The Volatile Composition and the Potential Health Benefits of Different Microalgae Strains.

The use of microalgae as a food ingredient has been gaining attention in recent years due to its nutritional benefits. The main goals of this study were to (i) assess the nutritional potential of , , , and ; (ii) evaluate their bioactive properties (antioxidant activity, total phenolic content, and α-amylase inhibitory activity) and (iii) assess the main volatile compounds composition. The protein content was considerably high (32-44 mg/100 g dw) for all the microalgae strains. The DPPH scavenging potential range was 14-25 mg Trolox/100 g dw (highest for ) and the ferric reducing power ability range was 13-67 µmol Trolox/dw (higher for ). The total phenolic content range was 2-7 mg of gallic acid equivalents/g dw, for and , respectively, which was mainly due to the presence of catechin (1-9 µg/g dw), epicatechin (3-29 µg/g dw), and vanillic acid (1-14 µg/g dw). The ɑ-amylase inhibitory potential range was 26-42%. was richer in chlorophyll a (18 mg/g dw), whilst was particularly rich in chlorophyll b (29 mg/g dw). showed the highest carotenoid content (4 mg/g dw). Aldehydes and alkanes were the major compounds identified in , whereas alcohols and -based compounds existed in higher amounts in . and were enriched in ketones and alkenes. This study's novelty lies in its comprehensive and integrative analysis of the nutritional, bioactive, and volatile properties of four distinct microalgae strains. By providing detailed comparisons and highlighting potential applications in functional foods, it offers a unique contribution to the field of microalgae research and its practical application in the food industry. This multifaceted approach sets it apart from existing studies, offering new insights and opportunities for leveraging microalgae as valuable food ingredients.