Carbon monoxide (CO), recently approved as a modified atmosphere packaging (MAP) gas, has the potential to extend color shelf life in case‐ready beef. The objective was to determine how CO versus traditional high oxygen MAP treatments affect beef quality. Strip loins were enhanced with a commercial phosphate–salt solution. Steaks were cut, packaged in atmospheres containing either 0.4% CO/30% CO2/69.6% N2 (HiOx) or 80% O2/20% CO2 (HiOx), aged in the dark for 12 and 26 days, and placed in a lighted retail display case. Steaks were visually evaluated by trained panelists using a 7‐point color scale and a 5‐point surface sheen scale. On days 14 and 28, packages were opened, and steaks were cooked for consumer evaluation. Cooked steaks were cut through for internal cooked color evaluation. Results indicate that CO had no effect on flavor or acceptability and minimal effects on other characteristics, such as color, sheen and purge loss. If the CO environment provides microbiological stability through 28 days, it can be expected that the raw product appearance will not differ from steaks in traditional HiOx packaging.
PRACTICAL APPLICATIONS
To prevent surface browning, which occurs over time due to high oxygen environments, carbon monoxide (CO) can be used in modified atmosphere packaged (MAP) fresh beef because it binds very strongly to the meat pigment myoglobin, allowing it to maintain its bright red color and extending its shelf life. Strip loin steaks were packaged in high oxygen MAP or high oxygen plus CO packaging then evaluated by a panel of 100 consumers after 14 and 28 days of storage. CO had some effect on raw color, surface sheen and interior cooked color compared to the high oxygen atmosphere when steaks were evaluated after 14 days. CO had no effect on flavor or acceptability and only minimal effects on other characteristics. Use of this recently approved MAP gas can extend the color shelf life of beef.
The objective of this study was to evaluate the effects of enhancement solutions containing sodium lactate or sodium lactate/sodium diacetate on E. coli K12 transmission to beef strip steaks and in purge. Solutions containing salt, phosphate, and shelf‐life enhancers were injected to 10% over initial weight of the steaks. Lactate or lactate/diacetate addition to a solution inoculated with 6 log10E. coli K12 CFU/mL was equally effective in limiting growth resulting in a 1‐2 log10 CFU/g reduction when compared to salt/phosphate in steaks. When inoculation level was 3 log10 CFU/mL in the enhancement solution, microbial growth was detectable only in the purge of steaks enhanced with salt/phosphate only. Lactate increased CIE L* value and b* and decreased a* values when compared to the control. Lactate‐/diacetate‐containing solutions decreased L* values when compared to lactate alone. Lactate/diacetate also reduced purge loss from steaks compared to lactate and salt/phosphate solutions.
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