CN104430125B - A kind of high-efficiency aquaculture system and method - Google Patents
A kind of high-efficiency aquaculture system and method Download PDFInfo
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- CN104430125B CN104430125B CN201410637030.3A CN201410637030A CN104430125B CN 104430125 B CN104430125 B CN 104430125B CN 201410637030 A CN201410637030 A CN 201410637030A CN 104430125 B CN104430125 B CN 104430125B
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K63/00—Receptacles for live fish, e.g. aquaria; Terraria
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G31/00—Soilless cultivation, e.g. hydroponics
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01G—HORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
- A01G33/00—Cultivation of seaweed or algae
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; CARE OF BIRDS, FISHES, INSECTS; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K63/00—Receptacles for live fish, e.g. aquaria; Terraria
- A01K63/04—Arrangements for treating water specially adapted to receptacles for live fish
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- Marine Sciences & Fisheries (AREA)
- Animal Husbandry (AREA)
- Biodiversity & Conservation Biology (AREA)
- Farming Of Fish And Shellfish (AREA)
Abstract
The invention provides a kind of high-efficiency aquaculture system, pond two ends have outlet and water inlet respectively, purify channel at least about pond water inlet and outlet;The area purifying channel is the 10~15% of pond, purifies kind in channel and is implanted with pasture and water, planting density is 1.5~2.5kg/m2, pasture and water are positioned at 10~30cm under water.Present invention also offers the method being cultivated using above-mentioned high-efficiency aquaculture system.The whole system of the present invention realizes complete material circulation, and by controlling the area ratio purifying channel and fish pond, purifying position of the density of pasture and water and pasture and water etc. in channel, the poisonous and harmful substance realizing fish pond generation is purified by pasture and water maximum absorption;Additionally water body need not be carried out with modification sterilization and change water etc., greatly save cost and resource, it is to avoid environmental pollution;Whole cultivating system adopts ecologic breeding, greatly reduces the incidence rate of disease, it is to avoid medicine causes to remain in vivo, improves yield and the quality of aquaculture.
Description
Technical field
The present invention relates to aquaculture field is and in particular to a kind of high-efficiency aquaculture system and method.
Background technology
Aquaculture is generally carried out using culturing pool, and aquaculture pond is due to its closure, thus leading to the water in pond
Cannot be carried out Efficient Cycle, cultivated under such environment, the Excreta of food debriss and fish cannot be discharged, and leads in culturing pool
Water quality deteriorate, acid-base value is unbalance, thus the water in pond can be caused seriously to be contaminated, the time one is long even to cause Fish in pond
Death, provisions grows and brings great loss.Technical staff has carried out multiple improvement to aquaculture system.
Such as CN103329844 A discloses a kind of aquaculture water circulation cultivation system, including having inclined-plane at the bottom of pond
Culturing pool, the water inlet of described culturing pool connects the outlet of water quality lower water temperature unit, and the outlet of culturing pool is sterilized heavy
Shallow lake pond connects the water inlet of water quality lower water temperature unit;In culturing pool, float has deflector, and the waters of culturing pool is divided by deflector
It is divided into the water channel of closed circulation, in water channel, set water pump;It is provided with the dirt colleceting area with sewage draining exit in the lowest part of culturing pool.The present invention
Connect the outlet of water quality lower water temperature unit, the outlet of culturing pool by making the water inlet of the culturing pool with inclined-plane at the bottom of pond
Sterilized sedimentation tank connects the water inlet of water quality lower water temperature unit;It is provided with deflector by the water of culturing pool in culturing pool simultaneously
Domain is separated into the water channel of closed circulation, and sets water pump in water channel, is provided with dirt colleceting area in culturing pool lowest part, so that cultivation
Pool inner water is realized self-loopa and is cleaned simultaneously, so that breeding water is achieved and recycles.This patent is not entered to cycling use of water
The incremental process of row, the effect of water process is bad.
And for example CN103518664A discloses a kind of circulating water culture system cultivation water being reused and being evolved,
Including culturing pool, described culturing pool passes through pipeline coarse filter and is connected, and the place that described coarse filter is communicated with culturing pool is provided with lattice
Grid;Described coarse filter is connected with fine straining pond by pipeline, is provided with purifying box in described fine straining pond;Pipeline is passed through in described fine straining pond
It is connected with culturing pool.After said structure, the aquaculture system of this invention passes sequentially through coarse filter, fine straining pond, one-level are sunk
Shallow lake pond, second-level settling pond and lower water temperature pond;First aquiculture recycled water is filtered, then pass through chemical reagent again to following
Ring water carries out sterilizing, contamination precipitation;Finally by lower water temperature pond, temperature control is carried out to the recirculated water through precipitation.This patent needs
Using chemical disinfection, multi stage precipitation etc., there is certain pollution to environment, and floor space is big, waste of resource.
Therefore, in order to solve problems of the prior art, still be badly in need of study one kind economize on resources, no pollution, mental retardation
Consumption, efficient aquaculture method.
Content of the invention
It is an object of the invention to overcoming deficiency of the prior art, provide a kind of high-efficiency aquaculture system and method,
No pollution discharge, low energy consumption, have very strong stability and controllability.
The first aspect of the invention be provide a kind of high-efficiency aquaculture system, include the complete pond of oxygen supply equipment with
It is arranged on the other purification channel in pond, described pond one end is provided with outlet, and the other end is provided with water inlet, described water inlet and going out
It is equipped with water pump, described purification channel is at least about the water inlet in pond connection pond and outlet (i.e. described purification at the mouth of a river
Channel is at least about the 1/2 of pond);The described area purifying channel is the 10~15% of described pond area, described purification canal
Plant in road and be implanted with pasture and water, the planting density of pasture and water is 1.5~2.5kg/m2, described pasture and water are positioned at 10~30cm under water.
Preferably, described purification channel cincture pond one is enclosed.
Preferably, the area in described pond is 0.5~20 mu, more preferably 1~10 mu.
Preferably, the depth of water in described pond is 1.0~1.8m, more preferably 1.2~1.5m.
Preferably, it is provided with rack in described purification channel, described pasture and water are attached on rack.
Preferably, described pasture and water are located at 20cm under water.
Wherein, described pasture and water can be any one or more in the pasture and water that can purify water, for example, can be extra large Chang
Pu, Ptilota plumosa, Wild Vitis species, Cornu Cervi algae, Margarita algae, flame algae etc..
Preferably, the cultivation density in described pond is shrimp 700~1300kg/ mu or fish 700~1000kg/ mu.
The second aspect of the invention is to provide a kind of high-efficiency aquaculture method, described using present invention one side
Any one high-efficiency aquaculture system cultivated, comprise the following steps:
1) provide the present invention the on one side described in any one high-efficiency aquaculture system;
2) shrimp seedling 15~300,000 tails/mu or fry 3000~5000 tails/mu are put into;
3) water in pond is pumped into purification channel by the water pump of water outlet, the water pump of the water inlet water after cleaned by pasture and water
Pump into pond, be the 0.1~1% of pond waters by the pump output that water pump controls daily pond, the amount of pumping into is pond waters
0.1~1%;
4) cultivation shrimp to one-tenth shrimp or cultivates fish to adult fish, dry pool harvesting.
Wherein, the concrete culturing time of shrimp or fish is depending on kind, and the culturing time of general shrimp is 3~4 months, the supporting of fish
Time of growing is 8 months~1.5 years.
Beneficial effects of the present invention:
The whole system of the present invention realizes complete material circulation, by the area ratio in control purification channel and fish pond, only
Change position of the density of pasture and water and pasture and water etc. in channel, the poisonous and harmful substance realizing fish pond generation is net by pasture and water maximum absorption
Change;Additionally water body need not be carried out with modification sterilization and change water etc., greatly save cost and resource, it is to avoid environmental pollution;Entirely
Cultivating system adopts ecologic breeding, considerably reduces the incidence rate of disease, have very strong stability, it is to avoid because using anti-
The medicines such as raw element, hormone cause to remain in vivo, improve yield and the quality of aquaculture.
Brief description
Fig. 1 is the structural representation of high-efficiency aquaculture system of the present invention.
Specific embodiment
The invention provides a kind of high-efficiency aquaculture system, with reference to Fig. 1, described high-efficiency aquaculture system includes oxygen supply
Self-contained pond 10 and the purification channel 20 being arranged on pond side, described pond one end is provided with outlet 11, and the other end sets
There is water inlet 12, at described water inlet 12 and outlet 11, be equipped with water pump.Plant in described purification channel and be implanted with pasture and water 21.
Described purification channel 20 connects water inlet 12 and outlet 11 (the i.e. described purification canal in pond at least about pond 10
Road 20 is at least about the 1/2 of pond 10).It is preferably carried out in mode at one, described purification channel 20 encloses around pond 10 1.
Stay to both sides through the water that outlet pumps out, go out to converge in water inlet, purification of water quality is more thorough.
The described area purifying channel is the 10~15% of described pond area, when the area purifying channel is less than pond face
When long-pending 10%, the water quality of water inlet fails up to standard, when the area purifying channel is more than the 15% of pond area although water inlet
Mouthful water quality more excellent, but floor space increases, comprehensive pond water quality actual demand and from the aspect of economizing on resources, in the present invention
The area purifying channel is the 10~15% of pond area.
The planting density of pasture and water is 1.5~2.5kg/m2.When pasture and water density is more than 2.5kg/m2When, it is unfavorable for the life of pasture and water
Long;When pasture and water density is less than 1.5kg/m2When although pasture and water growth more preferably, but purification function reduces, and needs to increase and purifies canal
The area in road, comprehensive many-sided consideration, the planting density purifying pasture and water in channel in the present invention is 1.5~2.5kg/m2.One
It is provided with rack, described pasture and water are attached on rack in individual preferred embodiment middle purification channel.
Described pasture and water are located at 10~30cm under water.When the position of pasture and water is higher than 10cm, current dynamic resistance increases, and water is to water
The active force of grass increases, and pasture and water can be led to crawl, and is unfavorable for that pasture and water grow.When the position of pasture and water is less than 30cm, purification of water quality
Not exclusively.Consider, heretofore described pasture and water are located at 10~30cm under water, and under water 20cm when optimum.
Preferably, the area in described pond is 0.5~20 mu, more preferably 1~10 mu.
Wherein, described pasture and water can be any one or more in the pasture and water that can purify water, for example, can be extra large Chang
Pu, Ptilota plumosa, Wild Vitis species, Cornu Cervi algae, Margarita algae, flame algae etc..
Preferably, the cultivation density in described pond is shrimp 700~1300kg/ mu or fish 700~1000kg/ mu.When foster
Grow density too low when, pool space utilization not, causes the wasting of resources, when cultivation density is too high, is unfavorable for that Aquatic product grows.
The present invention is cultivated using above-mentioned high-efficiency aquaculture system, comprises the following steps:
1) provide above-mentioned high-efficiency aquaculture system;
2) shrimp seedling 15~300,000 tails/mu or fry 3000~5000 tails/mu are put into;
3) water in pond is pumped into purification channel by the water pump of water outlet, the water pump of the water inlet water after cleaned by pasture and water
Pump into pond, be the 0.1~1% of pond waters by the pump output that water pump controls daily pond, the amount of pumping into is pond waters
0.1~1%;
4) cultivate shrimp 3~4 months or cultivate fish 1~1.5 year, dry pool harvesting.
Wherein, the pump output of pond water is too low, water body purification can be led to excessively slow, be unfavorable for the growth of fish, and pump output is pond
Pool water body 0.1~1% when can meet water body purification demand, pump output is too high to cause the wasting of resources.
Wherein, the concrete culturing time of shrimp or fish is depending on kind, and the culturing time of general shrimp is 3~4 months, the supporting of fish
Time of growing is 8 months~1.5 years.
Wherein, the nursing (feedstuff species, feed mode, feeding volume and feed frequency etc.) of shrimp or fish is normal according to this area
Rule mode is carried out.
With reference to specific embodiment, the present invention is described further, to more fully understand the present invention.
Embodiment 1
There is provided oxygen supply equipment complete pond, pond area is 10 mu, depth of water 1.5m, and pond one end is provided with outlet, separately
One end is provided with water inlet, and water inlet and water outlet are equipped with water pump.Purify channel around enclosing in pond one, purifying channel area is
The 15% of pond area, purifies in channel and is provided with rack, extra large Rhizoma Acori Graminei is attached on rack, positioned at 20cm under water, extra large Rhizoma Acori Graminei density
For 2kg/m2(about 50~80 plants/m2).
Put into shrimp seedling of Penaeus vannamei 200,000 tails/mu.The water in pond is pumped into purification channel by the water pump of water outlet, enters water
By pasture and water, the water after cleaned pumps into pond to the water pump of mouth, is pond waters by the pump output that water pump controls daily pond
0.5%, the amount of pumping into is the 0.5% of pond waters;Cultivate shrimp after 4 months, dry pool harvesting, calculate the amount of having caught of Penaeus vannamei.
The results are shown in Table 1.
Embodiment 2
There is provided oxygen supply equipment complete pond, pond area is 5 mu, depth of water 1.2m, and pond one end is provided with outlet, another
End is provided with water inlet, and water inlet and water outlet are equipped with water pump.Purify channel around enclosing in pond one, purification channel area is pond
The 10% of pool area, purifies in channel and is provided with rack, Ptilota plumosa is attached on rack, and positioned at 10cm under water, Ptilota plumosa density is
1.5kg/m2.
Put into shrimp seedling of Penaeus vannamei 300,000 tails/mu.The water in pond is pumped into purification channel by the water pump of water outlet, enters water
By pasture and water, the water after cleaned pumps into pond to the water pump of mouth, is pond waters by the pump output that water pump controls daily pond
1%, the amount of pumping into is the 1% of pond waters;Cultivate shrimp after 4 months, dry pool harvesting, calculate the amount of having caught of Penaeus vannamei.Result
It is shown in Table 1.
Embodiment 3
There is provided oxygen supply equipment complete pond, pond area is 1 mu, depth of water 1.0m, and pond one end is provided with outlet, another
End is provided with water inlet, and water inlet and water outlet are equipped with water pump.Purify channel around enclosing in pond one, purification channel area is pond
The 12% of pool area, purifies in channel and is provided with rack, Ptilota plumosa is attached on rack, and positioned at 30cm under water, Ptilota plumosa density is
1.5kg/m2.
Put into shrimp seedling of Penaeus vannamei 150,000 tails/mu.The water in pond is pumped into purification channel by the water pump of water outlet, enters water
By pasture and water, the water after cleaned pumps into pond to the water pump of mouth, is pond waters by the pump output that water pump controls daily pond
0.1%, the amount of pumping into is the 0.1% of pond waters;Cultivate shrimp after 4 months, dry pool harvesting, calculate the amount of having caught of Penaeus vannamei.
The results are shown in Table 1.
Embodiment 4
There is provided oxygen supply equipment complete pond, pond area is 4 mu, depth of water 1.8m, and pond one end is provided with outlet, another
End is provided with water inlet, and water inlet and water outlet are equipped with water pump.Purify channel around enclosing in pond one, purification channel area is pond
The 15% of pool area, purifies in channel and is provided with rack, extra large Rhizoma Acori Graminei is attached on rack, and positioned at 20cm under water, extra large Rhizoma Acori Graminei density is
2kg/m2(about 50~80 plants/m2).
Put into blue patch lithosporic fry 5000 tails/mu.The water in pond is pumped into purification channel, water inlet by the water pump of water outlet
Water pump by pasture and water, the water after cleaned pumps into pond, be pond waters by the pump output that water pump controls daily pond
0.8%, the amount of pumping into is the 0.8% of pond waters;Cultivate cabrilla after 1 year, dry pool harvesting, calculate having caught of blue patch cabrilla
Amount.The results are shown in Table 1.
Embodiment 5
There is provided oxygen supply equipment complete pond, pond area is 8 mu, depth of water 1.4m, and pond one end is provided with outlet, another
End is provided with water inlet, and water inlet and water outlet are equipped with water pump.Purify channel around enclosing in pond one, purification channel area is pond
The 14% of pool area, purifies in channel and is provided with rack, Ptilota plumosa is attached on rack, and positioned at 10cm under water, Ptilota plumosa density is
2kg/m2.
Put into blue patch lithosporic fry 3000 tails/mu.The water in pond is pumped into purification channel, water inlet by the water pump of water outlet
Water pump by pasture and water, the water after cleaned pumps into pond, be pond waters by the pump output that water pump controls daily pond
0.4%, the amount of pumping into is the 0.4% of pond waters;Cultivate cabrilla after 1 year, dry pool harvesting, calculate having caught of blue patch cabrilla
Amount.The results are shown in Table 1.
Embodiment 6
There is provided oxygen supply equipment complete pond, pond area is 3 mu, depth of water 1.3m, and pond one end is provided with outlet, another
End is provided with water inlet, and water inlet and water outlet are equipped with water pump.Purify channel around enclosing in pond one, purification channel area is pond
The 11% of pool area, purifies in channel and is provided with rack, Ptilota plumosa is attached on rack, and positioned at 30cm under water, Ptilota plumosa density is
2.5kg/m2.
Put into blue patch lithosporic fry 4000 tails/mu.The water in pond is pumped into purification channel, water inlet by the water pump of water outlet
Water pump by pasture and water, the water after cleaned pumps into pond, be pond waters by the pump output that water pump controls daily pond
0.6%, the amount of pumping into is the 0.6% of pond waters;Cultivate cabrilla after 1 year, dry pool harvesting, calculate having caught of blue patch cabrilla
Amount.The results are shown in Table 1.
Comparative example 1
Select the pond that area is 10 mu, pond depth of water 1.2m, throw in Penaeus vannamei Seedling 200,000 tails/mu, using tradition
Cultural method, the regulating and controlling water quality during cultivation adopts traditional approach.Cultivation did pool harvesting after 4 months, calculated Penaeus vannamei
The amount of having caught.The results are shown in Table 1.
Comparative example 2
Select the pond that area is 8 mu, pond depth of water 1.2m, throw in blue patch lithosporic fry 5000 tails/mu, supported using tradition
Grow method, the regulating and controlling water quality during cultivation adopts traditional approach.Cultivation did pool harvesting after 1 year, calculated having caught of blue patch cabrilla
Amount.The results are shown in Table 1.
Table 1 present invention and traditional approach compare situation
Area | Culture-cycle | Throw Seedling quantity | Yield | Survival rate | |
Embodiment 1 | 10 mu | 4 months | 200000 tails/mu | 1164.53kg/ mu | 87.56% |
Embodiment 2 | 5 mu | 4 months | 300000 tails/mu | 1287.42kg/ mu | 81.73% |
Embodiment 3 | 1 mu | 4 months | 150000 tails/mu | 956.78kg/ mu | 82.58% |
Comparative example 1 | 10 mu | 4 months | 200000 tails/mu | 657.52kg/ mu | 72.36% |
Embodiment 4 | 4 mu | 1 year | 5000 tails/mu | 1976kg/ mu | 83.48% |
Embodiment 5 | 8 mu | 1 year | 3000 tails/mu | 1884kg/ mu | 87.64% |
Embodiment 6 | 3 mu | 1 year | 4000 tails/mu | 1837kg/ mu | 84.87% |
Comparative example 2 | 8 mu | 1 year | 5000 tails/mu | 1687kg/ mu | 73.66% |
As shown in Table 1, the survival rate cultivating the yield of Penaeus vannamei using traditional regulating and controlling water quality mode is 72.36%,
And the survival rate cultivating Penaeus vannamei is carried out up to more than 81.73% using aquaculture system of the present invention, even as high as
87.56%;The survival rate cultivating the yield of blue patch cabrilla using traditional regulating and controlling water quality mode is 73.66%, and adopts this
Bright aquaculture system carries out cultivating the survival rate of blue patch cabrilla up to more than 83.48%, and even as high as 87.64%.Using
Aquaculture system of the present invention carries out cultivation and is greatly improved Aquatic product survival rate, and yield greatly improves, and need not be additionally to water body
Carry out modification sterilization and change water etc., greatly save cost and resource, it is to avoid environmental pollution;Whole cultivating system is supported using ecological
Grow, considerably reduce the incidence rate of disease, there is very strong stability, it is to avoid because being made using medicines such as antibiotic, hormones
Residual in adult, improves yield and the quality of aquaculture, brings good economic benefit to raiser.
Above the specific embodiment of the present invention is described in detail, but it has been intended only as example, the present invention has not limited
It is formed on particular embodiments described above.To those skilled in the art, any equivalent modifications that the present invention is carried out and
Substitute also all among scope of the invention.Therefore, the impartial conversion made without departing from the spirit and scope of the invention and
Modification, all should cover within the scope of the invention.
Claims (9)
1. a kind of high-efficiency aquaculture system is it is characterised in that including the complete pond of oxygen supply equipment and being arranged on pond side
Purify channel, described pond one end is provided with outlet, and the other end is provided with water inlet, and described water inlet and water outlet are equipped with water
Pump, the water in pond is pumped into purification channel by the water pump of water outlet, and by pasture and water, the water after cleaned pumps into pond to the water pump of water inlet
The pool, by water pump control daily pond pump output be pond waters 0.1~1%, the amount of pumping into be pond waters 0.1~
1%, the described channel that purifies is at least about the water inlet in pond connection pond and outlet;The described area purifying channel is described
The 10~15% of pond area, plant in described purification channel and are implanted with pasture and water, and the planting density of pasture and water is 1.5~2.5kg/m2, institute
State pasture and water and be located at 10~30cm under water.
2. high-efficiency aquaculture system according to claim 1 is it is characterised in that described purification channel is around pond one
Circle.
3. high-efficiency aquaculture system according to claim 1 is it is characterised in that the area in described pond is 0.5~20
Mu, the depth of water 1.0~1.8m.
4. high-efficiency aquaculture system according to claim 3 it is characterised in that described pond area be 1~10 mu,
The depth of water 1.2~1.5m.
5. high-efficiency aquaculture system according to claim 1 is it is characterised in that be provided with rack in described purification channel,
Described pasture and water are attached on rack.
6. according to claim 1 or 5 high-efficiency aquaculture system it is characterised in that described pasture and water are located at 20cm under water.
7. high-efficiency aquaculture system according to claim 1 it is characterised in that described pasture and water be extra large Rhizoma Acori Graminei, Ptilota plumosa,
One or more of Wild Vitis species, Cornu Cervi algae, Margarita algae and flame algae.
8. high-efficiency aquaculture system according to claim 1 is it is characterised in that the cultivation density in described pond is shrimp
700~1300kg/ mu or fish 700~1000kg/ mu.
9. a kind of high-efficiency aquaculture method is it is characterised in that adopt the High-efficient Water described in any one in claim 1~6
Produce cultivating system to be cultivated, comprise the following steps:
1) the high-efficiency aquaculture system described in any one in claim 1~6 is provided;
2) shrimp seedling 15~300,000 tails/mu or fry 3000~5000 tails/mu are put into;
3) water in pond is pumped into purification channel by the water pump of water outlet, and by pasture and water, the water after cleaned pumps into the water pump of water inlet
Pond, by water pump control daily pond pump output be pond waters 0.1~1%, the amount of pumping into be pond waters 0.1~
1%;
4) cultivation shrimp to one-tenth shrimp or cultivates fish to adult fish, dry pool harvesting.
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CN102124972A (en) * | 2011-02-18 | 2011-07-20 | 山东省淡水水产研究所 | Fresh water scale pond ecological breeding system |
CN203313900U (en) * | 2013-06-09 | 2013-12-04 | 陈翔海 | Plant fish tank |
CN204305862U (en) * | 2014-11-12 | 2015-05-06 | 海南省海洋与渔业科学院 | A kind of high-efficiency aquaculture system |
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2014
- 2014-11-12 CN CN201410637030.3A patent/CN104430125B/en not_active Expired - Fee Related
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