WO2020067933A1 - Bottom culture method for cultivating mariculture species under conditions of partial freedom - Google Patents

Abstract

The invention relates to cultivating mariculture species. A sea floor section is selected that is up to 20 m deep and has soft soil, an even surface and weak bottom currents. A bottom enclosure is placed on the section and exposed, and juvenile Japanese sea cucumbers are then placed therein. Throughout the cultivation period, the number and distribution of the mariculture species and sessile organisms within the enclosure and changes in the epifauna of the sea floor section are recorded; the quantity and quality of organic matter in the upper layer of the soil are determined; and potential predators are removed. As the mariculture species achieve commercial size, they are removed with the help of divers. The method makes it possible to cultivate mariculture species at a high density.

Description

 METHOD FOR BOTTOM GROWING OF MARICULTURE OBJECTS UNDER SEMI-PERMANENT CONDITIONS

The invention relates to the fishing industry, and in particular to methods for breeding, growing mariculture objects in semi-free conditions.

The cultivation of mariculture objects, especially marine invertebrates, is widely developed and successfully used in Japan, China, the Republic of Korea, the DPRK, and others. The larvae of marine invertebrate animals - mariculture objects are obtained from fish hatcheries, collected by collectors in mariculture farms, and grown in cages and pools. to the fry stage. The cultivation of marine invertebrates from the fry stage to the commercial size is currently a weak link in fish farming. For these purposes, the method of pasture cultivation is most often used, in which juveniles are settled on the bottom plots in the natural habitat. The survival rate of mariculture objects during the transition to a bottom lifestyle is rather low and depends both on the viability of one generation or another and on environmental conditions - the presence of favorable bottom landscapes, food sources, features of the hydrological regime, the presence of predators, etc. Bottom cages for rearing juveniles objects of mariculture are not used, but are promising, since they do not require the cost of feeding animals, allow maximum use of the bottom surface of infertile areas and irradiate from a unit area the volume of production is greater than with classical pasture cultivation. Today, the mariculture market is developing dynamically, the number of fish farms is increasing every year. The proposed in the application method of bottom cultivation of mariculture objects in semi-free conditions using the installation in the form of a bottom aviary will allow increase the production capacity of fish farms and get high-quality products.

 Production of mariculture objects by the proposed method in semi-free conditions using installations in the form of bottom aviaries can be applied to various types of marine invertebrates, such as Gray mussel, Scallop scallop, Swift scallop, Scafark irregular, gray sea urchin, Far Eastern trepang, etc. Co-cultivation is also possible. some of these species of marine animals. But to a greater extent, the method is applicable for the production of Far Eastern trepang. The inventive method was tested on the Far Eastern trepang.

The Far Eastern trepang is an inactive animal, does not make significant migrations. Trepang feeds continuously, day and night, according to the type of food it is a collecting detritophage-soil-eater. It feeds on organic matter of the upper layer of sediment, particles of organic suspension deposited on the surface of a solid substrate, organisms and microorganisms - bacteria, diatoms, fungi. The feeding areas of the trepang are insignificant and the trepang does not leave them until the complete consumption of the feed reserve. Trepang repeatedly passes through the intestine the upper layer of soil, which quickly restores its feed properties. Far Eastern trepang is the most valuable species of sea cucumbers on the East Asian market. The best known food use of this species. Trepang extracts contain mucopolysaccharides, chondroitins, various trace elements: manganese, iron, magnesium, phosphorus, copper, iodine, vitamins Ф ₁ В ₁ В ₂ , В _3, С, triterpene glycosides, unsaturated lipids. The healing properties of trepang have been known to medicine for a long time, even in ancient China it was called sea ginseng and was used to prepare medicines with a rejuvenating effect. Extracts from trepang have immunostimulating, antibacterial, antioxidant, hepatoprotective, regenerating, antifungal effects. The invention is known "Method for the reproduction of trepang" (RF patent N ° 2174749, publ. 10/20/2001, IPC А01К 61/00), in which anfelsia taken from pre-outcrops of anfelia fields with a concentration of juveniles is not used as a substrate for juvenile trepang less than 50 ind./m ² and distribute it into sections of the sea with a depth of 2-12 m, salinity of at least 20% o, flow rate of not more than 40 m / s. The disadvantage of this method is that it does not allow compactly with high density without feeding to grow young trepang to market size with subsequent extraction (withdrawal) of grown products. The invention is known “A method of plant cultivation of juvenile sea cucumber and an installation for its implementation” (RF Patent N ° 2284105, publ. September 27, 2006, IPC A01K 61/00). The method includes catching producers from the sea, placing them in a seawater pool, adapting to keeping conditions, stimulating the maturation of reproductive products and spawning of producers by changing the temperature regime, spawning and incubation of eggs with larvae growing to the settling stage, growing juveniles to a viable stage on substrates in a pool with running water supply, feeding and resettling them on selected sites in the sea. The disadvantage of this method is that it does not allow compactly with high density without feeding to grow young trepang to market size with subsequent extraction (withdrawal) of grown products.

Closest to the claimed invention in technical essence is the description of the method of "Growing Far Eastern trepang", published on the Internet at: http://vcentre.biz/biznes_idei/morskoe_hozyajstvo/vyrawivanie_dalnevostochnogo Jrepanga /. In the described method, the trepang juveniles are harvested by the factory or collector method, then they are deposited on the seabed together with the substrate in the collectors. So that the young trepang could freely leave the limits of the collector at the right time, cuts are made in the shells of the collectors and the collectors are buried until the bottom bags touch. In this case, the trepang can live in the collectors and get out of them to the bottom. In this method, the trepang juveniles are grown as related products on Grebeshkovskih collectors. This method is not effective, because it does not allow compactly with a high density without feeding to grow juvenile sea cucumber to marketable size with the subsequent extraction (removal) of grown products and is not applicable in areas whose water areas are not protected from wave impact and ice formation.

The problem solved by the claimed invention is the creation of a method for compact bottom cultivation of mariculture objects to marketable size with a high planting density, a high degree of survival, without feeding, in order to seize (produce) the grown products.

This result is achieved by the fact that in this method the young of mariculture objects with high density are placed in aviaries installed on the seabed, where it grows without feeding under semi-free conditions until commercial sizes are reached. This method of growing mariculture objects provides for the maintenance and breeding of mariculture objects acquired in the established manner in a fenced natural environment, the protective feed and other properties of which support their livelihoods. When objects of mariculture reach marketable sizes, they are withdrawn (produced) by a diving method.

The implementation of the method.

The method of bottom semi-voluntary cultivation of mariculture objects using the installation in the form of a bottom aviary (Fig. 1) involves the selection of a section of the seabed at depths of up to 20 m with soft soils, a flat surface, with weak bottom currents. On this site in For control purposes for environmental monitoring, macrobenthos epifauna studies are carried out, quantitative characteristics of its main representatives are determined to control and eliminate the negative impact of this method on the environment. On the selected site, the installation in the form of a bottom aviary is located and securely fixed. Up to 2 months, the installation is exposed at the bottom of the site, colonized by microorganisms, bacteria, algae, fungi, other fouling organisms that create additional organics for feeding mariculture objects. In the prepared medium, juvenile objects of mariculture with optimal density are placed in the bottom aviary. The juvenile Far Eastern sea cucumber in a certain amount is placed in the labels with anfelia, which, with the help of divers, are delivered to the bottom enclosure and openly placed in the cells of the enclosure. The cultivation process is carried out without additional feeding of mariculture objects in a fenced natural environment, the protective, feed and other properties of which support their livelihoods. Throughout the whole time of growing mariculture objects, control observations are made with fixing the number and distribution of mariculture objects and fouling organisms in the bottom aviary, changes in the quantitative characteristics of the main representatives of the plot epifauna, quality and quantity of organic matter in the upper soil layer, land reclamation works are carried out to remove and remove potential predators - starfish and large crustaceans. When objects of mariculture reach marketable sizes, they are withdrawn (produced) by a diving method.

The method of bottom semi-voluntary cultivation of mariculture objects using the installation in the form of a bottom aviary is applicable both in areas of the seabed with favorable living conditions and in unproductive areas of the seabed. This method allows you to compactly grow objects of mariculture at a high density of them planting, since the bottom aviary forms a favorable environment for living objects of mariculture inside and around it, contributes to sedimentation of organic and mineral suspensions, creates an additional substrate for living, and fouling organisms create additional organics for feeding the inhabitants of the bottom aviary.

Claims

CLAIM

A method of bottom-growing mariculture objects in semi-free conditions, which provides for the receipt of juvenile mariculture objects by the factory or collector method, depositing young mariculture objects on the seabed in an installation in the form of a bottom aviary, previously fixed at the bottom in certain coordinates, growing mariculture objects to marketable size, removal ( production) of mariculture objects, characterized in that before the resettlement of juvenile mariculture objects a section of the seabed is selected at depths of up to 20 m with soft soils, a flat surface, with weak bottom currents, the macrobenthos epifauna is studied, quantitative characteristics of its main representatives are determined in order to control and eliminate the negative impact of this method on the environment, then a unit in the form of a bottom enclosure is placed on the site, installation up to 2- x months is exhibited on the site and is actively colonized by microorganisms, bacteria, algae, fungi, other fouling organisms that create additional sources of organics for I am of mariculture objects, in the prepared environment, juvenile objects of mariculture with optimal density are placed in the bottom enclosure, and the young of Far Eastern trepang in a certain amount is placed in labels with anfelia, which, using divers, are delivered to the bottom enclosure and are placed in open form in each cell of the enclosure, the process cultivation is carried out in semi-free conditions in a fenced natural environment, the protective, feed and other properties of which support their livelihoods, for During the whole time of growing mariculture objects, control observations are conducted with regular fixation of the number and distribution of mariculture objects and fouling organisms in the aviary, changes in the epifauna in the area, determination quality and quantity of organic matter in the upper soil layer, reclamation work on the removal and removal of potential predators - starfish and large crustaceans, when mariculture objects reach marketable sizes, they are removed (extracted) by a diving method.