WO2015118421A1 - Crustacean bait with selectable longevity - Google Patents

Abstract

A bait cake for a crustacean trap, the bait cake comprising a mixture of animal collagen, water, gelatin, gelling agents, fish meal, and fish oil, molded and cured into a cylindrical cake; a method of preparation of a bait cake which preserves the attractiveness of the bait cake to crustaceans, and a method of attracting crustaceans to a trap using the bait cake of 5 the invention.

Description

CRUSTACEAN BAIT WITH SELECTABLE LONGEVITY

FIELD OF THE INVENTION

The present invention relates to fishing. In particular, the present invention relates to baits for crustacean fishing.

BACKGROUND OF THE INVENTION

Historically, raw or frozen fish of various species has been the preferred bait for lobster and crab fishing. Such raw or frozen fish bait is expensive and makes inefficient use of raw materials. In addition, such prior art baits have a detrimental impact on the land and marine environments. To obtain such prior art bait, the fish once caught must be frozen to preserve the bait characteristics. This freezing process requires large amounts of fuel and electrical power. The frozen fish requires cold storage, transport by refrigerated trucks, and freezers on board the boats, all of which consume more fuel. Inevitably, there will be spoilage of the frozen bait, as the raw fish is easily contaminated.

Another negative aspect of using raw fish as bait is the resulting depletion of fish stocks used for bait. In the absence of raw fish bait, some are contemplating the use of chemical products as bait. The present invention is intended to provide a natural source of bait which avoids the use of artificial alternatives and preserves the environment. One alternate to raw fish bait has been pellet bait produced from fish byproducts. Although pellet bait is 100% natural and has demonstrated successful use in the prawn fisheries, the pellet form has not been consistently successful for lobster and crab fisheries when used in the deep colder water areas such as those found on the Atlantic and Pacific coasts of Canada and the United States of America. This likely is due to the way the pellets are manufactured, as well as the binding properties of a pellet. The pellets are made under high heat and high pressure, which essentially cooks the product, resulting in a less desirable attractant value for lobster and crab when used in these lower temperature waters.

In contrast, the bait product of the present invention uses natural ingredients and the manufacturing process does not involve high heat or high pressures, thereby retaining maximum attractant properties in the bait with the highest concentration of fish content possible.

SUMMARY OF THE INVENTION

There is provided a method of preparing a crustacean bait cake, comprising the steps of: in a first container, stirring between 100 g and 750 g of animal collagen granules into 237 ml of water at or below room temperature, and letting the mixture sit until the granules have absorbed all of the water; heating the gelatinous collagen granules at a temperature of between 43 and 60 degrees Celsius until the granules are fully dissolved into a collagen paste; in a second container, rapidly stirring between 5.7 g and 227 g of gelatin into between 60 ml and 600 ml water having a temperature of between 18 and 22 degrees Celsius until the gelatin has absorbed all of the water; mixing the gelatin with the collagen paste to form a collagen gelatin mixture; in a third container, completely kneading between 118 ml and 591 ml of fish oil into between 284 g and 1.14 kg of fish meal to form a fish paste; mixing the collagen gelatin mixture with the fish paste to produce a fish bait mixture; moulding the fish bait mixture into desired shapes and cooling for at least 30 minutes to form fish bait cakes; and curing the fish bait cakes for between 2.5 and 16 hours at or below 22 degrees Celsius.

0.15 g and 15 g of a food preservative selected from the group of food preservatives comprising sodium benzoate and potassium sorbate may be dissolved in the water.

The heating temperature in step (b) may be maintained at 55 degrees Celsius. The water in step (c) may be heated to at least 27 degrees Celsius, or to at least 43 degrees Celsius.

30 mL of aqueous solution containing between 2.8 g and 33 g of a gelling agent selected from the group of gelling agents comprising carrageenan and a carrageenan/dextrose blend may be added to the collagen gelatin mixture. The amount of animal collagen may be 129 g, and may have a Bloom strength of between 100 g and 750 g.

The amount of fish meal may be 737 g, and the amount of fish oil may be 266 ml.

The amount of gelatin may be 39.7 g. The amount of water added to the gelatin may be 73.9 ml.

The bait may be shaped into a cake shape having a circumference of 3 inches and a height of between 1.5 inches and 3 inches.

The amount of food preservative may be between 1 g and 2 g. The amount of gelling agent may be 14 g. There is also provided a bait product produced by the foregoing method. There is provided a method of attracting crustaceans to a trap comprising the steps of placing the product produced by the foregoing method in a crustacean trap and setting the trap in water suitable for trapping crustaceans.

There is further provided a bait cake for a crustacean trap, the bait cake comprising a mixture of animal collagen, water, gelatin, fish meal, and fish oil, dried into a cylindrical cake. The bait cake may be of a size and shape selected to determine the durability of the bait cake during marine crustacean trapping.

BRIEF DESCRIPTION OF THE DRAWING

A detailed description of the preferred embodiments is provided below by way of example only and with reference to the following drawing, in which FIG. 1 is a schematic of a preferred embodiment of the method of preparing a crustacean bait cake of the present invention.

In the drawing, one embodiment of the invention is illustrated by way of example. It is to be expressly understood that the description and drawing are only for the purpose of illustration and as an aid to understanding, and are not intended as a definition of the limits of the invention. DETAILED DESCRIPTION OF THE INVENTION

There is provided a bait product for commercial and recreational lobster and crab fishing. The bait may be pressed into moulds of various shapes, including pucks or cylinders, and referred to herein as "cakes". The cakes may be placed into bait jars or mesh bait bags which may then be placed into the fishing traps. Each cake is comprised of a blend of fish meal and fish oil which is held together with natural animal source collagen and gelatins. The bait cakes are designed to break down over a desired number of days while consistently releasing an attractant to draw lobsters and crab to the bait, which is designed to mimic the attractant value of raw baits currently in use in the industry. The fish meal and fish oil are obtained by rendering raw fish to produce source ingredients which are completely natural. As such, the bait cakes produced from these materials retain the attractant value of fresh or frozen raw fish bait with the added benefit of providing an even greater attractant value due to the high concentration of these rendered materials.

The collagen and gelatins used for binding also are completely natural and are safe for the environment. The carrageenan is derived from seaweed and the dextrose is a sugar base which allows the carrageenan to be workable. This provides a binding characteristic that allows a prolonged natural breakdown of the cake and aids in allowing the gelatin to break apart at a more consistent level allowing the attractant of the cake to perform properly.

Food grade additives such as sodium benzoate or potassium sorbate may be added to control bacterial growth and for mold prevention in order to increase shelf life of the bait cakes. The bait cakes of the present invention provide a high quality attractant bait without causing harm to the environment. When preparing the gelatin mixture by adding the gelatin to the water, it has been found that the final result of mixing is more controlled, quicker and thoroughly mixed if you first "Bloom" the gelatin. It has been found that when adding the dry gelatin to the water solution of warmer and/or of higher temperatures, the gelatin will characteristically form clumps of which cannot be easily broken up and dissolved which could affect the overall outcome of thorough product distribution. "Blooming" solves this issue by not adding the gelatin to warm or hotter water and you thus instead add the gelatin to room temperature or slightly chilled water if so desired while quickly whisking the gelatin in the water solution to provide thorough distribution of water contact with the gelatin and then let sit for minimum 5 minutes to allow the gelatin to absorb the surrounding liquid. This can then be either added as a whole or broken up and added as pieces to the collagen paste of step 2 to be allowed to completely dissolve / melt and be thoroughly mixed to combine with the collagen paste. Blooming also has the added advantage of speeding up production mixing times.

It has been found that when using a Fish Meal & Fish Oil of European Union (EU) Grade Standards, the overall bait cake finished product will be of higher attractant value and will thus increase its performance. The production of EU grade fish meal is of a more refined consistency which makes a more potent naturally smelling product that is of drier texture vs Non-EU grade fish meals. The production of EU grade fish oils provides a noticeably higher scent potency due to having a more overall fattier uniform cream-like characteristics due to not being compromised by the possibilities of any overheating issues which can occur in the processing of Non-EU grade fish oils. Because of the fish meal being of a drier consistency and the fish oil being of a more fattier cream-like consistency, when combining the fish oil with the fish meal the fish meal can retain an average of 6% to 14% more fish oils; this is due to the fact that the molecular structure of these fish oils are not compromised by overheating which would essentially cause a breakdown in the fish oils ability to stick or retain in other product properties. This higher oil content retention along with higher attractant value materials makes for a bait cake with a higher performance value.

It has been found that to ensure finished bait cakes storage and performance it must be stored in an environment which does not exceed 22 degrees Celsius, and must be kept out of extended periods of direct sunlight. It has been found that when the finished packaged product is subject to temperatures of more than 22 degrees Celsius the bait cake will become increasingly malleable to handle which can thus affect the longevity of fishing days. The cake will firm back up again over a small amount of time when put back in a cooler environment and can then be used without any loss of the bait's performance characteristics. If so desired, the packaged bait cakes can be stored in a fridge or freezer environment without the bait cake structure being compromised. During the hotter months of the year, the cakes preferably should be transported in a vehicle or container capable of a temperature controlled environment.

It has been found that if a more "heat resistant" bait cake is desired for use in extreme hotter month temperatures, the bait cake formula can be adjusted to withstand a hotter external temperature up to 29 degrees Celsius. The bait cake formula can be adjusted by using 500 gram strength animal collagen granules, reducing the total amount of gelatin mixture by a minimum of 50% from the standard formula ratio, reducing the total amount of carrageenan or carrageenan/dextrose mixture by a minimum of 75% from the standard formula ratio.

This will create a more dense product that will take much longer to be affected by these hotter temperatures vs the standard formula's mixing ratios. The benefits of this harder cake vs the standard formula include:

1) the cake will withstand hotter temperatures before use thus allowing the cake the capability to be used longer compared to the standard formula. It is not uncommon for fishers to have to leave their baited traps on a hot deck for a couple hours before these traps are dropped back into the water,

2) the cake will take longer to breakdown vs standard formula. Actual longevity or fishing days will vary depending on such factors as being used with a bait bag (less protection) or a bait jar (protection from strong currents and crustaceans), location, depth etc.

3) less concern with a controlled temperature environment when transporting, storage, and handling in hotter temperature environments.

If the bait cake is stored frozen, it should be thawed fully prior to use. According to the preferred embodiment of the invention, as depicted in Fig. 1, the bait cakes may be manufactured according to the following procedural steps:

Step 1 : Stir 129 g of animal collagen granules into 237 ml of water at or below room temperature, and let the mixture sit for at least 20 minutes until the granules are gelatinous to the touch and have absorbed all of the water.

Step 2: Heat the gelatinous collagen granules slowly at a temperature range of 43 to no more than 60 degrees Celsius to fully dissolve the granules to form a collagen paste with the consistency of liquid honey. Preferably, a lid may be placed on the container when heating to avoid evaporation. This will prevent a decrease in viscosity which would make the liquid thicker and less workable for the final mixing of materials.

Preferably, the heating will be carried out at a temperature of between 43 and 60 degrees Celsius, and ideally, the heating temperature for this step will be 55 degrees Celsius. Heating may be accomplished by heating water in a pot and monitoring the water temperature, then placing the gelatinous collagen granules in a glass jar which is placed over the heated water of the pot in a manner which ensures the collagen paste is completely dissolved. Temperature monitoring may also be achieved with a thermometer. In machine production, the temperature of the container may be precisely set to the desired temperatures. Step 3: In a preferred embodiment, in a separate container dissolve 39.7 g gelatin in 73.9 ml water at room temperature of between 18 and 22 degrees Celsius by adding the gelatin to the water while rapidly stirring then allowing the mixture to sit for approximately 5 minutes until the gelatin has absorbed all of the water, known as blooming. In an alternate embodiment, the water may be heated to at least 43 degrees Celsius.

Step 4. Thoroughly mix the dissolved gelatin from Step 3 into the collagen paste of step 2 to form a collagen gelatin mixture. The collagen paste may instead be added to the dissolved gelatin. Step 5: In a separate container, knead together 737 g of fish meal with 266 ml of fish oil until the fish oil is completely absorbed into the fish meal to form a fish paste having no visibly dry portions. Preferably the fish meal and fish oil will meet European Union (EU) Fish Meal and Fish Oil Standards. Step 6: Add the collagen gelatin mixture of step 4 to the fish paste of Step 5 and mix thoroughly to produce a fish bait mixture. Alternatively, the fish paste may be added to the collagen gelatin mixture.

Step 7: Press the fish bait mixture of Step 6 into moulds of desired shape and allow to cool for at least 30 minutes and preferably at least 45 minutes until outer surface is set. Remove partially set fish cakes from moulds, place on vented racking with sufficient bottom venting to cure, allowing air to reach the bottom surface of the cakes, and let sit for at least 2.5 hours at or preferably below room temperature until set. Cakes should not be permitted to dry more than 16 hours to avoid excessive drying. During curing, air may be circulated past the curing cakes to increase the rate of curing. An increase in the rate of curing increases the degree to which the attractant fish oils are sealed into the cakes.

In an alternate embodiment of the present invention having an extended shelf life, in Step 1, prior to adding the water to the collagen granules, 1 to 2 grams of sodium benzoate or potassium sorbate may be dissolved in the water at or below room temperature. In a further embodiment of the present invention, 14 g of carrageenan or a carrageenan/dextrose blend dissolved in 30 ml water at room temperature or below may be added to the collagen gelatin mixture of step 4 prior to mixing with the fish paste.

In alternate embodiments of the present invention, different amounts of various ingredients may be used. The amount of collagen may range from lOOg to 750g. The amount of sodium benzoate may range from 0.5g to 15g. The amount of fish meal may range from 284g to 1.14kg. The volume of fish oil may range from 118 ml to 591 ml. The amount of carrageenan or carrageenan/dextrose blend may range from 2.8g to 33g. The amount of gelatin may range from 5.7g to 227g. The volume of water may range from 60ml to 600ml. In a preferred embodiment, the collagen granules will have Bloom strength of between lOOg and 750g.

The ingredient amounts described herein are sufficient to produce approximately 8 small cakes that fish for 1- 7 days, or 6 medium cakes that fish for 1-10 days, or 4 large cakes that fish for 1-14 days. Ingredients may be altered proportionately to produce larger or smaller batches.

The dimensions of the fish cake may be selected to determine the useful durability or longevity measured in 'fishing days'. The longevity of the bait cakes was determined using sea trials in which bait cakes of differing sizes were placed in crustacean traps underwater in fishing areas. Traps were checked regularly to determine the degree of degradation of the bait cakes over a period of 14 days. "Fishing days' are a measure of bait longevity. For example, a bait cake having a 5 'fishing day' longevity will maintain its integrity and release attractant for 5 days under water in fishing conditions.

Experimental results show that a small cake having a 3 inch circumference and 1.5 inch height will provide 1-7 fishing days. Experimental results show that in a preferred embodiment in which the bait cake is used in a bait jar, this small puck will provide 5-7 fishing days. A medium cake having a 3 inch circumference and 2 inch height will provide 1-10 fishing days. In a preferred embodiment in which the bait cake is used in a bait jar, this medium cake will provide 5-10 fishing days. A large cake having a 3 inch circumference and 3 inch height will provide 1-14 fishing days. In a preferred embodiment in which the bait cake is used in a one liter bait jar, this large cake will provide 10-14 fishing days. Other dimensions are also possible, and bait cake duration will vary depending on environmental factors such as fishing depth, water temperature, current strength, quantity of sea lice, and others. The method of production of the fishing bait cakes of the present invention preserves the attractant value of the fish oil, increasing the longevity of the bait bakes during fishing.

The bait product of the present invention provides several advantages over the prior art. It is sourced from 100% natural ingredients. It is not polluting to the environment. No freezers or refrigerators are required for storage or transport of the bait, reducing energy use. The bait cakes have a longer shelf life than prior art natural bait products, reducing spoilage and waste. The bait cakes of the present invention are very easy to handle and use, reducing fishing costs. Preferably, the bait cakes will be stored in temperatures not exceeding 22 degrees Celsius and out of direct sunlight.

The bait cakes have low water content, reducing their weight. The bait cakes provide consistent concentrated attractant properties over their period of use, thereby preventing unnecessary risks involved in re -baiting during bad weather. Prolonged consistent fishability of the baits of the present invention may permit catch removal without the requirement for rebaiting, as well as delayed trap checking when necessary.

From the foregoing, it will be seen that this invention is one well adapted to attain all of the ends and objectives herein set forth, together with other advantages which are obvious and which are inherent to the apparatus. It will be understood that certain features and sub-combinations are of utility and may be employed with reference to other features and sub-combinations. This is contemplated by and is within the scope of the claims. As many possible embodiments may be made of the invention without departing from the scope of the claims. It is to be understood that all matter herein set forth or shown in the accompanying drawings is to be interpreted as illustrative and not in a limiting sense. It will be appreciated by those skilled in the art that other variations of the preferred embodiment may also be practised without departing from the scope of the invention.

Claims

A method of preparing a crustacean bait cake, comprising the steps of: a. in a first container, stirring between 100 g and 750 g of animal collagen granules into between 60 ml and 600 ml water at or below room temperature, and letting the mixture sit until the granules have absorbed all of the water; b. heating the gelatinous collagen granules at a temperature of between 43 and 60 degrees Celsius until the granules are fully dissolved into a collagen paste; c. in a second container, rapidly stirring between 5.7 g and 227 g of gelatin into between 60 ml and 600 ml water having a temperature of between 18 and 22 degrees Celsius until the gelatin has absorbed all of the water; d. fully dissolving the gelatin into the collagen paste to form a collagen gelatin mixture; e. in a third container, completely kneading between 118 ml and 591 ml of fish oil into between 284 g and 1.14 kg of fish meal to form a fish paste; f. mixing the collagen gelatin mixture with the fish paste to produce a fish bait mixture; g. moulding the fish bait mixture into desired shapes and cooling for at least 30 minutes to form fish bait cakes; and h. curing the fish bait cakes for between 2.5 and 16 hours at or below 22 degrees Celsius.

2. The method of claim 1, further comprising the additional step prior to step (a), of dissolving in the water between 0.15 g and 15 g of a food preservative selected from the group of food preservatives comprising sodium benzoate and potassium sorbate.

3. The method of claim 1, wherein the heating temperature in step (b) is maintained at 55 degrees Celsius.

4. The method of claim 1, wherein the water in step (c) is heated to at least 27 degrees Celsius.

5. The method of claim 1, wherein prior to step (e), 30 mL of aqueous solution containing between 2.8 g and 33 g of a gelling agent selected from the group of gelling agents comprising carrageenan and a carrageenan/dextrose blend is added to the collagen gelatin mixture.

6. The method of claim 1, wherein 129 g of animal collagen is stirred into 237 ml of water.

7. The method of claim 1, wherein the animal collagen granules have a Bloom strength of between 100 g and 750 g.

8. The method of claim 1, wherein the amount of fish meal is 737 g and the amount of fish oil is 266 ml.

9. The method of claim 1, wherein the amount of gelatin in step (c) is 39.7 g and the amount of water in step (c) is 73.9 ml.

10. The method of claim 1, wherein the moulding in step (g) is performed in a container warmed to between 20 and 60 degrees Celsius.

11. The method of claim 1 , wherein the desired shape is a cake shape having a circumference of 3 inches and a height of 1.5 inches for a small cake, 2 inches for a medium cake, or 3 inches for a large cake.

12. The method of claim 2, wherein the amount of food preservative is between 1 g and 2 g.

13. The method of claim 5, wherein the amount of gelling agent is 14 g.

14. A method of preparing a crustacean bait cake, comprising the steps of: a. in a first container, stirring 129 g of animal collagen granules into 237 ml of water at or below room temperature, and letting the mixture sit until the granules have absorbed all of the water; b. heating the gelatinous collagen granules at a temperature of 55 degrees Celsius until the granules are fully dissolved into a collagen paste; c. in a second container, rapidly stirring between 39.7 g of gelatin into between 73.9 ml water having a temperature of between 18 and 22 degrees Celsius until the gelatin has absorbed all of the water; d. fully dissolving the gelatin into the collagen paste to form a collagen gelatin mixture; e. in a third container, completely kneading 266 ml of fish oil into 737 g of fish meal to form a fish paste; f. mixing the collagen gelatin mixture with the fish paste to produce a fish bait mixture; g. moulding the fish bait mixture into desired shapes and sizes and cooling for at least 30 minutes to form fish bait cakes; and h. curing the fish bait cakes for between 2.5 and 16 hours at or below 22 degrees Celsius.

15. A bait cake product produced by the method of claim 1.

16. A method of attracting crustaceans to a trap comprising the steps of placing the product of claim 15 in the trap and setting the trap in water suitable for trapping crustaceans.

17. A bait cake for a crustacean trap, the bait cake comprising a mixture of animal collagen, water, gelatin, gelling agents, fish meal, and fish oil, cured into a cylindrical cake.

18. The bait cake product of claim 14, wherein the cake is a small cake having a longevity of between 5 and 7 fishing days.

19. The bait cake product of claim 14, wherein the cake is a medium cake having a longevity of between 5 and 10 fishing days.

20. The bait cake product of claim 14, wherein the cake is a large cake having a longevity of between 10 and 14 fishing days.