JP2606596B2 - Algae growing tool and seagrass bed creation method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an algal growing tool and a method for creating an algal bed, which is used for creating an algal bed comprising useful algae.

[0002]

2. Description of the Related Art Conventionally, concrete blocks have been widely used for creating seaweed beds. When this concrete block is installed on the seabed, useful algae such as kelp and honwara flourish and algae beds are created. This makes it possible to collect useful algae and fish and shellfish that gather in the useful algae.

[0003]

However, the prior art has the following problems.

Since the concrete block is large and heavy, the work of installing the concrete block on the sea floor requires a large amount of labor.

[0005] Even if a concrete block is installed on the seabed, useful algae do not always prosper. That is, when the useful algae are eaten by the alga-eating animal, etc., the alga such as lime algae may prosper.
The algae-eating animal refers to seafood such as algae-eating fish, shellfish, and sea urchins.

[0006]

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide an algae growing tool and an algae bed creation method which can reduce the labor required for creating an algae bed and improve the settlement rate of useful algae.

[0007]

According to the first aspect of the present invention, there is provided an algae cultivation device having a large number of holes and a plurality of holes formed of a material containing a degradable resin.
It is formed in a mesh shape having FLEXIBLE, the through hole is of algae diet animals proceeds
The material is sized to prevent entry
Designed to reduce weight by 50% within 0 days, useful
It is covered on the reef where the algae sprouts are growing . The algal growing implement according to claim 2 is a raw material containing a degradable resin.
The material is formed into a mesh with many holes and flexibility.
Spores or germs of useful algae are attached in advance,
Material should lose 50% in water within 200 days in water
It is designed to be mounted on rocks and reefs. The method for creating a seaweed bed according to the present invention includes mounting the algal growing tool according to the present invention on a reef or the like.

[0008] The "useful algae" referred to herein includes flowering plants such as eelgrass and koala, in addition to hidden flower plants such as seaweed, kelp, and honda straw. For flowering plants,
“Spores” is to be reworded as “seed”. The term "degradable resin" as used herein refers to a resin that decomposes and disappears in a natural environment, and specifically refers to a resin that exhibits biodegradability, water solubility, and the like. As biodegradable resins, chitosan,
Natural polymer based on cellulose and the like, microbial polyester based on polyhydroxybutyrate made by microorganisms, blends of starch and additives that promote decomposition into general-purpose plastics, synthetic chemistry based on synthetic polymers, Etc. Examples of the water-soluble resin include polyvinyl alcohol, cellulosic polymers, paper, and clay.

[0009]

[Functions] (1) When useful algae germinates on a reef or the like.

[0010] The algae cultivation tool covered on a reef or the like permits the ingress and egress of seawater and prevents the invasion of fish and shellfish.
Therefore, the sprout of useful algae attached to the reef grows smoothly in fresh seawater while being protected from fish and shellfish.

By the time the germ becomes a usefully grown algae, the algae cultivation tool collapses or disappears due to the action of the degradable resin as its material. At this time, the useful algae have grown to a size that is not affected by fish and shellfish. Moreover, the algae cultivation tool no longer hinders the growth of useful algae.
Therefore, the useful algae grows even larger.

(2) A case where lime algae are growing on a reef or the like.

A spore or a germ of a useful algae is previously attached to the algae growing tool. When this algal growing tool is mounted on a rock or the like, spores or sprouts grow and become useful algae. on the other hand,
Most of the lime algae overgrown on the reef are crushed and shielded from sunlight by the algae cultivation tools and useful algae overlying the lime algae.

Thereafter, the useful algae on the algae growing tool release spores and die. The spores attach to reefs free of calcareous algae. By this time, the algae breeding equipment has collapsed or disappeared due to the action of the degradable resin,
The spores germinate and grow smoothly.

[0015]

FIG. 1 is a side view showing an embodiment of an algae cultivation tool according to the present invention. FIG. 1 (1) shows an algae cultivation tool before covering it on a reef, and FIG. The figure shows the tools after they have been mounted on the reef. Hereinafter, description will be made based on these drawings.

The algae cultivation device 10 is made of a material including a degradable resin and has a net-like shape (ie , having a large number of through holes and flexibility).
It is formed in that), and are intended to be covered state reef R.

The algae growing tool 10 is made of, for example, polyvinyl acetate.
It is formed by knitting a wire composed of 50% by weight and 50% by weight of cellulose, and is a 100% biodegradable resin.
The decomposable resin contained in the material of the algae cultivation tool 10 is preferably set to about 10% by weight or more in order to improve the decomposability. In addition, the size of the mesh and the diameter of the wire satisfy the conditions of preventing entry of the fish F and the like and not obstructing the flow of water, and differ depending on the type of useful algae. As a general example, the size of the mesh is preferably about 1.0 cm or more, and the diameter of the wire is preferably about 0.1 mm or more.

A weight 12 is attached to the peripheral edge of the algae growing tool 10.
a, 12b, 12c, 12d, 12e, and 12f are attached. The weights 12a are made of concrete or natural stone, for example. The inside of the algae breeding tool 10 has a nail 14
It is fixed to the rock reef R by a, 14b, and 14c.

FIG. 2 is a vertical sectional view taken along the line II-II in FIG. 1 (2), and shows that time elapses in the order of FIGS. Hereinafter, an example of a method for creating a seaweed bed using the algae growing tool 10 will be described with reference to FIGS. 1 and 2.

On the reef R, germs S _{1 of} useful algae are germinating. The algae growing tool 10 is carried into the seawater W, and the weight 12
are placed on the foot of the reef R, and if necessary, the inside of the algae growing tool 10 is fixed to the reef R with nails 14a,. Thereby, the algae growing tool 10 is covered on the reef R (FIG. 1 (2) and FIG. 2 (A)). Algae growing tool 10
For conventional structural and material reasons,
It is smaller and lighter than DOO block. Therefore, the labor required for transportation and installation can be reduced as compared with the related art.

[0021] Useful algae receives the feeding damage such as fish F at the stage of plumule S _1, it may be impossible flourish reef R. However, the algae breeding tool 10 allows the seawater W to enter and exit, while preventing the fish F from entering. Therefore, the bud S ₁
Grows smoothly and becomes small algae S ₂ by being protected from fish F in fresh seawater W (FIG. 2).
(B)).

The algae S ₂ grows further and the large algae S ₃
By the time, the algae growing tool 10 has collapsed or disappeared due to the action of the biodegradable resin as its material. At this time, the size of the algae S ₃ is such that the fish F is no longer damaged by fish. Moreover, algae growing device 10, since the collapse or disappearance, nor prevent the growth of algae S _3. Thus, algal S ₃ is beyond the space surrounded by the algae growing device 10, it grows even larger (FIG. 2 (c)).

FIG. 3 is a side view showing another embodiment of the algae cultivation tool according to the present invention. FIG. 3 (1) shows the algae cultivation tool before covering it on a rock, and FIG. 3 (2) shows the algae cultivation. The figure shows the tools after they have been mounted on the reef. Hereinafter, description will be made based on these drawings. However, the same parts as those in FIG.

The algae growing tool 20 is formed in a net shape from a material containing a degradable resin, and is covered on the reef R. Further, the algae growing device 20, the artificial Tonae, and spores (gametophyte, embryo, etc.) in advance useful algae S ₀ is attached. Furthermore, the algae cultivation tool 20 is designed so that the collapse time is longer than that of the algae cultivation tool 10.

FIG. 4 is a vertical sectional view taken along the line IV-IV in FIG. 3 (2), and shows that time elapses in the order of FIGS. Hereinafter, an example of a method for creating a seaweed bed using the algae growing tool 20 will be described with reference to FIGS. 3 and 4. However, the same parts as those in FIGS. 1 and 2 are denoted by the same reference numerals, and redundant description will be omitted.

The reef R is full of calcareous algae C, and is in a state of shore burning. That is, since the settlement platform is occupied lime algae C, no room for spores S ₀ can be germinated reef R, thereby continuing the state of Isoyake in this state. Then, the algae breeding tool 20 is mounted on the reef R (FIG. 3 (2) and FIG. 4 (A)).

The spore S ₀ grows on the algae breeding tool 20 as an epiphytic base to become algae S ₃ (FIG. 2B). On the other hand, the algae cultivation tool 20 and the algae S ₃ cover the lime algae C, thereby crushing the lime algae C and blocking sunlight. As a result, the calcareous algae C is remarkably inhibited from growing, and many of them gradually die (FIG. 4 (b)).

Thereafter, the algae S ₃ release spores S ₀ and die, and the spores S ₀ pass through the mesh of the algae cultivation tool 20 and reef R 3.
Adheres to The spore S ₀ is no longer hindered by the calcareous algae C, and germinates smoothly to become a germ S ₁ (FIG. 4 (c)). At this time, the algae growing tool 20 has collapsed or disappeared due to the action of the biodegradable resin as its material. Therefore, the algae S ₃ grows further beyond the space surrounded by the algae breeding tool 20.

FIG. 5 is a graph showing the relationship between the number of days and the rate of change in weight for each type of degradable resin. Hereinafter, FIGS. 1 to 5
Based on the above, a method of designing the algae breeding tools 10 and 20 will be described.

[0030] First, to determine the type of algae S _3. Algae S
The growth of ₃ varies depending on its type.

Next, the types and structures of the algae growing tools 10 and 20 are determined. At this time, it is necessary to impart a property of decomposing according to the growth of the algae S ₃ . That is, based on the characteristics of the degradable resin illustrated in FIG.
The time when the algae breeding tools 10 and 20 collapse is matched with the desired time.

Generally, in order to make the collapse time accurate,
It is preferable to design so that the decomposition proceeds rapidly around the collapse time. For example, a biodegradable resin having a two-layer structure in which a biodegradable resin having a high biodegradability is used as a core and a biodegradable resin having a low biodegradability is coated around the core is used as an algae growing tool 1.
0, 20 are manufactured. Then, when the biodegradable resin with slow biodegradation decomposes and disappears, the biodegradable resin with fast biodegradation is exposed, and the property that biodegradation proceeds rapidly is obtained.

The algae breeding tools 10, 20 are not limited to braided wires, but may have a flexible sheet with a large number of through holes.

The algae breeding tool 20 may contain marine fertilizers such as nitrates, ammonium salts and sulfates, which are nutrients of the algae. In this case, the growth of algae can be further promoted.

[0035] Algae development tool 20, to deposit the spores S ₀ by an artificial Tonae is preferred in view of reliability. However, the natural Tonae, may be to attach the spores S ₀ algae growing device 20.

In order to fix the algae growing tools 10 and 20 to the seabed, not only the weights 12a, but also an adhesive, a string, an anchor or the like may be used. The algae breeding tools 10 and 20 are pillars,
It may be tied to a rope or the like, or may be hung in seawater.

The algae growing tools 10, 20 are used for aquaculture and also in fresh water such as ponds, rivers and lakes.

[0038]

According to the algae breeding tool of the present invention, the spores or germs are protected from fish and the like in fresh seawater and disappear naturally, thereby significantly improving the colonization rate of useful algae on rocks and reefs. it can. Further, since the algae cultivation tool according to the present invention is small and lightweight, the labor for installation on the seabed can be reduced.

Adhering spores of useful algae to the algae growing tool,
By coating this on a reef where lime algae is thriving, the lime algae is killed and the spores of the useful algae adhere to the reef, so that the useful algae can be fixed in place of the lime algae. Therefore, it is possible to change the place of the sea burning into a seaweed bed.

[Brief description of the drawings]

FIG. 1 is a side view showing an embodiment of an algae cultivation tool according to the present invention. FIG. 1 (1) shows a state before the algae cultivation tool is mounted on a reef, and FIG. Are shown after they are mounted on the hologram.

FIG. 2 is a vertical sectional view taken along the line II-II in FIG. 1 (2),
The time elapses in the order of FIGS.

FIG. 3 is a side view showing another embodiment of the algae cultivation tool according to the present invention. FIG. 3 (1) shows the algae cultivation tool before covering it on a rock, and FIG. 3 (2) shows the algae cultivation tool. Shown after being mounted on the reef.

FIG. 4 is a vertical sectional view taken along line IV-IV in FIG. 3 (2),
The time elapses in the order of FIGS.

FIG. 5 is a graph showing the characteristics of the number of days-weight change for each type of degradable resin. FIG. 5 (A) shows a (polyhydroxybutyrate / hydroxyvariate) copolymer, and FIG.
(B) shows polylactide, FIG. 5 (C) shows starch-containing polyvinyl alcohol, and FIG. 5 (D) shows polycaprolactone.

[Explanation of symbols]

10,20 Algae growing tools S ₀ Algae spores S ₁ , S ₂ Algae germ S ₃ Grown algae

Claims (4)

(57) [Claims] 1. A formed on the mesh shape having a plurality of through holes and flexibility of a material comprising a biodegradable resin, the through hole is algae meal
The material is sized to prevent the entry of animals, and the material is water
Designed to lose 50% in weight within 200 days
Algae cultivation tools to be laid on rocky reefs where germs of useful algae are growing . (2) A large number of transparent materials are provided by a material containing a degradable resin.
Useful algae spores formed in a network with pores and flexibility
Or the seeds are pre-attached, and the material is 200
Designed to reduce weight by 50% within days, reefs, etc.
Algae growing tool to be covered on. 3. A large number of transparent materials are provided by a material containing a degradable resin.
It is formed in a mesh with holes and flexibility, and
Algae sized so that pores prevent the invasion of algae
Cover the breeding equipment on a rock reef where germs of useful algae are growing
And within 200 days after this dressing, the weight will be reduced by 50%
A method for creating a seaweed bed, wherein the material is designed in advance. 4. A algae growing device formed in a mesh shape having a plurality of through holes and flexibility of a material comprising a biodegradable resin,
After attaching the spores or germs of the useful algae, the algae cultivation tool is mounted on a reef or the like, and the weight of the algae grows within 5 days after the application.
A method for creating a seaweed bed , wherein the material is designed in advance so as to be reduced by 0% .