RU2038802C1 - Method for producing and keeping live feed for decorative animals, mostly aquarium fish - Google Patents

Abstract

FIELD: feed production. SUBSTANCE: method involves selecting and cleaning invertebrate hydrobionts, putting them into bags made from food polyethylene film 10-100 microns thick, filling said bags with liquid habitat, and sealing them tightly. The relation of the living weight of hydrobionts to the volume of liquid medium is 10 ml to 1 g of living weight. The liquid medium may be conventional tap water, and distilled water. The liquid medium may additionally be treated with antimicrobial agents, anticonvulsive agents, solutions of alkaline and alkali-earth metals, soluble salts of nickel, copper, zinc. EFFECT: higher efficiency. 6 cl, 1 tbl

Description

 The invention relates to methods for producing and maintaining live food for decorative, in particular aquarium, fish, crustaceans, mollusks, insects, amphibians, turtles.

 A known method of preparing live food for aquarium fish from invertebrate hydrobionts, in which the extracted food is separated from foreign objects and other hydrobionts, cleaned from the contents of the intestine and used for feeding without further processing.

 Thus prepared food 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 2-3 days.

 Shelf life can be increased up to 2-3 weeks, if the feed is stored at low positive temperatures in the water, however, it is necessary to change the water 1-2 times a day and remove dead organisms, which makes it difficult to transport the feed and creates inconvenience for the user.

 There is a method of storing and transporting live food of small marine fish, fry, shrimp, etc. for the inhabitants of aquariums, which consists in placing live food in a container divided into two sections, one of which contains live food in a liquid medium, and the second section oxygen is supplied.

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

 The objective of the present invention is to provide a method for producing live feed from invertebrate aquatic organisms that maintain viability in an enclosed space for a long period of time (up to 6 weeks) without additional maintenance and care, which provides convenience in transporting live feed.

 The invention consists in the following.

 After selection and purification of invertebrate hydrobionts, they are placed in bags made of food-grade polyethylene film 10-100 μm thick, these bags are completely filled with a liquid habitat, after which they are hermetically sealed (sealed). The ratio of the live weight of hydrobionts relative to the volume of the liquid medium is chosen in the following proportion up to 1 g. live weight per 10 ml of liquid medium.

 As a liquid medium, distilled water can be used. Antimicrobial agents, alkali and alkaline earth metal salts, soluble salts of nickel, copper, zinc, as well as anticonvulsants may be added to the liquid habitat.

 The method is as follows.

 The initial live food of lake, river, estuary (saline water) bloodworms, coronet, tubule, gammarus, daphnia, cyclops (Chironomus cf. plumosus; Chironomus cf. thummi; Beotendipes cf. tavricus; Haoborus flavicans, Haoborus cristallinris; Gmelinoides fasciatus; Daphnia sp; Cyclop sp.) Is purified from foreign objects, after which the most viable organisms are selected. The selected hydrobionts are packaged in bags of food-grade plastic film 10-100 microns thick (depending on the type of organism), the bags are filled with a liquid habitat and hermetically closed (sealed). The ratio of the live weight of the hydrobionts placed in the package and the volume of the liquid habitat is selected at the rate of up to 1 g. live weight of hydrobionts per 10 ml of medium. With a higher live weight of hydrobionts, the periods of preservation of their viability sharply fall (examples 1, 2).

 In a hermetically sealed and completely filled with liquid medium package 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 polyethylene film. The use of a polyethylene film of different thicknesses (from 10 to 100 microns) provides optimal conditions for gas exchange for different types of organisms: 70-90 microns for bloodworms of the lake, estuary, corvette, gammarus; 40-90 microns for the tubule; 10-40 microns for bloodworm, cyclops, daphnia (table, examples 5, 6, 12, 13, 20, 21, 38, 39). The use of bags made of gas-tight materials or a polyethylene film with a thickness of more than 100 microns sharply reduces the life of invertebrate aquatic animals (table, examples 12, 19).

 As a liquid habitat can be selected settled untreated tap or filtered natural water, also distilled water (examples 1-3; table 7-9).

 Antimicrobials, for example, antibiotics and sulfonamide drugs, mainly chloramphenicol, tetracycline, biseptol (sulfatone), sulfomono- or sulfodimethoxin, are added to the liquid medium to suppress the vital activity of microorganisms and thereby reduce the substances they produce that are toxic to aquatic organisms. The concentration of antibiotics is 0.01-0.1 mg / ml, sulfonylamide preparations 0.05-0.5 mg / ml (examples 1, 4, 5, 7, 10, 11; 28-30). The use of other antimicrobial agents is ineffective (examples 28, 31).

 Alkaline earth and alkali metal salts of calcium, magnesium, sodium, potassium sulfates or chlorides can also be added to the liquid medium, which favor the implementation of water-salt metabolism of organisms and their excretion. The concentration of salts is 0.001-0.3 (examples 10, 12, 33-39).

The introduction into the composition of the liquid habitat of soluble salts of nickel, copper, zinc, mainly chlorides or sulfates, in a concentration of 10 ^-5 -10 ^-3 M helps to increase the survival time of bloodworms (examples 12, 14, 15, 20, 22). Tests of chlorides or sulfates of other metals showed a significantly less pronounced effect or its absence (example 16).

 Anticonvulsants (carbamazepine, chloracon, diphenin, benzonal) in a concentration of 0.01-0.1 mg / ml can be added to the liquid medium, which help to reduce the frequency of undulating (oscillatory) movements of bloodworms, which significantly prolongs their survival (examples 12, 17, 18, 20, 23-26).

PRI me R 1. 20 kg of freshly caught coroners are placed on a sieve or in a bag of gas, washed thoroughly with tap water, allowed to drain, remove foreign matter and pack 2 or 4 g into bags of 90-100 x 45-50 mm from food polyethylene with a thickness of 70-90 microns, containing 20-25 ml of distilled water. The bags are sealed, having previously removed the air bubble, and laid out in one layer on pallets for storage indoors at room temperature (≈20 ^о С) or in the refrigerator (≈4 ^о С).

 Food prepared and contained in this way is stored in a living condition in the room for 10-14 days (packing 2 g) or 5-7 days (packing 4 g); in the refrigerator, respectively, 20-25 or 10-15 days.

 PRI me R 2. 10 kg of freshly caught lake bloodworms are laid out on a sieve with a mesh size of 3-4 mm, which is then placed on the surface of tap water for 1-2 hours. Organisms that have passed through the sieve into water are collected, slightly dried and packaged in 2 or 4 g sachets, as described in example 1.

 The food prepared and contained in this way is stored live in the room for 4-6 days (packing 2 g) or 2-3 days (packing 4 g); in the refrigerator, respectively, 8-10 days and 4-5 days.

 PRI me R 3. Coretra or lake bloodworm prepared as described in examples 1 and 2, respectively, Packed in 2 g in the same plastic bags, but containing natural water taken from the lakes in the area "Ozerki" St. Petersburg. The shelf life of the coronet and bloodworms does not differ from those indicated in the corresponding examples 1 and 2.

 Examples 4-39 are tabulated.

 In these examples, live food from tubuloma, gammarus, cyclops and daphnia was prepared and contained in the same way as described in example 1, and live food from river and estuary bloodworms as described in example 2, with the exception of the differences indicated in the table.

 Packages in all these examples were 2 g.

 PRI me R 40. Formed 19 groups of aquarium fish, each of which had the following composition: Hyphessobrycon cardinlis M.W. Chrocinoidea 25 pcs; Carassivs auratus L. Cyprinidea 15 pcs.

The groups were kept in aquariums with a capacity of 250 l according to generally accepted methods. Each group was fed once a day for 6 months. The first 8 groups (control) were given live fresh food containing one of eight species of coronet aquatic organisms; lake, river or estuary bloodworms; pipe maker; gammarus; Cyclops; daphnia. Other II groups (experimental) were given live food, prepared and contained in accordance with the proposed method, as described in examples 5, 12, 18, 21, 22, 23, 29, 35, 36, 37, 39 after storage at 20 ^about C during the time periods indicated in these examples.

Feed intake in all groups was 90-100
After 6 months fish in the respective control and experimental groups did not differ among themselves in decorative properties, weight, activity and appetite, which indicates the preservation of the high nutritional value of live feed obtained and contained in accordance with the proposed method.

 PRI me R 41. Formed groups of Spur frogs (Xenopus laevis), vents (Bambina bambina), tree frogs (Hyla arbarea), and marsh turtles (Emys orbicularis), a total of 8 groups, 3 individuals in a group of 8 terrariums according to generally accepted methods.

 Control 4 groups were fed with traditional feeds, and 4 experimental groups with feeds prepared as described in Example 12.

 After 3 months the animals in the respective control and experimental groups did not differ from each other in appearance, weight, activity and appetite, which indicates the high nutritional value of live food for these animals.

The source of information:
1. M.N. Ilyin. Aquarium fish farming, M. 1965, pp. 69-98.

 2. US Patent N 5138975, M. cl. A01K61 / 00 N. cl. 119 / 3.1992

Claims (6)

 1. METHOD FOR PRODUCING AND MAINTAINING LIVE FOOD FOR DECORATIVE ANIMALS, PREFERREDLY AQUARIUM FISH, including the selection and cleaning of invertebrate hydrobionts and placing them in containers with a liquid habitat, characterized in that as a container with a liquid habitat, characterized in that in quality containers use bags made of food-grade polyethylene film 10-100 microns thick, which are hermetically sealed when they are completely filled with liquid medium, and the weight content of living hydrobionts per each 10 ml of a liquid medium does not exceed 1 g.  2. The method according to claim 1, characterized in that distilled water is used as a liquid habitat.  3. The method according to p. 1, characterized in that the antimicrobial agents are additionally introduced into the liquid medium.  4. The method according to claim 1, characterized in that alkali and alkaline earth salts are added to the liquid medium.  5. The method according to claim 1, characterized in that soluble salts of nickel, copper or zinc are added to the liquid medium.  6. The method according to p. 1, characterized in that the anticonvulsant, preferably carbamazepine, is additionally introduced into the liquid medium.

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