TlMARIT VFl 1967 85 out commercially in Portugal (Scarlatti, 1964). In this process, newly-caught fish are stowed in ice in ‘pounds’ and then chilled to temperatures just below the freezing point by the application of a moderate amount of refrigeration. The fish room on the ship has a lining of stainiess steel with cooling grids buried beneath the surface, and plate coolers are installed at the sides of the pounds so that the fish and ice cool more or less uniformly without severe temperature gradients. Fish from West African fishing grounds of ac- ceptable quality have been landed after more than 30 days under these conditions (Merritt, 1965). Repeating this work under laboratory conditions, Merritt (1965) found that the usual ‘life’ of cod after catching, 14 days in melting ice, could be extended to 21 days at —1°C or 26 days at —2°C. At —3°C the damage due to ice formation in the flesh rendered the cod un- suitable for filleting and smoking, but the eating quality was still acceptable after 35 days. When the writer tested the same material with the cell fragility method, it was found that very little denaturation had occurred. It was tempting, therefore, to suggest that the fish had never actually frozen: the proteins of cod muscle at —1.5°C in the supercooled condition (without ice present) are not denatured (Love & Elerian, 1964). However, Merritt carried out calorimetric determinations on the cod and showed that after 8 days about half the tissue water was frozen out, the mean fish temperature by then being —2°C. The results were therefore paradoxical: the conditions were apparently such as to produce very rapid denaturation, while the tests showed that this was hardly occurring at all. The explanation lies in ‘bound water’. In 1963, Love & Elerian showed that if cod were frozen at —14 °C and then stored at the same tempera- ture, they denatured more slowly than those frozen, say, to —80°C then re-warmed to and stored at —14°C. As the temperature was low- ered, more and more ‘bound water’ was removed from the muscle protein and converted to ice, and this change of state was not reversed when the frozen fish were warmed to a higher, still sub-zero temperature. According to present views (reviewed by Love, 1966A), fish muscle protein becomes denatured because freezing concentrates the tissue salts by recoving water as ice, and the strong salt solution, probably in conjunction with free fatty acids, acts on the proteins and alters them. If this is true, then the irreversible freezing out of bound water at low temperatures results in a higher concentration of tissue salts in fish frozen to —80° then re-warmed to —14° than in fish merely cooled to —14°C. In the same way, fish frozen in an air-blast at —30° and then re-warmed to —2° would contain more ice, and so more coneentrated tissue salts, than fish just cooled to —2°C, and would denature faster. Figure 3: Effect of freezing at different initial tempera- tures on the rate of deterioration at —1.6°C in cod muscle. • — • air-blast frozen at —30°C before storage. 0-0 frozen in polythene bags in a llquid bath at —3°C. Each point is the mean of 15 determinations. To test this theory, an experiment was carried out in September 1965 in the writer’s laboratory on cod in sealed bags (a) frozen in a liquid bath at —3°C and stored at —1.6°C and (b) air-blast frozen at —30°C and then stored at —1.6°C. The results (Fig. 3) show very clearly that the air-blast frozen cod denature much more quickly than the ‘superchilled’ samples. From this work it is clear that the ‘temper- ature of maximum denaturation’, already stated to be —1.5°C for cod, is only true in the case of fish first frozen to a relatively low temper- ature, and then warmed up for storage. Under ‘superchilling’ conditions it is probably lower than this. Discussing the new process, Partmann (1965) concluded that ‘superchilling’ would result in a badly denatured product unless the fish remained

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