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Rapidly proliferated brine shrimp in high-temperature and high-salinity environments and domestication method thereof

A high-temperature, high-salt, and environmental technology, applied in the field of aquaculture, to achieve the effects of enhancing fluidity, strengthening endogenous antioxidant capacity, and reducing material costs

Active Publication Date: 2019-09-10
QINGDAO INST OF BIOENERGY & BIOPROCESS TECH CHINESE ACADEMY OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] In order to solve the problem of Artemia multiplication in the extreme environment (32-38 ℃ of upper layer water temperature, 15-18 ° of salinity or 160-190g / L brine salinity) of brine making pool in the central plains salt lake area in summer, the present invention provides a The domestication breeding method of a kind of Artemia

Method used

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  • Rapidly proliferated brine shrimp in high-temperature and high-salinity environments and domestication method thereof
  • Rapidly proliferated brine shrimp in high-temperature and high-salinity environments and domestication method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0023] Example 1: Rapidly multiplying Artemia domesticated in a high-temperature and high-salt environment

[0024] (1) Indoor domestication:

[0025] Phase I: To the sterilized area of ​​200m 2 Inject the filtered water with a depth of 80cm into the indoor pond, adjust the salinity of the water to 3°Bé (30‰, about 30g / L brine salinity), and then insert the hatched artemia with a fresh weight of about 3Kg. Larvae, the control water temperature is 28 ℃, every day divides twice in the pond and sprays and feeds the compound bait A of 20g; 2 ratio mixed to get.

[0026] Phase II: After 5 days of cultivation in Phase I, adjust the salinity of the pool water to 9°Bé (90‰, about 90g / L brine salinity), continue to control the water temperature to 28°C, and increase the daily feeding amount of bait A to 60g.

[0027] Stage III: After 6 days of stage II culture, continue to adjust the salinity of the pool water to 13°Bé (140‰, about 140g / L brine salinity), change the temperature of ...

Embodiment 2

[0032] Example 2: Rapidly multiplying Artemia domesticated in a high-temperature and high-salt environment

[0033] Different from Example 1,

[0034] (1) Indoor domestication:

[0035] Phase I: To the sterilized area of ​​200m 2 Inject filtered water with a depth of 80cm into the indoor pond, adjust the salinity of the water to 4°Bé (40‰, about 40g / L brine salinity), and then insert the hatched artemia with a fresh weight of about 5Kg. Larvae, the control water temperature is 30 ℃, every day divides twice in the pond and sprays and feeds the compound bait A of 50g; 3 ratio mixed to get.

[0036] Phase II: After 6 days of cultivation in Phase I, adjust the salinity of the pool water to 10°Bé (100‰, about 100g / L brine salinity), continue to control the water temperature to 30°C, and increase the daily feeding amount of bait A to 100g.

[0037] Stage III: After stage II cultivation for 5 days, continue to adjust the salinity of the pool water to 14°Bé (150‰, about 150g / L br...

Embodiment 3

[0041] Example 3: Rapidly multiplying Artemia domesticated in a high-temperature and high-salt environment

[0042] Different from Example 1,

[0043] (1) Indoor domestication:

[0044] Phase I: To the sterilized area of ​​200m 2 Inject the filtered water with a depth of 90cm into the indoor pond, adjust the salinity of the water to 3°Bé (30‰, about 30g / L brine salinity), and then insert the hatched artemia with a fresh weight of about 5Kg. Larvae, the control water temperature is 30 ℃, every day divides twice in the pond and sprays and feeds the compound bait A of 40g; Mixed at a ratio of 2.5.

[0045] Phase II: After 5 days of cultivation in Phase I, adjust the salinity of the pool water to 10°Bé (100‰, about 100g / L brine salinity), continue to control the water temperature to 30°C, and increase the daily feeding amount of bait A to 80g.

[0046] Stage III: After stage II cultivation for 5 days, continue to adjust the salinity of the pool water to 13°Bé (140‰, about 140...

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Abstract

The invention provides a rapidly proliferated brine shrimp in high-temperature and high-salinity environments and a domestication method thereof. The domestication method achieves gradual enhancementof adaptability of the brine shrimps to the extreme high-temperature and high-salinity environments by feeding the brine shrimps with mixed feeds by stages, and after domestication is completed, by continuously feeding the brine shrimps with the mixed feeds, ensures intake of polyunsaturated fatty acids (EPA) by the brine shrimps, maintains permeability of the cell membranes of the brine shrimps and ensures absorbency of the brine shrimp to nutrients in the extreme high-temperature and high-salinity environments, so that the problem of proliferation of the brine shrimps in brine making pools of salt lakes in summer with an upper temperature of 32-38 DEG C, a degree of salinity of 15-18 Baume degrees or a degree of brine salinity of 160-190 g / L. The domesticated rapidly proliferated brine shrimp in the high-temperature and high-salinity environments can continuously and rapidly proliferate under the premise of continuous mixed feed feeding, so that the material costs for purchasing juvenile shrimps and the time cost for repeated domestication can be reduced, and technical support can be supported for industrialized development.

Description

technical field [0001] The invention belongs to the field of cultivation, and relates to a method for cultivating Artemia, in particular to a method for multiplying and domesticating Artemia in a high-temperature and high-salt environment. Background technique [0002] Artemia (Brine Shrimp) is also called saltwater Artemia, and Chinese folks are also called salt worms or brine shrimp; it belongs to the phylum Arthropoda, Crustacea, Branchopod, Anocaria, Saltwater Artemia, Artemia (Artemia) . Artemia is rich in protein, complete in amino acid composition, relatively high in fat and polyunsaturated fatty acids, and rich in trace elements and growth factors. Artemia, as a high-quality live bait, is widely used in shrimp, crab, sea fish, freshwater fish and ornamental animal larvae breeding, and is the most widely used biological bait. About 40,000-50,000 tons of fresh Artemia are used for aquatic economic animal breeding in my country every year. So far, there is no substitu...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01K61/59A23K10/18A23K50/80
CPCA23K10/18A23K50/80A01K61/59Y02A40/81
Inventor 宋晓金崔球蓝传增冯银刚
Owner QINGDAO INST OF BIOENERGY & BIOPROCESS TECH CHINESE ACADEMY OF SCI
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