RU2694554C1 - Vermiculture reproduction method of the red earth earthworm eisenia foetida - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular, to invertebrate worms reproduction. Method of vermiculture reproduction of Eisenia foetida red earthworm includes maintenance of feed substrate moisture within 65–85 % at pH 6.5–7.5, wherein moisture and pH of the substrate are maintained by wetting it with stabilized catholyte alkaline fraction of ECHA water with pH 9–10 and Eh = -400…-700 mV, containing silicon oxide nano particles SiO₂ with size of 30.7 ± 0.3 nm in dose of 50 mg per 1 kg of the feed fodder. To stabilize cathode fraction of water ECHA, glycine in concentration of 0.01 wt %.

EFFECT: proposed method of reproduction of vermiculture of the red earthworm Eisenia foetida provides for increased fertility of worms compared to the control and prototype by 32,2 and 10 %, respectively.

1 cl, 1 tbl

Description

The invention relates to agriculture, namely the reproduction of invertebrate animals (worms).

A known method of removing worms, including maintaining the moisture content of the substrate in the range of 70-80% at an acidity pH of 6.8-7.2. At the same time, a constant maintenance of this level is required, for which powder of slaked lime or chalk is added to the substrate [1, 2, 3].

There is a method of maintaining optimum moisture and acidity conditions by periodically moistening the substrate with a stabilized ECA cathode aqueous solution with pH 9-10 and Eh = -400 ... -700 mV [4, 6] prototype.

In world practice, interest in the soil fertility management system has increased significantly by properly treating it with worms, as soil conditioners. At the same time, in combination with the use of modern nanotechnology achievements, many forms of the influence of nanoparticles (NPs) practically find application in plant growing, animal husbandry, as well as with increasing intensity of the worm reproduction technology [7, 8].

In particular, the possibilities of using silicon in the form of nanoparticles are expanding, since NPs are less toxic and have a prolonged effect on biological objects [9]. On the basis of silicon nanoparticles, new-generation biopreparations have been created that have been successfully tested [10], while the studies and conclusions of leading world scientists push the properties of silicon to the first place [11, 12]. In this case, the worms play a major role in the system of improving soil fertility, mixing layers and increasing aeration.

The objective of the invention is to maintain optimal conditions of moisture and acidity of the substrate - feed for worms and increase the efficiency of its digestibility, including Silicon NP, under conditions of elimination and reproduction of E. foetida worms.

The proposed method is implemented as follows.

Nanoparticles (NPs) of silicon oxide SiO _{2 were} used in the experiment: size — 30.7 ± 0.3 nm, chemical and phase composition: SiO ₂ — 99.8%, Cl: <0.2 (wt.%); production method - plasma-chemical synthesis, specific surface area (S _beats. ) - 109 m ² / g, Z-potential - 27 ± 0.12 mV, produced by PLASMOTERM (Russia, Moscow, Tarutinskaya st., 1).

To maintain the moisture and pH parameters of the organic substrate, the cathode fraction of electrochemically active (ECA) water is used as a deoxidizer. As a stabilization of the ECA cathode aqueous solution, glycine was used at a concentration of 0.01 wt. % of the group of polar uncharged amino acids, which guaranteed the safety of its properties pH 9-10 and Eh = -400 ... -700 mV for 7-10 days, in addition, the solution exhibits antimicrobial and antifungal activity [4, 6].

The E. foetida worms used in the experiment were grown in the nursery of the Nanotechnology Center in Agriculture of the Federal State Budgetary Institution FSC BST RAS. Worms were cultivated in cattle manure, fermented with an initial acidity pH of 6.8. For the experiment, sex-age worms weighing from 0.5 to 1.5 g were selected from which 3 groups were formed (n = 10): I - cultivation of worms by a known method [1]; II-cultivation of worms using catholyte with pH 9-10 and Eh = -400 ... -700 mV [4, 6]; III - the cultivation of worms was carried out with the addition of silicon oxide nanoparticles in a minimum concentration of 50 mg per kg of feed-substrate to a stabilized catholyte, causing a stimulating doping effect of overcoming negative factors. Worms were placed in containers with the prepared substrate of 10 pieces and kept in the dark. Perforated covers prevent moisture loss.

The reference period - the maturation test during reproduction was accepted in the experiment - 140 days [4] and was carried out at air temperature plus 20-25 ° C and substrate temperature - optimal + 20 (15-25) ° C, optimum substrate humidity 75 (65-85 )%, the pH of the environment optimal 7.0 (6.5-7.5) [2, 3]. The humidity and pH of the substrate were checked every 10 days, and chalk was introduced three times into the substrate of group I to reduce the acidity to pH 7.0.

A complete sampling of the adult population of worms (95-97%) at the end of the 140-day test was performed by tripling the worms with the frequency of 6-7 days, three times a day.

As can be seen from the table, the cultivation of worms with the addition of silicon oxide nanoparticles to stabilized catholyte at a dose of 50 mg per kg of substrate (group III) increased the fertility of worms compared to groups I and II by 32.2% and 10.0% respectively.

Literature

1. Gorodniy N.M., Melnik I.A., Povkhan M.F. and others. Bioconversion of organic waste in a biodynamic economy. - Kiev: Harvest, 1990. - 256 p.

2. Igonin A.M. Earthworms: how to improve soil fertility dozens of times, using the "miner" earthworm. - Carpet: Mashteps, 2002. - 192 p.

3. The patent for the invention of the Russian Federation No. 2058737. The method of obtaining technological (specialized) rocks compost earthworm Eisenia foetida / A.M. Igonin. Published 04/27/1996.

4. Patent for the invention of the Russian Federation No. 2040174. Method of breeding worms / B.G. Rogachev, Yu.N. Sidorov. Published on 07/25/1995 - prototype.

5. Patent for the invention of the Russian Federation № Device for growing vermiculture technologically specialized earthworm Eisenia foetida

6. The patent for the invention of the Russian Federation №2234945. Stabilizer of an aqueous solution and water-containing raw materials with spontaneously changing redox properties / V.M. Janitors. Published 08/27/2004.

7. Soenen S.J., Himmelreich U., Nuytten N., De Cuyper M. Cytotoxic of iron oxide nanoparticles and implications for cellulose labeling, Biomaterials. 2011 Vol. 32 (1), p. 195-205.

8. Mahmoudi M., Hofmann H., Rothen-Rutishauser V., Petri-Fink A. / Assessing the in vitro and in vivo toxicity of superparamagnetic iron oxide nanoparticles // Chem. Rev. 2012 Vol. 112 (4), p. 2323-2338.

9. Kovalenko L.V., Folmanis G.E. Biologically active nanopowders gell. M .: Science, 2006. - 124 p.

10. Arsentieva I.P., Dzidziguridi EL., Zakharov N.D. et al. // Prospective materials. 2004. №4. P.64-68.

11. Heather A. Currie, Carole S.Perry. Silica in Plants: Biological, Biochemical and Chimical Studies. Ann Bot. 2007 December; 100 (7): 1383-1389.

12. Matichenkov B.B., Bocharnikova E.A., Kosobryuhov A.A., Bill K.Ya. On mobile forms of silicon in plants // DAN RAS. 2008. T. 418. №2. Pp. 279-281.

13. Lebedev S.V., Sizova E.A., Garish I.A. Trofometabolic potential of Eisenia fetida Savigny, 1826 (OLIGOCHATA, LUMBRICIDAE), due to the presence of copper and its oxide nanoparticles in the soil / Volga ecological journal. 2017. №2. Pp. 147-156.

Claims (1)

The method of propagation of vermiculture red earthworm Eisenia foetida, including maintaining the moisture content of the feed substrate in the range of 65-85% at pH 6.5-7.5, characterized in that the moisture and pH of the substrate are maintained by wetting it with a stabilized catholyte alkaline fraction of ECA water with pH 9-10 and Eh = -400 ... -700 mV, containing nanoparticles of silicon oxide SiO _{2 with a} size of 30.7 ± 0.3 nm at a dose of 50 mg per kilogram of feed substrate, while as a stabilizer of the properties of the cathode fraction of ECA water is used glycine at a concentration of 0.01 mass. %