KR100794269B1 - Intermediate nurturing method of clam plaque protection net using clam plaque - Google Patents

Abstract

The present invention relates to the production of artificial shell seedlings, and more specifically, to a new structure of the attachment patch protection net required to improve the survival rate of the chipping during the intermediate development of the artificial artificial seedling production and to the intermediate training method of the shellfish using the protection net will be.

Attachment tooth protection net of the present invention can prevent the fallout of the chip by contact by having a structure that widens the gap between the seedling net of the attachment tooth to increase the survival rate during the intermediate nurture by mass production of artificial artificial seedlings for the intermediate nurture of the shell In addition, it facilitates the communication of the sea water to eat enough food organisms, and also has an excellent effect of surviving the chippings dropped down from the rafting net, including a loss prevention member.

Description

Protected Apparatus and Method for Breeding Scapharca broughtonii}

1 is a perspective view of a clam protection tooth protection net according to an embodiment of the present invention

FIG. 2 is an enlarged top view of the clam protection net shown in FIG.

Figure 3 is a detailed view of the loss prevention member installed on the lower surface of the clam protection net shown in Figure 1

Figure 4 is a perspective view showing a state in which the seedling net is attached to the clam patch to the clam protection net shown in FIG.

Figure 5 is a graph showing the growth size of the shellfish plaque according to the shape of the protective net

Figure 6 is a graph showing the survival rate of the shellfish plaque according to the shape of the protective net

Figure 7 is a graph showing the growth size of the shellfish plaque according to the replacement time of the protection net

8 is a graph showing the survival rate of the shellfish plaque according to the replacement time of the protection net

<Explanation of symbols for the main parts of the drawings>

100: attachment tooth protection network 110: net

120: support 121: upper support

122: lower support 130: loss preventing member

200: seedling net

The present invention relates to the production of artificial shell seedlings, and more specifically, to a new structure of the attachment patch protection net required to improve the survival rate of the chipping during the intermediate development of the artificial artificial seedling production and to the intermediate training method of the shellfish using the protection net will be.

Scapharca brougtonii in Korea has been a high value-added export variety since the beginning of the mid 1970s. Recently, however, aquaculture production has declined sharply from 17,758 tons in 1990 to 4,696 tons in 2003 (26% compared with 1990).

The reason for the decrease in production is due to the deterioration of productivity due to the environmental degradation of the farm, but the most important cause is the lack of farming seed due to sluggish natural seeding. Since the production of aquaculture is decreasing due to the increase of idle fisheries that are not used for aquaculture production, more proactive solutions such as securing of seedlings lacked by artificial seedlings are required for continuous farming production.

However, as a problem for mass production of shellfish cultured shellfish, the survival rate of the plaque is too low during the middle fostering of attachment plaques, which delays the industrialization of aquaculture.

Studies on the intermediary positivity of clam attachment plaques have been carried out by Kanno (1963) on the initial growth of adherence plaques reared in land tanks and on the growth and survival of mesothelial spawns in the outer sea. Has been studied (田中 等, 1974; 寺 嶋 等, 1978), but specific measures to improve survival rate of the flocks have not been proposed.

In addition, the shellfish, like other shellfish, have an ecological habit of feeding on phytoplankton microplankton and temporarily attaching them at the early stages of larval rearing. Therefore, in order to produce artificial seedlings, it is difficult to secure management and economic feasibility according to the ecological characteristics of the larvae. Existed.

The present invention has been made to solve the above problems, an object of the present invention is to provide a patch protection net and the protection net of the structure that can increase the survival rate to produce a sparse (approximately 1 cm each) during the intermediate nurture of the artificial artificial seedlings It is to provide an intermediate nurturing method for the shellfish used.

It is also an object of the present invention to provide an attachment plaque protection net having a structure in which attachment plaques can sufficiently eat food organisms by facilitating communication of seawater, and an intermediate nurturing method for the shellfish plaque using the protection net.

It is also an object of the present invention to provide an attachment patch protection net that can survive without falling out of the chipping flocks attached to the shells including the loss prevention structure, and to provide a method for intermediate development of the shells using the protection net will be.

In addition, the object of the present invention is a structure that is very easy to use by the shellfish natural seedling fisherman, as well as increase the income of the fisherman, it is possible to stable production of the shellfish attached to the protection plaque that can greatly contribute to ecosystem restoration and resource recovery and the above It is to provide an intermediate nurturing method for shellfish plaque using a protective net.

In order to achieve the above object, the present invention is a synthetic resin mesh surrounding a predetermined space to open and close; And a support for supporting the mesh to maintain a predetermined space surrounded by the mesh, wherein the clamshell attached to the seedling network introduced into the predetermined space is not in direct contact with the mesh. Provide a protective net.

The clamshell protection net of the present invention includes an upper support for supporting the mesh at an upper portion of the predetermined space surrounded by the mesh and the lower support for supporting the mesh at the lower portion of the predetermined space spaced apart from the upper support. It is characterized by the thing.

The clamshell protection net of the present invention is characterized in that the loss prevention member is further installed on the mesh that is supported by the lower support to form a lower portion of the predetermined space.

The clamshell protection net of the present invention is characterized in that the structure is supported by the upper support to the opening and closing of the mesh forming the upper portion of the predetermined space.

The clamshell protection net of the present invention is characterized in that the upper support and the lower support are ring-shaped.

In the clamshell protection net of the present invention, the size of the eye constituting the mesh is characterized in that the range of 1.5mm to 3mm.

The loss prevention member is characterized in that the light-shielding film in the clam protection net of the present invention.

The clamshell protection net of the present invention is characterized in that the size of the eye constituting the mesh is 1.5mm to 3mm range.

The clamshell protection net of the present invention is characterized in that the net is two layers.

In addition, the present invention comprises the steps of breeding in the indoor seedling net from the shelled eggs until the size of the shellfish to 1.2 ± 0.4mm; Inserting the breeding nets with the raised shells attached to the protective net of any one of claims 1 to 5; And installing a protection net inserted in the seedling net in the sea of about 5 m in depth.

In the intermediate training method of the shellfish plaque of the present invention, characterized in that it further comprises the step of installing the protective net in the sea and replacing the protective net after a certain period of time.

In the intermediate training method of the shellfish plaque of the present invention, the replacement of the protection net is characterized in that it is made in a period between 14 days and 42 days after the protection net is installed in the sea.

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

FIG. 1 is a perspective view of a clam patch protection net according to an embodiment of the present invention, FIG. 2 is an enlarged view of a top of a clam patch protection net shown in FIG. 1, and FIG. 3 is a diagram of the clam patch protection net shown in FIG. 1. Figure 4 is a detailed view of the loss prevention member installed on the lower surface, Figure 4 is a perspective view showing a state in which the chaff net is attached to the clam padding protection net shown in FIG.

Referring to Figures 1 to 4, the cladding tooth protection net 100 of the present invention is the support network 120 and the support network 120 and a predetermined space formed by the mesh network 110 and the support network 120 and 120 Consisting of the loss prevention member 130 is installed in the lower portion of the predetermined space consisting of, it can be seen that the seedling net is inserted into a predetermined space formed of the mesh 110 and the support 120.

In more detail, the mesh 110 is a synthetic resin mesh surrounding a certain space to open and close, for example, the material of the mesh 110 may be a polyethylene material. In addition, the size of the eye constituting the mesh 110 (hereinafter referred to as "mesh") is preferably in the range of 1.5mm to 3mm, when the size of the mesh is smaller than 1.5mm or less, smooth communication of seawater to the protection net 100 There is a problem that the shellfish plaque attached to the seedling net 200 located in the protection net 100 is not sufficiently supplied with the microalgae (feeding organisms), etc. contained in the sea water, and the size of the netting is greater than 3mm This is because the shells attached to the net 200 are more likely to be lost due to exiting the protective net 100. More preferably, the size of the mesh is 2 mm to 2.5 mm.

In addition, the mesh 110 may be opened and closed so that the rapeseed net 200 to which the clamshell is attached may enter and exit the inner space formed by the mesh 110, and at the same time, the mesh net 110 and the mesh 110 In the case of introduction into the chaff net 200 should have a configuration that surrounds all, for example, the net net 110 to the bag, and the known technical configuration that can be opened and closed at the entrance of the bag, for example, tightened with a string loosened. It can be a technical configuration that adopts a configuration that can.

In addition, the net 110 is to prevent the invasion of pirates from the outside and to prevent the escape of the shell of the shellfish attached to the inner chaff net 200 inside the protection net 100 at the same time to facilitate the communication of the sea water The network 110 may be configured in two layers.

The mesh 110 configured as described above is controlled by the mesh 110 so that the shells attached to the seedling mesh 200 introduced into the predetermined space formed by the mesh 110 do not come into direct contact with the mesh 110 as much as possible. The support 120 is required to maintain a predetermined space formed.

The support 120 is spaced apart from the upper support 121 and the upper support 121 for supporting the mesh 110 in the upper portion of the predetermined space surrounded by the mesh 110, the lower portion of the predetermined space ( It may be composed of a lower support 120 for supporting (110).

 Although not shown in the drawings, the support 120 may be configured in a trap shape to connect the upper support 121 and the lower support 122 in a coil shape.

Here, the shape of the support 120 is not limited and may be any shape, but considering the convenience of manufacture, ease of transport and friction by sea water in the sea, the support 120 is a ring-shaped upper support It is preferably composed of 121 and the lower support (122).

In addition, the above-described protection net 100 according to the invention is supported by the lower support 122, the loss prevention member 130 may be further installed on the mesh to form a lower portion of the predetermined space, wherein the The loss preventing member 130 is to prevent the shellfish detached from the seedling net 200 introduced into the protection net 100 falling to the lower part and to be lost from the protection net 100. Preferably, the loss prevention member is dropped to the lower part. It is preferable that the synthetic resin material sheets woven in a shape like a duffel are stacked to be alternately stacked so that the shellfish settled on the 130 can not escape to the outside and at the same time, it is easy to survive. A light shielding film was used at 130. In addition, the loss prevention member 130 may be located in the mesh 110 and installed in a form surrounding the lower support body 122.

Next, looking at the intermediate cultivation method of the clam patch attached to the seedling net 200 protected by the above-described protection net 100 according to the present invention, from the clam fertilized eggs until the size of the clam patch 1.2 1.2 ± 0.4mm After performing the step of breeding in the seedling net 200 of the, as shown in Figure 4 inserted the seedling net 200 is attached to the breeding shells to the protection net 100 having any one of the above-described configuration By installing the protection net 100 into which the seedling net 200 is inserted in the sea at a depth of about 5 m, it is possible to perform the intermediate training method for the shellfish patch.

More preferably, in order to increase the survival rate of the shellfish plaque, the protection net is installed in the sea, and the protection net is replaced after a certain period of time. As described below, the step of replacing the protection net may be performed in a period between 14 days and 42 days after the protection net is installed in the sea, and it can be seen that the survival rate of the shellfish plaque may be further improved. It can be seen that it can be used to increase the growth size as well as the survival rate.

Experimental Example 1

In order to observe the growth size of shellfish plaque according to the form of the guard net, all conditions were the same except for the fact that the shape of the shielding net was different for 60 days from August 9 to October 7, 2005. After performing the positive method, the size of the shellfish plaques was examined and the results are shown in Table 1 and FIG. 5.

Here, the shape of the protection net is a trapped type means that the support is the above-described trapped type, the cylindrical means that the support is composed of a ring-shaped upper and lower support, the rectangle is a shape surrounding the protection net to contact the seedling net without the support The exposure type means that the rafting net is directly exposed to seawater without the protection net.

Table 1 and the graph showing the growth size of shellfish plaques according to the shape of the guard net showed that the growth of shellfish plaques was the fastest in the exposed type with an average length of 12.8 ± 3.2mm, and the trapped type was 12.2 ± 3.5mm, 11.9 ± 3.8 mm cylindrical, 10.9 ± 3.7 mm rectangular, showing the largest growth of clam patches in the exposed type, but did not show significant differences in the growth size of clam patches grown in a cage or cylindrical shield. I can see that it does not.

Experimental Example 2

In order to observe the survival rate of shellfish plaques according to the form of the guard nets, all the conditions were the same except that the shielding nets were different for 60 days from August 9 to October 7, 2005. After performing the method, the survival rate of the shellfish plaques were examined and the results are shown in Table 2 and FIG. 6.

The survival rate of shellfish plaques is 43.7%, 41.2% cylindrical, 41.6% cylindrical, and 31.6% rectangular, respectively. Cylindrical type had higher survival rate than rectangular type, and exposed type was very low (5.4%). As such, in the case of the exposure type without the protection net, it can be seen that the survival rate of the shellfish is significantly lower than that with the protection net. In addition, in the case of the rectangular contact with the protection net directly to the rafting net, the survival rate of the shellfish was significantly higher than the exposed type, but it can be seen that there is a significant difference compared to the outbreak type and cylindrical without direct contact.

Experimental Example 3

In order to observe the growth size of the shellfish shell according to the replacement time of the protection net, all conditions are the same except that the replacement time of the protection net is different for 60 days from August 9 to October 7, 2005. After performing the intermediate chipping method of the plaque, the growth size of the shellfish plaque was investigated and the results are shown in Table 3 and FIG. 7.

From Table 3 and FIG. 7, which is a graph showing the growth size of the shellfish according to the replacement time of the protection net, the growth size of the shellfish was fastest on the 28th day with the average length of 10.6 ± 3.1 mm, and the 10.4 ± 3.5 on the 14th day. ㎜, 9.2 ± 3.6 ㎜ on day 42 and 8.6 ± 3.3 ㎜ in the order of replacement, it can be seen that the growth size of the clam plaque is larger than the replacement of the guard net. In particular, when the protection net is installed in the sea and the replacement of the protection net between 14 days to 28 days can be seen that the growth size is larger.

 Experimental Example 4

In order to observe the survival rate of the shellfish shell according to the replacement timing of the shielding shell, the shellfish patch of the present invention was made with the same conditions except that the shielding shell was changed for 60 days from August 9 to October 7, 2005. After performing the intermediate positive method, the growth rate of the shellfish plaques was examined and the results are shown in Table 4 and FIG. 8.

The survival rate of shellfish plaques was 49.9% on day 28, 48.2% on day 42, and 45.6% on day 14, respectively. On the 28th and 42nd days, the survival rate was relatively higher than that of the 14th day or the non-replacement, but the replacement rate on the 14th day was significantly higher than that of the non-replacement. Therefore, it can be seen that the survival rate of the shellfish plaque is significantly increased when the protection net is replaced as compared with the case where the protection net is not replaced.

 In conclusion, the protection net form in the middle fostering of the clam had a good communication with seawater, and the growth and survival rate of the traps and cylinders in which the shellfish attached to the guard net and the seedling net did not come into contact with each other was high. In consideration of the growth size and survival rate of chipping at the same time, it is possible to increase the growth size and survival rate by performing an appropriate selection between 14 and 42 days.

In addition, preferred embodiments of the present invention are disclosed for the purpose of illustration, those skilled in the art will be possible to various modifications, changes, additions, etc. within the spirit and scope of the present invention, such modifications and changes should be seen as belonging to the following claims. something to do.

As described above, the clamshell patch network according to the present invention and the method of nurturing the clamshell patch between the shell using the guard has the following effects.

According to the clamshell plaque protection net of the present invention and the intermediate nurturing method of clam plaque using the protection net, it is possible to increase the survival rate to produce a sparse (approximately 1 cm each) that can be sprayed during the intermediate nurture of artificial shells.

In addition, according to the clam protection plaque protection net of the present invention and the intermediate culture method of the clam plaque using the protection net, the seaweed can facilitate the communication of the attached plaque can eat enough food organisms to increase the growth size and survival rate.

In addition, according to the clam plaque protection net of the present invention and the intermediate nurturing method of clam plaque using the protection net, it is effective in artificial seedling production can be survived without falling out from the seedling net with clam plaque attached.

In addition, the shellfish protection net of the present invention and the intermediate training method of shellfish plaque using the protection net structure is very easy to use by the shellfish natural seedling fisherman, as well as increase the income of fishers, it is possible to stable production of the shellfish ecosystem restoration And resource recovery.

Claims (11)

Synthetic resin mesh surrounding a certain space to open and close; A support for supporting the mesh to maintain a predetermined space surrounded by the mesh; And And a loss preventing member installed on the mesh that is supported by the support to form a lower portion of the predetermined space, and that the shell patch attached to the seedling network introduced into the predetermined space is not in direct contact with the mesh. A clamshell protection net characterized by the above-mentioned. According to claim 1, wherein the support is characterized in that it comprises an upper support for supporting the mesh in the upper portion of the predetermined space surrounded by the mesh and a lower support for supporting the mesh in the lower portion of the predetermined space spaced apart from the upper support Shell protection net. delete The method of claim 1, Supported plaque protection net, characterized in that the structure is supported by the support and the opening and closing of the mesh forming the upper portion of the predetermined space. The method of claim 2, The upper support and the lower support is a clam protection tooth, characterized in that the ring shape. The method of claim 1, Covered plaque protection net, characterized in that the size of the eye constituting the mesh is 1.5mm to 3mm range. The protection cladding protection net according to claim 1, wherein the loss preventing member is a light shielding film. The clamshell protection net according to any one of claims 1, 2 and 4 to 7, wherein the net is two layers. Breeding in the indoor seedling net until the shellfish reaches a size of 1.2 ± 0.4 mm from the fertilized egg; Inserting the breeding net with the shellfish attached to the protective net of any one of claims 1, 2, 4 and 7; And And installing the protection net in which the seedling net is inserted in the sea at a depth of about 5 m. The method of claim 9, And installing the protection net in the sea and replacing the protection net after a predetermined period of time. The method of claim 10, The replacement of the protection net is intermediate between the shellfish plaque, characterized in that made in a period between 14 days and 42 days after the protection net is installed in the sea.

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