This document provides information about fish meal, including:
1. Fish meal is made from fish processing byproducts and whole fish that are dried, ground, and used mainly to feed poultry, pigs, and farmed fish.
2. The manufacturing process involves cooking, pressing, and drying fish to remove water and oil. The oil is extracted and the remaining solid press cake is dried into fish meal.
3. Major sources of fish used for fish meal include anchovies, herring, mackerel, and menhaden. The environmental impact of large-scale fish meal production includes overfishing and risks to fishery sustainability.
Fish meal has been used as a feedstuff since the 19th century in Northern Europe and is now used worldwide. Global production of fish meal has been stable for the past two decades at around 5 to 6 million tons, Peru and Chile being the main producers.
A major portion (more than 60%) of fish meal produced globally is used for aquaculture (farming of finfish and shrimp). The intensification of aquaculture in Asia, and particularly in China, is increasing the demand for fish meal even though the supply cannot grow accordingly. Natural phenomena such as the El Niño-Southern Oscillation affect the fisheries along Central American Pacific coasts, leading to seasonal scarcities and increased prices. Due to these factors, the fish meal market is volatile and prices often shoot up. The search for suitable and cost-effective alternative protein sources for use in industrial aqua feeds will be the most critical factor in the development of intensive aquaculture in Asia (Kaushik, 2010; Steinfeld et al., 2006).
Traditional fishing Craft of India by Ashish sahuAshish sahu
Fishing crafts are most essential for catching the fish in large scale in water bodies. A large variety of crafts (boats) have been designed for marine and inland fishing in India. The types of fishing crafts of India falls under two general categories. These are Non –mechanized and mechanized fishing crafts.
Based on the topographical variations and difference in habits and habitats of fishing, different types of crafts and gears are used in various inland water system of India. The simplest and most primitive types of craft used for fishing in inland water are the rafts and songas, operated in calm water. In the larger rivers and estuaries subject to strong current and tidal movement, sturdier plank boats are used.
Definition
Fishing vessel is a floating device used for fishing activities like, fishing, fish transportation, Research and training purpose.
Preparation of surimi and minced based fishery productsAshish sahu
Surimi processing involves processing whole or gutted fish into mince, repeated washing of the mince (at mince and water ratio of 1:3 for 2-3 cycles), dewatering (done by manual press, nylon mesh bag method, Centrifugation and screw press till the moisture content of the meat, ranges between 80% and 84%) and refining.
Whiteleg shrimp (Litopenaeus vannamei, formerly Penaeus vannamei), also known as Pacific white shrimp or King prawn, is a variety of prawn of the eastern Pacific Ocean commonly caught or farmed for food.L. vannamei is a decapod crustacean which is native to the Eastern Pacific Coast of Central and
South America from Tumbes, Peru in the south to Mexico in the north. It has been introduced widely around the world since the 1970s, but especially since 2000, as it has become the principle
cultured shrimp species in Asia. The species itself is not considered a major threat to biodiversity, does not appear to have formed breeding populations, and has generally resulted in positive economic impacts in non-indigenous areas. An examination of current lists of invasive species
published by the International Union for Conservation of Nature’s Invasive Species Specialist Group (IUCN, 2004) revealed no listings for L. vannamei. As mentioned, L. vannamei has been anthropogenically introduced as an aquaculture species to several areas of the world to which it is
not native.
,
Nazmul Haque Syekat
Fish meal has been used as a feedstuff since the 19th century in Northern Europe and is now used worldwide. Global production of fish meal has been stable for the past two decades at around 5 to 6 million tons, Peru and Chile being the main producers.
A major portion (more than 60%) of fish meal produced globally is used for aquaculture (farming of finfish and shrimp). The intensification of aquaculture in Asia, and particularly in China, is increasing the demand for fish meal even though the supply cannot grow accordingly. Natural phenomena such as the El Niño-Southern Oscillation affect the fisheries along Central American Pacific coasts, leading to seasonal scarcities and increased prices. Due to these factors, the fish meal market is volatile and prices often shoot up. The search for suitable and cost-effective alternative protein sources for use in industrial aqua feeds will be the most critical factor in the development of intensive aquaculture in Asia (Kaushik, 2010; Steinfeld et al., 2006).
Traditional fishing Craft of India by Ashish sahuAshish sahu
Fishing crafts are most essential for catching the fish in large scale in water bodies. A large variety of crafts (boats) have been designed for marine and inland fishing in India. The types of fishing crafts of India falls under two general categories. These are Non –mechanized and mechanized fishing crafts.
Based on the topographical variations and difference in habits and habitats of fishing, different types of crafts and gears are used in various inland water system of India. The simplest and most primitive types of craft used for fishing in inland water are the rafts and songas, operated in calm water. In the larger rivers and estuaries subject to strong current and tidal movement, sturdier plank boats are used.
Definition
Fishing vessel is a floating device used for fishing activities like, fishing, fish transportation, Research and training purpose.
Preparation of surimi and minced based fishery productsAshish sahu
Surimi processing involves processing whole or gutted fish into mince, repeated washing of the mince (at mince and water ratio of 1:3 for 2-3 cycles), dewatering (done by manual press, nylon mesh bag method, Centrifugation and screw press till the moisture content of the meat, ranges between 80% and 84%) and refining.
Whiteleg shrimp (Litopenaeus vannamei, formerly Penaeus vannamei), also known as Pacific white shrimp or King prawn, is a variety of prawn of the eastern Pacific Ocean commonly caught or farmed for food.L. vannamei is a decapod crustacean which is native to the Eastern Pacific Coast of Central and
South America from Tumbes, Peru in the south to Mexico in the north. It has been introduced widely around the world since the 1970s, but especially since 2000, as it has become the principle
cultured shrimp species in Asia. The species itself is not considered a major threat to biodiversity, does not appear to have formed breeding populations, and has generally resulted in positive economic impacts in non-indigenous areas. An examination of current lists of invasive species
published by the International Union for Conservation of Nature’s Invasive Species Specialist Group (IUCN, 2004) revealed no listings for L. vannamei. As mentioned, L. vannamei has been anthropogenically introduced as an aquaculture species to several areas of the world to which it is
not native.
,
Nazmul Haque Syekat
Surimi is a mechanically deboned, washed (bleached) and stabilised fish flesh.
It is an intermediate product used in the preparation of a variety of ready to eat seafood such as Kamaboko, fish sausage, crab legs and imitation shrimp products.
Ideally, surimi should be made from low-value, white-fleshed fish with excellent gelling ability and which are abundant and available year-round.
Fish meal or fishmeal, is a commercial product made from fish and the bones and offal from processed fish.
In the UK the term fish meal means a product obtained by drying and grinding or otherwise treating fish or fish waste to which no other matter has been added.
Seaweed is a marine alga that is generally classified as a plant. Seaweed is a primitive type of plants lacking true roots, Steams and leaves. Seaweed farming is highly developed in many south-east Asian countries. However, the seaweed industry in Bangladesh is an initial stage. People in Bangladesh are still not aware of the seaweed potential.
Aquaculture practices in mangrove area.MD. ZANE ALAM
Existing in a very rudimentary form for decades, brackishwater aquaculture in Bangladesh had been until recently nothing more than a casual activity in some tidal flood plain areas in the southwest part of the country.
In the early seventies, Bangladesh entered the world export market for shrimp. This crustacean, which was locally cheap and not even accepted as food by many locals, suddenly became a very high priced commodity. Since then much attention has been focused on increased production of this crustacean. The public sector efforts concentrated on the exploitation of shrimp from the sea by operating trawlers. The increasing demand and steadily rising prices of shrimp also caused a silent revolution in the brackishwater aquafarming sector: what was merely a casual activity of little economic significance, emerged as a multimillion taka farming industry in a few years time. Increased by leaps and bound, the shrimp culture activities were spread over a 26,000 ha area by the beginning of the current decade.
Surprising though, all this development took place in the private sector, without any extension, demonstration or new infrastructure support from the Government of Bangladesh. It is only since 1980, the starting year of the Second Five Year Plan, that brackishwater aquafarming has officially come to prominence.
In the Third Five Year Plan (1985–90) high priority has been given to brackishwater shrimp and fish culture. In view of the urgent socio-economic needs of the country (for domestic consumption, for export and for rural employment), the favourable ecological condition for shrimp culture and the existence of large areas with high production potential, this national priority for brackishwater aquafarming development is most justified. According to the Third Five Year Plan projection, brackishwater aquaculture will extend over 80,000 ha, as against 55,812 ha in 1984/85. By the end of the plan period, the production will expectedly increase to 34,000 MT, from a 1984/85 production of 9,000 MT. Nearly 18,000 MT of exportable shrimp would possibly come from aquaculture; this quantity would be 60 percent of the shrimp quantity projected for export in the terminal year of the Third Plan.
The present shrimp farming area is reported to have already far exceeded the Third Five Year Plan target. At the beginning of 1986, shrimp culture activities spread over 115,000 ha, distributed over several coastal districts (Annex A). The production per unit area is, however, still rather low. The need for increase of the production rate by intensification of the culture methodologies is currently being emphasized. Thereabove, the farmers are facing a number of technical problems, that need systematic analysis and appropriate solution. The planned Brackishwater Fisheries Research Station (BFRS) under the Fisheries Research Institute will hopefully meet the research requirements for the brackishwater aquaculture sector of the country.
Broodstock And Hatchery Management Of Penaeus Monodonsush_p
Shrimp aquaculture is an important and valuable production sector that has been growing rapidly over the past two decades. Success is largely based on the quality of post larvae, particularly their health condition, thus making hatchery production of quality post larvae crucial to the sector’s sustainability. Vietnam is the leading producer of black tiger shrimp in the world with a production of 300,000 tons in 2011, followed by India and Indonesia with a production of 187,900 tons and 126,200 tons respectively.
Major contribution of the tiger shrimp to global shrimp production and the economic losses resulting from disease outbreaks, it is essential that the shrimp-farming sector invest in good management practices for the production of healthy and quality seed. The Indian shrimp hatchery industry has established a detailed guidance and protocols for improving the productivity, health management, biosecurity and sustainability of the sector. Following a brief review of shrimp hatchery development in India, the major requirements for hatchery production are discussed under the headings: infrastructure, facility maintenance, inlet water quality and treatment, wastewater treatment, biosecurity, standard operating procedures (SOPS), the Hazard Analysis Critical Control Point (HACCP) approach, chemical use during the hatchery production process and health assessment. Pre-spawning procedures include the use of wild, domesticated and specific pathogen free/ specific pathogen resistant (SPF/SPR) broodstock, broodstock selection and holding techniques, transport, utilization, health screening, maturation, nutrition and spawning, egg hatching; nauplius selection, egg/ nauplius disinfection and washing and holding, disease testing and transportation of nauplii. Post-spawning procedures include: larval-rearing unit preparation, larval rearing/health management, larval nutrition and feed management, important larval diseases, quality testing/selection of PL for stocking, PL harvest and transportation, nursery rearing and record keeping.
Surimi is a mechanically deboned, washed (bleached) and stabilised fish flesh.
It is an intermediate product used in the preparation of a variety of ready to eat seafood such as Kamaboko, fish sausage, crab legs and imitation shrimp products.
Ideally, surimi should be made from low-value, white-fleshed fish with excellent gelling ability and which are abundant and available year-round.
Fish meal or fishmeal, is a commercial product made from fish and the bones and offal from processed fish.
In the UK the term fish meal means a product obtained by drying and grinding or otherwise treating fish or fish waste to which no other matter has been added.
Seaweed is a marine alga that is generally classified as a plant. Seaweed is a primitive type of plants lacking true roots, Steams and leaves. Seaweed farming is highly developed in many south-east Asian countries. However, the seaweed industry in Bangladesh is an initial stage. People in Bangladesh are still not aware of the seaweed potential.
Aquaculture practices in mangrove area.MD. ZANE ALAM
Existing in a very rudimentary form for decades, brackishwater aquaculture in Bangladesh had been until recently nothing more than a casual activity in some tidal flood plain areas in the southwest part of the country.
In the early seventies, Bangladesh entered the world export market for shrimp. This crustacean, which was locally cheap and not even accepted as food by many locals, suddenly became a very high priced commodity. Since then much attention has been focused on increased production of this crustacean. The public sector efforts concentrated on the exploitation of shrimp from the sea by operating trawlers. The increasing demand and steadily rising prices of shrimp also caused a silent revolution in the brackishwater aquafarming sector: what was merely a casual activity of little economic significance, emerged as a multimillion taka farming industry in a few years time. Increased by leaps and bound, the shrimp culture activities were spread over a 26,000 ha area by the beginning of the current decade.
Surprising though, all this development took place in the private sector, without any extension, demonstration or new infrastructure support from the Government of Bangladesh. It is only since 1980, the starting year of the Second Five Year Plan, that brackishwater aquafarming has officially come to prominence.
In the Third Five Year Plan (1985–90) high priority has been given to brackishwater shrimp and fish culture. In view of the urgent socio-economic needs of the country (for domestic consumption, for export and for rural employment), the favourable ecological condition for shrimp culture and the existence of large areas with high production potential, this national priority for brackishwater aquafarming development is most justified. According to the Third Five Year Plan projection, brackishwater aquaculture will extend over 80,000 ha, as against 55,812 ha in 1984/85. By the end of the plan period, the production will expectedly increase to 34,000 MT, from a 1984/85 production of 9,000 MT. Nearly 18,000 MT of exportable shrimp would possibly come from aquaculture; this quantity would be 60 percent of the shrimp quantity projected for export in the terminal year of the Third Plan.
The present shrimp farming area is reported to have already far exceeded the Third Five Year Plan target. At the beginning of 1986, shrimp culture activities spread over 115,000 ha, distributed over several coastal districts (Annex A). The production per unit area is, however, still rather low. The need for increase of the production rate by intensification of the culture methodologies is currently being emphasized. Thereabove, the farmers are facing a number of technical problems, that need systematic analysis and appropriate solution. The planned Brackishwater Fisheries Research Station (BFRS) under the Fisheries Research Institute will hopefully meet the research requirements for the brackishwater aquaculture sector of the country.
Broodstock And Hatchery Management Of Penaeus Monodonsush_p
Shrimp aquaculture is an important and valuable production sector that has been growing rapidly over the past two decades. Success is largely based on the quality of post larvae, particularly their health condition, thus making hatchery production of quality post larvae crucial to the sector’s sustainability. Vietnam is the leading producer of black tiger shrimp in the world with a production of 300,000 tons in 2011, followed by India and Indonesia with a production of 187,900 tons and 126,200 tons respectively.
Major contribution of the tiger shrimp to global shrimp production and the economic losses resulting from disease outbreaks, it is essential that the shrimp-farming sector invest in good management practices for the production of healthy and quality seed. The Indian shrimp hatchery industry has established a detailed guidance and protocols for improving the productivity, health management, biosecurity and sustainability of the sector. Following a brief review of shrimp hatchery development in India, the major requirements for hatchery production are discussed under the headings: infrastructure, facility maintenance, inlet water quality and treatment, wastewater treatment, biosecurity, standard operating procedures (SOPS), the Hazard Analysis Critical Control Point (HACCP) approach, chemical use during the hatchery production process and health assessment. Pre-spawning procedures include the use of wild, domesticated and specific pathogen free/ specific pathogen resistant (SPF/SPR) broodstock, broodstock selection and holding techniques, transport, utilization, health screening, maturation, nutrition and spawning, egg hatching; nauplius selection, egg/ nauplius disinfection and washing and holding, disease testing and transportation of nauplii. Post-spawning procedures include: larval-rearing unit preparation, larval rearing/health management, larval nutrition and feed management, important larval diseases, quality testing/selection of PL for stocking, PL harvest and transportation, nursery rearing and record keeping.
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Fish is the major economically exported source. There are various products are there based on fish. The major products are exported to other countries than utilizing in India such as oyster which are more preferred for eaten by Germans and Italians.
Importance of Fish meal for a healthy lifeSreekkuttan89
The Kerala State Co-operative Federation for FisheriesDevelopment Ltd.(Matsyafed), was established on the 19th of March 1984. Registered as a Co-operative Apex Federation of primary level cooperative societies, this organization has never looked back and is still growing incessantly.
Introduction
Definition
Principle of drying
Importance
Types
Drying procedure of SIS
Drying procedure of large fishes
Advantage of dried fish
Disadvantage of dried fish
Uses
Feasibility study
Recommendations
Conclusion
References
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1. Content
No Content Name
01 Introduction
02 History
03 What is Fish Meal?
04 What Raw Material is Used?
05 Preservation of Raw Material
06 Major Sources
07 Environmental Impact
08 Manufacturing Fish Meal
09 Risks
10 Storage and Transport
11 Composition and Nutritional Value
12 Uses of Fish Meal
13 Measuring the Quality of Fish Meal
14 References
2. Fish Meal
Introduction :
Fish meal, or fishmeal, is a commercial product mostly made from fish that are not generally used
for human consumption; a small portion is made from the bones and offal left over from
processing fish used for human consumption, while the larger percentage is manufactured from
wild-caught, small marine fish; either unmanaged by-catch or sometimes sustainable fish stocks.
It is powder or cake obtained by drying the fish or fish trimmings, often after cooking, and then
grinding it. If the fish used is a fatty fish it is first pressed to extract most of the fish oil.
3. History :
Fish byproducts have been used historically to feed poultry, pigs, and other farmed fish. A
primitive form of fishmeal is mentioned in The Travels of Marco Polo at the beginning of the
14th century: 'they accustom their cattle, cows, sheep, camels, and horses to feed upon dried fish,
which being regularly served to them, they eat without any sign of dislike.' The use of herring as
an industrial raw material started as early as about 800 AD in Norway; a very primitive process
of pressing the oil out of herring by means of wooden boards and stones was employed.
What Is Fish Meal?
In the UK the term fish meal means a product obtained by drying and grinding or otherwise
treating fish or fish waste to which no other matter has been added. The term white fish meal is
reserved for a product containing not more than 6 per cent oil and not more than 4 per cent salt,
obtained from white fish or white fish waste such as filleting offal.
These are semilegal definitions, and for convenience fish meal can be defined as a solid product
obtained by removing most of the water and some or all of the oil from fish or fish waste. Fish
meal is generally sold as a powder, and is used mostly in compound foods for poultry, pigs and
farmed fish; it is far too valuable to be used as a fertilizer.
What Raw Material Is Used?
Virtually any fish or shellfish in the sea can be used to make fish meal, although there may be a
few rare unexploited species which would produce a poisonous meal. The nutritional value of
proteins from vertebrate fish differs little from one species to another; whole shellfish would
however give a nutritionally poorer meal because of the low protein content of the shell. Most of
the world’s fish meal is made from whole fish; the pelagic species are used most for this purpose.
Where a fishery catches solely for the fish meal industry, it is known as an industrial fishery.
Countries with major industrial fisheries are Peru,Norway and South Africa. Some countries like
the UK make fish meal from unsold fish and from offal, that is the heads, skeletons and trimmings
left over when the edible portions are cut off. Other countries like Denmark and Iceland use both
industrial fish and processing waste. Fish meal made mainly from filleting offal usually has a
slightly lower protein content and a higher mineral content than meal made from whole fish, but
a high proportion of small whole fish in the raw material can have the same effect.
The following points are important when selecting species for an industrial fishery:
1. The species must be in large concentrations to give a high catching rate; this is essential because
the value of industrial fish is less than that of fish for direct human consumption.
2. The fishery should preferably be based on more than one species in order to reduce the effect
of fluctuations in supply of any one species.
4. 3. The total abundance of long lived species varies less from year to year, and
4. Species with a high fat content are more profitable, because the fat in fish is held at the expense
of water and not at the expense of protein.
Preservation of the Raw Material :
All fisheries experience periods of glut and scarcity, leaving the fish meal factory at times with
no raw material to process and at other times with too much. Large amounts of unprocessed
material cause storage and odour problems; moreover spoiled material becomes difficult to
process and gives a lower yield.
No cheap, completely safe method of preservation has yet been found. Refrigeration is not usually
economic, and the known chemical methods of preservation have some disadvantages. Sodium
nitrate with formaldehyde is very effective, but unless its addition is very carefully controlled
poisonous nitrosamines can be formed when the nitrite reacts with small amounts of
trimethylamine in the fish; for this reason nitrite is not used in the UK. Formaldehyde alone is
quite effective in keeping the fish firm enough for processing; it is most useful for species like
sand eels that rapidly become semiliquid soon after catching. Although the addition of about 0-2
per cent by weight of formaldehyde is often enough to provide the required toughening effect,
the preservative effect is small at this dilution, and more formaldehyde may make the fish too
tough to process.
Main Fish Source:
The main fish sources by country are :
• Chile : anchovy, horse mackerel
• China : various species
• Denmark : pout, sandeel, sprat
• European Union : pout, capelin, sand eel, and mackerel
• Iceland and Norway : capelin, herring, blue whiting
• Japan : sardine, pilchard, sauries, mackerels
• Peru : anchovies
• South Africa : pilchard
• Thailand : various species
• United States : menhaden, pollock
Environmental Impact :
Fish meal production is a significant contributor of over-fishing, and risks pushing fisheries
beyond their replacement rate. Some areas of the world, such as Western Africa, have seen a large
increase in fish meal production which in turn is hurting local fisheries and driving fisheries into
collapse
5. Manufacturing Fish Meal :
There are several ways of making fish meal from raw fish; the simplest is to let the fish dry in the
sun. This method is still used, in some parts of the world where processing plants are not available,
but the product is poor in comparison with ones made by modern methods. Almost all fish meal
is made by cooking, pressing, drying and grinding the fish in machinery designed for the purpose.
Although the process is simple in principle, considerable skill and experience are necessary to
obtain a high yield of high quality product, and to make the plant efficient
➢ Cooking
When fish are cooked and the protein is coagulated, much of the water and oil runs off, or can be
removed by pressing, whereas raw fish lose very little liquor even under very high mechanical
pressure. A commercial cooker consists essentially of a long steam jacketed cylinder through
which the fish are moved by a screw conveyor. Some cookers also have the facility for injecting
steam into the cooking material. The cooking operation is critical; if the fish are incompletely
cooked, the liquor cannot be pressed out satisfactorily, and if overcooked the material becomes
too soft for pressing. No drying occurs during the cooking stage.
➢ Pressing
This stage of the process removes some of the oil and water. The fish are conveyed through a
perforated tube whilst being subjected to increasing pressure, normally by means of a tapered
shaft on the screw conveyor. A mixture of water and oil is squeezed out through the perforations
and the solid, known as press cake, emerges from the end of the press. During the pressing process
the water content may be reduced from about 70 per cent to about 50 per cent, and the oil content
reduced to about 4 per cent.
➢ Press liquor
After screening to remove coarse pieces of solid material, the liquor from the presses is
continuously centrifuged to remove the oil. The oil is sometimes further refined in a final
centrifuge, a process known as polishing, before being pumped to storage tanks. The refined oil
is valuable and is used in the manufacture of edible oils and fats, for example margarine.
The water portion of the liquor, known as stickwater, contains dissolved material and fine solids
in suspension which may amount to about 9 per cent by weight. The solids are mostly protein and
stickwater can contain as much as 20 per cent of the total solids in the fish so that it is normally
well worth recovering. The material is recovered by evaporating the stickwater to a thick syrup
containing 30-50 per cent solids, and sometimes marketed separately and known as condensed
fish solubles. More usually however the concentrated product is added back to the press cake and
dried along with it to make what is known as whole meal.
7. ➢ Drying
Although basically a simple operation, considerable skill is required to get the drying conditions
just right. If the meal is underdried, moulds or bacteria may be able to grow; if it is overdried,
scorching may occur and the nutritional value of the meal will be reduced.
There are two main types of dryer, direct and indirect. In the direct dryer very hot air at a
temperature of up to 500°C is passed over the material as it is tumbled rapidly in a cylindrical
drum; this is the quicker method, but heat damage is much more likely if the process is not
carefully controlled. The meal does not reach the temperature of the hot air, because rapid
evaporation of water from the surface of each particle of fish causes cooling; normally the product
temperature remains at about 100°C.
The most usual type of indirect dryer consists either of a steam jacketed cylinder or a cylinder
containing steam heated discs which also tumble the meal.
Much of the unpleasant odour from fish meal plants originates from the dryers; indirect dryers,
which are normally used in the UK, cause less nuisance because they use less air.
In the UK, where white fish offal are the main raw materials, the pressing stage is not essential,
since the material contains only very small amounts of oil. White fish meal can be produced by a
simpler process of cooking and drying only. However the use of a pressing stage is increaseingly
favoured and there are two main reasons for this:
The plant has greater flexibility in that it may be used for white and oily fish, or a mixture of both.
The removal of water by pressing, and evaporation of the stickwater obtained, is less expensive
because the triple effect evaporators used are more efficient in terms of use of steam than are
dryers.
➢ Grinding and Bagging
The final operations are grinding to break down any lumps and particles of bone, and packing the
meal into bags or storing it in silos for bulk delivery. From the fish meal factory the meal is
transported to the animal food compounder, and from there to the farm. The problems of storage
and transport are discussed below.
➢ Hygiene in the Factory
Contamination of the material during processing may seriously affect quality; microorganisms
like Salmonella that may ultimately cause disease in man have to be kept out. Much can be done
by good housekeeping in the plant, for example by keeping floors, walls and conveyors clean and
by separating ‘wet’ and ‘dry’ areas of the plant, but the processing machinery itself is often less
readily accessible for cleaning. Contaminated water, from a dock for example, should not be used
for cooling or other purposes if it can come in contact with the fish or the fish meal.
8. The temperature during processing is normally high enough to kill any Salmonella present, but
when a plant is restarted after a stoppage there is likely to be moist meal standing in the plant that
will not reach a high enough temperature; for this reason it is now USA practice to recirculate the
meal produced in the first 45 minutes after starting again.
➢ Other Methods of Manufacture
Of the other processes used, the most well known is the heat transfer method, htm, developed in
the USA, where oil added to a slurry of the raw material acts as a heat transfer medium. In some
other methods the presses are replaced by centrifuges, and in others the oil is removed by solvent
extraction. A very high proportion of the worlds fish meal is however manufactured by the
process described above.
Fig : Flow chart of Fish Meal processing
9. Risks :
Unmodified fish meal can spontaneously combust from heat generated by oxidation of
the polyunsaturated fatty acids in the meal. In the past, factory ships have sunk because of such
fires. That danger has been eliminated by adding antioxidants to the meal.
As of 2001, ethoxyquin was the most commonly used antioxidant, usually in the range 200–
1000 mg/kg. One of the antioxidants that has been used. There has been some speculation that
ethoxyquin in pet foods might be responsible for multiple health problems. To date, the U.S. Food
and Drug Administration has only found a verifiable connection between ethoxyquin and buildup
of protoporphyrin IX in the liver, as well as elevations in liver-related enzymes in some animals,
but with no known health consequences from these effects. In 1997, the Center for Veterinary
Medicine asked pet food manufacturers to voluntarily limit ethoxyquin levels to 75 ppm until
further evidence is reported. However, most pet foods that contain ethoxyquin have never
exceeded this amount. Ethoxyquin has been shown to be slightly toxic to fish.
Though it has been approved for use in foods in the US, and as a spray insecticide for fruits,
ethoxyquin has surprisingly not been thoroughly tested for its carcinogenic potential. Ethoxyquin
has long been suggested to be a possible carcinogen, and a very closely related chemical, 1,2-
dihydro-2,2,4-trimethylquinoline, has been shown to have carcinogenic activity in rats, and a
potential for carcinogenic effect to fishmeal prior to storage or transportation.
Storage and transport of fish meal :
Fish meal is not readily spoiled by bacterial action because of its low water content, and it has a
very small bulk compared to the fish from which it is made; indeed, these are two of the main
reasons for making fish meal. There is no need to refrigerate the meal in storage.
Fish meal is usually stored and transported either in sacks made of paper, hessian or plastics, or
in bulk. Fish meal in bulk is sometimes pelletized to make mechanical handling easier, since it
does not flow readily as a powder.
Fish oil present in the stored meal can react with oxygen in the atmosphere; the heat generated
may damage the meal nutritionally and, on occasion, cause the meal to catch fire. Fortunately this
is now a rather rare occurrence, due to the widespread use of antioxidants. Not all fish oils are
equally reactive; some oily meals seem to require antioxidant treatment; whilst others do not. The
most commonly used antioxidant is ethoxyquin; the amount used varies but is normally in the
range 200-1000 mg/kg. Sacks of newly made oily meal are frequently stored in ventilated stacks,
particularly in hot climates. White fish meal, with a low oil content, does not require antioxidant
treatment. Fish meal is best kept in a cool dry place protected from rodents and birds. Spoilage is
normally very slight even after excessively long periods of storage; fish meal will keep for several
years without detectable change in its nutritional value.
Fish meal made from fatty fish, however, will show a gradual decrease in fat content, as measured
by extraction with ether, unless antioxidants are present; this is because the fats slowly oxidize
during storage and become relatively insoluble in common organic solvents. Oxidized fat is less
10. valuable nutritionally because the animal cannot utilize it for its energy needs. The risk of taint
to the animal flesh is much reduced, however, once the fats are oxidized. Protection against
contamination during the manufacture of meal has been mentioned; protection during storage is
equally important. The floors, walls and handling equipment in the store must be kept clean, and
screens over doors and windows help to keep out birds and rodents that may be carriers
of Salmonella organisms. Foot dips are sometimes provided to prevent workers carrying harmful
bacteria into the store. The risk of contamination is generally much higher when handling meal
in bulk, particularly during loading and unloading of transport.
Composition and nutritional value :
Before examining the composition of the finished meal it is interesting to consider the
composition of the intermediate products. Figure 2 shows the composition of the material at each
stage of its flow through the process and is based on the assumption that the raw fish contain 70
per cent water, 18 per cent solids and 12 per cent fat. It can be seen that more drying occurs in
the evaporators than in the dryer. The composition of the intermediate products in this example
is as follows:
Water Solids Fat
Material % % %
Raw Fish 70 18 12
Press Cake 53 44 3
Press Liquor 78 6 16
Dilute Stickwater 95 5 <1
Conc. Stickwater 65 33 2
Fish Meal 9 85 6
Uses of Fish Meal :
Fish meal in the UK was used mainly as a fertilizer until about 1910, but since then its high
nutritional value has been far better utilized in animal feeding. The demand in the UK for fish as
fish meal is far greater than the demand for fish for direct human consumption; therefore imports
of fish meal to the UK are high. The pig and poultry industries producing large amounts of bacon
and eggs, pork and chicken, at relatively low prices could not survive without large scale use of
high protein animal foods like fish meal. Usually about 10 per cent of the diet of pigs and poultry
consists of fish meal; 10 per cent is the upper limit for meal containing 10 per cent fat, because
more than about 1 per cent of fish oil in the diet of the animal may taint the taste of its flesh.
Much of the UK production is of white fish meal with a fat content low enough to eliminate any
11. risk of taint. Fish meals with an extremely low fat content are sometimes made for certain
specialized purposes.
Other uses of fish meal include the feeding of mink, farmed fish, dogs, cats and cattle. Very small
amounts of specially processed meals have been used in prepared foods for humans, and fish meal
is also used in the preparation of certain antibiotics for the pharmaceutical industry.
Measuring the quality of fish meal :
Since fish meal contributes so many of the necessary ingredients of a diet, quality can be measured
only on the basis of specific components; no single laboratory test has been or is likely to be
devised that can give a total estimate of quality. Furthermore, all tests other than feeding trials
are rather artificial; the growth record of the animal is the best standard. Feeding trials however
are expensive and time consuming; thus the possibility of using chemical or physical tests is
attractive.
The pepsin digestibility test can distinguish between a very poor meal that has suffered heat
damage and a good, properly processed meal, but these could probably be distinguished by colour
alone; the test is thus of limited practical use.
A total amino acid analysis gives useful information about the meal but is very expensive and
tells nothing about the availablility of individual acids to the animal being fed. Alternatively, the
availability of a single important amino acid like lysine is often measured; this is probably the
most useful approach, but nothing is then known about the other components. In short, there is
no single comprehensive test for quality. The requirements of the user may vary; for example fish
meal may be included in one diet primarily for its methionine content but, in another, methionine
in fish meal may be unimportant because it is supplied by other foods.
A very important measure of fish meal quality is its freedom from microorganisms that cause
disease in man by contaminating the animals he eats; Salmonella is generally of most concern in
this respect. The need for good housekeeping practice in the fish meal factory and store has
already been emphasized for this reason.
References :
1. https://en.wikipedia.org/wiki/Fish_meal
2. http://www.fao.org/wairdocs/tan/x5926e/x5926e01.htm
3. http://www.feedipedia.org/node/208
4. https://www.britannica.com/topic/fish-meal
5. http://omegaprotein.com/animal-nutrition/fish-meal/