CN103348936A - Farming method for squaliobarbus curriculus - Google Patents
Farming method for squaliobarbus curriculus Download PDFInfo
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- CN103348936A CN103348936A CN2013102406015A CN201310240601A CN103348936A CN 103348936 A CN103348936 A CN 103348936A CN 2013102406015 A CN2013102406015 A CN 2013102406015A CN 201310240601 A CN201310240601 A CN 201310240601A CN 103348936 A CN103348936 A CN 103348936A
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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
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- 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 discloses a farming method for squaliobarbus curriculus, which comprises the following steps: 1, performing manual disinfecting for a farming pool by quicklime, pouring water into the farming pool, applying ferment organic fertilizer to cultivate water quality, and putting the squaliobarbus curriculus fries into the farming pool, wherein at the early stage of the farming, soybean slurry or artificial fodder is adopted to feed the squaliobarbus curriculus fries, while at the later stage, the artificial fodder is adopted, and squaliobarbus curriculus fingerlings are obtained after the completion of farming; and 2, performing manual disinfecting for the fingerling farming pool by the quicklime, pouring clear water, applying the ferment organic fertilizer to cultivate water quality, putting the squaliobarbus curriculus fingerlings, adopting artificial fodder to feed squaliobarbus curriculus fingerlings, and putting freshwater shrimp fries into the pool after the squaliobarbus curriculus fingerlings are put into the pool. According to the invention, through controlling the farming density of the fries and adopting the reasonable mixed farming way and the high-protein artificial fodder, the disease-resistant rate and survival rate of the squaliobarbus curriculus fry are improved, and the quality and survival rate of the squaliobarbus curriculus can also be effectively improved.
Description
Technical field
The present invention relates to a kind of cultural method of Squaliobarbus curriculus fingerling, belong to aquaculture field.
Background technology
Squaliobarbus curriculus belongs to Cypriniformes, Cyprinidae, Leuciscinae, Squaliobarbus curriculus and belongs to, and the Zhenjiang, Jiangsu area is commonly called as rudd, weeds fish, and each water system of the whole nation all has distribution, is that a kind of growth is fast, strong adaptability, feeding habits are mixed, the commodity value high-economic fish.
Squaliobarbus curriculus inhabits the middle level of water body, and the natural baits such as the algae in the water body of can ingesting behind the fry membrane in natural water area, chip, wheel animalcule, body reach the water plants such as eel grass in the water body of just ingesting behind 5 ㎝, waterweed, duckweed, hydrilla verticillata.In the propagating artificially of present Squaliobarbus curriculus fingerling, the culturist generally be to cultivate the Squaliobarbus curriculus fingerling by the cultural method of using for reference other fingerling, but effect is unsatisfactory still in the stage of fumbling, and survival rate and the per mu yield of the fingerling that cultivation obtains are all lower.
Summary of the invention
Goal of the invention: technical problem to be solved by this invention provides a kind of Squaliobarbus curriculus fingerling cultural method, and the method can not only be cultivated high-quality fingerling, and can also improve survival rate and the per mu yield of fingerling.
Technical scheme: for achieving the above object, the technical solution adopted in the present invention is:
A kind of cultural method of Squaliobarbus curriculus fingerling comprises Squaliobarbus curriculus fry culturing stage and Squaliobarbus curriculus nurture of fish fingerlings stage, and the described nurture of fish fingerlings stage is adopted Squaliobarbus curriculus summer flower and freshwater shrimp Polyculture, and adopts artificial feed to raise the Squaliobarbus curriculus summer flower.
Wherein, the method specifically comprises the steps:
(1) the Squaliobarbus curriculus fry culturing stage: manually sterilized in the fry rearing pond with quicklime, inject clear water after the sterilization, dispensing fermentation fertilizer is cultivated water quality, throw in the Squaliobarbus curriculus fry, cultivate and adopt early stage soya bean slurry or artificial feed to raise the Squaliobarbus curriculus fry, cultivate the later stage and adopt artificial feed to raise the Squaliobarbus curriculus fry, obtain the Squaliobarbus curriculus summer flower after the cultivation;
(2) the Squaliobarbus curriculus nurture of fish fingerlings stage: with quicklime manually sterilized in the fry culturing pond, inject clear water after the sterilization, dispensing fermentation fertilizer is cultivated water quality, throw in the Squaliobarbus curriculus summer flower, adopt artificial feed to raise the Squaliobarbus curriculus summer flower, after the Squaliobarbus curriculus summer flower enters the pond, throw in the freshwater shrimp seed and raise together with.
Wherein, described artificial feed are by the component of following percentage by weight: corn 10.9%, rice bran 5.4%, wheat bran 5.4%, inferior powder 5.4%, fish meal 20.8%, soya-bean cake 48.6%, mineral matter salt-mixture 2% and fresh-water fishes compound premix 1.5% mix, and the content of protein is 34% in the artifical compound feed.
Wherein, in step (1) and the step (2), described fermentation fertilizer is fermentation poultry dung.
Wherein, the concrete operations of step (1) are, every mu is adopted 150~200 ㎏ quicklime water that the full pool spilling head sterilization is carried out in the fry rearing pond, filling clear water 80~100 ㎝ in the past pond after the sterilization, and every mu of dispensing 200~250 ㎏ fermentation fertilizer is cultivated water quality, throw in Squaliobarbus curriculus fry 200,000 tails for every mu behind the dispensing fermentation fertilizer, under the fry behind the pool every 5~7 days filling clear water 20 ㎝.
Wherein, in the step (1), Squaliobarbus curriculus fry 5~9 ㎏/mu soya bean that enters behind the pond to throw something and feed first every day in week is starched or artificial feed, increases progressively 20% every 5 light feeding volumes later on, the Squaliobarbus curriculus fry enter the pond after 18 days every day the 9 ㎏/mu artificial feed of throwing something and feeding, the number of times of throwing something and feeding day is 3 times.
Wherein, the concrete operations of step (2) are, every mu of usefulness 150~200 ㎏ quicklime water carry out the full pool spilling head sterilization to the fry culturing pond, filling clear water 100~120cm in the past pond after the sterilization, and every mu of dispensing 200~250 ㎏ fermentation fertilizer is cultivated water quality, behind the dispensing fermentation fertilizer, mu is thrown in Squaliobarbus curriculus fry 3.5 ten thousand tails, after the Squaliobarbus curriculus summer flower is thrown in, the pond was annotated and is changed water once in per 15 days, annotated quantity of exchanged water at every turn and was 1/6 of filling clear water total amount, after the Squaliobarbus curriculus summer flower enters the pond, throw in 7000 in freshwater shrimp seed for every mu and raise together with it, cultivated five months.
Wherein, in the step (2), Squaliobarbus curriculus summer flower day feeding volume is 2~5% of the summer flower weight of surviving in the pond, and the number of times of throwing something and feeding day is 4 times.
Beneficial effect: Squaliobarbus curriculus fry cultural method of the present invention can not only be cultivated high-quality fingerling, and can also improve survival rate and the per mu yield of fingerling, the inventive method is by reasonably raising together with mode to control and the employing of cultivation fry breeding density, and adopt the artificial feed of high protein to feed, greatly improve disease-resistant rate and the survival rate of Squaliobarbus curriculus fingerling, and effectively raised the quality of the fingerling of cultivating.
Embodiment
Below in conjunction with specific embodiment, further illustrate the present invention, should understand these embodiment only is used for explanation the present invention and is not used in and limits the scope of the invention, after having read the present invention, those skilled in the art all fall within the application's claims limited range to the modification of the various equivalent form of values of the present invention.
Each component of artificial feed is the commercially available prod among the present invention.Mineral matter salt-mixture of the present invention is the mineral feeds salt powder of being produced by the far logical great achievement feed Co., Ltd in the Inner Mongol.
Embodiment 1
The Squaliobarbus curriculus fry culturing stage: select 3 mu of single pond waters surface, the small-sized pond of depth of water 1.6m, fry is thrown in the last week, every mu of usefulness 150 ㎏ quicklime water are to the sterilization of evenly splashing of full pond, annotate clear water 80 ㎝ next day after the sterilization in the pond, mu is executed fermentation poultry dung 200 ㎏ and is cultivated water quality, water transparency is at 30 ㎝ when guaranteeing to put seedling, (late May) mu is put Squaliobarbus curriculus fry 200,000 tails in a suitable place to breed after 5 days, annotated clear water 20 ㎝ under the fry behind the pool every 5~7 days, the Squaliobarbus curriculus fry enters the artificial feed of first every day in week of every mu of 5 ㎏ soya beans of throwing something and feeding (wearing into 20 ㎏ soya beans slurry after the 1 ㎏ soybean soaking) behind the pond or pasty state, increase progressively 20% every 5 days feeding volumes later on, the Squaliobarbus curriculus fry enters the artificial feed that change the 9 ㎏/mu fine-powdered of throwing something and feeding behind the pond 18 day every day, throws something and feeds every day 4 times, cultivate and draw in the net a minute pool after 25 days, mu is produced about 150,000 tails of 3.0 ㎝/tail Squaliobarbus curriculus summer flower;
The Squaliobarbus curriculus nurture of fish fingerlings stage: select 5 mu of single pond waters surface, the little medium-sized pond of depth of water 2.0m, summer flower throw in the last week mu with 150 ㎏ quicklime water to the sterilization of evenly splashing of full pond, annotate clear water 100 ㎝ next day after the sterilization in the pond, mu is executed fermentation poultry dung 200 ㎏ and is cultivated water quality, (mid-June) mu is put Squaliobarbus curriculus summer flower 3.5 ten thousand tails in a suitable place to breed after 5 days, cultivate the per 15 days notes in pond under the summer flower behind the pool and change water once, the water yield that each notes change is 1/6 of Total Water, adopted again 25 ㎏/mu rice quicklime water to the sterilization of evenly splashing of full pond in per 20 days, to improve the disease-resistant rate of Squaliobarbus curriculus fingerling and to improve water quality environment, execute again fermentation poultry dung 50 ㎏ in per 30 days and cultivate water quality, to improve the survival rate of Squaliobarbus curriculus fingerling, the number of times of throwing something and feeding day that the Squaliobarbus curriculus summer flower enters behind the pond is 4 times, the morning 2 times, afternoon 2 times, day feeding volume be in the pond fingerling weight 2%, the Squaliobarbus curriculus summer flower enters behind the pond 7 days mu and puts 2.2 ㎝/7000 in freshwater shrimp seed and raise together with, the Squaliobarbus curriculus summer flower was through 5 months artificial cultures, the fingerling specification is 12 ㎝/tail, the survival rate of fingerling is 94%, and fingerling mu water surface output is 274 ㎏.
Described artificial feed are by the component of following percentage by weight: corn 10.9%, rice bran 5.4%, wheat bran 5.4%, inferior powder 5.4%, fish meal 20.8%, soya-bean cake 48.6%, mineral matter salt-mixture 2% and fresh-water fishes compound premix 1.5% mix, and the content of protein is 34% in the artifical compound feed.
Embodiment 2
The Squaliobarbus curriculus fry culturing stage: select 5 mu of single pond waters surface, the small-sized pond of depth of water 1.6m, fry is thrown in the last week, every mu of usefulness 200 ㎏ quicklime water are to the sterilization of evenly splashing of full pond, annotate clear water 100cm next day after the sterilization in the pond, mu is executed fermentation poultry dung 250 ㎏ and is cultivated water quality, water transparency is at 30 ㎝ when guaranteeing to put seedling, (late May) mu is put Squaliobarbus curriculus fry 200,000 tails in a suitable place to breed after 5 days, annotated clear water 20 ㎝ under the fry behind the pool every 5~7 days, the Squaliobarbus curriculus fry enters the artificial feed of first every day in week of every mu of 9 ㎏ soya beans of throwing something and feeding (wearing into 20 ㎏ soya beans slurry after the 1 ㎏ soybean soaking) behind the pond or pasty state, increase progressively 20% every 5 days feeding volumes later on, the Squaliobarbus curriculus fry enters the artificial feed that change the 9 ㎏/mu fine-powdered of throwing something and feeding behind the pond 18 day every day, throws something and feeds every day 4 times, cultivate and draw in the net a minute pool after 25 days, mu is produced about 150,000 tails of 3.0 ㎝/tail Squaliobarbus curriculus summer flower;
The Squaliobarbus curriculus nurture of fish fingerlings stage: select 10 mu of single pond waters surface, the little medium-sized pond of depth of water 2.0m, summer flower throw in the last week mu with 200 ㎏ quicklime water to the sterilization of evenly splashing of full pond, annotate clear water 120cm next day after the sterilization in the pond, mu is executed fermentation poultry dung 250 ㎏ and is cultivated water quality, (mid-June) mu is put Squaliobarbus curriculus summer flower 3.5 ten thousand tails in a suitable place to breed after 5 days, cultivate the per 15 days notes in pond under the summer flower behind the pool and change water once, the water yield that each notes change is 1/6 of Total Water, adopted again 25 ㎏/mu rice quicklime water to the sterilization of evenly splashing of full pond in per 20 days, to improve the disease-resistant rate of Squaliobarbus curriculus fingerling and to improve water quality environment, execute again fermentation poultry dung 50 ㎏ in per 30 days and cultivate water quality, to improve the survival rate of Squaliobarbus curriculus fingerling, the number of times of throwing something and feeding day that the Squaliobarbus curriculus summer flower enters behind the pond is 4 times, the morning 2 times, afternoon 2 times, day feeding volume be in the pond fingerling weight 5%, the Squaliobarbus curriculus summer flower enters behind the pond 7 days mu and puts 2.2 ㎝/7000 in freshwater shrimp seed and raise together with, the Squaliobarbus curriculus summer flower is through 5 months artificial cultures, its fingerling specification, survival rate and mu water surface output can reach 14 ㎝ respectively, 95%, 278 ㎏.
Described artificial feed are by the component of following percentage by weight: corn 10.9%, rice bran 5.4%, wheat bran 5.4%, inferior powder 5.4%, fish meal 20.8%, soya-bean cake 48.6%, mineral matter salt-mixture 2% and fresh-water fishes compound premix 1.5% mix, and the content of protein is 34% in the artifical compound feed.
Comparative Examples
Take the Squaliobarbus curriculus summer flower as the main kind of supporting, raise together with the freshwater shrimp pattern as experimental group, take the Squaliobarbus curriculus summer flower as the main kind of supporting, raising together with hybridized prussian carp, variegated carp and silver carp pattern organizes in contrast, experimental group from the difference of control group is: it is different that (1) and Squaliobarbus curriculus summer flower are raised together with biological species, what experimental group was raised together with it is freshwater shrimp, and what control group was raised together with it is hybridized prussian carp, variegated carp and silver carp; (2) nurture of fish fingerlings stage feed for nursing is different, and what experimental group was thrown something and fed is that protein content is 34% artificial feed, and what control group was thrown something and fed is the dish cake.Experimental group and control group are being cultivated size, the depth of water in pond, the consumption of quicklime, and the amount of water filling and frequency, the amount of dispensing fermentation fertilizer and daily management are with embodiment 1 or embodiment 2 described nurture of fish fingerlings modes.Through 5 months artificial cultures, the result was shown in table 1, table 2:
Table 1 is raised together with the freshwater shrimp pattern for take the Squaliobarbus curriculus summer flower as the main kind of supporting
Annotate: the hay varieties of throwing something and feeding is manufactured feed, and feed coefficient is 1.9.
Table 2 is raised together with hybridized prussian carp, variegated carp and silver carp pattern for take the Squaliobarbus curriculus summer flower as the main kind of supporting
Annotate: the hay varieties of throwing something and feeding is the dish cake, and feed coefficient is 4.1.
By table 1, table 2 result as seen, the experimental group of table 1 is because the too late Squaliobarbus curriculus fingerling of artificial feed comprehensive nutrition, the quality of throwing something and feeding freshwater shrimp ingestion ability good and that raise together with, therefore the Squaliobarbus curriculus fingerling neat specification of cultivating, survival rate height, and then make the cultivation comprehensive benefit reach optimum value; The control group of table 2, although what raise together with is that variegated carp, silver carp and hybridized prussian carp are lived in different water layers from the Squaliobarbus curriculus fingerling, but because that the dish cake hypotrophy face of throwing something and feeding and cultivation middle and later periods silver carp and hybridized prussian carp are robbed food is very capable, therefore having affected the Squaliobarbus curriculus fingerling goes out pond specification and survival rate, in addition, although the total per mu yield of control group is higher than experimental group, but because the Squaliobarbus curriculus fingerling specification of raising together with out is less than normal, and the fingerling unit price that other is raised together with is lower, so its bottom line is still well below experimental group.
Claims (8)
1. the cultural method of a Squaliobarbus curriculus fingerling is characterized in that: comprise Squaliobarbus curriculus fry culturing stage and Squaliobarbus curriculus nurture of fish fingerlings stage, described nurture of fish fingerlings stage employing Squaliobarbus curriculus summer flower and freshwater shrimp Polyculture, and employing artificial feed raising Squaliobarbus curriculus summer flower.
2. the cultural method of described Squaliobarbus curriculus fingerling according to claim 1 is characterized in that: specifically comprise the steps:
(1) the Squaliobarbus curriculus fry culturing stage: manually sterilized in the fry rearing pond with quicklime, inject clear water after the sterilization, dispensing fermentation fertilizer is cultivated water quality, throw in the Squaliobarbus curriculus fry, cultivate and adopt early stage soya bean slurry or artificial feed to raise the Squaliobarbus curriculus fry, cultivate the later stage and adopt artificial feed to raise the Squaliobarbus curriculus fry, obtain the Squaliobarbus curriculus summer flower after the cultivation;
(2) the Squaliobarbus curriculus nurture of fish fingerlings stage: with quicklime manually sterilized in the fry culturing pond, inject clear water after the sterilization, dispensing fermentation fertilizer is cultivated water quality, throw in the Squaliobarbus curriculus summer flower, adopt artificial feed to raise the Squaliobarbus curriculus summer flower, after the Squaliobarbus curriculus summer flower enters the pond, throw in the freshwater shrimp seed and raise together with.
3. the cultural method of described Squaliobarbus curriculus fingerling according to claim 1, it is characterized in that: described artificial feed comprise the component of following percentage by weight: corn 10.9%, rice bran 5.4%, wheat bran 5.4%, inferior powder 5.4%, fish meal 20.8%, soya-bean cake 48.6%, mineral matter salt-mixture 2% and fresh-water fishes compound premix 1.5%.
4. the cultural method of described Squaliobarbus curriculus fingerling according to claim 2, it is characterized in that: in step (1) and the step (2), described fermentation fertilizer is fermentation poultry dung.
5. the cultural method of described Squaliobarbus curriculus fingerling according to claim 2, it is characterized in that: the concrete operations of step (1) are, every mu is adopted 150~200 ㎏ quicklime water that the full pool spilling head sterilization is carried out in the fry rearing pond, filling clear water 80~100 ㎝ in the past pond after the sterilization, and every mu of dispensing 200~250 ㎏ fermentation fertilizer is cultivated water quality, throw in Squaliobarbus curriculus fry 200,000 tails for every mu behind the dispensing fermentation fertilizer, under the fry behind the pool every 5~7 days filling clear water 20 ㎝.
6. the cultural method of described Squaliobarbus curriculus fingerling according to claim 2, it is characterized in that: in the step (1), the Squaliobarbus curriculus fry is starched or artificial feed by 5~9 ㎏/mu soya bean that enters behind the pond to throw something and feed first every day in week, increase progressively 20% every 5 light feeding volumes later on, the Squaliobarbus curriculus fry enter the pond after 18 days every day the 9 ㎏/mu artificial feed of throwing something and feeding, the number of times of throwing something and feeding day is 3 times.
7. the cultural method of described Squaliobarbus curriculus fingerling according to claim 2, it is characterized in that: the concrete operations of step (2) are, every mu of usefulness 150~200 ㎏ quicklime water carry out the full pool spilling head sterilization to the fry culturing pond, filling clear water 100~120cm in the past pond after the sterilization, and every mu of dispensing 200~250 ㎏ fermentation fertilizer is cultivated water quality, behind the dispensing fermentation fertilizer, mu is thrown in Squaliobarbus curriculus fry 3.5 ten thousand tails, after the Squaliobarbus curriculus summer flower is thrown in, the pond was annotated and is changed water once in per 15 days, annotated quantity of exchanged water at every turn and was 1/6 of filling clear water total amount, after the Squaliobarbus curriculus summer flower enters the pond, throw in 7000 in freshwater shrimp seed for every mu and raise together with it, cultivated five months.
8. the cultural method of described Squaliobarbus curriculus fingerling according to claim 2 is characterized in that: in the step (2), Squaliobarbus curriculus summer flower day feeding volume be in the pond survival summer flower weight 2~5%, the number of times of throwing something and feeding day is 4 times.
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Cited By (4)
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CN104381169A (en) * | 2014-11-12 | 2015-03-04 | 中国科学院水生生物研究所 | Culturing method of squaliobarbus curriculus regarded as forage fish for out-of-season culturing of mandarin fish |
CN104489405A (en) * | 2014-12-26 | 2015-04-08 | 天全润兆鲟业有限公司 | Fish feed and production process thereof |
CN106719151A (en) * | 2016-12-19 | 2017-05-31 | 武汉市农业科学技术研究院水产科学研究所 | A kind of Squaliobarbus curriculus large size fingerling method for massively culturing |
CN106858174A (en) * | 2016-12-28 | 2017-06-20 | 新昌县赛因斯生物科技有限公司 | Organic yellow bull fish meal and preparation method thereof |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104381169A (en) * | 2014-11-12 | 2015-03-04 | 中国科学院水生生物研究所 | Culturing method of squaliobarbus curriculus regarded as forage fish for out-of-season culturing of mandarin fish |
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CN104489405A (en) * | 2014-12-26 | 2015-04-08 | 天全润兆鲟业有限公司 | Fish feed and production process thereof |
CN106719151A (en) * | 2016-12-19 | 2017-05-31 | 武汉市农业科学技术研究院水产科学研究所 | A kind of Squaliobarbus curriculus large size fingerling method for massively culturing |
CN106858174A (en) * | 2016-12-28 | 2017-06-20 | 新昌县赛因斯生物科技有限公司 | Organic yellow bull fish meal and preparation method thereof |
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Application publication date: 20131016 |