KR100614466B1 - Improvement agent for the bottom material of fishes and shellfishes farm - Google Patents

Abstract

The present invention relates to a quality improvement agent for fish and shellfish farms, wherein the dried shells are crushed to have a shell made in a predetermined size as a main component, and at least one or more of iron and zeolite are added in an amount of 0 to 30% by weight based on the total components, respectively. As a result, it was possible to prevent the fish and shellfish from dying due to the contamination of low quality by continuously farming by spraying the fish and shellfish farm, and the quality of the fish and shellfish was greatly improved. .

Quality Improvement Agent, Fish Farm, Shellfish, Shell, Iron, Zeolite

Description

Improving agent for the bottom material of fishes and shellfishes farm}

The present invention relates to a quality improvement agent for fish and shellfish farms, and more specifically, 70 to 100% by weight of shells prepared by crushing dried shells and 0 to 30% by weight of iron and zeolite. The present invention relates to a shellfish farm quality improvement agent, characterized in that the shell and iron and zeolite particles are homogeneously mixed with the shell produced by crushing the dried shell.

Bottom material refers to substances deposited or deposited on the bottom of an appeal or sea. In the case of appeal, it is irregularly distributed due to the movement of water. In addition to the debris, sediments such as iron, silicic acid, manganese, etc. There are unique sediments such as Johnny, Hanni, and Humus, which are classified as coastal sediments, offshore sediments, and pelagic sediments.

Coastal sediment is a substance that is settled about 200m on the continental shelf from the coastline. It is mainly composed of terrestrial sani, rock, and earth and sand. The offshore sediment is deposited in the deep sea continental shelf with a depth of 200 ~ 2,400m. Among them are blue, red, green, volcanic, and coral, and the sedimentary sediment is the sediment deposited on the ocean floor. There are many marine materials irrelevant to the land. It is.

On the other hand, aquaculture is mainly used for tidal flats created by the difference between the shoreline and tides near the coastline, but recently, due to the inflow of pollutants due to various environmental pollution and low quality pollution due to continuous farming, In addition to contamination or death of cultured fish and shellfish, there are many problems such as the freshness of the cultured fish and shellfish is lowered, the meat quality is deteriorated, and the amount of culture is reduced.

In order to solve the above problems, efforts have been made to improve the condition of farms by improving quality. As a method for improving the quality of fish and shellfish farms currently used, disinfection and decomposition of organic matter are performed after the end of farming, but removal of toxic substances generated during the farming season is almost difficult. Chlorkalky is used, but it was difficult to continue the effect during the farming period.

Accordingly, it is an object of the present invention to improve the treatment efficiency of low-quality pollution of fish and shellfish farms, to improve the persistence of the treatment effect, and to provide a quality improvement agent of fish and shellfish farms that can be used continuously during the farming period as well as to continue the effect.

In order to achieve the above objects as well as other objects that can be easily expressed in the present invention 70 to 100% by weight of the shell prepared by crushing the dried shell having a particle size of 2-10 mm and at least one of iron and zeolite Treatment of low-quality pollution of fish and shellfish farms by using 0 ~ 30% by weight of the shellfish, which is made of crushed dried shells to have a particle size of 2-10 mm, and the quality of the fish and shellfish farms homogeneously mixed with iron and zeolite particles. It has been shown to improve the efficacy, increase the persistence of the treatment effect, to continue the effects during the aquaculture period, and to be able to use them during the aquaculture period.

The present invention is described in more detail as follows.

Fish and shellfish quality improvement agent according to the present invention is at least one of 70-100% by weight shell and liquid and solid iron and 2-5 mm diameter zeolite particles crushed dried shell having a particle size of 2-10 mm It is characterized by being composed of 0 to 30% by weight or more.

In addition, the method for producing a shellfish farm quality improvement agent according to the present invention is to crush the dried shells and to homogeneously mix the shells prepared to have a particle size of 2-10 mm and liquid and solid iron and 2-5 mm zeolite particles It is characterized by.

Shells of mollusks vary in number and shape. The flat plate has no shells, the bivalve shells have two shells, and the multi-plate shells have eight shells, and the single plate, gastropods, cucurbita, cephalopods, etc. may or may not have one shell. The shells are also diverse in shape, so single-plates such as Neoplina have a hat-shaped shell, and oysters such as horn shells have a tube-shaped shell that is thicker at the bottom and tapered toward the end. Multipanels, such as the military, are flat and flat shells connected in a row. Among the cephalopods, parrot shells have a spiral shell. Some gastropods have the shape of a hat-shade like a shell of a plate (battle, white clam, etc.), and a rubber hose is wound on a plane like a Strepsodiscus. There is also a spiral wound.

Most gastropods (shells, snails, etc.) are concentric, with non-symmetrical spirals in which each helix is just below the anterior hemisphere. These layers are small in primitive fossils, but gradually grow as animals evolve, and some 20 in the awl. Also, like the earthworm, only the first part of the stratum is attached and the latter part is separated, and there are other snails with primitives. Thus, shells of shellfish have various shapes, but most are wound to the right, and some are wound to the left. A shell is a body that is completely wrapped like abalone or a conch, buried in the body like a small or yellow slug or a squid shell, and most of the shell is covered by a coat or a large beetle, and then looks outward when it contracts. Etc. In addition, slugs and slugs have shells at the beginning, but degenerate at the same time as they develop.

The shells of bivalve shells have the right and left shells attached to each other like clams, which completely cover the body, and the shells are open from the front and back like the shells. There are various shapes such as discus like rice cake clam, long back and forth like a clam, and an equal belly length like mussel. In addition, most of them have a long front and rear and a narrow left and right, but some species have shorter front and rear and wider sides (eg Corculum cardissa). Most bivalve shells are attached by hinges, which are interlocked and interlocked. The number of these doctrines is more primitive, decreases with evolution, and degenerates. Among the bivalve shells, there is a large difference in size depending on the species, and there are Trilacna of the South Pacific, which has a size of about 2mm to over 1m and weighs 1,100kg.

The shell is mainly composed of calcium carbonate (CaCO ₃ ) and contains small amounts of calcium phosphate [Ca ₃ (PO ₄ ) ₂ ] or magnesium carbonate (MgCO ₃ ). The content ratio of minerals varies depending on the species, with calcium carbonate being 89 to 99% and calcium phosphate being 1 to 2%. They are adhered to the organic material peculiar to mollusks called conchiolin, and there are pigments and metal compounds, which show the distinctive color or pattern of shells. Shells of gastropods and tribes from the outside are three layers: the epidermis, the pericardial layer, and the nacre, and in the monograph, the epidermis, the cladding, the central keratin, It is divided into six layers, a junction, a junction lower layer, and an undercoat layer.

The shell is secreted from the outer membrane, and there are three layers of wrinkles at the ends of the outer membrane, and each of these wrinkles forms the epidermis, the pericardial layer, and the nacre, and the nacre is secreted from the entire surface of the outer membrane, and the outer membrane cells secrete calcium phosphate Phosphate and lime are separated by the action of an enzyme called fatase, and lime is combined with carbonic acid to form calcium carbonate, which is crystallized by conchiolin. The growth rate of shells varies depending on the environment and species. Mussels grow about 10 cm a year. Once a shell is made, it is absorbed and thinned or disappeared as it grows, and the shell grows as the thorn drops, such as a conch.

In the present invention, the shells of the shellfish that can be grown in the farm can be used, and not particularly limited, but the oyster shell is the most effective. The shell is made of calcium monoxide (CaCO ₃ ) or calcium phosphate [Ca ₃ (PO ₄ ) ₂ ] contained in the shell to stabilize the pH of the water. 70 to 100% by weight is effective with respect to the total amount, and when used in less than 70% by weight, the effects of iron and zeolite to be additionally used are mainly generated, and the effect due to shelling is weak, and 100% by weight is used. It may be, but it is not preferable because the effect due to iron and zeolite does not occur at all.

On the other hand, the iron used in the present invention removes the hydrogen sulfide generated during the decay process of low quality, prevents the rise in pH due to photosynthesis serves to reduce the amount of gas generated.

As the iron powder used, pure iron is most effective, but pure iron is not necessarily used, and the effect of the present invention is not generated, and a compound having high solubility may be used among iron compounds.

The amount of iron used is 0 to 30% by weight is effective, and when the amount exceeds 30% by weight, the amount of the shell is reduced, there is a disadvantage that the basic effect pursued in the present invention is reduced.

In addition, since zeolite has the property of removing ammonia nitrogen, it has a function of reducing the amount of ammonia gas present in water. The amount of zeolite used is 0 to 30% by weight, and when it exceeds 30% by weight, shell There is a disadvantage in that the amount of the reduced is reduced the basic effect pursued in the present invention.

The following examples illustrate the invention in more detail, but do not limit the scope of the invention.

Example 1

The oyster shells are collected, washed once with water, and dried. Then, it was ground using a grinder to obtain an oyster shell powder having an average particle size of 5 mm or less.

The oyster shell powder was sprayed to flatfish farm, but once every 10 days at 100g per 1㎡, the pH of the farm water was little changed until the farming was completed, but the amount of hydrogen sulfide and ammonia gas tended to decrease. .

Example 2

The same procedure as in Example 1 was conducted except that 70 wt% shell used in Example 1 and 30 wt% of an average particle size solid iron chloride were used. There was little change in pH of the farm water until the culture was completed. The amount of ammonia gas was also reduced, and the hydrogen sulfide tended to be reduced in larger amounts than in Example 1.

Example 3

The procedure was the same as in Example 1, except that 70% by weight of the shell used in Example 1, 15% by weight of the average particle size solid iron, and 15% by weight of the zeolite of 2-5 mm were used. There was little change in pH of the farm water, and the amount of hydrogen sulfide, ammonia gas and ammonia nitrogen decreased, and the amount of ammonia nitrogen and ammonia gas tended to decrease much compared with Example 2.

As described above, the present invention consists of 70-100% by weight of shells prepared by crushing the dried shells and 0-30% by weight of at least one of iron and zeolite. It is used to improve the effectiveness of treatment of low quality contamination of fish and shellfish farms by improving the quality of shellfish and shellfish farms with homogeneous mixture of shells made of granules and liquid and solid iron and 2-5 mm zeolite. Not only did they continue to be effective, but they could also be used during aquaculture.

Claims (1)

In the shellfish farm quality improvement agent using a shell manufactured by crushing the dried shell having a particle size of 2-10 mm, 70-100% by weight of the dried shell, A fish and shellfish farm quality improving agent comprising 0 to 30% by weight of at least one of liquid and solid iron or 2-5 mm zeolite.