RU2687595C1 - Installation of bottom cultivation of mariculture objects in semi-free conditions - Google Patents

Abstract

FIELD: fishing and fish farming.SUBSTANCE: installation is made in the form of a bottom cage and contains a rectangular base with modules installed on it. Cage base is made from web fabric, supported by perimeter ropes, ropes of diagonal, lengthwise and transverse inner braces, stretched and fixed on sea bottom by means of anchors providing reliable fixation of enclosure at bottom section in exactly specified coordinates. Cage module comprises a bottom, inner and side walls forming cells of equal size, wherein side and inner walls of the modules are located perpendicular to the base of the cage. Bottom of modules is made from web, is supported by perimeter cables, ropes of internal tension braces. Side and inner walls of the modules are made of a web. Bottom edge of module walls is connected with perimeter ropes and ropes of inner braces of module bottom. Upper edge of the module walls is connected to a rope of positive buoyancy, to which there is a layer of build-ups to support the side walls of the module in a vertical position. Welds are made of plastic and filled with air.EFFECT: plant considerably increases production capacity of fish-breeding areas.19 cl, 3 dwg

Description

The invention relates to the fishing industry, in particular to installations for the bottom cultivation of objects of mariculture in semi-free conditions.

The cultivation of objects of mariculture, especially marine invertebrates, is widely developed and successfully used in Japan, China, the Korean Republic, North Korea and others. Marine invertebrate larvae are harvested at industrial conditions, harvested at collectors in fish farms, then grown in cages, pools to the fry stage . Growing marine invertebrates - mariculture objects from the fry stage to marketable size is currently the weak link in fish farming. Bottom open-air cages for growing juvenile objects of mariculture are not used, but they are promising, since they do not require the cost of feeding animals, allow maximum use of the bottom surface of the infertile fish-breeding areas and receive more production per unit area than with traditional pasture cultivation. Objects of mariculture inhabiting the aviary are in a state of relative freedom. Today the mariculture market is developing dynamically, the number of fish farms is increasing every year. The installation of bottom cultivation of objects of mariculture in semi-free conditions proposed in the application will allow increasing the production capacity of fish farms and obtaining high-quality products.

The proposed installation is applicable for the cultivation of several species of marine invertebrates - objects of mariculture, such as Gray's mussel, sea scallop, Swift scallop, Equipagate skifarkan, gray sea urchin, Far Eastern trepang. To a greater extent, the installation is applicable for the production of the Far Eastern trepang. Together with the trepang it is possible to grow other species from the listed marine animals, with the exception of the gray sea urchin, since the sea urchin is a food competitor of the sea cucumber. The claimed installation was tested on the Far Eastern trepang.

The Far Eastern trepang is an inactive animal; it does not make significant migrations. The trepang feeds continuously, day and night, according to the type of food it is collecting detritophage-grunt-eater. It feeds on organic matter of the upper layer of sediment, particles of organic suspension suspended on the surface of a solid substrate, organisms and microorganisms - bacteria, diatom algae, fungi. The feeding grounds for the trepang are insignificant and the trepang does not leave them until the complete consumption of feed stock. Trepang repeatedly passes through the intestines the top layer of soil, which quickly restores its feeding properties. Far Eastern trepang is the most valuable type of sea cucumbers on the East Asian market. The most famous food use of this species. Extracts of trepang contain mucopolysaccharides, chondroitins, triterpene glycosides, unsaturated lipids, various trace elements: calcium, iron, magnesium, zinc, vitamin F, B _1; B ₂ , B ₃ , C ,. The healing properties of trepang are known to medicine for a long time - even in ancient China it was used to prepare medicines with a rejuvenating effect. Extracts from trepang have an immunostimulating, antibacterial, antioxidant, hepatoprotective, regenerating, antifungal effect.

In the process of production of commodity trepang, its larvae are prefabricated or collected for collectors in fish farms. Then they are grown to the stage of viable juvenile (age 1 ⁺ year) in cages or pools with the use of feeding. After that, they are settled on the bottom of fish-breeding plots, where the young grow in the natural environment in conditions of natural freedom to the marketable size with subsequent prey. One of the problems of such pasture cultivation of sea cucumbers is that most of the bottom surface of fish plots is occupied by underwater landscapes unfavorable to the habitat of sea cucumbers. In such “infertile” plots, grazing of trepang is either not possible at all, or the harvest from them is extremely low. To create conditions favorable for the growth of young and habitat of sea cucumbers, artificial reefs are constructed of reinforced concrete structures, stones, and building materials. The creation of artificial reefs requires significant costs, moreover, they drastically and irreversibly alter the bottom relief and biota of the hatchery. Thus, the development and use of low-cost, environmentally friendly installations for the bottom cultivation of young objects of mariculture in fish plots under semi-free conditions is particularly relevant at the moment.

A device “Artificial biotope for the protection and reproduction of trepangs” (Copyright certificate No. 980666, published on 12/25/1982, IPC А01К 61/00), consisting of longitudinal curved plates having an S-shaped cross section, is known. Along the longitudinal edges of the plates and along the line of their bending, cuts are made in the form of semi-circles. Due to the shape of the plates, two sections are formed, in one of which, facing upward with the open part, is placed a filler (alga enfeltia or synthetic fiber), which serves to collect the larvae. The device is placed on the bottom so that the second section of the bent plate is facing the open part of the ground. For the manufacture of the device using concrete, ceramics, plastics or other materials with a specific weight of more water. The device is placed on the bottom areas overgrown with bottom vegetation, which are suitable for trepang habitat and serves to collect trepang larvae, increase their survival, and creates shelter for juvenile and adult individuals. The disadvantage of this ¹ invention is that the device does not create significant areas of additional substrate for habitat, does not create conditions for active sedimentation of mineral and organic suspensions, accumulation and retention of detritus, does not provide trepangs with additional sources of organic matter for nutrition, does not allow to grow trepangs on the bottom plots with unfavorable habitat conditions.

Famous artificial marine farm (JP WO 9623405, publ. 08.08.1996, IPC А01К 61/00), consisting of a set of artificial fibers forming a three-dimensional structure, which is located vertically in the water column. In the vertical position, the structure is held on top by overlaps, below - by bottom anchors. Over the course of the water, the traces are set in motion and fluctuate, creating the effect of algae. This serves to lure the fish. Also, the structure serves as a substrate for the settling of larvae and their refuge. The disadvantage of this device is that it is not applicable for the cultivation of objects of mariculture on the type of food that are detritophages, such as the Far Eastern trepang. Since the device is not located on the ground, but in the water column, it cannot serve as a substrate for young and adult sea cucumbers who need access to solid ground particles. The device does not provide for the accumulation and retention of detritus.

The famous "Artificial biotope for the protection and reproduction of trepangs" (USSR Author's Certificate No. 1414364, published on 07/08/1988, А01К 61/00), consisting of longitudinal sections having an S-shaped cross-section, horizontally laid at the bottom. In the sections opened upwards, a filler is placed for the settling of the larvae, holes in the facing of the ground are made for the movement of trepangs. Sections by horizontal radial rods are connected to the central support. Each section is equipped with vertically arranged ribbons of elastic material with twisted ends. Sections are made of asbestos-cement ceramics, plastics or other materials with negative buoyancy. The central support also has a negative buoyancy and additionally serves to hold the unit at the bottom. A cable with a signal float at the upper end is attached to the central support. The device serves to improve the habitat of the sea cucumber, gathering larvae, creates shelter for young and adult individuals. The disadvantage of this device is that the artificial biotope does not create significant areas of additional substrate for habitat, does not create conditions for active sedimentation of mineral and organic suspensions, accumulation and retention of detritus, does not provide trepangs with additional sources of organic matter for nutrition, does not allow to grow trepangs on bottom areas with unfavorable habitat conditions.

The “Artificial Biotope” is known (RF Patent No. 2314684, published on January 20, 2008, IPC А01К 61/00), consisting of an umbrella-shaped frame, bottom anchors located along the perimeter and in the center. In the water column in a vertical position, the frame is held by means of a central buoy and additional buoys of variable buoyancy, made of parachute fabric in the form of domes filled with air. The device creates zones for favorable reproduction and cultivation of mollusks, other invertebrates and algae, for habitat and feeding of fish. The disadvantage of this device is that it is not applicable for growing trepang, because under the installation does not create additional substrate for its habitat, and habitat trepang on the installation itself is impossible, due to lack of contact with the soil, which is necessary for its normal power.

It is also known the invention "Artificial Biotope" (Patent of the Russian Federation No. 2202881, published on April 27, 2003, IPC А01К 61/00), which contains an artificial substrate in the form of ropes with fibrous elements woven into them from synthetic material in the form of a fringe. Ropes are arranged vertically in the water column. In the vertical position from above, they are held by floats, below by bottom anchors. The device forms biocenoses contributing to the reproduction of hydrobionts, improves the living conditions and feeding of fish and invertebrates. The disadvantage of this device is that it is not applicable for growing trepang, because under the installation does not create additional substrate for its habitat, and habitat trepang on the installation itself is impossible, due to lack of contact with the soil, which is necessary for its normal power.

The closest to the claimed invention to the technical essence is the description of the device, published in the network of the Boarding school under the name "Growing the Far Eastern trepang" on the website: http://vcentre.biz/biznesidea/morskoe_hozyajstvo/vyrawivanie_dalnevostochnogo_trepanga/. It is proposed to use collectors for collecting marine invertebrate larvae, other pendant mariculture plants from the net canvas, cage frames, anchor delays from the rope, and end-of-life comb-set cages as an installation for bottom cultivation of sea cucumbers. It is proposed to place all these constructions on the ground at the bottom of fish-breeding areas and thus create an additional substrate for the habitat of the sea cucumber, shelter for its young and adult individuals. The disadvantage of this device is that it does not create significant additional areas for habitat trepang, unsuitable for use on fish plots with unprotected from the waters, with unfavorable habitat for trepang underwater landscapes. Placing such constructions on the bottom will lead to inevitable and irreversible changes in the bottom landscapes and biota of the aquifer.

The inventive installation of bottom cultivation of objects of mariculture in semi-free conditions in comparison with the known, simultaneously plays the role of habitat, substrate for larvae settling, shelter for juvenile and adult individuals, substrate for the formation of communities of fouling organisms - suppliers of additional organic matter for nutrition, organic and mineral sedimentator. suspended matter and battery detritus. Its application does not require the cost of feeding fish-breeding facilities, allows maximum use of the bottom surface of fish-breeding areas, compactly contain grown objects and obtain a volume of production per unit area larger than with traditional pasture cultivation.

The problem solved by the claimed invention is the creation of a universal unit that significantly increases the physical and production capacity of fish-breeding areas, allowing mariculture objects to be located compactly with high density in a state of relative freedom that does not require feeding of mariculture objects during the entire time of their growth until the moment of extraction.

The technical result is achieved by the creation of the installation of bottom cultivation of objects of mariculture in semi-free conditions, including the shell of the network of the canvas, ropes, anchors, naplav. The installation is made in the form of a bottom enclosure and contains a rectangular base with modules installed on it. The base of the open-air cage is made of net canvas, supported by perimeter ropes, diagonal, longitudinal and transverse internal stretch ropes, stretched and secured to the seabed with anchors that ensure reliable fixation of the open-air cage at the bottom section in precisely specified coordinates. The open-air cage module contains the bottom, inner and side walls that form cells of the same size, while the side and inner walls of the modules are perpendicular to the base of the cage. The bottom of the modules is made of network cloth, supported by perimeter cables, internal stretch cables. The side and inner walls of the modules are made of network cloth. The lower edge of the walls of the module is bonded with the perimeter cables and the cables of the internal stretch marks of the bottom of the module. The upper edge of the module walls is fastened with a positive buoyancy rope, to which the overlap is attached to maintain the side walls of the module in a vertical position. The float is made of plastic and filled with air.

The length and width of the base of the enclosure are multiples of the length and width of the bottom of the modules and are from 1 to N module sizes, where N is the number of modules.

The base of the enclosure is fixed on the seabed with the help of concrete anchors weighing 250-300 kg.

The base of the open-air cage is made of a sinking net cloth with mesh size 80-100 mm, thread thickness 5-8 mm.

The bottom of the modules is made of a sinking network web with mesh size of 40-80 mm, thread thickness of 4-5 mm.

The side and inner walls of the modules are made of a floating net fabric with a mesh size of 10–20 mm and a thread thickness of 3-5 mm.

The ratio of length, width and height of the modules is characterized as 20: 20: 1.

The ratio of length, width, height of the module cell is characterized as 4: 4: 1.

The upper edge of the side and inner walls of the module is fastened with a rope having positive buoyancy and ∅ = 10-12 mm.

The ropes of the perimeter and the ropes of the diagonal internal stretch marks of the enclosure base are made of nylon рона = 18-24 mm.

Ropes of longitudinal and transverse internal stretch marks of the enclosure base are made of caprone рона = 16-18 mm.

The ropes of the perimeter of the bottom of the module are made of caprone ∅ = 14-18 mm.

The ropes of the internal stretch marks of the bottom of the module are made of nylon ∅ = 12-14 mm.

The fastening of the net canvas of the base of the open-air cage to the ropes of the perimeter, the ropes of the diagonal, longitudinal and transverse internal stretch marks of the base of the open-air cage is carried out by stitching.

The fastening of the network web of the bottom of the module to the perimeter cables, and the cables of the internal stretch marks of the bottom of the module is carried out by means of stitching.

The fastening of the network web of the side and inner walls of the module to the perimeter ropes and the ropes of the internal stretch marks of the bottom of the module is carried out by stitching.

The fastening of the network web of the side and inner walls of the module to each other is carried out by stitching.

The attachment of the bottom of the modules to the base of the open-air cage is carried out by means of carbines, or quick-release links.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of the installation of a bottom enclosure; FIG. 2 shows the base of the aviary; FIG. 3 - aviary module.

In the figures, the following notation:

1 - the base of the aviary;

2 - aviary modules;

3 - network canvas base;

4 ropes of the base perimeter;

5 - ropes of diagonal stretch marks of the base;

6 - ropes of longitudinal and transverse internal extensions of the base;

7 - anchors;

8 - the bottom of the aviary module;

9 - ropes of the perimeter of the bottom of the module;

10 - ropes of longitudinal and transverse extensions of the bottom of the module;

11 - rope for fastening the surfacing

12 - side, internal walls of the module of the open-air cage;

13 - cells of the aviary module;

14 - float.

The ground enclosure (Fig. 1) is a construction in the form of a rectangle with a side length of up to 100 m. The area of the bottom enclosure is up to 1 ha. An open-air cage consists of modules (Fig. 3) measuring 20 m × 20 m × 1 m, attached to the base of the cage (Fig. 2) and to each other, forming a single installation.

The base of the enclosure 1 is made of a nylon network cloth 3 with a mesh size of 80-100 mm, with a thread thickness of 5-8 mm. The base of the enclosure is edged with a sinking rope 4 of the base perimeter with a diameter of 18-24 mm. Every 20 m, the ropes of the perimeter of the enclosure base are interconnected by longitudinal and transverse internal stretch marks 6 of a sinking nylon rope ∅ = 16-18 mm. The distance between the ropes of the longitudinal and transverse internal stretch marks should correspond to the exchanges of the bottom of the modules. The length of the ropes of the longitudinal and transverse internal stretch marks is 100 m, and is equal to the length of the ropes of the perimeter of the enclosure. Opposite corners of the base of the aviary are connected by cables of diagonal internal stretch marks 5 of a sinking nylon rope ∅ = 18-24 mm. Ropes of internal stretch marks along with perimeter ropes are the main supporting elements of the enclosure design, determine its shape and area, they are stitched together with the net canvas 3 of the enclosure base, they are attached to the enclosure modules 2. The enclosure base 1 is fixed and held at the bottom by anchors 7. Ground anchors are attached to the ropes of the perimeter of the base of the enclosure in their middle part, as well as at the corners. Ground anchors are molded from seawater resistant concrete. Bottom anchors are manufactured with a mass of 250-300 kg, are exposed at the bottom using a crane (winch) with a scow on a GPS in pre-calculated coordinates. Bottom anchors of a different design, of a different material, can be used. Ground anchors 7 - elements of the enclosure design, determining the location of the enclosure on the bottom plot. Their main function is to ensure reliable fixation of the cage at the bottom section in precisely specified coordinates. Anchors keep the bottom enclosure from ascending, moving under the influence of bottom currents and storm waves.

Modules of the bottom enclosure (Fig. 3) - an element of the installation, of which the bottom enclosure consists. The shape of the module determines its bottom 8, which has a square shape with a side length of 20 m. The shape and dimensions of the bottom of the module should correspond to the shape and size of the areas formed by the longitudinal and transverse internal stretch marks 6 and the perimeter 4 cables of the enclosure. The mesh size of the network web is 8 modules bottom = 40-80 mm, thread thickness = 4-5 mm. Along the perimeter, the network web of the bottom of the module is edged with a sinking nylon rope 9 ∅ = 14-18 mm. Every 4 m, the ropes of the perimeter 9 opposite sides of the bottom of the module are interconnected by cables of internal stretch marks 10 of a sinking nylon ∅ 12-14 mm. The length of the ropes of internal stretch marks is 20 m, and is equal to the length of the ropes of the perimeter of the bottom of the module. The ropes of the perimeter of the bottom of the module and the ropes of the internal stretch marks are the main bearing elements of the module construction, determine its shape and area, the net of the bottom of the module 8 is hemmed to them, the side and inner walls 12 are on top of the module 12. from a floating net, the mesh size of which is = 10-20 mm, the thickness of the filament = 3-5 mm. The side and internal walls 12, located along the perimeter of the module and inside it, intersecting with each other, form open cells up to the size of 4 × 4 m. At the intersections, the vertical walls of the modules are attached to each other by stitching. From above, the module walls are edged with a floating rope 11 ∅ = 10-12 mm. From floating up the wall of the module 12 from the bottom is held by the ropes of the perimeter 9 of the bottom of the module and the cables of its internal stretch marks 10. In the vertical position, the walls of the module are supported by overlaps 14. The overlay has a rounded shape (ball shape), made of plastic, inside is hollow. The cavity inside the float is sealed and filled with air. The float is lighter than water and has a significant buoyancy margin The overlap 14 on short streamers is attached to the upper rope of the 11 walls of the module 12 at the points of their intersection. The number and size of the surfacing are chosen so as to keep the module walls in a vertical position and after they have acquired the maximum amount of marine organisms.

Modules 2 are installed on the base of the enclosure 1. Ropes of the perimeter 9 of the bottom of the modules are attached to each other and to the ropes of perimeter 4, the ropes of the longitudinal, transverse internal stretch marks 6 of the enclosure base with carabiners and (or) quick-release links, together forming the installation - bottom enclosure. The aviary modules form the living space for the habitat of the sea cucumber, create shelter for its young and adult individuals, sediment the organic and mineral suspensions of horizontal flows of water masses increasing the production capacity of the aviary, accumulate mineral and organic (detritus) suspensions, resulting in an upper layer of soil in the aviary enriched with organic matter, creating a food base for trepang. In addition, on both sides, the vertical walls of the module serve as a substrate for the habitat of the sea cucumber, as a forage area, as a substrate for sedimentation of its larvae, as a substrate for the formation of communities of fouling organisms, sedimentation of suspensions, and the development of microalgae, bacteria and fungi.

Bottom open-air cages can be used on unproductive fish-breeding areas, reused, resized. Bottom enclosures do not create obstacles for navigation, do not lead to irreversible changes in the bottom topography, do not have a negative impact on the biota, and if necessary, they can be easily dismantled.

Claims (19)

1. Installation of bottom cultivation of objects of mariculture in semi-free conditions, containing a sheath made of net canvas, ropes, anchors, naplav, characterized in that the plant is made in the form of a bottom enclosure, contains a rectangular base with modules installed on it, the base of the enclosure is made of a network cloth , supported by perimeter cables, diagonal, longitudinal and transverse internal stretch cables, stretched and fixed on the seabed with the help of anchors ensuring reliable fixation of the enclosure the bottom section in precisely specified coordinates, the enclosure contains the bottom, inner and side walls forming the same-sized cells, with the side and inner walls of the modules perpendicular to the base of the enclosure, the bottom of the modules is made of a net canvas, supported by perimeter cables, internal stretch cables, the side and inner walls of the modules are made of a network web, the lower edge of the module walls is fastened with perimeter cables and cables of internal stretch marks of the module bottom, the upper edge of the module walls with replays rope with positive buoyancy, which carries the overlap to maintain the side walls of the module in upright, overlap made of plastic and filled with air. 2. Installation under item 1, characterized in that the length and width of the base of the aviary are multiples of the length and width of the bottom of the modules and are from 1 to N module sizes, where N is the number of modules. 3. Installation under item 1, characterized in that the base of the aviary is fixed on the seabed with the help of concrete anchors weighing 250-300 kg. 4. Installation under item 1, characterized in that the base of the aviary is made of a sinking web of mesh with a mesh size of 80-100 mm, filament thickness of 5-8 mm. 5. Installation according to Claim. 1, characterized in that the bottom of the modules is made of a sinking network web with a mesh size of 40-80 mm and a thread thickness of 4-5 mm. 6. Installation according to Claim. 1, characterized in that the side and inner walls of the modules are made of a floating net fabric with a mesh size of 10-20 mm and a thread thickness of 3-5 mm. 7. Installation under item 1, characterized in that the ratio of the length, width and height of the modules is characterized as 20: 20: 1. 8. Installation under item 1, characterized in that the ratio of the length, width, height of the cell module is characterized as 4: 4: 1. 9. Installation under item 1, characterized in that the float is made of plastic, filled with air. 10. Installation according to claim 1, characterized in that the upper edge of the side and inner walls of the module is fastened with a rope having positive buoyancy and ∅ = 10-12 mm. 11. Installation under item 1, characterized in that the ropes of the perimeter and the ropes of the diagonal internal stretch marks of the base of the enclosure are made of caprone ∅ = 18-24 mm. 12. Installation according to claim 1, characterized in that the ropes of the longitudinal and transverse internal stretch marks of the enclosure base are made of caprone ∅ = 16-18 mm. 13. Installation under item 1, characterized in that the ropes of the perimeter of the bottom of the module are made of nylon ∅ = 14-18 mm. 14. Installation under item 1, characterized in that the ropes of the internal stretch marks of the bottom of the module are made of nylon ∅ = 12-14 mm. 15. Installation according to Claim. 1, characterized in that the fastening of the network canvas of the enclosure base to the perimeter ropes, diagonal, longitudinal and transverse internal stretch marks of the enclosure base is carried out by means of stitching. 16. Installation according to Claim. 1, characterized in that the fastening of the network web of the bottom of the module to the perimeter ropes, to the cables of the internal stretch marks of the bottom of the module is carried out by stitching. 17. Installation according to Claim. 1, characterized in that the fastening of the network web of the side and internal walls of the module to the perimeter ropes and the internal stretch marks of the bottom of the module is carried out by stitching. 18. Installation according to Claim. 1, characterized in that the fastening of the network web of the lateral and inner walls of the module to each other is carried out by means of stitching. 19. Installation under item 1, characterized in that the mounting of the bottom of the modules to the base of the aviary carried out by carabiners or quick-release links.

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