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Method for inducing young elaphe carinata to eat non-living feeds

A non-living, feed technology, applied in animal husbandry and other directions, can solve the problems of unfavorable processing, storage and allocation of additives, high price, increased feeding cost, etc., to improve intestinal development, low price, and reduce feeding costs. Effect

Inactive Publication Date: 2012-11-28
林隆慧
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the supply of live animals is subject to seasonal constraints, and it is not conducive to processing, storage and allocation of additives. Most live animals are expensive, resulting in increased feeding costs

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] 1) Incubate king snake eggs with vermiculite, the incubation temperature is controlled at 28±0.3°C, and the ratio of vermiculite and water is 1:1;

[0028] 2) Collect the young snakes within 6 hours after hatching, and move them into the automatic temperature-controlled incubation room, the indoor temperature is controlled at 28°C, and natural light is used for illumination;

[0029] 3) The larvae will not provide any food within 3 weeks after hatching, but only provide enough drinking water to allow them to absorb the remaining egg yolk in the body and improve intestinal development;

[0030] 4) In the 4th week after the larvae are hatched, live suckling mice will be released, and the number of larvae will be twice that of the young snakes;

[0031] 5) Check the feeding situation of the young snakes on the second day after feeding, and pick out a small young snake that cannot take the initiative to feed and induce the feeding alone. The independent feeding can be carried out ac...

Embodiment 2

[0037] 1) Incubate king snake eggs with vermiculite, the incubation temperature is controlled at 28±0.2°C, and the weight ratio of vermiculite and water is 1:0.8;

[0038] 2) Collect the young snakes within 4 hours after hatching, and move them into the automatic temperature-controlled incubation room, the indoor temperature is controlled at 26°C, and natural light is used for illumination;

[0039] 3) The larvae will not provide any food within 3 weeks after hatching, but only provide enough drinking water to allow them to absorb the remaining egg yolk in the body and improve intestinal development;

[0040] 4) In the 4th week after the larvae hatch, live suckling mice will be put into use, and the quantity will be 1.5 times the number of young snakes;

[0041] 5) Check the feeding situation of the young snakes on the second day after feeding, and pick out a small young snake that cannot take the initiative to feed and induce the feeding alone. The independent feeding can be carried o...

Embodiment 3

[0047] 1) Incubate king snake eggs with vermiculite. The incubation temperature is controlled at 28±0.3°C. The weight ratio of vermiculite and water is 1:1.2;

[0048] 2) Collect the young snakes within 8 hours after hatching, and move them into the automatic temperature-controlled incubation room, the indoor temperature is controlled at 30°C, and natural light is used for illumination;

[0049] 3) The larvae will not provide any food within 3 weeks after hatching, but only provide enough drinking water to allow them to absorb the remaining egg yolk in the body and improve intestinal development;

[0050] 4) In the 4th week after the larvae hatch, live suckling mice will be put into use, and the quantity will be 2.5 times that of young snakes;

[0051] 5) Check the feeding situation of the young snakes on the second day after feeding, and pick out a small young snake that cannot take the initiative to feed and induce the feeding alone. The independent feeding can be carried out accordi...

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Abstract

The invention provides a method for inducing young elaphe carinata to eat non-living feeds, and belongs to the technical field of snake-raising methods. The method comprises the following steps of: 1, hatching elaphe carinata eggs with vermiculites; 2, collecting young elaphe carinata in 4 to 8 hours after hatching, and breeding the young elaphe carinata in a breeding room; 4, from the fourth week, feeding the young elaphe carinata with living suckling mice; 4, on the fourth to sixth day after the young elaphe carinata get feeding for the first time, feeding the young elaphe carinata with themixture of unfrozen sliced pork and the suckling mice; and 5, feeding the young elaphe carinata with the mixture of the unfrozen sliced pork and the suckling mice every 4 to 6 days, wherein during each feeding, the content of the suckling mouse in the feed gradually decreases, the content of the sliced pork in the feed gradually increases, and the young elaphe carinata is completely fed by slicedpork in one month after the induction begins. The newly hatched young elaphe carinata are induced to actively eat low-price non-living open baits which are easy to process and store and can be added with additives easily by utilizing the imprinting behaviors of animals; in addition, the feeding method is independent of limitation of seasons, easy to operate and low in feeding cost; and the survival rate of young elaphe carinata is high.

Description

Technical field [0001] The invention belongs to the technical field of methods for feeding snakes, and in particular relates to a method for inducing the larvae of king snakes to eat non-living feed. Background technique [0002] King Jin Snake ( Elaphe carinata ) Belongs to the suborder Serpentes, Colubridae, and the genus Serpent ( Elaphe ), is a fast and ferocious oviparous non-venomous snake. King Snake not only has important economic value in edible, medicinal and handicraft production, but also an ideal animal material for many basic biological researches. Wang Jin snake has large body, cold tolerance, wide feeding habits, fast growth, and short feeding period. It is one of the few non-venomous snake species suitable for artificial breeding. The young snakes are about 25-35 cm long after they emerge from their shells, and the first molting begins 7-10 days after they emerge. Young snakes can actively prey on live suckling rats, small water snakes, crickets, grasshoppers...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A01K67/02
Inventor 林隆慧毛飞屈彦福高建芳李宏计翔
Owner 林隆慧
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