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Assessment of fluorescence fingerprint in Hayward and Ruby-Red kiwi fruit as a potential approach to monitor quality changes during storage

Nurwahyuningsih, Danial Fatchurrahman, Maulidia Hilaili, Tadashi Chosa

2025Food Control8 citationsDOIOpen Access PDF

Abstract

The research identified time-series fluorescence characteristics from various parts of the kiwi fruit in two varieties over storage. EEM fluorescence was taken in the fruit area over a 14-day storage period at 4 °C. In the flesh of Hayward kiwifruit, a moderate to strong regression was observed between firmness and the B channel (R 2 _cal = 0.75, R 2 _pred = 0.70, RMSE_train = 1.28, RMSE_test = 1.41). While, in the skin part, the relationship was slightly higher (R 2 _cal = 0.80, R 2 _pred = 0.76). The fluorescence peak at 370/493 nm has a strong regression with B channel values in the skin (R 2 _cal = 0.89, R 2 _pred = 0.92). Additionally, the relationship between firmness and B channel intensity in the flesh of Ruby Red kiwifruit demonstrated a high predictive accuracy (R 2 _pred = 0.92) and RMSE values (1 and 0.9 for train and test, respectively). • EEM fluorescence was used to characterize Hayward and Ruby-red kiwi fruit parts. • Fluorescence Emission and Excitation Matrix (EEM) as non-destructive analysis. • Freshness indicator were evaluated through comparative physicochemical analysis. • Fluorescence is more effective than physicochemical methods for freshness indicator.

Topics & Concepts

KiwiFingerprint (computing)FluorescenceQuality (philosophy)HorticultureComputer scienceFood scienceBiologyArtificial intelligencePhysicsOpticsQuantum mechanicsPotato Plant ResearchSpectroscopy and Chemometric AnalysesBanana Cultivation and Research
Assessment of fluorescence fingerprint in Hayward and Ruby-Red kiwi fruit as a potential approach to monitor quality changes during storage | Litcius