Spoilage of Fish (Process and Its Prevention)
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May 14, 2020
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About This Presentation
Dr. K. Rama Rao
Department of Zoology
Govt, Degree College
TEKKALI; Srikakulam Dt: A.P.
INDIA
Slide Content
Spoilage of Fish Process and its Prevention Dr. K. Rama Rao Department of Zoology Phone: 9010705687
The foods are usually classified as less perishable, moderately perishable and highly perishable in order to understand their perishable nature . Less perishable: Cereals , nuts and grains are more stable category. Moderately perishable: Vegetables and food items. Highly perishable: Aqua products, seafood's.
Seafood's are less stable because of their high moisture content and availability of nutrients for the growth of microorganisms. Ambient temperature plays a crucial role to alter the stability of a product. Highly perishable foods like seafood's have low tolerance to ambient temperature.
Causative factors of spoilage Spoilage and freshness are the two qualities that have to be clearly defined. A fresh product is defined as the one whose original characters remain unchanged. Spoilage therefore the indicative of post harvest change. This change may be graded as the change from absolute freshness to limits of acceptability to unacceptability.
Spoilage is usually accompanied by change in physical characteristics. Change in colour , odour , texture, colour of eyes, color of gills and softness of the muscle are some of the characteristics observed in spoiled fish . Spoilage is caused by the action of enzymes, bacteria and chemicals present in the fish.
The following factors contribute to spoilage of fish. High moisture content High fat content High protein content Weak muscle tissue Ambient temperature Unhygienic handling
Process of spoilage The main components of fish are water, protein and fat. The spoilage of fish is a complicated process brought about by actions of enzymes, bacteria and chemical constituents. The spoilage process starts immediately after the death of fish. The process involves three stages
Rigor mortis Autolysis Bacterial invasion and putrefaction
Rigor mortis The Rigor mortis is a physical effect on the muscle tissue of fish caused by chemical changes following the death. In live fish, its movements are controlled by chemical signals which cause the eythmic contraction and relaxation of the muscles. After death, the normal circulatory system breaks down and chemical signals leak into the muscle causing them to stiffen. This process is known as Rigor Mortis
After the death of fish, the blood circulation stops and the supply of oxygen is prevented. The enzymes present in the muscle convert glycogen into lactic acid. The pH of the fish muscle falls. The formation of the lactic acid continues till the supply of glycogen is completely used up.
After the completion of rigor mortis, muscle stiffness gradually decreases accompanied by increase in pH, ending up in softening of muscle. This is followed by breakdown of proteins by enzymes. This process is called as autolysis. Thus autolysis can be described as an internal breakdown of the structure of the protein and fats due to a complex series of reactions by enzymes.
Autolysis of protein starts immediately after rigor and creates favorable conditions for the growth of bacteria. Another important action of the enzymes is that it affects the flavor of fish. The components responsible for the taste and flavor of the fish are changed by the enzymatic action. An example is the progressive, degradation of ATP to AMP and Hypoxanthine.
The accumulation of Hypoxanthine imparts a bitter taste in the fish muscle accompanied by loss of fresh fish flavor. Enzymatic action also causes decomposition in the fish known as belly bursting. The belly bursting is caused by the action of digestive enzymes present in the gut of the fish.
The black spot formation in shrimps is also caused by the action of the enzymes on the amino acid. The black colour is due to the formation of Melanin by the action of enzyme tyrosinase on tyrosin present in the shrimps. Black spots present a poor appearance and therefore, are not acceptable.
Action of the Bacteria The freshly caught fish will be almost free from bacteria but the surface slime, gills and intestine may contain considerable load of bacteria. When the fish is dead, these bacteria start attacking the flesh causing spoilage and produce undesirable compounds.
The nature and type of bacteria present in a fish depends upon the water from where it is caught and methods used for handling of the fish after its catch. The important changes brought out by the action of the bacteria in fish are as follows. i ) Reduction of TMAO to TMA Marine fish contains a small percentage of odourless TMAO which is reduced to an offensive smelling TMA ( trimethylamine ) by the action of bacteria.
ii) Breakdown of Amino Acids and formation of Primary Amines The bacterial action of amino acids present in the fish muscle leads to formation of primary amines. Examples are formation of histamine from histidine , arginine from glutamic acid etc. This bacterial action may cause food poisoning in extreme cases. iii) Breakdown in Urea The high concentration of urea in the flesh of some fishes is degraded to ammonia by the microorganisms. The formation of ammonia is accompanied by an offensive odour .
Chemical Action The most common chemical action which causes spoilage is the oxidative rancidity in fatty fishes. The levels of peroxide value oxidative rancidity are considered an index of quality of fat fishes. The spoilage in fish is accompanied by the change in physical characteristic. Changes in color, texture, odour , color of eyes, color of gills, softness of muscle, belly bursting are some of the characteristics of spoiled fish.
Prevention/Reduction of Spoilage. The spoilage of fish is caused by enzymatic, bacterial and chemical action. The activity of organism can be controlled, by proper handling and immediate lowering of the temperature. The chilling of the fish immediately after catch and holding the fish at 0 o C by proper icing will reduce the spoilage.
In case of shrimps, removing head immediately after catch will reduce the rate of spoilage. In the case of big fishes, beheading and eviscerating will reduce the enzymatic actions which cause spoilage. The spoilage is reduced or prevented in a number of ways like drying, salting, chilling, canning and freezing. Chilling is a means of short term preservation of seafoods achieved by the reduction in temperature using ice.
Freezing is the most satisfactory method currently available for a long term preservation of seafood. The best way of preventing fish from spoilage is the natural conditions of freezing . It is effective for retaining flavour , colour and nutritive value of seafoods . Freezing is a process by which the water in the fish muscle is crystallized into ice. The crystallization will be complete at -40 o C.
After freezing, the fish must be stored at a temperature maintained constantly at -18 o C or below. If there is a wide variation in the temperature recrystallisation takes place. Dehydration is another important reaction of a physical nature caused by the evaporation of ice and in the air of the store room.
Loss of the moisture by evaporation of ice causes the product surface to dry resulting in dull appearance and even discolouration in some cases. The evaporated water eventually condenses and freezes on the cooling surfaces of the store room and the transfer of moisture from the product will be continuous. Proper glazing and packaging eliminates this evaporation.
Conclusion Preparation of material for freezing is an important process requiring skill, extreme precaution and careful operations. The spoilage process can be controlled to a large extent. The important steps involved in the good manufacturing practices are: Inspection of raw material, in process material and finished products. 2. Hygienic handling of material. 3. Use of good quality ice and water.
4. Maintenance of high standards of personnel hygiene and cleanliness. 5. Better sanitary facilities. 6. Strict adherence to cleaning schedule of utensils , tables, equipments, floor etc. 7. Prevention of entry of insects, rodents and birds into handling and processing areas. 8. Maintenance of correct cold storage temperature.
Time, temperature and hygiene play important role in the processing of seafoods . Speedy work, proper icing and cleanliness in processing operations, go a long way in reducing spoilage.
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