RU2728407C1 - Method of management in semi-free conditions of japanese sea cucumber breeder in bottom enclosures - Google Patents

Abstract

FIELD: fishing and fish farming.SUBSTANCE: invention is related to fish industry, namely to methods of keeping, breeding and cultivation of aquaculture facilities. Producers of Japanese sea cucumber, which were introduced and gave offspring in conditions of factory breeding, are placed into the bottom enclosure from the net cloth with the help of divers with density not exceeding two individuals per 1 mof the base of the enclosure. Breeder sea cucumber are kept in the bottom enclosure during the whole inter-spawning period. During the period of keeping breeder sea cucumbers in the bottom enclosure, they fully recover their reproductive abilities that allows them to take part in the next spawning. When the period of spawning starts, breeder sea cucumbers are extracted from the bottom enclosure by a diving method and sent to the factory for spawning. After the second spawning, breeder sea cucumbers are returned to the bottom enclosure where they are kept by the proposed method till the next spawning period.EFFECT: method provides multiple application of producers of Japanese sea cucumber.1 cl, 1 dwg

Description

The invention relates to the fishing industry, and in particular to methods of keeping, breeding, growing aquaculture objects.

The Far Eastern sea cucumber Apostichopus japonicus is one of the most valuable sea cucumbers in the East Asian market. The food use of this species is best known. Extracts of sea cucumber contain mucopolysaccharides, chondroitins, various trace elements: manganese, iron, magnesium, phosphorus, copper, iodine, vitamin F _1, B _1, B _2, B _3, C, triterpene glycosides, unsaturated lipids. Trepang extracts have immunostimulating, antibacterial, antioxidant, hepatoprotective, regenerating, antifungal effects. The healing properties of sea cucumber 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.

The Far Eastern sea cucumber, while maintaining the status of a commercial species, is also one of the most valuable objects of mariculture in the northwestern part of the Pacific Ocean. Moreover, the state of its natural populations in different parts of the range is not the same. In the Gulf of Peter the Great, despite a 40-year ban on fishing, the current state of the trepang population is assessed as depressive, its number in the bay is extremely low. Poaching pressure does not allow the trepang to get out of this situation on his own. Natural reproduction does not ensure the restoration of the number of its natural population. Under such conditions, the traditional collector method of culturing trepang, based on the use of a natural larval pool, is also unstable and ineffective, since the collection of its larvae for collectors in mariculture farms is unstable and very low. Artificial reproduction is one of the ways to bring the sea cucumber population of the Peter the Great Bay out of the crisis and put it into a regime of sustainable exploitation. The stability of the harvest of this sea cucumber in fish farms in Primorye should be ensured by the plant breeding technology. Artificial breeding of the Far Eastern sea cucumber using the factory method of obtaining juveniles is widely developed and successfully used in China, which is the constant leader in the production of commercial sea cucumbers. In Primorye, the number of trepang juveniles obtained annually under factory conditions is already in the tens of millions.

Factory breeding of sea cucumber includes: catching broodstock, placing them in containers with seawater, adaptation to the conditions of detention, stimulation of maturation of sexual products and spawning, spawning, incubation of eggs, rearing larvae to the settling stage, feeding and rearing juveniles in containers to a viable stage, resettlement viable fry to selected areas in the sea. In Primorye, catching of sea cucumbers for factory breeding is carried out from the natural (wild) population by diving. The main selective feature of the selection of producers is their size and weight. Breeders weighing 200 grams or more are selected for spawning. It is believed that the larger the producers, the better. Every year, each large fish farm breeding sea cucumbers in the factory catches up to 500 sea cucumbers from the natural (wild) population. Catching and selecting sires for breeding trepang in the factory is a difficult and costly undertaking, since their numbers in the natural population are extremely low and are decreasing from year to year. Keeping them after spawning in the factory is also problematic - there are usually no free containers and the necessary feed. After spawning, brood trepangs are released back into the sea or sent for processing. As a result, brood trepangs participate in spawning only once. It is impossible to form a broodstock to obtain offspring with the best qualities in subsequent years under such conditions. Therefore, the issues of preserving the sea cucumbers after spawning, the issues of keeping them during the interspawning (winter) period in conditions that ensure full restoration of reproductive functions and the ability to take part in the next spawning, the issues of multiple use of the same spawners to obtain offspring are relevant for factory breeding. Far Eastern sea cucumber.

When describing the method of keeping Far Eastern sea cucumbers in bottom enclosures during the interspawning period, the authors use the following terms and abbreviations:

GBTS (hydrobiotechnical structures) - installations, structures, special devices, engineering structures that create a favorable environment for aquaculture objects.

The bottom aviary is a hydrobiotechnical structure (GBTS) made of netting, ropes, anchors and floats for keeping, breeding and growing aquaculture objects, creating an additional substrate and favorable conditions for aquaculture objects on the fenced area of the seabed.

Aquaculture objects - aquatic organisms listed in the "Classifier in the field of aquaculture (fish farming)", breeding and (or) maintenance, the cultivation of which is carried out in an artificially created habitat.

Semi-free conditions of detention - maintenance, breeding and rearing of aquaculture objects acquired in the established order in a fenced-in natural environment, the protective feed and other properties of which support their life support.

Far Eastern sea cucumber producers (broodstock) are mature individuals of the Far Eastern sea cucumber obtained from natural (wild) populations and used in aquaculture for artificial breeding.

The scientific substantiation of the proposed method of semi-free keeping of Far Eastern sea cucumbers in bottom enclosures is based on the peculiarities of the biology of this species. The Far Eastern trepang is an inactive animal, does not make significant migrations. The sea cucumber feeds continuously, day and night, according to the type of feeding it is a collecting detritus-feeder. It feeds on organic matter of the upper sediment layer, particles of organic suspension deposited on the surface of a solid substrate, organisms and microorganisms - bacteria, diatoms, fungi. The sea cucumber feeding grounds are insignificant and the sea cucumber does not leave them until the full consumption of the food supply. Trepang repeatedly passes the top layer of soil through the intestine, which quickly restores its feeding properties.

In Russia, the Far Eastern sea cucumber is an object of pasture aquaculture. In addition to artificial reefs, no other GBTS and methods of industrial aquaculture for the maintenance and cultivation of commercial sea cucumbers are usually used here. After spawning, sea cucumbers are released back into the sea or sent for processing. Bottom enclosures for keeping sea cucumber spawners during the interspawning period are not used, but they are promising, since they allow compactly with a high density without feeding at the expense of the natural environment resources to keep sea cucumber spawners, fully restore their reproductive abilities and repeatedly obtain viable offspring from them.

Known invention "Method of reproduction of trepang" (RU02174749, publ. 20.10.2001, IPC A01K 61/00), in which anfeltia is used as a substrate for the habitat of juvenile trepang. The disadvantage of this method is that it does not allow during the inter-spawning period to contain sexually mature specimens of sea cucumber in a compact and high density, to fully restore their reproductive abilities and to use them repeatedly as producers.

Known invention "Method of factory cultivation of juvenile trepang and installation for its implementation" (RU 02284105, publ. 09/27/2006, IPC A01K 61/00). The method includes catching broodstock from the sea, placing them in a pool with sea water, adapting to the conditions of detention, stimulating the maturation of sexual products and spawning of broodstock by changing the temperature regime, spawning and incubating eggs with rearing larvae to the settling stage, rearing juveniles to a viable stage on substrates in pools with running water supply, feeding and settling them on selected areas in the sea. The disadvantage of this method is that it does not allow during the inter-spawning period to contain sexually mature specimens of sea cucumber in a compact and high density, to fully restore their reproductive abilities and to use them repeatedly as producers.

Close to the claimed invention in technical essence is the description of the method "Cultivation of the Far Eastern sea cucumber" published on the Internet at: http://vcentre.biz/biznes_idei/morskoe_hozyaistvo/vyrawivanie_dalnevostochnogo_trepanga/. In the described method, juveniles of sea cucumbers are collected by the factory or collector method, then deposited on the seabed together with the substrate in the collectors. In order for the trepang fry to freely leave the collector limits at the right moment, cuts are made in the collector shells and the collectors are deepened until the bags touch the bottom. In this case, the trepang can live in the collectors and get out of them to the bottom. In this method, trepang fry are raised as a by-product on scallop collectors. The disadvantage of this method is that it does not allow during the inter-spawning period to contain sexually mature specimens of sea cucumber in a compact and high density, to fully restore their reproductive abilities and to use them repeatedly as producers.

The closest to the claimed invention should be recognized as the invention "Method of bottom cultivation of mariculture objects in semi-free conditions" (RU 0002689676, publ. 28.05.2019, IPC A01K 61/00). The method provides for the production of juveniles of mariculture objects using a factory or collector method, depositing juveniles of mariculture objects on the seabed in an installation in the form of a bottom enclosure, previously fixed on the seabed at certain coordinates, growing mariculture objects to a commercial size and withdrawing the grown products. The disadvantage is that the present invention does not provide for a compact content with a high density of sexually mature specimens of sea cucumber in the interspawning period in order to restore reproductive abilities and their repeated use as producers.

The problem solved by the claimed invention is to create a method for compact keeping with a high density of sexually mature individuals of the Far Eastern sea cucumber during the interspawning period without feeding at the expense of natural resources in conditions that ensure full restoration of their reproductive functions and the ability to take part in the next spawning, with guaranteed prey and multiple use as manufacturers.

This result is achieved by the fact that after spawning in the factory, the producers of the Far Eastern sea cucumber are placed in bottom enclosures made of netting, ropes, anchors and floats, installed on the seabed, with a stocking density of up to 2 individuals per 1 m ^{2 of the} base of the enclosure, where they without additional costs for their maintenance during the inter-reproductive (inter-spawning) period (autumn-winter-spring), at the expense of the resources of the natural environment, they fully restore their reproductive abilities, which allows them to take part in the subsequent spawning. Thus, the same breeding trepangs repeatedly participate in spawning and give viable offspring.

Implementation of the method: the method of semi-free keeping of Far Eastern sea cucumbers in installations in the form of a bottom enclosure (Fig. 1) provides for the selection of a section of the seabed at depths of up to 20 m with soft soils, an even surface, with weak bottom currents. An installation in the form of a bottom enclosure made of netting, ropes, anchors and floats is placed in advance on the selected area and securely fixed. Up to 2 months, the installation is exposed at the bottom of the site, it is inhabited by bacteria, microalgae, fungi, and other micro- and macroperiphyton organisms, which create additional organic matter for feeding trepangs, improving their habitat. In the prepared environment, in the bottom enclosure with the help of divers, the producers of the Far Eastern sea cucumber are placed, spawning and giving offspring under conditions of factory breeding, with a density not exceeding 2 individuals per 1 m ^{2 of the} base of the enclosure. The process of keeping sea cucumbers in the bottom enclosure is carried out without additional feeding, due to the resources of the habitat created in the enclosure, the protective, forage and other properties of which support their life support. During the entire time of the containment, control observations are carried out with the fixation of the number and distribution of trepangs-breeding and fouling organisms in the bottom aviary, if necessary, reclamation work is carried out to remove and remove large starfish and crustaceans. At the onset of the spawning period, trepangs-producers in the required amount are harvested from the bottom enclosure by a diving method and sent to the factory shop for spawning. The spawned sea cucumbers are returned to the bottom aviary, where they are kept in the manner described above until the next spawning period.

The method of semi-free bottom keeping of Far Eastern sea cucumbers using an installation in the form of a bottom aviary is applicable both in areas of the seabed with favorable habitat conditions and on unproductive areas of the seabed. This method allows you to compactly contain trepangs-producers at a density of their planting up to 2 individuals per 1 m ^{2 of the} base of the enclosure. The bottom enclosure forms a favorable habitat for trepangs inside and around itself, promotes the sedimentation of organic and mineral suspensions, creates an additional substrate for habitation, and fouling organisms create additional organic matter for feeding the inhabitants of the bottom enclosure, therefore, trepangs-producers do not leave the bottom enclosure.

Claims (7)

The method of semi-free keeping of Far Eastern sea cucumber breeders in bottom enclosures, providing for the placement of sea cucumbers after spawning in the factory in an installation in the form of a bottom enclosure made of netting, ropes, anchors and overfills, creating significant areas of substrate for the trepang habitat, which is installed in advance on depths up to 20 m in areas of the seabed with soft soils, flat surface, with weak bottom currents, up to 2 months exposed at the bottom of the site, colonized by bacteria, microalgae, fungi, other micro- and macroperiphyton organisms that create additional organic matter for nutrition trepangs, improving the habitat, characterized in that Far Eastern sea cucumber producers, spawning and giving offspring under conditions of factory breeding, are placed in a bottom enclosure made of netting with the help of divers with a density not exceeding 2 individuals per 1 m ^{2 of the} base of the enclosure; sea cucumbers are kept in the bottom enclosure throughout the entire spawning period (autumn-winter-spring); during the time spent in the bottom enclosure, the breeding trepangs fully restore their reproductive abilities, which allows them to take part in the subsequent spawning; at the onset of the spawning period, the trepangs-producers in the required quantity are harvested from the bottom enclosure by a diving method and sent to the factory shop for spawning; after the second spawning, the brood trepangs are returned to the bottom enclosure, where they are kept by the proposed method until the next spawning period; the same specimens of brood trepangs have been taking part in spawning under factory conditions for several years and give viable offspring.

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