Effects of Dry-Aging on Color and Oxidation Stabilities of Beef Loins
Abstract
ObjectivesDry-aging is a traditional process to store whole carcasses or unpackaged primals/sub-primals under a controlled environment. Due to its known positive impacts on palatability attributes, dry-aging has been typically practiced in local meat processors or small meat purveyors for upscale butcher shops and/or gourmet restaurants. While there is an increasing demand from local consumers to purchase dry-aged beef from a retail market, there is little information on how dry-aging affects color and oxidation stabilities of beef muscles. Therefore, the objective of this study was to evaluate the effect of dry-aging on color and oxidation stabilities of beef loins. To measure the objectives, the conventional dry-aging (DA) of sub-primal loins was compared with two other aging methods– vacuum packaged wet-aging (WA) and dry-aging in a high water permeable bag (DAW).Materials and MethodsPaired beef loins (M. longissimus lumborum) from 9 beef carcasses were obtained at 7 d postmortem, cut into two sections, and assigned to three different aging methods (DA, WA, or DAW) for 28 d at 2°C and 78% relative humidity. After aging, initial trimming of dried surface was made. Then, one steak (2.54 cm thick) was cut from each aged section, overwrapped with PVC film, and displayed for 7 d under a simulated display condition. Instrumental and visual color evaluations were performed during 7 d of display. The 2-thiobarbituric acid reactive substances (TBARS) and heme/non-heme iron contents were measured for 0 and 7 d of samples. The experimental design was a balanced incomplete block design with three aging methods allocated to the loin sections from 9 beef carcasses in a saturated arrangement (n = 12; 9 carcasses × 2 loins × 2 sections = 36 sections for 3 treatments). All data were analyzed using the PROC MIXED procedure of SAS (SAS Inst. Inc., Cary, NC), and least squares means for all traits were separated (F test, P < 0.05) by using least significant differences generated by the PDIFF option.ResultsDAW beef loin steaks exhibited the most rapid decreases in CIE a* (redness) and visual lean color scores, and sharp increases in hue angle and visual discoloration scores during 7 d of retail display. Conversely, beef steaks from WA and DA treatments showed similar hue angle values during display (P > 0.05), although a slightly higher visual discoloration was observed in DA steaks compared to WA at d 7 (P < 0.05). The TBARS values were affected by different aging types (P < 0.05), where DAW showed the highest accumulation of lipid oxidation followed by DA and WA at the end of display. The heme and non-heme iron contents were not affected by either aging types or display time (P > 0.05).ConclusionThe results from this current study found that dry-aging in a high water permeable bag resulted in the most rapid discoloration and accelerated lipid oxidation during retail display. Steaks from the conventionally dry-aged beef loins seem to have similar color and lipid oxidation stabilities compared to the wet-aged beef counterpart at least up to 5 d of retail display. This observation indicates that steaks from dry-aged beef loins can be likely merchandised in the retail consumer level, once the proper initial trimmings are made. Further studies determining pro-oxidant factors of DAW causing more lipid oxidation and discoloration compared to DA and WA should be warranted.
Keywords: Beef, color stability, dry-aged, retail display, lipid oxidation
How to Cite:
Setyabrata, D., Kim, H., Berger, J., Zuelly, S. & Kim, Y. H., (2018) “Effects of Dry-Aging on Color and Oxidation Stabilities of Beef Loins”, Meat and Muscle Biology 1(2). doi: https://doi.org/10.221751/rmc2016.162
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