KR100490191B1 - Apparatus and method for breeding scapharca broughtonii - Google Patents

Abstract

The present invention is a step of attaching the clam larvae of the attachment to the attachment plate to grow in the mesh of less than 0.5 ~ 0.7mm in the net size and growing for 5 to 10 days, the horizontal and vertical size of the artificial shell seedlings grown In order to provide a method for intermediate growth of artificial artificial seedlings made of a step of moving to a network of 0.7mm or more to grow, the present invention significantly lowers the loss rate of the artificial artificial seedlings by using a growing device, prevents falling off, and from pirates Not only can it protect, but also by using meshes whose mesh size is adjusted to be proportional to the size of artificial artificial seedlings, it is possible to improve the breathability and water permeability to lower the mortality rate, and to reduce the workload of fishermen. It will have a reducing effect. In addition, the present invention significantly lowers the loss rate of the artificial artificial seedlings, prevents them from falling off, and protects them from pirates, so that the large-scale farming of the shellfish is possible. Mature seedlings can be sprayed on the fishery to increase seedling settling rate, and it is a very useful invention that can produce commercialized shellfish early 6 months or more.

Description

Mid-growth method and apparatus for artificial artificial seedling of shellfish {Apparatus and Method for Breeding Scapharca broughtonii}

TECHNICAL FIELD The present invention relates to a method and an apparatus for mid-growing clam artificial seedlings, and more particularly, to a method for growing mid-growth of clam artificial seedlings and a device thereof based on a study of the ecology of the clam.

The shellfish is a shell belonging to the genus Asteraceae. Among the shellfish, hemoglobin is rarely hemocyanin, but the shell is about 120 mm long, about 90 mm high, and about 75 mm butterfly. It is egg-shaped and inhabits fine sand pearls with a depth of 5 to 50m and is distributed in Korea, Japan, China and the Philippines. It is the largest and smallest meat in the world, and has been enjoyed since ancient times. Recently, it is a shellfish with high economic value among aquatic products.

However, until now, the shellfish have been harvested from natural seedlings and farmed.

Because wild seedlings are already firmly attached to the growing board, they can grow even if they are placed in seawater, while artificial seedlings have weak adhesion, and even if attached to the growing board, only slight impact during the process of transferring them and growing them. It is because it has been recognized as being eliminated even if it exists.

Of course, small-scale farming is still possible at the laboratory level, but in the mid-growth stage, where the seedlings must be sprayed to the sea and raised until self-sustaining growth occurs, the success rate of chipping is so low that there is no economic feasibility. I can not say success.

Therefore, the present inventors have conducted a thorough investigation and study on the failure of the conventional shellfish development method, and as a result, it was possible to grasp that the reason for the low success rate of shellfish plaques was the wrong method and apparatus for breeding artificial shellfish.

Researchers focusing on the growth of artificial artificial seedlings only considers the smooth supply of food and air necessary for the development of artificial artificial seedlings. The network to prevent was not observed at all.

In other words, the size of the mesh of the mesh to prevent the loss of the artificial artificial seedlings by wrapping the artificial artificial seedlings is larger than that of the artificial artificial seedlings. The shelled artificial seedlings are swept away by birds and waves, and are largely lost, resulting in a significant decline in the success rate of shellfish plaques.

The present inventors have carefully examined the phenomenon that the success rate of the shellfish plaque due to the conventional method and the growing device of the clam artificial seedlings is significantly reduced. They were found to be floating in the device and swept away by birds or waves, almost all of which were lost through the larger mesh than the size of the artificial artificial seedlings.

Therefore, the present inventors were able to prevent the artificial artificial seedlings from being lost to the sea in the growing apparatus by reducing the size of the mesh mesh of the growing device for the development of the artificial artificial seedlings. There was no problem with the influx of plankton, which feeds on.

However, the inventors have also found that a very fatal bleeding occurs by making the mesh size of the growing device smaller than the general size of the artificial artificial seedlings, which is caused by the foreign matter sticking to the mesh eye due to the small size of the mesh eye. This prevents the distribution of algae, which makes it difficult to distribute algae, making it difficult to supply food and air into the rearing device. It is made.

When described in more detail by the accompanying drawings, the object of the present invention as follows.

In the present invention, the method for growing artificial artificial seedlings includes attaching the cultured artificial artificial seedlings to the attachment plate 114 of the growing device 100 to the mesh 120 and sinking them in the sea to cultivate them. By making the vertical size the same size as the general size of the artificial artificial seedlings, approximately 0.5 to 0.7mm, it is possible to prevent the loss of the artificial artificial seedlings by algae as well as the limit of washing of the net and the growth of the artificial artificial seedlings. Considering the size caused by the size of the mesh network of the breeding device 100 to be proportional to the size of the artificial artificial seedlings to reduce the mortality due to the increase in the feeding and oxygen supply to the inside of the network, eliminating the necessity of washing the network It was possible to reduce the work load.

In other words, if the size of the mesh 120 is too small, the loss of the artificial artificial seedlings can be prevented as much as possible, but the mesh of the mesh is easily blocked by some foreign matter, so that the breathability and water permeability ) And worsening of this, due to the lack of oxygen supply and food supply, the mortality increases sharply after 5 days after the artificial artificial seedlings are put into the breeding apparatus 100, and after 10 days, the mortality is significantly reduced. To have.

Therefore, in this case, in order to lower the mortality, fishermen have to wash the nets, and the washing work is not only very difficult, but there is a limit to the washing, and after several washing, the washing is no longer possible.

Therefore, when the artificial artificial seedlings grow to about 1 to 2 mm in the growing device, it is about 5 to 10 days to replace the mesh with a horizontal and vertical size of 0.7 mm or more, preferably 1 to 2 mm, to reduce the amount of washing work and the clam. This is very necessary to reduce the mortality rate of artificial seedlings.

At this time, the size of the mesh mesh may be adjusted depending on the size of the artificial seedlings as well as the turbidity of the water quality, and the sea conditions such as the topography.

In addition, in the present invention, the structure of the growth frame 110 embedded in the net body 120 may be any structure as long as it is a means capable of attaching the artificial artificial seedlings, but more reliably the loss of the artificial artificial seedlings caused by algae or waves. It is preferable to provide a shell artificial seedling growth frame 110 having a structure as shown in FIG. 1 in order to prevent, to prevent falling and to protect from pirates.

Because the attachment plate 114 to which the artificial artificial seedlings are attached should be firmly fixed to the growth frame 110 to prevent the artificial artificial seedlings from falling off from the attachment plate 114, and also prevent the supply of breathability and food. This is because the algae should be easily flowed, but the algae should not be eliminated by the algae.

The present invention artificial artificial seedling growing apparatus 100 of the most preferred structure for this is a growth frame 110 for attaching the artificial artificial seedlings and the mesh to prevent the loss of the artificial artificial seedlings by wrapping the growth frame 110 )

The growth frame 110 is a frame 111 having a seating rod 112, a fixing rod 113 for fixing the mounting plate 114 to the seating rod 112, and the fixing rod 113 It consists of a binding port 115 for fixing to the seating rod (112).

The attachment plate 114 is preferably a non-woven fabric made of synthetic resin, but may be made of vinyl or cloth, as long as only the attachment of the artificial artificial seedlings is possible.

The binding device 115 may be any type as long as it can bind the fixing rod 113 to the seating rod 112 so as to be detachable and detachable.

The net body 120 needs a mesh of an appropriate size to prevent loss of the artificial artificial seedlings and at the same time reduce mortality, wherein the horizontal and vertical sizes of the mesh netting are used according to the size of the artificial artificial seedlings, that is, When larvae transfer the artificial shell seedlings to the growing device 100, the net and the size of the mesh eyelets smaller than 0.5 ~ 0.7mm should be used, the artificial shells grown for 5 to 10 days in the growing device The mesh should be used with a mesh of 1 ~ 2mm in width and length. Of course, at this time, the size of the eye can be used if the larger size of the adult shell.

At this time, the mesh body 120 uses a fine mesh network having a horizontal and vertical size of only less than 0.7 mm in the bottom and side lower portions as shown in FIG. 3, and most of the sides and the upper portion of the common mesh have a horizontal and vertical size of 0.7 mm or more. The net can be configured to reduce the number of artificial seedlings and to reduce the mortality of artificial seedlings, even if some loss of artificial seedlings is taken into account.

The present invention can prevent the loss and dropping of the artificial artificial seedlings grown inside the net by the growth frame, and considering the loss of some of the artificial artificial seedlings to a certain extent does not significantly affect the mesh size of the net.

As such, the present invention can minimize the loss of the artificial artificial seedlings by using a mesh of which the size of the mesh eye is adjusted in proportion to the size of the artificial artificial seedlings of the attaching device, and improve the air permeability and water permeability, thereby reducing the mortality rate. To have.

In addition, by appropriately adjusting the size of the mesh of the mesh according to the size and the sea condition of the artificial seedling, it is possible to significantly reduce the workload of fishermen without the need for frequent washing.

In addition, the present invention can significantly reduce the loss rate of the artificial artificial seedlings, prevent dropout, and protect them from pirates by maximizing the growth rate and survival rate of the artificial artificial seedlings, so that the large-scale farming of the artificial artificial seedlings is possible. In addition, it is a very useful invention that can increase the seedling settling rate and produce the commercialized shellfish early for 6 months, as it is possible to spray mature seedlings in fisheries in September-October rather than spring, like natural products.

Figure 1-An exploded perspective view of the present invention clam development apparatus.

Figure 2 is an exploded perspective view showing another embodiment of the present invention clam growth apparatus.

Figure 3 is an exploded perspective view showing another embodiment of the present invention clam growth apparatus.

4-perspective view of the present invention clam growth apparatus is coupled.

5-reference state of use of the present invention clam growth apparatus.

* Explanation of symbols for main parts of the drawings

100: shell development device

110: growth frame 111: framework

112: seating rod 113: fixed rod

114: attachment plate 115: binding sphere

120: network 121a: fine mesh network

121b: Normal Mesh Network 122: Binding Band

Claims (5)

In the intermediate development method of artificial artificial seedlings in which the cultured artificial seedlings are grown in a growing apparatus having a network; Attaching the clam larvae of the applicator to the attachment plate and placing it in a mesh less than 0.7 mm in width and length for 5 to 10 days; and growing the artificial shell of the grown clam to a mesh in width and length of 0.7 mm or more. Intermediate growth method of artificial artificial seedlings, characterized in that the step consists in moving to cultivate. delete In the intermediate artificial growth apparatus for artificial artificial seedlings composed of a growing frame for attaching the artificial artificial seedlings and a mesh surrounding the growing frame, The growth frame has a frame body 111 having a seating rod 112, a fixing rod 113 for fixing the attachment plate 114 to the seating rod 112, and the fixing rod 113 to a seating rod. Consisting fasteners (115) for fixing to the 112, the mesh body 120 is a cochlear artificial seedling intermediate growth apparatus, characterized in that the horizontal and vertical size of the mesh is less than 0.7mm. delete In the intermediate artificial growth apparatus for artificial artificial seedlings composed of a growing frame for attaching the artificial artificial seedlings and a mesh surrounding the growing frame, The growth frame has a frame body 111 having a seating rod 112, a fixing rod 113 for fixing the attachment plate 114 to the seating rod 112, and the fixing rod 113 to a seating rod. Binding holes 115 for fixing to 112, the mesh body 120 is used for the bottom and side lower portion of the mesh net mesh 121a having a horizontal and vertical size of less than 0.7mm, Most of the upper and upper part of the artificial artificial seedlings, characterized in that the use of a common mesh net (121b) having a horizontal and vertical size of more than 0.7mm.