CN102669020A - Seedling collection facility for rapana venosa factory seed culture - Google Patents
Seedling collection facility for rapana venosa factory seed culture Download PDFInfo
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- CN102669020A CN102669020A CN2012101318489A CN201210131848A CN102669020A CN 102669020 A CN102669020 A CN 102669020A CN 2012101318489 A CN2012101318489 A CN 2012101318489A CN 201210131848 A CN201210131848 A CN 201210131848A CN 102669020 A CN102669020 A CN 102669020A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/80—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in fisheries management
- Y02A40/81—Aquaculture, e.g. of fish
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Abstract
The invention relates to factory fry breeding of aquaculture, in particular to a seedling collection facility for rapana venosa factory seed culture and a method, wherein the seedling collection facility consists of a plastic corrugated plate with a rough surface and a support for fixing the plastic corrugated plate, the plastic corrugated plate is fixed in a chute arranged on the support in parallel, and the side surface relative to a chute connecting rod is bundled up a rope which is parallel to the chute connecting rod. Oyster young shellfishes are firstly adhered on the plastic corrugated plate to be used as animal baits during the process of trophic conversion and metamorphosis of rapana venosa larvae before the seedling collection facility is thrown in. When more than 50 percent of the rapana venosa larvae grow between the later stage of three varices and the initial stage of four varices, and the seedling collection facility is thrown into a nursery pond in a mode that the plastic corrugated plate is in a plane stereo hierarchical mode, thereby leading the red screw larvae to be adhered on the plastic corrugated plate adhered with the oyster young shellfishes, completing the process of the trophic conversion and the metamorphosis and doing intermediate breeding of young screws. The seedling collection facility for rapana venosa factory seed culture can lead the rapana venosa larvae to smoothly complete the process of the trophic conversion and the metamorphosis in factory seed culture.
Description
The application is dividing an application of Chinese invention patent application; The applying date of original application: on October 29th, 2010; Application number: 201010538128.5, invention and created name: the collect seedling facility and the method for the red spiral shell factorial seedling growth of a kind of arteries and veins, publication number: CN101986833A; Point out suggestion by the auditor in original application case examination reports, propose this at present and divide an application.
Technical field
The batch production seed that the present invention relates to aquaculture produces the facility of collecting seedling of the red spiral shell factorial seedling growth of specifically a kind of arteries and veins.
Background technology
The red spiral shell Rapana of arteries and veins venosa is commonly called as " watt spiral shell ", " conch ", belongs to Mollusca, Gastropoda, Muricidae, and red spiral shell belongs to, adult shell Gao Keda 11-12cm, and China Bohai Sea and the Huanghai Sea all have distribution.Its foot is loose especially, delicious flavour, and nutritious, very people like food, and economic worth is high.In the last few years, along with decline and this kind commodity of near-coastal resources are in great demand in the domestic and international market, its economic worth improved constantly, and the live body price is 20~40 yuans/kilogram at present.
At present, the red spiral shell of arteries and veins has the very big market demand in China Bohai Sea and Huanghai Sea bank, since the nineties in last century; Some R&D institutions and the enterprise of growing seedlings attempt carrying out artificial breeding, but are mostly failure, and the efficient of emerging is extremely low; Also realize industrialized scale far away, cause propagating artificially and can't carry out on a large scale.
At present, the main factor that causes the red spiral shell seed breeding of arteries and veins technology not reach a standard is the feeding habits transfer problem that does not solve the red spiral shell larva of arteries and veins well.So-called feeding habits conversion is meant in the red spiral shell larval metamorphosis of the arteries and veins process and need transfers ingestion animal property bait to by vegetal baits such as the unit cell algaes that ingests.The feeding habits conversion is very crucial stage in the red spiral shell growth course of arteries and veins, and the death of most of larva all occurs in this developmental stage.In the red spiral shell factorial seedling growth of arteries and veins process, the animal bait major part of using at present is the muddy flesh of bivalve shellfish (like clam son, oyster, mussel etc.).Use the bivalve shellfish muddy flesh very easily to cause water quality to ruin, cause larva dead on a large scale, make the failure of growing seedlings as animal bait.
Summary of the invention
The object of the present invention is to provide the collect seedling facility and the method for the red spiral shell factorial seedling growth of a kind of arteries and veins, solve the feeding habits conversion and abnormal and young spiral shell intermediate rearing problem of the red spiral shell larva of arteries and veins.
To achieve these goals, technical scheme of the present invention is:
The method of collecting seedling of the red spiral shell factorial seedling growth of a kind of arteries and veins; Support by corrugated plating and set wave card is processed the facility of collecting seedling, and the facility of collecting seedling adheres to the oyster juvenile mollusk before throwing on corrugated plating; As the animal bait in conversion of the red spiral shell larva of arteries and veins feeding habits and the metamorphosis process; When the red spiral shell larvae development of 50% above arteries and veins, is many flat and stereos layered mode with corrugated plating and throws in the facility of collecting seedling during the initial stage to three gyration later stage to four gyrations in nursery pond, the red spiral shell larva of arteries and veins is attached on the corrugated plating with the oyster juvenile mollusk; Accomplish feeding habits conversion and metamorphosis process, and carry out young spiral shell intermediate rearing.
The method of collecting seedling of the red spiral shell factorial seedling growth of described arteries and veins, the density of oyster juvenile mollusk is 5~20/cm on the corrugated plating
2, oyster juvenile mollusk size is the long 0.5~2.0mm of shell.
The method of collecting seedling of the red spiral shell factorial seedling growth of described arteries and veins, the suitable application conditions of the red spiral shell factorial seedling growth of arteries and veins is: 18~28 ℃ of water temperatures, salinity are 25~35 ‰, and the pH value is 7.0~8.5, and the red spiral shell larvae cultivation of arteries and veins density is 0.1~0.3/ml.
The facility of collecting seedling of the red spiral shell factorial seedling growth of a kind of arteries and veins, the facility of collecting seedling is provided with the support of corrugated plating and set wave card, and the support of set wave card is a cube, and the corrugated plating secured in parallel is in the draw-in groove of support.
The facility of collecting seedling of the red spiral shell factorial seedling growth of described arteries and veins, in the corrugated plating, corrugated plating length is 50~100cm; The corrugated plating width is 50~100cm; Corrugated plating thickness is 0.05~0.15cm, and the ripple of corrugated plating evenly distributes, and the corrugated plating wave height is 1.0~2.0cm; Be distributed with the hole of diameter 2.0~4.0cm on the corrugated plating, the pitch-row on the corrugated plating is 10.0~30.0cm.
The facility of collecting seedling of the red spiral shell factorial seedling growth of described arteries and veins, stent length are than the big 0.5~1.0cm of corrugated plating length, and support width is than the big 0.5~1.0cm of corrugated plating width, and there is the draw-in groove of set wave card two sides that support is relative.
The facility of collecting seedling of the red spiral shell factorial seedling growth of described arteries and veins respectively near stile I and stile II position, vertically is symmetrical set a pair of draw-in groove connecting rod in side of support; Among the support another side stile III and stile IV relative with side of said support, stile I and stile IV are positioned at homonymy, and stile II and stile III are positioned at homonymy; Overlap joint one side bayonet slot between near the draw-in groove connecting rod of stile I and stile IV is overlapping the opposite side draw-in groove near between the draw-in groove connecting rod of stile II and the stile III.
The facility of collecting seedling of the red spiral shell factorial seedling growth of described arteries and veins, the draw-in groove of both sides form angle respectively and between the cradle in its outside, and the cradle in the said draw-in groove outside is provided with the railing that prevents the corrugated plating landing, and railing vertically is provided with.
The facility of collecting seedling of the red spiral shell factorial seedling growth of described arteries and veins, stile I and be 3.0~5.0cm near distance between the draw-in groove connecting rod of stile I, draw-in groove thickness is than the big 0.1~0.2cm of corrugated plating wave height, and distance is 2.0~20.0cm between the corrugated plating.
The facility of collecting seedling of the red spiral shell factorial seedling growth of described arteries and veins after the corrugated plating assembling is accomplished, is tied up the rope parallel with the draw-in groove connecting rod in the relative side of draw-in groove connecting rod.
The present invention compared with prior art has following advantage:
1. the present invention, has changed and directly in the red spiral shell larvae cultivation of arteries and veins pond, has thrown in the adverse consequences that the bivalve shellfish muddy flesh causes water quality deterioration in the past as the animal bait in conversion of the red spiral shell larva of arteries and veins feeding habits and the metamorphosis process with the oyster juvenile mollusk, and the larva survival rate is high.
2. collect seedling plastic corrugated sheet in the facility of the present invention is many flat and stereos hierarchy and distributes, and the facility itself of collecting seedling can make full use of the space just as the cultivation carrier in the conversion of larva feeding habits and metamorphosis period.
3. the collect seedling support of facility of the present invention is provided with draw-in groove, fixed plastics corrugated plating easily, and regulate the plastic ripple distance between plates as required easily.
4. utilize the present invention to carry out the red spiral shell factorial seedling growth of arteries and veins, larva can be accomplished feeding habits conversion and metamorphosis process smoothly, increases substantially the survival rate of the red spiral shell larva of arteries and veins in feeding habits conversion and metamorphosis process, and survival rate improves more than 70% than conventional method.
Description of drawings
Fig. 1, Fig. 2, Fig. 3 are the collect seedling structural representation of facility of the present invention.Wherein,
Fig. 1 is the plastic corrugated sheet sketch map in the facility of collecting seedling.
Fig. 2 is the support sketch map in the facility of collecting seedling.
Fig. 3 is the structural representation after the facility assembling moulding of collecting seedling.
Among the figure, 1, corrugated plating length; 2, corrugated plating width; 3, hole; 4, pitch-row; 5, the ripple of corrugated plating; 6, stent length; 7, support width; 8, support height; 9, draw-in groove; 10, railing; 11, draw-in groove connecting rod; 12, the nearest angle of draw-in groove connecting rod and support distance; 13, corrugated plating; 14, corrugated plating wave height; 15, oyster juvenile mollusk; 16, the rope parallel with the draw-in groove connecting rod; 17, distance between the corrugated plating; 18, stile I; 19, stile II; 20, stile III; 21, stile IV.
Embodiment
The method of collecting seedling of the red spiral shell factorial seedling growth of arteries and veins of the present invention, detailed process is following:
Support by shaggy plastic corrugated sheet and set wave card is processed the facility of collecting seedling; Before the facility of collecting seedling is thrown in; On plastic corrugated sheet, adhere to the oyster juvenile mollusk; As the animal bait in conversion of the red spiral shell larva of arteries and veins feeding habits and the metamorphosis process, the density of oyster juvenile mollusk is 5~20/cm on the plastic corrugated sheet
2, oyster juvenile mollusk size is the long 0.5~2.0mm of shell.When the red spiral shell larvae development of 50% above arteries and veins to three gyration later stage to four gyrations during the initial stage; In nursery pond, be many flat and stereos layered mode and throw in the facility of collecting seedling with plastic corrugated sheet; To make full use of water body; The red spiral shell larva of arteries and veins is attached on the plastic corrugated sheet (surface roughness of plastic corrugated sheet is as the criterion can adhere to the oyster juvenile mollusk) with the oyster juvenile mollusk, accomplishes feeding habits conversion and metamorphosis process, and carry out young spiral shell intermediate rearing.
The suitable application conditions of the red spiral shell factorial seedling growth of arteries and veins of the present invention is: 18~28 ℃ of water temperatures, salinity are 25~35 ‰, and the pH value is 7.0~8.5, and the red spiral shell larvae cultivation of arteries and veins density is 0.1~0.3/ml.
Shown in Fig. 1-3, the facility of collecting seedling among the present invention is made up of the support of shaggy plastic corrugated sheet and set wave card, and concrete structure is following:
In the plastic corrugated sheet 13; Plastic corrugated sheet length 1 is 50~100cm, and plastic corrugated sheet width 2 is 50~100cm, and the plastic ripple plate thickness is 0.05~0.15cm; The ripple 5 of corrugated plating evenly distributes; Plastic corrugated sheet wave height 14 is 1.0~2.0cm, is distributed with the hole 3 of diameter 2.0~4.0cm on the plastic corrugated sheet 13, and the pitch-row 4 on the plastic corrugated sheet 13 is 10.0~30.0cm.Plastic corrugated sheet 13 in the used facility of collecting seedling is many flat and stereos hierarchy distribution (Fig. 1) in nursery pond.
The support of fixed plastics corrugated plating 13 is cubes; Stent length 6 is than plastic corrugated sheet length 1 big 0.5~1.0cm; Support width 7 is than plastic corrugated sheet width 2 big 0.5~1.0cm; Support height 8 is than the length or the roomy 0.5~1.0cm of plastic corrugated sheet, and there is the draw-in groove 9 (Fig. 2) of fixed plastics corrugated plating 13 two sides that support is relative.
Respectively near stile (stile I18 and stile II19) position, vertically be symmetrical set a pair of draw-in groove connecting rod 11 in side of support; In two stiles in support another side (stile III20 and stile IV21) relative with side of said support, stile I18 and stile IV21 are at homonymy, and stile II19 and stile III20 are at homonymy; Overlap joint one side bayonet slot 9 between near the draw-in groove connecting rod 11 of stile I18 and stile IV21 is overlapping opposite side draw-in groove 9 near between the draw-in groove connecting rod 11 of stile II19 and the stile III20, and the draw-in groove 9 of both sides is a plurality of, is oppositely arranged.Thereby the draw-in groove 9 of both sides forms certain included angle respectively and between the cradle in its outside, and the cradle in said draw-in groove 9 outsides is provided with the railing 10 that prevents the corrugated plating landing, and railing 10 vertically is provided with.Stile I18 and be 3.0~5.0cm near distance (draw-in groove connecting rod and support nearest angle apart from 12) between the draw-in groove connecting rod 11 of stile I18, draw-in groove thickness is than corrugated plating wave height 14 big 0.1~0.2cm.Plastic corrugated sheet 13 secured in parallel are in the draw-in groove 9 of support, and distance 17 is 2.0~20.0cm between the plastic corrugated sheet, on plastic corrugated sheet 13, adheres to oyster juvenile mollusk 15.After plastic corrugated sheet 13 assembling is accomplished, tie up the rope 16 parallel in draw-in groove connecting rod 11 relative sides, prevent plastic corrugated sheet 13 landings (Fig. 3) with draw-in groove connecting rod 11.
Below providing with the red spiral shell larva of arteries and veins is several exemplary embodiments of example, but the present invention not merely is confined in following examples.
The experiment condition of the foregoing description is: water temperature: 23~24 ℃; Salinity: 30~32 ‰; PH value: 7.6~7.8; Larvae cultivation density: 0.1~0.2/ml, the vegetal bait chrysophyceae of throwing something and feeding, the facility input opportunity of collecting seedling is for when the red spiral shell larvae development of 65% arteries and veins during to the three gyration initial stages in gyration later stage to four (shell is grown 800~1200 μ m); Plastic corrugated sheet is long * wide * thick be 60cm * 60cm * 0.10cm; Be distributed with the hole of diameter 3cm on the corrugated plating, pitch-row 15cm.
Claims (7)
1. the facility of collecting seedling of the red spiral shell factorial seedling growth of arteries and veins, it is characterized in that: the facility of collecting seedling is provided with the support of corrugated plating and set wave card, and the support of set wave card is a cube, and the corrugated plating secured in parallel is in the draw-in groove of support.
2. according to the facility of collecting seedling of the red spiral shell factorial seedling growth of the described arteries and veins of claim 1, it is characterized in that: in the corrugated plating, corrugated plating length is 50~100cm; The corrugated plating width is 50~100cm; Corrugated plating thickness is 0.05~0.15cm, and the ripple of corrugated plating evenly distributes, and the corrugated plating wave height is 1.0~2.0cm; Be distributed with the hole of diameter 2.0~4.0cm on the corrugated plating, the pitch-row on the corrugated plating is 10.0~30.0cm.
3. according to the facility of collecting seedling of the red spiral shell factorial seedling growth of the described arteries and veins of claim 1; It is characterized in that: stent length is than the big 0.5~1.0cm of corrugated plating length; Support width is than the big 0.5~1.0cm of corrugated plating width, and there is the draw-in groove of set wave card two sides that support is relative.
4. according to the facility of collecting seedling of the red spiral shell factorial seedling growth of the described arteries and veins of claim 1, it is characterized in that: respectively near stile I and stile II position, vertically be symmetrical set a pair of draw-in groove connecting rod in side of support; Among the support another side stile III and stile IV relative with side of said support, stile I and stile IV are positioned at homonymy, and stile II and stile III are positioned at homonymy; Overlap joint one side bayonet slot between near the draw-in groove connecting rod of stile I and stile IV is overlapping the opposite side draw-in groove near between the draw-in groove connecting rod of stile II and the stile III.
5. according to the facility of collecting seedling of the red spiral shell factorial seedling growth of the described arteries and veins of claim 4; It is characterized in that: the draw-in groove of both sides forms angle respectively and between the cradle in its outside; The cradle in the said draw-in groove outside is provided with the railing that prevents the corrugated plating landing, and railing vertically is provided with.
6. according to the facility of collecting seedling of the red spiral shell factorial seedling growth of the described arteries and veins of claim 4; It is characterized in that: stile I and near between the draw-in groove connecting rod of stile I the distance be 3.0~5.0cm; Draw-in groove thickness is than the big 0.1~0.2cm of corrugated plating wave height, and distance is 2.0~20.0cm between the corrugated plating.
7. according to the facility of collecting seedling of the red spiral shell factorial seedling growth of the described arteries and veins of claim 4, it is characterized in that: after the corrugated plating assembling is accomplished, tie up the rope parallel with the draw-in groove connecting rod in the relative side of draw-in groove connecting rod.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201210131848.9A CN102669020B (en) | 2010-10-29 | 2010-10-29 | Seedling collection facility for rapana venosa factory seed culture |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201210131848.9A CN102669020B (en) | 2010-10-29 | 2010-10-29 | Seedling collection facility for rapana venosa factory seed culture |
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| CN2010105381285A Division CN101986833B (en) | 2010-10-29 | 2010-10-29 | Seedling collecting facility and method of industrialized rapana venosa seedling culture |
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| CN102669020A true CN102669020A (en) | 2012-09-19 |
| CN102669020B CN102669020B (en) | 2014-06-11 |
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Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103109770A (en) * | 2013-03-11 | 2013-05-22 | 丹东市水产技术推广总站 | Rapana venosa offspring seed cultivation method |
| CN103404455A (en) * | 2013-07-22 | 2013-11-27 | 中国科学院海洋研究所 | Novel adherence for industrial seedling raising of rapana venosa and use method of novel adherence |
| CN103766256A (en) * | 2014-01-13 | 2014-05-07 | 中国科学院南海海洋研究所 | Forecasting method for improving natural offspring seed collection efficiency of Crassostrea hongkongensis |
| CN103843713A (en) * | 2014-03-06 | 2014-06-11 | 大连海洋大学 | High-density neptunea cumingi crosse larva breeding device convenient to carry out feeding |
| CN104285859A (en) * | 2014-10-13 | 2015-01-21 | 中国科学院海洋研究所 | Substratum for producing oyster monomer fries and fry collection device matched with substratum |
| CN104705221A (en) * | 2013-12-16 | 2015-06-17 | 财团法人工业技术研究院 | Use of aquatic animal breeding attachment plate and combined type attachment equipment thereof |
| CN111387104A (en) * | 2014-02-28 | 2020-07-10 | 洋马株式会社 | Cultivation facility for cultivated organisms |
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Cited By (11)
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|---|---|---|---|---|
| CN103109770A (en) * | 2013-03-11 | 2013-05-22 | 丹东市水产技术推广总站 | Rapana venosa offspring seed cultivation method |
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| CN103404455A (en) * | 2013-07-22 | 2013-11-27 | 中国科学院海洋研究所 | Novel adherence for industrial seedling raising of rapana venosa and use method of novel adherence |
| CN103404455B (en) * | 2013-07-22 | 2015-04-15 | 中国科学院海洋研究所 | Novel adherence for industrial seedling raising of rapana venosa and use method of novel adherence |
| CN104705221A (en) * | 2013-12-16 | 2015-06-17 | 财团法人工业技术研究院 | Use of aquatic animal breeding attachment plate and combined type attachment equipment thereof |
| CN104705221B (en) * | 2013-12-16 | 2017-06-13 | 财团法人工业技术研究院 | Aquatic animal seedling combined type adhesion equipment |
| CN103766256A (en) * | 2014-01-13 | 2014-05-07 | 中国科学院南海海洋研究所 | Forecasting method for improving natural offspring seed collection efficiency of Crassostrea hongkongensis |
| CN103766256B (en) * | 2014-01-13 | 2015-09-30 | 中国科学院南海海洋研究所 | A kind of forecasting procedure improving the natural efficiency of collecting seedling of Hong Kong oyster |
| CN111387104A (en) * | 2014-02-28 | 2020-07-10 | 洋马株式会社 | Cultivation facility for cultivated organisms |
| CN103843713A (en) * | 2014-03-06 | 2014-06-11 | 大连海洋大学 | High-density neptunea cumingi crosse larva breeding device convenient to carry out feeding |
| CN104285859A (en) * | 2014-10-13 | 2015-01-21 | 中国科学院海洋研究所 | Substratum for producing oyster monomer fries and fry collection device matched with substratum |
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