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Zooplankter breeding circulating system with bionic ctenophore structure

A zooplankton and circulatory system technology, applied in the field of zooplankton breeding circulatory system, can solve problems such as inability to cultivate small ctenophores and weak swimming ability

Active Publication Date: 2021-11-26
SHANDONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The present invention proposes a zooplankton breeding circulation system with a bionic ctenophore structure, which solves the problem that the existing cultivation devices for pot jellyfish, especially those for hydra attachment, cannot be used for the cultivation of other types of jellyfish such as small comb jellies. It has the characteristics of integrating bionics and automatic circulation, which can not only ensure the breeding needs of zooplankton with weak swimming ability, but also realize the integration of microscopic display and scientific and educational publicity.

Method used

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  • Zooplankter breeding circulating system with bionic ctenophore structure

Examples

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Effect test

Embodiment 1

[0058] A zooplankton breeding circulation system with a bionic ctenophore structure for culturing Sclerobrachia spheroidus

[0059] According to the volume of the culture bottom tank 12, seawater is put into the tank, then about 200 spherical Sclerotinus jellyfish are added, and the water pump is turned on so that the sea water in the bottom bait culture box 2 enters the culture tank through the main water inlet pipe 41 and the sub-water inlet pipe 42. 1, and generate water flow in the breeding tank 1, adjust the flow control water pump 8, make the water flow size of the water inlet pipe 42 be 20-25ml / s, preferably 22.4ml / s and 23.3ml / s, make 8 water inlet pipes 42 The hole spouts upward water flow to ensure that the jellyfish will not sink to the bottom and die. When the water in the breeding tank 1 reached the top of the main water outlet pipe 32, it would flow back into the bait incubator 2 through the top screen and the water outlet pipe 33, and the pipe hole of the water ...

Embodiment 2

[0062] Krill cultured in zooplankton culture circulation system with bionic ctenophore structure

[0063]Get seawater according to the volume of cultivation sump 12 and put in the cylinder, then add about 100 krills, open the pump, make the seawater in the bottom bait cultivation box 2 enter the culture cylinder 1 through the main water inlet pipe 41 and the sub-water inlet pipe 42, And produce current in culture cylinder 1, regulate flow control water pump 8, make the current size of branch water inlet pipe 42 be 40-50ml / s, preferred 46.2ml / s and 43.5ml / s, make 8 branch water inlet pipes 42 holes spray There should be an upward flow of water to ensure that the bait in the tank will not sink to the bottom and die. When the water in the breeding tank 1 reached the top of the main water outlet pipe 32, it would flow back into the bait incubator 2 through the top screen and the water outlet pipe 33, and the pipe hole of the water distribution pipe in the incubator 2 would also fo...

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Abstract

The invention discloses a zooplankter breeding circulating system with a bionic ctenophore structure, and belongs to the field of marine organism breeding equipment. The system comprises a breeding tank, an incubator, water outlet pipes and water inlet pipes; the breeding tank is transparent and spherical; the lower ends of the two water outlet pipes are arranged in the incubator; the water inlet pipes comprise a main water inlet pipe, branch water inlet pipes and secondary branch water inlet pipes; the upper part of the main water inlet pipe is arranged in the breeding tank, the bottom of the main water inlet pipe extends into the middle upper part in the incubator, the upper ends of the four branch water inlet pipes are connected with four branch water outlet holes respectively, the lower end of each branch water inlet pipe is respectively branched to form the two secondary branch water inlet pipes, and the secondary branch water inlet pipes are fixed to the inner side surface of the breeding tank, and a plurality of water outlet holes are formed in the secondary branch water inlet pipes. The system is applied to the aspect of zooplankter breeding, solves the problem that an existing jellyfish breeding device for hydranth attachment cannot be used for breeding zooplankter such as ctenophore and the like, and has the characteristics that bionic and automatic circulation are integrated, the requirement for breeding the zooplankter with weak swimming capacity is met and microscopic display and science and education propaganda are integrated.

Description

technical field [0001] The invention belongs to the field of marine organism cultivation equipment, and in particular relates to a zooplankton breeding circulation system with a bionic comb jellyfish structure. Background technique [0002] Jellyfish are low-level zooplankton in marine life. Due to their diverse morphological characteristics and changing swimming styles, jellyfish are deeply loved by people. In aquaculture, jellyfish are aquaculture species with great commercial value. However, the jellyfishes that are well known to people are mainly large bowl jellies, and little is known about ctenophores, and even less is known about the smaller spherical brachialis. In recent years, scientists have gained a better understanding of the biology and ecology of the spheroid jellyfish, as well as its special body structure, but there are still very few studies on the bionics and aquaculture of the ctenophore. The size of the spherical lateral arm jellyfish is less than 2cm, ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01K61/20A01K63/00A01K63/04A01K63/06
CPCA01K61/20A01K63/003A01K63/006A01K63/047A01K63/06Y02A40/81
Inventor 孙晓红孙德月朱笑林王言刚
Owner SHANDONG UNIV
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