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Artificial optimized culture method for sea squirt, microalgae and stichopus japonicus

A cultivation method and sea squirt technology are applied in the field of artificial optimization of sea squirt-microalgae-sea cucumber cultivation, and can solve problems such as lack of technical methods and the like

Inactive Publication Date: 2013-01-16
YANTAI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to the large-scale characteristics of seawater, there is still a lack of ideal technical methods

Method used

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  • Artificial optimized culture method for sea squirt, microalgae and stichopus japonicus

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0019] Common ginseng pond culture in sea area

[0020] 1) Collect sea squirts (1) in the Chlamys scallop culture area. When collecting, pay attention to remove them together with the attachment base to avoid damage to the sea squirts. Temporary cultivation in the sea squirt holding pond (2), the water temperature is 15-18°C, and the breeding density is 100-300 tails / m 3 , feed microalgae bait twice a day, and keep continuous light. During breeding, the water body needs to be filled with air. Mature sea squirt fertilized eggs (3) are collected, and hatched into sea squirt tadpole larvae (5) in a sea squirt hatching tank (4), and the hatching temperature is 18-22°C. A nylon rope (6) is hung in the hatching tank, and the larvae are attached to the nylon rope within 24-48 hours after hatching. When the sea squirt larva grows to 0.5-2.5cm, the nylon rope (7) that is attached to the sea squirt is moved into the water body volume and is 2.5m 3 Cultivation in the aquarium (8) of ...

Embodiment 2

[0029] Mesh enclosure culture in sea area

[0030] 1) Collect sea squirts (1) in the Chlamys farreri breeding area. When collecting, pay attention to remove them together with the attachment base to avoid damage to the sea squirts. Temporary cultivation in the sea squirt holding pond (2), the water temperature is 15-18°C, and the breeding density is 200 fish / m 3 , feed microalgae bait twice a day, and keep continuous light. During breeding, the water body needs to be filled with air. Mature sea squirt fertilized eggs (3) are collected, and hatched into sea squirt tadpole larvae (5) in a sea squirt hatching tank (4), and the hatching temperature is 18-22°C. A nylon rope (6) is hung in the hatching tank, and the larvae are attached to the nylon rope within 24-48 hours after hatching. When the sea squirt larva grows to 0.5-2.5cm, the nylon rope (7) that is attached to the sea squirt is moved into the water body volume and is 2.5m 3 Cultivation in the aquarium (8) of 1.5m * 1....

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Abstract

The invention relates to an artificial optimized culture method for sea squirts, microalgae and stichopus japonicus. The artificial optimized culture method for sea squirts, microalgae and stichopus japonicus is a bio-remediation technology for realizing self-purification of a culture water body and a sustainable marine product culturing method by utilizing a biological mutual benefit mechanism of a seawater polyculture system. The bait microalgae are inoculated in culture seawater; and the stichopus japonicus and the sea squirts are put into the culture water body with increased microalgae biomass. The inorganic nutritive salt in the seawater is converted into the microalgae biomass through the bioconversion of the microalgae so as to provide abundant bait for cultured organisms and simultaneously increase the concentration of dissolved oxygen in the water body. The sea squirts filtrate a large amount of sea water to remove grains and excess microalgae in the water body and settle a large quantity of aqueous layer particulate organic matters into a substrate in the form of feces and false faces. The demersal stichopus japonicus with a detritus food habit ingest the organic debris, benthic diatoms and microorganisms in the substrate so as to improve a substrate environment and reduce water body pollution. The artificial optimized culture method for sea squirts, microalgae and stichopus japonicus utilizes the polyculture system to promote the culture proliferation of the stichopus japonicus, carry out the self-purification and remediation of the culture water body, and realize the sustainable development of stichopus japonicus culture industry.

Description

(1) Technical field [0001] The present invention relates to a sea squirt-microalgae-stichopus artificially optimized breeding method, which is a biological mutual benefit mechanism utilizing sea squirts, microalgae and sea cucumbers, and biologically transforming inorganic nutrients and organic matter in seawater into sea cucumbers, sea squirts and Microalgae biomass, self-purification and restoration of the cultured waters, and a method for realizing the sustainable development of seawater japonicus artificial culture. (2) Background technology [0002] my country is a big country in marine life breeding. With the rapid development of the offshore aquaculture industry, a large amount of organic and inorganic waste is produced, resulting in eutrophication of seawater, resulting in an increase in the area and frequency of red tide outbreaks every year, seriously endangering the mariculture industry and the marine ecological environment. [0003] It is urgent to solve the pro...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01K61/00C12N1/12
CPCY02A40/81
Inventor 姜爱莉鞠宝于贞邢荣莲王长海
Owner YANTAI UNIV
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