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High-yield crayfish breeding method

A breeding method and lobster technology, applied in fish farming, food processing, climate change adaptation, etc., can solve the problem of low annual benefit of crayfish farming, and achieve the effects of promoting shelling growth, promoting food intake, and reducing reproductive performance

Inactive Publication Date: 2021-11-02
TONGWEI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The purpose of the present invention is to solve the problem of low annual benefit of crayfish farming in the prior art, provide a high-yield crayfish farming method, adjust the crayfish breeding cycle according to market demand, and divide the year into two breeding stages Breeding large-scale crayfish can effectively improve the annual breeding efficiency of crayfish

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0022] Weigh the following components: fish meal 4%, enzymolysis chicken meal 8%, chicken meal 6%, soybean protein concentrate 3%, soybean meal 24%, fermented soybean meal 7%, corn gluten meal 8%, high-gluten flour 14%, Fish soluble slurry 6%, fish oil 5%, soybean lecithin 1.0%, choline chloride 0.2%, vitamin premix 1.0%, mineral premix 1.0%, calcium dihydrogen phosphate 2.0%, L-lysine 0.5%, L-methionine 0.1%, (2-carboxyethyl) dimethyl sulfonium bromide 0.03%, shelling factor 0.04%, bentonite 8.13%, sodium humate 1%.

[0023] The above components are pulverized into powder with a pulverizer, and after passing through a 80-mesh sieve, they are mixed step by step in a feed mixer; feed.

Embodiment 2

[0025] Fish meal 5%, enzymatic chicken meal 5%, chicken meal 5%, soybean protein concentrate 8%, soybean meal 16%, fermented soybean meal 10%, corn gluten meal 7%, high-gluten flour 13%, fish soluble pulp 5%, Fish oil 4%, soybean lecithin 0.8%, choline chloride 0.2%, vitamin premix 0.7%, mineral premix 0.8%, calcium dihydrogen phosphate 2.5%, L-lysine 0.5%, L-methionine 0.1%, (2-carboxyethyl) dimethyl sulfonium bromide 0.02%, shelling agent 0.03%, bentonite 14.85%, sodium humate 1.5%.

[0026] The above components are pulverized into powder with a pulverizer, and after passing through a 80-mesh sieve, they are mixed step by step in a feed mixer; feed.

Embodiment 3

[0028] Fish meal 4%, enzymatic chicken meal 6%, chicken meal 5%, soybean protein concentrate 6%, soybean meal 20%, fermented soybean meal 8%, corn gluten meal 6%, high-gluten flour 12%, fish soluble pulp 4%, Fish oil 2%, soybean lecithin 0.5%, choline chloride 0.8%, vitamin premix 0.5%, mineral premix 0.6%, calcium dihydrogen phosphate 3%, L-lysine 0.1%, L-methionine 0.1%, (2-carboxyethyl) dimethylsulfonium bromide 0.03%, shelling agent 0.02%, bentonite 20%, sodium humate 1.35%.

[0029] The above components are pulverized into powder with a pulverizer, and after passing through a 80-mesh sieve, they are mixed step by step in a feed mixer; feed.

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PUM

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Abstract

The invention discloses a high-yield crayfish breeding method. The high-yield crayfish breeding method comprises the following steps: S1, pond preparation; S2, stocking of young shrimps: young shrimps are subjected to stocking in two batches, in the first batch, the young shrimps are bred at the end of February, the young shrimps are bred according to the specification of 100-120 young shrimps per jin and 30-50 jin per mu, and the young shrimps are harvested from March to April; in the second batch, the young shrimps are bred in the middle ten days of June according to the specification of 60-80 young shrimps per jin and 80-120 jin per mu, and the shrimps are harvested from July to December; and S3, feeding management: the young shrimps are fed with common crayfish compound feed from February to April; the young shrimps are fed with high-temperature-period crayfish compound feed from June to September; and the young shrimps are fed with common crayfish compound feed from October to December. According to the method, the crayfish breeding cycle is adjusted according to market requirements, the whole year is divided into two breeding stages for breeding large-size crayfishes, and the annual breeding benefits of the crayfishes can be effectively improved.

Description

technical field [0001] The invention relates to the technical field of aquaculture, in particular to a high-yield crayfish breeding method. Background technique [0002] Crayfish (scientific name: Procambarus clarkii) is a crustacea, decapod, and crayfish family aquatic animals, also known as Procambarus clarkii, red crayfish and freshwater crayfish. It is a freshwater economic animal and is widely welcomed by people because of its delicious meat. Crayfish has become an important economically farmed species in China in recent years. [0003] At present, the general benefit of crayfish farming is low, mainly due to the impact of the high temperature season in the second half of the year, resulting in less crayfish production in the second half of the year, and the size of shrimp is smaller. Such crayfish are low in price and low in breeding benefits; therefore, the existing Crayfish farming is mainly concentrated in the first half of the year, and it is easy to grow large-si...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01K61/59A23K50/80A23K10/30A23K10/37A23K10/20A23K10/22A23K20/147A23K20/158A23K20/105A23K20/174A23K20/20A23K20/26A23K20/142A23K20/28A23K20/10
CPCA01K61/59A23K50/80A23K10/30A23K10/37A23K10/20A23K10/22A23K20/147A23K20/158A23K20/105A23K20/174A23K20/20A23K20/26A23K20/142A23K20/28A23K20/10Y02P60/87Y02A40/81Y02A40/818
Inventor 李淑云陈效儒张璐王用黎袁威吴强强
Owner TONGWEI
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