JP2006006150A - Method and vessel for hatching bait for aquarium fish - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technique for easily hatching brine shrimp spawns into their larvae as baits for aquarium fish in ordinary homes or the like. <P>SOLUTION: A method for hatching brine shrimp spawns is provided with: the brine shrimp spawns are put into a hatching vessel, into which a culture solution with adjusted mineral components is poured, and the resultant vessel is sealed up with an air space formed inside and then made to float in a water tank whose water temperature is kept at a level suitable for hatching. In this method, the mineral components comprise 20-40 g/mL of sodium chloride and other seawater mineral components. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a technique for easily hatching brine shrimp, which is useful as a food for ornamental fish, from eggs to larvae.

Conventionally, brine shrimp is known as a raw food to be given to ornamental fish such as goldfish, tropical fish, and saltwater fish.
Brine shrinp (scientific name: Artemia salina) is a kind of crustacean (shrimp) that lives in saltwater lakes around the world. Usually, as a food for appreciation fish, it is marketed in the form of eggs, and is used after hatching larvae with salt water in which salt is dissolved. Brine shrimp larvae are nutritious and are now indispensable as food for ornamental fish.

Usually, in order to hatch a brine shrimp from an egg to a larva, an incubator is necessary. However, in order to reduce costs in ordinary households, a self-made incubator in which a plastic bottle is processed is often used.
That is, the cap portion of the plastic bottle is drilled, an air tube is inserted, and air is fed into a plastic bottle containing brine shrimp eggs and salt water to allow hatching. And if it is such a method, in order to keep the temperature of salt water constant, it is necessary to put a plastic bottle together with a heat insulation case, or to set up a dedicated heater by filling water in a container in which the plastic bottle fits completely. There are, however, few people who actually have such a heat insulation facility, and even the knowledge that heat insulation is necessary is not widespread for ordinary people.

  On the other hand, Patent Document 1 discloses, for example, a training apparatus and a training tool for efficiently training brine shrimp larvae to a living body.

JP 10-42740

However, according to the conventional method, it takes time and effort to process the PET bottle, and the hatching rate varies depending on the degree of processing and the hatching rate itself is low. In addition, since an air pump, an air tube, and the like for feeding air are required, it is difficult and expensive to maintain the facilities. Furthermore, hatching often failed if a heat retaining case and a dedicated heater were not used.
Therefore, the conventional method has a problem that brine shrimp cannot be easily hatched from eggs into larvae in ordinary households.
Moreover, in patent document 1, it paid its attention to how efficiently the hatched larva was trained to a living body, and this problem could not be solved.

  The present invention has been made in view of the above problems, and provides a technique for easily hatching brine shrimp from eggs into larvae as a food for appreciation fish in ordinary households.

  In order to solve the above-mentioned problem, the hatching method according to claim 1 is a method of hatching a brine shrimp used as a food for an ornamental fish from an egg to a larvae, wherein the egg of the brine shrimp is placed in a hatching container, Pour the culture solution adjusted for the ingredients, seal the hatching container with an air layer formed inside, and float the sealed hatching container in a water tank whose water temperature is maintained at a temperature suitable for hatching. The gist is to hatch.

  Moreover, the hatching method of Claim 2 is the method of Claim 1, The mineral component of the said culture solution contains sodium chloride in the ratio of 20-40g / 1000ml, and also contains the other seawater mineral component. This is the gist.

  Further, the hatching method according to claim 3 is the method according to claim 1 or 2, wherein the hatching container is swung by the shaking or convection of the water surface in the water tank, and the hatching container is swung. The gist of the invention is that the eggs of the brine shrimp are migrated in the culture solution to promote hatching.

  In addition, the hatching method according to claim 4 is characterized in that, in the structure according to any one of claims 1 to 3, the aquarium is an aquarium fish breeding aquarium.

The hatching container according to claim 5 is a hatching container used for hatching a brine shrimp used as a food for ornamental fish from eggs to larvae, and the hatching container is:
In a state where an egg of brine shrimp is put and a culture solution is poured, an air layer is formed inside and it can be sealed, and it can float in a water tank maintained at a temperature suitable for hatching. The gist is that the water temperature of the water tank can be propagated.

  In addition, the hatching container according to claim 6 is the structure according to claim 5, wherein the brine shrimp eggs are migrated in the culture solution to promote hatching, and the hatching vessel is shaken by water surface shaking or convection in the water tank. The gist is that it has a movable shape.

  The hatched feed set according to claim 7 is a set for hatching a brine shrimp used as a food for an ornamental fish from eggs to larvae by setting the eggs and mineral components of the brine shrimp in the hatching container, By pouring the breeding water of the ornamental fish into the hatching container, a culture solution in which the mineral components are adjusted is generated, and the hatching container is hermetically sealed with an air layer formed therein. The gist is that the water temperature is suspended in a water tank maintained at a temperature suitable for hatching and hatched.

According to the present invention, a brine shrimp egg and a culture solution are placed in a hatching container, and the brine shrimp is hatched from an egg to a larva simply by floating the container in a water tank maintained at a predetermined water temperature. be able to.
Therefore, troublesome material processing and installation of expensive air pumps, air tubes, etc. are not required, and it is very inexpensive and easy to maintain, so it is easy to hatch brine shrimp from eggs into larvae, especially in ordinary homes. It becomes possible to make it.

According to the present invention, a brine shrimp egg and a culture solution for hatching it into larvae are placed in a single hatching container, and the hatching container is suspended in a water tank whose water temperature is maintained at a temperature suitable for hatching. , Brine shrimp are hatched from eggs to larvae.
Therefore, the hatching container used in the present invention is large as long as it has a structure that can float in the aquarium with brine shrimp eggs and the culture solution and can propagate the water temperature of the aquarium to the culture solution. Any shape, material, etc. may be used.
In addition, the present invention causes the hatching vessel to rock by the shaking and convection of the water surface that occurs when the hatching vessel is suspended in water, and accordingly, the eggs of the brine shrimp are migrated in the culture solution to cause the hatching. To promote. Even if the container does not swing, it is possible to hatch, but in order to promote hatching and improve the hatching rate, it is preferable that the container has a shape that easily swings.

In the hatching container, brine shrimp eggs and a culture solution are placed, and about 13,000 to 17,000 brine shrimp eggs are suitable for 1000 ml of the culture solution.
The culture solution is an aqueous solution containing sodium chloride as a main component, but the content and composition ratio of mineral components are adjusted so as to be suitable for hatching.
The sodium chloride concentration is within a range of 20 to 40 g / 1000 ml based on 30 g with respect to 1000 ml of the culture solution. If the concentration exceeds 40 g / 1000 ml, the hatching rate decreases rapidly.
As mineral components, in addition to sodium and chlorine, mineral components contained in seawater such as calcium, sulfur, potassium, and magnesium, that is, seawater mineral components are included.
Usually, the salinity of seawater is about 3.45%, and its components are sodium chloride 77.9%, magnesium chloride 9.6%, magnesium sulfate 6.1%, calcium sulfate 4.0%, potassium chloride 2 The content and composition ratio of the mineral component of the present invention are also closer to those of the seawater mineral component, but the hatching rate is improved.
It is preferable to use aquarium fish breeding water instead of tap water for producing the culture solution. The tap water contains chlorine for sterilization, a rust preventive agent applied to the water pipe, a flocculant for precipitating suspended matters, and the like, and is not suitable for producing a culture solution. On the other hand, if it is breeding water of ornamental fish, chlorine is extracted, it is purified by filtration, and the amount of dissolved oxygen is also high. In addition, the number of hydrophilic colloids that are kind to the skin of living organisms is increasing, and the water is appropriately adjusted and optimal for hatching.
Moreover, natural seawater or artificial seawater containing seawater mineral components may be used as the culture solution as long as the sodium chloride concentration is adjusted within the above range. If natural seawater is used, it is preferable because it contains several tens of various seawater mineral components.

The present invention floats a hatching container in a tank filled with water and hatches eggs of brine shrimp, but if the water temperature of the tank is too low or too high, it takes time to hatch, or hatching It is necessary to keep the water temperature at a temperature suitable for hatching. The water temperature is preferably kept at about 25 ° C. to 30 ° C., and a known technique such as a heater can be used as a method for keeping the water temperature constant.
Further, if the hatching container is floated and hatched in an aquarium fish breeding tank in which the water temperature is kept constant, it is not necessary to provide a dedicated heat insulation facility. For example, in the case of a breeding aquarium for breeding tropical fish, the water temperature is usually set to about 25 to 27 ° C.

When the brine shrimp is hatched from the egg to the larva, oxygen is required, but conventionally, air has been sent to the hatcher by an air pump facility.
In the present invention, the inside of the hatching container is not filled with the culture solution, but is formed by forming about 1/3 of the air layer in the vessel, thereby using the oxygen in the air layer and the oxygen in the culture solution. It is something to be made. And in this invention, it is made possible to achieve a high hatching rate, making the culture solution contain a predetermined amount of a mineral component as a nutrient while eliminating the need for conventional pump equipment.

Brine shrimp larvae increase their intake of oxygen and minerals as soon as they hatch, so in order to extend their life in the container, the container lid is opened and air is exchanged or oxygen is generated. Or the mineral to contain may be put in a container, an additional mineral component may be added in a culture solution, or the powder of minerals, such as barley stone which discharge | releases a mineral component, may be put in a container. These minerals and mineral components may be added first.
Brine shrimp larvae are preferably used as food as soon as possible after hatching, since their nutritional value decreases as the body grows.

A first embodiment of the present invention will be described with reference to the drawings.
In this embodiment, as shown in FIG. 1 and FIG. 2, a hatching container (3) having a cylindrical shape is used to hatch brine shrimp eggs. The hatching container (3) has a diameter of 4 cm, a height of 5 cm, and a volume of 60 ml.
The hatching container (3) is separable into a lid (4) and a container body (5), and a male screw (6a) screwed on the neck (6) at the top of the container body (5) is attached to the lid ( 4) The lid (4) is configured to be attachable to the container body (5) by being screwed onto a female screw (6b) provided on the inner surface.
As shown in FIG. 1, the hatching container (3) has a mouth (7) as wide as possible, so that the eggs / larvae of the brine shrimp and the culture solution can be taken in and out easily.
Further, in this embodiment, the hatching container (3) is made of transparent plastic, so it is light and easily floats in water, and the state of hatching of the brine shrimp can be easily confirmed from the outside.

In hatching the brine shrimp egg, the brine shrimp egg (1) is placed in the container body (5) of the hatching container (3) constructed as described above, and then the container body as shown in FIG. Pour the culture medium (2) to the position of the shoulder (8) of (5). In the present embodiment, the position of the shoulder (8) is just 40 ml in volume. In this example, about 600 eggs of brine shrimp (1) are added to 40 ml of the culture solution (2).
In this embodiment, the culture solution (2) is generated by pouring the breeding water in the aquarium of ornamental fish into so-called natural salt (natural salt) containing a seawater mineral component. The sodium chloride concentration is adjusted to 20 to 40 g / 1000 ml. Thus, it becomes possible to produce | generate the culture solution (2) suitable for hatching by using what the seawater mineral component was left with the composition close | similar to seawater instead of the salt refine | purified with high purity. In this implementation, the mineral components as shown in Table 1 are contained per 1000 ml of the culture solution (2).
In the present embodiment, the culture solution (2) is separately produced with a measuring cup or the like and then poured into the container body (5) together with the brine shrimp egg (1).

After the brine shrimp egg (1) and the culture solution (2) are put into the container body (5), the lid (4) is attached to the container body (5), and it is used as it is as shown in FIG. Float in the aquarium (13). In this embodiment, the water temperature in the water tank is maintained at 27.9 ° C.
As shown in FIG. 3, the culture solution (2) is poured into the hatching vessel (3) up to the shoulder (8) of the vessel body (5), and an air layer (9 ) Is formed. In this embodiment, the culture solution (2) is poured up to 2/3 (40 ml) of the container (3), and the remaining 1/3 (20 ml) is the air layer (9).
Further, the water surface (12) of the water tank is located approximately in the middle of the lid (4) of the hatching container (3). Thus, when the liquid level of the culture solution (2) in the hatching vessel (3) is positioned lower than the water level (12) of the aquarium, the water temperature of the aquarium maintained at an appropriate temperature is applied to the entire culture solution (2). It is preferable because it is propagated efficiently.
Furthermore, since the hatching container (3) can be hermetically sealed by attaching the lid (4) to the container body (5), the water in the tank is kept in the container (3) while floating in the tank. The culture solution (2) in the container (3) does not flow into the water tank. Accordingly, the sodium chloride concentration in the container (3) is appropriately maintained, and an increase in the sodium chloride concentration in the water tank is suppressed.

The hatching container (3) floating in the aquarium moves up and down, rotates horizontally, or tilts forward, backward, left and right due to the waving and convection of the water surface (12) of the aquarium. It will always swing. The brine shrimp egg (1) is located in the lower part of the hatching container (3), but slowly migrates in the culture medium (2) as the container (3) swings. To do.
Furthermore, the air layer (9) in the container is mixed with the culture solution (2) by the swinging of the hatching vessel (3), and the dissolved oxygen amount in the culture solution (2) is kept to a certain level. Thus, the hatching rate is improved.
In addition, as another condition for promoting the hatching of the brine shrimp egg (1), light is applied and the intensity of light is applied (the rhythm of day and night is clear). . In this embodiment, since the transparent hatching container (3) is suspended in the aquarium for appreciation fish, the lighting equipment (fluorescent lamps, etc.) for the aquarium can be used effectively. In other words, the aquarium lighting equipment is turned on during the day (8-10 hours) and turned off at night, so that sufficient light is supplied and the rhythm of day and night is clear and suitable for hatching. An environment can be provided.
The hatching container (3) is floated on the water tank, and after about 18 hours, the culture solution (2) in the container (3) is tinged with orange and the brine shrimp is hatched into the larvae (10). It is recognized that As shown in FIG. 3, the brine shrimp egg shell (11) floats on the water surface of the culture solution (2), and the hatched larvae (10) gather in the lower part of the container (3). According to this example, the hatching rate was approximately 90% or more.
Hatched larvae (10) can be collected with a dropper or the like after opening the lid (4) and fed to the aquarium fish in the aquarium. Use of a dropper is preferable because it can suppress an increase in the sodium chloride concentration in the water tank and prevent the egg shell (11) from being mixed into the water tank.
In this example, hatched larvae (10) survived almost entirely in the container (3) after 40 hours, and most survived after 65 hours.

As described above, according to the present embodiment, the larva (10) can be obtained by simply floating the hatching container (3) containing the brine shrimp egg (1) and the culture solution (2) in the breeding aquarium (13) for appreciation fish. In addition to being very simple, the hatching rate is higher than that of the conventional method.
In addition, since the existing aquarium for aquarium fish (13) with a constant water temperature is used, it is not necessary to provide a separate heat insulation facility for the hatching container (3), and extra space and cost are saved. You don't have to use it.

A second embodiment of the present invention will be described with reference to the drawings.
In the present embodiment, as shown in FIG. 4, the eggs of the brine shrimp are hatched using a spherical hatching container (3). The hatching container (3) has a diameter of 4.5 cm and a volume of 45 ml.
As shown in FIG. 4, the hatching container (3) is composed of a lid (4) and a container body (5). In this embodiment, the lid (4) is supported by a hinge shaft (21). Is configured to be openable and closable.
The hinge shaft (21) rotatably connects the lid (4) to the hinge part (20) of the container body (5), and the hinge part (20) is connected to one end of the container body (5). It is provided and supports the lid (4) in a rotatable manner. The lid (4) and the container body (5) are respectively formed with a locking piece (22) and a locking part (23), and the locking piece (22) is engaged with and disengaged from the locking part (23). Thus, the lid (4) can be freely opened and closed.
The neck (7) at the upper part of the container body (5) is provided with sealing means such as rubber packing so that the lid (4) can be closed and sealed.

In the present embodiment, the container body (5) is provided with a line (24) indicating the amount of sodium chloride and other mineral components and a line (25) indicating the amount of the culture solution.
Therefore, first, sodium chloride and other mineral components may be added to the lower line (24), then an appropriate amount of brine shrimp eggs may be added, and finally the aquarium fish breeding water may be poured to the upper line (25).
The position of the line (25) indicating the amount of the culture solution is set to indicate 30 ml, and the line (24) indicating the amount of sodium chloride and other mineral components is set so that the sodium chloride concentration is 20 to 40 g / 1000 ml. Is set to When the culture medium (2) is poured into the container body (5) and the lid (4) is closed, an air layer of 15 ml is formed in the upper part from the upper line (25). Become.
In this example, the lower line (24) indicates the amount of sodium chloride and other mineral components, but mineral powder or the like that generates or contains oxygen and mineral components is added to sodium chloride and other mineral components. It may be set as a line indicating the amount of the cake.
Furthermore, in this example, about 400 pieces of brine shrimp eggs (1) are put into 30 ml of the culture solution (2). However, brine shrimp eggs and / or sodium chloride and other mineral components are put in a container in advance. An appropriate amount may be put in the main body (5) and set and provided as a hatched feed set. It is also possible to set an appropriate amount of mineral powder that generates or contains oxygen and mineral components. According to such a hatched feed set, it is possible to easily generate a culture solution in which mineral components and the like are adjusted by simply pouring the breeding water of the ornamental fish up to a predetermined line.

  In this example, the hatching container (3) containing the brine shrimp egg (1) and the culture solution (2) is simply floated in the water tank (13) filled with water. Shrimp eggs (1) were found to hatch in larvae. The hatching rate was almost 95% or more.

As described above, according to the present embodiment, since the hatching container (3) is formed in a spherical shape, the container (3) swings in response to a finer movement of water in the aquarium, and thereby the culture solution. (2) The eggs of the brash shrimp (1) in the inside are continuously migrated, and the hatching is further promoted.
In addition, if a ball-like object that can freely rotate is put in the container (3) or an object (such as a light emitter) that causes a fish to stick to the outside of the container (3) is attached, it will be larger. The culture vessel (2) can be disturbed by rocking the hatching vessel (3).
Furthermore, since the line (24) indicating the amount of sodium chloride and other mineral components and the line (25) indicating the amount of the culture solution are displayed on the container (3), anyone can easily use without using an electronic scale or the like. The culture solution can be adjusted.

  INDUSTRIAL APPLICABILITY The present invention enables brine shrimp, which is popular as a food for appreciation fish, to be hatched from eggs to larvae very easily in general households and has industrial applicability.

It is a side view of the container for hatching which concerns on a 1st Example. It is a bottom view of the container for hatching which concerns on a 1st Example. It is a figure which shows the state which floated the hatching container which concerns on a 1st Example in the water tank. It is a side view of the container for hatching which concerns on a 2nd Example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Brine shrimp egg 2 Culture medium 3 Hatching container 4 Lid body 5 Container body 6 Neck part 7 Mouth part 8 Shoulder part 9 Air layer 10 Brine shrimp larva 11 Brine shrimp egg shell 12 Water surface
13 Water tank 20 Hinge part 21 Hinge shaft 22 Locking piece 23 Locking part 24 Line indicating the amount of sodium chloride and other minerals 25 Line indicating the volume of the culture solution

Claims (7)

A method of hatching brine shrimp used as a food for ornamental fish from eggs to larvae,
Put the egg of brine shrimp in the container for hatching, pour the culture solution adjusted with mineral components,
The hatching container is sealed with an air layer formed inside,
The sealed container for hatching is suspended in a water tank whose water temperature is maintained at a temperature suitable for hatching,
A hatching method characterized by hatching. The hatching method according to claim 1, wherein the mineral component of the culture solution contains sodium chloride at a rate of 20 to 40 g / 1000 ml, and further contains other seawater mineral components. By shaking or convection of the water surface in the water tank, the hatching container is swung,
As the hatching vessel swings, the brine shrimp eggs migrate in the culture solution,
The hatching method according to claim 1 or 2, wherein hatching is promoted. The hatching method according to claim 1, wherein the aquarium is an aquarium fish breeding tank. A hatching container used for hatching brine shrimp used as a food for ornamental fish from eggs to larvae,
The hatching container is
With brine shrimp eggs poured into the culture solution, an air layer is formed inside and can be sealed,
A hatching vessel characterized in that it can float in a water tank whose water temperature is maintained at a temperature suitable for hatching and has a structure capable of propagating the water temperature of the water tank to the culture solution. 6. The hatching container according to claim 5, wherein the hatching container is configured to be swingable by shaking or convection of a water surface in the water tank so that the eggs of the brine shrimp migrate in the culture medium to promote hatching. . Set of eggs and mineral components of brine shrimp in a hatching container, and a set for hatching brine shrimp used as a food for ornamental fish from eggs to larvae,
By pouring the breeding water of the ornamental fish into the hatching container, a culture solution in which the mineral components are adjusted is generated,
The hatching container is sealed with an air layer formed inside,
The sealed container for hatching is suspended in a water tank whose water temperature is maintained at a temperature suitable for hatching,
A hatched feed set characterized by hatching.

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