JP2888570B2 - Hydrogen peroxide preparations and their uses - Google Patents

Description

The present invention relates to a hydrogen peroxide preparation and its use. More specifically, the present invention relates to a hydrogen peroxide preparation which can be easily used for the prevention, control or treatment of skin diseases based on, for example, parasites or pathogens of fish cultured in seawater or freshwater, and uses thereof.

(B) Problems to be Solved by Conventional Techniques and Inventions When parasites parasitize hamachi and yellowtail, etc. in seawater farms, their growth is hindered, and eventually they die, or the fish even die. Discoloration reduces the commercial value. Such parasites include Benedenia seriolae, a body surface parasite
And two species, Heteraxine heterocerca, which are parasitoids of fish gills. This tendency of the parasites to attach to the fish body is large in the small splitting method in which a certain sea surface is divided and cultivated by a fishing net for each type of fish or the degree of growth of the fish in the water area relatively affected by the open sea water, The damage is a problem.

It is said that it is necessary to periodically control extermination of parasites in farms, taking into account the differences in the life history of the parasites including hatching of the parasite eggs and the control effect on fish and eggs. However, as a countermeasure, the freshwater bathing method and the concentrated saltwater bathing method have been known for a long time (Shuzo Egusa, Koseisha Koseikaku, published on May 10, 1984, “People's Infectious Diseases” P-468, P-472). The chemical bath method is also being studied as a method using pesticides (Shizuoka Fisheries Experimental Station, Research report on fish disease control in 1965 (1961)
6) Toshi Hoshina-"Research on Benedenia seriolae"
etc). However, the well-known freshwater bathing method and concentrated saltwater bathing method have an adverse effect on fish ecology due to the difference in salt concentration of treated water from seawater, and the inconvenience of having to transport water to a farm where treatment is carried out. Yes, and especially when dealing with large quantities of fish, there are significant practical difficulties. On the other hand, the chemical bath method, as described in the aforementioned literature, sodium pyrophosphate, sodium percarbonate, disodium peroxide,
It is intended to eliminate parasites from fish using the action of drugs such as formalin and glacial acetic acid, although not necessarily recommended in terms of efficacy, and a corresponding effect has been confirmed, and the above freshwater bath, It can partially solve the disadvantages of the concentrated salt water bath method. However, a drug which has been studied in the conventional medicine bath method and has been confirmed to have a medicinal effect has a drawback in use based on its chemical and physical properties. Furthermore, in the chemical bath method, as in the freshwater bath and the concentrated saltwater bath methods, fish are housed in a certain compartment and processed, but these chemical agents mentioned above exhibit alkalinity in seawater and change the properties of seawater, It may be poorly soluble in seawater, or form inorganic precipitates in seawater and adhere to fish gills, causing breathing difficulties. . In particular, since it is hardly soluble in the above seawater, a solution previously dissolved in fresh water must be prepared. It is not an implementation method. On the other hand, when the red tide approaches the fish farm, there is no known method to effectively control it.

(C) Means to solve the problem Under the circumstances described above, a study was made to find a drug formulation that is completely harmless to fish and shellfish when used in water and that can be easily used, and its use. As a result, the present invention has been achieved.

According to the present invention, there is provided a hydrogen peroxide preparation for preventing, controlling or treating skin diseases based on parasites or pathogens of farmed fish, wherein the porous carrier is impregnated with 3 to 10% hydrogen peroxide water. . Also provided is a method for treating farmed fish using the formulation, particularly for its use.

The concentration of hydrogen peroxide used in the preparation of the present invention is 3
Preferably it is ~ 10%. In particular, it has been found that 5 to 7% is practically preferable. If the content is 3% or less, a large amount of the preparation is required to expect the intended effect of hydrogen peroxide, which is not preferable. If it is 10% or more, it is preferable in terms of effect, but there is a problem particularly in handling and release of hydrogen peroxide from the preparation.

The porous carrier in the present invention may be either inorganic or organic as long as it is porous. It is generally preferable that the specific gravity is higher than that of freshwater or seawater. However, in the case where the specific gravity is stored in a container and used as described later, the specific gravity may be lower than that of freshwater or seawater.

Examples of the inorganic porous carrier include porous bodies made of natural minerals such as diatomaceous earth, kaolin, bentonite, and zeolite, or processed products of these minerals; and artificial minerals such as granulated slag and cement.

As an organic porous carrier, a synthetic resin-only foam,
A foam of a synthetic resin and the above-mentioned inorganic substance may be used.

The shape of the porous carrier may be any of granular, granular, pellet, spherical and the like. However, the size is preferably an outer diameter of about 0.1 to 10 mm.

In addition, the porous carrier may have fine pores on the surface as a result of being formulated and granulated into the above shape, and may have a space capable of holding a liquid inside.

The impregnation of the porous carrier with the hydrogen peroxide solution is preferably carried out by a dipping method, a spraying method or the like, preferably immediately before use.

The preparation of the present invention may be prepared by immersing lumber as it is in water,
Alternatively, it is used by putting it in water in an appropriate container. As the container, a container made of a material that prevents passage of the porous carrier but is permeable to liquid water is preferable. Examples thereof include a container made of a synthetic resin net or fabric, and a metal mesh container. The size of the container varies depending on the place of use, the object to be used, the required amount of hydrogen peroxide, and the like.

The formulation of the present invention can be used for cultured fish (hamachi,
Yellowtail, thailand, trevally, amberjack, flounder, flounder, etc.) is effective in preventing, controlling or treating skin diseases based on parasites and pathogenic bacteria. More specifically, the formulation of the present invention is housed in an appropriately sized container and immersed in a suitably sized enclosure of a farm at a predetermined water level below the sea surface. I just need. The same can be applied to freshwater cultured fish.

Furthermore, the formulation of the present invention can be used in sea areas where red tide has occurred in seawater to prevent damage to fish. For example, the formulation of the present invention may be sprayed on the flowing outer edge of the sea area of the red tide where the red tide has been generated, or the formulation of the present invention may be stored in a container and the surrounding net of a cultured fish cage where the red tide approaches may be 1 to 5 m. What is necessary is just to immerse in the water depth part.

The concentration of hydrogen peroxide in seawater or freshwater can be changed according to various conditions such as the purpose of use, temperature, and type of fish. For example, in order to control parasites once infested in seawater cultured fish, 30 to 300 ppm, preferably 40 to 200 ppm
Is used. In order to prevent the formation of parasites on sea-cultured fish, the amount is 10 to 200 ppm, preferably 20 to 150 ppm. The treatment time varies depending on the purpose of use, the concentration of hydrogen peroxide, the state of the fish, and the like, but is generally maintained at a predetermined concentration of 3 to 40 minutes, preferably 5 to 30 minutes, and this may be repeated as many times as necessary. Once used, the concentration used for red tide is 10-
30 ppm.

In the treatment method according to the present invention, the porous carrier impregnated with the aqueous hydrogen peroxide is used in combination with a porous carrier impregnated with another known preparation effective against parasites or pathogenic bacteria of cultured fish. It is also included.

Next, the present invention will be described more specifically with reference to examples, but the present invention is not limited thereto.

(D) Examples Example 1 The porous carrier impregnated with the aqueous hydrogen peroxide solution according to the present invention was tested for hydrogen peroxide release in seawater and horizontal diffusivity.

Seawater 5m ³ put in the FRP water tank (1800 × 1800 × 1800mm),
In a stationary state, the formulation of the present invention and comparative subjects (hydrogen peroxide solution alone and sodium percarbonate alone) were gently charged from one corner (point D) of the water tank. The drug concentrations at the other three corners of the aquarium (points A, B, and C) were measured after 10 minutes, 20 minutes, and 30 minutes.

The results are shown in Table 1. The preparation of the present invention in which porous granulated slag granules and porous zeolite granules were impregnated with hydrogen peroxide solution was sufficiently diffused horizontally in seawater. You can see that

Example 2 Into the water tank used in Example 1, 5 m ³ of seawater was also put, and in a stationary state, porous inorganic compound granules impregnated with hydrogen peroxide were put in a bag woven with a tetron system and wrapped with a vinyl sheet. , Suspended in the center of the tank (depth about 1m), excluding the vinyl sheet, and after a certain period of time, the surface seawater at each corner was sampled and the concentration of hydrogen peroxide was measured. The diffusivity in the direction was tested.

Table 2 shows the concentrations of the drugs at the measurement points (the four corners A, B, C, and D of the aquarium) after each elapsed time.

As a result, it was confirmed that the porous carrier impregnated with the aqueous hydrogen peroxide solution of the present invention diffuses hydrogen peroxide uniformly and widely in the upward direction in seawater.

Example 3 Parasites were controlled at a yellowtail farm in a certain bay. The size of the cultured ikesu was 7m square, 5m deep, the number of yellowtails during rearing was about 5,000, and the average fish weight was about 600g.

Granulated slag with a particle size of 2-4mm (Kasa specific gravity 0.81) 6% in 5kg
Five pieces impregnated with 5 kg of hydrogen peroxide solution and placed in a bag woven with a tetron system were prepared. From the center of the farmed Ikesu,
Five of them were suspended slightly above the bottom of the Ikes (about 4.5 m deep). At the center of the farmed Ikes, seawater is collected from the sea surface and 1 m below the sea surface at each elapsed time, and the hydrogen peroxide concentration is measured.
Before and after immersion of the treatment agent, five yellowtails were picked up, and the number of leaf wasps and vicarina parasitic on the body surface and gill were counted. Table 3 shows the measurement results of the hydrogen peroxide concentration, and Table 4 shows the counting results of the parasites. As a result, it was confirmed that the parasite control effect was remarkable.

Example 4 At a yellowtail cultivation farm in a certain bay, an experiment was conducted to control the parasites against yellowtail. The size of the cultured ikesu is 7m
At a corner and a depth of 5m, the number of yellowtails during rearing was about 7,000, and the average fish weight was about 300g.

Granulated slag with a particle size of 4-6mm (Kasa specific gravity 0.85) 3.0kg 8
Twelve pieces impregnated with 2.4 kg of an aqueous solution of hydrogen peroxide and put in bags woven with tetron yarn were prepared. Place it on the outer circumference of the aquaculture net at 12 places, slightly above the bottom of the Ikes (about 4.
5) Hanged. The same number of the above preparations were suspended every 10 days, and the test was conducted for 4 months from July to October.

In addition, the size of the cultured ikese and the number of breeding yellowtail were compared with those of the same untreated area.

That is, after the test, 5 yellowtails in the test plot and 5 yellow spots in the untreated plot
Each tail was taken and the number of parasites attached to the body surface and gills and the average fish weight were determined. The results are as shown in Table 5.

As a result, it was confirmed that the parasite swimming larvae could be prevented from attaching to the body epidermis of the fish.

(E) Effects of the Invention Since the preparation of the present invention can sufficiently release hydrogen peroxide in water and uniformly disperse it in the water, the workability is easy and labor and cost can be saved.

As a result, it has been used for various purposes due to the medicinal effects of hydrogen peroxide in water, such as the control of parasites that are parasitic on fish, the prevention of the formation of fish by emulsified larvae of parasites, and the prevention of adverse effects of red tide on fish. It is a preparation which has a great effect.

────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-61-162125 (JP, A) JP-A-1-317346 (JP, A) (58) Fields investigated (Int. Cl. ⁶ , DB name) A01N 59/00 A01N 25/08

Claims (5)

(57) [Claims] 1. A hydrogen peroxide preparation for preventing, controlling or treating skin diseases based on parasites or pathogens of farmed fish, wherein the porous carrier is impregnated with 3-10% hydrogen peroxide water. 2. The porous carrier is a porous carrier comprising an inorganic substance or an inorganic substance and an organic substance, and has a granular shape, a granular shape,
The preparation according to claim 1, which is in the form of a pellet or a sphere. 3. The preparation according to claim 1, wherein the aqueous hydrogen peroxide is 5 to 7% aqueous hydrogen peroxide. 4. The preparation according to claim 1, wherein the preparation is housed in a container made of a material which prevents passage of the porous carrier but is permeable to liquid water. 5. A method for treating cultured fish, which comprises immersing the preparation of claim 1 in seawater or freshwater to prevent, control or treat skin diseases based on parasites or pathogenic bacteria of the cultured fish.