RU2010528C1 - Strain of micromycet trichoderma viride pers ex s f gray for producing preparation against causative agent of grapevine gray rot - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: strain of micromycet Trichoderma viride pers. ex. s. f. Gray deposited in VKM No. F-3269D and highly antagonistic to causative agent of grape gray rot and to species Penicillium expansum, p. verrucosum var. cyclopium, Aureabaxidium pullulans, Alternaria alternuta, is capable of suppressing development of pathogens during vegetation and storage of grapes. Treatment of grape with aqueous suspension of said strain reduces rotting losses in the courses of storage by 12-17% and increases yield of storable grapes by 15-20% depending on particular variety. EFFECT: higher efficiency. 3 tbl

Description

 The invention relates to agriculture and is a new strain that can be used during storage of grapes as a source of biological protection.

 Representatives of the genus Trichoderma are most successfully used for biological protection. The effectiveness of the use of fungi of this genus has been confirmed by many years of practice in combating soil fungi (see C. Dennis and J. Webster, 1971, Trans. Br. Mycol. Soc. 57 (3), 363-369; Elad et al., 1982, Can. J. Microbiol., 28, 719-725; MN Schroth and JG Hancock, 1981, Ann. Rev. Microbiology, 35, 459-463; Elad J., Barek R., Chet I., 1984, Soil Biol. and Biochem., 16.4, 381-386).

 As antagonist fungi, Trichoderma harzianum species and T. viride species are most often used. The natural habitat of these fungi is the soil, where they are most often found in the litter. These are active cellulose destructors involved in the destruction of plant litter.

 Known antagonistic activity of Trichoderma species against imperfect fungi of the genus Aspergillus - A. candidus, A. luchuensis, A. niger, A. Fumigatus, A. terreus (Rai B., Singh VN, Singh D. - Plant and Soil, 1980, 57, No. 1, p. 131-135); of the genus Fusarium: F. oxysporum, F. solani, F. graminearum, F. culmorum, Alternaria spp. , Bottrytis cinerea, Collectotrichum Lindemuthianum, Ascomycetes (Chaetomium spp., Coniochaeta); basidial (Lentinus edodes) (Badiai S. B., Plant Protection, Vol. 9, P. 75.. 78; Beratlief Z., Morched S. - Bull. Acad. Sci. agr. et forest., 1983, No. 12; Champion L., JE Mitchel Sci., Soc., 1978, 94, No. 2, p. 70; Knetmal MB, Hasabnis SN, Sardesphpande TS, Diwakar MP - Curr. Sci. (India), 1984, 53, No 16, p. 862-868; Lacicova B., Pieta D. - Ochr. Rosl., 1985, 29, no 5, p. 3-5; Tikimoto K., Repts Tottori Mycol. Inst., 1984, no 22 , p. 63-64; Venkatasubbaian P., Safuula KM - Pros. Indian Nat. Sci. Acad., 1984, B 50, no, p. 525-529).

 The practical use of hyperparasites and antagonists against a wide range of fungi - pathogens of vegetative plants, as well as post-harvest rot of fruits, vegetables and grapes during storage is known.

 In particular, the use of Trichoderma viride in the field (Tronsmo A., Dennis C. - Neth. J. Plant Pathol., 1977, v. 83, Suppl. 1, p. 449) led to a decrease in the amount of gray rot on strawberries after harvesting. -455).

 The use of Trichoderma harzianum conidia suspensions for treating apple trees during the flowering period reduced the amount of rot caused by B. cinerea on apples (Tronsmo A., Ystaas J. - Plant Dis., 1980, v. 64, p. 1009).

 The antagonistic properties of 9 species of the genus Trichoderma against B. cinerea were evaluated. High antagonistic activity was found in the group of Trichoderma strains, which included the species T. viride, T. harzinum, T. koningii, T. longibrachiatum (Sailloux, Froidefond - Bull. OEPP, 1987, v. 17, no 4, p. 541- 547).

 It is known to protect grapes from gray rot using Trichoderma viride and T. harzianum in order to improve the quality of the crop (Dubos B., Ulit J., Bugaret Y., Verdu D. - L'academie d'agriculture de France, 1978, 64, no 14, p. 1159-1167; Dubos B. - Proc. Int. Cont. Integr. Plant Prot., Budapest, 1983, p. 41-47; Dubos B. in: Current perspectives in microbial ecology. Washington, 1984, p 370-373; Dubos B., Bulit J. - Microbial ecology of the phylloplane est, 1981, p. 353-367; Davet P. - Bull. OEPP, 1987, 17, no 4, p. 535-540; Nair NG, Perker FE - Plant Pathol., 1985, No. 2, p. 302-305).

 The development of a biological method for controlling grape pathogens under storage conditions has a number of difficulties. Antagonists must be able to develop at low temperatures in storage, to remain for some time on the surface of berries (Cook RJ - "Phytopathology", 1985, 75, no1, p. 25-29; Wilson CL, Pusey PL - Plant Diseases, 1985, 69, no5, p. 375-378).

 Of the known strains of fungi of the genus Trichoderma used as a biological control agent against pathogenic fungi, the Trichoderma harzianum Rifai T-315 (ATCC N 20671) and Trichoderma harzianum Rifai T-35 (ATCC N 20681) strains described in Europatent N 01333878 are used.

 These strains are used against fungi from the genera Pythium, Rhizoctonia, Sclerotium, Fusarium to combat diseases such as blackleg, root rot, peliculariosis, and neck rot of seedlings.

 However, Trichoderma species or strains may be differently antagonistic to different fungal species (H. D. Wells et al., 1972, Prytopathology, 62, p. 442-447).

 In addition to such differences in antagonism, it was found that the external conditions in which the interaction occurs also affect the degree of biological control.

 The inventive strain of Trochoderma viride Pers. ex S. F. Gray BKM F-3269 D is proposed as a means of biological control of pathogens of grapes in storage conditions, in particular, to Botrytis cinerea.

 As a prototype taken the standard drug Trichodermin. Its effectiveness is manifested when used on berry crops during flowering in the fight against gray rot.

 A disadvantage of the known drug is that it does not effectively affect the gray rot of grapes.

 The aim of the invention is the isolation of a strain of trichoderma, with increased antagonistic activity against the causative agent of gray rot of Botrytis cinerea grapes and the ability to inhibit the development of the pathogen during the growing season and storage of grapes, which can reduce the loss of grapes from rotting by destroying the spores of the mushrooms on the surface of the berries before they are stored and suppression of sporulation during storage.

 Strain Trichoderma viride Pers. ex S. F. Gray BKM F-3269 D isolated from the surface of Moldova grape berries. The strain number is 51. Strain N 51 was isolated by sowing an aqueous suspension of flushing from the surface of Moldova grape berries on Chapek’s agar medium acidified with lactic acid to pH 4.. . 4,5.

The selection of the strain was carried out in sequential and multiple crops on the specified environment. Mature culture on agar jambs is stored in the refrigerator at -2. . . +3 ^о С with periodic reseeding 2-3 times during the year. The strain grows well on Czapek sporonosit environments and wort agar at 22-25 ^° C

 The resulting strain has the following properties.

M ak r about m about r about l about g and I. Colonies on Czapek's medium at 14 th day of growth at ²² ° C reach a size of 3.5. . . 4 cm, the mycelium is tender-haired, subtle, green, sporulation in small areas. The reverse side of the colony is colorless. On Wednesday wort agar on the 7th day of growth at 22 ° ^C. develops ragged white fluffy mycelium with light green courtines on the periphery of the colony. Sporulation is weak. The edges of the colony are not expressed.

 M and to r about m about r about l about g and I. In the mycelium - abundant, mostly intercalar chlamydospores of spherical and barrel-shaped, 12-15 microns. Conidia hemispherical, tenuous, 4.3. . . 4.5 x 3.8. . . 4.0 microns.

A to t and in N about with t sh shtamma m. Strain N 51 is an active antagonist against the causative agent of gray rot of Botrytis cinerea grapes. It has the ability to restrain the development of the pathogen during the growing season and storage of grapes. It is active at a temperature of 22.. . 25 ^about S.

With the help of a shtamma. Laboratory tests conducted using the method of agar blocks (SEG 1983) at temperatures of 2 ^{° C} and 22. . 25 ° ^C. The method is based on the ability of soluble metabolites diffuse into the agar plate and depending on the intensity of exposure to form a more or less wide area suppression or stimulation of growth of the pathogen (Table. 1).

In vitro culture Trichoderma viride Pers. BKM F-3269 D is grown on jambs of wort agar and Chapek medium for 12.. . 14 days at 22-25 ^{° C,} which is subsequently used as seed material.

 EXAMPLE of preparation using a strain of the fungus Trichoderma BKM F-3269 D.

 To prepare an aqueous suspension of the drug, 10 ml of sterile distilled water is poured into a test tube with a uterine culture of strain N 51, then the spore-bearing layer is washed off with a microbiological needle from the surface of the nutrient medium; shake the tube thoroughly. Plastic cuvettes 0.31 x 0.25 m in size, filled with a sterile nutrient medium — wort agar (at the rate of 0.5 l of medium per cuvette) are preliminarily prepared, and covered with tightly fitting sterilized glass. An aqueous suspension of the uterine culture is introduced into the cuvettes (at the rate of 20 ml of suspension per cuvette) and rubbed with a sterile glass spatula over the entire surface of the nutrient medium.

 The culture of strain N 51 is grown at room temperature for 12-14 days. After this period, a flush is performed: the cuvettes are freed from the glasses and poured with a small amount of sterile distilled water; then, with a sterile spatula, thoroughly wash the grown culture from the surface of the nutrient medium. The aqueous suspension of the fungus is filtered through a double layer of sterile gauze. In the resulting mother liquor of the drug, the spore titer is determined. The calculation is carried out in the camera Goryaeva. The finished product is a dark green liquid.

 Field trials were carried out in Moldova on grapes from Moldova, Muscat, Hamburg and Italy.

EXAMPLE: COMPLIANCE. Table grape varieties (Moldova, Muscat of Hamburg, Italy) during flowering and 3-10 days before harvesting are sprayed with an aqueous suspension of the strain of the fungus Trichoderma viride Pers. ex SF Gray BKM F-3269 D at a concentration of 10 ⁸ spores / ml, at a flow rate of 1000 l / ha.

 The test results are shown in tables 2 and 3.

 The data table. 2 and 3 indicate that the treatment of grapes with an aqueous suspension of the strain Trichoderma viride Pers. ex S. F. Gray VKM F-3269 D can reduce rot losses during storage by 12-17% and increase the yield of grapes suitable for storage by 15-20%, depending on the variety.

 The use of a strain of micromycete (N 51) Trichoderma viride Pers. ex S. F / Gray VKM F-3269 D as a biological preparation for combating Botrytis cinerea reduces the number of chemical treatments of grapes and also reduces their harmful side effects. The advantage of using this strain is that it also has an inhibitory effect on the following types of pathogens: Penicillium expansum, P. verrucosum var. cyclopium, Aureobasidium pullulans, Alternaria alternata and resistant strains of Botrytis are not formed, as is the case with fungicides. (56) Agriculture of Moldova. 1985, N 7, 57.

Claims (1)

 The strain of micromycete Trichoderma viride Pers ex S. F. Gray BKM F - 3269 D to obtain the drug against the causative agent of gray rot of grapes.

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