RU2333644C1 - Method of potato beetle abatement and instrument for its realisation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention refers to biotechnology, agricultural microbiology. The invention includes decrease of a natural protection threshold by treatment of the pests with an agent containing a biomass of Rhodococcus eqvi B-1115 strains, Rhodococcus eqvi B-1116 and Rhodotorula glutinis B-1113 yeast with 1-10⁹ cells/ml titer of viable cells in each culture, taken in the ratio of 1:1:1 with further pest treatment with entomopathogenic biological product.

EFFECT: increase of potato beetle abatement efficiency.

2 dwg, 1 tbl

Description

The invention relates to biotechnology, agricultural microbiology, and in particular to the production of new plant protection products against the Colorado potato beetle and other beetle insects.

It is known that the first description of the Colorado potato beetle as a pest of potatoes appeared in 1859 (Colorado, USA). The speed of resettlement to the East from Colorado was subsequently 85 miles per year.

Currently, the beetle is ubiquitous, including in the Far North. For 1 month the beetle destroys more than 4 grams of leaf mass, the larva about 1 gram. The average fertility of the female is 700 eggs, the number of offspring in the second generation is 250,000 specimens, capable of destroying more than 1 ton of potato tops. 2-3 generations are produced per year.

A known method of combating the Colorado potato beetle in the cultivation of potatoes using chemicals - pesticides, including the treatment of crops with pyrethroids (Volovik AS, Glez V.M., Zamotaev AM, etc. "Protection of potatoes from diseases, pests and weeds." Reference Agropromizdat, 1989).

The known method is environmentally unsafe, there is a high risk of accumulation of chemicals in the soil and plant tissues, slow decay and detoxification. In addition, the low efficiency of use in areas with a mild climate and in closed ground, for example, the effect of pyrethroids decreases at elevated temperatures (above 25 ° C).

Currently, various microorganisms (bacteria and fungi, protozoa) are known and widely used to protect plants from harmful insects and ticks ("Microorganisms in the fight against harmful insects and ticks", edited by Acad. M. Gilyarov, M., Kolos , 1976, “Pathogens of insects: structural and functional aspects”, ed. By V.V. Glupov, M., 2001). Microbial insecticides, unlike chemicals, are safer for the environment.

Known drug (patent RU 2199214), created on the basis of the recombinant strain of Bacillus thuringiensis IPM-37, which synthesizes β-exotoxin and insecticidal protein cry 3A type. The preparation has a liquid form of the following composition, wt.%: Biomass concentrate strain IPM-3784-97, stabilizer (glycerin) 0.10, wetting agent (Triton X-100, OP-7 or similar) 1-2, adhesive (polyvinyl acetate) 1 -2, thickener - water-swellable polymer (sacap-acmide, polyvinyl alcohol) 0.5-2.0, preservative (phenol) 0.3-0.5. Apply the drug against the Colorado potato beetle in an amount of 1-2 l / ha.

The main operating principle when using entomopathogenic biological products is the direct effect of entomopathogens (fungi and bacteria) on insects, their organs and tissues. However, in the process of evolution, insect pests have developed a number of adaptive means to protect against natural enemies and harmful environmental factors. First of all, this is a powerful system of wax protection of the skin of insects and their larvae, which allows it to withstand such factors of the natural habitat as ultraviolet radiation, temperature and humidity differences. The outer wax cover of a number of insect pests can also prevent spore pathogenic fungi from entering spore insects (primarily the spiracles and trachea). This creates certain problems in pest control using biologics with an entomopathogenic effect.

A known method of combating the Colorado potato beetle (RU 2245033), selected for the prototype, which consists in the fact that the active substance used is bancol (bisultap) with the empirical formula C ₁₇ H ₂₁ NO ₄ S ₄ , which inhibits the transmission of signals in the central nervous system of insects , from which they initially lose their motor activity, stop eating, then die.

The disadvantage of this analogue is the low efficiency for insects with a high level of adaptive protective devices, a long period between infection of the insect and the effect of damage.

The objective of the invention is to develop a safer and more effective way to combat the Colorado potato beetle.

The technical result consists in the development of a new tool to reduce the threshold of natural protection of insects by using the ability of consortia of oil-oxidizing microorganisms to actively destroy paraffin-like substances in a short period of time. The method and tool can dramatically increase the effectiveness of traditional biological products, reduce the chemical load on the plants.

The technical result is achieved by the fact that the means for combating the Colorado potato beetle and its larvae contains the biomass of strains of Rhodococcus eqvi B-1115, Rhodococcus eqvi B-1116 and yeast Rhodotorula glutinis B-1113 with a titer of viable cells of 1x10 ⁹ cells / ml of each culture taken in 1: 1: 1 ratio.

The technical result is achieved by the fact that in the method of controlling a Colorado potato beetle and its larvae, including treating pests with an insecticide, according to the invention, the threshold of natural protection is preliminarily reduced by treating the pests with the aforementioned agent, and an entomopathogenic biological product is used as an insecticide.

We have revealed that the resistance of the Colorado potato beetle to known means of control is determined by the powerful protection of potentially damaged insect tissues with a waxy coating.

A new preparation was obtained by the example of using biomass strains as the active substance: Rhodococcus eqvi 34-1 (28-99 / 2), Rhodococcus eqvi U7-28 (K2№ 7), Rhodotorula glutinis 55-1-P with a titer of viable cells of at least 1 × 10 ⁹ cells / ml of each culture taken at a ratio of 1: 1: 1, respectively.

Strains from bacteria Rhodococcus eqvi - strains 34-1 (28-99 / 2), U7-28 (K2№ 7) and yeast Rhodotorula glutinis - strains 55-1-P were deposited at the Research Institute "Collection of microorganism cultures" Federal State Institution Scientific Center of the World Bank "Vector »With the assignment of registration numbers, respectively: B-1115, B-1116, B-1113 (copies of certificates of deposit are attached).

Microorganism liquid concentrates by centrifugation were mixed in an effective ratio with an adhesive, stabilizer, surfactant and activators (MK, CMC, drugs, glycerin, sodium humate).

To prepare concentrates of the culture fluid of the microbial cultures of the preparation, each culture is grown on a liquid nutrient medium of the following composition:

molasses 2.5% baker's yeast (autolysate) 0.8% magnesium sulfate 0.05% ammonium sulfate 1.5% disubstituted potassium phosphate 0.5% sodium chloride 0.005% pH 6.5-7.5

Cultures are grown in flasks or apparatuses at a temperature of 28-30 ° C, aeration and stirring.

When culture titers of at least 10 ⁸ cells / ml are reached, the culture fluid is concentrated in a centrifuge to obtain biomass with a viable cell titer of at least 10 ⁹ cells / ml. The resulting concentrates are taken in equal amounts and mixed in apparatuses with a stirrer. Under stirring, mineral components (taken by volume) are introduced into the suspension of microorganisms, for example: urea 7%, ammonium phosphate 7%. Then, 0.2%, carboxymethyl cellulose (CMC), surfactant 0.25%, lignosulfonate 6%, preservative glycerol 7.5%, sodium humate 0.0075% are added to the resulting mixture.

The resulting preparation is a homogeneous helium substance.

A product manufactured under production conditions, called

ANTIK has the following characteristics: shelf life - 12 months, titer 10 ⁹ cells / ml, viability in natural conditions - up to 2 years. In the conditions of the plant, the optimal production modes of the biological product were worked out according to a simple and cost-effective technology while maintaining biological activity for a long time.

In order to substantiate the effectiveness of oil-oxidizing preparations to reduce the resistance of the Colorado potato beetle to adverse environmental factors, we conducted experiments on the use of the new drug in combination with the action of some known insecticides in closed and open ground conditions.

The biological effectiveness of the preparations and their mixtures against the larvae of the Colorado potato beetle and the effect of biological products on the number of adults of the Colorado potato beetle are shown in table 1 and figure 1.

Table 1 Experience Options The number of adults of the Colorado potato beetle, ind. Death of larvae day one 2 3 four 5 6 one 2 3 four The control 20,0 19.0 17.7 15.7 15.7 15.7 0 5 11.5 21.5 ANTIK, 1% 14.3 5.3 5.3 4.7 4.7 2.0 28.5 73.5 73.5 76.5 Bitoxibacillin 15.3 2,3 1,0 0 0 0 23.5 60.5 72.0 85.0 ANTIC + Bitoxibacillin 14.7 2,3 1.3 0 0 0 26.5 88.5 93.5 one hundred

The drug ANTIK was taken in an amount of 1%. The processing was subjected directly to insects and feed (leaves of potato tops).

The treatment of pests by a consortium of oil-oxidizing microorganism strains lowers the insect protection threshold, destroying the outer wax coat.

The strain Rhodococcus eqvi 34-1 (28-99 / 2) provides intracellular oxidation of alkanes of normal and branched structure, the release of biosuractants (SAS) into the environment, has a high level of dehydrogenase activity.

The strain Rhodococcus eqvi U7-28 (K2 # 7) provides extracellular oxidation of a wide range of hydrocarbons, a high level of lipase activity.

The strain Rhodotorula glutinis 55-1-P provides extracellular co-oxidation of aromatic and polyaromatic hydrocarbons and heavy paraffins, a high level of protease activity.

The entomocidal activity of the ANTIK agent on the larvae of the Colorado potato beetle on day 4 was 76.5%, and in the mixture of ANTIK with bitoxybacillin - 100%. Moreover, the accumulation of toxins after the use of the drug was not detected either in the tissues of plants or in the soil.

Thus, the ANTIK preparation is effective in closed and open ground in the temperature range from +10 to +45 degrees, does not depend on differences in air humidity and can increase the effectiveness of traditional insecticides, reduce environmental pollution, and increase the efficiency of the fight against the Colorado potato beetle (see. .2).

Claims (2)

1. The tool for combating the Colorado potato beetle and its larvae containing the biomass of strains of Rhodococcus eqvi B-1115, Rhodococcus eqvi B-1116 and yeast Rhodotorula glutinis B-1113 with a titer of viable cells of 1 · 10 ⁹ cells / ml of each culture, taken in the ratio 1: 1: 1. 2. A method of controlling a Colorado potato beetle and its larvae, including treating pests with an insecticide, characterized in that the threshold of natural protection is previously lowered by treating the pests with the agent according to claim 1, wherein an entomopathogenic biological product is used as the insecticide.

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