The Ohio State University, 122 Animal Science Building, 2029 Fyffe Court, Columbus, OH 43210, USA.
Meat Sci. 2010 May;85(1):96-103. doi: 10.1016/j.meatsci.2009.12.011. Epub 2009 Dec 13.
The present study evaluated individual and interactive influences of pork loin (n=679) ultimate ph (pH), intramuscular fat (IMF), Minolta L* color (L*), Warner-Bratzler shear force (WBSF), and internal cooked temperatures (62.8 degrees C, 68.3 degrees C, 73.9 degrees C, and 79.4 degrees C) on trained sensory perception of palatability. Logistical regression analyses were used, fitting sensory responses as dependent variables and quality and cooked temperature as independent variables, testing quadratic and interactive effects. Incremental increases in cooked temperature reduced sensory juiciness and tenderness scores by 3.8% and 0.9%, respectively, but did not influence sensory flavor or saltiness scores. An increase of 4.9N in WBSF, from a base of 14.7N (lowest) to 58.8N (greatest) was associated with a 3.7% and 1.8% reduction in sensory tenderness and juiciness scores, respectively, with predicted sensory tenderness scores reduced by 3.55 units when comparing ends of the WBSF range. Modeled sensory responses for loins with pH of 5.40 and 5.60 had reduced tenderness, chewiness, and fat flavor ratings when compared with responses for loins with pH of 5.80 to 6.40, the range indicative of optimal sensory response. Loin IMF and L* were significant model effects; however, their influence on sensory attributes was small, with predicted mean sensory responses measurably improved only when comparing 6% and 1% IMF and L* values of 46.9 (dark) when compared with 65.0 (pale). Tenderness and juiciness scores, were related to a greater extent to loin WBSF and pH, and to a lesser extent to cooked temperature, IMF and L*.
本研究评估了猪里脊肉(n=679)最终 pH 值(pH)、肌内脂肪(IMF)、Minolta L颜色(L)、 Warner-Bratzler 剪切力(WBSF)和内部烹饪温度(62.8°C、68.3°C、73.9°C 和 79.4°C)对经过训练的感官可接受性的个体和交互影响。使用逻辑回归分析,将感官反应作为因变量,将质量和烹饪温度作为自变量进行拟合,测试二次项和交互作用。烹饪温度的逐步升高分别使感官多汁性和嫩度评分降低 3.8%和 0.9%,但不影响感官风味或咸度评分。WBSF 从 14.7N(最低)增加到 58.8N(最高)增加了 4.9N,分别使感官嫩度和多汁性评分降低了 3.7%和 1.8%,当比较 WBSF 范围的两端时,预测的感官嫩度评分降低了 3.55 个单位。与 pH 值为 5.40 和 5.60 的里脊肉相比,pH 值为 5.80 至 6.40 的里脊肉的感官嫩度、咀嚼性和脂肪风味评分降低,这一范围表明了最佳的感官反应。里脊 IMF 和 L是显著的模型效应;然而,它们对感官属性的影响很小,只有当比较 IMF 值为 6%和 1%以及 L值为 46.9(暗)和 65.0(亮)时,预测的平均感官反应才会有明显的改善。嫩度和多汁性评分与里脊肉的 WBSF 和 pH 值的关系更为密切,与烹饪温度、IMF 和 L*的关系则不那么密切。
