Sustainable Bio-Based Materials from Minimally Processed Red Seaweeds: Effect of Composition and Cell Wall Structure

This study reports on the use of whole seaweed biomass to obtain bio-based films for food packaging applications. Specifically, four different species of agarophytes (Gelidium corneum, Gracilaria chilensis, Gracilaria tenuistipitata and Gracilariopsis longissima) were minimally processed by melt blending and compression molding, and the effect of their composition and cell wall structure on the final performance of the films was investigated. The seaweed biomass was mainly composed of carbohydrates (35-50%), but significant amounts of proteins and ashes were also detected. Temperature-resolved SAXS experiments and microscopy analyses evidenced that a higher temperature of 130 celcius is required to promote the release of agar from the tougher cell walls from G. corneum and G. tenuistipitata. The higher cellulose content of G. corneum (ca. 15%) resulted in films with higher mechanical resistance and water vapor barrier capacity, while the higher agar content of G. chilensis improved the elongation capacity of the films. The results from this work evidence the potential of red seaweed biomass to generate food packaging materials in a cost-effective and environmentally friendly way.

Automated summary

This study explores the use of whole seaweed biomass for bio-based films in food packaging. The composition and cell wall structure of different agarophyte species were investigated to determine their impact on film performance. The results indicate the potential of red seaweed biomass for cost-effective and environmentally friendly food packaging materials.