RU2730611C1 - Plant for trepangs cultivation - Google Patents

Abstract

FIELD: fishing and fish farming.

SUBSTANCE: plant includes 1 to N bottom open-type cages 1 arranged at bottom of fish-breeding section in parallel rows and kept from surfacing and movement by bottom anchors 3 by means of external tension brace cables 2. Each cage 1 includes rectangular base and vertical walls from the net cloth. Vertical walls and the base of the cage are interconnected by cross-linking at the points of their crossing along the line of abutment. Base of each cage is additionally equipped with cables of internal diagonal, longitudinal and transverse braces. Upper edge of the vertical walls of the cage is connected to a rope having positive buoyancy. Pelagic part is made of ropes and floats, placed above the cage and connected to the latter by means of ropes. At that, pelagic part of installation is made in the form of collectors from propylene rope with threads of the same rope entwined in it along entire length with weaved ends to monothread. Each collector with its lower end is attached to the rope of the upper edge of the vertical walls of the cage at the intersection of its walls, and the top ends of the collectors are attached to the floats, which hold the collectors and walls of the cage inside the water column in the vertical position, without detaching the base of the cage from the ground.

EFFECT: invention ensures growing of trepangs on low-productive fish-breeding areas.

7 cl, 3 dwg

Description

The installation for the cultivation of trepangs belongs to coastal fisheries, namely aquaculture (fish farming).

Far Eastern trepangApostichopus japonicus(hereinafter referred to as "trepang") one of the most attractive currency-intensive mariculture objects in terms of investments and commercial production. A shortage of commercial sea cucumber production, as well as the need for innovative technologies for its cultivation, exists in all mariculture farms of the Russian Far East without exception. An extensive way of increasing the production of commercial sea cucumber in mariculture does not give the desired results, the introduction of intensive farming methods is required. The transition from pasture cultivation of sea cucumber to industrial methods of its cultivation significantly increases the production volumes of this valuable object of mariculture.

Commercial production of sea cucumber by methods of industrial fish farming is widely developed and is successfully used in the countries of East Asia. In these countries, trepang larvae are obtained, and then, actively feeding, are reared to a viable stage in the factory. Viable juvenile sea cucumbers with feeding and (or) without it are grown to marketable size in cages, pools, ponds and (or) on bottom plantations with the use and (or) without the use of artificial reefs made of building materials, stones, concrete structures, nets with shells molluscs, after which they are mined in different ways and allowed to process.

In Russia, trepang larvae are collected on collectors in mariculture farms and (or) obtained under factory conditions, grown in cages and pools to a viable stage, after which they are settled at the bottom of fish-breeding plots, where trepang juveniles grow without feeding in the natural environment under conditions of natural freedom up to commercial sizes. Trepangs of a commercial size are harvested with the help of divers and allowed for processing. Bottom hydro-biological structures (artificial reefs, etc.), as a rule, are not used in this case. The Far Eastern sea cucumber in Russia is traditionally considered an object of pasture aquaculture. One of the problems of pasture cultivation of sea cucumbers is the absence of bottom landscapes suitable for habitation of sea cucumbers on a large bottom area of fish breeding plots, which significantly reduces their physical and production capacity. In practice, most of the bottom surface of the RVU is occupied by underwater landscapes unfavorable for the habitat of trepangs (sands, silts). On such "infertile" areas, pasture cultivation of trepangs is either impossible at all, or the harvest from them is extremely low. Thus, the use of inexpensive, environmentally friendly, innovative methods and installations for the cultivation of sea cucumbers in fish-breeding areas with unfavorable bottom landscapes for sea cucumbers is currently especially relevant.

Known device "Artificial biotope" (RU patent for invention No. 2202881, publ. 27.04.2003, IPC A01K 61/00,), which contains an artificial substrate in the form of ropes woven into them fibrous elements of synthetic material in the form of a fringe. The ropes are placed vertically in the water column. In a vertical position from above, they are held by overlapping, from below by bottom anchors. The device forms biocenoses, contributing to the reproduction of aquatic organisms, improves the living and feeding conditions of fish and invertebrates.

The disadvantage of this device is that it is not applicable for the cultivation of trepangs on an industrial scale, since the device does not create an additional substrate for their habitation, and the habitation of trepangs on the installation itself is impossible, due to the lack of contact with the ground, which is necessary for their normal nutrition; The installation does not allow to grow sea cucumbers on bottom areas with bottom landscapes unfavorable for sea cucumbers.

Also known is the "Reef module" (RU patent for a useful model No. 63315, publ. 05/27/2007, IPC В63В35 / 32), made in the form of a closed loop, consisting of anchors located at the corners of the contour, connected along the perimeter by main cables , on which the pelagic part of the module is hung, represented by reef elements made of bundles of nitro fibers and propylene fabric. The reef biological station-anchor consists of a concrete base in the form of a ring, on which a cylindrical metal frame is rigidly attached, and a main cable, which is attached to the upper part of the metal frame and forms a closed loop. The module is installed on the bottom surface in the depth range of 10-30 m and is designed to increase the self-purification potential of the sea and the reproduction of marine organisms.

The disadvantage of this installation is that it cannot be successfully used for the cultivation of trepangs on an industrial scale, because The installation creates favorable conditions for settling and collecting the larvae of aquatic animals from the natural larval pool, but the area of its biological stations-anchors is very small. Inside the closed loop, there is no additional substrate for the habitation of juveniles and adults, which does not allow using this installation for rearing trepangs in bottom areas with bottom landscapes unfavorable for trepangs. In addition, the specified installation is expensive and difficult to manufacture, and for its installation on a fish-breeding site, it is necessary to use special floating equipment and lifting equipment.

Also known is "Artificial biotope" (RU patent for utility model No. 190503, publ. 02.07.2019, IPC A01K61 / 00), made in the form of a collector made of propylene rope with polypropylene fibers and monofilaments, the lower part of which is attached to a reinforced concrete load, buried in the bottom of the reservoir, and the upper one - to a plastic buoy, which holds the collector vertically in the water column. Polypropylene fibers and monofilaments, woven into a bearing collector made of twisted propylene rope, have a length of 155 to 250 mm and are fixed on it with a knot at a distance of no more than 50 mm from each other. Polypropylene fibers and collector monofilaments create a significant area of artificial substrate, are colonized by microorganisms and bacteria, larvae of aquatic animals actively settle on them, and a local biocenosis is formed.

The disadvantage of this installation is that it cannot be successfully applied for the cultivation of trepangs on an industrial scale. The installation creates favorable conditions for settling and collecting the larvae of aquatic animals from the natural larval pool, but does not create significant additional substrate areas for juveniles and adults; the habitation of trepangs on the installation itself is impossible, due to the lack of contact with the ground, which is necessary for their normal nutrition, and the substrate for their habitation under it is not created, which does not allow the use of this installation for growing trepangs on bottom areas with bottom landscapes unfavorable for the habitation of trepangs ...

Known installation for the cultivation of seaweed and seaweed in polyculture "Anchor structure to transplant seaweed and complex aquaculture system having a function of raising seaweed and sea cucumbers using the same" (KR101418243 *, publ. 04.07.2014, IPC A01K61 / 00), consisting of bottom and pelagic parts. The bottom part is intended for keeping sea cucumbers (trepangs) and (or) mollusks (abalone), made in the form of a volumetric rectangular cage with a netting shell. The cage is securely anchored to the bottom with bottom anchors. The pelagic part is intended for the cultivation of seaweed and is made of a set of parallel ropes connected by transverse guy wires. The pelagic part is located horizontally above the bottom part, connected to it by ropes and supported in the water column by floats.

The disadvantage of this installation is that it cannot be successfully used for the cultivation of trepangs on an industrial scale, because does not create significant areas of substrate for juvenile and adult specimens of trepangs, in addition, it is difficult to manufacture; for its installation on a fish-breeding site, it is necessary to use special floating equipment and lifting equipment.

This technical solution is the closest both functionally and in purpose, therefore it is taken as a prototype.

The objective of the claimed invention is to create an installation for the cultivation of sea cucumbers on an industrial scale, easy to manufacture, does not require special equipment when mounted at the bottom of the fish-breeding site, allowing to fully use the natural reproductive potential of natural populations of sea cucumbers, to grow sea cucumbers in unproductive fish breeding areas with unfavorable habitats for sea cucumbers bottom landscapes, while ensuring consistently high harvests.

The problem is solved by the fact that the installation for the cultivation of trepangs contains a bottom part and a pelagic part. The bottom part is made in the form of aviaries in an amount from 1 to N, which are installed at the bottom of the fish breeding area in parallel rows. Each enclosure includes a rectangular base and vertical netting walls. The vertical walls and the base of the aviary are fastened to each other by stitching at their intersection along the abutment line, and the base of each aviary is equipped with internal diagonal, longitudinal and transverse stretch ropes to maintain its shape. The upper edge of the vertical walls of the enclosure is fastened to a rope with positive buoyancy. The enclosures are fixed to the bottom with bottom anchors by means of external guy ropes. The pelagic part is made of ropes and floats, placed above the aviary and connected to the latter by means of ropes. In this case, the pelagic part of the installation is made in the form of collectors made of propylene rope with segments of the same rope woven into it along the entire length with ends unbraided to monofilaments. Each collector is attached with its lower end to the rope of the upper edge of the vertical walls of the enclosure at the points of their intersection, and the upper ends of the collectors are fastened with overlaps, which hold the collectors and the walls of the enclosure in the water column in a vertical position, without lifting the base of the enclosure from the ground.

In addition, the open-air cages are installed at the bottom of the fish-breeding site in the order in which the distance between the open-air cages in a row and the distance between the rows are from 0.5 to 1.0 of the size of the open-air cage.

To fix the installation at the bottom of the fish breeding area, prefabricated bottom anchors are used, consisting of 5-6 concrete elements weighing 50 kg each, connected with a nylon rope.

To each bottom anchor, depending on its location, external guy ropes from 1 to 4 aviaries are attached.

The length of the collector's propylene rope ranges from 2 to 3 m and the diameter is 10-12 mm.

Along its entire length, pieces of the same rope 40-60 cm long are interwoven into the twisted propylene cable of the collector after 15 - 30 cm between its strands.

The rope segments are woven into the twisted collector rope by double passing through its strands in such a way that they are held in the middle by the rope strands without additional fastening, and the free ends of the woven rope segment are approximately the same length and unfurl to monofilaments, which form a substrate for settling and collecting larvae.

Common features for the proposed solution and prototype are:

- bottom part;

- pelagic part;

- the bottom part is made in the form of an open-air cage, installed at the bottom of the fish-breeding area and fixed on it with the help of anchors;

- the aviary includes a rectangular base and vertical walls made of netting;

- the pelagic part is made of ropes and floats, placed above the aviary and connected to the latter by means of ropes;

Distinctive essential features of the proposed solution are:

- the installation includes from 1 to N aviaries, which are installed in parallel rows at the bottom of the fish-breeding area;

- the vertical walls and the base of each aviary are fastened together by stitching at their intersection along the abutment line;

- the base of each enclosure is equipped with internal diagonal, longitudinal and transverse guy ropes to maintain its shape;

- the upper edge of the vertical walls is fastened to a rope with positive buoyancy;

- the pelagic part of the installation is made in the form of collectors made of twisted propylene rope with sections of the same rope woven into it along the entire length with ends unbraided to monofilament;

- the rope sections are woven into the twisted collector rope by double passing through its strands in such a way that they are held in the middle by the rope strands without additional fastening;

- each collector is attached with its lower end to the rope of the upper edge of the vertical walls of the enclosure at the points of their intersection;

- the upper ends of the collectors are fastened with overlays, which hold the collectors and the walls of the enclosure in the water column in a vertical position, without lifting the base of the enclosure from the ground.

Thus, it is precisely such a set of general and distinctive essential features of the claimed device that allows us to solve the problem posed - to create an installation for the cultivation of trepangs on an industrial scale.

The feature "the installation includes from 1 to N bottom enclosures, placed at the bottom of the fish breeding area in parallel rows and held by bottom anchors by means of external stretch marks" allows creating significant substrate areas for juveniles and adults of trepangs, promotes sedimentation of organic and mineral suspensions, accumulation and retention of detritus , significantly increases the physical and production capacity of the fish breeding site, allows you to grow and keep sea cucumbers compactly with a high density in low-productive fish breeding grounds with unfavorable bottom landscapes for sea cucumbers, without feeding during the entire growth period.

The feature "the pelagic part of the installation is made in the form of collectors made of a propylene rope with sections of the same rope woven into it along the entire length with ends unwoven to monofilaments" creates an additional substrate for settling and collecting trepang larvae from the natural larval pool, provides annual replenishment of the trepang herd with juveniles, living in the installation, due to the natural reproductive potential of its natural populations.

The invention is illustrated by drawings, where:

- in Fig. 1 shows a general view of the installation for the cultivation of trepangs; in fig. 2 shows a general view of the bottom enclosure; in fig. 3 shows a fragment of a collector made of a twisted propylene rope with sections of the same rope woven into it, the ends of which are unbraided (uncoiled) to monofilaments.

The following designations are adopted in the drawings:

1 - bottom enclosures;

2 - external guy ropes;

3 - bottom anchors;

4 - bottom part of the aviary;

5 - pelagic part of the aviary;

6 - base (bottom) of the aviary;

7 - side vertical walls of the enclosure;

8 - internal vertical walls of the enclosure;

9 - rope of the perimeter of the base of the aviary;

10 - ropes of longitudinal and transverse internal stretch marks of the base of the aviary;

11 - rope of the upper edge of the vertical walls of the enclosure;

12 - collectors of twisted propylene rope with sections of the same rope woven into it with ends unbraided to monofilament;

13 - float;

14 - twisted propylene cable of the collector;

15 - pieces of propylene rope woven into the collector rope;

16 - free ends of the rope segment 15, unbraided to monofilaments.

The installation (Fig. 1) includes from 1 to N aviaries 1, located at the bottom of the fish breeding area in parallel rows. Bottom enclosures 1 are the key elements of the installation and represent a single non-separable one-piece structure. Bottom enclosures are made at net knitting factories in workshops for the production of fishing gear. Aviaries 1 are stretched and fixed on the seabed by means of ropes 2 external guy wires with bottom anchors 3. Bottom anchors 3 are a prefabricated structure with a total mass of 250-300 kg, consisting of 5-6 concrete elements weighing 50 kg each, connected by a nylon rope, provide reliable fixation of the aviary on the selected area of the seabed in precisely specified coordinates and keep the aviary from surfacing and moving under the influence of currents and storm surges. Bottom anchors are made from seawater-resistant concrete at enterprises that produce reinforced concrete products. Aviary (Fig. 2) consists of 4 bottom and 5 pelagic parts. The bottom part of the 4th enclosure (the enclosure itself) has a rectangular base 6 with a size of 20 x 20 m, side 7 and internal 8 vertical walls with a height of 1 to 1.5 m.The base of the 6 enclosure is made of nylon netting with negative buoyancy, its shape is maintained nylon ropes of the perimeter 9, ropes of internal diagonal, longitudinal and transverse 10 extensions, fastened to the base plate 6 by stitching. The side 7 and internal 8 walls of the enclosure are located perpendicular to its base 6 and form the same rectangular open upward cells measuring 4 x 4 m. The side 7 and internal 8 walls of the enclosure are made of sinking nylon or floating polypropylene netting. The lower edge of the mesh of the lateral 7 and internal 8 walls of the aviary is fastened with the ropes of the perimeter 9, the ropes of the longitudinal and transverse 10 internal extensions of the base 6 of the aviary by sewing. The upper edge of the mesh of the walls 7 and 8 of the aviary is stitched together with a rope 11 of positive buoyancy. Lateral 7 and internal 8 vertical walls at the intersection are fastened together by stitching along the abutment line. The pelagic part 5 of the aviary is made in the form of collectors 12 for collecting trepang larvae from the natural larval pool. The lower end of the collector 12 ends with a loop, by means of which the collector is attached to the rope 11 of the upper edge of the aviary walls at their intersection (at the corners of the cells). On the upper ends of the collectors 12 are attached overlays 13. The sizes of overlays 13 are selected so as to keep the collectors 12 and the walls 7 and 8 of the enclosure in the water column in a vertical position, without tearing the base 6 of the enclosure from the ground. Each collector 12 (Fig. 3) is made of a twisted propylene rope 14, which has positive buoyancy, along the entire length of which, 15-30 cm long, segments 15 of the same rope 50-60 cm long are interwoven. Sections 15 are woven by double passing through rope 14, so that they are held in the middle by the strands of rope 14 without additional fastening, and their free ends 16 have approximately the same length. The free ends 16 of the interwoven section 15 of the rope are untwisted (unraveled) to monofilaments, as a result of which the collectors 12 form a large substrate area for settling and collecting the trepang larvae from the natural larval pool. The length of the rope 14 of the collector 12 is 2-3 m. The diameter of the propylene rope 14 of the collector 12 is 10-12 mm.

Installation for culturing trepangs works as follows:

- the installation (Fig. 1) is used on flat areas of the bottom of the RVU with soft soils and weak bottom currents at depths of up to 20 m. The unit consists of 1 to N bottom enclosures, which are placed on the bottom of the RVU in parallel rows. Aviaries 1 are installed in precisely specified coordinates by means of external guy wires 2 with bottom anchors 3. The bottom anchors keep the aviaries from floating and moving under the influence of currents and storm waves. The distance between rows of enclosures and the distance between enclosures in a row is from 0.5 to 1.0 enclosure sizes. The installation is mounted in advance and exposed at the bottom of the fish-breeding area within 2 months. The netting, ropes and anchors of the installation are inhabited by bacteria, microalgae, fungi, and other micro- and macro-periphyton organisms, which create additional organic matter for feeding trepangs, improving their habitat. After that, with the help of divers, fry or juvenile trepangs with a final density of 5 individuals per 1 m ^{2 of the} base (bottom) of the aviary, taking into account the percentage of survival, are placed in the prepared environment in the bottom enclosures with the help of divers. Every year, two to three weeks before the beginning of the settling period of the trepang larvae (late June - early July), the pelagic part 5 (Fig. 2) of the enclosures of the installation is renewed, which allows for the maximum collection of trepang larvae from the natural larval pool annually, replenishing the herd of trepangs in the installation young of natural origin. The process of growing trepangs to marketable size is carried out without additional feeding, using the resources created in the installation of the habitat, the protective, feeding and other properties of which support their life support. During the entire time of the trepang cultivation, control observations are carried out for the number and distribution of trepangs and fouling organisms in the enclosures; if necessary, reclamation works are carried out to remove and remove sea stars and large crustaceans. When the sea cucumbers reach commercial size, every year at the end of autumn (November), sea cucumbers are selectively harvested from the installation by diving method and sent for processing. As the commercial sea cucumber is removed from the installation and the density of sea cucumbers remaining in the installation is reduced below 3 individuals per 1 m ² , fry or juvenile sea cucumbers are added to the installation in the required amount, maintaining the density of sea cucumbers at the level of 5 individuals per 1 m ^{2 of the} base (bottom) aviaries. The installation (Fig. 1) forms a living space for trepangs at the bottom of the RVU, creates shelters for its juveniles and adults, increases the physical capacity of the RVU. Vertical walls 7 and 8 (Fig. 2) of enclosures additionally on both sides serve as a substrate for trepangs, a food area, a substrate for the formation of communities of fouling organisms, sedimentation of suspensions, the development of microalgae, bacteria and fungi. The installation can be used in unproductive fish-breeding areas with bottom landscapes unfavorable for the habitat of trepangs, it can be used for 12-15 years, and its size can be changed (the number of enclosures in the installation). Installation of the unit on the RVU does not require special watercraft and lifting mechanisms, all work can be performed by divers in light diving equipment. The installation does not create obstacles for navigation, does not lead to irreversible changes in the bottom topography, does not have a negative impact on the biota, if necessary, it can be dismantled. Together with the Far Eastern sea cucumber, the plant can be used to cultivate a scallop. Objects of mariculture inhabited in the installation are in a state of relative freedom, do not require feeding, their life support is fully supported by the resources of the habitat created in the installation. The installation provides annual replenishment of the trepang herd inhabiting it due to the natural reproductive potential of wild trepang populations. The proposed installation for the cultivation of trepangs allows you to increase the production capacity of fish farms and get high quality products.

Claims (7)

1. Installation for the cultivation of trepangs, containing a bottom part and a pelagic part, the bottom part is made in the form of an aviary installed at the bottom of the fish-breeding section and fixed with bottom anchors by means of external cable ties, while the aviary includes a rectangular base and vertical walls made of netting, the pelagic part is made of ropes and floats, located above the aviary and connected to the latter by means of ropes, characterized in that the installation includes from 1 to N aviaries, which are installed at the bottom of the fish breeding area in parallel rows, while the vertical walls and the base of each aviary are fastened together by stitching at the points of their intersection along the abutment line, the base of each enclosure to maintain its shape is additionally equipped with ropes of internal diagonal, longitudinal and transverse stretch marks, the upper edge of the vertical walls of the enclosure is fastened to a rope with positive buoyancy, the pelagic part of the installation is made in in the form of collectors made of propylene rope with sections of the same rope woven into it along the entire length with ends unbraided to monofilament, each collector is attached with its lower end to the rope of the upper edge of the vertical walls of the aviary at their intersection, the upper ends of the collectors are fastened with overlaps that hold the collectors and the walls of the enclosure in the water column in a vertical position, without lifting the base of the enclosure from the ground. 2. Installation for the cultivation of trepangs according to claim 1, characterized in that the aviaries are installed at the bottom of the fish-breeding site in an order in which the distance between the aviaries in a row and the distance between the rows is from 0.5 to 1.0 the size of the aviary. 3. Installation for cultivating trepangs according to claim 1, characterized in that prefabricated bottom anchors are used to fix the installation at the bottom of the fish-breeding section, consisting of 5-6 concrete elements weighing 50 kg each, connected by a nylon rope. 4. Installation for the cultivation of trepangs according to claim 1, characterized in that to each bottom anchor, depending on its location, the ropes of external stretch marks from 1 to 4 aviaries are attached. 5. Installation for cultivating trepangs according to claim 1, characterized in that the length of the twisted propylene cable of the collector is from 2 to 3 m, and the diameter is 10-12 mm. 6. Installation for the cultivation of trepangs according to claim 1, characterized in that along the entire length of the twisted propylene rope of the collector, after 15-30 cm between its strands, pieces of the same rope 40-60 cm long are interwoven. 7. Installation for cultivating trepangs according to claim 1, characterized in that the rope sections are woven into the twisted collector rope by double passing through its strands in such a way that they are held in the middle by the rope strands without additional fastening, and the free ends of the woven rope segment have approximately the same length and bloom to monofilaments, which form a substrate for settling and collecting larvae.

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