RU2379889C2 - METHOD OF MITE Amblyseius mckenziei BREEDING - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention refers to bio-technology and can be used for biological shielding of plants of greenhouses from pests - thrips. The method consists in the following. There is prepared a feeding substrate of 5-7 cm thickness of layer corresponding to unsifted flour bran. Mites Acarus farris are introduced into prepared feeding substrate; and this substrate with mites is mixed. Further mite Amblyseius mckenziei are settled into this feeding substrate at volume ratio 30-75:1 correspondingly. Upon this mites are fed and reproduced simultaneously during at least 11 days at temperature 16-25°C and relative humidity 65-80% at presence of air humidifier, in the capacity of which moistened natural sand is used.

EFFECT: invention facilitates reducing terms of mite breeding and increasing mite yield.

1 tbl, 4 ex

Description

The invention relates to agriculture, in particular to methods of breeding Amblyseius mckenziei (amblyseius mackenzie), and can be used for biological protection of plants of a closed pound against a pest - thrips.

Currently, social requirements for crop production are guiding the development strategy of environmentally friendly plant protection, namely biological with the involvement of entomophages. The fight against thrips is especially complicated by the fact that the pest is characterized by the group development of larvae and a secretive lifestyle. Thrips quickly develop pesticide resistance at the species and population level. As entomophages, the ticks of the genus Amblyseius from the phytoseid family are the most studied and widely used. However, the known methods for breeding ticks of Amblyseius mckenziei do not provide a mass yield of biomaterial in the required quantity, and even under optimal hydrothermal conditions, the breeding period of ticks of Amblyseius mckenziei is quite long.

A known method of breeding phytoseid mites (see RF application No. 2000118496, IPC ⁷ A01K 67/00, 67/033, 2002), including the formation of a feed substrate, consisting of whole wheat bran, rice husk and water. The substrate is placed in a refrigerator for 48 hours, frozen at a temperature of 25-30 ° C, laid out in single cages with a layer thickness of 15-20 cm and a volume of 3-6 L, populated with tyroglyphoid mites and covered with glass. Every 1-2 days, the feed substrate is mixed and moistened. When the number of tyroglyphoid mites reaches more than 5 thousand individuals per 1 cm ³ , predatory mites are released into cages, propagated and collected for subsequent use.

The disadvantages of this method are the low productivity due to the unfavorable temperature and humidity conditions and the considerable duration of biomaterial production, the low quality of the biomaterial due to the large thickness of the nutrient medium layer, and the need to use special refrigeration equipment to sterilize the feed substrate.

A known method of breeding ticks Amblyseius mckenziei (see Beglyarov G.A., Suchalkin F.A. Guidelines for the biological method of combating tobacco thrips in a protected pound. - M .: Kolos, 1985. - p.16-22), including placement of Acarus farris mites in the feed substrate in the form of sifted flour bran with a maximum layer thickness of 3 cm, feeding Acarus farris mites under specified conditions using a 15% potassium hydroxide (KOH) solution as an air humidifier, providing 90% air humidity at 25 ° C C, with mass reproduction of Acarus farri ticks s for 2–3 weeks, colonization of Amblyseius mckenziei ticks into the feed substrate with Acarus farris ticks, feeding and breeding of Amblyseius mckenziei ticks and their selection.

The disadvantages of this method are: low productivity due to the considerable time it takes to produce biomaterial, high air humidity, which promotes the growth of molds, which reduces the mass yield of both types of mites, as well as the use of caustic alkali, which causes allergic diseases, burns to the hands and mucous membranes.

The present invention is directed to solving the technical problem of increasing the productivity of biomaterial production during the cultivation of ticks by Amblyseius mckenziei by increasing the yield of biomaterial and reducing the operating time, as well as eliminating the use of aggressive reagents.

This object is achieved by the fact that in the method of breeding ticks Amblyseius mckenziei, involving the preparation of a feed substrate, which consists of wholemeal bran bran, placing ticks Acarus farris in the feed substrate, mixing, populating ticks Amblyseius mckenziei in the feed substrate with ticks Acarus farris 30 75: 1, respectively, and the stage of feeding and reproduction, carried out simultaneously for at least 11 days at a temperature of 16-25 ° C and relative humidity of 65-80% in the presence of an air humidifier, as e which use humidified natural sand.

The task is also achieved by the fact that the wholemeal bran bran is used with a bran layer thickness of 5-7 cm.

The placement of Amblyseius mckenziei ticks along with Acarus farris mites in the feed substrate allows simultaneous feeding and reproduction of Acarus farris ticks and Amblyseius mckenziei ticks, which helps to reduce the breeding time of Amblyseius mckenziei ticks and reduces the consumption of feed - bran.

The use of wholemeal bran bran as a feed substrate makes it possible to rationally use the feed substrate and to eliminate production waste.

The placement of Acarus farris and Amblyseius mckenziei ticks in a volume ratio of 30-75: 1 is due to the fact that this ratio allows to increase the yield of biomaterial by obtaining uniformly aged Amblyseius mckenziei ticks per unit area in a significantly larger amount than in the known method. With a volume ratio of less than 30: 1, Amblyseius mckenziei mites will not have enough feed, which will lead to their death, and with a volume ratio of more than 75: 1, the feed substrate with Acarus farris mites will be depleted, which will lead to a decrease in the productivity of biomaterial production.

Feeding and breeding of Acarus farris ticks and Amblyseius mckenziei ticks at an air temperature of 16-25 ° С simultaneously increases the cold resistance of Acarus farris ticks and Amblyseius mckenziei ticks and increases the level of tolerance to abiotic factors.

Feeding and propagation of Acarus farris ticks and Amblyseius mckenziei ticks at a relative humidity of 65-80% helps to prevent the rapid decay of bran and the development of putrefactive microflora in the feed substrate.

The development of ticks Amblyseius mckenziei for at least 11 days allows you to get high-quality biomaterial.

The use of moistened natural sand as a humidifier makes it possible to exclude from the process a substance harmful and dangerous to human health - potassium hydroxide, which helps to increase the environmental safety of the process and improve working conditions.

The combination of the above features is necessary and sufficient to achieve the objective of the invention, which consists in increasing the productivity of biomaterial production during the breeding of Amblyseius mckenziei ticks and reducing the operating time. This eliminates the use of aggressive reagents, improves the environmental safety of the method and improves working conditions.

In the particular case of the invention, the following specific operations and operating parameters are preferred.

The use of a layer thickness of wholemeal bran 5-7 cm contributes to an increase in the yield of Amblyseius mckenziei, since during feeding and reproduction, Acarus farris mites occupy the lower part of the bran layer, and Amblyseius mckenziei mites multiply in the upper part of the layer, which allows periodically removing the grown Amblyseie mck mites from the upper part of the feed layer of the substrate without populating it with new individuals. A substrate layer of less than 5 cm dries quickly, and when using a bran layer of more than 7 cm, there is a risk that the substrate is populated by extraneous microflora.

The above particular characteristic of the invention allows for the implementation of the method of breeding ticks Amblyseius mckenziei in the optimal mode.

The essence and advantages of the invention can be explained by the following examples of the invention.

Example 1. Prepare a feed substrate from wholemeal bran bran, preheated at a temperature of 70 ° C for a day, moisten up to 20% (20 ml of water per 100 g of bran) and mix thoroughly. The feed substrate is placed in a prepared cage, consisting of two containers : large, 1/3 filled with moistened natural sand, and smaller, placed inside a large container. In a smaller container, prepared non-sifted flour bran is distributed with a layer of 5 cm and mixed with Acarus farris mites in a volume ratio of 1:30, which corresponds to the density of these mites - 30 individuals in 1 cm ^{3 of} bran. Then, 1 female Amblyseius mckenziei ticks is placed in the container. From above the cage is covered with moistened filter paper and a thin plastic film and installed in a heating cabinet. To prevent caking and improve aeration, periodically - once every 3 days, bran is mixed. Feeding and reproduction of ticks is carried out at a constant temperature of 16 ° C and relative humidity of 65%. Every 2 days they evaluate the quality of the biomaterial and take into account the number of ticks. After 11 days, the number of ticks of Amblyseius mckenziei is - 150 females of the same age in 1 cm ³ bran.

Example 2. The ticks are bred Amblyseius mckenziei according to example 1. The difference is that the prepared wholemeal bran bran is distributed in a 7 cm layer and mixed with Acarus farris mites in a volume ratio of 1:75, which corresponds to a tick density of 75 individuals in 1 cm ³ bran. Then, 2 female Amblyseius mackenziei ticks are placed in a small container. From above the cage is covered with moistened filter paper and a thin plastic film and installed in a heating cabinet. To prevent caking and improve aeration, periodically - once every 2 days, bran is mixed. Feeding and reproduction of ticks is carried out at a constant temperature of 25 ° C and a relative humidity of 80%. Every 2 days they evaluate the quality of the biomaterial and take into account the number of ticks. After 11 days, the number of ticks Amblyseius mckenziei is - 300 females of the same age in 1 cm ³ bran.

Example 3. The ticks are bred Amblyseius mckenziei according to example 1. The difference is that the prepared wholemeal bran is distributed in a layer of 6 cm and mixed with Acarus farris mites in a volume ratio of 1:50, which corresponds to a tick density of 50 individuals in 1 cm ³ bran. Then, 1 female Amblyseius mackenziei ticks is placed in a small container. From above the cage is covered with moistened filter paper and a thin plastic film and installed in a heating cabinet. To prevent caking and improve aeration, periodically - once every 2 days, bran is mixed. Feeding and reproduction of ticks is carried out at a constant temperature of 18 ° C and a relative humidity of 75%. Every 2 days they evaluate the quality of the biomaterial and take into account the number of ticks. After 12 days, the number of ticks Amblyseius mckenziei is - 200 females of the same age in 1 cm ³ bran.

Example 4 (prototype). A feed substrate is prepared from the flour bran sifted through a sieve with a mesh size of 2 mm, preheated at a temperature of 70 ° C for 24 hours, moistened to 17% (17 ml of water per 100 g of bran) and mixed thoroughly. The feed substrate is placed in a prepared cage, consisting of two containers: large, 1/3 filled with 15% aqueous solution of caustic potassium, and smaller, placed inside a large container. Prepared sifted flour bran is distributed in a smaller container with a layer of 3 cm and mixed with Acarus farris mites in a volume ratio of 1: 100, which corresponds to a tick density of 100 individuals in 1 cm ^{3 of} bran. The cages are closed with glass and placed in a thermostat at a constant temperature of 25 ° C and a relative humidity of 90%. To prevent caking and improve aeration, periodically - once every 3 days, bran is mixed. The accumulation of Acarus farris ticks lasts 2-3 weeks, until the number in the substrate reaches 5 thousand individuals per 1 cm ^{3 of} bran. Then 7 female Amblyseius mckenziei ticks are placed in the container and reinserted into the thermostat. Every 2 days they evaluate the quality of the biomaterial and take into account the number of ticks. After 14 days, the number of ticks of Amblyseius mckenziei is 60 females in 1 cm ³ .

The table shows the comparative characteristics of the methods of breeding ticks Amblyseius mckenziei according to the invention and the prototype.

From the above examples and table data, it can be seen that the inventive method allows to increase the yield of biomaterial by 4 times while reducing the tick breeding period by 2 times. The invention does not require the use of expensive equipment, is environmentally friendly and can be implemented at any agricultural enterprise.

Claims (2)

1. A method of breeding ticks of Amblyseius mckenziei, which includes preparing a feed substrate, which is whole grain bran, placing Acarus farris ticks in the feed substrate, mixing, populating Acarus farris ticks in the feed substrate with Amblyseius mckenziei ticks in a volume ratio of 30-75, respectively: the stage of feeding and reproduction, carried out simultaneously for at least 11 days at a temperature of 16-25 ° C and a relative humidity of 65-80% in the presence of an air humidifier, which is used as moistened nature first sand. 2. The method according to claim 1, providing for the use of wholemeal flour bran with a bran layer thickness of 5-7 cm