Mechanism of Oxidation in Foods of Animal Origin                11
  VetBooks.ir  unsaturated fatty acids primarily reacting with molecular oxygen via a


            free radical chain mechanism (Gray, 1978). The primary autooxidation is
            followed by a series of secondary reactions which lead to the degradation of
            the lipid and the development of oxidative rancidity. The main unsaturated
            fatty acids comprising the lipids of animal tissues are oleic, linoleic, linolenic,
            and arachidonic acids. Their autoxidation gives rise to a number of different
            hydroperoxides which, in conjunction  with the many  different  decompo-
            sition  pathways involved,  lead  to a large number of volatile  compounds
            (Mottram, 1987). Oxidation of lipids also occurs during postmortem storage
            of muscle tissue. Meats such as fish and poultry contain a high concentration
            of PUFA and are therefore more susceptible to oxidation (Pacheco-Aguilar
            et al., 2000; Apgar & Hultin, 1982). Thus, fish lipids undergo more rapid
            oxidation after capture, even at low temperature storage (Foegeding et al.,
            1996; Pacheco-Aguilar et al., 2000). Pacheco-Aguilar et al. (2000) reported
            that the shelf life of oily Monterey sardine was limited by lipid oxidation, as
            shown by the increase of peroxide value (PV) during storage at 0 °C up to 15
            days. Sohn et al. (2005) reported that the total lipid hydroperoxide content of
            Pacific saury (Cololabis saira), Japanese Spanish mackerel (Scomberomorus
            niphonius), and chub mackerel (Scomber japonicus) tended to increase in
            both dark and ordinary muscle throughout four days of iced storage. Fatty
            fish such as sardine and mackerel underwent rapid lipid oxidation during
            iced storage due to the high content of PUFA (Chaijan et al., 2006; Chaijan
            et al., 2013; Pacheco-Aguilar et al., 2000). Lipid oxidation seems to be a
            distinct problem in surimi made from some dark-fleshed fish and particu-
            larly surimi from mammalian and avian muscle (Lanier, 2000). Lynch et al.
            (2001) demonstrated that lipid oxidation occurred progressively in stored
            ground beef at 4 °C and produced a variety of aldehydes.



            1.4.2  ENDOGENOUS ANTIOXIDANTS

            The normal resistance of meat to the development of rancidity depends on
            the balance between the presence of AH in the animal tissues and the level of
            unsaturation and the concentration of the fatty acids present (Enser, 1987).
            The  living  cells  possess several  protection  mechanisms  directed  against
            lipid oxidation products (Sies, 1997). Glutathione  peroxidase reduces
            hydroperoxides in the cellular membranes to the corresponding hydroxy-
            compounds. This reaction demands supply of reduced glutathione and will
            therefore cease post mortem when the cell is depleted of that substance.
            The membranes also contain the phenolic compound α-tocopherol (Vitamin