KR20190001835A - Induction method for attachment of seaweed leaf - Google Patents

Abstract

The present invention relates to a method for inducing rooting of seaweed leaves in an underwater substrate, wherein the method comprises the steps of: forming a plurality of zigzag-shaped weft grooves in a natural rock or an artificial structure; and fitting and fixing wefts in which leaves are grown to 1-3 cm in the weft grooves. According to the present invention, a weft having a diameter of 0.3-1 mm, which is not a conventional seedling rope having a diameter of 14 mm and on which young leaves are attached, is transplanted into a groove of a natural rock or an artificial structure. According to the root growth of the leaves, it is possible to stably perform vegetation in a peripheral substrate of a groove, thereby enabling a stable composition of a sea algae colony. In addition, the weft has a significantly smaller volume than a seeding rope, thereby facilitating transportation and storage. Therefore, it is possible to reduce manpower and costs due to a considerably cheaper price compared to a seedling rope. Improved work efficiency can be expected.

Description

{Induction method for attachment of seaweed leaf} to aquatic substrate of seaweed-

More particularly, the present invention relates to a method for inducing rooting down to a substrate of a marine algae, and more particularly, to a method for inducing rooting of a marine algae in an underwater substrate, It is possible to form stable community of algae because the roots of the roots of the roots are firmly attached to the substrate around the grooves according to the growth of the roots of the roots. Moreover, the roots have a considerably smaller volume than the roots of the roots, A reduction in manpower required for the descending process, and a cost reduction such as a cost reduction due to a considerably lower price of seed rope compared to the seedling rope, as well as an improvement in working efficiency.

Generally, a lot of artificial fishes have been installed in coastal or coastal waters in order to provide a shelter for hunting and habitat for marine life and to provide a shelter for fishing for the purpose of securing fishery resources of coastal fisheries.

These artificial fishes are attracted to the idea that they can raise many catches by sinking the wrecked ship or dropping the ground structure into the sea, and it is possible to use various materials such as concrete, waste tires and steel materials to make a variety of hexahedral, cylindrical, .

Despite the large number of artificial fishes installed in order to create spawning and habitat, the degradation rate of coastal fisheries has been accelerated by the phenomenon of conspicuousness in Korea.

Whitening phenomenon is a phenomenon in which white lime algae reproduce instead of foliage algae with various shapes or colors in the coastal rock area, and the rocky areas change to white.

In case of conspicuous noise, the sea forests will disappear, which will lead to the destruction of marine ecosystem, resulting in the depletion of fisheries resources.

In order to prevent such a sprouting phenomenon, a variety of sea wood panel has been actively developed for the formation of sea forest.

These timber panels are usually rolled in a certain form to rope grafted with seeds of seaweed to a forcing or concrete reed, so that the seaweed grows to the whole of the aqueduct, so that the seaweed can be formed.

However, according to such a conventional sea-weed panel, there is a problem that the rope flows to the sea current, and the seaweed is removed or the seaweed is exposed to the outside and fed by the breakfast animal.

Therefore, in order to solve the above-mentioned problems, there has been proposed a method of manufacturing a composite material having a high strength and a high hardness, which is disclosed in Korean Registered Utility Model No. 20-0361101 (Haenin Limestone Ceramic Sheet), Korean Registered Patent No. 10-0572066 And the conventional method is to form a C-shaped rope-inserting groove on the upper part of an artificial ear candle or a decanter panel (hereinafter, referred to as 'artificial structure'), insert the seedling rope along the rope- So that the seedling rope is fixed through the rope fixing member.

However, since the seedling rope has a considerable size of 14 mm diameter, it is inevitably only formed as a straight groove on the artificial structure, and thus the artificial structure is manufactured in a fragmentary shape.

In addition, there is a difficulty in storage and transportation due to the large size of seedlings, the increase of the cost cost due to the price of the seedling rope and the considerable labor of the rooting process due to the size of the seedling rope, .

In addition, since the grooves are too large to form the groove for implanting the seedling rope into the natural rock bed other than the artificial structure, there is no facility for transplanting the algae on the natural rock bed.

In addition, the existing method is that when the seaweed is released after the year when the seaweed is mature due to the facility of the year, the seed is attached to the underwater substrate (artificial structure) to form the seaweed community. However, When the seeds are lost in the algae, there is a problem that the composition of the algae community is failed.

When roots are grown to 30 cm or more in the existing method and the seedling ropes are transplanted, most of the roots grow and the possibility of coagulation of the underwater substrate is very low. In addition, the whole seedling rope is surrounded by seaweeds There is an inconvenience that the seedling rope must be fixed to the artificial structure by using a concrete tacker.

Korean Registered Utility Model No. 20-0361101 (Aug. 27, 2004) Korean Patent No. 10-0572066 (April 11, 2006) Domestic registered patent No. 10-1127136 (Mar. 03, 2012)

In order to solve the above-mentioned problems, the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a method for manufacturing a rope having a diameter of 0.3 to 1 mm and attached to a natural rock or artificial structure, It is possible to form a stable seaweed community by forming a stable seaweed community in the vicinity of the groove due to growth, and the seeds have a considerably smaller volume than the seedling rope, so that transportation and storage are easy, and the manpower required for the root- The purpose of the present invention is to provide a method of inducing rooting down to the underwater substrate of seaweeds which can expect cost reduction such as cost reduction due to considerably lower price of rope compared with rope and improvement of working efficiency.

According to an aspect of the present invention, there is provided a method for inducing rooting of a marine algae foliage in a submerged substrate, comprising: forming a plurality of serpentine grooves in a natural rock or artificial structure; And a step of inserting a seed line having a diameter of 0.3 to 1 mm, which has grown from 1 to 3 cm in diameter, into the seedling groove.

In addition, in the above-mentioned step of manufacturing the seeds, after a string having a diameter of 0.3 to 1 mm is wound around the seeds, the seeds are immersed in the seedling vessel (seedling vessel containing the spores) for 30 minutes to 1 hour, The spores are transferred to a water tank containing seawater, and the spores are cultivated for 80 to 100 days, and the leaves are grown to 1 to 3 cm.

The seed grooves may include a starting groove, an end groove, and a stem groove formed in a circular shape; And a plurality of linear grooves having a predetermined length between the starting groove and the stem groove, between the stem groove and the end groove, and between the stem groove and the stem groove, and are configured to correspond to the diameter of the string.

In addition, the linear groove is formed to have a length of 15 to 30 cm, and the cross-section is configured to have a shape in which the string is closely attached.

In addition, the starting groove, the end groove, and the stem groove are wound in a single turn and fixed with an underwater adhesive.

In the present invention, seeds of 0.3 to 1 mm in diameter attached to young lobes other than the conventional seedling ropes having a diameter of 14 mm are implanted into the grooves of natural rocks or artificial structures. Therefore, It is possible to form a stable seaweed community and the seeds have a considerably smaller volume than the seedling ropes, so that they can be easily transported and stored, resulting in a reduction in the labor required for the rooting process and a considerably lower cost of seedling than the seedling rope It is a very useful invention that can expect cost reduction such as cost reduction and improvement of working efficiency.

FIG. 1 is a perspective view showing a method of inducing rooting on a submerged substrate of a seaweed seedlings according to the present invention. FIG.
Fig. 2 is a sectional structural view showing a fixed state of the string in Fig. 1; Fig.

The above and other objects, features, and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

The method for inducing rooting down of a seaweed-laden foliage according to the present invention comprises the steps of (S-1) forming a number of zigzag-shaped seabed grooves 10 in a natural rock or artificial structure A; And a step (S-2) of inserting and fixing a string 20 having a diameter of 0.3 to 1 mm and having a diameter of 1 to 3 cm on the seedling groove 10.

In step S-1, it is natural that the flushing process for removing the algae lime, which is a main cause of the bleaching phenomenon, should precede the formation of the sill grooves 10 in the natural rock.

In the case of the natural rock, a variety of equipment capable of forming an underwater grinder or a groove may be used to form the sea grooves 10, and in the case of the artificial structure A, the sea grooves 10 may be formed before introduction into the sea.

In the step S-1, the seed grooves 10 include a starting groove 11 and an end groove 13 having a circular shape and a stem groove 12; A plurality of rectilinear grooves 14 having a predetermined length between the starting groove 11 and the stem groove 12, between the stem groove 12 and the end groove 13, .

At this time, the seed grooves 10 are configured to correspond to the diameter of the seed rods 20.

The beads 20 are wound around the start groove 11 and the end grooves 13 and the stem grooves 12 with a single turn so that the beads 20 are firmly fixed to the beads 10 It is for this reason. Of course, it is of course also possible to fix the string 20 by various fixing means other than the above-mentioned underwater adhesive.

The straight groove 14 is formed to have a length of 15 to 30 cm and its cross section is configured to have a shape in which a string 20 including a triangular shape is in close contact with a flow of the string 20 And to prevent the young leaves from being lost from the seedlings 20 due to the vibration.

Of course, since the cross section of the straight groove 14 has a shape in which the string is closely contacted, it is a matter of course that the string 20 is fixedly inserted into the straight groove 14 in a forced fit manner.

On the other hand, seaweeds cultivated on 14mm diameter seedling rope have a chance of seaweed roots not being seated on the substrate because sea rope is always shaken finely due to seawater flow, high cost of positive seeds (0.5 ~ 1m) (10) is formed in a staggered shape and the straight grooves (14) and the circular grooves (11, 12, 13) of the appropriate length are formed in a zigzag shape, ) Of the present invention is stable because the seedlings 20 are not shaken in the sea water flow and the seedlings 20 of the young seedlings (1 to 3 cm) are stable at a cost of 2.5% Level of cost savings.

In the step S-2, the manufacturing process and the fitting process of the cord 20 having a diameter of 0.3 to 1 mm, which has grown from 1 to 3 cm in diameter, will be described below.

In the manufacturing process of the seed rods 20, first, the rope is wound on a 50 × 50 cm (width, length) seed rope frame. The length of the row corresponds to approximately 200 m.

After shaking the obtained mosquito for one night, fill the mash container (about 200 liters) with seawater and immerse the mosquito to extract spores.

Next, the seedling is immersed in the seedling vessel for 30 minutes to 1 hour to allow the spores to grow on the line.

The following spores are transferred to a sea water tank containing seaweeds, which are then incubated for about 80 to 100 days, allowing the leaves to grow to about 1 to 3 cm.

Next, the screed frame is placed in a container containing seawater and the facility site is transported. Then, the screed rope 20 wound on the screed frame is loosened and fixed to the screed groove 20 of the natural rock or artificial structure A in the water .

In the above-described process, when the seedlings 20 with the leaves are positive, the glassy gametes can be proliferated and cultured in large quantities without attaching the wild-type to the seedlings 20 to be positive.

In step S-2, the string 20 is wound around the start groove 11 of the string groove 10 and fixed with an underwater adhesive. Then, the string 20 is screwed into the string 20 The string 20 is fixed to the stem groove 12 located between the linear grooves 14 in the same manner as the starting groove 11 and then the string 20 is wound around the stem 13 And fixed with an underwater adhesive, and then cut the cord 20.

The sills 20 are fixed to the plurality of adjacent sill grooves 10 in the above-described manner.

Although the present invention has been described with reference to the exemplary embodiments, it is to be understood that the present invention is not limited to the disclosed exemplary embodiments, and that various changes and modifications will be apparent to those skilled in the art. Various modifications and variations may be made without departing from the scope of the appended claims.

Description of the Related Art [0002]
10: Seed Home 11: Start Home
12: tap groove 13: end groove
14: Straight groove 20:
A: Artificial structures

Claims (5)

Forming a plurality of serpentine grooves (10) in a natural rock or artificial structure (A); And a step of inserting and fixing seed rods (0.3) having a diameter of 0.3 to 1 mm and having a diameter of 1 to 3 cm on the seed roots (10), and inducing root roots on the submerged substrates of the seaweed roots .
The method according to claim 1,
In the manufacturing process of the seeds 20, a string having a diameter of 0.3 to 1 mm is wound around the seeds, and the seeds are immersed in a seedling vessel (seeding vessel containing seawater) from which spores have been extracted for 30 minutes to 1 hour The spores are allowed to adhere to the line, and the spores are transferred to a water tank containing the seaweed and the spores are cultured for 80 to 100 days, and the leaves are grown to 1 to 3 cm. Lt; / RTI >
The method according to claim 1,
The seed groove 10 includes a starting groove 11 and an end groove 13 in a circular shape and a stem groove 12; A plurality of rectilinear grooves 14 having a predetermined length between the starting groove 11 and the stem groove 12, between the stem groove 12 and the end groove 13, , And is configured to correspond to the diameter of the seed rods (20).
The method of claim 3,
Wherein the linear groove (14) is formed to have a length of 15 to 30 cm, and a cross section of the linear groove (14) is formed to have a shape in which the string (20) is in close contact with the bottom of the seaweed.
The method according to claim 3 or 4,
Wherein the roots of the seaweed are fixed to the starting grooves (11) and the end grooves (13) and the stem grooves (12) with a single turn of the rope and fixed with an underwater adhesive agent.

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