This study investigated the relationship among meat texture (Warner-Bratzler shear force [WBSF] and texture profile analysis [TPA]), water-holding capacity, and subsequent mastication of meat from sheep fed different diets and maintained under different packaging methods. Biceps femoris from 24 Merino sheep fed a standard pelleted diet containing grain and cereal hay or pelleted diets supplemented with either 8% camelina meal or 15% camelina forage hay was packaged in high-oxygen modified atmosphere packaging (hiOxMAP) or vacuum skin packaging (VSP). WBSF, TPA, and water-holding capacity (purge loss and cooking loss) were measured. Twelve volunteers were recruited to chew the cooked meat samples before expectorating the bolus at their natural swallowing point. Meat stored in hiOxMAP had greater purge loss, Warner-Bratzler peak force, hardness, and chewiness compared to meat packed in VSP. Mastication testing revealed that chewing frequency increased with VSP meat compared to hiOxMAP meat. Feed type had little effect on meat texture parameters; however, sheep meat on the standard pelleted diet required a greater number of chews than sheep finished on diet supplemented with camelina meal. Increased toughness in cooked meat due to feed type or packaging methods resulted in greater chewing effort, but this did not affect meat bolus properties at the natural swallowing point.
Keywords: bolus properties; camelina; lamb; meat texture; packaging.
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