KR20100023336A - Culturing method for burrower bivalve - Google Patents

Abstract

PURPOSE: A method for culturing benthic bivalve is provided to sprinkle the benthic bivalve in a time capable of a burrower life, to prevent shellfishes smuggling inside sediment including mud from being swept away by a change of the seawater, and to easily collect many amounts of the benthic bivalve without a separate seed collection facility. CONSTITUTION: A method of culturing benthic bivalve comprises the following steps: a step(st 1) of breeding a parent shellfish of the benthic bivalve in a ground water bath after collecting the parent shellfish; a step(st 2) of causing a spawning of the parent shellfish; a step(st 3) of collecting eggs which the parent shellfish spawns; a step(st 4) of growing the eggs in a juvenile shell by incubating the eggs; and a step(st 6) of making the juvenile shell infiltrate into sediment by scattering the shell into a tidal flat when the juvenile shell grows.

Description

Cultured method for burrower bivalve

The present invention relates to a method for farming benthic bivalve shells, and more specifically, when growing from a larval stage to a planktonic larval stage and growing to a certain size of chipping, It is related to the method of farming lilies and shellfish such as clams, clams, clams, etc., living in a burrower life.

In general, shell is a kind of mollusk (Mollusca) with a calcareous shell, and includes the single plate, multi-pan and multi-foot It includes most of the pre-birds, the confined-child rivers, and part of the hus- sairs, the Gugul river, the bivalve river, and only a few of the cephalopods.

Among them, the bivalve, called bivalve, is also called tribal because of its axe shape. Their bodies are encased in symmetrical shells connected by ligaments, and are obtained without radula. It is obtained by filtering the food in the agar maze by using the ball and the ball.

Meanwhile, among bivalve shells, Anadarac tegillarca granosa, Scapharca broughtonii, Scapharca subcrenata, etc. It is a representative edible bivalve which exists abundantly in the coast of Korea from the past, and it grows into a sediment of mud when it grows into a certain size of plaque from the larval stage to the planktonic larval stage. Shows a burrower.

Therefore, compared to the types that show the sessile from the alveoli, such as mussels, they show difficulty in cultivation and aquaculture, and are currently completely dependent on the complete cultivation method, which is a kind of natural cultivation. It shows a high dependency on.

At this time, the complete seedling method is a seedling method that smoothly regulates the flow of seawater by placing bamboo or twigs in the tideland so that chipping can be easily settled, and it is virtually impossible to accurately select the location of seedlings. Due to the large losses, it is difficult to secure absolute quantities for farming.

In addition, the amount of natural seedlings is rapidly decreasing as the fishing environment deteriorates due to the influx of pollutants caused by rapid urbanization and industrialization.

For example, the production of shellfish, which produced about 60,000 tons in 1985, has continued to increase until 1988, but the production has declined since 1989, and Chinese seedling transplants have been attempted since 1995. In the year, 127 million birds were approved.

The present invention has been made in order to solve the above problems, the non-adherent floating larval life from the larval stage grows to a certain size of chipping, go into the sediment of mud, etc. benthic life, clam, new cock The purpose is to provide an effective way of farming lilies and shellfish such as clams and clams.

Specifically, the present invention is a benthic bivalve aquaculture method that grows into seedlings by growing into a natural environment of a specific environment when it grows more than a certain size after obtaining a plaque by managing a mother's paddle on the land. The purpose is to suggest a way to get the maximum yield through the site.

In order to achieve the above object, the present invention comprises the steps of: (a) collecting the mother of the benthic bivalve shells and breeding in the land tank; (b) inducing scattering of the mother hair; (c) egg laying the mother eggs spawn; (d) hatching the eggs and growing them into plaques; (e) If the growth of the plaque is more than a certain size provides a method of farming benthic bivalve shells comprising the step of spraying on the sedimentary land of 2-5 hours of exposure time.

In this case, the benthic bivalve is characterized in that the four-membered clam (Anadarac tegillarca granosa), clam (Scapharca broughtonii), Scapharca subcrenata including, and in this case, step (a) Breeding the mother's head at a water temperature of 24 ℃ ~ 26 ℃, the step (b), after injecting the mother's hair for 3 to 5 hours while raising the water temperature of 2 ~ 4 ℃ causing the scattering of the mother's hair , The predetermined size of step (e) is characterized in that the length 230 ~ 270㎛, height 170 ~ 210㎛.

In addition, the benthic bivalve is characterized in that the genus Apophytica Liliumaceae including the clam (Tapes philippinarum), lily (Meretrix lusoria), in this case, the step (a), the mother's water temperature of 20 ~ 30 ℃ Breeding in, the step (b), after 30 minutes to extract the mother's hair is introduced into the ultraviolet irradiation sea water while raising the water temperature of 3 ~ 5 ℃, the predetermined size of the (e) step It is characterized in that the length 200 ~ 320㎛, height 190 ~ 220㎛.

The present invention grows from the larval stage to non-adhesive floating larvae, and grows into a certain size of pulp, and enters the sediments of the mud, etc. It provides a way.

As a result, this kind of farming is known to be relatively difficult in seeding and farming, and shellfish that were sprayed at low quality during the period of benthic life are rarely changed due to changes in seawater, even if there is no separate complete harvesting facility. There is no fear of being swept away, and as time passes, large quantities can be easily collected within a range not far from the original spread.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Looking at some of the terms to be used below before the full description, Figure 1 is a diagram showing an arbitrary bivalve shell, as shown here, the shell length (殼 長, shell length) means the maximum distance between the front and back of the bivalve shell, (殼 高, shell height) means the maximum distance between bivalve shells. In addition, the term "radiation" means a concave-convex pattern in the form of a scallops in a sea shell such as a cockle bar. Other terms apparent to those skilled in the art will be omitted. Can be. In addition, in the following description, for convenience, the cockle of the clam and the clam of the family Liliaceae are taken as an example, but the contents of each can be applied to other kinds of the corresponding family.

1 is a flow chart showing a benthic bivalve shellfish farming method (hereinafter, simply referred to as a farming method) according to the present invention.

As can be seen, the first method for aquaculture method according to the present invention is to collect the mother's head of benthic bivalve shells and then transfer to the land tank where the seawater is stored (st1).

At this time, the mother's head may be cockle, peony, belonging to the genus Stone Climbing family, clam or lily belonging to the genus Lichenaceae. Other than that, from the larval stage to non-adhesive floating larvae, If you grow up, you can go into the mud and other kinds of life.

In addition, the ratio of male and female to the collection of mother's hair can be properly considered as about 1: 0.5 ~ 1: 0.9, and for example, the pinch is preferably 34.7 ~ 38.2mm long, 26.4 ~ 29.3mm high, and the total weight including shells 14.1 ~ 18.9. g, 3.0 ~ 4.1g body weight excluding shell, 16 ~ 20 number of spinnerets, strong streak of 4-5 years old.

In addition, terrestrial water tank is 25 ± 5 ℃ water breeding for more than 20 days while maintaining about 24 ~ 26 ℃ in the case of cockle, 21 ~ 23 ℃ in the case of clam.

Next, the mother's head adapts well to the land tank, causing spawning (st2).

At this time, as a method of inducing spawning of shellfish in general, in addition to the excitation stimulus exposed outside the water for a certain period of time, water stimulation to control the water temperature, seawater ultraviolet irradiation stimulation to mix the seawater irradiated with ultraviolet rays, sperm seawater addition, pH control, serotonin injection, hydrogen peroxide There is a method of using water (H ₂ O ₂ ) or seawater to which ozone has been added.

In other words, in the case of Kokmak, it is extracted in the shade for about 4 hours and then put in the land water tank, and then induces scattering by introducing UV-irradiated seawater while raising the water temperature by 2 ~ 4 ℃. After extraction in a sunny place, put it in the land tank and raise the water temperature by 3 ~ 5 ℃ and induce the spawning by introducing the UV irradiation seawater. Through this method, the applicant was able to obtain a result of more than 93% of the ovulation rate, 80% of the room rate, 90% fertilization rate.

Next, the eggs of the fertilized mother's eggs are egg-shelled and transferred to a separate land tank. (St3)

At this time, if necessary, only eggs that have been released at similar times can be fertilized with good sperm and fertilized three to four times with clean water. In the case of the corticae, the egg size is 60.2 ± 4.4mm after separation. In the form of an invasive egg, in the case of a clam, the egg size was 63.5 ± 1.9 mm in the form of a circular separated invasive egg immediately after spawning.

Next, various conditions, such as salinity, water temperature and roughness, are adjusted to hatch the fertilized eggs and manage them to grow into flocks. (st4, st5)

At this time, the cockle and the clam eggs are hatched into the trochophora larva, respectively, to grow D-type larvae, and then go through the electric, medium, and late stages in order to adjust the salinity and water temperature in order to shorten the hatching time. Applicant's experiments showed that the cornea and clam showed the fastest hatching time with salinity 32.4, 9.5 hours at 35 ° C water temperature.

In addition, water temperature, illuminance and salinity can be controlled to promote larval generation and growth.In the case of the corticus, water temperature suitable for larval growth is 30 ~ 32 ℃ and illuminance is 500 ~ 1500 (LUX). Silver is 25 ~ 35 ℃ and 28 ~ 30 ℃ is optimal, and salinity is 16.54 ~ 30.02 and 16.54 ~ 23.38 is optimal, and saline suitable for maximum growth is 10.01 ~ 30.02 and 10.01 ~ 23.38 optimal. In the case of clam, the water temperature suitable for larval growth was found to be 21 ~ 23 ° C, and illuminance was 500 ~ 1500 (LUX).

Next, when chipping grows to a certain size, it is sprayed (or transplanted). (St6)

At this time, the plaques are managed and bred in the land tank to the size where benthic life is possible, and after about 22 days after hatching in the case of cockle, it grows to 240.3 ㎛ in height and 187.2 ㎛ in height, and enters the benthic life. After hatching in about 25 days, it grows to 200 ~ 230㎛ in length, 190 ~ 220㎛ in height, and enters the book life.

Accordingly, in the present invention, in the case of the corticus, the collection of the length 230 ~ 270㎛, height 170 ~ 210㎛, the case of clam 200 ~ 320㎛, height 190 ~ 220㎛ collected and sprayed, the survival rate of the chip at that size This was the highest and highest yield.

In addition, the best time for the spread of chipping is the smallest tide with the lowest tide, the smallest difference from the low tide, that is, the little bit is most appropriate, and the spraying place may be the tideland for 2 to 5 hours of exposure time. Sprinkle a certain amount of chipping into the place so that you can sneak into it. In this case, the interstitial land has less ground fluctuations and has a relatively high sand content compared to the mud, so it is suitable for immersion. Preferably, the sand content is more than 45% of the mud. And clams can easily infiltrate and grow.

As a result, afterwards, the growth of the clam and komak in the benthic life is examined and collected when they are of sufficient value as seedlings.The komak and the clam entered into the benthic life are changed by seawater even if there is no separate complete harvesting facility. There is no fear of being swept away, so you can easily harvest large quantities within a range not far from the original spread.

That is, the above summary, the present invention is to obtain the eggs from the mother hatchery raised in the land tank hatching and then to control the various conditions to spread over a certain size land managed chipboard to the spray site of a specific environment bar In detail, there may be some variations, that is, the conditions necessary for breeding, inducing spawning, hatching, growth of plaques, etc. may vary slightly depending on the purpose, but these modifications are the present invention. If the technical spirit of the present invention will be within the scope of the present invention, the scope of the present invention can be easily determined by those skilled in the art through the following claims.

1 is a schematic diagram showing an arbitrary bivalve shells.

Figure 2 is a flow chart showing a benthic bivalve shellfish farming method according to the present invention.

Claims (5)

(a) collecting mothers of benthic bivalve and raising them in land tanks; (b) inducing scattering of the mother hair; (c) egg laying the mother eggs spawn; (d) hatching the eggs and growing them into plaques; (e) If the growth of the plaque grows over a certain size, the method of farming benthic bivalve shells comprising the step of infiltrating into the low quality by spraying on the tideland 2 ~ 5 hours of exposure time when dipping. The method according to claim 1, The benthic bivalve is a method of farming benthic bivalve, which is a corpus california including anadarac tegillarca granosa, Scapharca broughtonii, and Scapharca subcrenata. The method according to claim 2, In the step (a), the mother hair are bred at a water temperature of 24 ° C. to 26 ° C., In the step (b), after incubating the mother's hair for 3 to 5 hours, the seawater is introduced by UV irradiation while raising the water temperature of 2 to 4 ° C, causing scattering of the mother's hair, The predetermined size of the step (e) is 230 ~ 270 ㎛ each length, 170 ~ 210 ㎛ height of the benthic bivalve farming method. The method according to claim 1, The benthic bivalve is a method of farming a benthic bivalve, which is a genus Liliumaceae including Tapes philippinarum and lily (Meretrix lusoria). The method according to claim 4, In the step (a), the mother hair is bred at a water temperature of 20 to 30 ℃, In the step (b), after injecting the mother's hair for 30 minutes, the sea water is introduced to the UV-irradiated sea water while raising the water temperature of 3 to 5 ° C., causing scattering of the mother's hair, The predetermined size of the step (e) is 200 ~ 320 ㎛ each length, 190 ~ 220 ㎛ height of the benthic bivalve farming method.

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