THE DISPLAY LIFE OF RETAIL-PACKAGED BEEF STEAKS AFTER THEIR STORAGE IN MASTER PACKS UNDER VARIOUS ATMOSPHERES

Beef strip loins were divided into four portions. One portion of each loin was vacuum-packaged and then stored at -1.5-degrees-C The other p ortions were each divided into three steaks, which were retail-package d. The retail packs were master-packaged under atmospheres of N2, CO2, or O2 + CO2 (2:1, v/v) and then stored at 2-degrees-C Product was ass essed after storage times of up to 60 days. At each assessment, a vacu um pack and a master pack of each type, each containing product from t he same loin, were withdrawn from storage. The vacuum-packaged product was cut into three steaks, which were retail-packaged. The newly prep ared retail packs and those from the master packs were displayed in a retail cabinet, at air temperatures that averaged between 3 and 5.7-de grees-C, and were assessed twice daily until the product was judged to be unacceptable. When first assessed, steaks cut from vacuum-packaged product were generally considered desirable, with little metmyoglobin in the surface pigment, although the edges of same steaks were discol oured. Steaks stored under N2 or CO2 for 4 days or less were only slig htly desirable at best, with metmyoglobin forming relatively large fra ctions of the surface pigment. However, after storage under N2 or CO2 for 6 days or more, metmyoglobin fractions were low, and the steaks bl oomed to a desirable red colour. Steaks stored under O2 + CO2 had lowe r metmyoglobin fractions, and were desirable after storage for up to 8 days. However, the fractions of metmyoglobin increased, and steaks we re judged to be less desirable after longer storage times. Steaks stor ed under O2 + CO2 for 20 days were unacceptable. After storage, the nu mbers of bacteria on steaks from vacuum packs and N2, CO2, and O2 + CO 2 atmospheres were, respectively, <10(4), <10(6), <10(5), and < 10(4) CFU/cm2. The flora from steaks stored under CO2 were composed wholly o f lactic acid bacteria. Other flora were dominated by lactic acid bact eria, but contained fractions of enterobacteria and/or Brochothrix the rmosphacta. The appearance of product from vacuum packs generally was unacceptable after 72 h of display. The display life of steaks stored under N2 or CO2 was shorter than that of the product from vacuum packs when product was stored for 2 days or less, or 46 days or more. After other storage times, the product from vacuum packs or master packs wi th N2 or CO2 atmospheres had a similar display life. The display life of product stored under O2 + CO2 was similar to that of product from v acuum packs after storage times of 8 days or less but was shorter afte r storage times of 12 or 16 days. The flora on displayed product from vacuum packs or CO2 or O2 + CO2 atmospheres did not attain the maximum number of 10(7) CFU/cm2, and the product did not develop off-odours o f microbial origin. However, numbers of 10(7) CFU/cm2 were approached or attained during display of product stored under N2 for 28 days or l onger, and some of that product developed moderate off-odours. It then appears that, under temperature regimes that are common in commercial practice, retail-packaged strip-loin steaks with a display life of 2 days or longer can be obtained from master packs after storage periods of up to about 2, 4, or 7 weeks, respectively, with master-pack atmos pheres of 02 + CO2 (2:1, v/v), N2, or CO2.