SU789073A1 - Method of breeding trepang larvae up to degree of settling - Google Patents

Description

The invention relates to the cultivation of trepang, in particular the larvae of 23chopuS japonicus Se £ 8, before the settling stage.

There is a method of growing trepang larvae in an aquarium up to sedimentation stage ⁵ by keeping them in sea water with salinity from 25 to 35% and feeding them, starting from the second day after fertilizing eggs with microalgae £ 1].

However, the composition of the proposed feed ¹⁰ contains only plant foods. The unification of the diet of the larvae negatively appears at the rate of their development and on the quality of the settled juveniles.

Larvae of different stages of development neo- ¹⁵ differently absorb different types of algae, which is explained by the specificity of the type of food and its size. The wrong choice of algae species for trepang larvae at the initial stage of their development leads to slow development and causes large losses at subsequent stages.

Fluctuations in water temperature in the range of 21-24 ° C negatively affect the growth rate of larvae in their survival, as well as when growing larvae, it is necessary to stabilize the level of illumination in the vessel. In the absence of illumination or low illumination, the microalgae serving as food settle to the bottom. As a result, the larvae starve, which ultimately leads to their death. At a high level of illumination, rapid propagation of microalgae begins, which clog the airways of the larvae, which also leads to their death.

The purpose of the invention is to accelerate their development and increase resilience.

The goal is achieved by feeding the larvae with a feed containing dissolved organic matter (DOM), live heterotrophic bacteria. and food yeast, setting it into the water every three days, and starting from the third day after the fertilization of eggs

7890.73 filtered, well-aerated water (oxygen saturation of 100-120%) with a salinity of 25 to 35%. The water temperature is stabilized at 21.4 C 5 due to the stabilization of the environment surrounding the aquarium. The round-the-clock illumination of the water surface with artificial light sources is set equal to 450 lux.

During the entire growing period, 10 larvae from the moment of the introduction of fertilized eggs into the aquarium to the stage of settled juveniles do not change the water. Periodically (three times a day) the water in the aquarium with larvae is smoothly mixed (without cavitation bubbles).

On the second day after the fertilization of eggs with the passage of larvae to exogenous nutrition, they begin feeding, which is carried out according to the recipe and in order.

The technical and economic effect of this method is to increase the yield of juveniles equal to 11% for 11-16 days with the equal development of larvae instead of 1% for 15-24 days in the known method.

Claims (4)

The invention relates to the cultivation of a sea cucumber, in particular the S: chopUS Sefce larvae, to the sedimentation stage. There is a known method of growing trepang larvae in an aquarium up to the stage of settling by keeping them in sea water with salinity from 25 to 35% and feeding them, starting from the second day after fertilization of the eggs with microalgae. However, the composition of the proposed feed contains only vegetable food. The ration of larvae ration is negative (it grows at the speed of their development and the quality of settled fry. The larvae of different stages of development unequally digest various types of algae, which is explained by a specific xfma species and its size. Incorrect selection of the types of algae (the trepanga the initial stage of their development leads to a slow development and causes large losses in the subsequent stages. The fluctuation of water temperature within 21-24 C adversely affects the growth rate of the larvae and Rx survival, as well as tipu cultivation, it is necessary to stabilize the level of illumination in the vessel. In the absence of light or low light, the microalgae that serve as food sink to the bottom, causing the larvae to starve, which in the long run leads to their death. The release of microalgae, which clog the respiratory tract of the larvae, which also leads to their death. The purpose of the invention is to accelerate the development and increase the viability of the body. The goal is achieved by feeding the larvae with feed containing dissolved organic matter (DOM), live heterotrophic bacteria and nutritional yeast, putting it in the ox every three days and starting from the third day after fertilization of eggs. Two days after it, microalgae are introduced into the water. In addition, feeding is carried out at a stabilized water temperature from 20.6 to 21.4 ° C and around the clock illumination equal to 400-500 lux. DOM is introduced into water in the form of microalgae protein hydrolytic at the rate of 0.81, 2 mg of carbon / l, live heterotrophic bacteria, in the form of suspension, at the rate of 0.8-1.2 mg of carbon / l, and nutritional yeast in the form of suspension at the rate of 10 cells / l. Also feed with microalgae with a size of 3 to 27 µm at a rate of 1.0; , 0- BUT cells / l. The method is carried out as follows. Trepang larvae are grown in an aquarium, where the temperature of sea water with a salinity of 25-35% is stabilized at a level of 20.6-21.4 C and the illumination is maintained around the clock equal to 400-500 lux. On the second day after the impregnation of the seaweed eggs to the aquarium with larvae, feed is made per 1 liter of water in the aquarium containing DOM in the form of the protein hydrolyzate of microalgae O8-1.2 mg of carbon, living heterotrophic bacteria in the form of suspension 0.8-1 , 2 mg of carbon and food yeast in the form of a suspension of 5 10- 5 10 cells. Said feed (DOM, bacteria, yeast) is set every three days during the life of all the plankton stages of the larvae until the settled juveniles are obtained. On the third day after the fertilization of the roe, the feed is fed in the form of a suspension of microalgae monocultures ranging in size from 3 to 27 µm PhaeodactvBum trtcornutum, P2.oitifttiot ps, Nephroschalons satlyw, Qsmnodlinium, DunaSie68o sc) per 1 liter of water in the aquarium 1, Oh. ici: 2.0 10 cells. Algal feed is fed to the aquarium in the intervals between this feeding every two days during the life of all the plankton stages of the larvae. There is no need for a cleaner feed supply, since a given illumination provides stabilization of algae growth to the required concentrations in the cool. round with larvae. Example. Growing of the larvae of trepang is carried out in an aquarium of non-toxic material (glass, enameled ware). The aquarium is filled with sea-filtered, well-aerated water (saturation with oxygen 100-120%) with a salinity of 25 to 35%. The water temperature is stabilized at 21.4 C due to stabilization of the environment surrounding the aquarium. The 24-hour illumination of the surface of the water by artificial light sources is set to 450 lux. During the entire period of growth of the larvae, from the moment the fertilized eggs are introduced into the aquarium until the stage of settled fry, the water change is not made. Periodically (three times a day) the water in the aquarium with the larvae is smoothly mixed (without cavitation bubbles). On the second day after the fertilization of the eggs with the transfer of the larvae to exogenous feeding, they begin feeding, which is carried out according to the recipe and order. The techno-economic effect of this method is to increase the yield of juveniles equal to 11% for 11-16 days with an equal development of the larvae instead of 1% for 15-24 days in the known method. Claim 1. Method for trepang larvae to be sedimented by settling in sea water with salinity from 25 to 35% and feeding them, starting from the second day after the fertilization of eggs, characterized in that, in order to accelerate their development and increase vitality, . feeding is carried out with feed containing dissolved organic matter, living heterotrophic bacteria and nutritional yeast, setting it into water every three pH, and starting from the third day after the fertilization of eggs, between each feeding, every two days after it is fed into the water microalgae. 2. Method pop. 1, characterized in that the feeding is carried out at a stabilized water temperature from 20.6 to 21, and around the clock illumination equal to 400-50 ° lux. 3. Method pop. 1, characterized in that dissolved organic matter is introduced into water in the form of a microalgae protein hydrolyzate at a rate of 0.8-1.2 mg of carbon / l; living heterotrophic bacteria are in the form of a suspension at a rate of 0.8-1.2 mg of carbon / l 5 7890736 and nutritional yeast in the form of suspension. Sources of information, at the rate of 5-10 - cells / l. sprinkled during examination 4. A method according to claim 1, characterized in that feed is introduced into the water. ND Mokretsova. Artificial from microalgae with sizes from ry dilution of trepang in Petra Be3 Bay to 27 microns at the rate of 1, O “10 2, Okhlikogo, Rybnoye khoistvsg No. 11, 1973, CHO sweeps ps 7-8.