RU2167527C1 - Agent for control of colorado potato beetle larvae on potato plants - Google Patents

Abstract

FIELD: agriculture, insecticides. SUBSTANCE: invention relates to the field of plants protection. Agent consists of a mixture of an aqueous suspension of the preparation "Nemabakt" based on entomopathogenic nematodes of species Steinernema carpocapsae, strain agriotos in the concentration 2000-5000 invasion larvae/ml and an aqueous suspension of nematodes of species Steinernema feltiae, strain 18 in the concentration 2000-4000 invasion larvae/ml. Potato plants are sprayed with this agent in period of total breeding Colorado potato beetle larvae of the 1st instar stage. Invention provides increase of biological effectiveness of control up to 72.1-75.8% that 10.9-24.6% above of that of separately taken nematode aqueous suspensions. Invention can be used as an agent for control of Colorado potato beetle larvae in potato plantings. EFFECT: enhanced effectiveness of agent. 1 tbl, 5 ex

Description

 The invention relates to the agricultural industry, in particular to the field of plant protection, and can be used as a means of combating the larvae of the Colorado potato beetle.

 Currently, as a means of protecting potatoes from the Colorado potato beetle, a wide range of pyrethroid and organophosphorus synthesis insecticides is used (1).

 The disadvantages of chemical means of protection are associated with the problem of environmental safety of their use and environmental protection from pollution by products of their metabolism.

 The closest in biological essence and safety to the environment to the proposed is a means of combating the Colorado potato beetle in the form of a microbiological preparation Nemabact based on entomopathogenic nematodes of the species Steinernema carpocapsae, st. agriotos (2). This drug is also known as a means of protecting currants from currant glassfish, cabbage from cabbage flies, and ornamental crops from weevils (1). As established by us, along with nematodes of the species St. carpocapsae exhibit biological activity against the larvae of the Colorado potato beetle and reduce their number of St. Nematodes. feltiae, st. 18 (table).

 The main disadvantage of nematodes of these species, according to the table, is the low biological efficiency of each individual species, comprising 45-51%, which is insufficient for the purpose of protecting potatoes from the larvae of the Colorado potato beetle. According to published data, the biological effectiveness of Nemabact reaches a maximum of 65.5% for young larvae and 42.7% for older larvae of the Colorado potato beetle (2).

 The objective of the invention is to increase the biological effectiveness of nematodes in the fight against larvae of the Colorado potato beetle.

 The task is achieved by the joint use of two types of entomopathogenic nematodes St. carpocapsae and St. feltiae in the form of a mixture of their aqueous suspensions, which are sprayed with potato plants inhabited by larvae of the Colorado potato beetle. The control agent is also distinguished by the fact that St. Nematodes are used as nematodes. feltiae in the evening for the dew that had fallen, and if it was absent at a relative humidity of at least 75% during the mass hatching period of larvae of the 1st age of the pest.

The composition of the proposed funds, titer (thousand ex.invasive larvae of nematodes / ml):
view St. carpocapsae - 2.0-5.0
view St. feltiae - 2.0-4.0
water - 1 ml
Cooking technology:
Example 1

1 l of an aqueous suspension of nematodes of the form St. carpocapsae (mass propagation and production of uterine suspensions of nematodes of this species is carried out by the VIZR experimental technological line specializing in the production of Nemabact drug) at a concentration of 20 million invasive larvae / liter is poured into a tank of a backpack sprayer with a capacity of at least 6 liters, added 4 liters of water, mixed , create pressure in the tank using a pump and spray potato plants during the mass hatching of larvae of the 1st age of the Colorado potato beetle at the rate of 20 ml of suspension per 1 plant. One refueling of the sprayer is enough to process 250 potato bushes populated by the pest (at 100% of the potato population, the cultivated area is 50 m ² ). Spraying is carried out in the evening on precipitated dew, and in its absence, with a relative humidity of at least 75%. The mortality of larvae is recorded after 5 days. The biological effectiveness of nematodes is presented in the table.

 Example 2

 1 l of an aqueous suspension of nematodes of the form St. feltiae (mass production of nematodes of this species on artificial nutrient media is also carried out by the VIZR experimental technological line) at a concentration of 10 million invasive larvae / l, they are poured into the sprayer tank, added 4 l of water, mixed, pressurized in the tank and then used as well. as in example 1. The biological effectiveness of nematodes is presented in the table.

 Example 3 (by determining the boundary values of concentrations).

 1 l of an aqueous suspension of nematodes of the form St. carpocapsae at a concentration of 10 million invasive larvae / l and 1 l of an aqueous suspension of nematodes of the species St. feltiae at a concentration of 10 million invasive larvae / l is poured into the spray tank, add 3 l of water, mix, create pressure in the tank and then use the same as in examples 1, 2. The biological effectiveness of the mixture of nematodes of two species is presented in the table.

 Example 4 (by determining the boundary values of concentrations).

 1 l of an aqueous suspension of nematodes of the form St. carpocapsae at a concentration of 20 million invasive larvae / l and 1 l of an aqueous suspension of nematodes of the species St. feltiae at a concentration of 15 million invasive larvae / l is poured into the spray tank, add 3 l of water, mix, create pressure in the tank and then use the same as in examples 1, 2, 3. The biological effectiveness of the mixture of nematodes of two species is presented in the table.

 Example 5 (by determining the boundary values of concentrations).

 1 l of an aqueous suspension of nematodes of the form St. carpocapsae at a concentration of 25 million invasive larvae / l and 1 l of an aqueous suspension of nematodes of the species St. feltiae at a concentration of 20 million invasive larvae / l is poured into the spray tank, add 3 l of water, mix, create pressure in the tank and then use the same way as in examples 1, 2, 3, 4. The biological effectiveness of the mixture of nematodes of two species is presented in table.

 The examples in the table 1 and 2 indicate the possibility of using nematodes of the species St. carpocapsae and species St. feltiae as a means of combating the larvae of the Colorado potato beetle, despite the low biological effectiveness of each species of nematodes.

 Examples 3, 4, 5 show the possibility of increasing biological efficiency by 10.9-24.6% due to the joint use of two types of entomopathogenic nematodes in the form of a mixture of their aqueous suspensions. When spraying potatoes with a mixture of nematodes in a ratio of 40:40 thousand invasive larvae / plant (total concentration of 80 thousand invasive larvae / plant), the biological effectiveness of the control agent increases by 10.9-12.3% (example 3). The optimal ratio of nematodes of the form St. carpocapsae and species St. feltiae in the mixture, providing an increase in biological efficiency by 20.9-22.3%, are the concentrations of 80 and 60 thousand nematodes / plant, respectively (total concentration of 140 thousand invasive larvae in 20 ml of water per 1 plant). At higher concentrations of nematodes (example 5), the death of the larvae of the Colorado potato beetle increases slightly.

 Thus, the above examples 3, 4, 5 indicate the possibility of increasing biological efficiency due to the joint use of a mixture of aqueous suspensions of nematodes of the species St. carpocapsae and species St. feltiae as a means of combating the larvae of the Colorado potato beetle.

 The studies used generally accepted methods and techniques for conducting field trials of plant protection products (3).

где Э - биологическая эффективность, %;
a - численность вредителя до обработки;
b - численность вредителя через 5 дней после обработки.An indicator of the biological effectiveness of the protective equipment was the decrease in the number of larvae of the Colorado potato beetle relative to the initial one. The calculation of efficiency was carried out according to the formula

where E is the biological effectiveness,%;
a - the number of pests before processing;
b - the number of pests 5 days after treatment.

The experiments were carried out in the Nizhny Novgorod region - in the zone of constant severity of the Colorado potato beetle, on potatoes of the Nevsky and Post-86 varieties. The planting density of potatoes is 500 bushes per 100 m ² with a row spacing of 70 cm and a distance between the bushes of 30 cm. Potatoes were sprayed with aqueous suspensions of nematodes during the budding phase of plants in the evening growing hours during the mass hatching period of 1st instar larvae of the Colorado potato beetle against a high background the number of pests, 1.5-2.0 times higher than the economic threshold of harmfulness. The number of larvae of the Colorado potato beetle was determined on 10 plants inhabited by them at each repetition of experiments. For spraying potatoes, a standard pump-type Solo-456 knapsack sprayer with a reservoir volume of 6 liters was used. The rate of flow of an aqueous suspension of nematodes in all cases was 20 ml per 1 plant. The repetition of each experiment is fourfold. Uterine aqueous suspensions of nematodes were stored in a refrigerator until experiments began. The prepared mixture from aqueous suspensions of nematodes of a given concentration was immediately used for its intended purpose.

Sources of information
1. The state catalog of pesticides and agrochemicals approved for use on the territory of the Russian Federation. 1999 year. Official publication, Moscow, 1999.

 - Fastak, Kinmix, Bulldock, Decis, Fury, Actellik, Regent, Mauritius, Zolon, Cypermetrin, Arrivo, Sherpa, etc. / ibid., P. 13-63 /.

 - Nemabakt VS / ibid., P. 10/.

 2. The test results of the drug based on entomopathogenic nematodes in the fight against some pests of crops. Authors: Kanapatskaya V.A., Mikulskaya N.I., Romanovets 3.A. / Sat "Plant protection in the context of reforming the agricultural sector: economics, efficiency, environmental friendliness." Abstracts of reports. All-Russian Congress on Plant Protection. St. Petersburg, December 1995 - St. Petersburg. ed. VIZR, 1995, p. 317-318 /.

 3. Guidelines for testing insecticides, acaricides and molluscicides in crop production. - / VASKHNIL, VIZR, M., 1986, p. 2-275.

Claims (1)

An agent for controlling the larvae of the Colorado potato beetle on potatoes, including an aqueous suspension of the drug Nemabact based on entomopathogenic nematodes of the species Steinernema carpocapsae, st. agriotos, characterized in that it further comprises an aqueous suspension of nematodes of the species Steinernema feltiae, st. 18, and the components of the mixture are taken in the following ratios (titer of an aqueous suspension: thousand invasive larvae / ml):
View St. carpocapsae - 2.0 - 5.0
View St. feltiae - 2.0 - 4.0
Water - 1 ml

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