Litcius/Paper detail

Valorization of red beet peel through green extraction and carrier-driven microencapsulation for improved betalain stability

Nushrat Yeasmen, Md. Hafizur Rahman Bhuiyan, Yvan Gariépy, Ali R. Taherian, Marie‐Josée Dumont, Hosahalli S. Ramaswamy, Valérie Orsat

2025Food Chemistry7 citationsDOIOpen Access PDF

Abstract

The utilization of agri-food by-products and waste is increasingly essential due to sustainability trends and global regulations. Incorporating these nutrient-rich yet underutilized materials into food production enhances both sustainability and economic efficiency. This study evaluated and compared the extraction of betalains from red beet peel (RBP) using ultrasound-, high pressure-, and pulsed electric field-assisted techniques. Sonication yielded the highest levels of total betalains (16.92 ± 0.19 mg/g DM), phenolics (60.36 ± 0.32 mg GAE/g DM), flavonoids (18.49 ± 0.19 mg CTE/g DM), and antioxidant activity (112.10 ± 0.36 μM TE/g DM). Additionally, the stability of sonicated RBP betalains was analyzed using soy protein isolate (SPI) and maltodextrin (MD) as encapsulating agents. Both effectively reduced degradation, with betalain changes fitting zero-order kinetics over 120 days. The predicted shelf-life of encapsulated extracts was 7-12 months, significantly longer than non-encapsulated extracts (5 months). These findings highlight red beet peel as a sustainable source of natural pigments, demonstrating that eco-friendly extraction combined with encapsulation can effectively enhance both the stability and shelf-life of betalains, offering promising applications in functional foods and natural colorant development.

Topics & Concepts

BetalainChemistrySonicationFood scienceExtraction (chemistry)MaltodextrinAntioxidantAntioxidant capacityPomaceOrange (colour)Food additiveNatural foodFunctional foodSustainabilityPulp and paper industryChromatographyBiotechnologyFood industryBetaninBotanical Research and ApplicationsMicroencapsulation and Drying ProcessesProteins in Food Systems