Characterization and Gelling Potential of Macroalgae Extracts Obtained Through Eco-Friendly Technologies for Food-Grade Gelled Matrices

Characterization and Gelling Potential of Macroalgae Extracts Obtained Through Eco-Friendly Technologies for Food-Grade Gelled Matrices

The growing demand for sustainable and nutrient-rich food sources has positioned macroalgae as a promising alternative for food product development. This study investigates the extraction and characterization of hydrocolloids from three red macroalgae species (<i>Chondrus crispus</i>, &l...

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Bibliographic Details
Main Authors: Filipe Vinagre, Maria João Alegria, Andreia Sousa Ferreira, Cláudia Nunes, Maria Cristiana Nunes, Anabela Raymundo
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Gels
Subjects:
macroalgae
hydrocolloids
green extraction
rheological properties
food hydrocolloids
Online Access:https://www.mdpi.com/2310-2861/11/4/290
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Summary:The growing demand for sustainable and nutrient-rich food sources has positioned macroalgae as a promising alternative for food product development. This study investigates the extraction and characterization of hydrocolloids from three red macroalgae species (<i>Chondrus crispus</i>, <i>Gracilaria gracilis</i>, and <i>Gelidium corneum</i>) using water bath (WB), ultrasound (US), and hybrid ultrasound–water bath (USWB) treatments for 45 and 60 min. The physicochemical properties of the extracts, including rheological behavior, particle size distribution, antioxidant activity, and texture, were assessed. The results show that <i>C. crispus</i> produced the firmest gels due to its high carrageenan content, with WB and USWB treatments yielding the most stable gel structures. In contrast, <i>G. gracilis</i> and <i>G. corneum</i> exhibited lower gel strength, consistent with their agar composition. WB-treated samples demonstrated superior antioxidant retention, while US treatment was more effective in preserving color stability. The findings highlight macroalgae as a viable and sustainable alternative to conventional hydrocolloids, reinforcing their potential as natural gelling agents, thickeners, and stabilizers for the food and pharmaceutical industries. This study provides a comparative evaluation of WB, US, and USWB extraction methods, offering insights into optimizing hydrocolloid extraction for enhanced functionality and sustainability.
ISSN:2310-2861

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