2023, Racewicz, Przemysław Łukasz, Biesiada, Hanna, Majewski, Michał, Ludwiczak, Agnieszka, Stanisz, Marek, Składanowska-Baryza, Joanna

AbstractThe pace of life is accelerating, so we are seeking ways to optimize the shelf life of products. To achieve this goal, the microbiological quality of rabbit meat was assessed at 7, 14, and 21 days under refrigerated conditions, utilizing two storage methods, modified atmosphere packaging (MAP) and vacuum packaging (VAC). Maintaining high levels of hygiene is critical not only during slaughter but also during subsequent technological processes and meat storage. The research concluded that the MAP method was more effective at extending the shelf‐life of fresh rabbit meat than the VAC method. Additionally, increasing the CO2 concentrations in meat significantly decreased the Pseudomonas bacteria population (after 14 and 21 days of storage). Conversely, the gaseous mixture containing 70% O2 significantly decreased the Enterobacteriaceae population in the sample after 21 days of storage. Moreover, the MAP storage method considerably impeded microbial growth, particularly the total yeast and mold count, lactic acid bacteria count, and Pseudomonas spp. count. This study's findings demonstrate that rabbit meat can be stored for 21 days in a modified atmosphere containing appropriate concentrations of gases such as gaseous carbon dioxide and oxygen.

2022, Składanowska-Baryza, Joanna, Ludwiczak, Agnieszka, Stanisz, Marek

AbstractThe study was conducted on 84 rabbits. The animals were weaned at the age of 42 days, after which they were all fed the same diet. Rabbit loins were obtained 24 h post‐mortem and divided into groups according to the packaging method and storage time: control group (examined 24 h post‐mortem); two groups stored in vacuum packaging (7 days, n = 12; 14 days, n = 12); and four groups stored in two different gas mixtures (7 days, n = 12/gas mixture; 14 days, n = 12/gas mixture). After the storage, the microbiological and physicochemical quality of longissimus thoracis et lumborum (LTL) muscles was analyzed. Meat packaged in both systems (MAP and VAC) was characterized by good quality after 7 days of storage, while after 14 days, there was a significant deterioration, which was reflected in disturbances in the color parameters (L* and a*) and substantial changes in the water fraction parameters. The purge loss (<0.0001), total water (<0.0001), free water (<0.001), cooking loss (<0.0001), and plasticity (p = 0.0025) were affected by the group. In conclusion, our study demonstrated that vacuum packaging created the lowest microbial growth rates. However, muscles stored in the gas mixture containing 30%CO2 and 70%O2, characterized with the greatest tenderness.