UA151249U - Method of breeding predatory mites of the phytoseiidae family - Google Patents

Abstract

The method of breeding predatory mites of Phytoseiidae family, in which predatory mites of Phytoseiidae family are grown, by using feed. As feed, a feed mixture is used, in the form of a feed emulsion for predatory ticks, consisting of decapsulated eggs (cysts) of Artemia salina from the family of Gill-footed crustaceans Anostraca and fresh plant pollen, for example, cattail pollen (genus Typha), including flower pollen, in the ratio of 10-90% to 90-10%, crab-pollen eggs, respectively. Additionally, the composition of the feed emulsion additionally includes moisture-retaining components in a concentration of 0.01-1%, for example, CMC (carboxymethyl cellulose) and sodium polyacrylate. At the same time, a cultivator with upper and lower ports is used to collect predatory mites and introduce them during the start of the production cycle, in which, parallel to the base of the cultivator, there are at least six corrugated cassettes placed, which are made of hygroscopic material, for example, non-woven cellulose material or synthetic fiber, on which the above-mentioned feed mixture is applied in the form of an emulsion for predatory ticks. Then, the temperature is maintained at 21-24 °C and 50-70% air humidity for seven days, after which the predatory mites are collected through the upper port in a container with a carrier and food for transport or in a clean form for a new cycle. At the same time, bulk materials are used as a carrier, such as wheat bran, millet, rice, buckwheat, oat husks, sawdust, vermiculite, coconut fibers and other similar materials, and decapsulated eggs of artemia crab with fresh plant pollen or food mites from the superorder Acariformes are used as feed. 1

Description

The useful model belongs to agriculture, in particular to the method of biological protection of plants from pests, and can be used in the mass breeding of predatory mites of the family RPpuiozeidae and other taxa of the superorder Ragaziyogtev5, which are used or are promising as agents of biological protection of agricultural crops.

Along with the benefits of using pesticides in agriculture, there are negative consequences that have led to serious changes in human health and the environment. Currently, there is incontrovertible evidence that some of these chemicals pose a potential hazard to humans and other life forms and have undesirable side effects for the environment (Rogdei 0., 1993). The indiscriminate use of chemicals leads to the fact that some time after the start of their use, there are not enough useful microorganisms in the soil to retain nutrients (Zamopep S., 1997), after which soil fertility decreases. The use of pesticides caused the suppression of natural mechanisms of self-regulation in biogeocenoses, which affected the growth of harmful organisms. Therefore, it is now necessary to look for alternatives to the use of chemical means of protection, which are biological methods of combating pests of agricultural products.

Greenhouse crop production is one of the most important components of agriculture in many countries. The stability of microclimatic conditions creates favorable conditions for the life of harmful arthropods, among which phytopathogenic mites of the Teigapuspidae family are distinguished. In greenhouse farms, the use of entomophages is quite relevant and has become the basis for comprehensive pest control programs, which is connected with the rather high resistance of the latter to pesticides in closed ecosystems (Seogde

And agahomiiz apa ai!, 2007).

Entomophagous agents are used against the main types of pests: aphids (Arpidoiidea), thrips (Tpuzaporiega), whiteflies (Aleugodicidae) and spider mites (Teigapuspididae). One of these entomophages is predatory ticks. Commercial system of mass breeding of predatory ticks represented by the family RVPuioseidae and the superorder in general

Ragazyogtevs, aimed at obtaining the maximum output of these predators with the help of minimal costs for the process itself. Spider mites are characterized by high fecundity, short development period under favorable conditions and quick adaptation to unfavorable conditions

Zo (Popov S.Ya., 1994). In a year, this mite produces 20 generations in greenhouses at a fairly wide range of temperatures from 21 to 31.5"7C and relative humidity from 20 to 80 95. (N.V. Bondarenko, 1972). Settling on plants, tetranych mites damage leaves , which leads to a general weakening of the culture, deformation of vegetative organs and fruits, thereby reducing the amount of the gross harvest and its quality (Ivanova G.P. et al., 2002). When applying acaricides, the products become contaminated, resistance to chemicals occurs in pests, and negative conditions are created for the work of personnel (Sukhoruchenko G.I., 2001; Tverdyuka A.P. et al., 1993). The use of acariphages will allow to produce clean products and preserve the environment from pollution.

Methods of breeding predatory ticks are known from the state of the art, which have a number of advantages and disadvantages in their technical performance and economic component.

In the application LO 2013190142A1 it is disclosed that for the cultivation of a population of predatory mites

Eggs of astigmatous mites and eggs of insects, in particular Lepidoptera, are used in the RpPuiozeidae family. Thus, according to a particularly advantageous variant of the invention, the composition of the invention contains at least one population of predatory mites Atrbiuseia 5umig5Kii (Rpuyuseiidae), eggs of Aiigodiurpi5 omaii5 and eggs of Erpesiia KippiePa. But this method has a number of technological and economic disadvantages, in particular, the complexity of the technological chain, since it is necessary to grow the culture of the astigmatic mite separately, and to carry out the collection and preparation of its eggs, which is time-consuming, as well as to grow the population of Herpezia KippiePa and carry out the collection, processing and preparation of eggs of this species, which also complicates the method of breeding predatory ticks.

The method described in the application OE 102010033048 A1 indicates the use of a food substrate that, according to the invention, contains microcapsules formed by liquid feed and a hard shell surrounding the liquid feed. Since predatory arachnids, in particular ticks, usually feed on liquid food, and cannot absorb solid particles. This type of feed can be used in three-dimensional growing systems, and the hard shell of the capsules protects their contents from external factors.

But this method has its peculiarities - it is the difficulty of preparing such microcapsules according to the necessary parameters, since the capsules must have the necessary dimensions and thickness of the shell, and complex compounds are added to the shell to stimulate eating behavior. Also, the composition of the internal nutrient base must be of constant quality and have the necessary nutritional value to ensure stable growth of the predator population. The issue of transportation and use of bred predators is also quite important.

A method of breeding predatory mites is known (patent application UMO 2006/057552 JSC), which is chosen as the closest analogue, in which populations of predatory mites of the Rpuiozeididae family, in particular

Atrbiuseii5 5migi5Kii, are grown using astigmatous mites, in particular belonging to the families Sagrodiurpidae, Rugodiurpidae, Siusurpadiidae or Asagiidae, as a food source. That is, this method reveals the composition of ticks, which contains: the population of the predatory tick RVuiozeiida

Atbriuseii5 5uligeKi and the population of the astigmatous mite Sagrodiurpa5 Iasii5, which is used as an alternative source of food for predators, since in natural conditions these species hardly interact. The rearing medium can be any solid material that is suitable for providing a bearing surface for the individuals. Examples of suitable carriers are plant materials such as (wheat) bran, buckwheat hulls, rice hulls, sawdust, corn grits, etc.

However, this method creates a number of problems.

On the one hand, first of all, it is necessary to obtain a prey population with all the difficulties associated with its cultivation. Also, this prey regularly needs food containing mainly grain products and yeast, ingredients that can cause mold growth, just like the substrate itself.

On the other hand, it is known that the balance between prey and predator populations, which is critical for obtaining the desired number of predatory mites, depends on the initial predator/prey ratio. Although this equilibrium is dynamic, it necessarily includes phases of decreasing predator populations. Too high a level of prey consumption can have a detrimental effect on predator growth, leading to a dramatic decrease in the predator population in a farming system.

Also, in general, such a production system requires parallel breeding of predator and prey with corresponding costs and logistics, which significantly affects the cost of finished products. Thus, there is a need to optimize the cultivation of predatory mites used in the system of biological protection of plants.

The basis of the useful model is the task of increasing the production productivity of the predatory mite, reducing labor costs, and also reducing the maturation period of biomaterial.

The task is solved in the method of breeding predatory mites, in which predatory mites of the Rpuiozeididae family are grown, using feed, according to a useful model, a feed mixture is used as feed, in the form of a feed emulsion for predatory mites, consisting of decapsulated eggs (cysts) of the Agpetia crayfish addition of Apozygas from the family of gill-footed crustaceans and fresh plant pollen, for example cattail pollen (genus Tur), including flower pollen, in the ratio of 10-90 95 to 90-10 95, respectively, crab-pollen eggs, in addition, in the composition the fodder emulsion additionally includes moisture-retaining components in a concentration of 0.01-1 Fo, such as CMC (carboxymethyl cellulose) and sodium polyacrylate, while using a cultivator with upper and lower ports to collect predatory mites and introduce them during the start of the production cycle, which is placed, parallel to the base of the cultivator, at least six corrugated cassettes of hygroscopic material such as non-woven cellulose material or synthetic fiber, on which the above-mentioned feed mixture in the form of an emulsion for predatory ticks is applied, then for seven days the temperature is maintained - 21-24 "C and air humidity of 50-70 95, after which the predatory ticks are collected through the upper port in a container with a carrier and feed for transportation or in a pure form for a new cycle, and loose materials are used as a carrier, for example, wheat bran, millet, rice, buckwheat, oat husk, sawdust, vermiculite, coconut fibers and other similar materials, and decapsulated Artemia crab eggs with fresh plant pollen or feeding mites from the upper layer

Asatp'ogtev.

The use of hygroscopic material such as non-woven cellulosic material or synthetic fiber for the feed mixture in rearing predatory mites ensures a good exchange of metabolic heat and gases. The addition of moisture-retaining components in a concentration of 0.01-1 95, such as CMC (carboxymethyl cellulose) and sodium polyacrylate to the fodder emulsion creates the necessary microclimate for the breeding of predators on the surface of the cassettes.

The use of all significant features in combination allows to significantly increase the production productivity of predatory ticks.

Example.

The cultivator is a cylindrical structure with a diameter of 40 cm and a height of 120 cm. It has upper and lower ports for collecting predatory mites and introducing them during the start of the production cycle. Corrugated cassettes in the amount of b pcs are placed in it. parallel to the base of the cylinder, made of synthetic fiber, on which a mixture of decapsulated eggs (cysts) of the Agpetia zaryp crab and fresh flower pollen is applied, in a different percentage ratio - 50 90:50 9o (option 1); 80 Fo:20 95 (option 2); 70 90:30 to (option 3), the mixture also included carboxymethyl cellulose and sodium polyacrylate in a total concentration of 1 95.

The total weight of the mixture is 1100 g. After that, through the lower port, a predatory mite from the family RPpuiozeiidae-Turpioagotir5 5uig5Kii is launched in the amount of 2.5 million individuals/cultivator, which is allowed to eat the applied mixture for further reproduction and accumulation of the predator. For 7 days, the room maintains optimal microclimate indicators - 21-24 "C and 50-70 95 air humidity. After 7 days, the predatory tick is collected through the upper port in a container with a carrier and feed, for further packaging and transportation. As a carrier for transporting predators ticks and use in plant protection, various loose materials are used, such as: wheat bran, millet, rice, buckwheat, oat husk, sawdust, vermiculite, coconut fibers, and other similar materials, and decapsulated artemia crab eggs with fresh plant pollen are used as feed , or feed mites from the superorder

Asatp'ogtev.

Each of the variants of the nutrient mixture is used in 5 production cycles of 7 days.

Productivity of variants of the proposed technology and the closest analogue is given in (table).

Before use, the cultivator is subject to heat treatment to ensure biological safety, to obtain a clean culture of ticks. The design has openings that do not interfere with gas exchange inside the device.

Table

Comparative characteristics of the average number of indicators of the accumulated predatory tick

Turpiodgotirz 5m/yg5Kii among the options of the proposed technology and with a prototype in 7 days

Coefficient

Introduction of a predator Output of a predatory mite on growth Difference from

Variant, Mo tick on 1 me 1 me working Atrbriuzeiiv5 the nearest working area, "S/m? area, "S/me 5umig5Kii in analogue week

En NS SHE SHE analog

Thus, the greatest productivity with 1 m? a mixture of decapsulated eggs (cysts) of the crab Agietia zapa and fresh flower pollen is observed in option 2 in the percentage ratio - 80 95:20 9o both in comparison between options and in comparison with the technology of the closest analogue. According to the results, a correlation can be traced between the number of Artemia crustacean cysts from the nutritional mixture and the number of the obtained predatory mite Turpioagotyrz 5umig5kKii.

According to the results, the described method of breeding predatory mites has a number of advantages in addition to higher productivity due to the composition of Agetia zaiip crab eggs and fresh flower pollen, as well as due to the automation of some processes associated with the decapsulation of Apetia eggs

From the store, preparing the nutrient mixture and applying it to the cassettes. Also, an important point is that pollen and crab eggs can be stored frozen.

The use of the proposed technical solution will make it possible to increase the productivity of breeding predatory mites of the Rpuiozeidae family by 10-13 95, and to collect predatory mites in their pure form, which will make it possible to control the quality of the population and select individuals with the most favorable indicators of productivity and trophic activity, thereby improving the culture of predatory mites of the Rpuiozeidae family, which is produced.

Claims (1)

USEFUL MODEL FORMULA The method of breeding predatory ticks of the RHnuiozeidae family, in which predatory ticks of the family are grown Rpuiozeiidae, using feed, which differs in that a feed mixture is used as feed, in the form of a feed emulsion for predatory mites, consisting of decapsulated eggs (cysts) of the crustacean Agpetia zaiepa from the family of Apozigas Gillipod crustaceans and fresh plant pollen, such as cattail pollen ( genus Tura), including flower pollen, in the ratio of 10-90 95 to 90-10 95, respectively, crab-pollen eggs, in addition, the composition of the fodder emulsion additionally includes moisture-retaining components in a concentration of 0.01-1 Fo, for example, CMC (carboxymethyl cellulose) and sodium polyacrylate, while using a cultivator with upper and lower ports to collect predatory mites and introduce them during the start of the production cycle, in which at least six corrugated cassettes of hygroscopic material, such as non-woven cellulose material or synthetic fiber, are placed, parallel to the base of the cultivator, on which the aforementioned feed mixture is applied in the form of an emulsion for predatory ticks, then for seven days they maintain a temperature of 21-24 "C and a humidity of 50-70 95, after which the predatory mites are collected through the upper port in a container with a carrier and feed for transportation or in a pure form for a new cycle, and as a carrier, loose materials are used, for example, wheat bran, millet, rice, buckwheat, oat husk, sawdust, vermiculite, coconut fibers and other similar materials, and decapsulated brine shrimp eggs with fresh plant pollen or forage mites from the superorder are used as feed Asatp'ogtev.