RU2620937C2 - Basic composition of complex biopharmaceutical for plant cultivation - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: invention covers a basic composition of a complex biopharmaceutical for plant cultivation comprising of a complex of fatty acids with predominantly arachidonic acid produced by Mortierella alpina VKPM F-1134 micromycete and target additives such as biodegradable detergent, ascorbic acid or α-tocopherol or β-carotene. And the fatty acids are presented by heptadecanoic acid and eicosanoic acid. The composition also includes myristic, pentadecanoic, palmitic, stearic, oleic, linoleic, γ-linolenic, dihomo- γ-linolenic, eicosadienoic and gondoinic fatty acids produced by Mortierella alpina VKPM F-1134 strain. The content and the ratio of the previous fatty acids are not standardized.

EFFECT: composition has a positive effect on various plants and low risk of harm to plants.

2 cl, 3 ex

Description

The present invention relates to crop production, in particular to biological agents for increasing the productivity of cultivated plants and protecting them from diseases.

Known plant growth stimulator containing as a biologically active substance arachidonic acid isolated from internal organs of animals (RU 2076598, publ. 10.04.1997). Its disadvantage is the lack of an antioxidant and, as a consequence, the need to increase consumption rates due to oxidation and loss of biological activity of arachidonic acid.

A known composition for immunizing plants from various phytopathogens, comprising as an active substance a mixture of higher fatty acids containing arachidonic and / or eicosapentaenoic acid or their lower alkyl esters in an amount of at least 10-50 wt. of the amount of acids, and as target additives antioxidants and urea (RU 2075914, publ. 03/27/1997; RU 2075933, publ. 03/27/1997). A known composition for increasing drought and frost resistance of plants while maintaining the effects of increasing productivity and protection against diseases, including arachidonic acid, urea and ionol as an antioxidant, dissolved in lower alcohol (RU 2265332, publ. 20.07.2005). The disadvantages of these compositions is a rather high probability that, when pre-sowing seed treatment, urea can inhibit the germination and growth of seedlings at the initial stage.

A known composition for immunization of plants, consisting of a mixture of methyl or ethyl esters of fatty acids with a content of arachidonic acid esters of up to 45% of the total esters in terms of the content of fatty acids produced by the mushroom Mortierella hygrophila VKPM F-1854 (RU 2058078, publ. 04.20.1996 ) The disadvantage of this tool is a narrow spectrum of action, limited to immunization.

The disadvantage of the above plant treatment products is also the unresolved problem of the low solubility of arachidonic and other fatty acids in water, which complicates the preparation of working solutions, which are obtained in the form of rather coarse emulsions, leads to the need to increase the consumption rates of drugs, and also increases the risk of necrotic spots on vegetative organs after spraying when relatively large drops of the dispersed phase, represented by fatty acids, get.

The task to which the invention is directed is to create a highly effective composition for treating plants that has a positive effect and low risks of harming plants, economical and easy to use.

This problem is solved by the proposed basic composition of a complex biological product for plant growing, characterized in that it comprises a fatty acid complex with a predominance of arachidonic acid produced by Mortierella alpina VKPM F-1134 micromycete and target additives: biodegradable detergent, as well as ascorbic acid or α-tocopherol or β-carotene, and among the fatty acids there are heptadecanoic and eicosanoic acids obtained with the help of a new producer - micromycete Mortierella alpina VKPM F-1134. In addition, the composition contains the following fatty acids: myristic, pentadecanoic, palmitic, stearic, oleic, linoleic, γ-linolenic, dihomo-γ-linolenic, eicosadiene and gondoin, the ratios of which are not standardized. Ethyl alcohol is used as a solvent, which brings up to 1 liter the total volume of the composition at a temperature of 20 ° C.

The properties of the claimed composition are determined, on the one hand, by the presence in its composition of arachidonic acid in an amount of at least 50% of the sum of fatty acids. On the other hand, it is known that arachidonic acid, like eicosapentaenoic, can cause the appearance of necrosis in plants (RM Bostock, JA Kuc, RA Laine. Eicosapentaenoic and arachidonic acids from Phytophtora infestans elicit fungitoxic sesquiterpenes in the potato. Science. 1981. P. 67-69). The presence of such an effect makes the problem of obtaining the most homogeneous working solutions extremely urgent. Its simplest solution is to include a detergent in the composition, which must be biodegradable so as not to pollute the environment. An example of such a biodegradable detergent can be a nonionic surfactant - alkylaminoxylate E5-25, where the alkyl radical is C10-C24. In addition, compounds such as ascorbic acid, α-tocopherol and β-carotene, which have an anti-stress effect on plants, help to avoid or minimize the similar effect of arachidonic and eicosapentaenoic acids in case of an overdose. Also, these substances act as antioxidants that help maintain the structure of polyunsaturated fatty acids.

Nawrot, D. Sosnowska, М. Ruszkowska, K. Pihlaja, Z. Trumpakaj, J. Szafranek. In vitro effects of cuticular lipids of the aphids Sitobion avenae, Hyalopterus pruni and Brevicoryne brassicacae on growth and sporulation of the Paecilomyces fumosoroseus and Beauveria bassiana. Arkivoc. 2001. P. 81-94). Таким образом, предложенная базовая композиция биопрепарата за счет присутствия гептадекановой и эйкозановой кислот может обладать дополнительными полезными свойствами.A comprehensive positive effect on plants of the proposed composition is achieved not only due to the properties of arachidonic acid, but also due to the biological activity of other fatty acids present in the mixture. Important distinguishing components of the proposed composition are heptadecanoic and eicosanoic acids. For heptadecanoic acid, the ability to inhibit the synthesis of sterigmatocystin, a compound that is a metabolic precursor of aflatoxin in phytopathogenic fungi Aspergillus flavus and A. parasiticus, is shown, which leads to a significant decrease in the content of this mycotoxin in crop products (Y.-Q. Zhang, M. Brock, NP Keller. Connection of propionyl-CoA metabolism to polyketide biosynthesis in Aspergillus nidulans. Genetics. 2004.168. P. 785-794). Eicosanoic acid attracts and stimulates the growth of the entomopathogenic fungus Beauveria bassiana, which effectively reduces the number of many insect pests, including various aphids (B. Szafranek, E.

Nawrot, D. Sosnowska, M. Ruszkowska, K. Pihlaja, Z. Trumpakaj, J. Szafranek. In vitro effects of cuticular lipids of the aphids Sitobion avenae, Hyalopterus pruni and Brevicoryne brassicacae on growth and sporulation of the Paecilomyces fumosoroseus and Beauveria bassiana. Arkivoc. 2001. P. 81-94). Thus, the proposed basic composition of a biological product due to the presence of heptadecanoic and eicosanoic acids may have additional useful properties.

The effectiveness of the invention is confirmed by examples.

Example 1. Winter wheat varieties Bashkir 10.

The studies were conducted on the fields of grain-crop rotation in the NP "Kazangulovskoye", rep. Bashkortostan.

Test scheme: 1. Control without treatment / 2. Composition with arachidonic acid content of 0.3 g / l. Presowing treatment of seeds, the flow rate of the drug is 1.0 ml / t, the flow rate of the working fluid is 10 l / t. Spraying plants in the phase of tillering-exit to the tube, the flow rate of the drug is 1.0 ml / ha, the flow rate of the working solution is 250-300 l / ha. 3. A composition with an arachidonic acid content of 0.3 g / l. Pre-sowing seed treatment, drug consumption 2.0 ml / t, working fluid consumption 10 l / t. Spraying plants in the phase of tillering-exit to the tube, the flow rate of the drug is 20 ml / ha, the flow rate of the working solution is 250-300 l / ha. The area of the experimental plots is 100 m ² , the area of the accounting plots is 50 m ² . The repetition in the experiment is fourfold.

The effect of using the proposed composition significantly reduced the number of seedlings affected by root rot: from 63 (control) to 9%. The best result for the control of leaf-stem diseases was obtained from the processing of seeds and crops of winter wheat in the phases of tillering and going into the tube. With an increase in the dose of the drug, its biological effectiveness increased by brown rust from 12 to 16%, by septoria from 14 to 19%. The composition provided long-term systemic resistance of the plant to pathogens.

The composition provided the best growth and development of winter wheat plants, increased productive bushiness (1.13 ... 1.21, in the control - 1.10), grains of spike (17.8 ... 21.4 grains in the ear, in the control - 15.0 ) The productivity of winter wheat increased by 2.2 ... 2.8 c / ha during seed treatment and by 3.4 ... 4.8 c / ha additionally with the processing of their vegetative plants. There was a positive effect on the quality of grain, an increase in its content of crude gluten and protein.

Example 2. Soybean varieties of Vilana. Research was conducted on the experimental fields of the Kuban State Agrarian University, Krasnodar Territory. Scheme of experience: 1. Control - without treatment; 2. Immunocytophyte (standard) - pre-sowing seed treatment (drug consumption 2 tablets / kg, working solution 10 l / t) + spraying plants: 1st - in the branching phase, 2nd - in the flowering phase (1 table / 50 m ² , 300 l / ha). 3. Composition with arachidonic acid content of 0.3 g / l - pre-sowing seed treatment (drug consumption - 1 ml / t, working solution - 10 l / t) + spraying plants: 1st - in the branching phase, 2nd - in the flowering phase (3 ml / ha, 300 l / ha); 4. A composition with arachidonic acid content of 0.3 g / l - pre-sowing seed treatment (drug consumption 2 ml / t, working solution 10 l / t) + spraying plants: 1st - in the branching phase, 2nd - in the phase flowering (10 ml / ha, 300 l / ha). The accounting area of the plot is 20 m ² , the repetition is fourfold.

The treatment of soybean seeds before sowing and two-time sequential treatment of plants (in the phases of branching and flowering) with the test composition enhances plant growth in height (100.0-112.0 cm, in the control 84.7 cm), branching processes (2.4- 3.7, in the control - 1.7 pcs.) And leaf formation (number of leaves 17.6-21.7, 11.7 pcs. - in the control; leaf area 198.3-212.4 and 181.7 cm ² respectively). In parallel with the growth of the leaf surface, there is an increase in biomass (87.39-106.70 g, in the control 75.09 g / plant) and dry weight (19.27-23.82 and 16.46 g, respectively) of the aboveground organs. Analysis of biometric indicators of the crop structure showed that the test composition, like immunocytophyte, stimulated the formation of a larger number of beans 46.8-50.1, in the control 43.3 pcs.; the mass of beans is 16.44-17.60 and 13.68 g, respectively), the formation of seeds (83.4-91.1 pcs., in the control of 76.3 pcs.), larger and more aligned (1000 seeds 114.4- 134.0, control 106.7 g). It should be noted that the highest values of the considered indicators were noted in the variant with the treatment of seeds and twofold plants (in the phase of branching and flowering) with the claimed composition (drug consumption on seeds 1 ml / t, on plants 3 ml / ha). Moreover, in the experimental variants, the yield was significantly higher than the control variant (20.9-21.6 kg / ha, in the control 19.2 kg / ha, NDS ₀₅ - 1.0 kg / ha). The maximum yield increase (12.5%) was obtained in the variant using the claimed composition (seed treatment (1 ml / t, 10 l / t) + processing plants in the branching and flowering phases (3 ml / t, 300 l / ha)) . The oil collection in this embodiment increased by 18.8% (in other experimental variants by 11.4 and 13.6%) in comparison with the control variant (4.68-4.99 c / ha, in the control 4.20 c / ha).

Example 3. Table carrots varieties Forte (variety - type Nantes).

Experiments on the study of the effectiveness of the proposed composition on dining carrots were carried out on the experimental field of the GNU Research Institute of Vegetable Production (Moscow region, Ramensky district).

Scheme of experience: 1. Control without processing. 2. Standard Charm. Soaking seeds for 1 hour, the consumption of the drug is 0.4 ml / kg, the flow rate of the working fluid is 2.0 l / kg; 3. A composition with an arachidonic acid content of 0.3 g / l. Presowing seed treatment, drug consumption 0.2 ml / kg, working fluid consumption 1.0 l / kg. Spraying plants in the phase of 2-4 real leaves, the consumption of the drug is 3.0 ml / ha, the flow rate of the working solution is 250-300 l / ha. 4. A composition with an arachidonic acid content of 0.3 g / l. Presowing seed treatment, the consumption of the drug is 0.5 ml / kg, the flow rate of the working fluid is 1.0 l / kg. Spraying plants in the phase of 2-4 real leaves, the consumption of the drug is 5.0 ml / ha, the flow rate of the working solution is 250-300 l / ha. The area of the experimental plots is 20 m ² , the area of the accounting plots is 10 m ² . Repeatability is fourfold.

The positive effect of presowing treatment of carrot seeds with growth regulators on the sowing quality of seeds has been established. Presowing soaking for one hour in the Obereg solution of 0.4 ml / kg and the claimed composition 0.2-0.5 ml / kg increased the germination energy of carrot seeds by 10.4% and 9.8-14.2%, respectively also contributed to an increase in field germination of seeds and plant density of carrot plants by 9.4% and 7.6-14.4%. The greatest effect was obtained in option 4 at a rate of application of the claimed composition of 0.5 ml / kg for soaking seeds and 5 ml / ha for spraying plants in the phase of 2-4 leaves. Differences with control were significant. Phenological observations showed that when treating seeds and plants of carrots with the claimed composition, in both cases friendly shoots appeared 2-3 days earlier and the formation of 3-4 leaves accelerated 2-4 days, bundle ripeness 5-7 days earlier, 7 -9 days - the onset of technical maturity, which exceeded both control and the standard. The yield of root crops in both variants with the tested composition was significantly higher by 11.9-17.1% relative to the control. The reference preparation had practically no effect on the yield of carrots. The analysis of the chemical composition of the obtained crop showed that the integrated treatment of seeds and plants with the claimed composition increased the content of sugar in the root crops by 0.3-0.6%, vitamin C by 0.5-0.8 mg%, carotene by 0.9-1 , 6 mg%, improving their taste.

Thus, the proposed composition is characterized by high efficiency in relation to various plants, superior in effectiveness in some cases to well-known preparations of this type. Moreover, increasing the dose of the composition does not lead to the appearance of visible negative effects.

Claims (2)

1. The basic composition of a complex biological product for crop production, characterized in that it includes a complex of fatty acids with a predominance of arachidonic acid produced by micromycete Mortierella alpina VKPM F-1134 and target additives: biodegradable detergent, as well as ascorbic acid or α-tocopherol or β-tocopherol carotene, and heptadecanoic and eicosanoic acids are present among fatty acids. 2. The composition according to p. 1, characterized in that it also contains myristic, pentadecanoic, palmitic, stearic, oleic, linoleic, γ-linolenic, dihomo-γ-linolenic, eicosadienic and produced by Mortierella alpina VKPM F-1134 strain fatty acids, the content and ratio of which are not standardized.