NO20150932A1 - Shrimp trawl for selection of catch - Google Patents

Description

BACKGROUND

In trawling for shrimp, there have been major problems over many years with bycatch of fish and small shrimp that are not salable. It is therefore claimed, rightly, that the by-catch is largely dumped into the sea by the fishermen. It is forbidden to release by-catch/shrimp fry from Norwegian fishing boats. This must be taken for delivery inland. As fish and prawn fry, etc. have no use, most of this is destroyed. The Directorate of Fisheries and researchers have pointed this out for a long time and many attempts are made to select the catch in the trawling process itself, i.e. that several modifications of shrimp trawls are tried out, such as the insertion of a grate in the trawl that filters out unwanted organisms such as small shrimps/shrimp fry, which thus avoids end up in the collection bag. The collection bag is the end station in a trawl with which the catch is finally pulled up on board the boat and further processed there.

Extensive destruction of bycatch prevents small fish and small shrimp/shrimp fry from growing into a sustainable population. The Directorate and the relevant authorities therefore set very low quotas for fishing to prevent this very thing. This in turn means that fishing becomes less or very unprofitable. It is in everyone's interest to find trawl methods/solutions that provide a sustainable and predictable fishery.

For 20-30 years, the research community in Norway has worked with various measures to select organisms that end up in the trawl (such as the aforementioned grid), but until today there is nothing that works satisfactorily.

Insertion of grates in trawls is mandatory for Norwegian trawlers when fishing for prawns south of the 62nd parallel. In fig. A standard sorting grid that is used today is illustrated.

Fig. 2 shows the principle of catching with a sorting grid installed in a shrimp trawl. The catch is led into the trawl towards the bottom of it by means of a built-in guide net. The catch is then led up along the sorting grid where prawns and small fish pass through and into the collection bag. Fish larger than 19mm thickness go past the grate and out through an opening at the top of the trawl and out into the sea again. This system only separates fish and other organisms that have a thickness greater than 19 mm (19 mm is the requirement for the maximum opening in the selection grid). Today, it works so that everything that comes through the selection grid ends up in the collection bag. When this is pulled up on board the boat, according to the research community, the catch is in principle damaged or dead. That is that by-catch cannot then be released into the sea again in a living state, but must be taken ashore for inspection/use, but which mostly ends up being destroyed.

The problem can be solved to some extent by using a larger mesh size in the collection bag or modifications in connection with this. Fishermen are naturally not interested in this because they believe that this method also selects out shrimp that could have been sold, in other words, this solution is not effective in practice.

What researchers have been working on for many years is a further development of the standard grid (fig. 3). This modification has been tried many times in the past, but has so many limitations that it is considered unsatisfactory and is in principle not applicable; as mentioned, the starting point is the standard grid where the lower part has inserted a number of smaller stakes with smaller stake spacing, approx. 9 mm (Fig 4). The idea is that the small shrimp "go through" and slide past into the lower part of the trawl and from there out via a bottom net with large meshes, which is inserted into the trawl together with a fine-mesh guide net that runs from the separation between the standard grid and the smaller slots, directly back to the sea again.

This system can work under ideal conditions such as when there is a small volume of small shrimp or fish fry. But nature can show itself from many sides, and in practical fishing there are rarely ideal conditions. What happens in practice is that this type of grate clogs again after a while (gets packed with fry, etc.) and then no longer has any practical function. Several boats have tested this with the conclusion that it is poorly functioning and very impractical to handle at sea.

The present invention seeks to solve these problems by providing a shrimp trawl for selecting catch, where the shrimp trawl comprises a conically shaped net which has an open end facing the towing direction of the shrimp trawl and a collection bag for catch in a second narrower end. The shrimp trawl further comprises a grid with a preferably rectangular shape which corresponds to the inside of the shrimp trawl when it is inclined and which comprises longitudinal slats, where the slats are at a distance from each other and where the grid slopes backwards from the lower part of the trawl towards the upper part so that the catch is guided over the grid by the water flow that occurs when the trawl is pulled forward. The shrimp trawl also comprises a hole in the shrimp trawl above the grid, so that the part of the catch that does not pass through the grid exits the trawl through the hole. the shrimp trawl towards the lower part of the grate and thus directs the catch towards the lower part of the grate.

The new thing about the invention is that the first guide net is tightened at its lower end with an elastic which is attached to the trawl wall at the bottom of the trawl 0 to 20 cm in front of the grid and 10 to 30 cm above the bottom and/or the grid;

that the guide net has an extension of 10 to 100 cm, more preferably 20 to 30 cm, which hangs over the grating and delays further movement of the catch along the grating; and that a first bottom net with a larger mesh width than the trawl is inserted in an area in front of the grid, where the meshes have a direction which is approximately parallel to the longitudinal axis of the trawl, so that the meshes maintain their square shape when the trawl is in use; and that a second guide net is positioned at the upper and rear end of the grating and slopes downwards and backwards towards the lower part of the shrimp trawl in the direction towards the collection bag; and that a second bottom net with a larger mesh size than the trawl is inserted in an area between the grid and where the second guide net reaches the bottom of the trawl, where the meshes have a direction that is approximately parallel to the longitudinal axis of the trawl, so that the meshes maintain their square shape when the trawl is in use;

An important element in the present invention is that the behavior of the various organisms is an important part of the reason why the set-up works. It appears that adult shrimp push through obstacles to a greater extent, while other organisms and shrimp fry move away from obstacles. It will therefore only work with shrimp or organisms with similar behaviour

Brief description of the figures

The present invention will now be described by means of examples, with reference to the accompanying drawings, where:

Figure 1 shows a grid of known technology.

Figure 2 shows known technology with guide wire and grating as used in the industry. Figure 3 shows a two-part grate with a lower part with smaller slat spacing to filter out unwanted small shrimp and organisms.

Figure 4 shows a trawl layout with a two-part grid.

Figure 5 shows a trawl layout according to the invention.

Figure 6 shows how the lower part of guide nets 1 and 2 is attached with a pre-tensioned rubber band to the trawl wall. Figure 7 shows a three-dimensional drawing of the present invention where the location of the bottom yarns is clearly shown.

Detailed description

In the following, the direction towards the boat pulling the trawl is referred to as forward and the direction towards the collection bag as backwards. Mesh widths and mesh directions are only discussed where they deviate from known technology. This means that the trawl itself, guide net and collection bag have mesh widths and directions according to known techniques. The same applies to the angles used when setting up guide nets and grates in the trawl. An important point is that the meshes in shrimp trawl nets have a direction which means that the tension in the trawl when it is pulled after a boat comes along the diagonal of the meshes, which causes them to become diamond-shaped and gives the entire trawl an elasticity. As of today, the regulations state that the mesh size in trawls and collection bags must be a maximum of 36 mm and the distance between the slots in the grid must be a maximum of 19 mm. In the following, the passage of the catch through the trawl according to the invention is described. When it comes to scaling, a large trawl primarily has a larger opening, while the rest is largely the same. This means that the size of the trawl primarily affects how long the trawl is out and not the size of the selection mechanism.

The catch enters the trawl as usual and meets a first guide net (1), as shown in fig. 1, 2, and 5 The guide net (1) slopes downwards from the upper part of the trawl backwards towards the lower part to a grid (6) and is sewn into or attached to the trawl wall. The guide net is pre-tensioned at its lower end with an elastic band (2) which is attached to the trawl walls and which runs in an approximately straight line from side to side in the trawl 0-30 cm in front of the grid (6) so that the lower end of the first guide net stands horizontally at a distance of 10 to 30 cm from the bottom and/or the grid, and not like today where the lower end forms an arc which means that the catch mainly ends up in the middle of the sorting grid which thus becomes less efficient (as shown in fig. 1 and 3). At the same time, the elastic means that if catch piles up in the first guide yarn (1), the elastic will stretch and release more catch over the grid. The primary task of the guide net (1) is to guide the catch down to the lower part of the trawl and feed it in over the grate.

In the present invention, a first bottom net (4) with square meshes is inserted in the bottom of the trawl, directly in front of the grate. The meshes have a direction that is 45 degrees with the meshes in the trawl. Or put another way: the meshes are approximately parallel to the longitudinal axis of the trawl. This means that the meshes in the bottom net are not deformed when the trawl is pulled, while the meshes in the rest of the trawl are deformed from a square shape to a diamond shape. This in turn means that it is much easier for organisms caught in the trawl to get out through the bottom net than through the rest of the trawl. Experience from trials carried out by the applicant has shown that a mesh width of 42 mm in the first bottom net (4) gives optimal results when fishing for prawns in the Kattegat and the North Sea at depths from 0 to 400 metres. The area that the first bottom net (4) covers is approximately the entire width of the grating multiplied by a length of 0.5 to 10 metres, most preferably between 5 and 7 metres. However, it can be expected that adjustments to these sizes must be made when using the invention in other waters, where there may be a different size distribution of shrimp or a different species of shrimp.

The first guide wire (1) according to the present invention has an extension (3) of approx. 20-30 cm after the elastic that is not attached at the sides. This will due to the water flow in the trawling direction settles on the lower part of the sorting grid (6) as a minor obstacle. The catch will due to this to some extent get a longer stay in the lower part of the grate.

Different species of fish and shrimp have different behavior and reaction patterns and it turns out that the majority of small fish/fry will pass through the meshes in the first bottom net (4) and back into the sea, while the shrimp do not. The mesh width can be determined according to which size you choose to select away. Since shrimp react differently to fish and fry when resisted, most of the shrimp will pass through the grate.

The catch is then filtered through the grate and larger fish pass over the grate and out through the opening (5) in the upper part of the trawl, which is also common with known telcnikk.

In the present invention, a second guide net (7) has been inserted which is mounted at the top of the grate and which slopes downwards and backwards towards the bottom of the trawl. The second guide net (7) must be mounted at an angle with the longitudinal axis of the trawl of between 20 and 50 degrees, preferably approx. 35 degrees or the same angle as the angle between the first guide net (1) and the longitudinal axis of the trawl. The second guide net (7) ends where the second bottom net ends and the second guide net's lower corners are attached in, or close to, the two rear corners of the second bottom net (8). Most of the prawns and the rest of the fry and small fish that have passed through the grate (6) will thus be led down towards the bottom of the trawl where the fry and small fish swim through the second bottom net (8) and the prawns swim into the collection bag.

In the present invention, a second bottom net (8) with square meshes has been inserted which, like the first bottom net (4), is mounted at an angle of 45 degrees with the meshes in the trawl. The second bottom net (8) is mounted in an area from where the second guide net (7) ends near the bottom of the trawl and 5 to 7 meters towards the grid (6) or to the grid (6), depending on which is shorter, as shown in figure 5. Based on the applicant's experiences, it appears that small shrimp/fry pass out through the second bottom net (8) and out into the sea again. The best result was achieved with a mesh size of 38 mm, that is slightly larger than in the trawl, but in practice quite a lot larger because the meshes in the second bottom net (8) are not deformed by tension in the trawl. Large prawns (9) will proceed from the bottom of the second guide net (7) and further into the collection bag.

As described here, we have tested a shrimp trawl that selects out most of the unwanted catch and not least fry from the shrimp you want to keep for further processing and sale. The present shrimp trawl meets the authorities' wishes regarding resource and environmental management at sea, and the applicant wishes to emphasize that on a global basis it will involve large quantities of fry and small fish that no longer need to be dumped or destroyed. On 3 July 2015, the coast guard ship Ålesund carried out an inspection of the catch that had been obtained with the present invention and was able to ascertain that 100% of the prawns under 60 mm were selected back into the sea.

Furthermore, it appears that the present invention selects out 70 - 80% of small fish and fry that would otherwise have ended up in the collection bag.

What is described in the above is intended only as examples and is not intended to limit the invention. Many more variants with regard to scaling and mesh sizes as well as grid design are possible.

Claims (5)

1. Shrimp trawl for selecting catch, where the shrimp trawl comprises: a conically shaped net which has an open end facing the towing direction of the shrimp trawl and a collection bag with mesh size B for catching in a second narrower end; a grid (6) with a preferably rectangular shape which corresponds to the inside of the shrimp trawl when inclined and which comprises longitudinal slots, where the slots are spaced apart and where the grid slopes backwards from its lower part towards its upper part so that the catch is guided above the grate (6) of the water flow that occurs when the trawl is pulled forward; a hole in the shrimp trawl above the grate, so that the part of the catch that does not pass through the grate exits the trawl through the hole; a first guide net (1) which is positioned some distance in front of the grid and is sewn into or fixed to the trawl and slopes downwards and backwards from the upper part of the shrimp trawl towards the lower part of the grid (6) and thus guides the catch towards the lower part of the grate; and is characterized in that the first guide net is tightened at its lower end with an elastic (2) which is attached to the trawl wall at the bottom of the trawl 0 to 20 cm in front of the grid and 10 to 30 cm above the bottom and/or the grid; in that the guide net has an extension (3) which hangs over the grid (6) and delays the further movement of the catch along the grid (6); and in that a first bottom net (4) with a larger mesh width than the trawl is inserted in an area in front of the grate (6), where the meshes have a direction that is approximately parallel to the longitudinal axis of, so that the meshes maintain their square shape when the trawl is in use; and in that a second guide net (7) is positioned at the upper and rear end of the grating and slopes downwards and backwards towards the lower part of the shrimp trawl in the direction towards the collection bag; and in that a second bottom net (8) with a larger mesh width than the trawl is inserted in an area between the grid and where the second guide net reaches the bottom of the trawl, where the meshes have a direction that is approximately parallel to the longitudinal axis of the trawl, as that the meshes maintain their square shape when the trawl is in use; 2. Shrimp trawl according to claim 1 where the angle between the second guide net (7) and the longitudinal axis of the trawl is between 20 and 50 degrees, preferably 35 degrees. 3. Shrimp trawl according to claim 1 where the angle between the second guide net (7) and the longitudinal axis of the trawl is the same as the angle between the first guide net (1) and the longitudinal axis of the trawl. 4. Shrimp trawl according to any of the preceding claims where the bottom corners of the second guide net (7) are attached to the rear two corners of the second bottom net 5. Shrimp trawl according to claim 1 there first bottom yarn (4) approximately extends across the width of the grid in an area from the grid (6) and 0.5 to 5 meters forward from the grid (6), more preferably from the grid (6) and 1-2 meters forward from the grid ( 6), and where the mesh size of the first bottom yarn (4) is from 20 to 60 mm, preferably approx. 42mm; second bottom net (8) extends approximately the entire width of the grate in an area from where second guide net (7) ends near the bottom of the trawl and 2 to 10 meters, more preferably 5 to 7 meters to the grate (6), and where the mesh width of the second bottom yarn (8) is from 20 to 60 mm, preferably approx. 38 mm.