NL1035708C2 - Method for trapping elver in coastal and transitional water, involves sucking eels into container via tubes in reservoir and sucking eels into container, where depth of open end of tube is adjustable - Google Patents

Abstract

The method involves attracting eels and transporting the eels by making the water to flow using a water pump that is operated via a battery. The eels are sieved out of water. The eels are sucked into a container via tubes in a reservoir (4) and then sucked into a container, where the depth of an open end of the tube is adjustable using an adjustable element. Passing of eel is detected using a detection device that is provided in each tube. An independent claim is also included for an eels catching device comprising a reservoir.

Description

Method and device for catching glass eels

The invention relates to a method for catching glass eels present in coastal and transitional waters, wherein the glass eel is attracted and entrained by a flow and then sieved from the water.

European eel, born in the Sargasso Sea, reaches Europe via the wave stream at the so-called glass eel stage, the juvenile stage of the eel. The glass eel, which grows up with the fresh water, is transported under natural conditions by the tidal stream with the seawater upstream into the rivers, where it can find a home and where it can then develop into an adult fish. Traditionally, glass eels can easily be scooped out of the water with a fine-meshed cross net. A decreasing eel stock means that this sampling method has become less reliable. There is a need for a more reliable sampling methodology. On the other hand, 20 water works, such as the Afsluitdijk, ensure that the original migration routes of the glass eels are blocked here and there.

By closing the mouths, the glass eel can no longer reach the rivers without human assistance, and at a later stage reach the bosoms and polders. There are special entrances, whereby the glass eel can flow into the rivers via so-called algae channels, through which a small amount of river water flows. The problem 3C here, however, is that only a small percentage of glass eels can reach a river in this way. An additional problem is that due to overfishing, the amount of glass eels in the coastal waters has drastically decreased. Restoration of the glass eel migration is important for maintaining a sustainable population of the European eel.

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The method according to the invention has the purpose of monitoring the growth of glass eels in the coastal waters and of substantially increasing the growth of glass eels in the rivers, so that the eel position can recover. To this end, the method has the characteristic that the flow is generated with the aid of a pump and that the glass eel is sucked through a tube into a reservoir and collected in a container. The method is based on the observation that glass eels are only able to cover some distance independently to a limited extent and that they actually depend entirely on the current present. The flow must therefore be strong enough to attract and carry the glass eel and to prevent captured glass eel from escaping.

A favorable realization of the inventive method has the feature that the. reservoir in a floating state in the coastal waters. Moreover, by placing a number of reservoirs at various locations off the coast, you get a clear picture of the migration routes and the places where the glass eel apparently collects.

A further favorable realization is characterized in that a depth of an open end of the tube is adjustable.

By placing a number of reservoirs off the coast with tubes at different depths, one gets a clear picture of the depths at which the glass eel apparently collects at a given moment.

A further favorable realization is characterized in that a 3C reservoir is equipped with several tubes, the open ends of which end at different depths. This increases the chance that a large school can be sucked into the reservoir.

A further very favorable realization is characterized in that each tube is equipped with at least one sensor, for detecting and / or counting passing glass eels. In this way it can be determined fairly quickly through which tube most of the glass eels are sucked up, so that it becomes possible to adjust the lengths of the other tubes to optimize the catch.

The invention also relates to a device for catching glass eels, comprising a reservoir provided with a fine-mesh grid, characterized in that the reservoir is provided with floats and with anchoring means and that the device also comprises a water pump and a power source . Such a device can be anchored unmanned for a longer period of time in front of a river mouth. The reservoir is preferably provided with at least one tube, via which the glass eel can be sucked into the reservoir from a predetermined depth.

A favorable embodiment has the feature that a length of the at least one tube is adjustable. It is then possible to set the length on the basis of experience and, for example, the time and the tide, such that much glass eel is sucked up.

A further very favorable embodiment is characterized in that the at least one tube is provided with detection means for detecting passing glass eels. It is then possible to continuously check whether the open end of the tube is positioned favorably.

A further favorable embodiment is characterized in that the device is provided with four to eight tubes, each provided with detection means. If several tubes are used, this will generally lead to a better result. With the detection means it is moreover possible to determine via which tube most of the glass eels are sucked up, after which the other tubes can be adjusted such that the open ends are at an identical depth.

A further favorable embodiment is characterized in that each tube is provided with lighting means which can exert an attractive effect on the glass eel.

A further very favorable embodiment is characterized in that the device is provided with adjusting means for adjusting a depth of the open ends of the tubes. The depths of the open ends can then originally be selected differently until it is clear at which depth the glass eel is located. The depths can then be adjusted such that the open ends of all tubes are at the optimum depth.

The invention will now be further explained with reference to the following figures, in which: 1 schematically represents three devices according to the invention in top view;

FIG. 2 schematically represents a device according to the invention in side view;

FIG. 3A schematically represents a device 25 provided with setting means and detection means in side view;

FIG. 3B represents a possible embodiment of a detection device in more detail;

FIG. 4 represents a possible embodiment of an end of a tube in more detail.

FIG. 1 schematically shows three devices 1a, 1b, 1c according to the invention in top view, anchored to buoys 2a, 2b, 2c, 2d near a coastline 3. Each device 35 consists of a reservoir 4 filled with water and with captured glass eels floating is held by two floaters 5a, 5b. Reservoir 4 is further provided with eyelets 6 with which it can be attached to the buoys and with which it can be hoisted in and out of the water. Devices 1a, 1b, 1c are preferably placed at river mouths, pumping stations and the like, where glass eels abide in the hope of being taken inland by the flood.

FIG. 2 schematically shows a device 1 according to the invention in side view, with reservoir 4 and eyelets 10 and with a mesh compartment 7 to which two tubes 8a, 8b are connected which end up outside reservoir 4. A water pump 9 is placed on device 1 which is fed by a battery 10 and which pumps water from reservoir 4 which flows away via the top of reservoir 4. The pumped-off water is replenished via tubes 8a, 8b, with entrained glass eels in mesh compartment 7 remaining eight. Reservoir 4 is, for example, made of a robust plastic, with a removable lid so that compartment 7 can be taken out and emptied.

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FIG. 3A schematically shows a device 1 provided with adjusting means in side view, wherein the open ends of tubes 8a, 8b can be brought to a desired depth, in the expectation that glass eel is present at that depth. The adjusting means for a tube consist of a pulley 11, which is attached to a swiveling arm 12, and a winch 13 with which swiveling arm 12 can be winched. Furthermore, each tube is provided with a detector 14 that can detect passing glass eels. On the basis of the number of observed 3C giasally, one can control winch 13. In the embodiment shown here, there is a winch for each tube. It is also possible to connect all tubes to one winch, so that the ends of the tubes are always at the same depth, the winch being, for example, radiographically controlled on the basis of available data such as the time and the tide and the wind direction.

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FIG. 3B shows a possible embodiment of a detection device 14 in more detail. Detection device 14 consists of a source 15, for example an LED driven by a pulse-shaped current. Next to light source 15 are placed two detectors 16a, 16b, which receive virtually no light from light source 15. If a glass eel passes, this can result in the scattering of a part of the light emitted by light source 15, which can be detected by detectors 16a , 16b.

FIG. 4 shows in more detail a possible embodiment of an end of a tube 8. Tube 8 is closed with the aid of a lid 17 and is provided with openings 18 all around, so that the glass eel is carried along by a horizontally flowing stream. A detection device 14 is placed above openings 18, with which passing glass eels can be detected. Light source 15 is thereby chosen such that visible light is emitted, which can have an attractive effect on the glass eel.

Light source 15 can for example be formed by an LED that emits white light.

1035708

Claims (12)

Method for catching glass eels present in coastal and transitional waters, wherein the glass eel is attracted and carried along by a flow and then sieved from the water, characterized in that the flow is generated by means of a pump and that the glass eel is sucked through a tube into a reservoir and collected in a container. Method according to claim 1, characterized in that the reservoir is anchored in a floating state in the coastal waters. 15 Method according to claim 1 or 2, characterized in that a depth of an open end of the tube is adjustable. Method according to claim 3, characterized in that a reservoir is equipped with a plurality of tubes, the open ends of which end at different depths. 5. Method as claimed in claim 4, characterized in that each tube is equipped with at least one detector, for detecting and / or counting passing glass eels. 6. Device for catching glass eels, comprising a reservoir provided with a fine-mesh grid, characterized in that the reservoir is provided with floats and with anchoring means and that the device also comprises a water pump and a power source. 7. Device as claimed in claim 6, characterized in that the reservoir is provided with at least one tube, via which the glass eel can be sucked into the reservoir. 1035708 Device as claimed in claim 7, characterized in that a length of the at least one tube is adjustable. Device as claimed in claim 8, characterized in that the at least one tube is provided with detection means for detecting passing glass eels. 10. Device as claimed in claim 9, characterized in that the device is provided with four to eight tubes, each provided with detection means. Device as claimed in claim 10, characterized in that each tube is provided with lighting means. 15 Device as claimed in claim 10 or 11, characterized in that the device is provided with adjusting means for adjusting a depth of the open ends of the tubes. 1035708