RU2137359C1 - Method for keeping live feed for aquarium fish during transportation and storage - Google Patents

Abstract

FIELD: live feed transportation and storage. SUBSTANCE: method involves placing selected and cleaned invertebrate hydrobionts in vessels made from gas-permeable and water-impermeable film; filling vessels with liquid hydrobiont habitat medium and hermetically closing vessels; while filling vessels with liquid medium, introducing dispersed material insoluble in liquid medium and having particles of size not exceeding 100 microns, with dispersed material - liquid medium ratio being within the range of (0.1-1.0)g - 10 ml. EFFECT: increased storage time of live feed during prolonged transportation and storage and simplified method. 4 cl, 4 ex

Description

 The invention relates to methods for transporting and storing invertebrate hydrobionts used as live food for aquarium fish.

 There is a method of storing and transporting live food for the inhabitants of aquariums, which consists in placing live food from small sea fish, fry, shrimps, etc. in a container, divided into 2 sections, one of which contains live food in a liquid medium, and oxygen is supplied to the second / 1 /.

 The known method of storage and transportation of live food requires bulky and complex aeration devices and a source of electricity.

 There is a method of storing live food for aquarium fish, in which the extracted invertebrate hydrobionts are separated from foreign objects, placed in a damp cloth and kept in a cool place, or placed in a vessel with a low water level / 2 /.

 The food prepared and stored in this way is suitable for use over a period of time determined by the periods of preservation of the viability of organisms, which at room temperature are 2 to 3 days. Shelf life can be increased if the feed is stored at low positive temperatures in the water, however, it is necessary to change the water 1 to 2 times a day and remove dead organisms, which makes it difficult to transport the feed and creates inconvenience for the user.

 The closest in technical essence and the achieved result to the declared one is the method of keeping live food for aquarium fish, in which it is stored and transported in containers made of a gas-tight waterproof film. At the same time, pre-cleaned and selected invertebrate hydrobionts are placed in bags, these bags are filled with a liquid habitat, after which they are hermetically closed / 3 /. The method allows you to keep food alive for a longer time (from 1 to 6 weeks), which provides convenience when transporting live food.

 The disadvantage of this method is the strong dependence of the shelf life of live food on the type of invertebrate hydrobionts, the season of their capture, the degree of purification and initial condition before being placed in bags for storage and transportation.

 The objective of the present invention is to increase the shelf life of live food from invertebrate hydrobionts during long-term transportation by improving their living conditions. The invention consists in the following. Pre-selected and purified invertebrate hydrobionts are placed in containers made of a gas-permeable waterproof material (food-grade plastic film), the containers are filled with a liquid habitat, after which they are hermetically closed. When filling containers with a liquid medium, dispersed material insoluble in a liquid medium with a particle size of not more than 100 μm is introduced into it, while the weight content of the dispersed material is chosen in the range 0.1 - 1.0 g per 10 ml of liquid habitat.

 As the dispersed material, natural dispersed materials, such as silica sand, clay minerals, or artificial dispersed materials, such as aerosil, can be used.

 Dispersed materials can be placed in a living environment in an independent shell.

 The method is as follows.

 The initial live food - lake bloodworm, river bloodworm, estuary bloodworm (saltwater), coronet, tubule, gamma-ray, daphnia, cyclops are subjected to cleaning from foreign objects, after which the most viable organisms are selected, selected hydrobionts are packaged in bags from a gas-tight waterproof film Fill the sachets with a fluid habitat. At the same time, dispersed material with particle sizes of not more than 100 microns is introduced into the bags. The weight content of the dispersed material is selected in the range of 0.1 - 1.0 g per 10 ml of liquid habitat.

 As a material used for the manufacture of bags in which live food is stored and transported, a food grade plastic film with a thickness of 10-100 microns can be selected. The ratio of the live weight of the aquatic organisms placed in the bag to the volume of the liquid habitat is selected from the calculation - up to 1 g of the live weight of the aquatic organisms per 10 ml of medium.

 After filling with liquid habitat, the bags are sealed (sealed). In a hermetically sealed and completely filled with liquid medium bag there is no direct contact of the liquid medium with air, and gas exchange between the environment and the atmosphere occurs through a gas-permeable film, while a film of a certain thickness is selected for a different type of hydrobionts.

 The addition of insoluble dispersed materials to the liquid habitat makes it possible to bring the conditions for keeping hydrobionts in sachets closer to natural conditions and thereby increase the life span of organisms. Examples of the method.

 In all examples, hydrobionts were packaged in 2 g sachets, and the volume of liquid in each sachet was 30 ml.

 Example 1

 A synthetic silica powder - aerosil in an amount of 10 g per 1 liter was added to the liquid habitat. The shelf life of lake bloodworms in bags with an aerosil-containing medium was 20 days, in bags without dispersed material - 7 days.

 Example 2

 Particles of pre-crushed quartz sand in an amount of 20 g per 1 liter were added to the liquid habitat. The shelf life of lake bloodworms in bags with medium containing quartz sand was 14 days, in bags without dispersed material - 7 days.

 Example 3

 Pharmacy white clay was added to the liquid habitat in an amount of 10 g per 1 liter. The shelf life of river bloodworms in bags with clay-containing medium was 14 days, in clay-free medium - 7 days.

 The shelf life of the coretra in sachets with clay-containing medium was 28 days, in sacks without clay - 21 days.

 The shelf life of cyclops in bags with clay-containing medium was 5 days, in bags without clay - 2-3 days.

 Example 4

 Pharmaceutical white clay in the amount of 1 g was packed in bags of writing paper and these bags were placed in plastic bags with a river bloodworm in a liquid habitat. The shelf life of river bloodworms in an environment with clay was 10 days, in an environment without clay - 7 days.

Sources of information
1. US patent N 5138975, published. 06/18/92.

 2. V.F. Tichenko "Food for aquarium fish", St. Petersburg, "Polytechnic", 1992, p. 19.

 3. RF patent N 2038802, published. 07/10/95.

Claims (4)

 1. The method of maintaining live food for aquarium fish during transportation and storage, including placing pre-selected and purified hydrobionts in containers made of a gas-tight waterproof film, filling the containers with a liquid habitat and tightly closing them, characterized in that when filling the containers with a liquid habitat insoluble dispersed material with a particle size of not more than 100 μm is introduced into them, while the weight content of the dispersed material is selected in the range 0.1 - 1.0 g per 10 ml of liquid habitats.  2. The method according to claim 1, characterized in that silica powders are used as the dispersed material.  3. The method according to claim 1, characterized in that clay minerals are used as the dispersed material.  4. The method according to one of claims 1 to 3, characterized in that the dispersed materials are introduced into the liquid environment in the shell.