Abstract
The clean-label trend demands stable natural colorants. H. sabdariffa L. calyces is a sustainable anthocyanin source; however, the effects of dehydration and food-grade extraction on pigment recovery and performance remain unclear. Fresh and dehydrated calyces were physicochemically characterized, and dehydrated material with aqueous and hydroalcoholic food-grade solvents was used for extraction. Extraction efficiency was evaluated through total phenolic compound (TPC) content and anthocyanin characterization by HPLC-DAD-ESI-MS/MS. The aqueous extract with the highest anthocyanin concentration was selected for the syrup formulation containing 5-35% sucrose. The physicochemical stability of the formulations was monitored during refrigerated storage (4 °C/30 days) and subsequently tested in food matrices with different pH values. Dehydration calyces reduced moisture content (11.61%) and water activity (a(w) = 0.56), indicating improved storage stability. The anthocyanin concentration was highest in the 5% sucrose syrup (495.12 ± 40.66 mg mv-3,5-glc·100 g(-1)), with a 12.71% loss over 30 days. Application in food matrices demonstrated a pH-dependent color response, with correlations between hue angle (h°, r = 0.86) and color saturation (C*, r = -0.77).These results demonstrate that hibiscus calyx syrups are promising natural colorants and bioactive ingredients, particularly for acidic food systems, offering stability.