This study was conducted to evaluate consumer profiling of pineapple at five maturity stages using check-all-that-apply (CATA) method and to determine the influence of post-harvest physiological changes on the physical and chemical properties of the pineapple. Nineteen CATA terms describing sensory attributes of pineapples at five maturity stages were generated. Seventy-five consumers were involved in describing the changes in the organoleptic properties of pineapple using CATA questions. The relationship between physicochemical properties and sensory description of pineapples was analyzed using correspondence analysis (CA). The total variance of 97.7% and 92.2% obtained in the CA plot of the physical and chemical properties with the
This study was conducted to evaluate consumer profiling of pineapple at five maturity stages using check-all-that-apply (CATA) method and to determine the influence of post-harvest physiological changes on the physical and chemical properties of the pineapple. Nineteen CATA terms describing sensory attributes of pineapples at five maturity stages were generated. Seventy-five consumers were involved in describing the changes in the organoleptic properties of pineapple using CATA questions. The relationship between physicochemical properties and sensory description of pineapples was analyzed using correspondence analysis (CA). The total variance of 97.7% and 92.2% obtained in the CA plot of the physical and chemical properties with the consumer profiling data suggests that consumers have effectively described the pineapple harvested at five maturity stages. Changes in physical and chemical compositions in pineapple upon maturation result in the development of pineapple's desirable organoleptic characteristics, characterized as fresh, attractive, and bright yellowish, with a soft, fibrous, and juicy texture, a sweet odor and pineapple aroma as well as sweet taste. Index 3 pineapple has been described as pale, hard, and crunchy in texture at the early stage of maturity and has a sour taste. The characteristic was transformed to bright yellow, soft, fibrous, and juicy texture after maturation, (25% ripeness onwards), as well as the production of sweet taste and aroma of pineapple. Instrument analysis of yellowness (b value) and carotenoid has strongly influenced the sensory attributes of brightness, freshness, and attractiveness of the pineapple. Changes in total soluble solids (TSS) and a ratio of TSS to total acids (TA) contributes to the development of aromatic compound which increases the appealing quality of the pineapple. Pineapple sensory characteristics, physical properties, and chemical compositions were significantly affected by post-harvest physiology. Practical ApplicationSensory and instrumental methods were used to construct the properties of pineapple at different stages of post-harvest physiology. This article demonstrates that the Check-all-that-apply (CATA) analysis provides adequate sensory profiling information based on customer perceptions in relation to instrumental details, and it can be extended to other pineapple varieties and citrus fruits. SourcesInfluence of post-harvest physiology on sensory perception, physical properties, and chemical compositions of Moris pineapples (Ananas comosus L.)Siti Rashima R., Azhar M. E., Maizura M.First published: 12 August 2021 https://doi.org/10.1111/1750-3841.15877Journal of Food Science, https://onlinelibrary.wiley.com/doi/10.1111/1750-3841.15877?af=R&utm_medium=email&utm_source=rasa_io&PostID=35728662&MessageRunDetailID=6113205843Picture, ScienceDirect