Bioactive compounds in seaweed: functional food applications and legislation

• Published in: Journal of applied phycology Vol. 23; no. 3; pp. 543 - 597
• Main Authors: Holdt, Susan Løvstad, Kraan, Stefan
• Format: Journal Article
• Language: English
• Published: Dordrecht Springer Netherlands 01.06.2011
• Subjects: Ascophyllum nodosum; Biomedical and Life Sciences; Chondrus crispus; Ecology; Freshwater & Marine Ecology; Fucus; Gracilaria; Laminaria; Life Sciences; Oryza sativa; Palmaria palmata; Plant Physiology; Plant Sciences; Porphyra; Sargassum; Ulva; Undaria pinnatifida; ANE, Europe; Europe; A, Atlantic; INW, Japan; Feed supplement; Biorefinery; High value-added products; Pharmaceutical; Health promotion; Nutraceutical
• ISSN: 0921-8971; 1573-5176
• DOI: 10.1007/s10811-010-9632-5

Seaweed is more than the wrap that keeps rice together in sushi. Seaweed biomass is already used for a wide range of other products in food, including stabilising agents. Biorefineries with seaweed as feedstock are attracting worldwide interest and include low-volume, high value-added products and vice versa. Scientific research on bioactive compounds in seaweed usually takes place on just a few species and compounds. This paper reviews worldwide research on bioactive compounds, mainly of nine genera or species of seaweed, which are also available in European temperate Atlantic waters, i.e. Laminaria sp., Fucus sp., Ascophyllum nodosum , Chondrus crispus , Porphyra sp., Ulva sp., Sargassum sp., Gracilaria sp. and Palmaria palmata . In addition, Undaria pinnatifida is included in this review as this is globally one of the most commonly produced, investigated and available species. Fewer examples of other species abundant worldwide have also been included. This review will supply fundamental information for biorefineries in Atlantic Europe using seaweed as feedstock. Preliminary selection of one or several candidate seaweed species will be possible based on the summary tables and previous research described in this review. This applies either to the choice of high value-added bioactive products to be exploited in an available species or to the choice of seaweed species when a bioactive compound is desired. Data are presented in tables with species, effect and test organism (if present) with examples of uses to enhance comparisons. In addition, scientific experiments performed on seaweed used as animal feed are presented, and EU, US and Japanese legislation on functional foods is reviewed.