Rheological and differential scanning calorimetry studies on structural and textural changes in frozen Atlantic mackerel ( Scomber scombrus )

The viscoelastic behaviour and thermal stability of Atlantic mackerel fillets stored at −20 and −30 °C for up to 2 years were investigated. An increase in elastic ( G ′) and viscous ( G ″) modulus values, reflecting protein aggregation, was observed in samples stored at −20 °C compared with those stored at −30 °C, as well as with storage time. The results indicate that toughening on frozen storage is not just limited to lean gadoid fish but also occurs in fatty fish, leading to texture deterioration. Differential scanning calorimetry of fillets stored at −20 °C showed a shift to a lower transition temperature ( T m ) and a decrease in enthalpy (Δ H ) compared with control fillets stored at −30 °C; this change was enhanced when fillets were stored for a longer period of time, confirming protein denaturation and the formation of aggregates reported previously by the authors ( J Sci Food Agric 82: 579–586 (2002)). The contribution of lipid oxidation to protein aggregation was shown by storing minced mackerel with or without the antioxidant vitamin E at −10 °C. The G ′ and G ″ values were higher in samples stored without vitamin E than in samples stored with vitamin E; thus antioxidants may be used to minimise protein aggregation in fatty fish. The role of lipid oxidation in promoting protein aggregation and deterioration in the texture of fatty fish has not been reported hitherto. Antioxidants such as vitamin E may be used not only to prevent lipid oxidation but also to minimise protein damage in order to prolong the shelf‐life of fatty fish. Copyright © 2004 Society of Chemical Industry