Fermentation of the Edible Brown Seaweed Alaria esculenta by Lactiplantibacillus plantarum affects nutritional prfile and the content of potentially toxic elements.

Edible seaweed has the potential to become a valuable marine resource for food applications due to its potential health benefits and ecological sustainability. The brown seaweed Alaria esculenta is rich in essential minerals, vitamins, and dietary fibers, making it a nutritious food source. Fermentation, as a traditional preservation method, can enhance seaweed shelf-life and be useful for the development of new foods/ beverages. In this study, the effects of fermentation of A. esculenta, by the lactic acid bacterium (LAB) Lactiplantibacillus plantarum, on the nutritional profile, and the content of potentially toxic elements, was investigated. L. plantarum was successfully cultivated on A. esculenta using two modes of operation, submerged (SmF) and solid-state fermentation (SSF), resulting in production of cells and lactic acid, and reduction of the pH to below 4.3 within 3 days, which was not achieved in parallel spontaneous fermentations using indigenous seaweed microbiota. A. esculenta s macro-nutritional profile was altered, reducing mannitol but increasing fucose and glucose content (after acid hydrolysis) while also concentrating the protein content. LAB fermentation significantly increased the concentration of antioxidant phenolic compounds, such as phloroglucinol, syringic acid, and epicatechin, compared to untreated samples. However, lipophilic compounds like carotenoids decreased after both spontaneous and LAB-fermentation. A reduction in total mineral content was observed after LAB fermentation and water soaking, and SmF with L. plantarum effectively reduced arsenic and iodine levels. Overall, fermentation using L. plantarum showed potential as a bio-preservation method for the edible brown seaweed, A. esculenta, improving its nutritional profile and enhancing food safety.