JP4859556B2 - Member for movement control facility of dwarf animals and movement control facility using the same - Google Patents

Description

  The present invention relates to a member for constructing a movement control facility for a dwarf animal such as sea urchin or abalone, and a dwarf animal movement control facility constructed using the member.

  There is a known problem that seaweed communities are damaged by seafood pressure by sea animals such as sea urchins and abalone, resulting in a seawater burnt sea area. In order to regenerate the seaweed community in the seawater-burning sea area, it is surrounded by a facility (hereinafter referred to as “movement control facility”) that controls the movement of the dwarf animals so that the dwarf animals do not enter the section.

  For example, Patent Document 1 discloses a movement control apparatus for a dwarf animal in which a downward saddle-like air reservoir portion whose lower side is opened with respect to a barrier is provided horizontally. In addition, Patent Document 2 discloses a movement control apparatus for a dwarf animal formed by a rod net and a chain in which a net is pulled. By enclosing a certain section of the bottom of the water with these movement control devices, an effect of suppressing the movement of a dwarf animal between the inside and outside of the section can be obtained. In patent document 1, the habit that a dwarf animal does not penetrate | invade into the air filling space with air from underwater is utilized. In Patent Document 2, a material (generally a rigid and flexible linear material) that cannot obtain a gripping place necessary for the movement of a dwarf animal is used.

  A seaweed community can be recovered if encroachment of dwarf animals from outside the compartment into the compartment is completely prevented by surrounding the burnt sea area with a movement control facility constructed using such a movement control device.

In addition, such a movement control facility can also be a facility for improving the intake of sea urchins, abalone, etc. that feed on seaweed communities. In this case, mainly, sea urchins, abalone and the like that have been improved are prevented from escaping from the inside of the compartment to the outside of the compartment. In addition, since movement from outside the compartment to the inside of the compartment is also suppressed, it is possible to prevent the intrusion of sea urchins and abalone that have not been improved, and to efficiently catch only sea urchins and abalone that have been improved. it can.
Japanese Patent Publication No.3-332968 Japanese Patent No. 2805612 Coastal Engineering, Vol.48, pp.1261-1265 (2001)

However, the conventional techniques disclosed in Patent Documents 1 and 2 have the following problems.
In Patent Document 1, when the movement control facility is installed in the open ocean or the like, when the air reservoir is installed in a direction parallel to the wave, the air oscillates due to the wave, and the air leaks from the air reservoir, The effect of inhibiting the movement of dwarf animals can no longer be obtained. For this reason, the frequency | count of the maintenance which replenishes air with a diver etc. increases. Moreover, since the wall surface of the both ends of an air reservoir part is in contact with seawater, or is filled with seawater, the movement of a dwarf animal is possible, but the invasion countermeasure from this part is not considered.

  In addition, in order to prevent air leakage, it has been proposed to adjust the span length of the air reservoir, but the air is slightly reduced near the lower end of the air reservoir so that it is not filled with air (that is, water). A portion filled with (1) is formed, and the dwarf animal can move in this portion, and thus the movement control effect cannot be obtained.

  Further, in Patent Document 2, there is an advantage that a dwarf animal avoids a material such as a rod net, but coral spiders or the like may adhere to the rod net in a calm sea area and the dwarf animal may easily enter. Also, the four corners of the section to be protected are fixed with anchors, etc., but the chain that fixes the bar net on the side of the section moves by waves, so the seaweed that has settled in the section is scraped off, Furthermore, there is a possibility that the anchor may be removed due to a load, and the protected section cannot be maintained.

  Therefore, in view of the above problems, the present invention has a structure for suppressing the leakage of air from the air reservoir in the dwarf animal movement control facility and the member for constructing the same, and for suppressing the air leakage. It is an object of the present invention to provide means capable of improving the movement control effect without impairing the movement control effect of the dwarf animal. The purpose of this is to improve the facilities for recovery and improvement of firewood sea area, and to reduce maintenance work for those facilities.

In order to achieve the above object, the present invention provides the following configurations.
(1) A dwarf animal movement control facility member according to claim 1 is a member for constructing a dwarf animal movement control facility, wherein the barrier unit is erected in a vertical direction, and the barrier unit In a member for a movement control facility of a dwarf animal having a pocket portion projecting in a box shape from one side or both sides, and the pocket portion forming an air-filled space in which only the lower surface is opened,
One or a plurality of partition walls perpendicular to the span direction of the pocket portion are provided in the air filling space so as to partition the air filling space into a plurality of small spaces.
(2) The member for a movement control facility for a dwarf animal according to claim 2 further comprises a movement preventing tool for making it difficult for the dwarf animal to get over, wherein the movement preventing tool comprises It is attached so that it may contact | abut each of both surfaces of a partition wall, it may extend in the perpendicular direction, and the lower end of this movement prevention tool may protrude below the lower end of this partition wall.
(3) A member for a movement control facility for a dwarf animal according to claim 3, wherein the pocket portion has end walls at both ends in the span direction, and the end wall is the same as the partition wall. shape a connecting between the outer wall of the pocket portion and the barrier portion and the are parallel mounted a partition wall, further wherein the movement prevention member is mounted also for the said end wall and said end It is attached so that it may contact | abut with respect to a part wall, it extends in the perpendicular direction, and the lower end of this movement prevention tool protrudes below the lower end of this end part wall.
(4) A dwarf animal movement control facility according to claim 4, wherein the dwarf animal movement control facility according to any one of claims 1 to 3 is arranged on a boundary of the section so as to isolate a predetermined section of the seabed. It is constructed by connecting facility members continuously.

(A) A member for a movement control facility for a dwarf animal according to claim 1 is a member for constructing a movement control facility for a dwarf animal. And a pocket portion extending in the span direction and projecting in a box shape from one or both sides of the barrier portion. The pocket portion forms an air-filling space, and only the lower surface thereof is opened. Furthermore, one or more partition walls perpendicular to the span direction of the pocket portion are provided to partition the air-filled space into a plurality of small spaces.

  According to such a configuration, the dwarf animal avoids intrusion into the air-filled space, so that the dwarf animal can be prevented from moving between the barrier portion and the pocket portion outer wall.

  In addition, since the partition wall is provided inside the pocket portion, the air-filled space is vertically divided and becomes smaller, so that the large fluctuation of air can be suppressed as compared with the case where there is no partition wall. As a result, air leakage can be prevented. Thereby, the movement control effect of the dwarf animal by an air filling space is not impaired. In addition, the burden of maintenance work for air filling is reduced.

(B) In addition to the structure of claim 1, the member for a movement control facility for a dwarf animal according to claim 2 further includes a movement preventer for making it difficult for the dwarf animal to get over. The movement preventing tool is attached so as to abut against each of both surfaces of the partition wall and extend in the vertical direction, and the lower end of the movement preventing tool is positioned below the lower end of the partition wall.

  When a partition wall is provided in the air-filled space, a portion near the lower end of the partition wall is submerged below the water surface, and there is a possibility that a dwarf animal moves through this portion. By attaching the movement preventing tool to the partition wall as described above, it becomes difficult for the dwarf animals to get over this, and the movement can be suppressed. Incidentally, as a material for making it difficult to get over by a dwarf animal, for example, a material that has a fluffy shape and that can be bent even if the dwarf animal grasps it with a tube leg is known. The movement preventing tool can suppress the movement of the dwarf animal by a synergistic effect with the air filled space of the pocket portion.

  In addition, since the movement preventing device is attached to the partition wall inside the pocket portion, the movement preventing device is less likely to receive wave force and is less likely to be damaged by waves. Furthermore, by attaching the movement preventing tool to the partition wall inside the pocket portion, it is possible to obtain an effect that there is little adhesion of animals and / or plants because it does not receive direct sunlight. In addition, even when an attachment is attached to the movement preventing tool, only the movement preventing tool can be removed and replaced, so that maintenance is easy.

(C) In addition to the configuration of the second aspect, the member for a movement control facility for a dwarf animal according to a third aspect attaches a movement prevention tool to an end wall in the span direction of the pocket portion. Similarly to the partition wall, the end wall of the pocket portion is a wall connecting the barrier portion and the outer wall of the pocket portion. Therefore, the movement of the dwarf animal can be suppressed by attaching the movement preventing tool.

(D) A movement control facility for a dwarf animal according to claim 4 is constructed by connecting the members for a movement control facility for a dwarf animal according to any one of claims 1 to 3, Provided on the boundary of this compartment to isolate the compartment. For example, this section is a sea-breaming sea area that has been damaged by the pressure of fertile animals. By enclosing or partitioning the periphery of the seared sea area with the movement control facility according to the present invention, it is possible to prevent the invasion of dwarf animals and to allow the seaweed to thrive again. On the contrary, by surrounding or partitioning by this movement control facility, it is possible to prevent the dwarf animals living inside from being scattered to the outside.

   Further, for example, if seaweed is fed by sea urchins before the zoospores are deposited by using the sea urchin pressure, the zoospores are easily deposited. Therefore, before the necessary seaweed zoospores and spores are released, if the target control area is surrounded or partitioned by the movement control facility according to the present invention and the seaweed is controlled by sea urchins in the area, the seaweed is selectively selected. Can thrive.

  In addition, for example, after forming a seaweed community by surrounding or partitioning the target section with the mobility control facility according to the present invention, fertile marine products such as sea urchins and abalone are released into the section to improve growth and filling. By doing so, it becomes possible to catch sea urchins, abalone, etc. that were not subject to fishing, leading to the activation of the fishery.

  In addition, for example, a movement control facility according to the present invention is constructed in a seawater-burning sea area due to sea urchin pressure, sea urchins that cause food pressure are collected from the periphery of the movement control facility, released into the movement control facility, and released to the outside. Stop dissipation. As a result, the number of sea urchins decreases around the movement control facility, and a seaweed community can be formed. In this way, it can be used freely for measures against burning in the inside and outside of the movement control facility.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a partially cutaway external perspective view showing a first embodiment of a movement control facility for a dwarf animal according to the present invention. The movement control facility 1 is a frame (arbitrary shape such as a circle, a rectangle, and a polygon as viewed from above) constructed by connecting a plurality of members 10 for movement control facilities. It stands on the boundary of the section 31 and surrounds the entire periphery of the target section 31. The application form shown in FIG. 1 prevents invasion of a dwarf animal 50 such as a sea urchin from the outside in order to protect the seaweed community 40 in the target section 31.

The outline will be described with reference to FIG. 1. The movement control facility 1 is constructed by arranging an appropriate foundation rubble 2 on the boundary of the target section 31 of the seabed 30. In addition, in FIG. 1, the junction part (substantially junction part of the member which forms each pocket part 12) of each member 10 for individual movement control facilities is not shown dare, and the whole movement control facility 1 is shown. Is shown as one continuous frame.
The member 10 for a movement control facility includes a wall-shaped barrier portion 11 erected in the vertical direction on the foundation rubble 2 and a pocket portion 12 projecting in a box shape from one side of the barrier portion 11. In the application form of FIG. 1, the pocket portion 12 is provided only on the outer surface of the barrier portion 11 in order to prevent the dwarf animal 50 from entering the inside from the outside.

In this specification, a portion corresponding to the span length of one pocket portion 12 is regarded as one member 10 for a movement control facility. This is because the barrier unit 11 may be constructed integrally with the entire movement control facility 1 due to its construction. For example, when the barrier portion 11 is made of underwater concrete, it is constructed by placing underwater concrete in the formwork of the entire movement control facility 1.
According to the above definition, for example, as shown in FIG. 1, each side of the movement control facility 1 may be configured by one movement control facility member 10 and may be joined at four corners. Moreover, each side of the movement control facility 1 may be configured by joining a plurality of members 10 for movement control facilities in a straight line. The shape and size of the target section 31 are variously set depending on the application, and the size of one member 10 for the movement control facility can be designed in various ways.

  FIG. 2 is an enlarged perspective view including a cross section showing a part of the movement control facility 1 shown in FIG. 1 (that is, a part of the member 10 for movement control facility). The base rubble 2 is disposed on the seabed 30 at the boundary of the target section, and the movement control facility member 10 constituting the movement control facility is installed. The movement control facility member 10 has a wall-shaped barrier portion 11 standing in a vertical direction, and a box-shaped pocket portion 12 protruding from the vicinity of the upper end of the outer surface thereof. An air-filled space 12 c that is open only at the bottom is formed inside the pocket portion 12. The air-filled space 12c is partitioned into a small space by a plurality of partition walls 13, and a movement prevention tool 14 that makes it difficult to get over a dwarf animal to be controlled for movement is attached to each partition wall 13. Hereinafter, each component will be described in detail.

  The barrier portion 11 may have a gap penetrating the wall, but needs to be a gap to which a dwarf animal that is a movement control target cannot pass. As long as it is a block, it is preferably made of underwater concrete. Underwater concrete can be produced without gaps against the unevenness of the seabed ground, and the bottom friction coefficient is larger than that of installing a block on the foundation rubble 2. It is also economical. The height and thickness of the barrier 11 are appropriately set according to the conditions of the installation location (such as assumed wave conditions). In addition, there is no gap between the lower end of the barrier portion 11 and the seabed 30 including the basic rubble 2 so that the target dwarf animal can pass through.

  In this embodiment, the pocket portion 12 is provided only on the outer surface of the barrier portion 11. The pocket portion 12 has a box-like appearance, and is formed of an upper wall 12a projecting horizontally from the upper end or the vicinity of the upper end of the barrier portion 11 and an outer wall 12b that hangs vertically downward from the leading edge of the upper wall 12a. . That is, the upper surface and side surfaces of the pocket portion 12 are closed and only the lower surface is opened. In the illustrated example, the upper wall 12a and the outer wall 12b are rectangular with an L-shaped cross section. However, the upper wall 12a and the outer wall 12b are not limited to this cross-sectional shape, and the upper wall 12a The corners of the outer wall 12b may be rounded.

  The interior of the pocket portion 12 forms an air-filled space 12c, which is filled with an appropriate amount of air 16 in advance, and is replenished as necessary when it leaks excessively. This air-filled space 12c utilizes a habit that a dwarf animal that is a movement control target does not invade itself from the water into the air, and the dwarf animal between the barrier portion 11 and the outer wall 12b of the pocket portion 12 is used. It is provided to make it difficult to move. Usually, surrounding water or seawater enters the lower portion of the air-filled space 12c, and the water surface 33 extends between the barrier portion 11 and the outer wall 12b. The water surface 33 may swing up and down, front and back, and right and left by the movement (waves) of the surrounding water or seawater.

  The lower end of the outer wall 12b of the pocket portion 12 is set to be positioned above the lower end of the barrier portion 11, but the length of the outer wall 12b (that is, the height of the pocket portion 12) is appropriately set according to the conditions of the installation location. Is done. The overhang width of the pocket portion 12 from the barrier portion 11 and the length of one pocket portion 12 in the span direction are also set as appropriate.

  When the height of the pocket portion 12 is set in accordance with the wave conditions at the installation location, not only the effect of preventing leakage of the air 16 but also the effect of filling the air 16 from the outside can be expected. This reduces the need for diver maintenance.

  The pocket portion 12 can be made of, for example, concrete, FRP, or an iron plate. In order to prevent the air 16 from leaking out due to the rocking of the water surface 33 due to waves, a material having a certain degree of elasticity with respect to external force is more advantageous so as not to be damaged by impact. In addition, an iron plate is suitable in consideration of economy and workability. When determining the thickness of the iron plate, it is determined in consideration of the corrosion thickness. In addition, since the air filling space 12c is formed inside the pocket portion 12, the progress speed of corrosion is high, and therefore the splash band design procedure is followed.

   In addition, when the barrier part 11 is made of underwater concrete and is used as it is without removing the mold after the placement, the fixing strength of the pocket 12 can be secured by connecting the mold and the pocket 12.

  Furthermore, in the present invention, a partition wall 13 perpendicular to the span direction of the pocket portion 12 is provided in order to partition the air filling space 12c inside the pocket portion 12 into a plurality of small spaces. By providing the partition wall 13, the swing of the water surface 33 due to the waves is suppressed, and air leakage is reduced. The three sides of the upper end and both side ends of the partition wall 13 are joined to the upper wall 12a, the barrier portion 11 and the outer wall 12b, and only the lower end is not joined. The lower end of the partition wall 13 is set at substantially the same position as the lower end of the outer wall 12 b of the pocket portion 12.

  One or a plurality of partition walls 13 are arranged at appropriate intervals between both ends of one pocket portion 12 in the span direction. The space | interval is suitably set according to the conditions of an installation location. The partition wall 13 may be attached at the same time when the pocket portion 12 is produced on land, or may be formed of the same material as the pocket portion 12. For example, in the case of an iron plate, the upper end and one side end of the partition wall 13 are welded to the upper wall 12a and the outer wall 12b of the pocket portion 12, respectively.

  By the way, since the lower part of the partition wall 13 is located below the water surface 33, the dwarf animal which is a movement control object may move along the partition wall 13 between the barrier part 11 and the outer wall 12b of the pocket part 12. There is. Therefore, in the present invention, the movement preventing tool 14 for the dwarf animal is attached to the partition wall 13 so that it is difficult for the dwarf animal to get over it.

  FIG. 3 is a cross-sectional view of the movement control facility member 10 shown in FIGS. 1 and 2. FIG. 4 is a partially enlarged view of FIG. 3 and shows a state in which the movement preventing tool 14 prevents movement of the dwarf animal. 5A and 5B show an example of attachment of the movement preventing tool 14, and FIG. 6 shows an example of a method of attaching the movement prevention tool 14.

  As shown in FIGS. 3 and 4, the movement preventing tool 14 abuts on both surfaces of the partition wall 13 and extends in the vertical direction, and its upper end 14 d is exposed to the air filling space 12 c above the water surface 33. is doing. The exposed portion of the movement preventing tool 14 to the air-filled space 12c has a sufficient length so that the upper end 14d of the movement preventing tool 14 is not submerged even when the water surface 33 swings to the maximum. Furthermore, the lower end 14 a of the movement preventing tool 14 is provided so as to be positioned below the lower end 13 a of the partition wall 13. The protrusion length d of the lower end 14a of the movement preventing tool 14 shown in FIG. 4 from the lower end 13a of the partition wall 13 is appropriately set according to the conditions of the target dwarf animal.

  Here, “a material that is difficult for a dwarf animal to get over” means a material that does not provide a gripping point necessary for the dwarf animal to move, and is generally not rigid and flexible. It is a linear material. The degree of flexibility and the shape, thickness, length, and density of the wire are set depending on the ecology of the dwarf animals. For example, a sea urchin adsorbs to a surrounding object with a tube foot and moves so as to attract itself with the fulcrum as a fulcrum, but if this fulcrum is not firm, a gripping place cannot be obtained and it cannot move. Therefore, as shown in FIG. 4, when a dwarf animal such as a sea urchin climbs from the lower end of the barrier portion 11 and moves along the partition wall 13 toward the outer wall 12 b of the pocket portion 12, it crosses the moving path. Thus, since the movement preventing tool 14 is provided, the dwarf animal falls without being able to get over the movement preventing tool 14 or stops getting over. As a result, the dwarf animal cannot reach the outer wall 12b of the pocket portion 12.

   The shape of the movement preventing tool 14 is preferably a cylindrical brush with hairs extending radially from the central axis, or a bar net by pulling a stab net. Examples of the cylindrical brush include a polybrush for artificial laying reefs and a shell brush made of a tree bark. A plastic stab net is also suitable. These are linear materials that are not rigid and have a fluffy texture. For example, a polybrush for artificial laying reefs has a brush length of about 18 cm, and the hardness of the brush should be easily bent when the sea urchin sucks the tube leg.

  In the embodiment of FIG. 5A (the left figure is a view seen from one side 13b of the partition wall 13 and the right figure is a view seen from one side end of the partition wall 13) The movement prevention tool 14 made of a cylindrical brush is bent in a U shape so as to sandwich the partition wall 13. Since the lower end 14a of the movement preventing tool 14 is in contact with the bent portion, the brush bristles spread in a semicircular shape and cover a part of the lower end 13a of the partition wall 13. One columnar portion 14b of the movement preventing tool 14 abuts on one surface 13b of the partition wall 13 and extends upward, and the other columnar portion 14c abuts on the other surface 13c of the partition wall 13 and extends upward. Exist.

  In the embodiment of FIG. 5B (the left figure is a view seen from one side 13b of the partition wall 13 and the right figure is a view seen from one side end of the partition wall 13) Are attached so as to sandwich the partition wall 13 in parallel with each other. The lower ends 14 a 1 and 14 a 2 of the brushes protrude downward from the lower end 13 a of the partition wall 13.

  5A and 5B, the movement preventing tool 14 is provided only at one place in the width direction of the partition wall 13, but may be provided at a plurality of places as necessary.

  As shown in FIG. 6, a hole 13 d is formed in advance in the partition wall 13 so that the movement preventing tool 14 is attached to both surfaces of the partition wall 13. As the holes 13d, for example, a plurality of pairs of holes arranged in the horizontal direction are provided at appropriate intervals in the vertical direction. Then, an appropriate string-like member (made of iron, plastic, etc.) 15 is passed through a pair of holes, passed outside the movement preventing tool 14 on each surface of the partition wall 13, and the movement preventing tool 14 is connected to each of the partition walls 13. The string-like member 15 is fixed in a ring shape using an underwater adhesive or the like or an appropriate fixing tool while being in contact with the surface. The position and the number of the string-like members 15 are appropriately set so that the movement preventing tool 14 does not fall off. In addition, it is preferable that the string-like member 15 is also made of a material that can be easily attached and detached such as a repeat tie so that the movement preventing tool 14 can be exchanged.

  In addition, since the movement prevention tool 14 is attached to the partition wall 13 inside a pocket part, it is hard to receive an external wave force. Therefore, it can be firmly fixed even by the attaching method as shown in FIG.

  FIG. 7 is a partially cutaway external perspective view showing a second embodiment of a dwarf animal movement control facility according to the present invention. In addition, the same code | symbol is used about the same component as FIG. The movement control facility 1A shown in FIG. 7 is a frame constructed by connecting a plurality of members 10A for movement control facilities in series, and stands on the boundary of the target section 31 of the seabed 30. 31 is enclosed. The application form of FIG. 7 improves, for example, the seaweed community 40 in the target section 31 to feed the sea animals such as sea urchins and prevent their escape to the outside, This prevents the small number of dwarf animals 50 from entering. In this way, it is possible to catch only the dwarf animals 51 that have been improved.

  In order to prevent the movement of the target section 31 from the inside to the outside and from the outside to the inside, the movement control facility member 10A in FIG. 7 has pocket portions on both the outer surface and the inner surface of the barrier portion 11. 12A and 12B are provided.

  FIG. 8 is a cross-sectional view of a movement control facility member 10A that constitutes the movement control facility 1A shown in FIG. The pocket portions 12A and 12B have a symmetrical structure around the barrier portion 11 in the cross-sectional view of FIG. 8, and each structure is a pocket portion in the first embodiment shown in FIGS. 12 is the same.

  Therefore, when a dwarf animal 51 such as a sea urchin inside the target section 31 climbs from the lower end of the barrier portion 11 and moves toward the outer wall of the pocket portion 12B through the partition wall 13B, it is provided in the middle. Since it cannot get over the movement prevention tool 14B, it falls or stops getting over. Further, when the dwarf animal 50 outside the target section 31 climbs from the lower end of the barrier portion 11 and moves toward the outer wall of the pocket portion 12A through the partition wall 13A, a movement preventing device provided in the middle Because it cannot get over 14A, it falls or stops getting over.

Although not shown, the pocket portions 12, 12A, 12B in the members 10 and 10A for the movement control facility of the present invention are provided with end walls at both ends in the span direction. This end wall is basically the same shape as the partition walls 13, 13 </ b> A, and 13 </ b> B described above, and is attached in parallel to the partition wall. For example, when the movement control facilities 1 and 1A are constructed, the end walls of the adjacent pocket portions are opposed to each other in a straight portion and joined by appropriate means. Alternatively, at the corners of the movement control facilities 1 and 1A, the end portions of the adjacent pocket portions are joined at right angles (at an arbitrary angle as necessary). Therefore, the end wall of such a pocket portion also connects between the barrier portion 11 and the outer wall of the pocket portion, and when the lower portion is submerged, it is similar to the partition walls 13, 13A, 13B. It can be a moving route for dwarf animals.
When the end wall of the pocket portion can be a path of movement for a dwarf animal, the movement preventers 14, 14A and 14B are attached to the end wall similarly to the partition wall, thereby suppressing the movement of the dwarf animal. To do. That is, the movement prevention tool is attached to the end wall so as to contact the surface of the end wall and extend in the vertical direction, and the lower end of the movement prevention tool is positioned below the lower end of the end wall.

  Here, since the confirmation experiment for verifying the effectiveness of the movement control function of the dwarf animal by the movement prevention tool 14, 14A, 14B used in the above-described embodiment of the present invention was performed, together with the procedure and the like below. Results are shown.

  In the experiment, an experimental water tank having a length of 70 cm, a width of 40 cm, and a height of 40 cm was installed in a large water tank having a water depth of 60 cm. The experimental water tank was divided into a front chamber and a rear chamber by a partition plate, the width of the front chamber was 30 cm, and the rear chamber was 10 cm. An opening having a length of 22 cm and a width of 11 cm was provided at the center of the upper part of the partition plate, and was placed on a pedestal having a height of 20 cm so that the upper surface of the experimental water tank was the water surface. In the front room, 30 individual sea urchins were placed, and in the back room, kombu was placed as a sea urchin attractant. A test substrate (material for preventing movement) was attached around the opening of the partition plate, and the behavior of the sea urchin was recorded for 3 days using a video camera and a time-lapse video recorder. The experimental water temperature was 12 ° C., and the shell diameter of the sea urchin used in the experiment was 38.8 mm to 65.0 mm (average 48.5 mm).

  As a test substrate, a brush made of Schuro (bark) and having a diameter of 170 mm, a brush made of polyester and having a diameter of 180 mm, and a stabbed net were used.

  The number of sea urchins trying to invade in these 3 days is about 80 to 100 times, but the number of invading sea urchins is 0 with a shell brush, 1 with a polyester brush, and 1 with a gill net. It was.

  Although it is speculated that over the longer period the number of surviving this test substrate will increase, this is not a problem considering the time and period when sea urchin invasion is a problem. This can be roughly divided into the following two periods.

  One is that sea urchin pressure affects the growth of kombu. The main cause of firewood burning is due to sea urchin pressure in northern Japan. Sea urchins eat up when the kombu zoospores deposit and the juveniles germinate. However, in the dressing improvement system using the movement control facility of the present invention, the sea area is surrounded by the movement control facility, and sea urchins existing in the sea area are removed. This period is approximately from November to mid-December, and the kombu zoospores are released when the water temperature drops below 10 ° C. At this water temperature, sea urchin activity is low, so there is almost no number of sea urchins overcoming the facility. It has no effect.

Another factor of concern is the intrusion when making improvements. The period required for improving sea urchins is about 2 months. When the number of sea urchins invading during the two months is calculated from the experimental results, the average number of invading individuals over three days is 0.5, so that it becomes 10 in two months. Sea urchins can only enter the place where the partition wall is installed. When the facility size is 50 m × 50 m, the partition wall is installed at a pitch of 2.5 m, and therefore 80 places are targeted in the vicinity. In this case, since the pocket portions are on both the inner and outer sides, 10 individuals × 80 locations / ² / (2,500 m ²⁾ = 0.16 individuals / m ² . Accordingly, only about 1 or 2 individuals intrude at 10 m ² within the improvement period of the introduction, and this system has no problem. This means that when the kombu grows at 4 kg / m ^{2, the} number of sea urchin individuals to improve their entry is 20 individuals / m ² . Therefore, even if an intrusion or escape of about 0.16 individuals / m ² occurs here, there is no problem as a sea urchin improvement system.

  In addition, sea urchins have a habit of preferring wall surfaces, so they cannot be completely blocked, and even if some of them intrude into the target compartment, they are growing on the wall surface inside the movement control facility. And when feeding, it tends to target seaweeds such as the kombu around this wall portion. Therefore, sea urchins that have entered the interior in some way do not reach the center of the target section, but live in a biased area in the periphery. In other words, the movement control facility has only a slight narrowing of the area to be caught, and its function is not a problem.

  As a measure against air leakage, a laboratory experiment was conducted using a two-dimensional water tank to confirm the effect. Although the required height of the pocket and the interval between the partition walls differ depending on the specifications of the wave, an example will be shown. The cycle was 6.8 s, 9.8 s, and 12.8 s, and the wave height was 4 m. The seabed slope is 1/30 and the working time is about 4 hours. When the experimental scale was 1/25 and the water depth was 3.0 to 5.0 m, it was found that the height of the pocket portion was required to be 90 cm in the direction perpendicular to the waves in order to leave air. Further, it was found that in the direction parallel to the wave, the height of the pocket portion needs to be narrowed to 90 cm and the interval between the partition walls should be narrowed to 2.5 m or less.

1 is a partially cutaway external perspective view showing a first embodiment of a movement control facility for a dwarf animal according to the present invention. FIG. 2 is an enlarged perspective view including a cross section showing a part of the movement control facility shown in FIG. 1. It is sectional drawing of the member for movement control facilities shown in FIG. FIG. 4 is a partially enlarged view of FIG. 3. (A), (B) is a figure which shows the example of attachment of a movement prevention tool, respectively. It is a figure which shows an example of the attachment method of a movement prevention tool. It is a partially cutaway external perspective view showing a second embodiment of a movement control facility for a dwarf animal according to the present invention. It is sectional drawing of the member for movement control facilities which comprises the movement control facility shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1, 1A Movement control facility 2 Foundation rubble 10, 10A Member for movement control facility 11 Barrier part 12 Pocket part 13 Partition wall 14 Movement prevention tool 30 Sea bottom (water bottom)
31 Target area of the sea floor (water bottom) 33 Water surface in the pocket 35 Sea surface of the open ocean (water surface)
40 Seaweed community 50, 51 Dwarf animals

Claims (4)

A member for constructing a movement control facility for a dwarf animal, comprising a barrier portion erected in a vertical direction, and a pocket portion projecting in a box shape from one or both sides of the barrier portion, the pocket In a member for a movement control facility of a dwarf animal that forms an air-filled space in which only the lower surface is opened,
One or more partition walls perpendicular to the span direction of the pocket portion are provided in the air filling space to partition the air filling space into a plurality of small spaces. Materials.   A movement preventing tool for making it difficult for the animal to get over is provided, and the movement preventing tool is in contact with each of both surfaces of the partition wall and extends in the vertical direction, and the lower end of the movement preventing tool 2. The member for a movement control facility for a dwarf animal according to claim 1, wherein the member is attached so as to be positioned below a lower end of the partition wall. The pocket portion has end walls at both ends in the span direction, and the end wall has the same shape as the partition wall, connects between the barrier portion and the outer wall of the pocket portion, and the partition wall mounted in parallel, further the lower end of the movement prevention member is mounted also for the said end wall and abuts against said end wall vertically extending vital said movement prevention member is the end portion The member for a movement control facility for a dwarf animal according to claim 2, wherein the member is attached so as to protrude downward from a lower end of the wall.   A cage constructed by connecting a member for a movement control facility for a dwarf animal according to any one of claims 1 to 3 on a boundary of the compartment in order to isolate a predetermined compartment on the seabed. Sex animal movement control facility.

Images