82 TlMARIT VFÍ 1967 Changes in frozen fish during storage By K. M. Love, D. Sc., Ph. D. Torry Research Station, Aberdeen, Scotland. Introduction As soon as a fish dies, it begins to deteriorate. Bacteria on the outside of the skin break down the protective surface coverings and gain access to the flesh, while the enzymes, which the fish was producing to digest its food, begin to break down the gut wall and belly cavity. Even if the fish are gutted immediately and then packed in crushed ice to slow down the bacterial growth, they cease to be acceptable as items of food after about two weeks because of their unpleasant odour and taste. When fish are frozen under the right condi- tions they will remain fit to eat for much longer periods. This has been realised for many years — a process for the artificial freezing of fish was patented as long ago as 1861 (Taylor, 1926) — but they must be kept below —5°C if bacterial growth is to be stopped completely (Leim, 1931). However, frozen fish do undergo slow de- terioration of a different sort, becoming gradu- ally tougher to eat, exuding more fluid on thaw- ing, and altering in appearance and flavour. These phenomena are mostly the results of changes in the actomyosin (Dyer et al., 1950), the main ‘structural’ protein of fish muscle. Alterations of this type will be referred to as ‘denaturation’ in the present account. In addition to suffering protein denaturation, fatty species of fish may also become rancid. Unlike denaturation of the protein, the change in the fat does not develop spontaneously at low temperatures, but is the result of the action of oxygen from the air. It may therefore be virtu- ally prevented by glazing with a coating of ice, or by vacuum-packing. The purpose of research on frozen fish is to slow down these undesirable changes and so yield an acceptable product over a long period as cheaply as possible. There have been some interesting new developments m the field, such as the use of polyphosphate dips before freezing, ‘superchilling’, and an increasing use of liquid nitrogen for refrigeration purposes. These will be reviewed in the following pages, in addition to the more familiar studies on the effect of freezing rate and storage temperature. Measurement of denaturation The first requirement of profitable research into denaturation is to be able to measure it, so that fish frozen and stored under different condi- tions may be compared. For many years this requirement was not satisfactorily met. Taste panels are relatively insensitive (Love, 1966). Measurement of the amount of drip exuding in a given time after thawing, popular with the early workers, is also too inaccurate to be of much use as a research tool. Eight other varied techniques intended to measure denaturation by utilizing various physi- cal or chemical phenomena have recently been reviewed (Love, 1966A), but none can be used successfully as a basis of research. Reay (1933) showed that while fish muscle would dissolve almost completely if ground up in 5% sodium chloride solution, the proportion de- creased after cold storage and thawing. This dis- covery has formed the basis of nearly all sub- sequent work, and has been developed by Dyer and his collaborators into a reasonably re- producible method for measuring protein dena- turation in frozen fish. Much valuable informa- tion has been obtained, and it was only the dis- covery by Ironside & Love (1958) that the results were sometimes influenced by the nutri- tional state of the fish, coupled with the some- what slow nature of the method, that led to a further search for an improved method. The method which was evolved, the 'cell fra- gility’ method (Love & Mackay, 1962), depends on the fact that the individual cells of which the fish muscle is composed become more resistant to mechanical damage (after thawing) as cold-

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