KR20040066080A - Seagrass transplanting method using shell - Google Patents

Abstract

PURPOSE: A method for transplanting seagrass using shell is provided to transplant the seagrass easily in a low cost by not using a diver and to enhance a transplanting ratio of the seagrass. CONSTITUTION: The method for implanting the seagrass(1) using the shell(2) comprises the steps of: perforating at least one hole having a diameter of 5 to 10 mm to a shell weighing 10 g or more; setting the hole as a boundary, locating a stalk part of the seagrass in the upper part of the shell and locating an underground part in a lower part of the shell to bind the seagrass to the shell; and throwing underwater. A main role of the shell(2) has a role to seat the seagrass underwater after being bound to the seagrass(1).

Description

Seagrass transplanting method using shell}

The present invention relates to a method of transplanting the scabies, and more particularly, to a method of transplanting the scabies using a shell to form a hole in the shell and to be simply introduced into the implantation site in the state where the basement part of the shell is flowered.

In general, Zostera marina L. Is a perennial seaweed belonging to the reptile plant leech family, also called jinju, pilpi, jinjiri or leech, and is an advanced flowering plant in coastal or estuary. It grows in the well-drained water and forms a colony, and this colony not only serves as a habitat for fish and a spawning ground, but also provides a habitat for fry, thereby enriching fish resources and increasing fishery productivity. In addition, because the leaf of the zalpi has a property of rapidly absorbing the nutrients of the water layer in the coastal and estuary area where the zalpi is colonized, it performs a function to prevent eutrophication and red tide. In addition, the ground diameter and roots of Zalpi are very useful marine plants that stabilize seabed soils and absorb and remove pollutants such as heavy metals in the lower layers.

On the other hand, in recent years, due to various developments and landfills, various pollutants are introduced into the coastal and estuary areas and are devastated, and aquatic plants such as zalpi are also degraded due to the pollutants. Due to the deterioration of aquatic plants, the environment in which various aquatic organisms, such as fish, can grow gradually worsens and repeats a vicious cycle of increasing environmental pollution such as red tide and eutrophication.

Therefore, in recent years, various attempts have been made for coastal environmental preservation, and one of them is to induce artificial reproduction of aquatic plants having excellent environmental purification ability such as zalpi.

There are many ways to induce artificial breeding of jalpi, and a typical method is to use a wire mesh. In other words, hanging the seedlings transplanted to the wire mesh, and throwing the wire mesh in the place of implantation to allow the growth of the blood in the water. However, in the case of using the wire mesh, there is a problem that divers go into the water and recover the wire mesh after a certain period of time, since the wire mesh is to be recovered when the root of the jalpy is fixed to the sea floor.

Another method is to make a bed with straw or synthetic string and plant the bed on the seabed. This method has a problem that divers have to go underwater with the bed plate and install it.

As described above, as a general method of implanting jaalpies, installation or after installation, divers have to carry out work, so there is a problem that the installation cost is high, and divers do not need a transplant method. As a method of this, a seedling seedling is flowered in a mud and a water drop in a stomach has been recently used. However, this method has the advantage that the divers do not need to be mobilized, but this method causes the mud to dissipate in the seawater before reaching the seabed so that it can float on the water because of the nature of the adult zalphate floating in the water before reaching the seabed. Since the effect was very low there was a problem.

Accordingly, an object of the present invention is to provide a method for easily implanting jaalpi at low cost by not using a diver.

In addition, another object of the present invention is to provide an eco-friendly method of transplanting jaalpi, which does not cause water pollution by improving the transplant rate of jaalpi and recycling natural resources.

Figure 1-The state of flowering seedlings in shells.

According to a feature of the present invention for achieving the above object, at least one hole having a diameter in the range of 5-10mm in a shell having a weight of 10g or more, and the stem portion of the scallop is located on the upper boundary of the hole The technical gist of the present invention is to provide a method of transplanting the jaalpi using the shell thrown in the water while the jaalpi is coupled to the shell so that the basement of the jaalpi is located at the bottom.

Hereinafter, with reference to a preferred embodiment of the present invention having the above characteristics will be described in more detail.

1 is a configuration for implantation of the jaalpi according to the present invention. As shown in the present invention, the shell is implanted using the shell.

In other words, the shell 2 is a natural resource, not only widely distributed around the life, but also in the fishing village, it is difficult to deal with the accumulated shell every year. This shell 2 does not cause any environmental pollution even if it is put in water. Therefore, after the input, after a certain time has elapsed, there is no need to recover again. The main role of the shell (2), after being combined with the zalphi 1 (1), is to allow it to be settled underwater. That is, jalpi (1) the object is floating on the water can not be fixed to the floor without artificial structures. Therefore, due to the weight of the shell (2) it is to be able to be seated on the bottom of the seabed. In addition, the shell 2 is located in the water to generate a number of advantages. That is, there is an advantage that can serve as the house of the cheerleaders, or can also be a habitat for various birds.

As described above, the method of implanting the jalpi (1) using the shell (2) will be described in detail.

First, the implantation of Zalpi (1) is generally introduced into an area of about 10 meters in water. Due to its weight within the area, it must be able to fall naturally and settle on the bottom of the water, and not be swept away by the water. Therefore, in order to perform this role, the shell 2 is preferably used to have a certain weight. It is preferable that the shell 2 has a weight of about 10 g or more.

In this weight, it is possible to settle without being swept away by the underwater waves of the implantation site of the jalpy (1). Shells having such a weight can be easily obtained around life, and there are advantages that various shells, such as oyster shells and various shellfish, which are currently difficult to treat, can be used.

In addition, as a method for implanting the jalpi into the shell (2) is a hole in the shell to combine the jalpi. At this time, the stem portion of the jalpi is located in the upper portion with the hole of the shell, and the underground diameter (3) having a root in the lower portion is located. The reason why the zalpi (1) is coupled as described above is to consider the breeding method of the zalpi.

That is, a new side branch is generated as the transplanted gnarled underground diameter (3) grows, and the generated side branches grow to form an adult, forming a colony, and the colony is gradually growing to form a new alpine field.

Therefore, if the stem portion of the shell 2 is enough to be inserted into the hole, the diameter of the shell hole is preferably about 5-10 mm. In order to form a shell hole of this degree can be simply formed using an awl, etc., it will also be possible to use a drill for fast operation.

Next, after combining the shells 91 with the shell 2 as described above, by simply dropping the place in the place to transplant the shells of the shells will be finished. In other words, when the jalpy combined with the shell is dropped into the water, the shell is submerged due to the weight of the shell. The shell part is in contact with the bottom of the sea bottom, at this time, the root portion of the jalpi is located under the hole of the shell so that it touches the bottom surface, the stem portion is upright. In the above state, due to the weight of the shell, the fixed position is not swept away by the waves in the water, and after a certain time in the above state, the root portion of the jalpi is completely rooted at the bottom, and the breeding of the underground diameter part Edo no obstacle will be able to breed well jalpi.

The inventors experimented as follows to demonstrate the utility of the present invention.

Experiment 1) Experimental Place: Vibration Only District A, Goseong Bay

Number of transplanted individuals: 15 each

Experiment 2) Experiment place: Geojeman

Number of Transplanted: 30

As shown in the experimental results, the reason why the result of Experiment 2 is worse than that of Experiment 1 is considered to be due to the waves. In other words, the location of Experiment 2 is an area with severe waves, and it is impossible to survive in the natural state as it is. In other words, because the waves are so severe that the roots do not adhere to the bottom, it is impossible to survive. However, the above-described conventional method is not only possible to transplant the zalpi in the region where such waves are severe, but also to survive the natural state of the zalpi, while the method according to the present invention in the region is also able to survive to some extent. This can be useful.

Experiment 3) In this experiment, compared with other methods in the same place, the results are shown. Vibration only B earth as the test place.

As shown in the above table, the method of transplanting the zalpi using a shell can be seen that the transplantation time is short and simple, the transplantation rate of the zalpi is high and the implantation cost is very low.

As described above, according to the present invention, there is no need for a separate diving process for transplanting the altar, so the method of transplanting the altar is simplified and the cost is low.

In addition, the use of natural shells, there are other effects that are environmentally friendly and resources can be recycled.

Claims (1)

Drill at least one hole with a diameter in the range of 5-10 mm in a shell weighing 10 g or more, and connect the zalpi to the shell so that the stem part of the zalpi is located at the upper part and the underground part of the zalpi is located at the lower part with the hole as a boundary. A method of transplanting jaalpi using a shell characterized in that the throwing in the water in the state.