JP2014000002A - Growing reef for spiny lobsters - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a growing reef for spiny lobsters capable of growing spiny lobsters from young to adult, improving the survival rate.SOLUTION: A growing reef 1 for spiny lobsters includes: a young lobster reef part 3 having a plurality of recessions of different sizes for postlarvae and young lobsters formed on the surface thereof; and an adult lobster reef part 4 arranged around the young lobster reef part 3 and on which a plurality of pipes 13 and 14 are placed. By this configuration, a young lobster grown in the young lobster reef part 3 is then grown in the adult lobster reef part 4 when fully grown, allowing spiny lobsters to grow in a single growing reef 1 for spiny lobsters from young to adult and thereby improving the survival rate.

Description

  The present invention relates to a breeding reef suitable for growing lobster.

  As a conventional reef for lobster shrimp, natural stones are introduced and stacked, and they are intended to grow in the gaps between the natural stones. Patent Documents 1 and 2 disclose that disk-shaped plates are stacked in a state where there is a gap above and below, and blocks having slits are stacked above and below.

  However, any of the conventional lobster breeding reefs have been tried or provided with little knowledge of the larval ecology of the lobster larvae. It was intended.

  Here, it has been known that lobsters grow in the order of phyllosoma, post-rava (also called Puerlus), juvenile shrimp, and adult shrimp after hatching from eggs. In other words, after hatching from eggs, the lobster first grew as a zooplankton in the form of a thin, transparent, leaf-shaped phyllosoma, moving around the open ocean for about a year, and became about 30 mm in size. At that time, it transforms into a transparent post-raba, also called glass shrimp. And in the post-rava state, it swims toward the coast without eating, and when it reaches the coast, it grabs on the algae and descends to the bottom. Then, they become juvenile shrimp and grow into adult shrimp by eating small animals in the algae ground. In the state of juvenile shrimp, each one lives in a recess or the like, but when it becomes adult shrimp, it has a habit of gathering in large numbers, and juvenile shrimp and adult shrimp have different habits.

  Therefore, in order to cultivate juvenile shrimp well, it is important how to make the post-raba settle well and provide an environment corresponding to the habit of juvenile shrimp. A breeding reef corresponding to such a behavior is disclosed in Patent Document 3. In this breeding reef (referred to as a breeding reef in Patent Document 3), a main body part having one or more side walls extending in an overhang shape upward is placed on the base part, and is placed on the surface of the side walls. Post-rava (Puerurus) and juvenile shrimp are each drilled (formed) with a plurality of recesses of different sizes expressed in diameter and depth to change the size according to their growth. In addition, the thing made from concrete is disclosed as a main-body part and a base part.

  According to this breeding reef, post-rava (puerurus) and juvenile shrimp are equipped with a plurality of recesses (holes) that can fit into the body according to their growth, and the algae (seaweeds) that are feeding grounds are recessed. The lobster can grow and grow safely from the post-raba stage because both the hiding place and the feeding place are satisfied. That is, the survival rate of post-rava and juvenile shrimp can be increased.

JP 59-146529 A JP-A-4-316436 JP 2008-178356 A

  However, by using the breeding reef disclosed in Patent Document 3, the survival rate of post-rava and juvenile shrimp can be increased. It is more desirable to realize a breeding reef for lobster that can be grown up to a higher survival rate. That is, it is an important issue how to construct the breeding reef to meet the above demand.

  This invention solves the said subject, and it aims at providing the breeding reef for lobsters which can raise a lobster from a small time to become large and can raise a survival rate.

  In order to solve the above-mentioned problems, the lobster shrimp reef of the present invention has a juvenile shrimp reef part in which a plurality of recesses with different sizes for post-rava and juvenile shrimp are formed on the surface, and around the juvenile shrimp reef part. And an adult shrimp reef part in which a plurality of pipes are arranged.

  By this structure, the adult shrimp reef part with a plurality of pipes is arranged around the juvenile shrimp reef part. Is cultivated in the shrimp reef area. Thus, the same lobster breeding reef can be grown from a small lobster to a large lobster to increase the survival rate. In other words, post-rava and juvenile shrimp can be grown safely for a long time in the juvenile shrimp reef part of the lobster reef, and also grow in the same shrimp reef part of the same reef until it grows even after reaching the shrimp. Therefore, the survival rate of post-rava, juvenile shrimp and adult shrimp can be increased, and post-rava or juvenile shrimp to adult shrimp can be efficiently cultivated.

  Here, it is preferable to use a cast iron pipe as the pipe. As described above, when a cast iron pipe is used as the pipe, iron ions, which are substrates suitable for algae growth, gradually dissolve from the cast iron pipe into the algae ground such as in the sea, so that algae growth is promoted. As a result, more puerus can be satisfactorily grounded, and the environment of the seaweed fountain, which is a feeding ground preferred by juvenile shrimp, can be created in the adult shrimp reef area around the juvenile shrimp reef part. In addition, since the cast iron pipe is manufactured by casting, the outer surface has a large and small uneven shape, so that the surface area is large and the algae spores are easily caught, and the algae can easily grow. At the same time, it is possible to minimize detachment from the tube and to grow well.

  Shrimp reefs are placed side by side on a substantially horizontal floor, with the tubes in a parallel or inclined posture and with the tubes close to or in contact with each other laterally. It is characterized by that. With this configuration, various sizes of space can be provided, so that the adult shrimp can grow in the gap between the tube and the floor board that matches its size.

  Further, the adult shrimp reef portion may be composed of a plurality of pipes having different diameters. This configuration also allows the adult shrimp to enter a tube of its own size, creating a complex interstitial space preferred by the adult shrimp.

  In addition, the juvenile shrimp reef part may be formed by disposing a hard material such as concrete on a short pipe having a large diameter. In this case, the juvenile shrimp reef part can be configured relatively easily. In addition, the shrimp reef part is embedded in a support base arranged substantially horizontally, the lower part of the short pipe is embedded with a hard material such as concrete of the support base, and the central part and the upper part of the short pipe are from the support base. You may arrange | position in the state to stand. According to this configuration, the juvenile shrimp reef portion can be disposed in a stable state, thereby preventing rotation and movement even when subjected to force in the flow direction of seawater. it can.

  According to the present invention, as a reef for lobster, a juvenile shrimp reef portion having a plurality of concave portions having different sizes for post-rava and juvenile shrimp on the surface, and disposed around the juvenile shrimp reef portion. By providing a shrimp reef part with a plurality of pipes, lobster grows well from a small size to a large size, that is, from post-rava and juvenile shrimp to adult shrimp with improved survival rate be able to.

  In addition, by using a cast iron pipe as the tube, iron ions, which are suitable substrates for algae growth, are gradually dissolved into the algae basin, and the growth of algae can be promoted. In addition to being able to bottom, it is possible to create an environment of the seaweed fountain, which is a preferred feeding ground for juvenile shrimp, in the adult shrimp reef area around the juvenile shrimp reef part. In addition, since the cast iron pipe is manufactured by casting, and the inner and outer surfaces of the cast iron pipe are formed with irregularities on the surface, the surface area is increased and the algae spores are easily attached, so that the algae can grow well.

  Also, as the adult shrimp reef part, the pipes are arranged in a parallel posture or an inclined posture on a floor board arranged substantially horizontally, and the pipes are arranged side by side or close to each other in the lateral direction. By arrange | positioning, a pipe | tube can be arrange | positioned in the state which opened the fixed distance between floor boards, and the state from which the clearance gap between a pipe | tube and floor boards changes gradually. Therefore, various sizes of space can be provided, and the grown shrimp can grow in the gap between the pipe and the floor according to its size, further improving the survival rate of lobster and growing better You can do it. In addition, even if the shrimp reef part is composed of a plurality of pipes with different diameters, the shrimp can enter into a pipe that suits its size, and the complex gap space preferred by the shrimp Can produce.

  In addition, the juvenile shrimp reef part can be formed relatively easily by arranging hard materials such as concrete on a large-diameter short pipe, thereby reducing the manufacturing cost. It becomes possible to suppress. In addition, the shrimp reef part is embedded in a support base arranged substantially horizontally, the lower part of the short pipe is embedded with a hard material such as concrete of the support base, and the central part and upper part of the short pipe are erected from the support base By arrange | positioning in the state which carries out, the shrimp reef part can be arrange | positioned in the stable state, and reliability improves.

(A) And (b) is the top view and front view of the growth reef for lobsters concerning an embodiment of the invention. It is a perspective view of the breeding reef. (A) And (b) is the front view and side sectional drawing of the juvenile shrimp reef part of the breeding reef. (A) And (b) is the front view and right side view of the breeding reef, and these hatching parts show the area | region where adult shrimp can grow. (A) And (b) is the top view and front view of the breeding reef, the hatching part in (a) shows the area | region of a adult shrimp reef part, (b) shows the state in which the algae is growing. It is a perspective view of the modification of the breeding reef.

Hereinafter, a lobster breeding reef according to an embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1 to FIG. 5, a lobster breeding reef 1 according to an embodiment of the present invention has a post-rubber attached to a floor board (base) 2 that is flat and arranged in a substantially horizontal posture. The structure is provided with a juvenile shrimp reef part 3 for allowing the young shrimp to grow or to grow juvenile shrimp, and an adult shrimp reef part 4 for growing the adult shrimp (parent shrimp). The lobster breeding reef 1 is installed on a shallow water having a depth of 20 m or less, for example, on the seabed having a depth of about 5 to 8 m. 4 (a) and 4 (b), the hatched portion indicates a region where adult shrimp can grow, the hatched portion in FIG. 5 (a) indicates the region of the adult shrimp reef portion 4, and FIG. 5 (b). Indicates a state where algae is growing. Moreover, as shown in FIG. 6, you may attach a leg part to the lower surface of the floor base (base | substrate) 2 according to the topography of the seabed of an installation place.

  The floor board (base) 2 is made of, for example, a square reinforced concrete of about 3.5 m × 3.5 m in plan view. The floor board (base) 2 may have a rectangular shape or other shapes, and the size is not limited to this. In addition, the material of the floor (base) 2 is not limited to reinforced concrete, and may be any material that can be stably submerged on the sea floor, such as stone, and is preferably made of a hard material.

  Then, on the floor (base) 2, the shrimp reef part 3 is disposed in a substantially central part in a plan view, and the adult shrimp reef part 4 is disposed around the shrimp reef part 3. Yes. In addition, although it is preferable that the adult shrimp reef part 4 is arrange | positioned over the perimeter in the circumference | surroundings of the juvenile shrimp reef part 3, it does not necessarily restrict to this, the adult shrimp reef part 4 It may be provided in a part of the area such as a half circumference (a vicinity of the juvenile shrimp reef part 3).

  In this embodiment, the shrimp reef portion 3 includes a reinforced concrete support 11 disposed on the floor (base) 2 and a lower part embedded in the support 11. The shrimp reef part main body 12 is comprised. As shown in FIGS. 3 (a) and 3 (b), the shrimp reef portion main body 12 has a large diameter made of a ductile cast iron pipe (a diameter larger than the pipe constituting the adult shrimp reef portion 4 described later). It is formed by embedding a hard material 12b such as concrete in a pipe (pipe whose axial length is shorter than the diameter) 12a, and on both side surfaces of the juvenile shrimp reef part main body 12 where the hard material 12b is exposed. Many recesses 12c having different sizes (diameters and depths) are formed.

  Moreover, the lower part of the short pipe 12a is embedded in the support base 11 arrange | positioned on the floor board (base | substrate) 2 with hard materials, such as the concrete which makes the support base 11, and the recessed part 12c in the short pipe 12a is formed. The formed central part and upper part are arranged in a state where they are erected upward from the support base 11 and exposed. In this embodiment, the case where the support base 11 is provided on the floor board (base) 2 is shown, but the present invention is not limited to this, and the support base 11 itself is provided by the floor base (base) 2 itself. (That is, the floor base (base) 2 and the support base 11 may be integrated and the support base 11 may be omitted).

  The concave portion 12c formed in the juvenile shrimp reef portion 12 of the juvenile shrimp reef portion 3 is formed in a plurality of sizes (diameter and depth: for example, eight or more types) in order for the post-rava and juvenile shrimp to move in accordance with their growth. Has been. Moreover, in this embodiment, it forms so that it may extend toward inner side (lateral direction along the axial center direction of the short pipe 12a) so that it may be substantially orthogonal from the both-sides surface part of the shrimp reef part main body 12. FIG. In addition, these recessed parts 12c may be a hole which becomes so that it may become so that the back | inner side may become upper, and it has the advantage which can suppress that sediment is accumulated by this.

  In addition, as shown in FIGS. 1A, 1B, 2 and the like, the adult shrimp reef portion 4 fixes pipes 13 and 14 made of a plurality of types of ductile cast iron pipes with mounting brackets 15 and 16, respectively. Configured. In this embodiment, as the tubes 13 and 14, the tubes 13 and 14 having two kinds of calibers (diameters) each having a receiving port and an insertion port are provided at one place in the longitudinal direction at the tube axis. What was cut into two so as to be orthogonal to the heart (that is, divided into two in the length direction) is used. Here, the pipe 13 having a diameter larger than that of the pipe 14 is cut at a substantially intermediate portion in the longitudinal direction, and the pipe 13A having the receiving port and the pipe 13B having the insertion port are viewed in plan view by the mounting bracket 15. (Viewed from above) and arranged side by side in a state of being close to or in contact with each other in the lateral direction.

  Here, as shown in FIGS. 2 and 4 (b), the tubes 14A and 14B are viewed from the side (as viewed from the side) and are flat on the floor board 2 arranged substantially horizontally. They are arranged in a parallel posture with a certain distance from the upper surface of the floor board 2. On the other hand, as shown in FIG. 1 (b), FIG. 2, and the like, the tubes 13A and 13B are on the floor board 2 arranged in a flat plate shape and substantially horizontally as viewed from the side (viewed from the side). By gently tilting, the gaps between the pipes 13A and 13B and the floor board 2 are arranged so as to gradually change.

  Further, in this embodiment, the tube 14 having a smaller diameter than the tube 13 is cut into two so as to be orthogonal to the tube axis at the portion closer to the insertion port than the middle in the longitudinal direction ( In other words, it is divided into two in the longitudinal direction) and is divided into a long tube 14A having a receiving port and a short tube 14B having an insertion port. And about the long pipe | tube 14A, in the attitude | position which the receiving port of adjacent pipe | tube 14A faces in the mutually opposite side, planarly viewed (viewing from upper direction), in the state which mutually adjoined or contacted mutually. They are arranged side by side (shown on the right side in FIG. 1A). Further, the short tubes 14B are arranged side by side so as to be close to or in contact with each other in the lateral direction along the tube diameter direction (shown at the vertical center position on the left side of FIG. 1A).

  With the above configuration, as shown in FIG. 5A and the like, the adult shrimp reef part 4 in which a plurality of pipes 13 and 14 (13A, 13B, 14A, and 14B) are arranged around the juvenile shrimp reef part 3 is arranged. Since the juvenile shrimp cultivated in the juvenile shrimp reef part 3 becomes the adult shrimp, it is subsequently cultivated in the adult shrimp reef part 4. Thereby, with the same lobster rearing reef 1, the lobster can be grown from a small size to a large size and the survival rate can be increased. That is, the post-rava and juvenile shrimp can be safely grown for a long time in the juvenile shrimp reef part 3 of the lobster reef reef 1, and the same reef reef of the same reef reef 1 until it grows even after reaching the adult shrimp Since it can grow in part 4, the survival rate of post-rava, juvenile shrimp and adult shrimp can be increased, and post-rava or juvenile shrimp to adult shrimp can be efficiently cultivated. In other words, when the juvenile shrimp reef part and the adult shrimp reef part are far apart, even if the juvenile shrimp luckily grows into a shrimp, the chance of gathering in the adult shrimp reef part is low and can be eaten by foreign enemies. However, in the embodiment of the present invention, the position of the juvenile shrimp reef part 3 and the adult shrimp reef part 4 is extremely close to each other. Therefore, it is possible to improve the catch of lobster.

  Moreover, since the cast iron pipe is used as the pipes 13 and 14 (13A, 13B, 14A and 14B) constituting the adult shrimp reef part 4, iron ions which are substrates suitable for algae growth are generated from the cast iron pipe in the sea. It gradually dissolves in the algae field, and the growth of algae is promoted (see FIG. 5B). As a result, more post-rava can be satisfactorily grounded, and the environment of the seaweed fountain, which is a feeding ground preferred by juvenile shrimp, can be created in the adult shrimp reef part 4 around the juvenile shrimp reef part 3. . Moreover, the cast iron pipe used as the pipes 13 and 14 (13A, 13B, 14A and 14B) constituting the adult shrimp reef part 4 is manufactured by a so-called centrifugal casting method.

  In general, in the centrifugal casting method, molten iron poured into the inner surface of a mold rotating at high speed is solidified under the action of centrifugal force. For the purpose of preventing casting defects, the inner surface of a mold used for manufacturing a cast iron pipe is pretreated (peened) into a regular concavo-convex shape or a coating layer having fine voids is formed. As a result, the outer surface (mold side) of the cast iron pipe cast using such a mold has a large and small uneven shape.

  As described above, cast iron pipes are manufactured by casting and have a relatively large unevenness on the surface thereof, so that the surface area is large and the environment is easily caught, and the algae spores are attached and the algae are easily grown. 13 and 14 (13A, 13B, 14A, 14B) can be minimized, and can grow well.

  Further, as described above, since the pipes 13 and 14 (13A, 13B, 14A, and 14B) constituting the adult shrimp reef part 4 are used in a plurality of types having different diameters (diameters) and lengths, Can grow well in tubes 13 and 14 that match their own size and below. In particular, in the embodiment of the present invention, as described above, the adult shrimp reef part 4 is inclined on the floor board 2 disposed substantially horizontally, and the pipe 13 (13A) is inclined. The shrimp can be grown not only inside the tubes 13 and 14 (13A, 13B, 14A and 14B) It can also grow in the gap C between the tube 13 (13A) and the floor board 2 (see FIGS. 1 (b), 4 (a), and 5 (b)) that matches its size. Thereby, the survival rate of a lobster can be raised further or it can be raised further favorably.

  In addition, the adult shrimp reef part 4 is configured by arranging a plurality of pipes 13 and 14 (13A, 13B, 14A, and 14B) close to each other in the lateral direction or in contact with each other. However, it can grow well in the dark space below the tubes 13, 14 (13A, 13B, 14A, 14B). Thereby, adult shrimp can be grown in a better state.

  Moreover, since the shrimp reef part 3 is formed by disposing a hard material 12b such as concrete on a large diameter short pipe 12a, the shrimp reef part 3 can be configured relatively easily and manufactured. It is possible to configure the cost at a low cost and to shorten the number of manufacturing days. Further, the juvenile shrimp reef part 3 is embedded in a support base 11 arranged substantially horizontally, and the lower part of the short pipe 12a is embedded with a hard material such as concrete of the support base 11, so that the central part and the upper part of the short pipe 12a. Are arranged in a state of standing from the support base 11. With this configuration, the juvenile shrimp reef portion 3 can be disposed in a stable state, whereby even when the juvenile shrimp reef portion main body 12 receives a force in the flow direction of seawater, the juvenile shrimp reef portion main body 12 is provided. Can be prevented from rotating or moving, and good reliability can be maintained.

1 rearing reef 2 floor (base)
3 juvenile shrimp reef part 4 adult shrimp reef part 11 support stand 12 juvenile shrimp reef part body 12a short pipe 12b hard material 12c concave part 13, 13A, 13B, 14, 14A, 14B pipe 15, 16 mounting bracket

Claims (6)

  A juvenile shrimp reef part having a plurality of recesses of different sizes for post-rava and juvenile shrimp on the surface, and an adult shrimp reef part arranged around the juvenile shrimp reef part and arranged with a plurality of pipes A breeding reef for lobster, characterized by comprising   The lobster breeding reef according to claim 1, wherein a cast iron pipe is used as the pipe.   Shrimp reefs are placed side by side on a substantially horizontal floor, with the tubes in a parallel or inclined posture and with the tubes close to or in contact with each other laterally. The breeding reef for lobsters according to claim 1 or 2, wherein   The adult shrimp reef for lobster according to any one of claims 1 to 3, wherein the adult shrimp reef part is composed of a plurality of pipes having different diameters.   The juvenile shrimp reef according to any one of claims 1 to 4, wherein the juvenile shrimp reef part is formed by disposing a hard material such as concrete on a short pipe having a large diameter.   The shrimp reef part is embedded in a support base that is arranged almost horizontally, the lower part of the short pipe is embedded with a hard material such as concrete of the support base, and the central part and the upper part of the short pipe are erected from the support base The lobster breeding reef according to claim 5, which is arranged in a state where

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