RU2458503C1 - Method of protection of perennial crops from infectious diseases - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to biological methods of plants protection. The method of protection of perennial crops from infectious diseases includes the use of biological means in a mixture of three to six biofungicides. Biofungicides of different antifungal and antibacterial direction are applied, at a dosage of 50-100% per hectare. Perennial plants are sprayed with aqueous solution of mixture of biofungicides 1-2 times in the autumn, post-harvest period.

EFFECT: increased efficiency of fight against infectious diseases in plantations of perennial crops, as well as increasing the adaptive capacity of plants to extreme winter conditions and environmental safety of products.

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Description

The invention relates to agriculture, in particular to biological methods of protecting plants from diseases.

A known method of protecting grape plantations from infectious diseases using chemical fungicides - phenol derivatives (DNOC, 40%, rp; nitrafen 60% paste), metal-containing fungicides (vitriol, 53% rp), the so-called “eradicating” spraying ”, which is carried out early in the spring before buds open (Pests, diseases and weeds in vineyards / Zh.A. Chichinadze, N.A. Yakushina, A.S. Skorikov, E.P. Stranishevskaya - Kiev: Agrarian Science, 1995. - S.248-249).

The disadvantage of this method is that the majority of wintering stages of the disease are often in places inaccessible for processing (for example, in oidium - the mycelium inside the kidneys), where fungicide does not penetrate when sprayed, resulting in a decrease in the efficiency of administration. With this method of control, the amount of wintering inoculum may not decrease at all if there are no favorable conditions for the pathogen (for example, conditions for the presence of drop-liquid moisture or high humidity are important for black spotting of grapes, only then the pycnidia will swell and open, and the pathogen will be available for suppression). The disadvantages of this method include the limited spectrum of action, for example, in vineyards - phenols "remove" mainly oidium, - vitriol - mainly anthracnose, black spotting. In addition, the negative effects of chemical protection on the environment and humans are well known.

There is a method of protecting perennial crops from infectious diseases by reducing the infectious load in the vegetable growing of protected soil using the Trichodermin-BL biofungicide, which is used (dry or in solution) to treat seedling roots (seeds) or to the soil before sowing (Biological method of controlling pests and diseases in protected ground (reference book) / A.P. Tverdyukov, P.V. Nikonov, N.P. Yushchenko. - M: Kolos, 1993. - P.76).

The disadvantage of this method is its inefficiency in perennial crops, since the treatment of seedlings with biofungicides during planting gives a short-term effect only in the year of planting. In addition, when using only one biofungicide (as in this method), a limited spectrum of pathogens is controlled, due to which the effectiveness of this method is also reduced.

The essence of the invention lies in the fact that for the first time in open perennial agrocenoses (on the stands of fruit, berry, ornamental crops and grapes), biological agents are used to combat infectious diseases - biofungicides, fungal and bacterial, of different antifungal and antibacterial orientation in a mixture (3-6 preparations), in a dosage of 50-100% of the recommended per hectare for each, and 1-2 times in the period after harvesting. The use of a mixture of biological products ("compote") allows you to expand the range of types of pathogens against which admission is directed and the number of infections which must be reduced; the post-harvest period of 1-2 treatments is most appropriate - biofungicides inhibit the accumulation of infection, which is actively occurring due to the cessation of all fungicidal treatments, effectively reduces the number of phytopathogenic infections, which are in the process of formation and are available for suppression. The antifungal and antibacterial effect of this method is better due to its prolongation.

The technical result of the invention is to increase the efficiency and environmental safety of the method of combating infectious diseases on plantings of perennial crops through the use of biological fungicides, expanding the spectrum and prolonging their action, and also applying them on time that is most suitable for reducing the number of infections of pathogens of the disease complex. When applying this invention, the degree of adaptation of plants to the extreme conditions of the winter period increases. The problem is achieved in that in this method of reducing the infectious load on the stands of perennial crops, 1-2 treatments are carried out with a mixture of 3-6 biofungicides of various antifungal and antibacterial orientations in the autumn, post-harvest period.

Example 1. Biofungicides (Bactofit (Bacillus subtilis strain IPM-215 and produced antibiotic) - 2.5 l / ha, Planriz (Pseudomonas fluorescens strain AP-33) - 1.5 l / ha, Trichodermin (Trichoderma viridae) - 1, 5 l / ha, Trichoderma harzianum - 100 g / ha, Phytolavin (Streptomyces griseus or Streptomyces lavendulae strain 696) - 1 l / ha, Vermiculen (Penicillium vermiculatum) - 2.5 l / ha), each separately dissolved in a small amount of water (10 l). Then all solutions are mixed with water in the tank immediately before spraying, and the stands are sprayed with the prepared tank mixture using the equipment available at the farm; the pouring rate per 1 ha is 800-1200 liters. Spraying is carried out 5-15 days after harvesting. Under the condition of prolonged warm autumn, a second spraying is carried out 2-4 weeks after the first.

Example 2. Biofungicides (Alirin-B (Bacillus subtilis strain B-10 VIZR) - 100 g / ha, Trichodermin (Trichoderma viridae) -1.5 g / ha, Funiculosum (Penicillium funiculosum) - 2.5 l / ha)) , each separately dissolved in a small amount of water (10 l). Then all solutions are mixed with water in the tank immediately before spraying, and the stands are sprayed with the prepared tank mixture using the equipment available at the farm; the pouring rate per 1 ha is 800-1200 liters. Spraying is carried out 5-15 days after harvesting. Under the condition of prolonged warm autumn, a second spraying is carried out 2-4 weeks after the first.

The use of a mixture of biofungicides provides an effective reduction of infection in a wide range of pathogens in perennial crops. Spraying with a mixture of biological products in the post-harvest period (autumn) is due to the fact that pathogens are in a more accessible form and accessible places than in the early spring. Biological products along with metabolic products include living bacteria and fungi (antagonists and hyperparasites), therefore, their introduction into agrocenoses of perennial crops by spraying in the autumn, post-harvest period naturally limits the development of populations of phytopathogens and reduces their harmfulness, and also allows useful species microflora "catch" in the pathosystems of perennial agrocenoses and (or) increase the size of populations. The regulatory action of biofungicides is prolonged, it manifests itself not only immediately after treatment, due to metabolites, but also throughout the second half of autumn, winter and spring of the next year (especially in warm winters or during thaws, which distinguishes the climate of southern Russia, the main gardening region and viticulture), due to the “living” part of them (for example, bacterial spores), which increases the effectiveness of this method of reducing the infectious load and, in addition, increases the resistance of perennial plants themselves to adverse effects yatnym factors winter.

Claims (1)

A method of protecting perennial crops from infectious diseases, characterized in that biological agents are used in a mixture of three to six biofungicides of various antifungal and antibacterial orientations in a dosage of 50-100% of the recommended per hectare for each, with an aqueous solution of which 1-2 times sprayed plantings in the autumn, postharvest period.