KR102532889B1 - Shellfish resource creation and incubation device. - Google Patents

Abstract

Provided are a benthic organism resource creation device and an installation method that can naturally provide a rich food source for the growth of seaweed, which is a primary producer, and benthic invertebrates that feed on seaweed, while taking into account, as much as possible, the habits of invertebrates that live attached to places such as pirate creatures and rock crevices, so that a growth site with a rich food source for released spat and benthic invertebrates that naturally grow in fishing grounds can be provided, thereby forming a fishing ground for a variety of marine lives.

Description

Shellfish resource creation and incubation device in shallow waters {Shellfish resource creation and incubation device.}

The present invention relates to a resource creation device capable of incubating and cultivating benthic resources such as abalone and penguin as coastal aquatic organisms, and the survival rate of seeds in a seed release operation in which benthic organisms such as abalone and penumbra are released to fisheries on land. It relates to an apparatus and installation method for creating benthic resources that can increase and naturally form a benthic biome.

Abalone, which is loved not only in Korea but also in the world, belongs to the abalone family (Haliotidae) and the abalone genus (Haliotis), and inhabits the coasts of temperate, tropical, and subtropical regions around the world. More than 100 species are known worldwide, and abalone species inhabiting Korea include the northern abalone (Haliotis discus hannai), round abalone (Haliotis discus discus), royal abalone (Haliotis madaka), and horse abalone (Haliotis gigantea). there is. In particular, Jeju has a special product called Haliotis diversicolor aquatilis.

Obunjagi lives mainly attached to rocks between the intertidal zone and within 10m of water depth, and is dioecious, and the spawning season is July-August. Its main diet is diatoms and algae, and it tends to move quickly. It can be caught under rocks at low tide.

Recently, benthic invertebrates such as abalone and obunjagi along the coast of Jeju are rapidly declining. There are various reasons for the decrease, such as an increase in fishing intensity, changes in the habitat ecological environment, and environmental pollution factors. In particular, in the coastal area, seaweeds such as Ecklonia cava and japonica are killed due to the occurrence of whitening, and coral algae plants grow on bedrock and turn red or white. The causes include high temperature, low salinity, deterioration of marine environmental conditions, and excessive feeding of omnivorous animals in the colony of perennial seaweeds such as Ecklonia cava and japonica.

The death of seaweeds in the coastal area is linked to the decrease in the resources of benthic invertebrates, which serve as food sources. The government and fishermen, etc., are conducting operations to release juveniles produced by artificial seed methods or setting taboos in order to recover resources of benthic invertebrates in coastal areas.

However, the survival rate of released seeds such as abalone and quinoa remains at around 10%, so it is not very effective. These causes are very diverse, such as release time, release location, size of seed at release, release amount, release method, organisms that feed on benthic invertebrate seeds, change in water temperature, and change in salinity.

Domestic Patent Registration No. 10-2428747, developed by the inventor of the present application, provides a seaweed growth device for nutrient elution for seaweed development, thereby providing a larger scale seaweed farm by eluting nutrients for seaweed growth and providing an epiphytic space for seaweed at the same time. Although it is designed to increase composition and composition efficiency, it does not consider the habits of abalone and obunjagi living in rock crevices.

Therefore, the present invention is a device that can maximize the growth of seaweeds, which are primary producers, and a rich food source for benthic invertebrates that feed on seaweeds, while maximally considering the habits of pirates and invertebrates that live attached to places such as rock crevices and Installation method development is required.

Korean Patent Registration No. 10-2428747 is a fixed frame installed on the seabed for seaweed development; Disclosed is a seaweed growth device for elution of nutrients for seaweed farm composition comprising a main body in which one side is mounted and fixed to the fixing frame in a polyhedral shape, an internal space portion filled with nutrients is formed, and a main body is provided to spray nutrients and provide space for fish reefs. Korean Patent Publication No. 10-2015-0059481 discloses the production of shellfish and invertebrates by naturally discharging seeds of abalone, sea cucumber, scallops, etc. in water in the form of seeds, or by naturally releasing offspring of invertebrates such as sea cucumbers and octopuses. A submerged subsea fish farm is disclosed. Domestic Patent No. 10-0754920 discloses that during shellfish farming, the flow of seawater is smooth, and due to the habitat characteristics of shellfish, the dark habitat and the invasion of shellfish predators are prevented, providing an optimal habitat environment and increasing the farming area. It discloses artificial reefs for shellfish farming. Korean Patent Publication No. 10-2014-0024979 discloses a marine forest that can restore devastated coastal fisheries and promote green growth industry by providing a habitat for useful benthic animals by alleviating rocks in the inner space of an artificial fish reef formed in two stages. It discloses a two-tiered box-type fish reef that can restore a safe ecosystem by creating a

The present invention naturally provides an abundant food source for the growth of seaweeds, which are primary producers, and benthic invertebrates that feed on seaweeds, and abalone that can provide a habitat environment by considering the habits of invertebrates attached to and inhabiting places such as rock crevices as much as possible And it is intended to provide a benthic resource creation device and installation method, such as a pentagram.

Benthic resource creating device according to an embodiment of the present invention forms a horizontally flat polygonal upper central surface 110 at the center of the upper surface, and a flat upper surface having an inclination on the outside so as to converge around the upper central surface of the polygon. The inclined surface 120 and the concave groove 130 having a certain depth are repeatedly connected to form one surface having irregularities, and a horizontally flat polygonal lower central surface 210 is formed at the center of the lower surface, and the lower central surface of the polygon is formed. A structure in which a three-dimensional shape portion 230 formed of a polyhedral protrusion structure is provided on the outside so as to converge on the surface and a flat lower inclined surface 220 having an inclination intersect to divide the lower surface into one or more compartments, side The flat vertical surface 150 and the vertical surface are connected to form the edge of a polyhedron, and the upper and lower surfaces may be formed by integrally combining the flat vertical side surfaces.

In addition, a ring-shaped connection portion 100 may be formed at the center of the upper surface. Benthic resource creation device installation method according to another embodiment of the present invention includes an installation sea area selection step of selecting a suitable fishing ground as the installation location of the benthic resource creation device by checking the location of bedrock in the sea; Device preparation step of preparing the benthic resource creation device; A device moving step of loading the prepared benthic resource creation device on a barge and moving it to a selected sea area; It may consist of a step of dropping and installing a benthic resource creation device from the moved barge to the sea area.

The present invention is a good habitat for invertebrates by providing a rich food source and a growing place for the released juveniles and benthic invertebrates that naturally grow in the ocean, and can form a fishing ground for various marine organisms that utilize them as a living space. There is an effect.

Figure 1 shows a schematic diagram of the benthic resource creation device installation method of the present invention.
Figure 2 shows a top perspective view of the benthic resource creation device of the present invention.
Figure 3 shows a side view and a perspective view of the benthic resource creation device of the present invention.
Figure 4 shows a picture of the mold for the manufacture of benthic resource creation device of the present invention.
Figure 5 shows the process of processing a certain space in the inner central portion by manufacturing the upper and lower surfaces of the benthic resource creation device of the present invention, respectively.
Figure 6 shows the process of installing the benthic resource creation device of the present invention in the fishery.
Figure 7 shows the biological habitat effect after installing the benthic resource creation device of the present invention.

Hereinafter, it will be described in detail with reference to the drawings related to the benthic resource creation device and installation method of the present invention.

Figure 1 shows a schematic diagram of the benthic resource creation device installation method of the present invention. Installation sea area selection step (A) of selecting a suitable fishing area as the installation location of the benthic resource creation device of the present invention by checking the location of the bedrock in the sea of the present invention; Seed preparation step (B) of preparing seeds of shellfish and benthic invertebrates produced in nature or in land farms; Preparing a device for preparing a benthic resource creation device (c); Step (D) of loading the young shellfish prepared in step (B) and the benthic resource creation device prepared in step (C) onto a barge and moving to the sea area selected in step (A); It may consist of an installation step (E) in which the diver installs after dropping the benthic resource creation device into the water from the barge moved to step (D). Benthic organisms referred to in the present invention may include algae and benthic invertebrates.

(A) Sea area selection stage

The installation sea area selection step (a) of the present invention includes the step of selecting a suitable fishing area as the installation location of the benthic resource creation device of the present invention by checking the location of bedrock in the sea. The sea area may preferably be a sea area of 2 to 10 m in depth from the intertidal zone to the subtidal zone of the coast of Jeju, where benthic organisms are mainly distributed.

(B) Preparation stage for young seedlings

The step (b) of preparing seedlings of the present invention includes the step of preparing seedlings of benthic invertebrates produced in nature or in a terrestrial farm. The juveniles referred to in the present invention are seeds of marine benthic invertebrates, preferably those released in a seed and seed release business including abalones and shellfish such as quinoa, horse abalone, black abalone, Siebold abalone, and abalone. The invertebrate animal according to the example of was prepared by selecting a pentamolecular group.

Obunjagi (H. diversicolar auatilis ) is a mollusk of the primitive gastropod abalone family, and is a small species of abalone with each length less than 10 cm. It is called Obunjaegi or Jogoji in Jeju Island. The shell of Obunjagi is composed of three layers, but the height is low. The largest layer occupies most of the shell and has 6 to 8 pores.

The surface of the shell is greenish-brown and the inner surface is pearlescent. Unlike the hole of abalone protruding upward like a funnel, the hole of obunjagi is flat, and the outside of the shell is relatively smoother than the uneven abalone, and the surface is greenish brown, flat, and has shallow radial ribs. Distribution Habitat is distributed in the shallow waters of the subtropical and tropical and temperate regions of the Northwest Pacific, including southern Japan, Taiwan, and southern China. In Korea, it lives attached to rocks in shallow waters from the intertidal zone of the Jeju coast to a depth of 6m.

The seed preparation step of the present invention may consist of a process of separately preparing and discharging after completing the following device preparation step, device movement step, and installation step.

(C) Device preparation step

The device preparation step (c) of the present invention includes preparing a benthic resource creation device. Figure 2 shows a top perspective view of the benthic resource creation device of the present invention, Figure 3 shows a side view and a lower perspective view of the benthic resource creation device of the present invention. Benthic resource creation device of the present invention is formed by combining the upper and lower main body consisting of a polygonal shape.

A horizontally flat polygonal upper central surface 110 is formed at the center of the upper surface of the main body of the resource creation device of the present invention, and a flat upper inclined surface 120 having an inclination on the outside so as to converge around the upper central surface of the polygon and a constant Concave grooves 130 made of depth are repeatedly connected to form one surface.

A horizontally flat polygonal lower central surface 210 is formed at the center of the lower surface, and a three-dimensional shape portion 230 formed of a polyhedral protrusion structure is provided on the outside so as to converge around the polygonal lower central surface. It is formed by crossing the flat lower inclined surface 220 having.

The side surface of the resource creation device is connected to form the edge of a polyhedron by connecting the flat vertical surface 150 and the vertical surface, and the upper and lower surfaces of the main body are integrally combined by contacting the flat vertical side surface.

In addition, a ring-shaped connection portion 100 is formed at the center of the upper surface of the present invention. This is to more stably drop the device into the sea by fixing the connection means to the connection part when the benthic creation device is dropped in the dropping and installation steps to be described later. In addition, the connection part formed in the upper central part may be formed as a fixing ring capable of fixing the seaweed low longevity growth rope.

The flat upper slope 120 having an upper slope may be processed to form fine scratches or lattice-shaped fine grooves so that seaweed can grow. The microgrooves can be used as a food source for shellfish as they enable the spores of seaweed spores and adherent diatoms to implant and grow.

A concave groove is formed on the inner side of the center of the upper or lower surface of the benthic resource creation device of the present invention to form a space portion filled with nutrients to provide a space for eluting nutrients.

According to the embodiment of the present invention shown in Figures 2 and 3, the upper and lower surfaces are made of a hexagonal structure, and the upper surface has three flat inclined surfaces with a slope outside the center of the polygonal center, and a certain depth. The formed concave grooves cross each other to form the upper surface. On the lower surface, six three-dimensional parts formed of polyhedral protrusion structures and six flat inclined surfaces with inclinations cross each other to form the lower surface, centering on the polygonal central surface.

In another embodiment, on the upper surface, three flat inclined surfaces having an inclination outside the center surface of the polygon and three concave grooves having a predetermined depth may cross each other to form the upper surface. In another embodiment, on the lower surface, three three-dimensional parts formed of a polyhedral protrusion structure and three inclined flat inclined surfaces intersect with each other to form the lower surface around the central surface of the polygon.

The main body of the resource creation device of the present invention is formed of concrete or a concrete material mixed with ocher and has better durability, so that when one or more devices are stacked and installed, it has an effect of giving a sense of stability even in the sea.

The three-dimensional shape of the lower surface of the present invention is a polyhedral dome structure having hexagonal sides, and a radial projection frame is installed around the center. The protruding frame is a protruding structure with a certain height connected to a flat inclined surface with an incline, and divides the lower surface into several compartments to serve as a partition wall that can form vortices by colliding with seawater in the sea.

The vortex-forming frame on the lower surface forms a space at a certain distance from the bottom of the sea, providing a space in which benthic invertebrate juveniles such as abalone or pentaphytes can hide, and at the same time increasing the attachment area, and one or more benthic organisms When resource creation devices are stacked, it can be used as a hiding space for pentaphytic plaques of various sizes by forming gaps between adjacent or benthic resource creation devices installed above and below.

The concave groove of the upper body provides a concave-convex portion that induces easy implantation of spores of marine plants, while a groove vortex is formed in the concave groove formed between the inclined surface of the upper surface and the inclined surface to dissipate the pressure of algae, thereby dissipating algae spores and larvae Not only promotes the stable attachment of the device, but also the flow of algae hits the side part several times, so nutrients contained in the sea can help the growth of algae growing on the upper and side surfaces of the device.

Figure 4 shows a picture of the mold for the manufacture of benthic resource creation device of the present invention. The production of the benthic resource creation device can be made by pouring concrete into the bottom formwork and the top formwork, manufacturing the top and bottom surfaces, respectively, and then processing and joining again, or by combining the top and bottom forms to pour concrete to make the upper and lower surfaces integral.

In the case of manufacturing the upper and lower surfaces, respectively, it can be processed to form a certain internal space 310 inside the center of the benthic resource creation device, and the processed space can be formed as a space portion filled with nutrients. When the inner space is created, a nutrient outlet 300 may be formed on the upper central surface 110. The nutrient outlet is detachably connected to the inner space, and the outlet can be opened to fill the nutrient.

Figure 5 shows the process of processing a certain space in the inner central portion by manufacturing the upper and lower surfaces of the benthic resource creation device of the present invention, respectively. When a space is formed in the inner center, the amount of concrete used can be reduced by the volume of the space, and by filling the inner space with a buoyant material, the resource creation device can reduce the buoyancy at a certain amount of settling force and reduce the weight in the water.

(D) step of moving the plate and device

The step (d) of moving the prawns and equipment of the present invention is a step of loading the prawns prepared in step (b) and the benthic resource creation device prepared in step (c) onto a barge and moving them to the sea area selected in step (a). .

According to an embodiment of the present invention, the pentagram resource creation device is loaded with one or more barges by a cargo crane at the inlet, and the barge is moved to the selected sea area in step (A) using a small fishing boat or a power boat. The juveniles of the present invention move the juveniles in a stored form in the breeding water containing the breeding water, and in the case of aquaculture juveniles, it is also possible to store attached papillae attached during breeding.

The step of moving the juvenile and device of the present invention may further include a step of fixing the connection means to the connection part of the benthic production device after loading the barge. According to an embodiment of the present invention, a rope-shaped connecting means is used, but is not limited thereto. In addition, the step of moving the juveniles of the present invention may be performed by separately preparing after completing the following installation step and distributing to the fishery where the device is installed.

(E) Installation stage

The installation step (E) of the present invention is a step in which the benthic resource creation device and young shellfish are dropped from the barge moved to the step (D) to the fishery and installed by a diver. According to one embodiment, the present invention drops the benthic resource creation device fixed to the connecting means via a device such as a crane. Figure 6 is a photograph showing the step of installing the benthic resource creation device of the present invention in the fishery.

In addition, according to an embodiment of the present invention, the pentagram larvae can be released inside the net to prevent separation when falling while attached to the wave plate. The benthic resource creation device and the pentaphyte droplets are dropped to the fishing ground, and the diver installs the pentagram juveniles near the benthic resource creation device so that the pentagram juveniles can naturally move and inhabit. At this time, it may include a work process such as placing the leaf plate with the leaflets attached around the device or taking out the leaf plate and spraying it on the device.

<Experimental Example> Investigation of benthic resource creation device seedling breeding efficacy

In the experiment of the present invention, the survival rate of young larvae and the composition of seaweed were confirmed for a certain period after the installation of the benthic resource creation device in Jeju Island. Figure 7 is a photograph showing the biological habitat effect after installing the benthic resource creation device according to the experiment of the present invention. After the installation of the benthic resource creation device according to the present invention, pentagram seeds were released and then investigated. As a result, it was confirmed that the biomass inhabited about 3.6 to 3.0 times compared to the sea area where the resource creation device was not installed.

The present invention has industrial applicability because it solves the whitening phenomenon in shallow waters, increases the productivity of coastal fisheries through the restoration of the ecosystem of coastal fisheries, and at the same time helps to increase the income of related fishermen by maintaining a stable marine ecosystem.

100: connection part 110: upper center surface 120: upper inclined surface
130: concave groove 150: vertical plane
210: lower central surface 220: lower inclined surface 230: solid shape portion
300: discharge port 310: inner space

Claims (3)

A horizontally flat polygonal upper central surface 110 is formed at the center of the upper surface, and a flat upper inclined surface 120 having a slope on the outside so as to converge around the upper central surface of the polygon and a concave groove 130 having a certain depth These are repeatedly connected to form one surface with irregularities,
A horizontally flat polygonal lower central surface 210 is formed at the center of the lower surface, and a three-dimensional shape portion 230 formed of a polyhedral protrusion structure is provided on the outside so as to converge around the polygonal lower central surface. The flat lower inclined surface 220 having intersects to divide the lower surface into one or more compartments, and the side surface is connected to the flat vertical surface 150 and the vertical surface to form the edge of a polyhedron, and the upper and lower surfaces are in contact with the flat vertical surface is made by combining
Inside the center of the upper and lower surfaces, an inner space of a certain size is formed so that nutrients or buoyancy material can be filled, and the inner space and the center of the upper surface are connected so that a nutrient discharge port is detachable, and the nutrients filled therein are discharged through the discharge port. Benthic resource creation device, characterized in that formed to enable
An installation sea area selection step of selecting a suitable fishing ground as an installation location of a benthic resource creation device by checking the location of bedrock in the sea;
Device preparation step of preparing the benthic resource creation device of claim 1;
A device moving step of loading the prepared benthic resource creation device on a barge and moving it to a selected sea area;
A method of installing a benthic resource creation device, characterized in that consisting of the step of dropping and installing the benthic resource creation device from the moved barge to the sea area delete

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