UA68663A - Method of improving the disease resistance of tomato plants - Google Patents

Abstract

A method of increasing the resistance of tomato plants to diseases consists in using the preparations, effect of which is directed on activating the protective reactions of the plants and lowering the level of affection thereof with phytopatogenic microorganisms. The seed and/or plants are treated with mycelium extract of the fungus Botrytis cinerea Pers. in a concentration of 0.03-0.08% from the fresh mass of the mycelium.

Description

Description of the invention

The invention relates to the field of agriculture, in particular plant protection, the use of drugs that increase their resistance to diseases. The invention can be used to reduce damage to tomato plants from phytopathogenic microorganisms during the growing season.

Tomatoes, which are one of the main vegetable crops, are affected by many diseases, among which the most harmful are late blight and alternaria, which are caused by phytopathogenic fungi RPuiorpygoga ipgesiaps and

AKegpagia zoiapi. Preventive agrotechnical and chemical protection measures are used to combat them. 70 One of the most important ways to protect plants from diseases is the use of systemic contact and contact fungicides (ridomil gold MC, acrobat MC and others). During the growing season, 2-4 sprayings with fungicides are carried out, which, when they get into the environment, can accumulate in the soil and plants and cause poisoning of people and animals. After repeated application of pesticides, resistant strains of pathogenic microorganisms are formed, which negates the success of chemical protection. All this indicates that 72 new methods of plant protection are needed, which would provide a high protective effect and would be safe for environmental objects. One of these methods of protection against diseases is a method based on inducing plant resistance with the help of biogenic elicitors. Biogenic elicitors are metabolites of phytopathogenic microorganisms, which are recognized by plants and serve as a signal for the activation of protective reactions (11. Their action, unlike fungicides, is not aimed at destroying the pathogen - the causative agent of the disease, but at inducing the mechanisms of natural resistance of plants, which contributes to the preservation of ecological environmental balance.

There are known ways of using biogenic elicitors to reduce damage to plants of rural and urban areas. cultures by phytopathogenic microorganisms. This is the use of the mycelium extract of the fungus Ryzagisht sitogyt in a concentration of 0.5-1.095 of the dry matter against potato diseases |2), the mycelium of the mushroom ERizagst zatrisypyt M. typyv in a concentration of 0.03-0.0595 of the raw mass of the mycelium against potato diseases |Z) , extracts of the mycelium of the mushrooms Ryzagitst (B. zoiapi, R. ohuzrogyt, EE. topiyogte) and Voiguiv (V. ai, V. sipegea) against onion diseases "

It, an aqueous solution of the cultural substrate of the fungus Voiguiz sipegea in a concentration of 0.01-0.0395 against the reduction of losses of sugar beet root crops during storage I5), a solution of the homogenate of a two-day culture of the mushroom Voiguizz aiyya in a concentration of 0.01-0.0395 against the germination and diseases of onions during storage (b).

However, there is no information in the literature about the use of biogenic elicitors, namely extracts of phytopathogenic fungi, against tomato diseases. Gee)

Also known, chosen as a prototype, is a method of increasing the resistance of tomato plants to diseases |7). In the method used biogenic; the elicitor of lipid nature from RHnuorpiyoga iptesiapz is arachidonic acid, based on which the immunocytophyte (ICF) drug was created, which includes a composition of a mixture of higher fatty acids, including arachidonic acid, as well as urea and antioxidants. The drug is intended to stimulate the natural immunity of plants in relation to pathogenic fungi, bacteria and viruses, as well as to regulate plant growth and development. Recommended consumption rates for tomatoes: when treating seeds before sowing - 0.3-0.45 g/kg of the drug and 2-3 liters of working fluid, when treating plants, respectively, 0.3-0.45 g/ha and 300-600 liters /ha or 0.01595-0.0295 solution is used. When applied to tomatoes, Immunocytophyte exhibits an "immunostimulating effect, provides protection against fungal diseases with their moderate development on average with 70 at the level of 52-8295. The fact of a positive influence on crop formation has been established. However, the known method has a number of disadvantages that do not contribute to its wide application. Thus, the complex composition of the drug complicates its production, and an insufficiently high level of disease reduction does not solve the problem of plant protection. In addition, due to the high content of arachidonic acid, the ICF preparation is unstable in use.

The invention is based on the task of developing an effective, ecologically safe method of increasing the resistance of tomatoes to diseases using a biogenic elicitor that would stimulate natural immunity against pathogenic fungi, the growth and development of plants, and obtaining which does not cause significant difficulties.

Ge | The task is solved by the fact that in the proposed method, increasing the resistance of tomatoes to diseases is carried out for the first time with the help of a biotic elicitor, which is an extract of the mycelium of the phytopathogenic fungus Voiguiiv b sipegea Regv. in a concentration of 0.03-0.08905 from the raw weight of the mycelium or 300-800 μg/ml and which is able to activate the defense mechanism of the plant organism.

The two-week-old mushroom mycelium, grown on Chapek's liquid medium, was washed with running water, then with distilled water, dried and extracted twice with 7096 ethyl alcohol in a boiling water bath with a reflux condenser for 20 minutes. The alcohol extract was filtered, the alcohol was removed in a rotary evaporator at a temperature not higher than 40" 8). The aqueous residue was used for the induction of disease resistance. 52 The claimed method is carried out as follows. In laboratory-vegetation and field experiments, tomato seeds and plants were treated with a solution of Voiguiis mycelium extract Sipegea Reg. in concentrations of 300 and 800 μg/ml to detect immune and growth-stimulating effects. For comparison, the well-known drug Immunocytophyt (prototype) was taken. In experiments, it was found that the mycelium extract of Voiguiis Sipegea Reg. is effective against tomato diseases caused by phytopathogens with the fungi Rpuiorpigoga ipgeziaps and AGegpagia zoiapi. 60 Example 1. In laboratory-vegetation experiments, seeds and plants of tomatoes of the Flora variety were treated with a solution of the mycelium extract of B. sipegea Regv. in concentrations of 300 and 800 μg/ml to check its protective-stimulating effect against late blight of tomatoes. Results of experiments are shown in tables 1 and 2. They indicate that ex mycelium tract

Voiguise sipegea showed a protective effect both when soaking seeds and when spraying tomato plants against damage by the pathogen of late blight. Moreover, a higher protective effect was found when using bo extract at a concentration of 800 μg/ml, which, when spraying plants, reduced the development of the disease on the 10th day compared to the control (without treatments) by 37,595 (47,596 versus 85,090), and compared to immunocytophyte (standard) - by 12.595 (47.595 against 60.095). However, the growth-regulatory activity of the elicitor in the treatment of seeds and plants was significantly higher at the concentration of 300 μg/ml. Yes, laboratory seed germination and leaf area in comparison with

The control (without treatment) was 2 (98.095 vs. 48.790) and 2.5 (64.3 vs. 25.3 cm?) times higher, respectively, and compared to the standard (immunocytophyte treatment) - 1.4 (98.095 vs. 68.790) and 1.5 (64.3 against 40.5

SM) times (Table 2).

Example 2. In field conditions (Kyivska DS), tomato plants of the Amiko variety were sprayed with a solution of the mycelium extract of B. sipegea at a concentration of 300 μg/ml in the budding phase and at the beginning of fruit formation. The weather conditions of the 70th growing season of 2002 did not favor the development of late blight. The dominant disease on tomatoes was Alternaria, the causative agent of which is the fungus AKetagia zoYapi. The results of the research are shown in Table 3.

Spraying tomatoes with a solution of a biogenic elicitor significantly reduced the development of alternariosis, especially in the initial period of the disease and provided an average biological efficiency of 84.995, which is significantly higher than when using the immunocytophyte and the fungicide Ridomil Gold MC 2.0 kg/ha (18.9905 and 69,890 75 respectively). During the period of observation of the development of the disease, the biological effectiveness of spraying tomatoes with mycelium extract of B. sipegea was on average 52.895, immunocytophyte - 30.495, Ridomil Gold MC, 2.0 kg/ha - 46.895. As a result, the yield of tomatoes when sprayed with the mycelium extract of B. sipegea was at the level of the variant with ridomil gold MC, 2.0 kg/ha (138.4 and 134.0 c/ha) and significantly higher compared to spraying with immunocytophyte (120.5 c /Ha). This indicates that the biogenic elicitor can provide a protective effect not 20 lower than the Ridomil Gold MC fungicide with a consumption rate reduced by 2095.

Thus, the use of an ecologically safe biogenic elicitor isolated from the mycelium of the phytopathogenic fungus B. sipegea, by soaking seeds and/or spraying plants, makes it possible to increase the resistance of tomatoes to infectious diseases, reduce damage to plants during the growing season, and promotes better seed germination and plant development. 25 The immune- and growth-stimulating effect of the mycelium extract of B. sipegea is explained by the fact that it contains a number of biologically active substances (proteins, carbohydrates, lipids) that activate the protective and growth processes of the plant organism.

The mushroom B. sipegea is characterized by rapid growth and accumulation of culture mass, so obtaining the necessary extract does not cause significant difficulties.

Treatment of plants with biogenic elicitors in order to reduce the damage of plants to various types of diseases (9 30 is especially relevant when growing crops in closed soil and for obtaining products for children's and dietetic food. The examples given confirm the achievement of the technical result when implementing the claimed method. (Se)

Sources of information from 1. Dyakov Y.T., Ozeretskovskaya O.L. et al. General and molecular phytopathology.: Uch. allowance - M.: 35 Society of Phytopathologists, 2001. - 302 p. (Se) 2. Ozeretskovskaya O.L. etc. // Journal of the Academy of Sciences of the USSR. - Series of biol.. - 1986. - Mo 1. - P. 23-32. 3. Klikov S.A., Volovik A.S. Biologically active substances in the fight against the main diseases of potatoes. // Protection of plants. - 1987, .Mo 10. - P. 20-21. " 4. Dmitriev A.P., Perkovskaya G.Yu. An alternative ecologically safe method! protect! plants.: In 40 books. Agrarian education at the beginning of the millennium. Materials of the international scientific and practical conference. - - from Lviv, 2001. - P. 39-47. and 5. A.S. Mo. 5 1055412, AOTE25/00, 1983, Bull. Mo 43. / Metlytsky L.V., Ozeretskovskaya O.L., Knyazev V.A. etc., "Method of storage of sugar beet roots. 6. A.S. Mo 1311043, AOTE 25/00, 1985. / Dmitriev A.P., Tverskoi L.A., Grodzinsky D.M. Method of storage of onion 45 rapchaty. (22) 7. Kulnev A.I., Sokolova E.A.. Multipurpose stimulants! protective reactions, growth and development of plants (for example, the immunocytophyte preparation). - Pushchino, 1997. - 100 p. 8. Perkovskaya G.Yu., Berder A.M., Dmitriev A.P. Induction of onion resistance to diseases with the help of (22) biogenic inducers. // Biopolymer and cell. - 1991. - vol. 7, Mo. 4. - p. 91-94. 50

F z

Flora)

Mo n/p Research option Drug concentration 55 during seed soaking day » control 11000500 in 0 then in 800 Eutraktmtselyuv siyuta Zoomkyumlosuyayu 00000550 0000000 40006000 to 41 muyuioftitayu 00006010 500 zvo 000 o 111121111111111

Table 2 b5

Effect of biotic elicitors on seed germination and development of tomato plants (laboratory vegetation experiment, variety Flora)

Mo n/p Research option Concentration Seed germination in laboratory | Biometric indicators of plants in phase 3-4 of the drug conditions, real leaves plant height, cm leaf area, cm2 2 Mycelium extract B. 800 μg/ml (0.085) 82.0 6, 5 38.9 sipegea 710 Z Mycelium extract B. 300 μg/ml (0.0395) 98.0 4.8 64.3 sipegea new 17711111

Table C

Protective effect of the mycelium extract of V. sipegea against tomato Alternaria (field experiment, Kyivska DS, variety Amiko)

Mo n/p Variant Concentration of the drug, Development of the disease, Effectiveness Harvest o o action, o 11.07 20.07 26.07 11.07 20.07 26.07 965 c/ha before control

A Rydomil Gold MC, 68595 v.y.r.y. 2.0 kg/ha OA 2.6 7A 2501698 456 )|24.9)1340) 113.6 « (standard) ev vam 1 so

Formula of the invention Ge)

The method of increasing the resistance of tomato plants to diseases with the use of drugs whose action is aimed at activating the protective reactions of plants and reducing the level of their damage by phytopathogenic microorganisms,

Zv which differs in that the seeds and/or plants are treated with an extract of the mycelium of the fungus Voiguiis sipegea Regz. "I in a concentration of 0.03-0.08 90 from the raw mass of mycelium.

Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated "microcircuits", 2004, M 8, 15.08.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. Shsh. and (o) (og) (o) (o) sb" 60 b5