KR101414575B1 - Fixing structure for seagrass and marine ecosystem restoration method using thereof - Google Patents

Abstract

The present invention consists of an alphabet U-shaped rod and at least one spike provided between the ends of the U-shaped rod and one-half of the total length of the U-shaped rod, wherein the U- Wherein the end portions of the seaweeds have an acrosome shape.

Description

Technical Field [0001] The present invention relates to a fixation structure for seagrass and a marine ecosystem restoration method using the same,

The present invention relates to a seaweed fastening tool and a method for restoring a marine ecosystem using the same.

Domestic coastal waters are being devastated by indiscriminate coastal development, diversification of fishery styles, increase in bottom form, increase in fishery quantity, rise in winter water temperature due to global warming, coastal pollution and whitening (algae whitening). In order to restore the damaged marine ecosystem and to protect the offshore fisheries, a sea forest development project is being continuously carried out.

The sea forest project is to recover the disappeared seaweed in the sea due to the bleaching phenomenon and to restore the useful fishery resources and the marine ecosystem by creating a stable ecological environment in the sea. When these sea forests are formed, not only vegetable and zooplankton are concentrated, but also fish catching places and scattering places are provided, and new fishing grounds are formed, and the catch amount is more than doubled. In this way, the sea forest project has been extended to protect the fish stocks as it has proven to be effective by continuous experimentation and observation.

Seagrass is a flowering plant with roots, stems and leaves. In Korea, Zostera marina and Phyllospadix species belong to Zosteraceae.

In order to create an ocean forest, a method of artificially transplanting seaweed is generally used. For example, there are a method of dropping a seaweed graft in a clay ball and dropping it in water in a coater, a method of adhering grafts using an epoxy to an underwater rock bed, a method of hanging adult grafts with a stone, And a method in which seaweed is implanted into a rope and introduced into water.

However, the above-described conventional techniques have problems in that artificial structures are not adhered to the underwater floor, that seaweed actually roots and survive low, and that marine pollution is caused by the toxicity of chemicals used to adhere seaweeds Therefore, it is urgent to solve these problems.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a transplanting tool which is simple in structure, easy to use, has superior seaweed fixing ability in a sandy terrain, and a method for restoring a marine ecosystem using the same. .

According to the present invention,

A letter U shaped bar, and

Characterized in that it comprises at least one spike on the U-shaped bar, wherein both ends of the U-shaped bar have an acrosome shape.

According to the present invention, the spike may be provided between the ends of the U-shaped bar at one-half of the total length of the U-shaped bar and may form an angle of 110 to 160 degrees in the outer and end directions.

In the present invention, the spike may form an angle of 20 to 90 degrees in a direction opposite to the outer surface and the end of the U-shaped bar.

In the present invention, the spike may be formed of a rod having a semicircular or triangular cross section, and a plane included in a semicircular or triangular rod may be fixed on the surface facing the U-shaped rod.

In the present invention, a groove for tightly fixing seaweeds may be formed on the inner central portion of the U-shaped rod.

In the present invention, the grooves may be semicircular or alphabet U-shaped.

In the present invention, the U-shaped rod and the spike may be made of a biodegradable polymer, stainless steel, fiber reinforced plastic (FRP), or reinforced plastic.

Further, according to the present invention,

A seaweed grafting method using the seaweed fixation tool,

Transplanting the seaweed into the transplantation site; And

And inserting the seaweed fixation tool into the graft site so that the grafted seaweed is positioned at an inner central portion of the seaweed graft fixation tool.

The seaweed fixation tool of the present invention has a simple structure and has a U-shaped structure and spike, thereby providing an effect of effectively securing seaweed on the submarine sand topography. Therefore, when the seaweed fastening tool of the present invention is used, it is possible to prevent seaweed loss caused by waves and tidal waves at a low cost, and to form a seaweed community more stably.

In addition, the seaweed fastening tool of the present invention provides an effect of securing seaweeds more firmly due to the grooves formed in the inner central portion of the U-shaped rod.

1 and 2 are views schematically showing an embodiment of a seaweed fixation tool of the present invention.
3 is a view showing a seaweed fixed to a sand terrain using a seaweed fastening tool of the present invention.
Fig. 4 shows experimental conditions for testing the performance of the seaweed fixation tool of the present invention.
5 is a graph showing the survival rate of an experimental group using a seaweed fixation tool of the present invention compared with a control group.

The present invention

A letter U shaped bar, and

Characterized in that it comprises at least one spike on the U-shaped bar, wherein both ends of the U-shaped bar have an acrosome shape.

The seaweed fastening tool according to the present invention is characterized in that the seaweed fastening tool can be easily manufactured and used, and the fixing effect of the seaweed is excellent compared with the time and labor required for production and installation.

Further, according to the present invention,

A seaweed grafting method using the seaweed fixation tool,

Transplanting the seaweed into the transplantation site; And

And a step of immobilizing the seaweed fixation tool by inserting the seaweed fixation tool into the graft site so that the grafted seaweed is located at the medial center of the seaweed fixation tool.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would unnecessarily obscure the gist of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing one embodiment of a seaweed fixation tool of the present invention. Fig.

1, the seaweed fixation tool of the present invention comprises a rod 10 of the alphabet U-shaped shape, and a portion between the ends of the U-shaped rod and one-half of the entire length of the U- And at least one spike (20), wherein both ends of the U-shaped bar are acrosomal.

In the present invention, the U-shaped bar 10 is a concept encompassing bars of various structures having the form of an alphabet U character. For example, an angular U-shape including two or more bent portions, a U-shaped shape having a gentle curved portion as shown in FIG. 1, and the like can be given. The rod shape of the portion where the spike is formed may also include various shapes such as a linear shape and a curved shape. In addition, the cross-sectional shape of the rod may be variously used without limitation, such as a circle, a triangle, a rectangle, a pentagon, and a hexagon.

As the material of the U-shaped bar 10, a biodegradable polymer, stainless steel, fiber reinforced plastic (FRP), or reinforced plastic may be used, but the present invention is not limited thereto. Particularly, a material which does not rust in seawater can be preferably used.

Both ends of the U-shaped bar preferably have an acrosome shape. The acrosome shape provides the effect that the U-shaped rod can be easily pierced between the sand or the like when the U-shaped rod 10 is installed on a sand top or the like.

In the present invention, at least one of the spikes 20 may be provided between the ends of the U-shaped rod and one-half of the entire length of the U-shaped rod, so that the installation position of the seaweed fastening tool and the seaweed fastening tool By increasing the frictional force, it improves the fixation force of the grafting tool. Therefore, those known in the art can be used without any particular limitation as long as they meet this purpose. For example, nails and pins can be used, and protrusions made of a material such as rubber having excellent frictional force can be used.

Quot; between the two ends of the entire length of the U-shaped bar from both ends of the U-shaped bar indicating the point where the spike 20 is formed " indicates a portion preferable for forming the spike The formation point of the spike 20 is not particularly limited.

In the present invention, it is preferable that the spike 20 is formed so as to form an angle of 110 to 160 degrees, more preferably 130 to 150 degrees in the outer surface and the end direction of the U-shaped bar, Spikes can be used to make sandwiches and other fastening tools.

It is preferable that the spike 20 is formed to form an angle of 20 to 90 degrees, more preferably 45 to 90 degrees, in the direction opposite to the outer surface and the end of the U-shaped bar. Such an angle of formation of the spike 20 prevents the seaweed fastening tool once fixed from escaping from the sand top or the like, thereby improving the fixing force of the fastening tool.

In the present invention, the spike 20 may be formed as a rod having a semicircular or triangular cross section, in which case a plane contained in a semicircular or triangular rod is fixed on the face facing the U- . However, the present invention is not limited thereto. When the portion of the spike facing the U-shaped rod under the above-mentioned condition is a plane of semicircle or triangle, there is an effect that when the fixing tool is installed on a sand terrain or the like, fixing force for preventing the transplanting tool from coming out is improved. In addition, when the spike 20 is installed in the above-described manner, a semicircular arc shape or a triangular prism shape is positioned in the downward direction of the spike 20 toward the implantation site, When plugged in, it makes installation easier.

The number of the spikes 50 can be adjusted in consideration of the fixing force required for the seaweed fastening tool.

The spike 20 may be manufactured using a material such as a biodegradable polymer, stainless steel, fiber reinforced plastic (FRP), or reinforced plastic, but is not limited thereto. Particularly, a material which does not rust in seawater can be preferably used.

The seaweed fastening tool of the present invention can adjust its length depending on the characteristics of the algae and sandy soil of the terrain to be installed, and accordingly, the number of spikes can be adjusted together.

FIG. 2 shows a seaweed fastening tool having a groove 30 in the inner central portion of a U-shaped rod.

The grooves 30 may be formed in a semicircular or alphabetical U-shape, for example, but not exclusively, at an inner central portion of the U-shaped bar. The grooves 30 provide an effect of preventing the loss of seaweed fastened to the submarine topography by fixing the seaweeds more tightly. The size of the grooves can be arbitrarily adjusted according to the size of the seaweed to be transplanted.

3 is a view showing the use state of the seaweed fastening tool of the present invention.

The seaweed fastening tool according to the present invention can be used for transplanting all kinds of seaweeds living in the sandy terrain. For example, it can be used for transplanting Zostera marina, a seaweed of Zosteraceae in Korea, .

The seaweed settlement tool according to the present invention has a simple and simple structure and an easy installation method and can be easily installed directly on the sea floor.

The seaweed fastening device according to the present invention may be installed by, for example, inserting seaweed into a graft site and inserting the seaweed graft fixture into the graft site so that the seaweed grafted in the step is located at the inner center of the seaweed graft fixation tool .

The seaweed fixation tool according to the present invention is preferably installed in a glossy layer capable of living in seaweed, and can be installed at a depth of 0 to 20 m.

Fig. 4 shows experimental conditions for testing the performance of the seaweed fixation tool of the present invention.

5 is a graph showing the survival rate of an experimental group using a seaweed fixation tool of the present invention compared with a control group.

Hereinafter, the present invention will be described in more detail with reference to examples. However, the following examples are illustrative of the present invention, and the present invention is not limited thereto.

Example  1. Experiments on survival of duckweed through seaweed fastening tools of the present invention

The survival of the barnyardgrass was examined by the seaweed fixation apparatus of the present invention at the inner harsh habitat of northern hemiparet habitat (N36 54 56.0 E126 20 00.2 to N36 55 11.2 E126 19 37.6). This area is the area where the hermaphrodite is most widely seen from the inner side of the Crawiman Bay, and it is suitable for experimenting with the effect of the seaweed fixing tool of the present invention. Two 5x5m compartments were selected and divided into a control group and a control group. Thirty isolates of the control group were inoculated into 30 individuals, and in the experimental group, 30 individuals were transplanted using a seaweed fixation apparatus of the present invention made of stainless steel 4). Survival of the bark was investigated through the escape lock of the bivalve with time. In order to exclude the additional members, only the individuals having the best length of 50cm or more used in the experiment were used. A total of 8 investigations were conducted for 180 days from the installation time of the seaweed fixation tool of the present invention. In the case of the control group, natural dwarf communities, 17 individuals decreased during the survey period, and finally 13 individuals survived and the survival rate was 43.3%. In the experimental group, 12 individuals decreased during the irradiation time, 18 survived, and the survival rate was 60.0%. The results are shown in Fig. In the above experiment, the survival rate difference between the control group and the experimental group was about 16.7%, and it was confirmed that the seaweed fixation apparatus of the present invention had a remarkable effect.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

10: U-shaped rod
20: Spike
30: Home
40: Seaweeds
50: Sandbox

Claims (8)

A letter U shaped bar, and
And one or more spikes on said U-shaped bar,
Both ends of the U-shaped bar have an acrosome shape,
Characterized in that a portion including spikes from both ends of said U-shaped bar is fixed to the underside. The method according to claim 1,
Wherein the spikes are provided between the two ends of the U-shaped bar, the ends of the U-shaped bar being 2.5 times the entire length of the U-shaped bar, and forming an angle of 110 to 160 degrees in the outer and end directions. The method according to claim 1 or 2,
Wherein the spike forms an angle of 20 to 90 degrees in a direction opposite to an outer surface and an end of the U-shaped bar. The method of claim 3,
Wherein the spike is formed of a rod having a semicircular or triangular cross section and a plane included in a semicircular or triangular rod is fixed on the surface facing the U-shaped rod. The method according to claim 1,
Wherein the U-shaped rod has grooves for tightly securing seaweed on the inner central portion thereof. The method of claim 5,
Wherein the groove is a semicircular or alphabetic U-shaped groove. The method according to claim 1,
Wherein the U-shaped rod and the spike are made of a biodegradable polymer, stainless steel, fiber reinforced plastic (FRP), or a reinforced plastic material. A seaweed grafting method using the seaweed fixation tool of claim 1,
Transplanting the seaweed into the transplantation site; And
And a step of inserting the seaweed fixation device into the graft site so that the grafted seaweed is positioned at the inner center of the seaweed fixation device.

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