WO2021133368A1

WO2021133368A1 - Method for rearing neoseiulus reductus predatory mites

Info

Publication number: WO2021133368A1
Application number: PCT/UA2020/000105
Authority: WO
Inventors: Ярослав Олегович ИВАНОВ
Original assignee: Ярослав Олегович ИВАНОВ
Priority date: 2019-12-23
Filing date: 2020-12-09
Publication date: 2021-07-01

Abstract

A method for rearing predatory mites includes combining a population of Neoseiulus reductus predatory mites with a population of Tyreophagus entomophagus prey mites, the predatory individuals being allowed to feed on the individuals of the population of prey mites. A feed substrate is prepared which is based on wheat bran or buckwheat husks or rice husks, or wood shavings having a particle size of 2-4 mm, which are pre-decontaminated and placed in a ventilated closed container, wherein the volume of the substrate is equal to 50% of the volume of the container, then mites are introduced into the container in a predatory mite to prey mite ratio of 1:5-1:50 individuals/cm³. The containers are kept in a room at a temperature of 21-25°С with an air humidity of 40-70% for 7-14 days, and the substrate is stirred daily. At the end of the cultivation period (7-14 days), the population density of the predatory mites is checked and if it does not meet the desired requirements, then a portion of the predator-containing substrate is mixed with a new feed substrate and Tyreophagus entomophagus are added in a predatory mite to prey mite ratio of 1:5-1:50 individuals/cm³ depending on the number of Neoseiulus reductus predatory mites used to start the new system for amassing predatory mites.

Description

Invention title

NEOSEIULUS REDUCTUS PREDATIVE MITES BREEDING METHOD TECHNICAL FIELD

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

Prior art

The use of pesticides to protect plants from pests of agricultural products causes suppression of the natural mechanisms of self-regulation in biogeocenoses, which is reflected in the growth of harmful organisms. Therefore, at present it is necessary to look for alternative means of protection to chemical ones. Such means are biological methods of pest control of agricultural products.

Greenhouse plant growing 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 ticks of the Tetranychidae family are distinguished. Ticks of the Tetranychidae family are distinguished by high fertility, a short period of development under favorable conditions, and quick adaptability to unfavorable conditions (Popov S.Ya., 1994). For a year, this mite produces 20 generations in greenhouses with a fairly wide temperature range (21-31.5) ° С and relative air humidity (20-80)%. (Bondarenko N.V., 1972). When settling on plants, mites of the family

Tetranychidae damage leaves, which leads to a general weakening of the culture, deformation of vegetative organs and fruits, thereby reducing the value of the gross yield and its quality. (Ivanova G.P. et al, 2002).

The use of acariphages will allow to produce clean products and save the environment from pollution.

A known method of breeding predatory mites (patent RU2351126, Published: 10.04.2009 bull. N ° 10). The method includes growing a flour mite on sterilized and moistened bran and infecting it with a mite Amblyseius. To do this, use bran with a particle size of 1.0-2.0 mm, moisten them by spraying with sterile water at the rate of 750 ml of water per 10 liters of substrate. Then, the bran placed in cuvettes with a layer of 5-7 cm is infected with a flour mite. Infection with the Amblyseius mite is carried out after 14-15 days at a flour mite density of 9.5-10 thousand individuals / cm ³ and at a ratio of 1: 50-1: 100, while the bran layer in the cuvettes is brought to 7-10 cm, and the collection the Amblyseius tick is carried out in 14-15 days.

The disadvantage of this method is the presence of laborious breeding stages, such as placement in glass containers, placement in plastic boxes, decontamination of these containers, as well as collection of predatory mites at the end of each cycle, with a rather small increase in Amblyseius cucumeris and a long period of its accumulation.

Known methods of mass cultivation of Neoseiulus californicus (Wei-Lan Ma and Laing, J.E., 1973) and Neoseiulus Reductus (Kolodochka L.A., Lysaya E.A., 1976), which are carried out on host plants using a natural food source - a spider mite. Mass breeding includes production and ends with the collection of predatory mites, after which the most suitable representatives of phytoseiids are selected from the point of view of a specialist technologist, for breeding - launching a new production cycle.

The disadvantages of this method include the instability of the amount of produced acariphage (predatory mite), (depending on the season, from 1 m ³ are collected from 13 to 40 thousand individuals of the predator), a long period of its accumulation (35-55 days), as well as the method is energy and resource-intensive

There is a known method of mass breeding of the predatory mite Phytoseiulus, which we like for a prototype, including growing plants, infecting them with a tick of the Tetrcmychidae family (spiderweb), followed by the release of the Phytoseiulus mite on these plants and collecting Phytoseiulus Boglyarov G.A. Methodical guidelines for mass breeding and use of the predatory phytoseilus mite for combating spider mites in greenhouses on cucumbers. M. Kolos publishing house 1.1968). However, with this method of breeding, premature spontaneous colonization of the Phytoseiulus tick occurs in areas where the tick of the Tetranychidae family (spiderweb, forage) should accumulate.

Disclosure of invention

The utility model is based on the task of increasing the productivity of the predatory mite production, as well as reducing the maturation of the biomaterial.

The problem is solved in a method for breeding predatory mites, in which the population of predators is combined with a population of alternative species of food mites, individuals of predators are given the opportunity to feed on individuals of the population of food ticks, according to the invention, the population of predators Neoseiulus reductus is used as a predatory tick, and ticks are used as a food tick from the Acariformes family, for example, Tyreophagu sentomophagus, wherein the method includes preparing a fodder substrate either on wheat bran or buckwheat or rice husks, or sawdust with a particle size of 2-4 mm, which are pre-disinfected by keeping at a temperature of 90 ° C for 5 hours are then moistened at the rate of 20-40 ml of water per 1000 ml of bran and placed in a closed container with ventilation, and the volume of the substrate is 50% of the volume of the container and placed on the substrate of the female predatory mite Neoseiulus reductus and the feeding tick Tyreophagus entomophagus is introduced into the container in the ratio nii predatory mite-feed mite 1: 5-1: 50 individuals / cm ³ , then the containers are kept indoors at a temperature of 21-25 ° C and an air humidity of 40-70% for (7-14) days, while stirring daily , then after the end of the cultivation period (7-14) days, the population density of the predator is recorded, while, if it does not meet the necessary requirements, then to achieve the required population density, the material is cultivated by mixing part of the substrate with the predator with a new fodder substrate, previously disinfected and humidified at the rate of 20-40 ml of water / 1000 ml of substrate, add Tyreophagus entomophagu, in a ratio of 1: 5-1: 50 individuals / cm ³ , depending on the number, Neoseiulus reductus predatory mites, which are used to launch a new accumulation system of predatory mites.

Removal of females of the predatory Neoseiulus reductus mite on a forage substrate in a container and the introduction of a forage mite Tyreophagus entomophagus into this container in the specified ratio of predatory mite-forage mite will provide the predatory mite with a highly productive source of high-quality food base for increasing the population of predatory mites from the Phytoseidae family, including the phytoseidae family Neoseiulus reductus. This makes it possible to obtain a high productivity of the yield of biological material during the mass production of predatory mites and to ensure the economic feasibility of the method.

The cultivation of Neoseiulus Reductus is carried out in a free-flowing carrier such as sieved wheat bran with a particle size of 2-4 mm, also buckwheat husks, rice husks, millet husks, sawdust, and mixtures thereof. The substrate serves as a cultivation medium and a carrier for the transport and dispersal of predatory mites on plants to combat phytophagous invertebrates.

Thus, the proposed method for growing predatory mites has high productivity and is economically feasible. The density of the Neoseiulus reductus population increases by 1.3-4 times compared to the density when set. The productivity of the proposed technical solution is 5.5 - 6.5 million OS / m ^{3 of the} production area.

The productivity of the proposed technical solution is 5.5 - 6.5 million OS / m2 ^of production area. The biomaterial accumulation period is 7-14 days.

The following is a description of a specific embodiment of the present invention.

An embodiment of the invention. Example. Neoseiulus reductus is grown using Tyreophagus entomophagus as a laboratory host, produced as follows: a feed substrate carrier of wheat bran is prepared, previously disinfected at a temperature of 90 ° C for 5 hours, moistened at the rate of 20-40 ml of water per 1000 ml of bran. The fodder substrate is placed in a sealed container with ventilation, which is a plastic bucket from 1 to 10 liters with a tight-fitting lid. The volume of the substrate in the container is from 1 to 5 liters. Next, females of the predatory mite Neoseiulus reductus are launched and the feeding mite Tyreophagus Entomophagus is introduced in a predator-prey ratio of 1: 5-50. The population density of Neoseiulus reductus should start from 5 to 50 individuals / cm ³ . Further, this system is placed for building up in a room with a temperature (21-25) ⁰ С and air humidity (40-70)%. To prevent caking, it is necessary to stir the substrate daily and monitor the quality of the biomaterial. After 7-14 days, the number of predatory mites increases, while the number of forage mites decreases and the accumulation cycle stops, as the system depletes resources. Next, the population density of the predator is taken into account, the number of individuals per unit volume of the substrate (individuals / cm ³ ) is determined.

The population growth rate in the container is calculated by comparing the population density when entering the container and the population density at the end of the culture cycle.

This indicator can be from 1.3 to 4 (examples are tables 1.1, 1.3, 1.5), but should average 1.5-3. In case of inconsistency in the growth rate of the population density downward (below 1.5) or the need to achieve a certain indicator of population density (individuals / cm3), the material is cultivated by mixing part of the substrate with a predator after cultivation with a new forage substrate, previously disinfected and moistened , at the rate of 20-40 ml of water / 1000 ml of substrate, add Tyreophagus entomophagus, in a ratio of 1: 5-1: 50 individuals / cm ³ , depending on the number of Neoseiulus reductus predatory mites, which is used to launch a new accumulation system for predatory mites. The density of the Neoseiulus reductus population increases by 1.3-4 times compared to the density that is laid. (Examples - Tables 1.1, 1.3, 1.5).

The age structure of populations of predatory and forage ticks (Tables 1.2, 1.4, and 1.6) is characterized by an inverse correlation between the number of eggs and the youngest stages (larvae and nymphs) in the number of adults. These accumulation characteristics make it possible to use Tyreophagus entomophagus as a laboratory host for the accumulation of Neoseiulus reductus in mass quantities for use in plant protection.

Table 1.1

Population density dynamics of Neoseiulus reductus during the expansion of the N ° lc production line using Tyreophagus entomophagus

Table 1.2

Age structure of predatory and forage tick populations in production line 1 using Tyreophagus eentomophagus

Table 1.3

Population density dynamics of Neoseiulus reductusB during the expansion of the Ne 2 production line using Tyreophagus entomophagus

Table 1.4

Age structure of predatory and forage tick populations in a production line2 using Tyreophagus entomophagus

Table 1.5

Dynamics of the population density of Neoseiulus reductus during the expansion of the production line J4 »3c using Tyreophagus entomophagus

Table 1.6

Age structure of predatory and forage mite populations in production line N ° 3c using Tyreophagus entomophagus

Industrial applicability

The most successfully proposed method can be used for mass breeding of a predatory mite of the Phytoseidae family, the genus Neoseiulus, namely the Neoseiulus reductus species, which is used as biological protection of agricultural crops. The proposed breeding method has high productivity and economic feasibility. The density of the Neoseiulus reductus population increases by 1.3-4 times compared to the density at setting. The productivity of the proposed invention is 5.5 - 6.5 million individuals / m2 ^of production area. Yu

Claims

Claim

A method of breeding predatory mites, in which a population of predators is combined with a population of alternative species of food ticks, individuals of predators are provided with the opportunity to feed on individuals of the population of food ticks, characterized in that the population of predators Neoseiulus reductus is used as a predatory tick, and ticks from the family Acariformes, for example, Tyreophagu sentomophagus, wherein the method comprises preparing a fodder substrate either on wheat bran or buckwheat or rice husks, or sawdust with a particle size of 2-4 mm, which are pre-disinfected by keeping at a temperature of 90 ° C for 5 hours, then moistened at the rate of 20-40 ml of water per 1000 ml of bran and placed in a closed container with ventilation, and the volume of the substrate is 50% of the volume of the container and placed on the substrate of the female predatory mite Neoseiulus reductus and introduced into the container feed tick Tyreophagus entomophagus in the ratio of predatory mite feed mite 1: 5-1: 50 individuals / cm ³ , then the containers are kept indoors at a temperature of 21-25 ° C and an air humidity of 40-70% for 7-14 days, while they are stirred daily, then after the end of the cultivation period ( 7-14) days, the population density of the predator is recorded, while, if it does not meet the necessary requirements, then to achieve the required population density, the material is cultivated by mixing part of the substrate with the predator with a new forage substrate, previously disinfected and moistened at the rate of 20 40 ml water / 1000 ml substrate, add Tyreophagus entomophagu, in the required ratio of 1: 5-1: 50 wasps / cm ³ , depending on the number, Neoseiulus reductus predatory mites, which are used to trigger the new predatory mite accumulation system.