RU2290806C1 - Method for determining of optimal conditions for cultivation of vermiculture - Google Patents

Abstract

FIELD: vermiculite cultivation, in particular, selection of optimal conditions for cultivation of vermiculture.

SUBSTANCE: method involves placing worms into container filled with different substrates; holding; determining optimal cultivation conditions by frequency of encountered worms and amount of laid cocoons; charging annelids from the top into container; arranging substrates in layers and dividing said layers by means of netted partitions; holding worms during 1-2 days at temperature of 18-22 C; performing visual evaluation through transparent front wall.

EFFECT: simplified method for determining optimal vermiculite cultivation conditions, increased number of substrates tested for one cycle, and reduced time consumed for experiment.

2 dwg

Description

The invention relates to vermicultivation, in particular to the selection of optimal conditions for the cultivation of vermiculture.

Despite the widespread use of annelid worms and primarily the “California hybrid” for processing organic waste into a valuable biological fertilizer - vermicompost, the issue of determining substrate preference (preference) for them remains an urgent issue. This is largely due to the fact that a wide range of substrates requiring processing is very variable in their chemical composition, and, in addition, the preparation of various mixtures for worms based on various wastes from both animal husbandry and crop production and the processing industry requires the systematic determination of this indicator . Moreover, at present, the “California hybrid” is used in large-scale waste processing and is a commercially significant object, which requires strict technological accounting, which is impossible without the definition of a substrate preference.

Traditionally, the so-called “sample of 50 worms” was used to determine the substrate preference of worms, in which 50 worms were planted in the finished substrate and after a while (5-7 days) their viability and the possibility of using the substrate to feed the worms were determined, and then this substrate was used to feeding the total number of worms (Gorodniy NM, Melnik IA, Povkhan MF and others. Bioconversion of organic waste in a biodynamic economy. Kiev: Urazhay, 1990. P.123).

However, the determination of the referendum by this method does not give a quick answer about the quality of the substrate. In addition, this method does not allow simultaneous evaluation of the worm preference, which under industrial conditions makes it inefficient and requires replacement. When using this method, there is no way to increase the cycles of substrate evaluation and reduce the time for one experiment.

There is a method of determining substrate preference in earthworms, including the placement of substrates of different quality in mesh bags in radial symmetry in a cylindrical vessel in a tight circle around one of the samples, the worms are let into the central sample in an amount of 10-50 copies, after 3-5 days they are disassembled all substrate samples, replacing dead worms with living ones and taking cocoons, with each new cycle replacing the central sample with one of the peripheral ones, and the substrate preference is determined by the frequency of occurrence and worms and the number of pending their cocoons (RF Patent №2115314, cl A 01 K 67/033 Publ 20.07.1998 -.... a prototype).

In the known method, the studied substrates must be placed in mesh bags, which requires a large number of mesh bags, the same size and with a certain pore size. Moreover, the size continued to allow worms to freely move along the substrate between the bags, which is difficult to adjust, since the pores will overlap when the bags touch, which means that their size will be difficult to adjust. In addition, the radial symmetry of the arrangement of the bags around the Central vessel geometrically complicates the location of a large number of samples at the same time. Another disadvantage of this method is the length of the process of determining the optimal substrates.

The known methods do not allow in a short time and with a large number of samples to determine the optimal conditions for the cultivation of vermiculture due to the complexity of the methods used.

The technical solution to the problem is to simplify the method for determining the optimal conditions for the cultivation of vermiculture, increase the number of tested for one cycle of substrates and reduce the time spent on the experiment.

The problem is achieved in that in a method for determining the optimal cultivation conditions of vermiculture, which includes placing the worms in a container with various substrates, maintaining them, determining the optimal cultivation conditions is carried out according to the frequency of occurrence of the worms and the number of laid cocoons, and the worms are launched into the container from above, and the substrates are placed layer by layer, separating them with mesh partitions, the worms are kept for 1-2 days at a temperature of 18-22 ° C, the assessment is carried out visually through the front red wall.

The claimed method for determining the optimal cultivation conditions of vermiculture differs from the prototype by the devices used in the method, the time taken to conduct one determination cycle, and the number of substrates simultaneously determined.

These differences allow us to conclude that the claimed technical solutions meet the criterion of "novelty."

The features that distinguish the claimed technical solution from the prototype are aimed at achieving the task and have not been identified in the study of patent and scientific and technical literature in this and related fields of science and technology and, therefore, meet the criterion of "inventive step".

The invention is illustrated in figures 1 and 2, which shows a device with which a method is implemented to determine the optimal conditions for the cultivation of vermiculture.

The device is a container made of plastic, and its cross section is 8-10 times smaller than the longitudinal one, and the height is half of the cross section. The top of the container is open. The front wall of the container 1 is removable, and the rear 2 and side 3 walls are stationary. Under the front wall there is a stationary glass plate 4, which allows you to track the location of the worms in the substrate throughout the determination cycle without opening the container. The presence of a removable front wall is determined by the need to protect the worms from light (transmitted through transparent glass), since they are characterized by a negative light taxis (moving the worms away from the light source). Mesh partitions 5 are placed inside, providing free movement of worms, which are fixed on the bottom 6 of the container, forming separate compartments 7-12 for the investigated substrates.

A method for determining the optimal cultivation conditions of vermiculture is implemented as follows.

Separately prepared substrates are placed in the compartments of the device, and the volumes of the samples of the substrates must be equal and completely fill them, ending at the level of the mesh partitions. The investigated substrates should be of the same humidity. A substrate containing worms and most of them processed is applied evenly on top of it. The size of the worm population depends on the number of compartments and should be 20 individuals per compartment. After filling the upper substrate, it is moistened.

The aging temperature of the device in the cycle for determining feed prendum is the interval 18-22 ° C, and the time is 1-2 days. If the temperature is reduced below 18 ° C, then the physiological processes, including food taxis, in worms will be slow, and it will not be possible to quickly determine the nutritional attractiveness of the substrate in 2 days. If the temperature is increased more than 22 ° C, then it will be higher than comfortable for annelids, and its further increase can lead to the death of the population. Therefore, for a qualitative assessment of the nutritional attractiveness of substrates, the optimal cultivation time is 1.5 days at a temperature of 20 ° C.

The choice of substrate by worms is determined by many factors (humidity, pH, concentration of nitrogen salts, etc.); therefore, the positive chemotaxis of worms to it is an integrated indicator of substrate suitability. Based on this, the quality of the substrate is determined by the number of worms in each substrate. After the end of the aging cycle of the worms in the substrate, the front removable wall is removed and the number of worms and the degree of damage to the substrate are determined through transparent glass. The counting of live individuals of the worms is carried out in each compartment separately and the degree of suitability of the substrate is calculated. It is calculated as the ratio of the total number of individuals placed in the device to the number of individuals in a separate compartment and expressed as a percentage.

Claims (1)

The method for determining the optimal cultivation conditions of vermiculture, including placing the worms in a container with various substrates, keeping them, determining the optimal cultivation conditions is carried out according to the frequency of occurrence of the worms and the number of laid cocoons, characterized in that the worms are launched into the container from above, and the substrates are placed in layers, separating them mesh partitions, withstand worms for 1-2 days at a temperature of 18-22 ° C, the assessment is carried out visually through the front transparent wall.

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