis, enzymatic lysis, hydrolysis, defrostration, destruction by ultrasonic exposure, thermal and mechanical destruction. However, two-stage filtration was chosen as the most technologically advanced and providing a guaranteed result in obtaining a composition according to the invention used as a herbicide.

Then, in a fermenter of 100 liters, a culture of Streptomyces hygroscopicus was grown on a medium of the following composition: peptone 15 g/l, yeast extract 5 g/l, glucose 15 g/l, ammonium citrate 2 g/l, dipotassium phosphate 1 g/l. Cultivation is carried out at a temperature of 28°C for 48 hours with aeration of 0.5 l/l of medium to a concentration of 10 ⁸ CFU/ml. At the end of the process, the culture was filtered from the mycelium and spores of Streptomyces hygroscopicus in two stages, as described above for Fusarium oxysporum, and the metabolic products were used to prepare the herbicide.

Further in the fermenter 100 l. cultures of Lactococcus and Lactobacillus bacteria were grown (Lactococcus lactis, Lactobacilluscasei, Lactobacillus acidophilus were used, which showed similar results) on the medium of the following composition: yeast extract 10 g/l, molasses 30 g/l, dipotassium phosphate 1 g/l, cultivation temperature 37°C . Cultivation was carried out for 36 hours to a concentration of 10 ⁹ CFU/ml, after which the culture liquid of lactic acid bacteria (without their removal) was mixed with filtered metabolites of Fusarium oxysporum and Streptomyces hygroscopicus, obtained in the above manner, in a ratio of 1:1:1. This formulation was used as a post-emergence herbicide (working name Deitromycin).

Example 1

Work on spring barley varieties Viscount 2021 (KFH Komkov Alexey Ivanovich, Krasnodar Territory, Krupsky farm).

Experimental field 1:1 ha of spring barley in the tillering phase, mono- and dicotyledonous annual weeds in the cotyledon phase - 2 true leaves. Experimental field 2:1 ha of spring barley in the tillering phase, mono- and dicotyledonous annual weeds in the cotyledon phase - 2 true leaves.

For 1 sq. m experimental field 1 before processing grew in total
68 weeds belonging to the following species: white gauze, upturned amaranth, yellow amaranth, tripartite ragweed, gray foxtail, green foxtail, chicken millet, purple lamb. Wintering and perennial weeds (wheatgrass, calendula, tenacious bedstraw, etc.) were not observed. For 1 sq. m experimental field 2 before processing grew a total of 65 weeds belonging to the same species.

2 l. the drug Deitromycin was diluted in 100 liters. working fluid (water), after which experimental field 1 was treated with a trailed sprayer OP-2000 with a working fluid flow rate of 100 l/ha. The processing was carried out on April 15, 2021.

On the 7th day after treatment, 64 weeds per 1 sq.m were noticeably suppressed. On the 14th day, their wilting is clearly visible, the same 64 weeds per 1 sq.m had signs of wilting. At the same time, 6 more weeds sprouted per 1 sq.m, but they no longer competed with cultivated plants, and 4 surviving weeds did not bring significant damage to barley crops.

Experimental field 2 was treated with filtered Fusarium oxysporum metabolites at a dosage of 1 l/ha and a working fluid flow rate of 100 l/ha. The treatment was carried out using a trailed sprayer OP-2000 also on April 15, 2021.

On the 7th day after treatment, 52 weeds per 1 sq.m were noticeably suppressed. On the 14th day, their wilting is clearly visible, the same 52 weeds per 1 sq.m had signs of wilting. At the same time, 8 more weeds sprouted per 1 sq.m, but they no longer competed with cultivated plants, and 13 surviving weeds did not bring such damage to barley crops as the initial 65. The efficiency should be considered lower compared to the variant with a complex preparation with the addition of lactic acid bacteria, but also industrially significant.

Example 2

Work on sunflower varieties Aris 2021 (KFH Komkov Alexey Ivanovich, Krasnodar Territory, Krupsky farm).

Experimental field 1 as of April 29, 2021: 1 ha of sunflower in the phase of 2-3 pairs of true leaves, single and dicotyledonous annual weeds in the phase of cotyledons - 2 true leaves. Experimental field 2: 1 ha of sunflower in the phase of 2-3 pairs of true leaves, monocotyledonous and dicotyledonous annual weeds in the phase of cotyledons - 2 true leaves.

For 1 sq. m of experimental field 1, before processing, a total of 74 weeds grew, belonging to the following species: white gauze, upturned amaranth, yellow amaranth, three-parted ragweed, gray foxtail, green foxtail, chicken millet, purple lamb. Overwintering and perennial weeds (wheatgrass, calendula, etc.) were not observed. For 1 sq. m experimental field 2 before processing grew a total of 72 weeds belonging to the same species.

2 liters of Deitromycin were diluted in 100 liters of working fluid (water), after which experimental field 1 was treated with the drug using a trailed sprayer OP-2000 with a working fluid flow rate of 100 l/ha. The processing was carried out on April 29, 2021.

On the 7th day after treatment, 69 weeds per 1 sq.m were noticeably suppressed. On the 14th day, 68 weeds per 1 sq.m showed signs of wilting. At the same time, 9 more weeds sprouted per 1 sq.m, but they no longer competed with tall sunflower, and 5 surviving weeds did not cause significant damage to sunflower crops.

Experimental field 2 was treated with filtered Fusarium oxysporum metabolites at a dosage of 1 l/ha and a working fluid flow rate of 100 l/ha. Processing was carried out using a trailed sprayer OP-2000 also on April 29, 2021.

On the 7th day after treatment, 56 weeds per 1 sq.m were noticeably suppressed. On the 14th day, 56 weeds per 1 sq.m showed signs of wilting. At the same time, 8 more weeds sprouted per 1 sq.m. In general, the effectiveness of simply filtered metabolites of Fusarium oxysporum should be considered lower compared to the variant with a complex preparation with the addition of lactic acid bacteria, but also industrially significant.

Example 3

Work on winter wheat variety Yuka 2021 (IP Head of the KFH Akulov Oleg Valerievich, Krasnodar Territory, Tikhoretskoye district, Fastovets rural settlement).

Experimental field 1: 1 ha of winter wheat in the tillering phase, single and dicotyledonous annual weeds in the cotyledon phase - 2 true leaves. Experimental field 2: 1 ha of winter wheat in the tillering phase, single and dicotyledonous annual weeds in the cotyledon phase - 2 true leaves.

For 1 sq. m of the experimental field 1, before processing, a total of 72 weeds grew, belonging to the following species: field mustard, white gauze, upturned amaranth, sapweed, ragweed tripartite, green foxtail, wild oat, purple lamb, speedwell. Wintering and perennial weeds (wheatgrass, thistle, tenacious bedstraw, etc. were not noted). For 1 sq. m experimental field 2 before processing grew a total of 69 weeds belonging to the same species.

2 liters of Deitromycin were diluted in 100 liters of working fluid (water), after which experimental field 1 was treated with the drug using a trailed sprayer OP-2000 with a working fluid flow rate of 100 l/ha. Processing was carried out on April 10, 2021.

On the 7th day after treatment, 72 weeds per 1 sq.m were noticeably suppressed, but more sprouted: 2 upturned amaranth, 1 sapling-leaved amabrosia, 4 tripartite ragweed. On the 14th day, the wilting of 67 treated weeds is clearly visible, but more sprouted: 1 upturned amaranth, 1 sapling-leaved amabrosia, 2 tripartite ragweed. On day 21 - the same 72 weeds per 1 sq.m showed signs of wilting. At the same time, 11 weeds of different species that have sprouted per 1 sq.m will no longer compete with cultivated plants, and 5 surviving weeds will not cause significant damage to barley crops.

Experimental field 2 was treated with filtered metabolites of Streptomyces hygroscopicus at a dosage of 2 l/ha and a working fluid flow rate of 100 l/ha. Processing was carried out using the trailed sprayer OP-2000 also on April 10, 2021.

On the 7th day after treatment, 58 weeds per 1 sq.m were noticeably suppressed. On the 14th day, their wilting is clearly visible, the same 58 weeds per 1 sq.m had signs of wilting. At the same time, 12 more weeds sprouted per 1 sq.m, but they will no longer compete with cultivated plants, and 11 surviving weeds will not bring such damage to barley crops as the original 69. The efficiency should be considered lower compared to the variant with a complex preparation with the addition of lactic acid bacteria, but also industrially significant.

Example 4

Work on corn hybrid ZP 434, 2021 (IP Head of the KFH Akulov Oleg Valerievich, Krasnodar Territory, Tikhoretskoye district, Fastovets rural settlement).

Experimental field 1 as of May 12, 2021: 1 ha of corn in the phase of 3-4 true leaves, single and dicotyledonous annual weeds in the phase of cotyledons - 2 true leaves. Experimental field 2: 1 ha of corn in the phase of 3-4 true leaves, one- and dicotyledonous annual weeds in the phase of cotyledons - 2 true leaves.

For 1 sq. m of experimental field 1, before processing, a total of 78 weeds grew, belonging to the following species: white gauze, upturned amaranth, honey amaranth, tripartite ragweed, gray foxtail, green foxtail, chicken millet, purple lamb, wild oats, field mustard. Wintering and perennial weeds (wheatgrass, thistle, field bindweed, etc. were not noted). For 1 sq. m experimental field 2 before processing grew a total of 74 weeds belonging to the same species.

2 liters of Deitromycin were diluted in 100 liters of working fluid (water), after which experimental field 1 was treated with the drug using a trailed sprayer OP-2000 with a working fluid flow rate of 100 l/ha. Processing was carried out on May 12, 2021.

On the 7th day after treatment, 70 weeds per 1 sq.m were noticeably suppressed. On the 14th day, 70 weeds per 1 sq.m showed signs of wilting. At the same time, 8 more weeds sprouted per 1 sq.m, but they will no longer be able to compete with tall sunflower, and 8 surviving weeds will not cause significant damage to corn crops.

For 1 sq. m of the experimental field 2, before processing, a total of 68 weeds grew, belonging to the following species: white gauze, upturned amaranth, yellow amaranth, tripartite ragweed, gray foxtail, green foxtail, chicken millet, purple lamb, wild oats, field mustard. Wintering and perennial weeds (wheatgrass, thistle, field bindweed, etc. were not noted).

Experimental field 2 was treated with filtered metabolites of Streptomyces spp. with a dosage of 2 l/ha and a flow rate of the working fluid of 100 l/ha. Processing was carried out using the trailed sprayer OP-2000 also on May 12, 2021.

On the 7th day after treatment, 55 weeds per 1 sq.m were noticeably suppressed. On the 14th day, 55 weeds per 1 sq.m showed signs of wilting. At the same time, 12 more weeds sprouted per 1 sq.m. In general, the effectiveness of simply filtered metabolites of Streptomyces hygroscopicus should be considered lower compared to the variant with a complex preparation with the addition of lactic acid bacteria, but also industrially significant.

Example 5

Work on winter wheat varieties Yuka 2021 (IP Head of the KFH Podkopaev Alexander Nikitovich, Krasnodar Territory, Tikhoretskoye district, Krutoe rural settlement).

Experimental field 1: 1 ha of winter wheat in the tillering phase, single and dicotyledonous annual weeds in the cotyledon phase - 2 true leaves. Experimental field 2: 1 ha of winter wheat in the tillering phase, single and dicotyledonous annual weeds in the cotyledon phase - 2 true leaves.

For 1 sq. m of experimental field 1, before processing, a total of 72 weeds grew, belonging to the following species: field mustard, white gauze, upturned amaranth, cumindolinous amabra, tripartite ragweed, green foxtail, wild oat, purple lamb, speedwell. Wintering and perennial weeds (wheatgrass, thistle, tenacious bedstraw, etc. were not noted). For 1 sq. m experimental field 2 before processing grew a total of 69 weeds belonging to the same species.

2 liters of Deitromycin were diluted in 100 liters of working fluid (water), after which experimental field 1 was treated with the drug using a trailed sprayer OP-2000 with a working fluid flow rate of 100 l/ha. Processing was carried out on April 10, 2021.

On the 7th day after treatment, 72 weeds per 1 sq.m. were noticeably suppressed, but 2 more upturned amaranth, 1 omnidolous amabrosia, 4 tripartite ragweed sprouted. On the 14th day, the withering of 67 treated weeds was clearly noticeable: 1 upturned amaranth, 1 sapling-leaved amabrosia, 2 tripartite ragweed. On day 21 - the same 72 weeds per 1 sq.m showed signs of wilting. At the same time, 11 weeds of different species that have sprouted per 1 sq.m will no longer compete with cultivated plants, and 5 surviving weeds will not cause significant damage to barley crops.

Experimental field 2 was treated with filtered Fusarium oxysporum metabolites at a dosage of 1 l/ha and a working fluid flow rate of 100 l/ha. Processing was carried out using the trailed sprayer OP-2000 also on April 10, 2021.

On the 7th day after treatment, 58 weeds per 1 sq.m were noticeably suppressed. On the 14th day, their wilting is clearly visible, the same 58 weeds per 1 sq.m had signs of wilting. At the same time, 12 more weeds sprouted per 1 sq.m, but they will no longer compete with cultivated plants, and 11 surviving weeds will not bring such damage to barley crops as the original 69. The efficiency should be considered lower compared to the variant with a complex preparation with the addition of lactic acid bacteria, but also industrially significant.

Example 6

Work on corn hybrid ZP 434, 2021 (IP Head of the KFH Akulov Oleg Valerievich, Krasnodar Territory, Tikhoretskoye district, Fastovets rural settlement).

Experimental field 1 as of May 12, 2021: 1 ha of corn in the phase of 3-4 true leaves, single and dicotyledonous annual weeds in the phase of cotyledons - 2 true leaves. Experimental field 2: 1 ha of corn in the phase of 3-4 true leaves, single and dicotyledonous annual weeds in the phase of cotyledons - 2 true leaves.

For 1 sq. m of experimental field 1, before processing, a total of 78 weeds grew, belonging to the following species: white gauze, upturned amaranth, honey amaranth, tripartite ragweed, gray foxtail, green foxtail, chicken millet, purple lamb, wild oats, field mustard. Wintering and perennial weeds (wheatgrass, thistle, field bindweed, etc. were not noted). 2 liters of Deitromycin were diluted in 100 liters of working fluid (water), after which experimental field 1 was treated with the drug using a trailed sprayer OP-2000 with a working fluid flow rate of 100 l/ha. Processing was carried out on May 12, 2021.

On the 7th day after treatment, 70 weeds per 1 sq.m were noticeably suppressed. On the 14th day, 70 weeds per 1 sq.m showed signs of wilting. At the same time, 8 more weeds sprouted per 1 sq.m, but they will no longer be able to compete with tall corn, and 8 surviving weeds will not cause significant damage to corn crops.

For 1 sq. m of the experimental field 2, before processing, a total of 68 weeds grew, belonging to the following species: white gauze, upturned amaranth, yellow amaranth, tripartite ragweed, gray foxtail, green foxtail, chicken millet, purple lamb, wild oats, field mustard. Wintering and perennial weeds (wheatgrass, thistle, field bindweed, etc. were not noted).

Experimental field 2 was treated with filtered Fusarium oxysporum metabolites at a dosage of 1 l/ha and a working fluid flow rate of 100 l/ha. Processing was carried out using the trailed sprayer OP-2000 also on May 12, 2021.

On the 7th day after treatment, 55 weeds per 1 sq.m were noticeably suppressed. On the 14th day, 55 weeds per 1 sq.m showed signs of wilting. At the same time, 12 more weeds sprouted per 1 sq.m. and 13 surviving weeds will not cause significant damage to corn crops. In general, the effectiveness of simply filtered metabolites of Fusarium oxysporum should be considered lower compared to the variant with a complex preparation with the addition of lactic acid bacteria, but also industrially significant.

Example 7

Work on winter barley variety Dobrynya 2021 (IP Head of the KFH Akulov Oleg Valerievich, Krasnodar Territory, Tikhoretskoye district, Fastovets rural settlement).

Experimental field 1: 1 ha of winter barley in the tillering phase, single and dicotyledonous annual weeds in the cotyledon phase - 2 true leaves. Experimental field 2: 1 ha of winter barley in the tillering phase, single and dicotyledonous annual weeds in the cotyledons - 2 true leaves.

For 1 sq. m of the experimental field 1, before processing, a total of 69 weeds grew, belonging to the following species: field mustard, white gauze, upturned amaranth, cumindolinous amabra, tripartite ragweed, green foxtail, wild oat, purple lamb, speedwell. Wintering and perennial weeds (wheatgrass, calendula, tenacious bedstraw, etc.) were not observed. For 1 sq. m experimental field 2 before processing grew a total of 66 weeds belonging to the same species.

2 liters of Deitromycin were diluted in 100 liters of working fluid (water), after which experimental field 1 was treated with the drug using a trailed sprayer OP-2000 with a working fluid flow rate of 100 l/ha. Processing was carried out on April 8, 2021.

On the 7th day after treatment, 64 weeds per 1 sq.m were noticeably suppressed, but 6 more weeds sprouted. On the 14th day, the withering of 64 treated weeds was clearly visible: 3 more weeds sprouted. On day 21 - the same 64 weeds per 1 sq.m showed signs of wilting. At the same time, 9 weeds of different species that have sprouted per 1 sq.m will no longer compete with cultivated plants, and 5 surviving weeds will not cause significant damage to barley crops.

Experimental field 2 was treated with filtered Fusarium oxysporum metabolites at a dosage of 1 l/ha and a working fluid flow rate of 100 l/ha. Processing was carried out using the trailed sprayer OP-2000 also on April 8, 2021.

On the 7th day after treatment, 55 weeds per 1 sq.m were noticeably suppressed. On the 14th day, their wilting is clearly visible, the same 55 weeds on the 21st day per 1 sq.m showed signs of wilting. At the same time, 10 more weeds sprouted per 1 sq.m, but they will no longer compete with cultivated plants, and 11 surviving weeds will not bring such damage to barley crops as the original 66. The efficiency should be considered lower compared to the variant with a complex preparation with the addition of lactic acid bacteria, but also industrially significant.

Example 8

Work on peas of the ZP 434 variety, 2021 (IP Head of the KFH Podkopaev Alexander Nikitovich, Krasnodar Territory, Tikhoretskoye District, Krutoe rural settlement).

Experimental field 1 as of May 2, 2021: 1 ha of peas in the phase of 3-5 true leaves, single and dicotyledonous annual weeds in the phase of cotyledons - 2 true leaves. Experimental field 2: 1 ha of peas in the phase of 3-5 true leaves, one- and dicotyledonous annual weeds in the phase of cotyledons - 2 true leaves.

For 1 sq. m of the experimental field 1, before processing, a total of 63 weeds grew, belonging to the following species: white gauze, upturned amaranth, yellow amaranth, tripartite ragweed, gray foxtail, green foxtail, chicken millet, purple lamb, wild oats, field mustard. Wintering and perennial weeds (wheatgrass, thistle, field bindweed, etc.) were not observed. 2 liters of Deitromycin were diluted in 100 liters of working fluid (water), after which experimental field 1 was treated with the drug using a trailed sprayer OP-2000 with a working fluid flow rate of 100 l/ha. Processing was carried out on May 12, 2021.

On the 7th day after treatment, 57 weeds per 1 sq.m were noticeably suppressed. On the 14th day, 57 weeds per 1 sq.m showed signs of wilting. At the same time, 7 more weeds sprouted per 1 sq.m, but they will no longer be able to compete with tall corn, and 6 surviving weeds will not cause significant damage to pea crops.

For 1 sq. m of experimental field 2, before processing, a total of 65 weeds grew, belonging to the following species: white gauze, upturned amaranth, honey amaranth, tripartite ragweed, gray foxtail, green foxtail, chicken millet, purple lamb, wild oats, field mustard. Wintering and perennial weeds (wheatgrass, thistle, field bindweed, etc.) were not observed.

Experimental field 2 was treated with filtered metabolites of Streptomyces hygroscopicus at a dosage of 2 l/ha and a working fluid flow rate of 100 l/ha. Processing was carried out using the trailed sprayer OP-2000 also on May 12, 2021.

On the 7th day after treatment, 51 weeds per 1 sq.m were noticeably suppressed. On the 14th day, 51 weeds per 1 sq.m showed signs of wilting. At the same time, 10 more weeds sprouted per 1 sq.m. and 14 surviving weeds will not cause significant damage to pea crops. In general, the effectiveness of simply filtered metabolites of Streptomyces hygroscopicus should be considered lower compared to the variant with a complex preparation with the addition of lactic acid bacteria, but also industrially significant.

Example 9

Sugar beet. Hybrid Nero, sowing date March 21, 2021, seedling emergence date: April 5, 2021. Place of experiment: Krasnodar Territory, Abinsk, production site of Biota LLC (Lineinaya St., vl. 20), plot 1 weave.

For 1 sq. m of the experimental plot before processing, a total of 43 weeds grew, belonging to the following species: white gauze, upturned amaranth, gray foxtail, green foxtail, chicken millet, purple lamb, wild oats. Wintering and perennial weeds (wheatgrass, thistle, field bindweed, etc.) were not noted).

Treatment with a mixture of Fusarium oxysporum and Streptomyces hygroscopicus at the rate of 2 l/ha April 2, 2021 On April 10, the weeds were visibly suppressed, partially turned yellow, the sprouts were sugar-sweet without noticeable oppression.

It should be noted that no significant inhibition of cultivated plants was noted in any of the experimental fields, which, according to the researchers, is explained by the later growth phase of cultivated plants compared to weeds. The selected concentration of the active substance turned out to be fatal for most weeds in the early stages of growth, but not enough to cause significant damage to crops. The mechanism of enhancing the action of metabolic products of Fusarium oxysporum and Streptomyces spp. in combination with lactic acid bacteria is not completely clear to researchers and, apparently, is associated with the acidic environment created by these microorganisms.

The positive aspects of the proposed method for obtaining a herbicide and treating plants with it:

1) the method of obtaining the drug is as simple and technological as possible, does not contain complex and high-cost methods for extracting active substances, which makes it possible to reduce its cost and increase the competitiveness of the drug;

2) the preparation meets the standards of organic farming, i.e. allows you to supplement the developed protection schemes for eco-agricultural products with an organic herbicide, in which there is an urgent need;

3) due to the selected dosage and application period, it allows the use of the drug as a post-emergence herbicide of actually selective action (except for cases of contamination by perennial weeds).

Claims (3)

1. Herbicidal composition for agricultural crops containing a mixture of the culture fluid of the fungus Fusarium oxysporum, the culture fluid of Streptomyces spp after their filtration and the culture fluid of bacteria Lactococcus and Lactobacillus in a ratio of 1:1:1, while the concentration of microorganisms in the culture fluid is at least 10 ⁸ cfu/ml 2. A method for controlling perennial weeds, characterized in that a working solution is prepared by diluting the herbicidal composition according to claim 1 in water and spraying crops with it. 3. The method according to claim 2, characterized in that spraying is carried out during the period when perennial weeds are in the early phases of growth, and crops are significantly ahead of them in development, or in the period after planting crops, but before their emergence.