JP6267867B2 - Fish culture method and pH adjusting material used therefor - Google Patents

Description

  The present invention relates to a fish culture method and a pH adjusting material used therefor, and more particularly to a fish culture method suitable for aquaculture in a pool type aquaculture facility and a pH adjusting material used therefor.

  In general, when using seawater in the aquaculture of fish, aquaculture facilities are set up in seawater areas such as the open ocean, inland seas and bays, and when freshwater is used, aquaculture facilities are installed in freshwater areas such as rivers and lakes. A variety of fish are being cultivated with seawater or fresh water being circulated between the inside and outside of the aquaculture facility. Specifically, the side surface and the bottom surface of the aquaculture tank are formed by a mesh surface, and seawater or fresh water is distributed inside and outside through the mesh. Firstly, fresh seawater or fresh water is supplied to fish using natural water flow, and secondly, residual food and fish excrement etc., which are administered, are accumulated at the bottom of the aquaculture facility. This is because as much as possible is discharged outside the aquaculture facility using natural water flow.

  On the other hand, it is also attempted to cultivate fish by storing breeding water consisting of seawater and fresh water in a pool type aquaculture facility, but because the breeding water cannot be distributed between the aquaculture facility and the outside, It has been proposed to provide equipment for positively purifying breeding water in the aquaculture facility (see, for example, Patent Documents 1 and 2).

JP 2002-027863 A JP 2007-312609 A

  According to Patent Document 1, it is a method of purifying breeding water using a gravity filtration tank, which requires a special device and has a disadvantage of high running cost.

  Moreover, according to the said patent document 2, it is the system which purifies breeding water by micro nano bubble, and a special apparatus is required similarly, and there exists a problem that a running cost is high.

  Moreover, according to these patent documents, it is not intended to cultivate fish, but is applied to a pool for watching fish such as an aquarium, and assuming that these facilities are applied to aquaculture facilities, There is an inconvenience of incurring high cost and running cost of the facility.

  The present invention has been made in view of these points, and can maintain the water quality of fish breeding water in a pool-type aquaculture facility at a value appropriate for the growth of fish, enabling the healthy growth of fish. And it aims at providing the culture method of fish which can hold down cost at low cost, and the pH adjuster used for this.

  The present inventors have intensively studied and introduced a pH adjusting material into the breeding water stored in the pool-type aquaculture facility, while suppressing a decrease in the pH of the breeding water and maintaining the pH within a certain range from the beginning of the cultivation. The present invention was completed by confirming that the incidence of osteoporosis occurring in the carp was reduced by half when the carp was grown from its fry (shirasu eel) to adult fish.

The first aspect of the fish culture method of the present invention thus made is a pool type, and the bottom member quality is at least one of sand, gravel and concrete, and the water exchange rate is 10 to 30% / day. A pH adjuster is administered to the breeding water in the semi-run water culture facility to suppress the drop in the pH of the breeding water and maintain the pH within a certain range from the beginning of the cultivation to cultivate fish. Features.

Further, according to a second aspect of the fish farming method of the present invention, in the first aspect, the pH adjusting material administered in the breeding water is used as a bottom retention sludge or a bottom retention sludge circulation path in the breeding water. It is made to reach and fish culture.
The third aspect of the fish culture method of the present invention is characterized in that, in the first or second aspect, the fish is cultured while reducing the incidence of bone bending disease of the coral.

The first aspect of the pH adjuster used in the fish culture method of the present invention is a pH adjuster used in the fish culture method of any one of the first to third aspects, and is a pool-type culture. It has an active ingredient that can be administered to the breeding water in the facility, can suppress the decrease in the pH of the breeding water, and maintain the pH within a certain range from the beginning of the cultivation to fish fish. Features.

  The second aspect of the pH adjuster used in the fish culture method of the present invention is the first aspect, wherein the pH adjuster is selected from the group consisting of alkaline earth metal oxides, hydroxides and carbonates. It is characterized by having one or more selected ones as a main component.

  By carrying out the fish culture method of the present invention using the pH adjusting material of the present invention, the water quality of fish breeding water in a pool type aquaculture facility, in particular, a decrease in pH is suppressed to an appropriate value for growing fish. It is possible to maintain the fish, and it is possible to grow fish smoothly, the cost can be kept low, and it is particularly suitable for the cultivation of salmon.

The diagram which shows the change of the pH of breeding water of the test 1 of Example 1 at the time of applying the pH adjusting material of this invention to cultivation of a salmon The diagram which shows the change of the pH of breeding water of the test 2 of Example 1 at the time of applying the pH adjusting material of this invention to cultivation of a salmon The diagram which shows the change of pH of the breeding water of the test 3 of Example 1 at the time of applying the pH adjusting material of this invention to cultivation of a salmon

  Hereinafter, the present invention will be described with reference to embodiments.

(Outline of the present invention)
The present invention relates to a fish culture method for controlling the quality of fish breeding water in a pool type aquaculture facility, in particular pH, to maintain a value appropriate for the growth of fish and to carry out fish culture, and to this It is a pH adjusting material used for.

  As described above, the present invention executes proper fish culture by adjusting the pH of the breeding water in the pool type aquaculture facility.

  This pool-type aquaculture facility may be any structure that can store breeding water such as seawater and fresh water. It is a natural pond, artificial pond, pool, etc. The thing of the composition which cannot be distributed is included.

(Appropriate pH value setting)
The present invention is characterized in that the water quality of fish breeding water in a pool-type aquaculture facility, in particular, a decrease in pH is suppressed and maintained at a value appropriate for fish breeding.

  In the present invention, it is preferable to suppress a decrease in the pH of the breeding water with respect to seawater, and to set the pH value within a certain range from the beginning of the culture to a range of about ± 0.2 from the initial pH value of the culture. Moreover, when using natural seawater, it is good to set to 8.1-8.5 which can maintain about 8.2-8.4 which is the average value of seawater pH as a pH value within a fixed range. .

  Further, in the present invention, the pH of the appropriate breeding water for fresh water is controlled to be within a certain range from the beginning of the culture by suppressing the decrease, and the pH is increased from the initial value by the progress of fish culture. It should be set to a value that does not decrease.

  The reason for setting the pH in this way is to prevent the fish from causing stress, physiological dysfunction, disease, abnormal mucosal secretion of the body surface, etc. due to the great difference in pH.

(Description of pH adjusting material)
The pH adjusting material in the present invention is administered to the breeding water in a pool type aquaculture facility, and the fish is cultured by suppressing a decrease in the pH of the breeding water and maintaining the pH within a certain range from the beginning of the cultivation. It has an active ingredient that can be used.

  Specifically, in order to maintain the pH value at an appropriate value over a long period of time, it is desirable that the pH adjusting material is hardly soluble in the breeding water.

  Furthermore, it is desirable that the pH adjuster is mainly composed of one or more selected from the group of alkaline earth metal oxides, hydroxides, and carbonates.

  Here, examples of the alkaline earth metal oxide include magnesium oxide and calcium oxide, examples of the hydroxide include magnesium hydroxide and calcium hydroxide, and examples of the carbonate include magnesium carbonate and basic carbonate. Mention may be made of calcium carbonate of biological origin such as magnesium, calcium carbonate and shells of shells (eg oyster shell, scallop shell).

(Description of fish culture method)
In the fish culture method of the present invention, a pH adjusting material is administered to the breeding water in a pool type aquaculture facility to suppress a drop in the pH of the breeding water and maintain the pH within a certain range from the beginning of the cultivation. Fish farming.

  As the pH adjusting material, the state of the breeding water (for example, seawater, fresh water, storage amount, water depth, water temperature, pH value before administration, etc.), the type and growth state of the fish to be cultured, the season of administration It is good to choose according to etc.

  As a method for administering the pH adjusting material, any method may be used, but a method that can be executed manually may be adopted in order to reduce costs. When administered, it should be equally applied to the entire surface of the breeding water in the aquaculture facility. The administered pH adjuster gradually settles in the breeding water, and when sludge stays at the bottom of the aquaculture facility, it reaches the bottom accumulated sludge portion and the circulation route of the bottom retained sludge, and the entire breeding water Therefore, it is possible to maintain the pH within a certain range from the beginning of the culture by suppressing the decrease in pH. In addition, as the state of the bottom of the aquaculture facility, whether it is a natural facility or a man-made facility, the state of land, mud, sand, gravel, concrete, etc. It may be in any of the states where is deposited.

  The dosage, number of administrations, and administration interval of the pH adjusting material are set within a certain range from the beginning of the culture by suppressing the decrease in the pH of the breeding water according to the alkali strength of the pH adjusting material to be administered, the solubility in the breeding water, etc. The amount that can be maintained, the number of administrations, the administration interval, etc. It is preferable that the pH adjuster is poorly soluble because the number of administrations can be reduced.

  When the pH adjusting material selected according to the above conditions is administered to the breeding water, the pH of the breeding water is suppressed and maintained at a pH within a certain range from the beginning of the farming, so that fish can be bred healthy.

<Example>
The fish culture method of the present invention and the pH adjusting material used therefor will be described in the case of carp culture.

  In this Example 1, the effect of the present invention can be obtained by comparing the test group in which the pH adjusting material of the present invention is administered to the existing pool type aquaculture facility (hereinafter referred to as the existing facility) with the control group in which the pH control material is not administered. confirmed.

(Culture form and breeding method by existing facilities)
In the culture of salmon, fry of salmon (shirasu eel (weight 0.2-0.3 g / about)) that rises from the sea to the river mainly from December to March is collected and used as seedlings. Put it in the breeding water of the existing facility (ponding).

  After putting in the pond, turn on the night light and feed the earthworm (including artificial earthworm) along the wall of the pond. During this time, the feeding time is changed in the morning.

The amount of food to be fed is divided into about 2 to 3 times a day with 3 to 8% per fish weight as a guide.
The temperature of the breeding water is set to about 15 degrees at the time of putting the pond, and the temperature of the breeding water is raised to about 5 degrees a day, and finally the temperature of the breeding water is about 28-30 ° C. Raise and raise.

  During the breeding, when the pupae grow and the existing facilities become overcrowded, they are bred in a feeding pond, raised to around 200g / tail and shipped.

(Configuration of existing facilities)
The existing facility has a pond wall made of concrete, a bottom made of bare gravel or concrete, a water depth of about 1 m, a plane area of one section of about 330 m ² , and an upper opening covered with reinforcing steel vinyl. .

  Some existing facilities have water turbines and air supply devices installed to increase the amount of dissolved oxygen in the breeding water.

  As the breeding water heating equipment, there are many indirect heating systems in which a zinc pipe is laid on the bottom of the pond and hot water of 50 to 80 ° C. is flown through, and a heavy oil boiler is used as the water heater. .

(Creation environment in existing facilities)
As existing facilities, there are still ponds, running ponds, and semi-running ponds, but currently there is a semi-flowing water type that conducts water quality inspections and performs the minimum required drainage (conversion rate of about 10-30% / day). It is common.
The quality of the breeding water is 3-20 ppm for ammonia nitrogen, 1-5 ppm for nitrogen nitrite, pH is about 6-6.5, and the dissolved oxygen content is kept at about 50%.

The storage density of the cocoons is generally 3 to 6 kg / m ² in the half-flow water pond. In order to maintain this storage density, the cocoons are separated from other compartments (division) or thinned.

(Test 1 using existing facilities)
The existing facility (using well water as raw water) installed in Matsusaka City, Mie Prefecture was divided into a test zone and a control zone, and Test 1 was performed as follows.
1) Aquaculture period: February 1, 2012-November 1, 2012
2) administration effective date and dosage of pH adjusting material to the test Zone: 100 g / ^{m 2} to 100 g / ^{m 2} and 1 July of the same year February 1
In this embodiment, dose (same in the following examples) which selects the 100 g / ^{m 2} from a range of 100g~400g / ^{m 2.}
3) Composition of pH adjuster: Magnesium hydroxide (99% by weight) and inevitable ingredients
4) Pond for fry: February 5
5) Removal of adult fish: November 1
6) Feeding: Run as needed
7) Change in pH of breeding water in existing facilities: Changed as shown in FIG.
8) Results: Regarding the pH of the breeding water, in the control plot where no pH adjuster was administered, the pH decreased with the progress of the cultivation at a rate of about 0.1 / month from the initial 6.8. In the test area, the pH was maintained at 6.8 at the beginning of the cultivation for 4 months after the administration of the first pH adjuster, and then decreased at a rate of about 0.1 / month for 2 months. The pH was increased to the initial value by the administration of the pH adjusting material, and then decreased to 6.7 and maintained, so that it can be seen that the pH was maintained within a certain range from the beginning of the culture.
Regarding the soundness of the aquaculture, the incidence of bone bending disease in the control plot was 28% in the removed sputum, but it was halved to 14% in the test plot. It can be seen that the effect of aquaculture aimed at sex was demonstrated.

(Test 2 using existing facilities)
The existing facility (using well water as raw water) installed in Hamamatsu City, Shizuoka Prefecture was divided into a test zone and a control zone, and Test 2 was performed as follows.
1) Aquaculture period: February 1, 2012-November 1, 2012
2) Date of administration and dosage of pH adjuster to test area: 100 g / m ² on February 1 of the same year
3) Composition of pH adjuster: Magnesium hydroxide (99% by weight) and inevitable ingredients
4) Pond for fry: February 5
5) Removal of adult fish: November 1
6) Feeding: Run as needed
7) Change in pH of breeding water in existing facilities: changed as shown in FIG.
8) Results: Regarding the pH of the breeding water, in the control plot where no pH adjuster was administered, the pH decreased with the progress of the cultivation at a rate of about 0.1 / month from the initial 6.8. In the test plot, the pH was maintained at 6.8 at the beginning of the cultivation for 4 months after the administration of the pH adjuster, and then decreased for about 2 months at a rate of about 0.1 / month, but finally 6.7. It can be seen that the pH was maintained within a certain range from the beginning of the cultivation.
Regarding the soundness of aquaculture, the incidence of bone bending disease in the control plot was 11% in the removed sputum, but it was halved to 5% in the test plot. It can be seen that the effect of aquaculture aimed at sex was demonstrated.

(Test 3 using existing facilities)
The existing facility (using river water as raw water) installed in Isshiki City, Aichi Prefecture was divided into a test zone and a control zone, and Test 3 was performed as follows.
1) Aquaculture period: February 1, 2012-November 1, 2012
2) Date and dose of administration of pH adjuster to test area: 100 g / m ² on June 1 of the same year
3) Composition of pH adjuster: Magnesium hydroxide (99% by weight) and inevitable ingredients
4) Pond for fry: February 5
5) Removal of adult fish: November 1
6) Feeding: Run as needed
7) Change in pH of breeding water in existing facilities: Changed as shown in FIG.
8) Result: The pH of the breeding water was maintained at the initial value for 2 months after the start of the cultivation in the control group to which the pH adjusting material was not administered. Although it is decreasing at a rate of about 0.1 / month, in the test area, it is maintained at the initial value for one month after the start of the culture, and then the pH is about 0 from 6.8 at the start of the culture. Although it has decreased at a rate of just over 1 / month, the pH rose to 6.8 at the beginning of the cultivation for 4 months after administration of the pH adjuster, and finally maintained at 6.7. It can be seen that by administering the pH adjusting material, the pH was restored to the initial value of the culture and maintained within a certain range.
Regarding the soundness of the aquaculture, the occurrence of bone bending disease in the control plot was 13% in the removed sputum, but it was reduced to 10% in the test plot. It can be seen that the effect of aquaculture aimed at sex was demonstrated.

  From the above tests 1 to 3, by dispersing the pH adjusting material in the breeding water, the pH is maintained within a certain range from the beginning of the cultivation in the vicinity of 6.8 at the beginning of the cultivation, the pH is stabilized, and the morning and evening It can be seen that, by reducing the fluctuation of the pH, the breeding environment is stable and the load on the eel is reduced. This is thought to reduce the incidence of heel bone bending.

  Furthermore, the bone bending disease in the cultivation of salmon can only be detected when the salmon is taken out from the aquaculture facility at the time of shipment, and the effect of high yield is extremely excellent.

  Further, the present invention is not limited to the above-described embodiments and examples, and can be changed as necessary.

Claims (5)

A pH adjuster is administered to the breeding water in a semi-flowing aquaculture facility that is a pool type and has at least one of sand, gravel and concrete and a water exchange rate of 10 to 30% / day. A fish culture method, wherein the fish is cultured while suppressing a decrease in pH of the breeding water.   2. The fish culture according to claim 1, wherein the pH adjusting material administered in the breeding water is allowed to reach a bottom accumulated sludge in the breeding water or a circulation path of the bottom accumulated sludge to perform fish culture. Method. The method for cultivating fish according to claim 1 or 2, wherein the culturing is performed while reducing the incidence rate of bone bending disease of sharks. It is administered to a breeding water pooled aquaculture facility, wherein it from claim 1, characterized in that by suppressing the decrease in the pH of the breeding water has an effective ingredient capable of performing farming fish Item 4. A pH adjuster used in the method for culturing fish according to any one of items 3 .   5. The fish culture according to claim 4, wherein the pH adjuster is mainly composed of one or more selected from the group consisting of oxides, hydroxides, and carbonates of alkaline earth metals. PH adjuster used in the method.

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