Your search keyword '"Aasen, Inga Marie"' showing total 3 results

1. Acid preservation of Saccharina latissima for application as a carbon source for fermentation to biofuels and chemicals

Author

Sandbakken, Ingrid S., Sæther, Maren, Funderud, Jon, and Aasen, Inga Marie

Published

2018

2. Enrichment of the protein content of the macroalgae Saccharina latissima and Palmaria palmata.

Author

Aasen, Inga Marie, Sandbakken, Ingrid S., Toldnes, Bendik, Roleda, Michael Y., and Slizyte, Rasa

Abstract

The large brown seaweeds (kelps) are potential sources of protein for animal feed. They have lower protein contents than most red and green algae, but due to potential for large-scale production, they may represent a significant future protein source. The impact of pH, temperature and polysaccharide-degrading enzymes on the solubility and extraction yields of protein from wet Saccharina latissima biomass was investigated. The protein solubility increased with increasing pH and reached maximum of 23% at pH 11, determined as total amino acids (TAA). The enzyme treatments increased the release of soluble compounds by 30–35%. The highest protein yield obtained was 19%, using a ratio of water to wet seaweed of 1:1 for extraction. Even if the yields can be increased by increasing the water amounts used for extraction, the majority of the protein would remain in the insoluble residue after separation. The strategy for production of a larger quantity of protein-enriched biomass was therefore to maintain the insoluble fraction as the product. A pilot scale production was carried out, also including the red algae Palmaria palmata. In total 750 kg S. latissima and 195 kg P. palmata were processed. The protein content in the product increased from 10 to 20% of dry weight (dw) for S. latissima and from 12 to 28% for P. palmata , with yields of 79 and 69%, respectively. The ash content was reduced from 44 to 26% and from 12 to 5% of dw, respectively, for the two species. The main protein loss was free amino acids, which constituted approximately 10% of TAA in the feedstocks. Less essential than non-essential amino acids were lost, thus, the essential amino acids were enriched in the product. • The maximum solubility of protein from Saccharina latissima was 24%. • Enzymes decreased the water binding capacity and increased the extraction yields. • Process was scaled-up, maintaining the insoluble fraction as the product. • The protein content increased from 10% in the biomass to 20% after processing. [ABSTRACT FROM AUTHOR]

Published

2022

3. Physicochemical- and bioactive properties of acid preserved Alaria esculenta and Saccharina latissima during storage.

Author

Hrólfsdóttir, Anna Þóra, Arason, Sigurjón, Sveinsdóttir, Hildur Inga, Sæther, Maren, Aasen, Inga Marie, and Gudjónsdóttir, María

Subjects

*SACCHARINA, *FOOD preservation, *LAMINARIA, *MICROBIAL growth, *CITRIC acid, *TRACE elements, *BIOMASS conversion

Abstract

The short harvesting period of cultivated brown seaweed in Europe can make it difficult for cultivators to produce high quality seaweed biomass all year around. Hence there is a need for novel processing and preservation methods. Acid preservation is a well-known method to preserve food, where the aim is to reduce the pH below 4.5 to inhibit microbial growth. To evaluate the effectiveness of acid preservation, a shelf-life experiment was conducted with Saccharina latissima and Alaria esculenta. The biomass was either treated with lactic- or citric acid and stored for approximately seven months. Physicochemical (including proximate composition, trace minerals, total phenolic content (TPC), texture and pH), microbial-, sensory attributes, and antioxidant (ORAC, DPPH) analyses were performed on the preserved biomass during storage. The proximate composition, color, pH, and texture of the acid-preserved seaweed were relatively stable throughout the storage. However, a decrease was observed in TPC and antioxidant properties (assessed by DPPH) with the acid treatments. Acid preservation is, thus, a good method to stabilize the studied biomass for food and feed applications but less applicable if intended for antioxidant purposes. However, the acid treated biomass might be suitable as an ingredient for a wide range of value-added products. • Acid preservation is a suitable method to stabilize brown seaweed biomass. • Proximate composition of seaweed biomass was stable throughout the storage duration. • Total viable count (TVC) was relatively stable during storage. • The total phenolic content (TPC) of A. esculenta decreased with acid treatment. • A strong salt, seaweed, and sour flavor was detected in the acid preserved samples. [ABSTRACT FROM AUTHOR]

Published

2024