AU616658B2 - Method and composition for feeding crustacea - Google Patents

Description

I

P/00/011 PATENTS ACT 1952-1973 COMPLETE SPECIFICATION

(ORIGINAL)

FOR OFFICE USE Form Class:I Int. Cl: 616658 :k~pplication Number:, Lodged: S. plt Spcfcto-Lde '*..Rolte Spcrit tin.ode Acetd 'aName of Applicant: Address of Applicant: Actual Inventol:, TO BE COMPLETED BY APPLICANT E.TI. DU PONT DE NEMOURS AND COMPANY., a corporation ox'ganized and existing under the laws of the State of Delaware of' Wilmington, Dolaware, 19898, United States of America.

Malcolm Seaborn SMITH Colaotie Joseph DAIGLE; Address for Service: Care of JAMES M. LAWRIE CO., Patent Attorneys of 72 Willsmere Road, Kew, 3101, Victoria, Australia.

Complete Specification for the Invention entitled METHOD AND COMPOSITION FOR FEEDING

CRUSTACEA

The following statement Is a full description of this Invention, Including the best method of performing It known to No'e_ :The description Is to be typed In double spacing. pica type face, in an area not exceeding 250 mm In depth and 160 mm In width, on. tough while paper of good quality and It Is to be Inserted Inside this form.

1171 o/16-t. I IIm '4 wo rl'niI I 1 i% fI "I o I Ik Imtr Cjni i I_ 1A This invention relates to a method of feeding shrimp and to the feed composition used in that method.

The application is additional to co-pending application 86/59750 filed 4 July 1986 by the same applicant in which additional uses for the compositions disclosed in that earlier application have now been realized.

DESCRIPTION OF THE PRIOR ART Shrimp are raised commercially in captivity and :ed with nutrients derived from a wide variety of products suh as fish and fish by-products, cruatacea meals, animal slaughterhouse products, grains and plant derived products including oils, and A milk and milk by-products. Commercial feeds do not retain their integrity in water for a satisfactory period of time, but dissolve and disintegrate before the shrimp can consume the 'eed. They are held together by a water soluble natural based binder. Feeds of this type dissolve rapidly as pellets thereof S are cast into the water. Feeds are expensive and represent a S significant expense in the raising of shrimp, and the I disintegrated pellet represents feed that is not consumed to by the shrimp. Any vitamins and minerals present in the feed also end up in the water without consumption by the shrimp.

In captive bodies of water in which the shrimp are contained, this unconsumed feed "clouds" the water, making it less hospitable for the shrimp, such as by feeding other organisms in the water and causing the water to lose needed oxygen content.

Various fish and crustaoea baits are available for attracting these creatures into traps, but these have not been used for shrimp because shrimp are caught by nets instead of traps. Baits have not been demonstrated as being suitable for feeding shrimp over much of their life cycle.

it wau i J111 1 o r 2 A need exists for a shrimp feed capable of being consumed by the shrimp and of retaining its integrity in water for a sufficient period of time, on the order of several hours, to allow the shrimp to find and consume the feed.

SUMMARY OF THE INVENTION One aspect of the present invention comprises z method for feeding shrimp, comprising adding to the 10 water habitat of the shrimp, pellets having a size o• suitable for gripping by the shrimp, said pellots having the composition of from about 75 to about 95 weight percent of nutrient, from about 0,5 to I* about 10 weight percent of water insoluble polymer 1 15 having a melting point below about 0lo*C., and (c) optionally an effective amount of lubricant, vitamin, mineral, and preservative.

Another aspect of the present invention is the shrimp feed composition itself.

20 DETAILED DESCRIPTION OF THE INVENTION The nutrient can be prepared from finely divided animal or plant products. Such nutrients include fish meal. powdered fish, crab or other cr'stacea meal, meat scrap, milk solids, blood meal, 25 gra i flour (wheat flour, corn flour, etc.), soybean meal, algae meal, dried yeast, and numerous animal and plant by-products which are well-known to the person skilled in the art. The preferred nutrient is grain flour.

The amount of nutrient medium in the feed of the present invention should be from about 75 to about 95 weight percent, and preferably from about PS to about 93 weight percent. Less than 75 weight percent of nutrient tends to make the composition less effective as a feed for the shrimp.

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3 The polymer component acts as a water resistant binder for the feed composition to give the feed physical integrity for handling and 'hen added to water.

Suitable polymers have the common characteristics of being relatively soft. low melting, water insoluble, and able to accept high filler loadings, such as the very high proportion of nutrient present in the composition, while retaining satisfactory physical strength properties. The polymers must further be soft enough and effective at low concentrations to permit the shrimp to consume the feed. yet strong enough to remain substantially 15 intact over the hours of long feeding periods of the shrimp. The feed is best made by a process which melts the polymer component of the feed composition at a low enough temperature (about 90 llO0C) such that the other components of the feed composition 20 will not be degraded during the processing.

Extruders and pellet mills are examples of apparatus that can be used to accomplish this result. Either process compacts the composition into pellet form while heating the polymer, which is uniformly 25 distributed throughout the composition, to bind the composition together. Microscopic examination of cross sections of the pellet reveals coating of the nutrient particles by the polymer.

Thus suitable polymers include water insoluble 30 polymers having a melting point below about llO~C selected from the group consisting of polyamides and copolymers of ethylene with at least one ethylenically unsaturated comonomer. Examples of such polymers are ethylene/n-butyl acrylate/carbon monoxide (E/nBA/CO), ethylene/methacrylic acid S

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S S *0 (E/MAA), E/BA/MAA. E/BA/GMA (glycidyl methactylate).

E/MAA/VA (vinyl acetate). E/VA/CO. and E/iBA (isobutylacrylate)/MAA. and polyamides. such as "Macromelt" 6301 hot melt adhesive available frpm Hendel Corporation.

The polymers are digested by the shrimp but no parts per million trace of the polymer is found in th, edible portion of the shrimp when harvested.

Generally the ethylenlcally unsaturated comonomer in the ethylene copolymer is present in an amount of from about 15 to about 45 weight percent.

Decreasing the amount of ethylenlcally unsaturated comonomers in a given ethylene copolymer Increases j5 Its melting point, decreases its binding ability, and Increases t'e hardness of the composition. A compromise ot these properties is necessary in the various polymers to produce acceptable feed.

Preferably the ethylenlcally unsaturated comonomk is present in an amount of from about 20 to weight percent, and most preferably from about to about 35 weight percent.

The moat preferred ethylene copolymer is ethylene/vinyl acetate.

25 The amount of polymer in the feed of the present invention is from about 0.5 to about weight percent, and preferably from about 2 to about 6 weight percent.

The composition is in the from of small pellets which can be cradled by the shrimp until consumed, providing a high feed efficiency for the feed composition. These pellets are conveniently obtained by the extrusion processes described above, accompanied by cutting the extrudate to the desired pellet length. Use of the term "pellet" is intended to

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denote a compacted shape of the feed composition but is not intended to limit such shape to any particular geometry.

The size of the pellet is small enough to enable the shrimp to grip the pellet. The exact size of the pellet will depend on the size or growth stage 'of the shrimp. Small or young shrimp may require smaller pellet sizes than larger or older shrimp.

"t 10 In contrast to fish and crustacea bait compositions which are of large size typically exceeding 100 g in bait weight, the shrimp feed pellets of the present invention will usually weigh no more than 1 g/pellet, and usually from about 0.01 15 to about 0.5 g/pellet.

Even though the pellet contains water insoluble polymer binder, the pellet nevertheless has a limited life, in terms of physical integrity, in the water habitat of the shrimp. Usually, the pellet 20 will disintegrate within 24 hours after addition to the water habitat, the exact disintegration time of course depending on such extrinsic factors as water turbulence and water temperature. Apparently, the Shigh nutrient content of the pellet, together with S* 25 its small size. usually less than 10 mm in at least one dimension enables this disintegration to occur.

Of course, to the extent that the shrimp can find the pellets when added to the water habitat, then the shrimp rather than the water will consume the feed composition.

An optional component in the feed composition is a lubricant, to assist the compaction of the feed composition in the processing step. The amount of lubricant, if any, will depend on the particular processing used, e.g. iellet mill or extruder.

Examples of lubricants include edible oils and fish 1

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9SS *550*S 0 solid solubles. The edible oils are considered to be any oils which are not harmful to the shrimp consuming the feed, and preferably are oils which can be digested. Examples of these preferred oil include fish oil, vegetable oil (such as corn ool. peanut oil, cotton seed; oil). Fish solid solubles is a by-product from the preparation of fish meal and will generally consist of about 20 to 50% of fish solids 10 in watez. It is normally largely removed during the preparation of fish meal. Altnough fish solid solubles will contribute some nutritional value to the feed composition, it will be selected in accordance with the present invention, more for its lubrication contribution than nutrition contribution to the composition. Fish meal as the nutrient will normally still contain a certain amount of fish oil and fish solid solubles. Supplemental amounts of lubricant may be required to be added to this or 20 other nutrient components,of the feed composition, in order to aid in the processing of the composition into pellet form. when the nutrient is too "dry.* It is well within the skill of the art to determine when additional lubricant is needed.

The amount of added lubricant may be between 0 and about 20 weight percent, preferably between 0 and about 10 weight percent, and more preferably from about 1 to about 5 weight percent, Another optional component is vitamin and mineral for the shk.mp. These additives are typically available as a concentrate mixture or as separate concentrates Which may be added to the feed composition. The vitamins may be either synthetic or derived from natural sources. A variety of vitamins and/or minerals may be added to the composition, the specific vitamins and minral being determined by the r i 1 a 000* 0O*S I 5 9

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particular nutritional characteristics of the other feed components and by the nutritional requirements of the shrimp species consuming the feed. Thus 'n some cases some selected vitamins may be added, in other cases certain selected minerals may be added.

in some cases a full spectrum vitamin and mineral supplement may be desirable, while in other cases no supplement at all may be necessary. The concentrate 10 may. of course, contain inert non-vitamin material.

as is common with commercial vitamin and mineral concentrates. Since vitamin and/or mineral present in the feed composition increases the rate of growth of the shrimp, an effective amount, preferably from about 0.5 to about 5 weight percent each of mineral and vitamin, is present in the feed composition.

These additives tend to remain in the pellet for consumption by the shrimp rather than be leached out of the pellet by the surrounding water.

Another optional component is up to about weight percent oC a preservative in the feed composition. Examples of preservatives would include mold inhibitors, antioxidants, and other additives known to those skilled in the art. Preferably, an effective amount of preservative is present in the feed composition which will generally be from about 0.01 to about 2 weight percent of preservative present in the feed composition.

With respect to the weight percents of the various components described hereinbefore, it is intended that all the weight percents will add up to 100 weight percent for each feed composition.

Other additives can be present in the feed composition as the need may arise.

The composition of the present invention is suitable for feeding all species of shrimp. including 8 monodons and vannamei. and small shrimp and large shrimp, including the shrimp that are commonly referred to as prawns. Shrimp can generally be described as being small marine decapod crustaceans with slender elongated body, compressed abdomen, long legs, and long, spiny rostrum.

The following examples serve to illustrate the present invention. All parts, percentages, and 10 proportions are by weight unless otherwise indicated.

EXAMPLES

I Compositions of polymer, nutrient medium, and &'to lubricant were dry blended by tumbling for about •minutes. This blend was fed to a 63.5 mm diameter extruder in which the breaker plate and screen pack were removed. A rapid compression screw was used, with a 20.6:1 length:diameter ratio, 1041 mm in Slength with a 267 mm mixing torpedo on the end. Melt temperature was maintained aroung 90 t The blend was extruded through a heated 3.18 mm die to produce a continues rope which was cut' into mm long pellets, each weighing about 0.1 g and having oa diameter of about 3.2 mm.

S* The shrimp feed was supplied by People's Moss Gin Co., of Palmetto. La.

Example 1 Compositions containing 3% and 5% E/VA (33% VA, melt index 43), about 3% of vegetable oil lubricant, and the remainder being shrimp feed, were prepared.

Water absorption and integrity of the compositions were tested. The some properties were also tested for a control sample consisting of the same ingredients as were blended with the E/VA. but employing only a milo-based binder and masonex, a wood-based binder.

9 Both compositions were soaked underwater to determine durability. After 24 hours, the 5% E/VA sample remained essentially whole. The 3% E/VA composition swelled to about twice its original diameter, but remained in recognizable pellet form.

The control sample lost all integrity in under 1 hour.

Water absorption was tested by soaking pellets in distilled water for 4 hours and determining water 10 absorbed as a fraction of pellet dry weight. The o eVA pellets absorbed 82 weight percent water, and the 3% pellets absorbed 112 weight percent water. The collected fragments of the badly deteriorated control had absorbed 584 weight percent water.

15 EXAMPLES 2-4 The following experiments were run to determine the effect of copolymer level on processability and product integrity under water. In each of the following examples the copolymer was a copolymer of ethylene with 40% vinyl acetate, and the nutrient medium consisted of the following composition: soybean meal fish meal 19% 25 corn meal rice bran vitamirl and mineral 1% concentrate Nutrient Copolymer Fish Solid SExample Solubles,' I 2 83 5 12 3 83 2 4 83 0.8 16.2 These composition were extruded through a 3.16 mm die at 5 10 rpm, using a pressure of 1900 1400 psi (13-16.5 MPa). Extrnider temperature was attempted to be maintained at 90-1004C. The actual temperatures are shown below: Temperature Example(4C 2 91 3 104 10 4 92 The compositionls of Examples 2 and 3 were readily extruded. The composition of Example 4 was a *0 extrudable but would have benefited from a greater amount or more effective lubricant.

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S Pellets about 10 mm long prepared from tho extrudate of these compositions were subjected to an 995 *accelerated test for disintegration in water by stirring in water for 1 hour. The remaining solids were collected on a 20 mesh (0.08 mm) screen and 20 dried. The dry weight remaining is expressed below as a percent of the original dry weight. Even under the rigorous conditions of this test. the feed compositions show significant stability.

Example Recovered 2 75.5 3 62.3 4 56 Pellets of feed composition of the present invention can be added to the water habitat of the shrimp by conventional means. Typically, the shrimp farmer uses a boat to traverse the pond containing the shrimp and during the traverse, broadcasts the Pellets over the surface of tile porl, by hand or by mechanical meaos, as uniformly as S Sh r i p are generally night feeders and slow feeding as compared to the ravenous appetite of fish. Because the pellets have sufficient integrity in water, they cOan be added to the water during the day time.

preferably late afternoon. for the shrimp to find and consume the pellets during thetr feeding time. Tests have shown that shrimp thrive on pellets of the teed compositions of the present invention.

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Claims (2)

12- The clairns defining the invention are as follows: 1. A method for feeding Fluimp, comprising adding to the water habitat ef the shrimp, pellets having a size suitable for gripping by the shrimp, said pellets having the composition comprising from 75 to 95 weight percent of nutrient, from 0.5 to 10 weight percent of water insoluble polymer having a melting point below 110'C and optionally an effective amount of lubricant, vitamin, mineral, and preservative. 2. The method of Claim 1, wherein said pellets weigh no more than 1 g each, S 3. The feec composition used for feeding shrimp as recited in claim 1 or claim 2. 4. The feed composition of claim 3, wherein said polymer is ethylene/vinyl Sacetate copolymer. 5. The feed composition of claim 3 or claim 4, wherein said lubricant is present in from 0 to 20 weight percent. 6. The feed composition of any one of claims 3 to 5, wherein said vitamin and mineral is present each in an amount of from 0 to 10 weight percent. 7. The feed composition of any one of claims 3 to 6, in the form of pellets. 8. The feed composition of Claim 7, wherein said pellets each weigh no more than 1 g. 9. The feed composition of any one of claims 4 to 9, wherein said polymer coats particles of said nutrient to bind the composition together. The feed composition of any one claims 4 to 9, wherein from 85 to 93 weight percent of said nutrient and from 2 to 6 weight percent of said polymer are present. 11. The feed composition of any one of claims 5 to 10, wherein from 1 to weight percent of said lubricant is present. 12. The feed composition of any one of claims 6 to 11, wherein from 1 to weight percent each of vitamin and mineral for said shrimp is present. "C! i :1 13

13. A method for feeding shrimp which method is substantially as herein described with reference to any one of the Examples but excluding any Comparative Examples. DATED this 26th day of March 199L E.I. DU PONT DE NEMOURS AND COMPANY By their Patent Attorneys: CALLINAN LAWRIE I-