Whey and soy proteins are valuable dried ingredients with applications in numerous foods. Characterization and comparison of the flavor properties of these value‐added ingredients are needed to interpret analytical flavor chemistry results and to identify specific ingredient applications and marketing strategies. The goals of this study were to develop a sensory lexicon for whey and soy proteins, and to subsequently identify and compare the descriptive sensory properties of whey and soy proteins. Consumers also filled out a survey to probe their opinions and attitudes to dairy and soy products. Twenty‐four descriptive sensory attributes were identified to evaluate appearance, flavor, and texture/mouthfeel of rehydrated proteins. Twenty‐two samples (14 whey proteins and 8 soy proteins) were selected for descriptive sensory analysis. Proteins were rehydrated (10% solids, [w/v]) and evaluated in triplicate by a highly trained sensory panel (n= 10) trained to use the developed language. Both whey and soy proteins were differentiated using the identified language (P < 0.05). Each protein type displayed sensory variability, but different sensory attributes distinguished whey proteins from soy proteins. Consumers (n= 147) perceived distinct health benefits associated with dairy and soy products, respectively. These results will enhance ongoing research and product development with these nutritional and functional ingredients.
Whey and soy proteins are valuable ingredients with multiple roles. Globally, production of both protein types in the form of dried concentrates and isolates continues to increase. The objectives of this study were to document the descriptive sensory properties of whey and soy proteins, and to compare the differences and similarities between sensory languages and panel performance at two locations: New Zealand and the U.S.A. Eighteen whey and soy proteins (11 whey protein concentrates/isolates and 7 soy protein concentrates/isolates) were selected from a larger sample set of 52 proteins. The proteins were rehydrated and evaluated in triplicate by trained panels at each site. Sensory languages developed by each location were highly similar, although usage of specific descriptors differed between the two locations. Key flavor characteristics among the protein types (whey versus soy) were described by different attributes (P < 0.05). Product differentiation by principal component biplots and RV coefficient were similar between the two locations. Flavor variability existed in both whey and soy proteins, and there were specific flavor characteristics associated with each protein type. These results provide fundamental information on key sensory attributes of these widely used dry ingredients, provide a platform to develop an international sensory language, and demonstrate that independently defined sensory languages can produce comparable results at different locations. PRACTICAL APPLICATIONS This study provides fundamental information on key sensory attributes of two widely used dry ingredients: whey and soy proteins, provides a platform to develop an international sensory language, and demonstrates that independently defined sensory languages can produce comparable results at different locations.
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