RU2458502C1 - Method of protection of perennial crops from pests - 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 pests includes the use of biological means in a mixture of bioinsecticides. Fungal and bacterial bioinsecticides of different pathogenic orientation are used at a dosage of 50-100% per hectare. Perennial plants are sprayed with an aqueous solution of bioinsecticides 1-2 times in the post-harvest period; and foci of pests are treated at the territories of agrolandscape adjoining to them.

EFFECT: increased efficiency of pest control on plantations of perennial crops.

3 ex

Description

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

A known method of protecting grape plantations from pests by spraying with chemical insecticides - petroleum oils (Preparation 30), which is carried out early in the spring before buds are blooming, is used in the fight against wintering stages of aphids, worms, ticks, false shields (Pests, diseases and weeds in vineyards / Zh.A. Chichinadze, N.A. Yakushina, A.S. Skorikov, E.P. Stranishevskaya .-- Kiev: Agrarian Science, 1995. - P.248-249).

The disadvantage of this method is that the main number of many wintering stages of pests is often located in hard-to-reach or inaccessible for processing places, as a result of which the reception efficiency is reduced. For example, on grape plantations, eriophiid ticks (for example, itch, phyllocoptis) winter only inside the buds, spider mites winter under a tight-fitting bark, in cracked bark, mainly from the lower side of the arms or below the stem. Other types of pests (for example, cicadas, several species of herbivorous thrips) winter on other perennial vegetation in the agrolandscape or in plant debris, etc. The disadvantages of this method also include the limited spectrum of action, since treatment with petroleum oils in the early spring can only slightly reduce the supply of pests wintering directly on the plant. The negative consequences of this method include the destruction of the useful fauna of perennial agrocenoses - early spring entomo-acarophagous populations are at a “growth point”, and the consequences of this treatment can be catastrophic for some species of predators, since their abundance, and therefore their biotic potential significantly lower than that of pests.

An alternative chemical method of protecting against pests on crops is the well-known mechanical method, which is used, for example, for protected soil crops - collection, removal of plant residues together with a complex of pests manually and their destruction (burning) (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.78).

The disadvantage of this method is that in this way it is possible to treat relatively small areas (for example, greenhouses), while increasing the processing area will entail a significant increase in costs (manual labor of roads is ineffective in large areas of perennial plantations).

There is a way to control pests in perennial crops using biological agents - this is to reduce the number of leafworm populations (kidney, fruit, rose, etc.) on apple, plum, thorns, cherries and other fruit and berry crops by spraying with a bioinsecticide - Bitoxibacillin (BTB), in the spring before bud budding (in April) over wintering caterpillars (Microbiological control of the number of insects and its dominant Bacillus thuringiensis / N.V. Kandybin, T.I. Patyka, V.P. Ermolova, V.F. Patyka; under Edited by Doctor of Biological Sciences, Professor N.V. Kandybin. - St. Pete rburg, Pushkin, 2009. - P.236).

The disadvantage of this method is the limited spectrum of its pathogenic action, since one BTB preparation (Bt ssp. Thuringiensis (H ₁ )) is used to reduce several species of Lepidoptera and partially spider mites. In addition, the effectiveness of this method is reduced due to the fact that the wintering stages of the pests are in secluded places, often inaccessible for processing. In order for pest suppression to occur, contact with this bioinsecticide is necessary - the overwintered generation leaves parts of the wintering places, thus, only partial pest suppression occurs. In addition, we note that this particular bioinsecticide (BTB) (according to our research), when used separately, is not very effective in controlling lepidopteran pests of some perennial crops, for example, on grapes in the fight against grape and biannual leaflets.

The essence of the invention lies in the fact that for the first time in perennial agrocenoses (on the stands of fruit, berry, ornamental crops and grapes), bioinsecticides based on various types of fungi and various patovars of the bacterium Bacillus thuringiensis and other entomopathogenic bacteria in a mixture are used to control pests (3-6 biological products) in a dosage of 50-100% of the recommended per hectare for each and 1-2 times in the period after harvesting. With an aqueous solution of a mixture of biological products, not only perennial planting is processed, but also the elements of the agrolandscape adjacent directly to it (sections of forest belts, areas of home gardens and abandoned territories) - where necessary, i.e. on the centers of pests. The use of a mixture of biological products ("compote") allows you to increase the efficiency of processing, to expand the range of types of pests of perennial crops, against which reception is directed and the stock of which must be reduced. The post-harvest period of 1-2 treatments is most advisable - bioinsecticides inhibit the development of harmful species, prevent their normal feeding before leaving for wintering, as a result of which an inferior wintering generation is formed, with poor adaptation to wintering conditions. The effectiveness of bioinsecticides in the suppression of harmful arthropods increases during overwintering, especially in populations of those pests that winter in colonies and have close contact with each other.

The technical result of the invention is to increase the environmental and economic efficiency of the method of pest control in perennial crops through the use of a mixture of bioinsecticides, the expansion of the spectrum and the prolongation of their action, as well as the application in time, the most suitable for effective suppression. This object is achieved by the fact that in this method of pest control on stands of perennial crops and adjacent territories of the agrolandscape, 1-2 treatments are carried out with a mixture of 3-6 bioinsecticides of different pathogenic orientation based on various types of entomo-acaropathogenic fungi and various patovars of the bacterium Bacillus thuringiensis and other entomopathogenic bacteria in the autumn (post-harvest) period.

Example 1. Bioinsecticides (Lepidocide (Bacillus thuringiensis var. Kurstaki) - 1.5 l / ha, Beverin (Beauveria bassiana) - 1.5 l / ha, Metarizin (Metarrizium anisopliae) - 1 l / ha, Bitoxibacillin (Bacillus thuringiensis var thuringiensis, exotoxin) - 1 l / ha, Fitoverm (Streptomyces avermitilis) - 0.5 l / ha, Verticillin (Verticillium lecanii) - 1 l / ha), each separately dissolved in a small amount of water (10 l). Then all the solutions are mixed with water in the tank immediately before spraying and the prepared tank mixture, using the available equipment, the vineyard and the adjacent area of the abandoned area with grassy vegetation and blackberry bushes, where a center of Japanese grape vine are found, are sprayed. The spill rate per 1 ha of vineyard is 800-1000 liters, in the adjacent area 200-300 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. Bioinsecticides (Lepidocide - 2 l / ha, Dendrobacillin - 1 l / ha, Boverin - 2 l / ha, Metarizine - 1 l / ha) each separately dissolved in a small amount of water (10 l). Then all the solutions are mixed with water in the tank immediately before spraying and the prepared tank mixture. Using the available equipment, spray the seed garden and the adjacent forest belt consisting of wild pear and apricot trees where the focus of pear thrips is found. The spill rate per 1 ha is 800-1000 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 3. Bioinsecticides (Lepidocide - 3 l / ha, Boverin - 2 l / ha, Metarizine - 1.5 l / ha) each separately dissolved in a small amount of water (10 l). Then all the solutions are mixed with water in the tank immediately before spraying and the prepared tank mixture; berry plantings (currants) are sprayed using the technique available on the farm. The spill rate per 1 ha is 500-600 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 bioinsecticides provides an effective reduction in the number of harmful arthropods on stands of perennial crops. Spraying with a mixture of biological products in the post-harvest period is due to the fact that phytophages are more accessible and, in addition to direct suppression by toxic metabolites immediately after treatment, entomo-acaropathogenic bacteria and fungi (spores, conidiospores, mycelium) introduced into the agrocenosis of a long-term culture, infecting pests, violate their normal preparation for wintering. An inferior wintering generation partially dies and (or) infects other individuals in the colonies, and thus the effectiveness of the proposed method increases, especially in warm winters or during thaws, which distinguishes the climate of southern Russia, the main region of horticulture and viticulture.

Claims (1)

A method of protecting perennial crops from pests, characterized in that they use a mixture of bioinsecticides, fungal and bacterial, of various pathogenic nature, in a dosage of 50-100% of the recommended per hectare for each, with an aqueous solution of which 1-2-year-old plants are sprayed, and foci of pests in the adjacent territories of the agrolandscape in the post-harvest period.