RU189318U1 - Petri dish for growing bee larvae (Apis melliferaL.) - Google Patents

Abstract

The utility model relates to biology, physiology and zoohygiene, namely to laboratory equipment for conducting biochemical, physiological and toxicological studies. Petri dish consisting of two cylindrical containers of different sizes made of transparent plastic and a lid, where there are two projections opposite each other from the inner side surface of the lid and two grooves opposite the outer side of the tank opposite each other, the protrusions are equidistant relative to the grooves , on the outer side surface of the container, the grooves are made at an angle in the direction to its base; c, the grooves are made with the possibility of inserting protrusions into them with a tight fit of the lid to the container; a cylindrical recess with a radius of 40.5 mm and a depth of 8.5 mm is concentrically located on the inner surface of the container. 2 Il.

Description

The utility model relates to biology, physiology and zoohygiene, namely to laboratory equipment for conducting biochemical, physiological and toxicological studies.

At present, the test on the larvae of the honeybee (Apis mellifera L.) is applied to assess the hazard of chemical compounds (A. Kuznetsov. Beekeeping: hygiene, ecology, norms and modern technologies / A. Kuznetsov, V. G. Tyurin, K. .A. Rozhkov. - SPb .: KVADRO, 2017. - p. 330). For research approved test method according to GOST 33775-2016 "Methods of testing chemical products that pose a risk to the environment. Honey Bee (Apis mellifera). The test for larvae for toxicity. Honey bee larvae are grown in Petri dishes, placing them on the bottom of the Petri dish on which a layer of absorbent cotton is laid, tightly covered with a layer of gauze. Vata is impregnated with a nutrient solution, while gauze protects the larvae from being immersed in the nutrient solution (Poltev, V.I. Diseases and pests of bees / V.I. Poltev, E.V. Neshataeva. - M .: Kolos, 1977. - С 50-51).

A standard Petri dish is known, consisting of two parts of halves identical in shape, but different in size (the smaller container with a bottom for nutrient media and the larger size is a lid) made of glass (Workshop on veterinary microbiology and immunology. / T. S. Kostenko, EI Skarshevskaya, SS Gitelson. - M .: Agropromizdat, 1989. - p. 88).

Also currently known Petri dishes of typical shape of glass having different sizes (Microbiological control of meat of animals, poultry, eggs and their products: Reference book. / S.A. Artemyeva, T.N. Artemyeva, A.I. Dmitriev and other - M .: Kolos, 2002. - p. 42).

The famous Petri dish (PM 69066, IPC C12M 1/00), consisting of two containers of identical shape, but different in size, and the lid, made of transparent plastic. The Petri dish is provided with a lock in the form of two protrusions made opposite each other on the lid on the inside of its side part and two perpendicular grooves made opposite each other on the outside of the side surface of the container. A disadvantage of the well-known cup is the need for the laboratory technician to work with two hands: with one hand hold the lid and the other with the capacity for their subsequent connection, which leads to the time spent on conventional manipulations.

When working with Petri dishes of these models, difficulties arise in growing the bee larvae of the honeybee, namely:

1. With sufficient filling, the nutrient solution for the larvae spreads over the entire area of the bottom of the Petri dish, which leads to its overrun.

2. With a small amount of solution, the larva dries out and is poorly fed, which in turn reduces the quality of research.

3. It is not excluded that they are unintentionally opened in cases of transfer for research (for example, to a microscope, etc.) while the larva will not be sufficiently protected from exposure to air and room temperature, which may distort the results (final and intermediate) during this manipulation. research that is unacceptable in research work.

4. In case of unintentional disclosure of the Petri dish followed by additional contamination with microflora, it may distort the results of the research, which will require re-conducting them.

The famous Petri dish (PM 173791, IPC S12M 1/00), consisting of two cylindrical containers made of transparent plastic of different sizes and a lid, where there are two projections opposite the inner side of the lid, and on the outer side of the tank opposite each other the other has two grooves, the protrusions are equidistant relative to the grooves; on the outer side surface of the container, the grooves are made at an angle towards its base; the protrusions on the inner side surface have a cylindrical shape with d ametrom equal to the width of the grooves, the grooves adapted to be inserted therein with protrusions ensuring a snug fit lid to the container. This Petri dish is chosen as a prototype.

The disadvantage of the prototype is the absence of a notch at the bottom for the larvae of the honeybee, the substrate for its placement and the place for food, which greatly complicates its feeding and maintenance, namely:

1. With sufficient filling, the nutrient solution for the larvae spreads over the entire area of the bottom of the Petri dish, which leads to its overrun.

2. With a small amount of solution, the larva dries out and is poorly fed, which in turn reduces the quality of research.

3. The ability of the larva to move across the entire area of the bottom of the Petri dish does not allow the researcher to conveniently maintain proper visual contact for segmentation, color, growth and development of the larva, as well as her state of health (development of the disease), which significantly reduces the quality of research, with possible death larvae from drying out, hunger, etc.

The technical result of applying the utility model is to improve the conditions for visual control of the larva of the honeybee, as well as replenishing the food supply, a more physiological position of the larva in the nutria of the notch on the bottom of the Petri dish, which allows eliminating their injuries and optimizing nutrition in accordance with their age and development.

The technical result is achieved due to the fact that having the form of a low flat cylinder consisting of two cylindrical containers made of transparent plastic of different sizes and a lid, where there are two projections opposite each other on the inside side of the cover, and on the outside side of the vessel opposite each other the other has two grooves, the protrusions being equidistant relative to the grooves; on the outer side surface of the container, the grooves are made at an angle towards its base, the protrusions on the inside The lateral side surfaces have a cylindrical shape with a diameter equal to the width of the grooves, and the grooves are designed to insert protrusions in them ensuring that the lid fits snugly to the container; a cylindrical recess with a radius of 40.5 mm and a depth of 8.5 mm is concentrically located on the inner surface of the container.

The essence of the utility model is illustrated in the drawing, where in FIG. 1 shows a general view of a Petri dish; FIG. 2 shows a cross-section of the cup capacity.

The Petri dish contains a container (1), a lid (2), grooves (3) on the outer lateral surface of the container (1) are angled towards its base and are located opposite each other. The protrusions (4) on the inner side surface of the lid (2) are equidistantly located relative to the grooves and are cylindrical in shape, the diameter of which is equivalent to the width of the grooves (3) on the outer side surface of the tank (1), and on the inner surface of the tank (1) there is a cylindrical recess (5) a radius of 40.5 mm and a depth of 8.5 mm.

Justification of the dimensions of the cylindrical recess following. The width of cells in combs for growing the larvae of working bees is 5.37-5.60 mm with a cell depth of 12 mm, the cell size on an artificial base is 5.45 (Rozhkov KA Honeybee: maintenance, feeding and care / K.A Rozhkov, S.N. Khokhrin, A.F. Kuznetsov. - St. Petersburg: “Lan” publishing house, 2014 P-22-23). Accordingly, the depth of excavation - 8.5 mm is composed of the height of the space required for the placement of the larva 5.5 (5.37 + 5.60 / 2 (cell width on average) mm and the space for placing a piece of sterile dental dental roller 3 mm vertically. The linear size of the working bee larvae increases by more than 10 times during growth, and the weight increases by 2926 times (Rozhkov KA Honeybee: maintenance, feeding and care / KA Rozhkov, S.N. Khokhrin, A. F. Kuznetsov. - St. Petersburg: “Lan” publishing house, 2014 C- 98-99). Consequently, the linear size of the notch is di the meter should be 12 mm (cell length), while the size of the concentric cylindrical recess at the bottom of the Petri dish with a radius of 6.0 mm and a depth of 8.5 mm will enable the developing larva not to experience any cramping in the well space vertically and horizontally, the researcher will provide convenience in work, speed and safety of carrying out the main operations for growing honey bee larvae.

The use of a Petri dish is described on the example of growing the honey bee larva for research and is carried out as follows. A cylindrical recess (5) concentrically located on the inner surface of the container (1) of a sterile disposable Petri plastic dish is filled with a piece of dental cotton roll moistened with 500 μl of sterilizing solution, the volume of which is increased by adding 15% glycerol (weight / volume) (not shown). Then a prepared worker bee larva at the age of 3-5 days is placed on the prepared substrate simulating the conditions of a cell of a bee honeycomb (give 3-5 days of feed) . After that, the container (1) of the Petri dish is covered with a lid (2), having previously guided its projections (3) into the slots (4). Thanks to the grooves (3), made at an angle into which the projections (4) are inserted, a tight fit of the lid (2) to the container (1) is observed, that is, the usual position of the components of the famous Petri dish assembly is observed. The lid (2) is securely closed, which prevents the inadvertent opening of the petri dish as it moves into the thermostat. The displacement of the lid relative to the container, for any reason, of the Petri dish is excluded before recording the results when working with it. This mobilizes the researcher to prevent undesirable consequences, for which the mode of operation changes (tempo and technique of habitually repetitive manipulations), and after the lid is closed, work continues in the specified lock mode on the cup. As a result of the application of the proposed Petri dish, it was established: improvement of the nutritional conditions and the maintenance of the larvae of the honeybee, with the exception of the unintended disclosure of the Petri dish; simplification of laboratory research and reduction of time for conventional manipulations.

Thus, the use of the utility model allows you to:

1. To increase the convenience in work, speed and safety of carrying out the main operations on growing the larvae of the honeybee, namely: to exclude the unintended disclosure of the Petri dish; visualize the lock Petri dishes in the closed position; reduce the intensity of the mode of operation of the researcher; eliminate the need for repeat research; improve the accuracy of research results; to improve the quality of care for the honeybee larva (feed addition, inspection of the larvae and if their personal or selective weighing is required).

2. To eliminate the risk of lethal damage to the body of the larvae, due to the ingress of their body between the structural elements, which will increase the quality of research.

3. Simplify laboratory research and reduce the time for common manipulations.

Petri dish for growing honeybee larvae (Apis mellifera L.) can be successfully used in research in the field of biology, agricultural entomology, in laboratory studies in veterinary laboratories, as well as scientific and educational research in the laboratories of the departments of zoohygiene, pharmacology, biochemistry , epizootology, etc.

Claims (1)

Petri dish for growing honeybee larvae (Apis mellifera L.), consisting of two cylindrical cylindrical containers of different sizes and a lid made of transparent plastic, where two protrusions are located opposite the inner side of the cap opposite each other the other has two grooves, the protrusions are equidistant relative to the grooves; on the outer side surface of the container, the grooves are made at an angle towards its base; the protrusions on the inner side surface have a cylindrical shape with a diameter equal to the width of the grooves, and the grooves are made with the possibility of inserting protrusions into them with a tight fit of the lid to the container, characterized in that a cylindrical recess with a radius of 40.5 mm and a depth of 8.5 mm for the placing the honey bee larvae.

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