RU2707630C1 - Method of breeding earthworms - Google Patents

Abstract

FIELD: vermiculture.

SUBSTANCE: invention relates to vermiculture. Method of breeding earthworms envisages the following. Container is filled with a substrate, earthworms placed into the reservoir in the form of a combination of species complexes; the reservoir is closed with a protective material with the possibility of moisture exchange and gas exchange, which prevents fauna penetration inside the reservoir. Closed container is installed in soil, repeating depth and structure of soil layers surrounding reservoir. Substrate used is a defaunaized soil, and the species complexes can include the following types of earthworms: Eisenia nordenskioldi, Aporrectodea caliginosa, Lumbricus rubellus. Material covering the vessel is represented by a sieve fabric. Inside the container the substrate is periodically weed. Container is filled with the substrate by layers, repeating the depth and structure of the soil layers surrounding the reservoir. Substrate humidity level of not less than 40 % is maintained in the vessel.

EFFECT: invention makes it possible to increase number of earthworms.

7 cl, 1 tbl

Description

The technical solution relates to a method for breeding invertebrates, more precisely, to vermicultivation.

A known method of growing biomass of worms, which involves laying the substrate in the form of manure in a device that includes a concrete base plate, a bed made of metal mesh in the form of a box with a bottom; a gasket that is placed inside the bed and made of non-woven fibrous material, and having a flat shape of the cover, which is attached to the upper edge of the bed. RF patent for the invention No. 2090541, IPC C05F 17/00; A01K 67/033; C05F 11/02, published 09/20/1997.

The disadvantage of this method is the low productivity of growing native earthworms that need natural and safe conditions.

The prior art also knows the solution, which consists of growing vermiculture of the earthworm of the breed Eisenia foetida and obtaining vermicompost in a plastic container, in the bottom of which there are holes for compost aeration, and a mesh element is installed in the center of the bottom, which also provides air intake and drainage of excess water. As the processing of the substrate, the container is filled with fresh. At the end of the cycle, part of the worms are sold together with vermicompost as products, part is used in a repeated cycle for subsequent reproduction. RF patent for the invention No. 2595738, IPC A01K 67/033; C05F 3/06, published 08/27/2016.

In the known technical solution, only one type of worm is involved in the breeding process. Species uniformity does not contribute to the active growth of the worm population. In addition, as a substrate, in the presented method, do not use soil, but only peat, straw, sawdust, leaves and so on. For many species of worms, the soil is a natural environment and a fundamental factor in their reproduction.

A technical solution is known, selected as the closest analogue, representing a method of culturing insects and obtaining, through this, fertilizer. The method includes placing various insects, including worms, in a container filled with a substrate. The habitat of the worms is artificially provided with optimal indicators of temperature, humidity, and lighting. Metabolic waste generated during the life of insects enters the channel built into the bottom of the tank for further separation and processing in order to prepare biohumus. Such containers are installed in industrial premises, in particular, on special racks. US application for invention No. 20122214223, IPC A01K 29/00; S12M 1/00; C12M 1/34, published 2012.08.23.

The disadvantage of this technical solution is the insufficient growth of the population of worms cultivated together with other insects, which include beetles that feed on worms. In addition, the conditions of the worms are far from natural, which negatively affects their growth and reproduction.

The technical result of the claimed technical solution is manifested in the efficiency of growing earthworms, which is manifested in an increase in their active and healthy population due to their habitat in a natural and safe environment, which is ensured by installing a container with a substrate in the soil, and using de-fertilized soil as a substrate.

The technical result is achieved in that for breeding earthworms, the container is filled with a substrate, placed in the container of earthworms in the form of a combination of species complexes, the container is covered with protective material made with the possibility of moisture exchange and gas exchange, which prevents the penetration of fauna into the container. Next, make the installation of a closed tank in the soil. As a substrate, de-fertilized soil is used. Species complexes may include the following types of earthworms: Eisenia nordenskioldi, Aporrectodea caliginosa, Lumbricus rubellus. As the material covering the container, a sieve cloth may be used. Inside the tank can periodically weep the substrate. Filling the reservoir with the substrate can be done in layers, repeating the depth and structure of the soil layers surrounding the reservoir. Installation of the tank in the soil can be performed by repeating the depth and structure of the soil layers surrounding the tank. In the tank they can maintain a substrate moisture level of at least 40%.

In order to describe the claimed technical solution, the following definitions are made:

Screen fabric is a lightweight synthetic woven fabric made with fine mesh weave. An example of such a material is a mill gas, which is a polyamide mesh.

Defaunization - the destruction or extraction of representatives of soil fauna from a substrate.

For the efficient cultivation of earthworm biomass, an important step is the defaunization of the substrate, since the soil used as it contains organisms that pose a danger to the life of worms or compete with them. Such a measure allows farmed invertebrates to increase their population in a safe and at the same time natural environment, which, due to the content of organic waste from plant and animal organisms in the soil, has a positive effect on the health and active life of earthworms.

The installation of the container in the soil helps to create a natural habitat for worms, an environment in which indicators of humidity, lighting, and temperature are optimal. It is important at the same time to fill the tank, repeating the natural soil profile, familiar and characteristic of worms of the species that are bred, and to make the installation of the tank, repeating the depth and structure of soil layers loaded into the tank.

The use of cultivated earthworms, a combination of their species complexes, as recorded by experiments, provides a large increase in their obtained population, in comparison with the variants of their monocultural habitat.

The most successful results of cohabitation and breeding are the following types of earthworms: Eisenia nordenskioldi, Aporrectodea caliginosa, Lumbricus rubellus.

Significant interaction was recorded for L. rubellus and A. caliginosa. Their coexistence is mutually beneficial due to their belonging to different environmental groups [5]. A. caliginosa affects the formation of water-resistant macroaggregates and improves soil structure, which improves the quality of life for L. rubellus and increases its productivity [1], [4]. In addition, Endogenous A. caliginosa relatively often benefits from the presence of other species, for example, using litter processed by L. rubellus as an additional food source [2], [4]. Thus, in addition to its well-known ability to cope with environmental variability, flexibility in responding to potential competitors, and opportunistic exploitation of local resources can contribute to its environmental success [6].

The interaction of E. nordenskioldi with L. rubellus gives a positive reaction to the productivity of this pair of species and contributes to an increase in numbers. The cohabitation of the native species E. nordenskioldi with A. caliginosa leads to mutual rejuvenation of populations and an increase in the total number [7].

Closing the container with protective material made with the possibility of moisture exchange and gas exchange, preventing the penetration of fauna into the container, helps to create optimal and natural living conditions and propagation of earthworms due to air circulation, preserving the possibility of rainfall and free movement of water in horizontal and vertical directions, ensuring with a high degree of security for worms. It is preferable to use a sieve cloth for these purposes.

Periodic weeping of the substrate inside the container contributes to its aeration, and is also necessary to avoid breakthrough of the material covering the container.

An important condition for ensuring the health and activity of earthworms is also to maintain the substrate humidity in the tank at least 40%.

One of the preferred embodiments of the method of breeding earthworms is shown below by example.

A container is made, mainly of a cylindrical shape, made, for example, of polypropylene or PVC. The diameter of the container is preferably not less than 15 cm, optimally 25 cm. The container is preferably made with a length corresponding to the depth of freezing of the soil. In particular, for Western Siberia, it is optimal to produce a container with a length of 1 m. The wall thickness of the container should preferably be 0.5-6.2 mm.

The bottom of the tank is closed with a protective material made with the possibility of moisture exchange and gas exchange, preventing the penetration of fauna into the tank.

Then a substrate is placed in the container, in the form of pre-de-fertilized soil. The soil is loaded in containers in layers, repeating the natural profile of the soil. The de-soilization of the soil is preferably carried out by removing all representatives of the soil fauna, for example, using a sieve, in particular with a mesh diameter of 5 mm.

Next, the container filled with the substrate is mounted in the soil, mainly repeating the depth and structure of the soil layers surrounding the container. That is, a plot of soil removed from the environment is selected taking into account the soil horizon, for its subsequent restoration in the vertical direction.

Then, earthworms are placed in the container as a combination of species complexes. The complex may include 2-3 types of earthworms in a multiple ratio to each other. Mostly, the following types of earthworms are used as species complexes: Eisenia nordenskioldi, Aporrectodea caliginosa, Lumbricus rubellus.

The effect of increasing the number and biomass of earthworms during the cohabitation of many of their species has been experimentally verified. The data obtained are shown in Table 1.

A container filled with a substrate and earthworms is also covered with a protective material made with the possibility of moisture exchange and gas exchange, preventing the penetration of fauna into the container. Advantageously, sieve fabric such as, for example, mill gas, is used as such a material. The protective material must be fixed both from above and from the bottom of the container, using, for example, thermoplastic glue and power staples.

Earthworms, while in defunded soil, and protected from the penetration of predators and competitors in their environment, grow and multiply unhindered while remaining in their natural conditions.

Further, during the growing season (summer, warm period), earthworms will dwell in these containers. To ensure optimal conditions for their dilution, it is desirable to maintain a substrate moisture level of at least 40%. For this, for example, watering is carried out, depending on the ambient temperature and the amount of precipitation, from 2 to 4 liters of water per tank per week.

To maintain the nutrient cycle, as a feed, you can use tree litter, for example, linden, birch and / or poplar, as well as vegetative mass growing inside the tank.

In an advantageous embodiment of the method, periodic weeping of the substrate inside the container is carried out, for example, with a frequency of once every 2 weeks.

The extraction of earthworms, subject to year-round implementation of the method of breeding them, can be done in the periods: May-June and the end of August - beginning of September, with the extraction of up to 40-60% of the population. The rest of the time, it is not recommended to seize more than 15-20% of individuals, and no more than 2 times between the main periods of seizure.

The claimed method allows you to effectively grow earthworms, allowing you to get their active and healthy population, cultivated under optimal conditions for this, provided by their habitat in a natural and safe environment, which is achieved by installing a container with a substrate in the soil, and use as a substrate defauned soil.

List of references

1. Bossuyt, N., Six, J., Hendrix, P.F., 2006. Interactive effects of functionally different earthworm species on aggregation and incorporation and decomposition of newly added residue carbon. Geoderma 130, 14-25.

2. Jegou, D., Capowiez, Y., Cluzeau, D., 2001. Interactions between earthworm species in artificial soil cores through the 3D reconstruction of the burrow systems. Geoderma 102, 123-137.

3. Mathieu, J., 2018. EGrowth: a global database on intraspecifc body growth variability in earthworm. Soil Biol. Biochem. 122, 71-80.

4. Postma-Blauuw, M. B., Bloem, J., Faber, J. H., van Groeningen, J. W., de Goede, R. G. M., Brussaard, L., 2006. Earthworm species composition affects the soil bacterial community and net nitrogen mineralization. Pedobiologia 50, 243-256.

5. Raty, M., Huhta, V., 2003. Earthworms and pH affect communities of nematodes and enchytraeids in forest soil. Biol. Fertil. Soils 38, 52-58.

6. Uvarov, A.V., 2009. Inter- and intraspecific interactions in lumbricid earthworms: their role for earthworm performance and ecosystem functioning. Pedobiologia 53, 1-27.

7. Golovanova E.B. There are advantages to the native species of earthworms in comparison with invading species in Western Siberia / E.V. Golovanova, S.Yu. Knyazev, K. Karaban // Problems of Soil Zoology. Materials of reports of the XVIII All-Russian meeting on soil zoology. Moscow, October 22-26, 2018 M .: Partnership of scientific publications of KMK. - S. 60-62. https://elibrary.ru/item.asp?id=36442522.

Claims (7)

1. A method of breeding earthworms, characterized in that the container is filled with a substrate, placed in the container of earthworms in the form of a combination of species complexes, the container is closed with protective material made with the possibility of moisture exchange and gas exchange, preventing the penetration of fauna into the tank, characterized in that they are installed a closed container into the soil; as a substrate, de-fertilized soil is used. 2. A method of breeding earthworms according to claim 1, characterized in that the species complexes include the following types of earthworms: Eisenia nordenskioldi, Aporrectodea caliginosa, Lumbricus rubellus. 3. A method of breeding earthworms according to claim 1, characterized in that a sieve cloth is used as the material covering the container. 4. A method for breeding earthworms according to claim 1, characterized in that the substrate is periodically weeded inside the vessel. 5. The method of breeding earthworms according to claim 1, characterized in that the container is filled with a substrate in layers, repeating the depth and structure of the soil layers surrounding the container. 6. The method of breeding earthworms according to claim 1, characterized in that the installation of the tank in the soil is performed by repeating the depth and structure of the soil layers surrounding the tank. 7. The method of breeding earthworms according to claim 1, characterized in that in the container the substrate is maintained at a moisture level of at least 40%.